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the_stack_data/705960.c	//*************************************************************************** // // startup_ccs.c - Startup code for use with TI's Code Composer Studio. // // Copyright (c) 2007-2013 Texas Instruments Incorporated. All rights reserved. // Software License Agreement // // Texas Instruments (TI) is supplying this software for use solely and // exclusively on TI's microcontroller products. The software is owned by // TI and/or its suppliers, and is protected under applicable copyright // laws. You may not combine this software with "viral" open-source // software in order to form a larger program. // // THIS SOFTWARE IS PROVIDED "AS IS" AND WITH ALL FAULTS. // NO WARRANTIES, WHETHER EXPRESS, IMPLIED OR STATUTORY, INCLUDING, BUT // NOT LIMITED TO, IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE APPLY TO THIS SOFTWARE. TI SHALL NOT, UNDER ANY // CIRCUMSTANCES, BE LIABLE FOR SPECIAL, INCIDENTAL, OR CONSEQUENTIAL // DAMAGES, FOR ANY REASON WHATSOEVER. // // This is part of revision 10636 of the EK-LM3S1968 Firmware Package. // //************************************************************************* //************************************************************************* // // Forward declaration of the default fault handlers. // //************************************************************************* void ResetISR(void); static void NmiSR(void); static void FaultISR(void); static void IntDefaultHandler(void); //************************************************************************* // // External declaration for the reset handler that is to be called when the // processor is started // //************************************************************************* extern void _c_int00(void); //************************************************************************* // // Linker variable that marks the top of the stack. // //************************************************************************* extern unsigned long __STACK_TOP; //************************************************************************* // // External declaration for the interrupt handler used by the application. // //************************************************************************* extern void SysTickHandler(void); //************************************************************************* // // The vector table. Note that the proper constructs must be placed on this to // ensure that it ends up at physical address 0x0000.0000 or at the start of // the program if located at a start address other than 0. // //*************************************************************************** #pragma DATA_SECTION(g_pfnVectors, ".intvecs") void (* const g_pfnVectors[])(void) = { (void ()(void))((unsigned long)&__STACK_TOP), // The initial stack pointer ResetISR, // The reset handler NmiSR, // The NMI handler FaultISR, // The hard fault handler IntDefaultHandler, // The MPU fault handler IntDefaultHandler, // The bus fault handler IntDefaultHandler, // The usage fault handler 0, // Reserved 0, // Reserved 0, // Reserved 0, // Reserved IntDefaultHandler, // SVCall handler IntDefaultHandler, // Debug monitor handler 0, // Reserved IntDefaultHandler, // The PendSV handler SysTickHandler, // The SysTick handler IntDefaultHandler, // GPIO Port A IntDefaultHandler, // GPIO Port B IntDefaultHandler, // GPIO Port C IntDefaultHandler, // GPIO Port D IntDefaultHandler, // GPIO Port E IntDefaultHandler, // UART0 Rx and Tx IntDefaultHandler, // UART1 Rx and Tx IntDefaultHandler, // SSI0 Rx and Tx IntDefaultHandler, // I2C0 Master and Slave IntDefaultHandler, // PWM Fault IntDefaultHandler, // PWM Generator 0 IntDefaultHandler, // PWM Generator 1 IntDefaultHandler, // PWM Generator 2 IntDefaultHandler, // Quadrature Encoder 0 IntDefaultHandler, // ADC Sequence 0 IntDefaultHandler, // ADC Sequence 1 IntDefaultHandler, // ADC Sequence 2 IntDefaultHandler, // ADC Sequence 3 IntDefaultHandler, // Watchdog timer IntDefaultHandler, // Timer 0 subtimer A IntDefaultHandler, // Timer 0 subtimer B IntDefaultHandler, // Timer 1 subtimer A IntDefaultHandler, // Timer 1 subtimer B IntDefaultHandler, // Timer 2 subtimer A IntDefaultHandler, // Timer 2 subtimer B IntDefaultHandler, // Analog Comparator 0 IntDefaultHandler, // Analog Comparator 1 IntDefaultHandler, // Analog Comparator 2 IntDefaultHandler, // System Control (PLL, OSC, BO) IntDefaultHandler, // FLASH Control IntDefaultHandler, // GPIO Port F IntDefaultHandler, // GPIO Port G IntDefaultHandler, // GPIO Port H IntDefaultHandler, // UART2 Rx and Tx IntDefaultHandler, // SSI1 Rx and Tx IntDefaultHandler, // Timer 3 subtimer A IntDefaultHandler, // Timer 3 subtimer B IntDefaultHandler, // I2C1 Master and Slave IntDefaultHandler, // Quadrature Encoder 1 IntDefaultHandler, // CAN0 IntDefaultHandler, // CAN1 IntDefaultHandler, // CAN2 IntDefaultHandler, // Ethernet IntDefaultHandler // Hibernate }; //************************************************************************** // // This is the code that gets called when the processor first starts execution // following a reset event. Only the absolutely necessary set is performed, // after which the application supplied entry() routine is called. Any fancy // actions (such as making decisions based on the reset cause register, and // resetting the bits in that register) are left solely in the hands of the // application. // //************************************************************************* void ResetISR(void) { // // Jump to the CCS C initialization routine. // __asm(" .global _c_int00\n" " b.w _c_int00"); } //************************************************************************* // // This is the code that gets called when the processor receives a NMI. This // simply enters an infinite loop, preserving the system state for examination // by a debugger. // //************************************************************************* static void NmiSR(void) { // // Enter an infinite loop. // while(1) { } } //************************************************************************* // // This is the code that gets called when the processor receives a fault // interrupt. This simply enters an infinite loop, preserving the system state // for examination by a debugger. // //************************************************************************* static void FaultISR(void) { // // Enter an infinite loop. // while(1) { } } //************************************************************************* // // This is the code that gets called when the processor receives an unexpected // interrupt. This simply enters an infinite loop, preserving the system state // for examination by a debugger. // //*************************************************************************** static void IntDefaultHandler(void) { // // Go into an infinite loop. // while(1) { } }
the_stack_data/154832139.c	#include <stdio.h> #include <stdlib.h> int main(void) { int qtdNames; FILE *file; char name[40]; printf("How many names do you want to add? "); scanf("%d", &qtdNames); // opening file in write mode file = fopen("test-file.txt", "w"); // reading names and appending it into the file for (int i = 1; i <= qtdNames; i++) { printf("Enter %do name: ", i); scanf("%s", name); fprintf(file, "%s\n", name); } // closing file fclose(file); // openning file in read mode file = fopen("test-file.txt", "r"); // displaying context of the file printf("\nThere are these names in the file:\n"); for (int i = 1; i <= qtdNames; i++) { // reding name from file fscanf(file, "%s", name); // displaying name on screen printf("%s\n", name); } // closing file fclose(file); return 0; }
the_stack_data/11075738.c	#include <stdio.h> // this could move to one header file, then dynamic include it #undef LOG #ifdef INST #define LOG(s, ...) printf("inst=%#x " s, INST, ##__VA_ARGS__) #else #define LOG(s, ...) printf(s, ##__VA_ARGS__) #endif int main(void) { int inst0 = 0xdead; int inst1 = 0xbeef; // not defintion of INST, so only output simple log LOG("test, %s\n", "no inst"); #undef INST #define INST inst0 #undef LOG #ifdef INST #define LOG(s, ...) printf("inst=%#x " s, INST, ##__VA_ARGS__) #else #define LOG(s, ...) printf(s, ##__VA_ARGS__) #endif // definition of INST, will output inst LOG("test, %s\n", "world"); #undef INST #define INST inst1 // redefinition of INST, will output inst1 as inst LOG("test, %s\n", "again"); return 0; }
the_stack_data/142084.c	/* Copyright 2014-2017 Free Software Foundation, Inc. This file is part of GDB. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see <http://www.gnu.org/licenses/>. */ int test; void b_main (void) { test = 42; }
the_stack_data/179829336.c	#ifdef STM32F0xx #include "stm32f0xx_hal_comp.c" #endif #ifdef STM32F3xx #include "stm32f3xx_hal_comp.c" #endif #ifdef STM32G0xx #include "stm32g0xx_hal_comp.c" #endif #ifdef STM32G4xx #include "stm32g4xx_hal_comp.c" #endif #ifdef STM32H7xx #include "stm32h7xx_hal_comp.c" #endif #ifdef STM32L0xx #include "stm32l0xx_hal_comp.c" #endif #ifdef STM32L1xx #include "stm32l1xx_hal_comp.c" #endif #ifdef STM32L4xx #include "stm32l4xx_hal_comp.c" #endif #ifdef STM32WBxx #include "stm32wbxx_hal_comp.c" #endif
the_stack_data/1154917.c	/* ************************************************************************** / / / / :::::::: / / ft_tolower.c :+: :+: / / +:+ / / By: mvan-eng <[email protected]> +#+ / / +#+ / / Created: 2019/01/14 11:49:13 by mvan-eng #+# #+# / / Updated: 2022/01/11 13:33:52 by merlijn ######## odam.nl / / / / ************************************************************************** */ int ft_tolower(int c) { if (c > 64 && c < 91) c = c + 32; return (c); }
the_stack_data/15762257.c	/* * * Rand.c * * - linear and additive congruential random number generators * (see R. Sedgewick, Algorithms, Chapter 35) * * Implementation: R. Fuchs, EMBL Data Library, 1991 * / #include <stdio.h> unsigned long linrand(unsigned long r); unsigned long addrand(unsigned long r); void addrandinit(unsigned long s); static unsigned long mult(unsigned long p,unsigned long q); #define m1 10000 #define m 100000000 static unsigned long mult(unsigned long p, unsigned long q); / linear congruential method * * linrand() returns an unsigned long random number in the range 0 to r-1 / unsigned long linrand(unsigned long r) { static unsigned long a=1234567; a = (mult(a,31415821)+1) % m; return( ( (a / m1) r) / m1 ); } static unsigned long mult(unsigned long p, unsigned long q) { unsigned long p1,p0,q1,q0; p1 = p/m1; p0 = p % m1; q1 = q/m1; q0 = q % m1; return((((p0q1 + p1q0) % m1) * m1 + p0q0) % m); } / additive congruential method * * addrand() returns an unsigned long random number in the range 0 to r-1 * The random number generator is initialized by addrandinit() / static unsigned long j; static unsigned long a[55]; unsigned long addrand(unsigned long r) { int x,y; / fprintf(stdout,"\n j = %d",j); / j = (j + 1) % 55; / fprintf(stdout,"\n j = %d",j); / x = (j+23)%55; y = (j+54)%55; a[j] = (a[x] + a[y]) % m; / a[j] = (a[(j+23)%55] + a[(j+54)%55]) % m; / / fprintf(stdout,"\n a[j] = %d",a[j]); / return( ((a[j] / m1) r) / m1 ); } void addrandinit(unsigned long s) { a[0] = s; j = 0; do { ++j; a[j] = (mult(31,a[j-1]) + 1) % m; } while (j<54); }
the_stack_data/22011675.c	// RUN: %clang_cc1 -no-opaque-pointers -Wall -Wno-unused-but-set-variable -Werror -triple thumbv7-eabi -target-cpu cortex-a8 -disable-O0-optnone -emit-llvm -o - %s \| opt -S -mem2reg \| FileCheck %s #include <stdint.h> void f0(void) { return __builtin_thread_pointer(); } void f1(char a, char b) { // CHECK: call {{.}} @__clear_cache __clear_cache(a,b); } float test_vcvtrf0(float f) { // CHECK: call float @llvm.arm.vcvtr.f32(float %f) return __builtin_arm_vcvtr_f(f, 0); } float test_vcvtrf1(float f) { // CHECK: call float @llvm.arm.vcvtru.f32(float %f) return __builtin_arm_vcvtr_f(f, 1); } double test_vcvtrd0(double d) { // CHECK: call float @llvm.arm.vcvtr.f64(double %d) return __builtin_arm_vcvtr_d(d, 0); } double test_vcvtrd1(double d) { // call float @llvm.arm.vcvtru.f64(double %d) return __builtin_arm_vcvtr_d(d, 1); } void test_eh_return_data_regno(void) { // CHECK: store volatile i32 0 // CHECK: store volatile i32 1 volatile int res; res = __builtin_eh_return_data_regno(0); res = __builtin_eh_return_data_regno(1); } void nop(void) { // CHECK: call {{.}} @llvm.arm.hint(i32 0) __builtin_arm_nop(); } void yield(void) { // CHECK: call {{.}} @llvm.arm.hint(i32 1) __builtin_arm_yield(); } void wfe(void) { // CHECK: call {{.}} @llvm.arm.hint(i32 2) __builtin_arm_wfe(); } void wfi(void) { // CHECK: call {{.}} @llvm.arm.hint(i32 3) __builtin_arm_wfi(); } void sev(void) { // CHECK: call {{.}} @llvm.arm.hint(i32 4) __builtin_arm_sev(); } void sevl(void) { // CHECK: call {{.}} @llvm.arm.hint(i32 5) __builtin_arm_sevl(); } void dbg(void) { // CHECK: call {{.}} @llvm.arm.dbg(i32 0) __builtin_arm_dbg(0); } void test_barrier(void) { //CHECK: call {{.}} @llvm.arm.dmb(i32 1) //CHECK: call {{.}} @llvm.arm.dsb(i32 2) //CHECK: call {{.}} @llvm.arm.isb(i32 3) __builtin_arm_dmb(1); __builtin_arm_dsb(2); __builtin_arm_isb(3); } unsigned rbit(unsigned a) { // CHECK: call {{.}} @llvm.bitreverse.i32(i32 %a) return __builtin_arm_rbit(a); } void prefetch(int i) { __builtin_arm_prefetch(&i, 0, 1); // CHECK: call {{.}} @llvm.prefetch.p0i8(i8* %{{.}}, i32 0, i32 3, i32 1) __builtin_arm_prefetch(&i, 1, 1); // CHECK: call {{.}} @llvm.prefetch.p0i8(i8* %{{.}}, i32 1, i32 3, i32 1) __builtin_arm_prefetch(&i, 1, 0); // CHECK: call {{.}} @llvm.prefetch.p0i8(i8* %{{.}}, i32 1, i32 3, i32 0) } void ldc(const void i) { // CHECK: define{{.}} void @ldc(i8 noundef %i) // CHECK: call void @llvm.arm.ldc(i32 1, i32 2, i8* %i) // CHECK-NEXT: ret void __builtin_arm_ldc(1, 2, i); } void ldcl(const void i) { // CHECK: define{{.}} void @ldcl(i8* noundef %i) // CHECK: call void @llvm.arm.ldcl(i32 1, i32 2, i8* %i) // CHECK-NEXT: ret void __builtin_arm_ldcl(1, 2, i); } void ldc2(const void i) { // CHECK: define{{.}} void @ldc2(i8* noundef %i) // CHECK: call void @llvm.arm.ldc2(i32 1, i32 2, i8* %i) // CHECK-NEXT: ret void __builtin_arm_ldc2(1, 2, i); } void ldc2l(const void i) { // CHECK: define{{.}} void @ldc2l(i8* noundef %i) // CHECK: call void @llvm.arm.ldc2l(i32 1, i32 2, i8* %i) // CHECK-NEXT: ret void __builtin_arm_ldc2l(1, 2, i); } void stc(void i) { // CHECK: define{{.}} void @stc(i8* noundef %i) // CHECK: call void @llvm.arm.stc(i32 1, i32 2, i8* %i) // CHECK-NEXT: ret void __builtin_arm_stc(1, 2, i); } void stcl(void i) { // CHECK: define{{.}} void @stcl(i8* noundef %i) // CHECK: call void @llvm.arm.stcl(i32 1, i32 2, i8* %i) // CHECK-NEXT: ret void __builtin_arm_stcl(1, 2, i); } void stc2(void i) { // CHECK: define{{.}} void @stc2(i8* noundef %i) // CHECK: call void @llvm.arm.stc2(i32 1, i32 2, i8* %i) // CHECK-NEXT: ret void __builtin_arm_stc2(1, 2, i); } void stc2l(void i) { // CHECK: define{{.}} void @stc2l(i8* noundef %i) // CHECK: call void @llvm.arm.stc2l(i32 1, i32 2, i8* %i) // CHECK-NEXT: ret void __builtin_arm_stc2l(1, 2, i); } void cdp(void) { // CHECK: define{{.}} void @cdp() // CHECK: call void @llvm.arm.cdp(i32 1, i32 2, i32 3, i32 4, i32 5, i32 6) // CHECK-NEXT: ret void __builtin_arm_cdp(1, 2, 3, 4, 5, 6); } void cdp2(void) { // CHECK: define{{.}} void @cdp2() // CHECK: call void @llvm.arm.cdp2(i32 1, i32 2, i32 3, i32 4, i32 5, i32 6) // CHECK-NEXT: ret void __builtin_arm_cdp2(1, 2, 3, 4, 5, 6); } unsigned mrc(void) { // CHECK: define{{.}} i32 @mrc() // CHECK: [[R:%.]] = call i32 @llvm.arm.mrc(i32 15, i32 0, i32 13, i32 0, i32 3) // CHECK-NEXT: ret i32 [[R]] return __builtin_arm_mrc(15, 0, 13, 0, 3); } unsigned mrc2(void) { // CHECK: define{{.}} i32 @mrc2() // CHECK: [[R:%.]] = call i32 @llvm.arm.mrc2(i32 15, i32 0, i32 13, i32 0, i32 3) // CHECK-NEXT: ret i32 [[R]] return __builtin_arm_mrc2(15, 0, 13, 0, 3); } void mcr(unsigned a) { // CHECK: define{{.}} void @mcr(i32 noundef [[A:%.]]) // CHECK: call void @llvm.arm.mcr(i32 15, i32 0, i32 [[A]], i32 13, i32 0, i32 3) __builtin_arm_mcr(15, 0, a, 13, 0, 3); } void mcr2(unsigned a) { // CHECK: define{{.}} void @mcr2(i32 noundef [[A:%.]]) // CHECK: call void @llvm.arm.mcr2(i32 15, i32 0, i32 [[A]], i32 13, i32 0, i32 3) __builtin_arm_mcr2(15, 0, a, 13, 0, 3); } void mcrr(uint64_t a) { // CHECK: define{{.}} void @mcrr(i64 noundef %{{.}}) // CHECK: call void @llvm.arm.mcrr(i32 15, i32 0, i32 %{{[0-9]+}}, i32 %{{[0-9]+}}, i32 0) __builtin_arm_mcrr(15, 0, a, 0); } void mcrr2(uint64_t a) { // CHECK: define{{.}} void @mcrr2(i64 noundef %{{.}}) // CHECK: call void @llvm.arm.mcrr2(i32 15, i32 0, i32 %{{[0-9]+}}, i32 %{{[0-9]+}}, i32 0) __builtin_arm_mcrr2(15, 0, a, 0); } uint64_t mrrc(void) { // CHECK: define{{.}} i64 @mrrc() // CHECK: call { i32, i32 } @llvm.arm.mrrc(i32 15, i32 0, i32 0) return __builtin_arm_mrrc(15, 0, 0); } uint64_t mrrc2(void) { // CHECK: define{{.}} i64 @mrrc2() // CHECK: call { i32, i32 } @llvm.arm.mrrc2(i32 15, i32 0, i32 0) return __builtin_arm_mrrc2(15, 0, 0); } unsigned rsr(void) { // CHECK: [[V0:[%A-Za-z0-9.]+]] = call i32 @llvm.read_volatile_register.i32(metadata ![[M0:.]]) // CHECK-NEXT: ret i32 [[V0]] return __builtin_arm_rsr("cp1:2:c3:c4:5"); } unsigned long long rsr64(void) { // CHECK: [[V0:[%A-Za-z0-9.]+]] = call i64 @llvm.read_volatile_register.i64(metadata ![[M1:.]]) // CHECK-NEXT: ret i64 [[V0]] return __builtin_arm_rsr64("cp1:2:c3"); } void rsrp(void) { // CHECK: [[V0:[%A-Za-z0-9.]+]] = call i32 @llvm.read_volatile_register.i32(metadata ![[M2:.]]) // CHECK-NEXT: [[V1:[%A-Za-z0-9.]+]] = inttoptr i32 [[V0]] to i8* // CHECK-NEXT: ret i8* [[V1]] return __builtin_arm_rsrp("sysreg"); } void wsr(unsigned v) { // CHECK: call void @llvm.write_register.i32(metadata ![[M0]], i32 %v) __builtin_arm_wsr("cp1:2:c3:c4:5", v); } void wsr64(unsigned long long v) { // CHECK: call void @llvm.write_register.i64(metadata ![[M1]], i64 %v) __builtin_arm_wsr64("cp1:2:c3", v); } void wsrp(void v) { // CHECK: [[V0:[%A-Za-z0-9.]+]] = ptrtoint i8 %v to i32 // CHECK-NEXT: call void @llvm.write_register.i32(metadata ![[M2]], i32 [[V0]]) __builtin_arm_wsrp("sysreg", v); } unsigned int cls(uint32_t v) { // CHECK: call i32 @llvm.arm.cls(i32 %v) return __builtin_arm_cls(v); } unsigned int clsl(unsigned long v) { // CHECK: call i32 @llvm.arm.cls(i32 %v) return __builtin_arm_cls(v); } unsigned int clsll(uint64_t v) { // CHECK: call i32 @llvm.arm.cls64(i64 %v) return __builtin_arm_cls64(v); } // CHECK: ![[M0]] = !{!"cp1:2:c3:c4:5"} // CHECK: ![[M1]] = !{!"cp1:2:c3"} // CHECK: ![[M2]] = !{!"sysreg"}
the_stack_data/484951.c	// RUN: %clang_cc1 -emit-llvm < %s > %t // RUN: FileCheck %s --check-prefix=PRESENT < %t // RUN: FileCheck %s --check-prefix=ABSENT < %t // RUN: %clang_cc1 -emit-llvm -Os < %s > %t // RUN: FileCheck %s --check-prefix=PRESENT < %t // RUN: FileCheck %s --check-prefix=OPTSIZE < %t __attribute__((always_inline)) int test2() { return 0; } // OPTSIZE: @test2{{.}}[[ATTR2:#[0-9]+]] __attribute__((optnone)) __attribute__((minsize)) int test3() { return 0; } // PRESENT-DAG: @test3{{.}}[[ATTR3:#[0-9]+]] __attribute__((optnone)) __attribute__((cold)) int test4() { return test2(); } // PRESENT-DAG: @test4{{.}}[[ATTR4:#[0-9]+]] // Also check that test2 is inlined into test4 (always_inline still works). // PRESENT-NOT: call i32 @test2 // Check for both noinline and optnone on each optnone function. // PRESENT-DAG: attributes [[ATTR3]] = { {{.}}noinline{{.}}optnone{{.}} } // PRESENT-DAG: attributes [[ATTR4]] = { {{.}}noinline{{.}}optnone{{.}} } // Check that no 'optsize' or 'minsize' attributes appear. // ABSENT-NOT: optsize // ABSENT-NOT: minsize // With -Os, check that 'optsize' appears only on test2. // OPTSIZE-NOT: optsize // OPTSIZE: attributes [[ATTR2]] = { {{.}}optsize{{.*}} } // OPTSIZE-NOT: optsize
the_stack_data/1035320.c	/* STRING CONCATENATE The strings `s1' and `s2' are concatenated and stored into `s3'. It is ok for `s1' to equal `s3', but terrible things will happen if `s2' equals `s3'. The return value is is a pointer to the end of `s3' field. / char concat(s1, s2, s3) char s1, s2, s3; { register char p; register char q; p = s3; q = s1; while (q) p++ = q++; q = s2; while (q) p++ = q++; p = 0; return (p); }
the_stack_data/762334.c	extern float __VERIFIER_nondet_float(void); extern int __VERIFIER_nondet_int(void); typedef enum {false, true} bool; bool __VERIFIER_nondet_bool(void) { return __VERIFIER_nondet_int() != 0; } int main() { bool _J541, _x__J541; float x_9, _x_x_9; bool _J532, _x__J532; bool _EL_U_514, _x__EL_U_514; float x_8, _x_x_8; float x_7, _x_x_7; float x_2, _x_x_2; float x_5, _x_x_5; float x_1, _x_x_1; bool _EL_U_513, _x__EL_U_513; float x_6, _x_x_6; float x_10, _x_x_10; float x_4, _x_x_4; float x_3, _x_x_3; float x_0, _x_x_0; float x_11, _x_x_11; int __steps_to_fair = __VERIFIER_nondet_int(); _J541 = __VERIFIER_nondet_bool(); x_9 = __VERIFIER_nondet_float(); _J532 = __VERIFIER_nondet_bool(); _EL_U_514 = __VERIFIER_nondet_bool(); x_8 = __VERIFIER_nondet_float(); x_7 = __VERIFIER_nondet_float(); x_2 = __VERIFIER_nondet_float(); x_5 = __VERIFIER_nondet_float(); x_1 = __VERIFIER_nondet_float(); _EL_U_513 = __VERIFIER_nondet_bool(); x_6 = __VERIFIER_nondet_float(); x_10 = __VERIFIER_nondet_float(); x_4 = __VERIFIER_nondet_float(); x_3 = __VERIFIER_nondet_float(); x_0 = __VERIFIER_nondet_float(); x_11 = __VERIFIER_nondet_float(); bool __ok = (1 && ((( !((((x_3 + (-1.0 * x_11)) <= 13.0) \|\| (((x_3 + (-1.0 * x_10)) <= -19.0) && _EL_U_513)) \|\| ((3.0 <= (x_5 + (-1.0 * x_8))) && _EL_U_514))) && ( !_J532)) && ( !_J541))); while (__steps_to_fair >= 0 && __ok) { if ((_J532 && _J541)) { __steps_to_fair = __VERIFIER_nondet_int(); } else { __steps_to_fair--; } _x__J541 = __VERIFIER_nondet_bool(); _x_x_9 = __VERIFIER_nondet_float(); _x__J532 = __VERIFIER_nondet_bool(); _x__EL_U_514 = __VERIFIER_nondet_bool(); _x_x_8 = __VERIFIER_nondet_float(); _x_x_7 = __VERIFIER_nondet_float(); _x_x_2 = __VERIFIER_nondet_float(); _x_x_5 = __VERIFIER_nondet_float(); _x_x_1 = __VERIFIER_nondet_float(); _x__EL_U_513 = __VERIFIER_nondet_bool(); _x_x_6 = __VERIFIER_nondet_float(); _x_x_10 = __VERIFIER_nondet_float(); _x_x_4 = __VERIFIER_nondet_float(); _x_x_3 = __VERIFIER_nondet_float(); _x_x_0 = __VERIFIER_nondet_float(); _x_x_11 = __VERIFIER_nondet_float(); __ok = ((((((((((((((((x_11 + (-1.0 * _x_x_0)) <= -8.0) && (((x_9 + (-1.0 * _x_x_0)) <= -15.0) && (((x_4 + (-1.0 * _x_x_0)) <= -1.0) && (((x_3 + (-1.0 * _x_x_0)) <= -17.0) && (((x_0 + (-1.0 * _x_x_0)) <= -6.0) && ((x_2 + (-1.0 * _x_x_0)) <= -17.0)))))) && (((x_11 + (-1.0 * _x_x_0)) == -8.0) \|\| (((x_9 + (-1.0 * _x_x_0)) == -15.0) \|\| (((x_4 + (-1.0 * _x_x_0)) == -1.0) \|\| (((x_3 + (-1.0 * _x_x_0)) == -17.0) \|\| (((x_0 + (-1.0 * _x_x_0)) == -6.0) \|\| ((x_2 + (-1.0 * _x_x_0)) == -17.0))))))) && ((((x_8 + (-1.0 * _x_x_1)) <= -14.0) && (((x_5 + (-1.0 * _x_x_1)) <= -17.0) && (((x_4 + (-1.0 * _x_x_1)) <= -8.0) && (((x_3 + (-1.0 * _x_x_1)) <= -12.0) && (((x_1 + (-1.0 * _x_x_1)) <= -17.0) && ((x_2 + (-1.0 * _x_x_1)) <= -17.0)))))) && (((x_8 + (-1.0 * _x_x_1)) == -14.0) \|\| (((x_5 + (-1.0 * _x_x_1)) == -17.0) \|\| (((x_4 + (-1.0 * _x_x_1)) == -8.0) \|\| (((x_3 + (-1.0 * _x_x_1)) == -12.0) \|\| (((x_1 + (-1.0 * _x_x_1)) == -17.0) \|\| ((x_2 + (-1.0 * _x_x_1)) == -17.0)))))))) && ((((x_10 + (-1.0 * _x_x_2)) <= -11.0) && (((x_9 + (-1.0 * _x_x_2)) <= -5.0) && (((x_8 + (-1.0 * _x_x_2)) <= -11.0) && (((x_6 + (-1.0 * _x_x_2)) <= -20.0) && (((x_2 + (-1.0 * _x_x_2)) <= -17.0) && ((x_3 + (-1.0 * _x_x_2)) <= -8.0)))))) && (((x_10 + (-1.0 * _x_x_2)) == -11.0) \|\| (((x_9 + (-1.0 * _x_x_2)) == -5.0) \|\| (((x_8 + (-1.0 * _x_x_2)) == -11.0) \|\| (((x_6 + (-1.0 * _x_x_2)) == -20.0) \|\| (((x_2 + (-1.0 * _x_x_2)) == -17.0) \|\| ((x_3 + (-1.0 * _x_x_2)) == -8.0)))))))) && ((((x_8 + (-1.0 * _x_x_3)) <= -1.0) && (((x_7 + (-1.0 * _x_x_3)) <= -5.0) && (((x_5 + (-1.0 * _x_x_3)) <= -14.0) && (((x_4 + (-1.0 * _x_x_3)) <= -18.0) && (((x_0 + (-1.0 * _x_x_3)) <= -6.0) && ((x_2 + (-1.0 * _x_x_3)) <= -10.0)))))) && (((x_8 + (-1.0 * _x_x_3)) == -1.0) \|\| (((x_7 + (-1.0 * _x_x_3)) == -5.0) \|\| (((x_5 + (-1.0 * _x_x_3)) == -14.0) \|\| (((x_4 + (-1.0 * _x_x_3)) == -18.0) \|\| (((x_0 + (-1.0 * _x_x_3)) == -6.0) \|\| ((x_2 + (-1.0 * _x_x_3)) == -10.0)))))))) && ((((x_10 + (-1.0 * _x_x_4)) <= -17.0) && (((x_8 + (-1.0 * _x_x_4)) <= -4.0) && (((x_7 + (-1.0 * _x_x_4)) <= -18.0) && (((x_3 + (-1.0 * _x_x_4)) <= -4.0) && (((x_1 + (-1.0 * _x_x_4)) <= -7.0) && ((x_2 + (-1.0 * _x_x_4)) <= -10.0)))))) && (((x_10 + (-1.0 * _x_x_4)) == -17.0) \|\| (((x_8 + (-1.0 * _x_x_4)) == -4.0) \|\| (((x_7 + (-1.0 * _x_x_4)) == -18.0) \|\| (((x_3 + (-1.0 * _x_x_4)) == -4.0) \|\| (((x_1 + (-1.0 * _x_x_4)) == -7.0) \|\| ((x_2 + (-1.0 * _x_x_4)) == -10.0)))))))) && ((((x_8 + (-1.0 * _x_x_5)) <= -6.0) && (((x_7 + (-1.0 * _x_x_5)) <= -12.0) && (((x_5 + (-1.0 * _x_x_5)) <= -18.0) && (((x_3 + (-1.0 * _x_x_5)) <= -5.0) && (((x_1 + (-1.0 * _x_x_5)) <= -8.0) && ((x_2 + (-1.0 * _x_x_5)) <= -6.0)))))) && (((x_8 + (-1.0 * _x_x_5)) == -6.0) \|\| (((x_7 + (-1.0 * _x_x_5)) == -12.0) \|\| (((x_5 + (-1.0 * _x_x_5)) == -18.0) \|\| (((x_3 + (-1.0 * _x_x_5)) == -5.0) \|\| (((x_1 + (-1.0 * _x_x_5)) == -8.0) \|\| ((x_2 + (-1.0 * _x_x_5)) == -6.0)))))))) && ((((x_9 + (-1.0 * _x_x_6)) <= -2.0) && (((x_7 + (-1.0 * _x_x_6)) <= -19.0) && (((x_6 + (-1.0 * _x_x_6)) <= -4.0) && (((x_4 + (-1.0 * _x_x_6)) <= -7.0) && (((x_0 + (-1.0 * _x_x_6)) <= -13.0) && ((x_3 + (-1.0 * _x_x_6)) <= -16.0)))))) && (((x_9 + (-1.0 * _x_x_6)) == -2.0) \|\| (((x_7 + (-1.0 * _x_x_6)) == -19.0) \|\| (((x_6 + (-1.0 * _x_x_6)) == -4.0) \|\| (((x_4 + (-1.0 * _x_x_6)) == -7.0) \|\| (((x_0 + (-1.0 * _x_x_6)) == -13.0) \|\| ((x_3 + (-1.0 * _x_x_6)) == -16.0)))))))) && ((((x_11 + (-1.0 * _x_x_7)) <= -11.0) && (((x_9 + (-1.0 * _x_x_7)) <= -19.0) && (((x_8 + (-1.0 * _x_x_7)) <= -19.0) && (((x_6 + (-1.0 * _x_x_7)) <= -15.0) && (((x_2 + (-1.0 * _x_x_7)) <= -11.0) && ((x_3 + (-1.0 * _x_x_7)) <= -14.0)))))) && (((x_11 + (-1.0 * _x_x_7)) == -11.0) \|\| (((x_9 + (-1.0 * _x_x_7)) == -19.0) \|\| (((x_8 + (-1.0 * _x_x_7)) == -19.0) \|\| (((x_6 + (-1.0 * _x_x_7)) == -15.0) \|\| (((x_2 + (-1.0 * _x_x_7)) == -11.0) \|\| ((x_3 + (-1.0 * _x_x_7)) == -14.0)))))))) && ((((x_10 + (-1.0 * _x_x_8)) <= -10.0) && (((x_6 + (-1.0 * _x_x_8)) <= -12.0) && (((x_5 + (-1.0 * _x_x_8)) <= -20.0) && (((x_3 + (-1.0 * _x_x_8)) <= -17.0) && (((x_0 + (-1.0 * _x_x_8)) <= -12.0) && ((x_1 + (-1.0 * _x_x_8)) <= -2.0)))))) && (((x_10 + (-1.0 * _x_x_8)) == -10.0) \|\| (((x_6 + (-1.0 * _x_x_8)) == -12.0) \|\| (((x_5 + (-1.0 * _x_x_8)) == -20.0) \|\| (((x_3 + (-1.0 * _x_x_8)) == -17.0) \|\| (((x_0 + (-1.0 * _x_x_8)) == -12.0) \|\| ((x_1 + (-1.0 * _x_x_8)) == -2.0)))))))) && ((((x_11 + (-1.0 * _x_x_9)) <= -5.0) && (((x_10 + (-1.0 * _x_x_9)) <= -14.0) && (((x_7 + (-1.0 * _x_x_9)) <= -18.0) && (((x_5 + (-1.0 * _x_x_9)) <= -4.0) && (((x_1 + (-1.0 * _x_x_9)) <= -2.0) && ((x_4 + (-1.0 * _x_x_9)) <= -10.0)))))) && (((x_11 + (-1.0 * _x_x_9)) == -5.0) \|\| (((x_10 + (-1.0 * _x_x_9)) == -14.0) \|\| (((x_7 + (-1.0 * _x_x_9)) == -18.0) \|\| (((x_5 + (-1.0 * _x_x_9)) == -4.0) \|\| (((x_1 + (-1.0 * _x_x_9)) == -2.0) \|\| ((x_4 + (-1.0 * _x_x_9)) == -10.0)))))))) && ((((x_9 + (-1.0 * _x_x_10)) <= -3.0) && (((x_8 + (-1.0 * _x_x_10)) <= -19.0) && (((x_5 + (-1.0 * _x_x_10)) <= -16.0) && (((x_4 + (-1.0 * _x_x_10)) <= -2.0) && (((x_0 + (-1.0 * _x_x_10)) <= -6.0) && ((x_1 + (-1.0 * _x_x_10)) <= -16.0)))))) && (((x_9 + (-1.0 * _x_x_10)) == -3.0) \|\| (((x_8 + (-1.0 * _x_x_10)) == -19.0) \|\| (((x_5 + (-1.0 * _x_x_10)) == -16.0) \|\| (((x_4 + (-1.0 * _x_x_10)) == -2.0) \|\| (((x_0 + (-1.0 * _x_x_10)) == -6.0) \|\| ((x_1 + (-1.0 * _x_x_10)) == -16.0)))))))) && ((((x_11 + (-1.0 * _x_x_11)) <= -11.0) && (((x_10 + (-1.0 * _x_x_11)) <= -19.0) && (((x_9 + (-1.0 * _x_x_11)) <= -12.0) && (((x_4 + (-1.0 * _x_x_11)) <= -10.0) && (((x_1 + (-1.0 * _x_x_11)) <= -13.0) && ((x_3 + (-1.0 * _x_x_11)) <= -17.0)))))) && (((x_11 + (-1.0 * _x_x_11)) == -11.0) \|\| (((x_10 + (-1.0 * _x_x_11)) == -19.0) \|\| (((x_9 + (-1.0 * _x_x_11)) == -12.0) \|\| (((x_4 + (-1.0 * _x_x_11)) == -10.0) \|\| (((x_1 + (-1.0 * _x_x_11)) == -13.0) \|\| ((x_3 + (-1.0 * _x_x_11)) == -17.0)))))))) && ((((_EL_U_513 == ((_x__EL_U_513 && ((_x_x_3 + (-1.0 * _x_x_10)) <= -19.0)) \|\| ((_x_x_3 + (-1.0 * _x_x_11)) <= 13.0))) && (_EL_U_514 == (((_x__EL_U_513 && ((_x_x_3 + (-1.0 * _x_x_10)) <= -19.0)) \|\| ((_x_x_3 + (-1.0 * _x_x_11)) <= 13.0)) \|\| (_x__EL_U_514 && (3.0 <= (_x_x_5 + (-1.0 * _x_x_8))))))) && (_x__J532 == (( !(_J532 && _J541)) && ((_J532 && _J541) \|\| ((((x_3 + (-1.0 * x_11)) <= 13.0) \|\| ( !(((x_3 + (-1.0 * x_11)) <= 13.0) \|\| (((x_3 + (-1.0 * x_10)) <= -19.0) && _EL_U_513)))) \|\| _J532))))) && (_x__J541 == (( !(_J532 && _J541)) && ((_J532 && _J541) \|\| (((((x_3 + (-1.0 * x_11)) <= 13.0) \|\| (((x_3 + (-1.0 * x_10)) <= -19.0) && _EL_U_513)) \|\| ( !((((x_3 + (-1.0 * x_11)) <= 13.0) \|\| (((x_3 + (-1.0 * x_10)) <= -19.0) && _EL_U_513)) \|\| ((3.0 <= (x_5 + (-1.0 * x_8))) && _EL_U_514)))) \|\| _J541)))))); _J541 = _x__J541; x_9 = _x_x_9; _J532 = _x__J532; _EL_U_514 = _x__EL_U_514; x_8 = _x_x_8; x_7 = _x_x_7; x_2 = _x_x_2; x_5 = _x_x_5; x_1 = _x_x_1; _EL_U_513 = _x__EL_U_513; x_6 = _x_x_6; x_10 = _x_x_10; x_4 = _x_x_4; x_3 = _x_x_3; x_0 = _x_x_0; x_11 = _x_x_11; } }
the_stack_data/134802.c	/* +-======-+ Copyright (c) 2003-2007 United States Government as represented by the Admistrator of the National Aeronautics and Space Administration. All Rights Reserved. THIS OPEN SOURCE AGREEMENT ("AGREEMENT") DEFINES THE RIGHTS OF USE, REPRODUCTION, DISTRIBUTION, MODIFICATION AND REDISTRIBUTION OF CERTAIN COMPUTER SOFTWARE ORIGINALLY RELEASED BY THE UNITED STATES GOVERNMENT AS REPRESENTED BY THE GOVERNMENT AGENCY LISTED BELOW ("GOVERNMENT AGENCY"). THE UNITED STATES GOVERNMENT, AS REPRESENTED BY GOVERNMENT AGENCY, IS AN INTENDED THIRD-PARTY BENEFICIARY OF ALL SUBSEQUENT DISTRIBUTIONS OR REDISTRIBUTIONS OF THE SUBJECT SOFTWARE. ANYONE WHO USES, REPRODUCES, DISTRIBUTES, MODIFIES OR REDISTRIBUTES THE SUBJECT SOFTWARE, AS DEFINED HEREIN, OR ANY PART THEREOF, IS, BY THAT ACTION, ACCEPTING IN FULL THE RESPONSIBILITIES AND OBLIGATIONS CONTAINED IN THIS AGREEMENT. Government Agency: National Aeronautics and Space Administration Government Agency Original Software Designation: GSC-15354-1 Government Agency Original Software Title: GEOS-5 GCM Modeling Software User Registration Requested. Please Visit http://opensource.gsfc.nasa.gov Government Agency Point of Contact for Original Software: Dale Hithon, SRA Assistant, (301) 286-2691 +-======-+ / // $Id: hash.c,v 1.8 2012-08-22 16:51:40 adasilva Exp $ #ifndef sysAIX #include <stdio.h> #include <stdlib.h> #include <math.h> #include <limits.h> #define HASHCHUNK 32 #define HEAPCHUNK 4 #define FREE(A) (void)free(A); A=NULL typedef struct { int i,j,k,m; } entry_t; typedef struct{ entry_t entry_list; int next_entry, size; } bucket_t; typedef struct { bucket_t bucket_list; int num_entries, num_buckets; } hash_t; hash_t hash_heap=(hash_t )NULL; int hash_heap_size = HEAPCHUNK; int hash1(int key); int hash2(int i, int j); void init_hash(hash_t h, int nbuckets) { int l; bucket_t bucket; h->bucket_list = (bucket_t )malloc((size_t)(nbucketssizeof(bucket_t))); if(!h->bucket_list) { printf("hash.c $Name: Ganymed-4_0 $ line=%d : Could not allocate bucket list\n",__LINE__); exit(1); } for(l=0; l<nbuckets; l++) { bucket=h->bucket_list; (bucket+l)->entry_list=(entry_t )NULL; } h->num_entries = 0; h->num_buckets = nbuckets; } void init_bucket(bucket_t b) { b->size = HASHCHUNK; b->next_entry = 0; b->entry_list = (entry_t )malloc((size_t)(b->sizesizeof(entry_t))); if(!b->entry_list) { printf("hash.c $Name: Ganymed-4_0 $ line=%d : Could not allocate entry list\n",__LINE__); exit(1); } } // Create an empty hash with nbuckets int create_hash(int nbuckets) { int i, newhash; // If first time allocate a new heap and clear its bucket list if(!hash_heap) { hash_heap = (hash_t )malloc(hash_heap_sizesizeof(hash_t)); if(!hash_heap) { printf("hash.c $Name: Ganymed-4_0 $ line=%d : Could not allocate hash_heap\n",__LINE__); exit(1); } for(i=0;i<hash_heap_size;i++) hash_heap[i].bucket_list=(bucket_t )NULL; } // Find an unused hash on the heap, call it newhash. for(i=0;i<hash_heap_size;i++) { if(!hash_heap[i].bucket_list) break; } newhash = i; // If newhash requires bigger heap, reallocate it if(newhash==hash_heap_size) { hash_heap = (hash_t )realloc(hash_heap,sizeof(hash_t)(hash_heap_size+=HEAPCHUNK)); if(!hash_heap) { printf("hash.c $Name: Ganymed-4_0 $ line=%d : Could not expand hash_heap\n",__LINE__); exit(1); } for(i=newhash;i<hash_heap_size;i++) hash_heap[i].bucket_list=(bucket_t )NULL; } (void)init_hash(hash_heap+newhash,nbuckets); return newhash; } // Destroy the hash identified by handle h, releasing all its space void destroy_hash(int h) { int i; if(!hash_heap) { printf("hash.c $Name: Ganymed-4_0 $ line=%d : Attempt to destroy hash from empty heap\n",__LINE__); exit(1); } else if(!hash_heap[h].bucket_list) { printf("hash.c $Name: Ganymed-4_0 $ line=%d : Attempt to destroy uninitalized hash\n",__LINE__); exit(1); } else { for(i=0;i<hash_heap[h].num_buckets;i++) { FREE(hash_heap[h].bucket_list[i].entry_list); } FREE(hash_heap[h].bucket_list); } } int hash_size(int h) { int l, num; bucket_t bucket; hash_t hash; hash = hash_heap+h; num = 0; for(l=0; l<hash->num_buckets; l++) { bucket = hash->bucket_list + l; if(bucket->entry_list) num = num + bucket->next_entry; } return num; } void dump_hash(int h, int i, int j, int k) { int l, m, num; bucket_t bucket; entry_t entry; hash_t hash; hash = hash_heap+h; num = 0; for(l=0; l<hash->num_buckets; l++) { bucket = hash->bucket_list + l; for(m=0; m<bucket->next_entry; m++) { entry = (bucket->entry_list) + m; i[num]==entry->i; j[num]==entry->j; k[num]==entry->k; num++; } } } // Main hashing method checks hash for (i,j) pair. // If present it returns its Id. If not it adds // to the hash, giving the new entry the next id // value, and returns the Id. Currently the next Id // is determined by incrementing a counter. int increment_hash(int h, int i, int j, int k) { if(!hash_heap) { printf("hash.c $Name: Ganymed-4_0 $ line=%d : Attempt to increment hash from empty heap\n",__LINE__); exit(1); } else if(!(hash_heap[h].bucket_list)) { printf("hash.c $Name: Ganymed-4_0 $ line=%d : Attempt to increment uninitalized hash %d i=%d j=%d %ld\n", __LINE__,h,i,j,hash_heap[h].bucket_list); exit(1); } else { bucket_t bucket; entry_t entry; hash_t hash; int key; // Start if(j==INT_MAX && k==INT_MAX) key=hash1(i); else if(k==INT_MAX) key=hash2(i,j); else key=hash2(hash2(i,j),k); hash = hash_heap+h; bucket = hash->bucket_list + (key & (hash->num_buckets - 1)); if(!(bucket->entry_list)) { init_bucket(bucket); } else { int m; for(m=0; m<bucket->next_entry; m++) { entry = (bucket->entry_list) + m; if(entry->i==i && entry->j==j && entry->k==k) return entry->m; } if(bucket->next_entry == bucket->size) { bucket->size += HASHCHUNK; bucket->entry_list = (entry_t )realloc(bucket->entry_list,sizeof(entry_t)bucket->size); if(!bucket->entry_list) { printf("hash.c $Name: Ganymed-4_0 $ %d : Could not reallocate entry list\n",__LINE__); exit(1); } } } ++(hash->num_entries); entry = bucket->entry_list + bucket->next_entry++; entry->i = i; entry->j = j; entry->k = k; entry->m = hash->num_entries; return entry->m; } } // Hash function from 2 ints to 1 int int hash2(int i, int j) { unsigned long long key; key = (unsigned long long)i << 32 \| (unsigned long long)j; key = (~key) + (key << 18); // key = (key << 18) - key - 1; key = key ^ (key >> 31); key = key * 21; // key = (key + (key << 2)) + (key << 4); key = key ^ (key >> 11); key = key + (key << 6); key = key ^ (key >> 22); return (int)key; } // Hash function from 1 ints to 1 int int hash1(int key) { key = ~key + (key << 15); // key = (key << 15) - key - 1; key = key ^ (key >> 12); key = key + (key << 2); key = key ^ (key >> 4); key = key * 2057; // key = (key + (key << 3)) + (key << 11); key = key ^ (key >> 16); return key; } // Fortran bindings void DESTROYHASH (int h){destroy_hash(h);} void DESTROYHASH_(int h){destroy_hash(h);} void destroyhash (int h){destroy_hash(h);} void destroyhash_(int h){destroy_hash(h);} int INCREMENTHASH (int h,int i, int j, int k){return increment_hash(h,i,j,k);} int INCREMENTHASH_(int h,int i, int j, int k){return increment_hash(h,i,j,k);} int incrementhash (int h,int i, int j, int k){return increment_hash(h,i,j,k);} int incrementhash_(int h,int i, int j, int k){return increment_hash(h,i,j,k);} int CREATEHASH (int nbuckets){return create_hash(nbuckets);} int CREATEHASH_(int nbuckets){return create_hash(nbuckets);} int createhash (int nbuckets){return create_hash(nbuckets);} int createhash_(int nbuckets){return create_hash(nbuckets);} int HASHSIZE (int h){return hash_size(h);} int HASHSIZE_(int h){return hash_size(h);} int hashsize (int h){return hash_size(h);} int hashsize_(int h){return hash_size(h);} void DUMPHASH (int h, int i,int j,int k){dump_hash(h,i,j,k);} void DUMPHASH_(int h, int i,int j,int k){dump_hash(h,i,j,k);} void dumphash (int h, int i,int j,int k){dump_hash(h,i,j,k);} void dumphash_(int h, int i,int j,int k){dump_hash(h,i,j,k);} #endif
the_stack_data/55479.c	/* author: Leonardone @ NEETSDKASU */ #include <stdio.h> int main(void){ int n, i, v; int sum[7] = {0}; scanf("%d", &n); for (i = 0; i < n; i++) { scanf("%d", &v); sum[i % 7] += v; } for (i = 0; i < 7; i++) { printf("%d\n", sum[i]); } return 0; }
the_stack_data/176705007.c	/************************************************************************ * sched/pthread_yield.c * * Copyright (C) 2007, 2009 Gregory Nutt. All rights reserved. * Author: Gregory Nutt <[email protected]> * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * 3. Neither the name NuttX nor the names of its contributors may be * used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. * **********************************************************************/ /********************************************************************** * Included Files **********************************************************************/ #include <pthread.h> #include <sched.h> /********************************************************************** * Definitions **********************************************************************/ /********************************************************************** * Private Type Declarations **********************************************************************/ /********************************************************************** * Global Variables **********************************************************************/ /********************************************************************** * Private Variables **********************************************************************/ /********************************************************************** * Private Functions **********************************************************************/ /********************************************************************** * Public Functions **********************************************************************/ /********************************************************************** * Name: pthread_yield * * Description: * A thread may tell the scheduler that its processor can be * made available. * * Parameters: * None * * Return Value: * None * * Assumptions: * ************************************************************************/ void pthread_yield(void) { (void)sched_yield(); }
the_stack_data/12637349.c	#include <stdio.h> #include<stdlib.h> struct Vetor{ float x; float y; float z; }; void soma(struct Vetor* v1, struct Vetor* v2, struct Vetor* res){ res->x = v1->x + v2->x; res->y = v1->y + v2->y; res->z = v1->z + v2->z; } int main (void){ struct Vetor v1; struct Vetor v2; struct Vetor res; v1 = (struct Vetor)malloc(sizeof(struct Vetor)); v2 = (struct Vetor)malloc(sizeof(struct Vetor)); res = (struct Vetor)malloc(sizeof(struct Vetor)); printf("\nDigite o valor de x1:\t"); scanf("%f",&v1->x); printf("\nDigite o valor de y1:\t"); scanf("%f",&v1->y); printf("\nDigite o valor de z1:\t"); scanf("%f",&v1->z); printf("\nDigite o valor de x2:\t"); scanf("%f",&v2->x); printf("\nDigite o valor de y2:\t"); scanf("%f",&v2->y); printf("\nDigite o valor de z2:\t"); scanf("%f",&v2->z); soma(v1,v2,res); printf("\nx:%.2f\ty:%.2f\tz:%.2f\n",res->x,res->y,res->z); }
the_stack_data/413719.c	/* * Programacao de Computadores e ALgoritmos * Trabalho 4 * lista2.8 * * Equipe: * * Elizabeth * Herman * Jackson Gomes * Jailson * Paulo Marinho / #include <stdio.h> #include <stdlib.h> int main(int argc, const char argv){ int m,n,i,j,k,a,b,c; printf("Digite o tamanho do vetor A: \n"); scanf("%d",&m); printf("Digite o tamanho do vetor B: \n"); scanf("%d",&n); a=(int )malloc(msizeof(int)); b=(int )malloc(nsizeof(int)); c=(int )malloc(mnsizeof(int)); for (i=1;i<=m;i++){ printf("Digite o valor do %d elemento \n",i); scanf("%d",&a[i]); } for (i=1;i<=n;i++){ printf("Digite o valor do %d elemento \n",i); scanf("%d",&b[i]); } i=1; j=1; k=0; while (i<=m && j<=n){ if (a[i]<b[j]){ k=k+1; c[k]=a[i]; i=i+1; }else{ if(a[i]>b[j]){ k=k+1; c[k]=b[j]; j=j+1; }else{ k=k+1; c[k]=a[i]; i=i+1; j=j+1; } } } while (i<=m){ k=k+1; c[k]=a[i]; i=i+1; } while (j<=n){ k=k+1; c[k]=b[j]; j=j+1; } for (i=1;i<=k;i++){ printf("%d ",c[i]); } return 0; }
the_stack_data/92679.c	/* ************************************************************************** / / / / ::: :::::::: / / ft_putstr_fd.c :+: :+: :+: / / +:+ +:+ +:+ / / By: mmartin <[email protected]> +#+ +:+ +#+ / / +#+#+#+#+#+ +#+ / / Created: 2013/11/23 12:52:21 by mmartin #+# #+# / / Updated: 2015/03/26 17:30:37 by mmartin ### ########.fr / / / / ************************************************************************** / #include <unistd.h> void ft_putstr_fd(char const s, int fd) { int i; i = 0; if (!s) return ; while (s[i]) i++; write(fd, s, i); }
the_stack_data/40764028.c	#include <stdio.h> #include <stdbool.h> int min2(int a, int b) { return a < b ? a : b; } bool noZero(char matrix, int row, int col, int size) { for (int dr = 0; dr < size; dr++) { for (int dc = 0; dc < size; dc++) { if (matrix[row+dr][col+dc] == '0') { return false; } } } return true; } int maximalSquare(char matrix, int matrixSize, int* matrixColSize) { if (matrixSize == 0) return 0; int rows = matrixSize; int cols = matrixColSize[0]; int maxSize = 0; for (int row = 0; row < rows; row++) { for (int col = 0; col < cols; col++) { for (int size = min2(rows-row, cols-col); size >= 1; size--) { if (noZero(matrix, row, col, size) && maxSize < size) { maxSize = size; } } } } return maxSize * maxSize; } int main() { char arr1[] = "10100"; char arr2[] = "10111"; char arr3[] = "11111"; char arr4[] = "10010"; char* matrix[] = {arr1, arr2, arr3, arr4}; int matrixSize = 4; int matrixColSize[4] = {5, 5, 5, 5}; int result = maximalSquare(matrix, matrixSize, matrixColSize); printf(">>> result = %d\n", result); return 0; }
the_stack_data/103265273.c	#include <stdio.h> int main(void) { int a, b; int result; a = 0; b = 3; result = 4; __asm ("1:\n\t" "l.addi %0, %0, 4\n\t" "l.sflts %0, %1\n\t" "l.bf 1b\n\t" "l.nop\n\t" : "+r"(a) : "r"(b) ); if (a != result) { printf("sflts error\n"); return -1; } a = 0; b = 3; result = 3; __asm ("1:\n\t" "l.addi %0, %0, 1\n\t" "l.sflts %0, %1\n\t" "l.bf 1b\n\t" "l.nop\n\t" : "+r"(a) : "r"(b) ); if (a != result) { printf("sflts error\n"); return -1; } return 0; }
the_stack_data/479008.c	#include <stdio.h> #include <time.h> int main() { clock_t start_t, end_t; start_t = clock(); printf("Starting the program now, start_t = %ld\n", start_t); printf("Starting a loop\n"); for(int i=0;i<10000;i++) { // NOTE: This either gets optimized or runs extremely fast (Hence putting the printf statement) // for(int j=0;j<10000;j++) // { // ;; // } printf("%d ", i); } printf("\n"); end_t = clock(); printf("End of the big loop end_t = %ld\nCLOCKS_PER_SEC = %ld\n", end_t, CLOCKS_PER_SEC); //NOTE: For some reason assigning the value to a clock_t variable does not work //clock_t final_t = (double) (end_t - start_t) / CLOCKS_PER_SEC; //NOTE: This works just fine double data = (double) (end_t - start_t) / CLOCKS_PER_SEC; printf("Total time taken by cpu: %f\n", data); printf("Exiting the program\n"); return 0; }
the_stack_data/136551.c	/* Java KeyStore password cracker for JtR. * (will NOT address password(s) for alias(es) within keystore). * * OpenCL plugin by Terry West. * Derived from keystore_fmt_plug.c, * written by Dhiru Kholia <dhiru at openwall.com> and * Narendra Kangralkar <narendrakangralkar at gmail.com>. * * Input Format: $keystore$target$salt_length$salt$hash$nkeys$keylength$keydata$keylength$keydata... * * This software is Copyright (c) 2015, Terry West <terrybwest at gmail dot com> * and it is hereby released to the general public under the following terms: * Redistribution and use in source and binary forms, with or without modification, * are permitted. * * Fixes/enhancements JimF, Feb, 2016. * corrected bug where binary passwords failed. * reduced max size of password (performance improvement) * don't convert password to BE shorts on CPU (reduced size and perf gain) * reduced binary returned from GPU from full sized, to 4 bytes. (perf gain) * compute full hash in CPU during cmp_exact() * made a common code module (for sharing code with CPU) * added 2 additional test vectors, and benmark_length changed from -1 to 0 * Performance about 2.5x for multi-salts on my Tahiti / #ifdef HAVE_OPENCL #if FMT_EXTERNS_H extern struct fmt_main fmt_opencl_keystore; #elif FMT_REGISTERS_H john_register_one(&fmt_opencl_keystore); #else #include <string.h> #include <assert.h> #include <errno.h> #include "arch.h" #include "sha.h" #include "misc.h" #include "common-opencl.h" #include "formats.h" #include "params.h" #include "options.h" #include "keystore_common.h" #ifdef _OPENMP #include <omp.h> #endif #include "memdbg.h" #define FORMAT_LABEL "keystore-opencl" #define FORMAT_NAME "Java KeyStore" #define ALGORITHM_NAME "SHA1 32/" ARCH_BITS_STR #define BENCHMARK_COMMENT "" #define BENCHMARK_LENGTH 0 // reduced PLAIN_LEN from 125 bytes, and speed went from 12.2k to 16.4k #define PLAINTEXT_LENGTH 32 // reduced BIN_SIZE from 20 bytes to 4 for the GPU, and speed went from // 16.4k to 17.8k. cmp_exact does a CPU hash check on possible matches. #define SALT_SIZE sizeof(struct custom_salt) #define SALT_ALIGN 4 #define MIN_KEYS_PER_CRYPT 1 #define MAX_KEYS_PER_CRYPT 1 // these to pass to kernel typedef struct { uint32_t length; uint8_t pass[PLAINTEXT_LENGTH]; } keystore_password; typedef struct { uint32_t gpu_out; // GPU only returns first 4 bytes. } keystore_hash; typedef struct { uint32_t length; uint8_t salt[SALT_LENGTH_GPU]; } keystore_salt; // this for use here static struct custom_salt { int length; unsigned char salt[SALT_LENGTH_GPU]; } cur_salt; static struct fmt_main self; static size_t insize, outsize, saltsize; static keystore_password inbuffer; static keystore_hash outbuffer; static keystore_salt saltbuffer; static cl_mem mem_in, mem_out, mem_salt; static cl_int cl_err; // This file contains auto-tuning routine(s). Has to be included after formats definitions. #include "opencl-autotune.h" #include "memdbg.h" static const char warn[] = { "xfer: ", ", crypt: ", ", xfer: " }; /* ------- Helper functions ------- / static size_t get_task_max_work_group_size() { return autotune_get_task_max_work_group_size(FALSE, 0, crypt_kernel); } static void create_clobj(size_t gws, struct fmt_main self) { insize = sizeof(keystore_password) * gws; outsize = sizeof(keystore_hash) * gws; saltsize = sizeof(keystore_salt); inbuffer = mem_calloc(1, insize); outbuffer = mem_alloc(outsize); /// Allocate memory mem_in = clCreateBuffer(context[gpu_id], CL_MEM_READ_ONLY, insize, NULL, &cl_err); HANDLE_CLERROR(cl_err, "Error allocating mem_in"); mem_salt = clCreateBuffer(context[gpu_id], CL_MEM_READ_ONLY, saltsize, NULL, &cl_err); HANDLE_CLERROR(cl_err, "Error allocating mem_salt"); mem_out = clCreateBuffer(context[gpu_id], CL_MEM_WRITE_ONLY, outsize, NULL, &cl_err); HANDLE_CLERROR(cl_err, "Error allocating mem_out"); HANDLE_CLERROR(clSetKernelArg(crypt_kernel, 0, sizeof(mem_in), &mem_in), "Error while setting mem_in kernel argument"); HANDLE_CLERROR(clSetKernelArg(crypt_kernel, 1, sizeof(mem_out), &mem_out), "Error while setting mem_out kernel argument"); HANDLE_CLERROR(clSetKernelArg(crypt_kernel, 2, sizeof(mem_salt), &mem_salt), "Error while setting mem_salt kernel argument"); } static void release_clobj(void) { if (mem_in) { HANDLE_CLERROR(clReleaseMemObject(mem_in), "Release mem_in"); HANDLE_CLERROR(clReleaseMemObject(mem_salt), "Release mem_salt"); HANDLE_CLERROR(clReleaseMemObject(mem_out), "Release mem_out"); MEM_FREE(inbuffer); MEM_FREE(outbuffer); mem_in = NULL; mem_salt = NULL; mem_out = NULL; } } static void init(struct fmt_main _self) { self = _self; opencl_prepare_dev(gpu_id); } static void reset(struct db_main db) { // TODO if (!autotuned) { char build_opts[64]; snprintf(build_opts, sizeof(build_opts), "-DPASSLEN=%d -DSALTLEN=%d -DOUTLEN=%d", PLAINTEXT_LENGTH, SALT_LENGTH_GPU, 4); opencl_init("$JOHN/kernels/keystore_kernel.cl", gpu_id, build_opts); crypt_kernel = clCreateKernel(program[gpu_id], "keystore", &cl_err); HANDLE_CLERROR(cl_err, "Error creating keystore kernel"); // Initialize openCL tuning (library) for this format. opencl_init_auto_setup(0, 0, NULL, warn, 1, self, create_clobj, release_clobj, sizeof(keystore_password), 0, db); // Auto tune execution from shared/included code. autotune_run(self, 1, 2, (cpu(device_info[gpu_id]) ? 1000000000 : 10000000000ULL));//2000); } } static void done(void) { if (autotuned) { release_clobj(); HANDLE_CLERROR(clReleaseKernel(crypt_kernel), "Release kernel"); HANDLE_CLERROR(clReleaseProgram(program[gpu_id]), "Release Program"); --autotuned; } } static void get_salt(char ciphertext) { /* NOTE: do we need dynamic allocation because of underlying large object size? / static struct custom_salt cs; char ctcopy = strdup(ciphertext); char keeptr = ctcopy; char p; int i; if (!cs) cs = mem_alloc_tiny(sizeof(struct custom_salt),16); memset(cs, 0, sizeof(struct custom_salt)); ctcopy += FORMAT_TAG_LEN; // skip over "$keystore$" p = strtokm(ctcopy, "$"); // skip target p = strtokm(NULL, "$"); cs->length = atoi(p); p = strtokm(NULL, "$"); for (i = 0; i < cs->length; ++i) cs->salt[i] = atoi16[ARCH_INDEX(p[i 2])] * 16 + atoi16[ARCH_INDEX(p[i * 2 + 1])]; /* we've got the salt, we can skip all the rest p = strtokm(NULL, "$"); // skip hash p = strtokm(NULL, "$"); cs->count = atoi(p); p = strtokm(NULL, "$"); cs->keysize = atoi(p); for (i = 0; i < cs->keysize; i++) cs->keydata[i] = atoi16[ARCH_INDEX(p[i * 2])] * 16 + atoi16[ARCH_INDEX(p[i * 2 + 1])]; / MEM_FREE(keeptr); return (void )cs; } static void set_salt(void salt) { // Before the salt from the ciphertext, prepend // "Mighty Aphrodite": const char magic = "Mighty Aphrodite"; int maglen = 16; int i, j; cur_salt = (struct custom_salt)salt; saltbuffer.length = maglen + cur_salt->length; for (i = 0; i < maglen; ++i) { saltbuffer.salt[i] = (uint8_t)magic[i]; } for (j = 0; j < cur_salt->length; ++i, ++j) { saltbuffer.salt[i] = cur_salt->salt[j]; } HANDLE_CLERROR(clEnqueueWriteBuffer(queue[gpu_id], mem_salt, CL_FALSE, 0, saltsize, &saltbuffer, 0, NULL, NULL), "Copy salt to gpu"); } static void keystore_set_key(char key, int index) { uint32_t len = strlen(key); memcpy(inbuffer[index].pass, key, len); inbuffer[index].length = len; } static char get_key(int index) { static char key[PLAINTEXT_LENGTH + 1]; memcpy(key, inbuffer[index].pass, inbuffer[index].length); key[inbuffer[index].length] = 0; return key; } static int crypt_all(int pcount, struct db_salt salt) { const int count = pcount; size_t lws = local_work_size ? &local_work_size : NULL; global_work_size = GET_MULTIPLE_OR_BIGGER(count, local_work_size); /// Copy password buffer to gpu BENCH_CLERROR(clEnqueueWriteBuffer(queue[gpu_id], mem_in, CL_FALSE, 0, insize, inbuffer, 0, NULL, multi_profilingEvent[0]), "Copy data to gpu"); /// Run kernel BENCH_CLERROR(clEnqueueNDRangeKernel(queue[gpu_id], crypt_kernel, 1, NULL, &global_work_size, lws, 0, NULL, multi_profilingEvent[1]), "Run kernel"); /// Read the result back BENCH_CLERROR(clEnqueueReadBuffer(queue[gpu_id], mem_out, CL_TRUE, 0, outsize, outbuffer, 0, NULL, multi_profilingEvent[2]), "Copy result back"); ///Await completion of all the above BENCH_CLERROR(clFinish(queue[gpu_id]), "clFinish error"); / if (ocl_autotune_running) return count; #ifdef _OPENMP #pragma omp parallel for #endif for (index = 0; index < count; index++) if (memcmp(outbuffer[index].key//) { cracked[index] = 1; #ifdef _OPENMP #pragma omp atomic #endif any_cracked \|= 1; } / return count; } /tbw useful in debugging in cmp_all() keep for the mo ... uint8_t out[20]; SHA_CTX ctx; printf("\n"); printf("cmp_all() - count =%i\n", count); printf("cmp_all() - pass length: %i\n",inbuffer[0].length); printf("cmp_all() - pass: %s\n", get_key(0)); printf("cmp_all() - hash: %x %x %x %x %x\n", outbuffer[0].key[0], outbuffer[0].key[1], outbuffer[0].key[2], outbuffer[0].key[3], outbuffer[0].key[4]); printf("cmp_all() - binary: %x %x %x %x %x\n", ((uint32_t )binary)[0], ((uint32_t )binary)[1], ((uint32_t )binary)[2], ((uint32_t )binary)[3], ((uint32_t )binary)[4]); printf("----------------------------------------\n"); SHA1_Init(&ctx); SHA1_Update(&ctx,inbuffer[0].pass,inbuffer[0].length); SHA1_Update(&ctx,saltbuffer.salt,saltbuffer.length); SHA1_Final(out, &ctx); printf("cmp_all() - SHA1 hash: %x %x %x %x %x\n", ((uint32_t )out)[0], ((uint32_t )out)[1], ((uint32_t )out)[2], ((uint32_t )out)[3], ((uint32_t )out)[4]); / static int cmp_all(void binary, int count) { uint32_t i, b = ((ARCH_WORD_32 )binary)[0]; for (i = 0; i < count; ++i) { if (b == outbuffer[i].gpu_out) { return 1; } } return 0; } static int cmp_one(void binary, int index) { if (((ARCH_WORD_32)binary)[0] != outbuffer[index].gpu_out) { return 0; } return 1; } static int cmp_exact(char source, int index) { // we do a CPU check here. unsigned char binary = (unsigned char )keystore_common_get_binary(source); unsigned char out[20]; SHA_CTX ctx; unsigned char Pass[PLAINTEXT_LENGTH2]; int i; for (i = 0; i < inbuffer[index].length; ++i) { Pass[i<<1] = 0; Pass[(i<<1)+1] = inbuffer[index].pass[i]; } SHA1_Init(&ctx); SHA1_Update(&ctx, Pass, inbuffer[index].length<<1); SHA1_Update(&ctx, "Mighty Aphrodite", 16); SHA1_Update(&ctx, cur_salt->salt, cur_salt->length); SHA1_Final(out, &ctx); return !memcmp(binary, out, 20); } struct fmt_main fmt_opencl_keystore = { { FORMAT_LABEL, FORMAT_NAME, ALGORITHM_NAME, BENCHMARK_COMMENT, BENCHMARK_LENGTH, 0, PLAINTEXT_LENGTH, BINARY_SIZE, BINARY_ALIGN, SALT_SIZE, SALT_ALIGN, MIN_KEYS_PER_CRYPT, MAX_KEYS_PER_CRYPT, FMT_CASE \| FMT_8_BIT \| FMT_OMP, / FIXME: report cur_salt->length as tunable cost? / { NULL }, { FORMAT_TAG }, keystore_common_tests }, { init, done, reset, fmt_default_prepare, keystore_common_valid_cpu, fmt_default_split, keystore_common_get_binary, get_salt, { NULL }, fmt_default_source, { fmt_default_binary_hash / Not usable with $SOURCE_HASH$ / }, fmt_default_salt_hash, NULL, set_salt, keystore_set_key, get_key, fmt_default_clear_keys, crypt_all, { fmt_default_get_hash / Not usable with $SOURCE_HASH$ / }, cmp_all, cmp_one, cmp_exact } }; #endif / plugin stanza / #endif / ifdef HAVE_OPENCL */
the_stack_data/111217.c	#ifdef MC_USE_OPENGL #include <stdio.h> #include <string.h> #include "glad/glad.h" #include "ogl_defines.h" #include "Engine/Graphics/uniform_buffer.h" void uniform_buffer_create(UniformBuffer buffer, u32 size, u32 binding) { #ifdef MC_OPENGL_4_5 glCreateBuffers(1, &buffer->id); glNamedBufferData(buffer->id, size, NULL, GL_DYNAMIC_DRAW); #else glGenBuffers(1, &buffer->id); glBindBuffer(GL_UNIFORM_BUFFER, buffer->id); glBufferData(GL_UNIFORM_BUFFER, size, NULL, GL_STATIC_DRAW); glBindBuffer(GL_UNIFORM_BUFFER, 0); #endif glBindBufferBase(GL_UNIFORM_BUFFER, binding, buffer->id); buffer->binding = binding; } void uniform_buffer_delete(UniformBuffer buffer) { glDeleteBuffers(1, &buffer->id); } void uniform_buffer_set_data(UniformBuffer buffer, void data, u32 size, u32 offset) { #ifdef MC_OPENGL_4_5 glNamedBufferSubData(buffer->id, offset, size, data); #else glBindBuffer(GL_UNIFORM_BUFFER, buffer->id); glBufferSubData(GL_UNIFORM_BUFFER, offset, size, data); glBindBuffer(GL_UNIFORM_BUFFER, 0); #endif } #endif
the_stack_data/14200340.c	// Exemplo 2 (06/04/22) #include "stdio.h" main() { int n; // printf("\n\t Informe um numero:"); scanf("%d" , &n); // if ( n > 0 ) { printf("\n\t O numero %d e POSITIVO" , n); printf("\n\t Fim!"); } else if(n == 0) { printf("\n\t O numero %d e NULO" , n); printf("\n\t Fim!"); } else { printf("\n\t O numero %d e NEGATIVO" , n); printf("\n\t Fim!"); } }
the_stack_data/28263094.c	//<stdio.h> // example shows the usage of ferror() function. #include <stdio.h> int main () { FILE *fp; char c; fp = fopen("file.txt", "w"); c = fgetc(fp); if( ferror(fp) ) { printf("Error in reading from file : file.txt\n"); } clearerr(fp); if( ferror(fp) ) { printf("Error in reading from file : file.txt\n"); } fclose(fp); return(0); }
the_stack_data/7950551.c	/* * This program takes in an integer as a command-line argument and sleeps for that many seconds. / #include<unistd.h> #include<stdio.h> int main(int argc, char argv[]){ if(argc < 1){ printf("No argument given. Please provide an integer value for which the program will sleep.\n"); return 1; } sleep(atoi(argv[1])); return 0; }
the_stack_data/48866.c	#include <stdio.h> int fibs(long low, long high) { long last=0, secLast=1, current=1, count = 0; while (current <= high) { if (low <= current) count++; secLast = last; last = current; current = last + secLast; } return count; } int main() { long low, high; while(scanf("%ld %ld", &low, &high)) { if (low == 0 && high == 0) break; printf("%d\n", fibs(low, high)); } return 0; }
the_stack_data/151705263.c	/* $NetBSD: src/lib/libc/gen/toascii.c,v 1.2 2003/08/07 16:42:58 agc Exp $ / / $DragonFly: src/lib/libc/gen/toascii.c,v 1.1 2005/03/16 06:54:41 joerg Exp $ / / * Copyright (c) 1989 The Regents of the University of California. * All rights reserved. * (c) UNIX System Laboratories, Inc. * All or some portions of this file are derived from material licensed * to the University of California by American Telephone and Telegraph * Co. or Unix System Laboratories, Inc. and are reproduced herein with * the permission of UNIX System Laboratories, Inc. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * from: @(#)isctype.c 5.2 (Berkeley) 6/1/90 */ #include <ctype.h> #undef toascii int toascii(int c) { return ((c) & 0177); }
the_stack_data/182951790.c	/* * Filename: atof.c * Author: Thomas van der Burgt <[email protected]> * Date: 08-MAR-2010 * * The C Programming Language, second edition, * by Brian Kernighan and Dennis Ritchie * * Exercise 4-2, page 73 * * Extend atof to handle scientific notation of the form 123.45e-6 * where a floating-point number may be followed by e or E and an * optionally signed exponent. / #include <ctype.h> / isspace() & isdigit() / #include <math.h> / pow() / / atof: convert string s to double / float atof(char s[]) { double val, power, exp; int i, sign, esign; for (i = 0; isspace(s[i]); i++) / skip white space / ; sign = (s[i] == '-') ? -1 : 1; if (s[i] == '+' \|\| s[i] == '-') i++; for (val = 0.0; isdigit(s[i]); i++) / integer / val = 10.0 val + (s[i] - '0'); if (s[i] == '.') { /* fraction / i++; for (power = 1.0; isdigit(s[i]); i++) { val = 10.0 val + (s[i] - '0'); power = 10.0; } val = sign / power; } if (s[i] == 'e' \|\| s[i] == 'E') { /* exponent/ esign = (s[++i] == '-') ? -1 : 1; if (s[i] == '+' \|\| s[i] == '-') i++; for (exp = 0.0; isdigit(s[i]); i++) exp = 10.0 exp + (s[i] - '0'); val = pow(10, esign exp); } return val; }
the_stack_data/234518442.c	int convert(char* s) { switch(s[1]) { case '-': return 581; // W-SU case 'C': return 565; // UCT case 'R': return 559; // PRC case 'T': return 580; // UTC case 'c': return 486; // Iceland case 'g': return 379; // Egypt case 'w': return 502; // Kwajalein case 'B': switch(s[2]) { case '\0': return 477; // GB case '-': return 478; // GB-Eire default: return -1; } case 'E': switch(s[0]) { case 'C': return 373; // CET case 'E': return 378; // EET case 'M': return 504; // MET case 'W': return 582; // WET default: return -1; } case 'M': switch(s[3]) { case '\0': return 479; // GMT case '+': return 480; // GMT+0 case '-': return 481; // GMT-0 case '0': return 482; // GMT0 default: return -1; } case 'O': switch(s[2]) { case 'C': return 561; // ROC case 'K': return 562; // ROK default: return -1; } case 'S': switch(s[3]) { case '5': return 382; // EST5EDT case '6': return 376; // CST6CDT case '7': return 509; // MST7MDT case '8': return 560; // PST8PDT case 'C': return 570; // US/Central case 'H': return 573; // US/Hawaii case 'I': return 574; // US/Indiana-Starke case 'S': return 579; // US/Samoa case '\0': switch(s[0]) { case 'E': return 381; // EST case 'H': return 485; // HST case 'M': return 508; // MST default: return -1; } case 'A': switch(s[5]) { case 'a': return 567; // US/Alaska case 'e': return 568; // US/Aleutian case 'i': return 569; // US/Arizona default: return -1; } case 'E': switch(s[7]) { case '-': return 571; // US/East-Indiana case 'e': return 572; // US/Eastern default: return -1; } case 'M': switch(s[4]) { case 'i': return 575; // US/Michigan case 'o': return 576; // US/Mountain default: return -1; } case 'P': switch(s[10]) { case '\0': return 577; // US/Pacific case '-': return 578; // US/Pacific-New default: return -1; } default: return -1; } case 'Z': switch(s[2]) { case '\0': return 511; // NZ case '-': return 512; // NZ-CHAT default: return -1; } case 'a': switch(s[2]) { case 'm': return 500; // Jamaica case 'p': return 501; // Japan case 'v': return 510; // Navajo case 'c': switch(s[11]) { case '\0': return 555; // Pacific/Yap case 'b': return 525; // Pacific/Gambier case 'c': return 542; // Pacific/Pitcairn case 'd': return 526; // Pacific/Guadalcanal case 'f': return 538; // Pacific/Norfolk case 'j': return 532; // Pacific/Kwajalein case 'l': return 554; // Pacific/Wallis case 'p': return 547; // Pacific/Saipan case 'q': return 534; // Pacific/Marquesas case 'w': return 535; // Pacific/Midway case 'a': switch(s[12]) { case '\0': return 513; // Pacific/Apia case 'f': return 523; // Pacific/Funafuti case 'o': return 521; // Pacific/Fakaofo case 'u': return 541; // Pacific/Palau case 'w': return 550; // Pacific/Tarawa case 'p': switch(s[8]) { case 'G': return 524; // Pacific/Galapagos case 'P': return 544; // Pacific/Ponape default: return -1; } default: return -1; } case 'e': switch(s[8]) { case 'E': return 520; // Pacific/Enderbury case 'N': return 537; // Pacific/Niue case 'W': return 553; // Pacific/Wake default: return -1; } case 'g': switch(s[8]) { case 'B': return 515; // Pacific/Bougainville case 'T': return 551; // Pacific/Tongatapu default: return -1; } case 'i': switch(s[8]) { case 'F': return 522; // Pacific/Fiji case 'K': return 530; // Pacific/Kiritimati case 'T': return 549; // Pacific/Tahiti default: return -1; } case 'k': switch(s[8]) { case 'A': return 514; // Pacific/Auckland case 'T': return 552; // Pacific/Truk default: return -1; } case 'm': switch(s[8]) { case 'G': return 527; // Pacific/Guam case 'N': return 539; // Pacific/Noumea default: return -1; } case 'n': switch(s[8]) { case 'J': return 529; // Pacific/Johnston case 'P': return 543; // Pacific/Pohnpei default: return -1; } case 'o': switch(s[8]) { case 'H': return 528; // Pacific/Honolulu case 'P': return 540; // Pacific/Pago_Pago case 'R': return 546; // Pacific/Rarotonga case 'S': return 548; // Pacific/Samoa default: return -1; } case 'r': switch(s[8]) { case 'K': return 531; // Pacific/Kosrae case 'N': return 536; // Pacific/Nauru default: return -1; } case 't': switch(s[9]) { case 'a': return 518; // Pacific/Easter case 'f': return 519; // Pacific/Efate case 'h': return 516; // Pacific/Chatham case 'o': return 545; // Pacific/Port_Moresby default: return -1; } case 'u': switch(s[8]) { case 'C': return 517; // Pacific/Chuuk case 'M': return 533; // Pacific/Majuro default: return -1; } default: return -1; } case 'n': switch(s[7]) { case 'A': return 364; // Canada/Atlantic case 'C': return 365; // Canada/Central case 'M': return 368; // Canada/Mountain case 'N': return 369; // Canada/Newfoundland case 'P': return 370; // Canada/Pacific case 'S': return 371; // Canada/Saskatchewan case 'Y': return 372; // Canada/Yukon case 'E': switch(s[11]) { case '-': return 366; // Canada/East-Saskatchewan case 'e': return 367; // Canada/Eastern default: return -1; } default: return -1; } default: return -1; } case 'e': switch(s[11]) { case 'N': return 505; // Mexico/BajaNorte case 'S': return 506; // Mexico/BajaSur case 'r': return 507; // Mexico/General default: return -1; } case 'f': switch(s[7]) { case 'E': return 21; // Africa/El_Aaiun case 'F': return 22; // Africa/Freetown case 'G': return 23; // Africa/Gaborone case 'H': return 24; // Africa/Harare case 'O': return 47; // Africa/Ouagadougou case 'P': return 48; // Africa/Porto-Novo case 'S': return 49; // Africa/Sao_Tome case 'W': return 53; // Africa/Windhoek case 'A': switch(s[8]) { case 'b': return 0; // Africa/Abidjan case 'c': return 1; // Africa/Accra case 'd': return 2; // Africa/Addis_Ababa case 'l': return 3; // Africa/Algiers case 's': switch(s[10]) { case 'a': return 4; // Africa/Asmara case 'e': return 5; // Africa/Asmera default: return -1; } default: return -1; } case 'B': switch(s[10]) { case 'a': return 6; // Africa/Bamako case 'g': return 7; // Africa/Bangui case 'j': return 8; // Africa/Banjul case 'n': return 10; // Africa/Blantyre case 's': return 9; // Africa/Bissau case 'u': return 12; // Africa/Bujumbura case 'z': return 11; // Africa/Brazzaville default: return -1; } case 'C': switch(s[9]) { case 'i': return 13; // Africa/Cairo case 'n': return 16; // Africa/Conakry case 's': return 14; // Africa/Casablanca case 'u': return 15; // Africa/Ceuta default: return -1; } case 'D': switch(s[9]) { case 'i': return 19; // Africa/Djibouti case 'k': return 17; // Africa/Dakar case 'r': return 18; // Africa/Dar_es_Salaam case 'u': return 20; // Africa/Douala default: return -1; } case 'J': switch(s[8]) { case 'o': return 25; // Africa/Johannesburg case 'u': return 26; // Africa/Juba default: return -1; } case 'K': switch(s[9]) { case 'a': return 28; // Africa/Khartoum case 'g': return 29; // Africa/Kigali case 'm': return 27; // Africa/Kampala case 'n': return 30; // Africa/Kinshasa default: return -1; } case 'L': switch(s[10]) { case 'a': return 36; // Africa/Lusaka case 'e': return 33; // Africa/Lome case 'n': return 34; // Africa/Luanda case 'o': return 31; // Africa/Lagos case 'r': return 32; // Africa/Libreville case 'u': return 35; // Africa/Lubumbashi default: return -1; } case 'M': switch(s[9]) { case 'a': return 40; // Africa/Mbabane case 'g': return 41; // Africa/Mogadishu case 'l': return 37; // Africa/Malabo case 'n': return 42; // Africa/Monrovia case 'p': return 38; // Africa/Maputo case 's': return 39; // Africa/Maseru default: return -1; } case 'N': switch(s[8]) { case 'a': return 43; // Africa/Nairobi case 'd': return 44; // Africa/Ndjamena case 'i': return 45; // Africa/Niamey case 'o': return 46; // Africa/Nouakchott default: return -1; } case 'T': switch(s[8]) { case 'i': return 50; // Africa/Timbuktu case 'r': return 51; // Africa/Tripoli case 'u': return 52; // Africa/Tunis default: return -1; } default: return -1; } case 'h': switch(s[6]) { case 'C': return 374; // Chile/Continental case 'E': return 375; // Chile/EasterIsland default: return -1; } case 'i': switch(s[0]) { case 'E': return 380; // Eire case 'L': return 503; // Libya case 'S': return 563; // Singapore default: return -1; } case 'm': switch(s[11]) { case 'B': return 200; // America/St_Barthelemy case 'J': return 201; // America/St_Johns case 'K': return 202; // America/St_Kitts case 'L': return 203; // America/St_Lucia case 'P': return 144; // America/La_Paz case 'S': return 109; // America/El_Salvador case 'T': return 204; // America/St_Thomas case 'V': return 205; // America/St_Vincent case 'f': return 206; // America/Swift_Current case 'x': return 142; // America/Knox_IN case 'y': return 121; // America/Guayaquil case '_': switch(s[8]) { case 'B': return 82; // America/Boa_Vista case 'L': return 146; // America/Los_Angeles case 'N': return 168; // America/New_York case 'R': return 190; // America/Rio_Branco case 'S': return 196; // America/Sao_Paulo default: return -1; } case 'a': switch(s[8]) { case 'A': return 75; // America/Atka case 'G': return 122; // America/Guyana case 'H': return 124; // America/Havana case 'J': return 137; // America/Jamaica case 'L': return 145; // America/Lima case 'R': return 191; // America/Rosario case 'C': switch(s[14]) { case '\0': return 99; // America/Cuiaba case 'H': return 95; // America/Coral_Harbour case 'o': return 100; // America/Curacao case 'r': return 90; // America/Catamarca case 's': return 89; // America/Caracas default: return -1; } case 'M': switch(s[12]) { case 'g': return 150; // America/Managua case 'm': return 154; // America/Matamoros case 't': return 155; // America/Mazatlan case 'u': return 151; // America/Manaus default: return -1; } case 'P': switch(s[10]) { case 'n': return 176; // America/Panama case 'r': return 178; // America/Paramaribo default: return -1; } default: return -1; } case 'b': switch(s[8]) { case 'A': return 72; // America/Aruba case 'B': return 78; // America/Barbados case 'C': return 86; // America/Cambridge_Bay default: return -1; } case 'c': switch(s[12]) { case 'a': return 93; // America/Chicago case 'e': return 114; // America/Glace_Bay case 'o': return 213; // America/Vancouver case 't': return 162; // America/Moncton case 'u': return 88; // America/Cancun default: return -1; } case 'd': switch(s[8]) { case 'C': return 96; // America/Cordoba case 'G': return 119; // America/Guadeloupe case 'M': return 156; // America/Mendoza default: return -1; } case 'e': switch(s[8]) { case 'B': return 79; // America/Belem case 'C': return 91; // America/Cayenne case 'E': return 110; // America/Ensenada case 'J': return 139; // America/Juneau case 'L': return 148; // America/Lower_Princes case 'M': return 149; // America/Maceio case 'N': return 170; // America/Nome case 'P': return 179; // America/Phoenix case 'A': switch(s[20]) { case '_': return 64; // America/Argentina/La_Rioja case 'c': return 70; // America/Argentina/Tucuman case 'e': return 59; // America/Argentina/Buenos_Aires case 'h': return 71; // America/Argentina/Ushuaia case 'j': return 63; // America/Argentina/Jujuy case 'l': return 67; // America/Argentina/Salta case 'm': return 61; // America/Argentina/ComodRivadavia case 'o': return 66; // America/Argentina/Rio_Gallegos case 'r': return 62; // America/Argentina/Cordoba case 't': return 60; // America/Argentina/Catamarca case 'n': switch(s[22]) { case 'J': return 68; // America/Argentina/San_Juan case 'L': return 69; // America/Argentina/San_Luis case 'o': return 65; // America/Argentina/Mendoza default: return -1; } default: return -1; } default: return -1; } case 'g': switch(s[8]) { case 'A': return 58; // America/Araguaina case 'P': return 177; // America/Pangnirtung case 'V': return 214; // America/Virgin default: return -1; } case 'h': switch(s[8]) { case 'A': return 55; // America/Anchorage case 'C': return 94; // America/Chihuahua default: return -1; } case 'i': switch(s[10]) { case 'c': return 187; // America/Recife case 'g': return 188; // America/Regina case 'm': return 106; // America/Dominica case 'p': return 169; // America/Nipigon case 't': return 57; // America/Antigua case 'u': return 147; // America/Louisville case 'x': return 160; // America/Mexico_City case 'd': switch(s[16]) { case 'I': return 126; // America/Indiana/Indianapolis case 'K': return 127; // America/Indiana/Knox case 'M': return 128; // America/Indiana/Marengo case 'P': return 129; // America/Indiana/Petersburg case 'T': return 130; // America/Indiana/Tell_City case 'W': return 133; // America/Indiana/Winamac case 'o': return 134; // America/Indianapolis case 'V': switch(s[17]) { case 'e': return 131; // America/Indiana/Vevay case 'i': return 132; // America/Indiana/Vincennes default: return -1; } default: return -1; } case 'h': switch(s[13]) { case '\0': return 76; // America/Bahia case '_': return 77; // America/Bahia_Banderas default: return -1; } case 'l': switch(s[8]) { case 'B': return 80; // America/Belize case 'H': return 123; // America/Halifax default: return -1; } case 'r': switch(s[9]) { case 'a': return 152; // America/Marigot case 'e': return 158; // America/Merida default: return -1; } default: return -1; } case 'k': switch(s[9]) { case 'a': return 186; // America/Rankin_Inlet case 'd': return 54; // America/Adak case 'i': return 199; // America/Sitka case 't': return 74; // America/Atikokan default: return -1; } case 'l': switch(s[8]) { case 'I': return 136; // America/Iqaluit case 'K': return 143; // America/Kralendijk case 'M': return 159; // America/Metlakatla case 'T': return 208; // America/Thule case 'Y': return 218; // America/Yellowknife default: return -1; } case 'm': switch(s[8]) { case 'C': return 92; // America/Cayman case 'D': return 101; // America/Danmarkshavn case 'H': return 125; // America/Hermosillo default: return -1; } case 'n': switch(s[9]) { case 'a': return 185; // America/Rainy_River case 'h': return 209; // America/Thunder_Bay case 'i': return 216; // America/Winnipeg case 'j': return 175; // America/Ojinaga case 'l': return 81; // America/Blanc-Sablon case 's': return 73; // America/Asuncion case 'u': return 85; // America/Buenos_Aires case 'r': switch(s[10]) { case 'a': return 117; // America/Grand_Turk case 'e': return 118; // America/Grenada default: return -1; } default: return -1; } case 'o': switch(s[8]) { case 'B': return 83; // America/Bogota case 'E': return 107; // America/Edmonton case 'M': return 157; // America/Menominee case 'N': return 171; // America/Noronha case 'R': return 189; // America/Resolute case 'T': return 211; // America/Toronto default: return -1; } case 'p': switch(s[8]) { case 'C': return 87; // America/Campo_Grande case 'S': return 198; // America/Shiprock default: return -1; } case 'r': switch(s[8]) { case 'D': return 105; // America/Detroit case 'P': return 184; // America/Puerto_Rico case 'S': return 197; // America/Scoresbysund default: return -1; } case 's': switch(s[8]) { case 'B': return 84; // America/Boise case 'C': return 98; // America/Creston case 'G': return 116; // America/Goose_Bay case 'N': return 167; // America/Nassau case 'D': switch(s[14]) { case '\0': return 102; // America/Dawson case '_': return 103; // America/Dawson_Creek default: return -1; } default: return -1; } case 't': switch(s[14]) { case 'A': return 182; // America/Porto_Acre case 'I': return 192; // America/Santa_Isabel case 'R': return 97; // America/Costa_Rica case 'V': return 183; // America/Porto_Velho case 'b': return 115; // America/Godthab case 'f': return 181; // America/Port_of_Spain case 'g': return 194; // America/Santiago case 'o': return 215; // America/Whitehorse case 'u': return 180; // America/Port-au-Prince case 'D': switch(s[21]) { case '\0': return 195; // America/Santo_Domingo case 'B': return 172; // America/North_Dakota/Beulah case 'C': return 173; // America/North_Dakota/Center case 'N': return 174; // America/North_Dakota/New_Salem default: return -1; } case 'a': switch(s[8]) { case 'F': return 112; // America/Fort_Wayne case 'G': return 120; // America/Guatemala case 'M': return 165; // America/Montreal case 'T': return 212; // America/Tortola default: return -1; } case 'e': switch(s[13]) { case 'N': return 111; // America/Fort_Nelson case 'l': return 113; // America/Fortaleza case 'r': return 193; // America/Santarem default: return -1; } case 'i': switch(s[9]) { case 'a': return 153; // America/Martinique case 'o': return 164; // America/Montevideo default: return -1; } case 'k': switch(s[17]) { case 'L': return 140; // America/Kentucky/Louisville case 'M': return 141; // America/Kentucky/Monticello default: return -1; } case 'r': switch(s[12]) { case 'e': return 163; // America/Monterrey case 's': return 166; // America/Montserrat default: return -1; } default: return -1; } case 'u': switch(s[12]) { case 'a': return 210; // America/Tijuana case 'c': return 207; // America/Tegucigalpa case 'e': return 161; // America/Miquelon case 'i': return 56; // America/Anguilla case 'n': return 108; // America/Eirunepe case 't': return 217; // America/Yakutat case 'y': return 138; // America/Jujuy default: return -1; } case 'v': switch(s[8]) { case 'D': return 104; // America/Denver case 'I': return 135; // America/Inuvik default: return -1; } default: return -1; } case 'n': switch(s[9]) { case '\0': return 566; // Universal case 'c': return 490; // Indian/Cocos case 'h': return 493; // Indian/Mahe case 'l': return 494; // Indian/Maldives case 'm': return 491; // Indian/Comoro case 't': return 487; // Indian/Antananarivo case 'y': return 496; // Indian/Mayotte case 'a': switch(s[13]) { case '\0': return 488; // Indian/Chagos case 'M': return 224; // Antarctica/McMurdo case 'c': return 222; // Antarctica/Macquarie case 'l': return 225; // Antarctica/Palmer case 'm': return 221; // Antarctica/DumontDUrville case 't': return 226; // Antarctica/Rothera case 'u': return 227; // Antarctica/South_Pole case 'v': return 220; // Antarctica/Davis case 'w': return 223; // Antarctica/Mawson case 'o': switch(s[11]) { case 'S': return 228; // Antarctica/Syowa case 'T': return 229; // Antarctica/Troll default: return -1; } case 's': switch(s[11]) { case 'C': return 219; // Antarctica/Casey case 'V': return 230; // Antarctica/Vostok default: return -1; } default: return -1; } case 'r': switch(s[7]) { case 'C': return 489; // Indian/Christmas case 'K': return 492; // Indian/Kerguelen default: return -1; } case 'u': switch(s[7]) { case 'M': return 495; // Indian/Mauritius case 'R': return 497; // Indian/Reunion default: return -1; } default: return -1; } case 'o': switch(s[2]) { case 'l': return 556; // Poland case 'n': return 484; // Hongkong case 'r': return 557; // Portugal case 's': return 558; // posixrules default: return -1; } case 'r': switch(s[0]) { case 'A': return 231; // Arctic/Longyearbyen case 'G': return 483; // Greenwich case 'I': return 498; // Iran case 'B': switch(s[7]) { case 'A': return 360; // Brazil/Acre case 'D': return 361; // Brazil/DeNoronha case 'E': return 362; // Brazil/East case 'W': return 363; // Brazil/West default: return -1; } default: return -1; } case 's': switch(s[5]) { case 'G': return 259; // Asia/Gaza case 'l': return 499; // Israel case 'A': switch(s[9]) { case '\0': return 232; // Asia/Aden case 'a': return 238; // Asia/Ashgabat case 'b': return 237; // Asia/Aqtobe case 'h': return 239; // Asia/Ashkhabad case 'n': return 234; // Asia/Amman case 't': return 233; // Asia/Almaty case 'u': return 236; // Asia/Aqtau case 'y': return 235; // Asia/Anadyr default: return -1; } case 'B': switch(s[7]) { case 'g': return 240; // Asia/Baghdad case 'h': return 241; // Asia/Bahrain case 'i': return 244; // Asia/Beirut case 'k': return 242; // Asia/Baku case 'n': return 243; // Asia/Bangkok case 's': return 245; // Asia/Bishkek case 'u': return 246; // Asia/Brunei default: return -1; } case 'C': switch(s[10]) { case '\0': return 248; // Asia/Chita case 'a': return 249; // Asia/Choibalsan case 'b': return 252; // Asia/Colombo case 'k': return 251; // Asia/Chungking case 'q': return 250; // Asia/Chongqing case 't': return 247; // Asia/Calcutta default: return -1; } case 'D': switch(s[7]) { case 'a': return 255; // Asia/Dhaka case 'b': return 257; // Asia/Dubai case 'c': return 253; // Asia/Dacca case 'l': return 256; // Asia/Dili case 'm': return 254; // Asia/Damascus case 's': return 258; // Asia/Dushanbe default: return -1; } case 'H': switch(s[7]) { case '_': return 262; // Asia/Ho_Chi_Minh case 'b': return 261; // Asia/Hebron case 'n': return 263; // Asia/Hong_Kong case 'r': return 260; // Asia/Harbin case 'v': return 264; // Asia/Hovd default: return -1; } case 'I': switch(s[6]) { case 'r': return 265; // Asia/Irkutsk case 's': return 266; // Asia/Istanbul default: return -1; } case 'J': switch(s[7]) { case 'k': return 267; // Asia/Jakarta case 'r': return 269; // Asia/Jerusalem case 'y': return 268; // Asia/Jayapura default: return -1; } case 'K': switch(s[7]) { case 'b': return 270; // Asia/Kabul case 'c': return 280; // Asia/Kuching case 'l': return 277; // Asia/Kolkata case 'm': return 271; // Asia/Kamchatka case 'r': return 272; // Asia/Karachi case 's': return 273; // Asia/Kashgar case 'w': return 281; // Asia/Kuwait case 'a': switch(s[6]) { case 'h': return 276; // Asia/Khandyga case 'r': return 278; // Asia/Krasnoyarsk case 'u': return 279; // Asia/Kuala_Lumpur default: return -1; } case 't': switch(s[8]) { case 'h': return 274; // Asia/Kathmandu case 'm': return 275; // Asia/Katmandu default: return -1; } default: return -1; } case 'M': switch(s[9]) { case 'a': return 287; // Asia/Muscat case 'd': return 284; // Asia/Magadan case 'l': return 286; // Asia/Manila case 'o': return 282; // Asia/Macao case 's': return 285; // Asia/Makassar case 'u': return 283; // Asia/Macau default: return -1; } case 'N': switch(s[11]) { case 'a': return 288; // Asia/Nicosia case 'b': return 290; // Asia/Novosibirsk case 'z': return 289; // Asia/Novokuznetsk default: return -1; } case 'O': switch(s[6]) { case 'm': return 291; // Asia/Omsk case 'r': return 292; // Asia/Oral default: return -1; } case 'P': switch(s[6]) { case 'h': return 293; // Asia/Phnom_Penh case 'o': return 294; // Asia/Pontianak case 'y': return 295; // Asia/Pyongyang default: return -1; } case 'Q': switch(s[6]) { case 'a': return 296; // Asia/Qatar case 'y': return 297; // Asia/Qyzylorda default: return -1; } case 'R': switch(s[6]) { case 'a': return 298; // Asia/Rangoon case 'i': return 299; // Asia/Riyadh default: return -1; } case 'S': switch(s[7]) { case 'a': return 304; // Asia/Shanghai case 'e': return 306; // Asia/Srednekolymsk case 'i': return 300; // Asia/Saigon case 'k': return 301; // Asia/Sakhalin case 'm': return 302; // Asia/Samarkand case 'n': return 305; // Asia/Singapore case 'o': return 303; // Asia/Seoul default: return -1; } case 'T': switch(s[9]) { case 'A': return 311; // Asia/Tel_Aviv case 'a': return 310; // Asia/Tehran case 'b': return 312; // Asia/Thimbu case 'e': return 307; // Asia/Taipei case 'i': return 309; // Asia/Tbilisi case 'k': return 308; // Asia/Tashkent case 'o': return 314; // Asia/Tokyo case 'p': return 313; // Asia/Thimphu default: return -1; } case 'U': switch(s[9]) { case 'N': return 319; // Asia/Ust-Nera case '_': return 317; // Asia/Ulan_Bator case 'g': return 315; // Asia/Ujung_Pandang case 'n': return 316; // Asia/Ulaanbaatar case 'q': return 318; // Asia/Urumqi default: return -1; } case 'V': switch(s[6]) { case 'i': return 320; // Asia/Vientiane case 'l': return 321; // Asia/Vladivostok default: return -1; } case 'Y': switch(s[8]) { case 'a': return 323; // Asia/Yekaterinburg case 'e': return 324; // Asia/Yerevan case 'u': return 322; // Asia/Yakutsk default: return -1; } default: return -1; } case 't': switch(s[7]) { case '0': return 412; // Etc/GMT0 case 'e': return 413; // Etc/Greenwich case 'u': return 417; // Etc/Zulu case 'v': return 415; // Etc/Universal case '\0': switch(s[5]) { case 'C': return 414; // Etc/UCT case 'M': return 383; // Etc/GMT case 'T': return 416; // Etc/UTC default: return -1; } case '+': switch(s[8]) { case '0': return 384; // Etc/GMT+0 case '2': return 389; // Etc/GMT+2 case '3': return 390; // Etc/GMT+3 case '4': return 391; // Etc/GMT+4 case '5': return 392; // Etc/GMT+5 case '6': return 393; // Etc/GMT+6 case '7': return 394; // Etc/GMT+7 case '8': return 395; // Etc/GMT+8 case '9': return 396; // Etc/GMT+9 case '1': switch(s[9]) { case '\0': return 385; // Etc/GMT+1 case '0': return 386; // Etc/GMT+10 case '1': return 387; // Etc/GMT+11 case '2': return 388; // Etc/GMT+12 default: return -1; } default: return -1; } case '-': switch(s[8]) { case '0': return 397; // Etc/GMT-0 case '2': return 404; // Etc/GMT-2 case '3': return 405; // Etc/GMT-3 case '4': return 406; // Etc/GMT-4 case '5': return 407; // Etc/GMT-5 case '6': return 408; // Etc/GMT-6 case '7': return 409; // Etc/GMT-7 case '8': return 410; // Etc/GMT-8 case '9': return 411; // Etc/GMT-9 case '1': switch(s[9]) { case '\0': return 398; // Etc/GMT-1 case '0': return 399; // Etc/GMT-10 case '1': return 400; // Etc/GMT-11 case '2': return 401; // Etc/GMT-12 case '3': return 402; // Etc/GMT-13 case '4': return 403; // Etc/GMT-14 default: return -1; } default: return -1; } case 'c': switch(s[13]) { case 'M': return 331; // Atlantic/Jan_Mayen case '_': return 328; // Atlantic/Cape_Verde case 'h': return 334; // Atlantic/South_Georgia case 'i': return 332; // Atlantic/Madeira case 'j': return 333; // Atlantic/Reykjavik case 'l': return 336; // Atlantic/Stanley case 'o': return 329; // Atlantic/Faeroe case 'r': return 327; // Atlantic/Canary case 'u': return 326; // Atlantic/Bermuda case 'e': switch(s[9]) { case 'A': return 325; // Atlantic/Azores case 'F': return 330; // Atlantic/Faroe case 'S': return 335; // Atlantic/St_Helena default: return -1; } default: return -1; } default: return -1; } case 'u': switch(s[0]) { case 'C': return 377; // Cuba case 'T': return 564; // Turkey case 'Z': return 583; // Zulu case 'A': switch(s[10]) { case 'D': return 343; // Australia/Darwin case 'E': return 344; // Australia/Eucla case 'H': return 345; // Australia/Hobart case 'M': return 349; // Australia/Melbourne case 'P': return 352; // Australia/Perth case 'Q': return 353; // Australia/Queensland case 'T': return 356; // Australia/Tasmania case 'V': return 357; // Australia/Victoria case 'W': return 358; // Australia/West case 'Y': return 359; // Australia/Yancowinna case 'A': switch(s[11]) { case 'C': return 337; // Australia/ACT case 'd': return 338; // Australia/Adelaide default: return -1; } case 'B': switch(s[12]) { case 'i': return 339; // Australia/Brisbane case 'o': return 340; // Australia/Broken_Hill default: return -1; } case 'C': switch(s[11]) { case 'a': return 341; // Australia/Canberra case 'u': return 342; // Australia/Currie default: return -1; } case 'L': switch(s[11]) { case 'H': return 346; // Australia/LHI case 'i': return 347; // Australia/Lindeman case 'o': return 348; // Australia/Lord_Howe default: return -1; } case 'N': switch(s[11]) { case 'S': return 351; // Australia/NSW case 'o': return 350; // Australia/North default: return -1; } case 'S': switch(s[11]) { case 'o': return 354; // Australia/South case 'y': return 355; // Australia/Sydney default: return -1; } default: return -1; } case 'E': switch(s[7]) { case 'D': return 431; // Europe/Dublin case 'H': return 434; // Europe/Helsinki case 'J': return 437; // Europe/Jersey case 'N': return 450; // Europe/Nicosia case 'O': return 451; // Europe/Oslo case 'U': return 467; // Europe/Uzhgorod case 'W': return 473; // Europe/Warsaw case 'A': switch(s[8]) { case 'm': return 418; // Europe/Amsterdam case 'n': return 419; // Europe/Andorra case 't': return 420; // Europe/Athens default: return -1; } case 'B': switch(s[10]) { case 'a': return 427; // Europe/Budapest case 'f': return 421; // Europe/Belfast case 'g': return 422; // Europe/Belgrade case 'h': return 426; // Europe/Bucharest case 'i': return 428; // Europe/Busingen case 'l': return 423; // Europe/Berlin case 's': return 425; // Europe/Brussels case 't': return 424; // Europe/Bratislava default: return -1; } case 'C': switch(s[8]) { case 'h': return 429; // Europe/Chisinau case 'o': return 430; // Europe/Copenhagen default: return -1; } case 'G': switch(s[8]) { case 'i': return 432; // Europe/Gibraltar case 'u': return 433; // Europe/Guernsey default: return -1; } case 'I': switch(s[9]) { case 'l': return 435; // Europe/Isle_of_Man case 't': return 436; // Europe/Istanbul default: return -1; } case 'K': switch(s[8]) { case 'a': return 438; // Europe/Kaliningrad case 'i': return 439; // Europe/Kiev default: return -1; } case 'L': switch(s[8]) { case 'i': return 440; // Europe/Lisbon case 'j': return 441; // Europe/Ljubljana case 'o': return 442; // Europe/London case 'u': return 443; // Europe/Luxembourg default: return -1; } case 'M': switch(s[10]) { case 'a': return 448; // Europe/Monaco case 'c': return 449; // Europe/Moscow case 'i': return 446; // Europe/Mariehamn case 'r': return 444; // Europe/Madrid case 's': return 447; // Europe/Minsk case 't': return 445; // Europe/Malta default: return -1; } case 'P': switch(s[8]) { case 'a': return 452; // Europe/Paris case 'o': return 453; // Europe/Podgorica case 'r': return 454; // Europe/Prague default: return -1; } case 'R': switch(s[8]) { case 'i': return 455; // Europe/Riga case 'o': return 456; // Europe/Rome default: return -1; } case 'S': switch(s[10]) { case '_': return 458; // Europe/San_Marino case 'c': return 463; // Europe/Stockholm case 'f': return 460; // Europe/Simferopol case 'i': return 462; // Europe/Sofia case 'p': return 461; // Europe/Skopje case 'a': switch(s[9]) { case 'm': return 457; // Europe/Samara case 'r': return 459; // Europe/Sarajevo default: return -1; } default: return -1; } case 'T': switch(s[11]) { case 'i': return 464; // Europe/Tallinn case 'n': return 465; // Europe/Tirane case 's': return 466; // Europe/Tiraspol default: return -1; } case 'V': switch(s[11]) { case 'c': return 469; // Europe/Vatican case 'i': return 471; // Europe/Vilnius case 'n': return 470; // Europe/Vienna case 'o': return 472; // Europe/Volgograd case 'z': return 468; // Europe/Vaduz default: return -1; } case 'Z': switch(s[9]) { case 'g': return 474; // Europe/Zagreb case 'p': return 475; // Europe/Zaporozhye case 'r': return 476; // Europe/Zurich default: return -1; } default: return -1; } default: return -1; } default: return -1; } }
the_stack_data/20224.c	//#include <stdio.h> //#include <stdlib.h> //#include <string.h> int sumOddLengthSubarrays(int* arr, int arrSize) { int size = 1; int sum = 0; while(size <= arrSize) { for (int i = 0; i < arrSize; i++) { for (int j = i; j < size + i && size+i <= arrSize; j++) { sum += arr[j]; } } size+=2; } return sum; } //int main() { // int arr = malloc(sizeof(int) 5); // memcpy(arr, (int[]){1, 4, 2, 5, 3}, sizeof(int) * 5); // // printf("%d", sumOddLengthSubarrays(arr, 5)); // free(arr); // return 0; //}
the_stack_data/486402.c	// Commands using user action sync const int INPUT_UDT_STANDARD_ACTION = 1; const int INPUT_UDT_GESTURE = 2; const int INPUT_UDT_QUICKABARSHORTCUT = 3; const int INPUT_UDT_MELEE_TARGET = 4; const int INPUT_UDT_WEAPON_ACTION = 5; const int INPUT_UDT_ITEM_MANIPULATION = 6; const int INPUT_UDT_INVENTORY = 7; const int INPUT_UDT_ADVANCED_PLACEMENT = 8; const int INPUT_UDT_WEAPON_REMOTE_SYNC = 9; const int INPUT_UDT_WEAPON_REMOTE_EVENT = 10; const int AC_UNCATEGORIZED = 0; const int AC_SINGLE_USE = 1; const int AC_CONTINUOUS = 2; const int AC_INTERACT = 3; // Special actions const int AT_DEBUG = 1; // Continuous Actions const int AT_CONSUME = 100; const int AT_FEED = 101; const int AT_PLACE = 102; const int AT_MINE_TREE = 103; const int AT_BURY_ASHES = 104; const int AT_EAT = 105; const int AT_DRINK = 106; const int AT_FORCE_CONSUME = 107; const int AT_WATER = 108; const int AT_RESTRAIN_T = 109; //const int AT_INJECT_S = 110; <-- free to use (moved to singleuse) //const int AT_INJECT_T = 111; <-- free to use (moved to singleuse) const int AT_BANDAGE_S = 112; const int AT_BANDAGE_T = 113; const int AT_DRINK_DISINFECTANT = 114; const int AT_FORCE_DRINK_DISINFECTANT = 115; //const int AT_INJECT_EPINEPHRINE_S = 116; <-- free to use (moved to singleuse) //const int AT_INJECT_EPINEPHRINE_T = 117; <-- free to use (moved to singleuse) //const int AT_INJECT_MORPHINE_S = 118; <-- free to use (moved to singleuse) //const int AT_INJECT_MORPHINE_T = 119; <-- free to use (moved to singleuse) const int AT_FEED_VITAMIN_BOTTLE = 120; const int AT_FEED_TETRACYCLINE_ANTIBIOTICS = 121; const int AT_FEED_PURIFICATION_TABLETS = 122; const int AT_FEED_PAINKILLER_TABLETS = 123; const int AT_FEED_CHARCOAL_TABLETS = 124; const int AT_EAT_VITAMIN_BOTTLE = 125; const int AT_EAT_TETRACYCLINE_ANTIBIOTICS = 126; const int AT_EAT_PURIFICATION_TABLETS = 127; const int AT_EAT_PAINKILLER_TABLETS = 128; const int AT_EAT_CHARCOAL_TABLETS = 129; const int AT_DRINK_ALCOHOL = 130; const int AT_FORCE_DRINK_ALCOHOL = 131; const int AT_MEASURE_TEMPERATURE_S = 132; const int AT_MEASURE_TEMPERATURE_T = 133; const int AT_DEFIBRILATE_S = 134; const int AT_DEFIBRILATE_T = 135; const int AT_SPLINT_S = 136; const int AT_SPLINT_T = 137; const int AT_TEST_BLOOD_S = 138; const int AT_TEST_BLOOD_T = 139; const int AT_COLLECT_BLOOD_S = 140; const int AT_COLLECT_BLOOD_T = 141; const int AT_GIVE_BLOOD_S = 142; const int AT_GIVE_BLOOD_T = 143; const int AT_COLLECT_SAMPLE_S = 144; const int AT_COLLECT_SAMPLE_T = 145; const int AT_UNRESTRAIN_T = 146; const int AT_COVER_HEAD_S = 147; const int AT_COVER_HEAD_T = 148; const int AT_SEW_S = 149; const int AT_SEW_T = 150; const int AT_GIVE_SALINE_S = 151; const int AT_GIVE_SALINE_T = 152; const int AT_SHAVE = 153; const int AT_SKINNING = 154; const int AT_PLACE_OBJECT = 155; const int AT_DIG_STASH = 156; const int AT_DRINK_DISINFECTANT2 = 157; const int AT_DIG_GARDEN_PLOT = 158; const int AT_FEED_MEAT = 159; const int AT_WATER_PLANT = 160; const int AT_FERTILIZE_SLOT = 161; const int AT_DISINFECT_PLANT = 162; const int AT_FILL_OBJECT = 163; const int AT_FISHING = 166; const int AT_MINE_BUSH = 167; const int AT_MINE_ROCK = 168; const int AT_FILL_BOTTLE = 169; const int AT_TUNE_FREQUENCY = 170; const int AT_TUNE_RADIO_STATION = 171; const int AT_IGNITE_FIREPLACE_BY_MATCH = 172; const int AT_IGNITE_FIREPLACE_BY_LIGHTER = 173; const int AT_IGNITE_FIREPLACE_BY_HANDDRILL = 174; const int AT_IGNITE_FIREPLACE_BY_ROADFLARE = 175; const int AT_EXTINGUISH_FIREPLACE_BY_LIQUID = 176; const int AT_BURN_SEW_S = 177; const int AT_BURN_SEW_T = 178; const int AT_CRAFT = 179; const int AT_COOK_ON_STICK = 180; const int AT_WORLD_CRAFT = 181; const int AT_FILL_GENERATOR_TANK = 182; const int AT_SAW_PLANKS = 183; const int AT_BURY_BODY = 184; const int AT_EAT_MEAT = 185; const int AT_EAT_CAN = 186; const int AT_FEED_CAN = 187; const int AT_USE_RANGE_FINDER = 188; const int AT_WATER_GARDEN_SLOT = 189; const int AT_WRING_CLOTHES = 190; const int AT_LOAD_MAGAZINE = 191; const int AT_EMPTY_MAGAZINE = 192; const int AT_CONSTRUCT = 193; const int AT_DECONSTRUCT = 195; const int AT_EAT_SMALL = 194; const int AT_CPR_T = 196; const int AT_MINE_TREE_BARK = 197; const int AT_DIG_WORMS = 198; const int AT_SHAVE_T = 199; const int AT_DRINK_POND = 201; const int AT_DRINK_WELL = 202; const int AT_ROTATE_HOLOGRAM = 203; const int AT_ATTACHED = 204; const int AT_UNCOVER_HEAD_S = 205; const int AT_UNCOVER_HEAD_T = 206; const int AT_SORT_AMMO = 207; const int AT_IGNITE_FIREPLACE_BY_AIR = 208; const int AT_IGNITE_FIREPLACE_BY_TORCH = 209; const int AT_LOCK_DOORS = 210; const int AT_UNLOCK_DOORS = 211; const int AT_UNPACK_BOX = 212; const int AT_WASH_HANDS_WELL = 213; const int AT_WASH_HANDS_WATER = 214; const int AT_DRINK_CAN = 215; const int AT_STRIP_CARRIER_VEST = 216; const int AT_EXTINGUISH_FIREPLACE_BY_EXTINGUISHER = 217; const int AT_BUILD_OVEN = 218; const int AT_DISMANTLE_OVEN = 219; const int AT_WRITE_PAPER = 220; const int AT_FILL_FUEL = 221; const int AT_FILL_COOLANT = 222; const int AT_FILL_BRAKES = 223; const int AT_FILL_OIL = 224; const int AT_POUR_LIQUID = 225; const int AT_DRAIN_LIQUID = 226; const int AT_DRINK_COOKING_POT = 227; const int AT_EAT_FRUIT = 228; //SingleUse Actions const int AT_OPEN = 501; const int AT_CONSUME_SINGLE = 502; const int AT_FORCE_CONSUME_SINGLE = 503; const int AT_TAKE_A_BITE = 504; const int AT_TAKE_A_SIP = 505; const int AT_FORCE_A_BITE = 506; const int AT_FORCE_A_SIP = 507; const int AT_MEASURE_BATTERY = 508; const int AT_TURN_ON_WHILE_IN_HANDS = 509; const int AT_TURN_OFF_WHILE_IN_HANDS = 510; const int AT_TURN_ON_CHEMLIGHT = 512; const int AT_DISINFECT_S = 513; const int AT_DISINFECT_T = 514; const int AT_FORCE_BITE_VITAMIN_BOTTLE = 515; const int AT_FORCE_BITE_TETRACYCLINE_ANTIBIOTICS = 516; const int AT_FORCE_BITE_PURIFICATION_TABLETS = 517; const int AT_FORCE_BITE_PAINKILLER_TABLETS = 518; const int AT_FORCE_BITE_CHARCOAL_TABLETS = 519; const int AT_BITE_VITAMIN_BOTTLE = 520; const int AT_BITE_TETRACYCLINE_ANTIBIOTICS = 521; const int AT_BITE_PURIFICATION_TABLETS = 522; const int AT_BITE_PAINKILLER_TABLETS = 523; const int AT_BITE_CHARCOAL_TABLETS = 524; const int AT_PLUG_THIS_INTO_TARGET = 525; const int AT_PLUG_INTO_FENCE = 526; const int AT_TOGGLE_PLACE_OBJECT = 527; const int AT_SWITCH_ON_WHILE_ON_GROUND = 528; const int AT_SWITCH_OFF_WHILE_ON_GROUND = 529; const int AT_PLANT_SEED = 531; const int AT_ATTACH_METAL_WIRE = 532; //const int AT_FERTILIZE_SLOT_BIT = 533; // unused UA. Feel free to take its place! const int AT_DISINFECT_PLANT_BIT = 534; const int AT_READ_PAPER = 535; const int AT_TURN_ON_TORCH = 536; const int AT_TURN_ON_ENERGY_BASE = 537; const int AT_CLOSE = 538; const int AT_TURN_ON_HEATPACK = 539; const int AT_TOGGLE_FISHING = 540; const int AT_ATTACH_TO_CHARGER = 541; const int AT_TURN_ON_TRANSMITTER = 542; const int AT_TURN_OFF_TRANSMITTER = 543; const int AT_WASH_HANDS_ITEM = 544; const int AT_TAKE_A_BITE_CAN = 545; const int AT_FORCE_A_BITE_CAN = 546; const int AT_PLACE_FIREPLACE_INDOOR = 547; const int AT_ATTACH = 548; const int AT_ATTACH_WHEELS = 549; const int AT_PLUG_TARGET_INTO_THIS = 550; const int AT_INSERT_SPARKPLUG = 551; const int AT_EMPTY_SEEDS_PACK = 552; const int AT_WORLD_CRAFT_SWITCH = 554; const int AT_ATTACH_POWER_SOURCE_TO_PANEL = 555; const int AT_WORLD_CRAFT_CANCEL = 557; const int AT_LOAD_MAGAZINE_TO_WEAPON = 558; const int AT_LOAD_BULLET_TO_WEAPON = 559; const int AT_CLAP_BEARTRAP_WITH_THIS_ITEM = 560; const int AT_ZOOM_IN = 561; const int AT_ZOOM_OUT = 562; const int AT_PLACE_FIREPLACE_BARREL = 563; const int AT_WORLD_LIQUID_ACTION_SWITCH = 564; const int AT_INJECT_S = 565; const int AT_INJECT_T = 566; const int AT_INJECT_EPINEPHRINE_S = 567; const int AT_INJECT_EPINEPHRINE_T = 568; const int AT_INJECT_MORPHINE_S = 569; const int AT_INJECT_MORPHINE_T = 570; const int AT_HANDCUFF_T = 571; //Interact Actions const int AT_PULL_OUT_PLUG = 1001; const int AT_TURN_ON_WHILE_ON_GROUND = 1002; const int AT_TURN_OFF_WHILE_ON_GROUND = 1003; const int AT_ITEST = 1004; const int AT_REMOVE_PLANT = 1005; const int AT_HARVEST_CROPS = 1006; const int AT_FOLD_OBJECT = 1007; const int AT_DRINK_POND_ONE = 1008; const int AT_DRINK_WELL_ONE = 1009; const int AT_TURN_ON_POWER_GENERATOR = 1011; const int AT_TURN_OFF_POWER_GENERATOR = 1012; const int AT_UNPLUG_THIS_BY_CORD = 1013; const int AT_TURN_ON_SPOTLIGHT = 1014; const int AT_TURN_OFF_SPOTLIGHT = 1015; const int AT_REPOSITION_PLUGGED_ITEM = 1016; const int AT_PICK_BERRY = 1017; const int AT_TURN_ON_TRANSMITTER_ON_GROUND = 1018; const int AT_TURN_OFF_TRANSMITTER_ON_GROUND = 1019; const int AT_TUNE_FREQUENCY_ON_GROUND = 1020; const int AT_TOGGLE_TENT_OPEN = 1021; const int AT_PACK_TENT = 1022; const int AT_ACTIVATE_TRAP = 1024; const int AT_OPEN_BARREL = 1025; const int AT_CLOSE_BARREL = 1026; const int AT_COVER_PLANTED_SEED = 1027; const int AT_OPEN_BARREL_HOLES = 1028; const int AT_CLOSE_BARREL_HOLES = 1029; const int AT_TAKE_FIREPLACE_INDOOR = 1030; const int AT_CLOSE_DOORS = 1031; const int AT_OPEN_DOORS = 1032; const int AT_ENTER_LADDER = 1033; const int AT_EXIT_LADDER = 1034; const int AT_GETIN_TRANSPORT = 1035; const int AT_TAKE_ITEM = 1036; const int AT_DETACH_POWER_SOURCE_FROM_PANEL = 1037; const int AT_SWAP_ITEM_TO_HANDS = 1038; const int AT_TAKE_ITEM_TO_HANDS = 1039; const int AT_LOCKED_DOORS = 1040; const int AT_TAKE_FIREPLACE_BARREL = 1041; const int AT_CLOSE_CAR_DOORS = 1042; const int AT_OPEN_CAR_DOORS = 1043; const int AT_WASH_HANDS_WELL_ONE = 1044; const int AT_WASH_HANDS_WATER_ONE = 1045; //weapons const int AT_WPN_ATTACH_MAGAZINE = 1501; const int AT_WPN_SWAP_MAGAZINE = 1502; const int AT_WPN_DETACH_MAGAZINE = 1503; const int AT_WPN_LOAD_BULLET = 1504; const int AT_WPN_UNJAM = 1505; const int AT_WPN_EJECT_BULLET = 1506; //vehicle const int AT_VEH_SWITCH_LIGHTS = 2001; const int AT_VEH_ENGINE_START = 2002; const int AT_VEH_ENGINE_STOP = 2003;
the_stack_data/128795.c	#include <stdio.h> //Chelin Tutorials All Rights Reserved //http://chelintutorials.blogspot.com/ //Cadenas de caracteres //(3,1,-1,9,0) Vector de int //(h,o,l,a, ,m,u,n,d,o) Vector de char int main(void){ //Primer forma: asignando en cada lugar char nombre[5]; nombre[0]='J'; nombre[1]='U'; nombre[2]='A'; nombre[3]='N'; nombre[4]='\0'; printf("%s\n",nombre); //Segunda forma: usando este truquito!! //Esta forma tambien me agrega el \0 al final char nombre2[]="Ramon Jose Hernandez IV XXX"; printf("%s\n",nombre2); //Tambien puedo acceder a determinada posicion de la cadena printf("El valor [3] del nombre: %c\n",nombre2[3]); return 0; }
the_stack_data/109514214.c	/* SPDX-License-Identifier: CC0-1.0 / #include <string.h> void memchr(const void s, int c, size_t n) { const unsigned char p = s; while (n != 0) { if (p == (unsigned char)c) { return (void )p; } p++; n--; } return NULL; }
the_stack_data/82950363.c	/**************************************************************************** * tools/mkdeps.c * * Copyright (C) 2012-2013 Gregory Nutt. All rights reserved. * Author: Gregory Nutt <[email protected]> * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * 3. Neither the name NuttX nor the names of its contributors may be * used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. * **************************************************************************/ /************************************************************************** * Included Files **************************************************************************/ #include <sys/stat.h> #include <stdbool.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <limits.h> #include <ctype.h> #include <libgen.h> #include <errno.h> #ifdef HOST_CYGWIN # include <sys/cygwin.h> #endif /************************************************************************** * Pre-processor Definitions ***************************************************************************/ #define MAX_BUFFER (4096) #define MAX_EXPAND (2048) / MAX_PATH might be defined in stdlib.h / #if !defined(MAX_PATH) # define MAX_PATH (512) #endif / NAME_MAX is typically defined in limits.h / #if !defined(NAME_MAX) / FILENAME_MAX might be defined in stdio.h / # if defined(FILENAME_MAX) # define NAME_MAX FILENAME_MAX # else / MAXNAMELEN might be defined in dirent.h / # include <dirent.h> # if defined(MAXNAMLEN) # define NAME_MAX MAXNAMLEN # else / Lets not let a silly think like this stop us... just make something up / # define NAME_MAX 256 # endif # endif #endif /*************************************************************************** * Private Types **************************************************************************/ enum slashmode_e { MODE_FSLASH = 0, MODE_BSLASH = 1, MODE_DBLBACK = 2 }; /************************************************************************** * Private Data ***************************************************************************/ static char g_cc = NULL; static char g_cflags = NULL; static char g_files = NULL; static char g_altpath = NULL; static char g_objpath = NULL; static char g_suffix = ".o"; static int g_debug = 0; static bool g_winnative = false; #ifdef HOST_CYGWIN static bool g_winpath = false; #endif static char g_command[MAX_BUFFER]; static char g_path[MAX_PATH]; #ifdef HOST_CYGWIN static char g_expand[MAX_EXPAND]; static char g_dequoted[MAX_PATH]; static char g_posixpath[MAX_PATH]; #endif /*************************************************************************** * Private Functions ***************************************************************************/ / MinGW does not seem to provide strtok_r / #ifndef HAVE_STRTOK_R static char MY_strtok_r(char str, const char delim, char *saveptr) { char pbegin; char pend = NULL; / Decide if we are starting a new string or continuing from * the point we left off. / if (str) { pbegin = str; } else if (saveptr && saveptr) { pbegin = saveptr; } else { return NULL; } / Find the beginning of the next token / for (; pbegin && strchr(delim, pbegin) != NULL; pbegin++); / If we are at the end of the string with nothing * but delimiters found, then return NULL. / if (!pbegin) { return NULL; } /* Find the end of the token / for (pend = pbegin + 1; pend && strchr(delim, pend) == NULL; pend++); / pend either points to the end of the string or to * the first delimiter after the string. / if (pend) { /* Turn the delimiter into a null terminator / pend++ = '\0'; } /* Save the pointer where we left off and return the * beginning of the token. / if (saveptr) { saveptr = pend; } return pbegin; } #undef strtok_r #define strtok_r MY_strtok_r #endif static void append(char *base, char str) { char oldbase; char newbase; int alloclen; oldbase = base; if (!oldbase) { newbase = strdup(str); if (!newbase) { fprintf(stderr, "ERROR: Failed to strdup %s\n", str); exit(EXIT_FAILURE); } } else { alloclen = strlen(oldbase) + strlen(str) + sizeof((char) ' ') + sizeof((char) '\0'); newbase = (char )malloc(alloclen); if (!newbase) { fprintf(stderr, "ERROR: Failed to allocate %d bytes\n", alloclen); exit(EXIT_FAILURE); } snprintf(newbase, alloclen, "%s %s", oldbase, str); free(oldbase); } base = newbase; } static void show_usage(const char progname, const char msg, int exitcode) { if (msg) { fprintf(stderr, "\n"); fprintf(stderr, "%s:\n", msg); } fprintf(stderr, "\n"); fprintf(stderr, "%s [OPTIONS] CC -- CFLAGS -- file [file [file...]]\n", progname); fprintf(stderr, "\n"); fprintf(stderr, "Where:\n"); fprintf(stderr, " CC\n"); fprintf(stderr, " A variable number of arguments that define how to execute the compiler\n"); fprintf(stderr, " CFLAGS\n"); fprintf(stderr, " The compiler compilation flags\n"); fprintf(stderr, " file\n"); fprintf(stderr, " One or more C files whose dependencies will be checked. Each file is expected\n"); fprintf(stderr, " to reside in the current directory unless --dep-path is provided on the command line\n"); fprintf(stderr, "\n"); fprintf(stderr, "And [OPTIONS] include:\n"); fprintf(stderr, " --dep-debug\n"); fprintf(stderr, " Enable script debug\n"); fprintf(stderr, " --dep-path <path>\n"); fprintf(stderr, " Do not look in the current directory for the file. Instead, look in <path> to see\n"); fprintf(stderr, " if the file resides there. --dep-path may be used multiple times to specify\n"); fprintf(stderr, " multiple alternative location\n"); fprintf(stderr, " --obj-path <path>\n"); fprintf(stderr, " The final objects will not reside in this path but, rather, at the path provided by\n"); fprintf(stderr, " <path>. if provided multiple time, only the last --obj-path will be used.\n"); fprintf(stderr, " --obj-suffix <suffix>\n"); fprintf(stderr, " If and object path is provided, then the extension will be assumed to be .o. This\n"); fprintf(stderr, " default suffix can be overrided with this command line option.\n"); fprintf(stderr, " --winnative\n"); fprintf(stderr, " By default, a POSIX-style environment is assumed (e.g., Linux, Cygwin, etc.) This option is\n"); fprintf(stderr, " inform the tool that is working in a pure Windows native environment.\n"); #ifdef HOST_CYGWIN fprintf(stderr, " --winpaths\n"); fprintf(stderr, " This option is useful when using a Windows native toolchain in a POSIX environment (such\n"); fprintf(stderr, " such as Cygwin). In this case, will CC generates dependency lists using Windows paths\n"); fprintf(stderr, " (e.g., C:\\blablah\\blabla).\n"); #endif fprintf(stderr, " --help\n"); fprintf(stderr, " Shows this message and exits\n"); exit(exitcode); } static void parse_args(int argc, char argv) { char args = NULL; int argidx; /* Accumulate CFLAGS up to "--" / for (argidx = 1; argidx < argc; argidx++) { if (strcmp(argv[argidx], "--") == 0) { g_cc = g_cflags; g_cflags = args; args = NULL; } else if (strcmp(argv[argidx], "--dep-debug") == 0) { g_debug++; } else if (strcmp(argv[argidx], "--dep-path") == 0) { argidx++; if (argidx >= argc) { show_usage(argv[0], "ERROR: Missing argument to --dep-path", EXIT_FAILURE); } if (args) { append(&args, argv[argidx]); } else { append(&g_altpath, argv[argidx]); } } else if (strcmp(argv[argidx], "--obj-path") == 0) { argidx++; if (argidx >= argc) { show_usage(argv[0], "ERROR: Missing argument to --obj-path", EXIT_FAILURE); } g_objpath = argv[argidx]; } else if (strcmp(argv[argidx], "--obj-suffix") == 0) { argidx++; if (argidx >= argc) { show_usage(argv[0], "ERROR: Missing argument to --obj-suffix", EXIT_FAILURE); } g_suffix = argv[argidx]; } else if (strcmp(argv[argidx], "--winnative") == 0) { g_winnative = true; } #ifdef HOST_CYGWIN else if (strcmp(argv[argidx], "--winpath") == 0) { g_winpath = true; } #endif else if (strcmp(argv[argidx], "--help") == 0) { show_usage(argv[0], NULL, EXIT_SUCCESS); } else { append(&args, argv[argidx]); } } / The final thing accumulated is the list of files / g_files = args; / If no paths were specified, then look in the current directory only / if (!g_altpath) { g_altpath = strdup("."); } if (g_debug) { fprintf(stderr, "SELECTIONS\n"); fprintf(stderr, " CC : [%s]\n", g_cc ? g_cc : "(None)"); fprintf(stderr, " CFLAGS : [%s]\n", g_cflags ? g_cflags : "(None)"); fprintf(stderr, " FILES : [%s]\n", g_files ? g_files : "(None)"); fprintf(stderr, " PATHS : [%s]\n", g_altpath ? g_altpath : "(None)"); if (g_objpath) { fprintf(stderr, " OBJDIR : [%s]\n", g_objpath); fprintf(stderr, " SUFFIX : [%s]\n", g_suffix); } else { fprintf(stderr, " OBJDIR : (None)\n"); } #ifdef HOST_CYGWIN fprintf(stderr, " Windows Paths : [%s]\n", g_winpath ? "TRUE" : "FALSE"); #endif fprintf(stderr, " Windows Native : [%s]\n", g_winnative ? "TRUE" : "FALSE"); } / Check for required parameters / if (!g_cc) { show_usage(argv[0], "ERROR: No compiler specified", EXIT_FAILURE); } if (!g_files) { / Don't report an error -- this happens normally in some configurations / printf("# No files specified for dependency generataion\n"); exit(EXIT_SUCCESS); } #ifdef HOST_CYGWIN if (g_winnative && g_winpath) { show_usage(argv[0], "ERROR: Both --winnative and --winpath makes no sense", EXIT_FAILURE); } #endif } static const char do_expand(const char argument) { #ifdef HOST_CYGWIN if (g_winpath) { const char src; char dest; int len; src = argument; dest = g_expand; len = 0; while (src && len < MAX_EXPAND) { if (src == '\\') { / Copy backslash / dest++ = src++; if (++len >= MAX_EXPAND) { break; } / Already expanded? / if (src == '\\') { /* Yes... just copy all consecutive backslashes / do { dest++ = src++; if (++len >= MAX_EXPAND) { break; } } while (src == '\\'); } else { /* No.. expeand / dest++ = '\\'; if (++len >= MAX_EXPAND) { break; } } } else { dest++ = src++; len++; } } if (src) { fprintf(stderr, "ERROR: Truncated during expansion string is too long [%lu/%u]\n", (unsigned long)strlen(argument), MAX_EXPAND); exit(EXIT_FAILURE); } dest = '\0'; return g_expand; } else #endif { return argument; } } #ifdef HOST_CYGWIN static bool dequote_path(const char winpath) { char dest = g_dequoted; const char src = winpath; int len = 0; bool quoted = false; while (src && len < MAX_PATH) { if (src[0] != '\\' \|\| (src[1] != ' ' && src[1] != '(' && src[1] != ')')) { dest++ = src; len++; } else { quoted = true; } src++; } if (src \|\| len >= MAX_PATH) { fprintf(stderr, "# ERROR: Path truncated\n"); exit(EXIT_FAILURE); } dest = '\0'; return quoted; } #endif static const char convert_path(const char path) { #ifdef HOST_CYGWIN if (g_winpath) { const char retptr; ssize_t size; ssize_t ret; bool quoted; quoted = dequote_path(path); if (quoted) { retptr = g_posixpath; } else { retptr = &g_posixpath[1]; } size = cygwin_conv_path(CCP_POSIX_TO_WIN_A \| CCP_RELATIVE, g_dequoted, NULL, 0); if (size > (MAX_PATH-3)) { fprintf(stderr, "# ERROR: POSIX path too long: %lu\n", (unsigned long)size); exit(EXIT_FAILURE); } ret = cygwin_conv_path(CCP_POSIX_TO_WIN_A \| CCP_RELATIVE, g_dequoted, &g_posixpath[1], MAX_PATH-3); if (ret < 0) { fprintf(stderr, "# ERROR: cygwin_conv_path '%s' failed: %s\n", g_dequoted, strerror(errno)); exit(EXIT_FAILURE); } if (quoted) { size++; g_posixpath[0] = '"'; g_posixpath[size] = '"'; } g_posixpath[size+1] = '\0'; return retptr; } else #endif { return path; } } static void do_dependency(const char file) { static const char moption[] = " -M "; struct stat buf; char alloc; char altpath; char path; char lasts; char separator; int cmdlen; int pathlen; int filelen; int totallen; int ret; /* Initialize the separator / #ifdef HOST_CYGWIN separator = (g_winnative \|\| g_winpath) ? '\\' : '/'; #else separator = g_winnative ? '\\' : '/'; #endif / Copy the compiler into the command buffer / cmdlen = strlen(g_cc); if (cmdlen >= MAX_BUFFER) { fprintf(stderr, "ERROR: Compiler string is too long [%d/%d]: %s\n", cmdlen, MAX_BUFFER, g_cc); exit(EXIT_FAILURE); } strcpy(g_command, g_cc); / Copy " -MT " / if (g_objpath) { char tmp[NAME_MAX+6]; char dupname; char objname; char dotptr; const char expanded; dupname = strdup(file); if (!dupname) { fprintf(stderr, "ERROR: Failed to dup: %s\n", file); exit(EXIT_FAILURE); } objname = basename(dupname); dotptr = strrchr(objname, '.'); if (dotptr) { dotptr = '\0'; } snprintf(tmp, NAME_MAX+6, " -MT %s%c%s%s ", g_objpath, separator, objname, g_suffix); expanded = do_expand(tmp); cmdlen += strlen(expanded); if (cmdlen >= MAX_BUFFER) { fprintf(stderr, "ERROR: Option string is too long [%d/%d]: %s\n", cmdlen, MAX_BUFFER, moption); exit(EXIT_FAILURE); } strcat(g_command, expanded); free(dupname); } /* Copy " -M " / cmdlen += strlen(moption); if (cmdlen >= MAX_BUFFER) { fprintf(stderr, "ERROR: Option string is too long [%d/%d]: %s\n", cmdlen, MAX_BUFFER, moption); exit(EXIT_FAILURE); } strcat(g_command, moption); / Copy the CFLAGS into the command buffer / if (g_cflags) { const char expanded; expanded = do_expand(g_cflags); cmdlen += strlen(expanded); if (cmdlen >= MAX_BUFFER) { fprintf(stderr, "ERROR: CFLAG string is too long [%d/%d]: %s\n", cmdlen, MAX_BUFFER, g_cflags); exit(EXIT_FAILURE); } strcat(g_command, expanded); } /* Add a space / g_command[cmdlen] = ' '; cmdlen++; g_command[cmdlen] = '\0'; / Make a copy of g_altpath. We need to do this because at least the version * of strtok_r above does modify it. / alloc = strdup(g_altpath); if (!alloc) { fprintf(stderr, "ERROR: Failed to strdup paths\n"); exit(EXIT_FAILURE); } altpath = alloc; / Try each path. This loop will continue until each path has been tried * (failure) or until stat() finds the file / while ((path = strtok_r(altpath, " ", &lasts)) != NULL) { const char expanded; const char converted; / Create a full path to the file / pathlen = strlen(path); if (pathlen >= MAX_PATH) { fprintf(stderr, "ERROR: Path is too long [%d/%d]: %s\n", pathlen, MAX_PATH, path); exit(EXIT_FAILURE); } strcpy(g_path, path); if (g_path[pathlen] != '\0') { fprintf(stderr, "ERROR: Missing NUL terminator\n"); exit(EXIT_FAILURE); } if (g_path[pathlen-1] != separator) { g_path[pathlen] = separator; g_path[pathlen+1] = '\0'; pathlen++; } filelen = strlen(file); pathlen += filelen; if (pathlen >= MAX_PATH) { fprintf(stderr, "ERROR: Path+file is too long [%d/%d]\n", pathlen, MAX_PATH); exit(EXIT_FAILURE); } strcat(g_path, file); / Check that a file actually exists at this path / if (g_debug) { fprintf(stderr, "Trying path=%s file=%s fullpath=%s\n", path, file, g_path); } converted = convert_path(g_path); ret = stat(converted, &buf); if (ret < 0) { altpath = NULL; continue; } if (!S_ISREG(buf.st_mode)) { fprintf(stderr, "ERROR: File %s exists but is not a regular file\n", g_path); exit(EXIT_FAILURE); } / Append the expanded path to the command / expanded = do_expand(g_path); pathlen = strlen(expanded); totallen = cmdlen + pathlen; if (totallen >= MAX_BUFFER) { fprintf(stderr, "ERROR: Path string is too long [%d/%d]: %s\n", totallen, MAX_BUFFER, g_path); exit(EXIT_FAILURE); } strcat(g_command, expanded); / Okay.. we have everything. Create the dependency. One a failure * to start the compiler, system() will return -1; Otherwise, the * returned value from the compiler is in WEXITSTATUS(ret). / if (g_debug) { fprintf(stderr, "Executing: %s\n", g_command); } ret = system(g_command); #ifdef WEXITSTATUS if (ret < 0 \|\| WEXITSTATUS(ret) != 0) { if (ret < 0) { fprintf(stderr, "ERROR: system failed: %s\n", strerror(errno)); } else { fprintf(stderr, "ERROR: %s failed: %d\n", g_cc, WEXITSTATUS(ret)); } fprintf(stderr, " command: %s\n", g_command); exit(EXIT_FAILURE); } #else if (ret < 0) { fprintf(stderr, "ERROR: system failed: %s\n", strerror(errno)); fprintf(stderr, " command: %s\n", g_command); exit(EXIT_FAILURE); } #endif / We don't really know that the command succeeded... Let's assume that it did / free(alloc); return; } printf("# ERROR: File \"%s\" not found at any location\n", file); exit(EXIT_FAILURE); } /*************************************************************************** * Public Functions **************************************************************************/ int main(int argc, char argv, char *envp) { char lasts; char files; char file; /* Parse command line parameters / parse_args(argc, argv); / Then generate dependencies for each path on the command line. NOTE * strtok_r will clobber the files list. But that is okay because we are * only going to traverse it once. / files = g_files; while ((file = strtok_r(files, " ", &lasts)) != NULL) { / Check if we need to do path conversions for a Windows-natvive tool * being using in a POSIX/Cygwin environment. */ do_dependency(file); files = NULL; } return EXIT_SUCCESS; }
the_stack_data/566480.c	//file: _insn_test_or_Y1.c //op=181 #include <stdio.h> #include <stdlib.h> void func_exit(void) { printf("%s\n", __func__); exit(0); } void func_call(void) { printf("%s\n", __func__); exit(0); } unsigned long mem[2] = { 0xbda18e421a932d37, 0xe49de7021c00d425 }; int main(void) { unsigned long a[4] = { 0, 0 }; asm __volatile__ ( "moveli r13, 4269\n" "shl16insli r13, r13, 12585\n" "shl16insli r13, r13, 23528\n" "shl16insli r13, r13, -28113\n" "moveli r36, 3720\n" "shl16insli r36, r36, 21467\n" "shl16insli r36, r36, 16503\n" "shl16insli r36, r36, -15551\n" "moveli r7, -17228\n" "shl16insli r7, r7, -9907\n" "shl16insli r7, r7, 11604\n" "shl16insli r7, r7, -13348\n" "{ fnop ; or r13, r36, r7 ; ld r63, r54 }\n" "move %0, r13\n" "move %1, r36\n" "move %2, r7\n" :"=r"(a[0]),"=r"(a[1]),"=r"(a[2])); printf("%016lx\n", a[0]); printf("%016lx\n", a[1]); printf("%016lx\n", a[2]); return 0; }
the_stack_data/149866.c	struct body { }; void main () { }
the_stack_data/25138487.c	#include <stdio.h> #ifdef _MSC_VER #include <intrin.h> #endif static const char mode10_edx[32] = { "fpu", "vme", "de", "pse", "tsc", "msr", "pae", "mce", "cx8", "apic", "", "sep", "mtrr", "pge", "mca", "cmov", "pat", "pse-36", "psn", "clfsh", "", "ds", "acpi", "mmx", "fxsr", "sse", "sse2", "ss", "htt", "tm", "ia64", "pbe"}; static const char mode10_ecx[32] = { "sse3", "pclmulqdq", "dtes64", "monitor", "ds-cpl", "vmx", "smx", "est", "tm2", "ssse3", "cnxt-id", "sdbg", "fma", "cx16", "xtpr", "pdcm", "", "pcid", "dca", "sse4.1", "sse4.2", "x2apic", "movbe", "popcnt", "tsc-deadline", "aes", "xsave", "osxsave", "avx", "f16c", "rdrnd", "hypervisor"}; static const char mode70_ebx[32] = { "fsgsbase", "", / described as IA32_TSC_ADJUST, I didn't find a name / "sgx", "bmi1", "hle", "avx2", "", / described as FDP_EXCPTN_ONLY, I didn't find a name / "smep", "bmi2", "erms", "invpcid", "rtm", "pqm", "", "mpx", "pqe", "avx512_f", "avx512_dq", "rdseed", "adx", "smap", "avx512_ifma", "pcommit", "clflushopt", "clwb", "intel_pt", "avx512_pf", "avx512_er", "avx512_cd", "sha", "avx512_bw", "avx512_vl"}; static const char mode70_ecx[32] = { "prefetchwt1", "avx512_vbmi", "umip", "pku", "ospke", "waitpkg", "avx512_vbmi2", "cet_ss", "gfni", "vaes", "vpclmulqdq", "avx512_vnni", "avx512_bitalg", "", "avx512_vpopcntdq", "", "", /* described as 5-level paging, I didn't find a name / "mawau", "", "", "", "", "rdpid", "", "", "cldemote", "", "MOVDIRI", "MOVDIR64B", "ENQCMD", "sgx_lc", "pks"}; static const char mode70_edx[32] = { "", "", "avx512_4vnniw", "avx512_4fmaps", "fsrm", "", "", "", "avx512_vp2intersect", "SRBDS_CTRL", "md_clear", "", "", "tsx_force_abort", "SERIALIZE", "Hybrid", "TSXLDTRK", "", "pconfig", "lbr", "cet_ibt", "", "amx-bf16", "", "amx-tile", "amx-int8", "IBRS_IBPB/spec_ctrl", "stibp ", "L1D_FLUSH", "IA32_ARCH_CAPABILITIES", "IA32_CORE_CAPABILITIES", "ssbd"}; static const char mode71_eax[32] = { "", "", "", "", "", "avx512_bf16", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", ""}; static void test_bits(const char names,unsigned int val) { unsigned int i; for(i=0; i<32; ++i) { if(names[i][0] && (val & 1)) { printf(names[i]); printf("\n"); } val >>= 1; } } struct reg_set { unsigned int a; unsigned int b; unsigned int c; unsigned int d; }; static void call_cpuid(int code,int subcode,struct reg_set regs) { #ifdef _MSC_VER int cpuid[4]; __cpuidex(cpuid,code,subcode); regs->a = cpuid[0]; regs->b = cpuid[1]; regs->c = cpuid[2]; regs->d = cpuid[3]; #else asm ("cpuid" : "=a" (regs->a), "=b" (regs->b), "=c" (regs->c), "=d" (regs->d) : "a" (code), "c" (subcode)); #endif } int main(void) { int highest_id; struct reg_set regs; call_cpuid(0,0,&regs); highest_id = regs.a; call_cpuid(1,0,&regs); test_bits(mode10_edx,regs.d); test_bits(mode10_ecx,regs.c); if(highest_id >= 7) { call_cpuid(7,0,&regs); test_bits(mode70_ebx,regs.b); test_bits(mode70_ecx,regs.c); test_bits(mode70_edx,regs.d); call_cpuid(7,1,&regs); test_bits(mode71_eax,regs.a); } return 0; }
the_stack_data/173578246.c	#include <string.h> int strcmp(const char s1,const char s2) { while (s1 == s2) { if (s1 == '\0') { return 0; } s1++; s2++; } return s1 - *s2; }
the_stack_data/76699412.c	/** * BOJ 7469번 C언어 소스 코드 * 작성자 : 동동매니저 (DDManager) * * ※ 실행 결과 * 사용 메모리 : 2,684 KB / 262,144 KB * 소요 시간 : 360 ms / 1,000 ms * * Copyright 2019. DDManager all rights reserved. / #include <stdio.h> #include <stdlib.h> typedef struct{ int num,index; }ArrData; int comp(const void a,const void b){ return ((ArrData)a)->num-((ArrData)b)->num; } void Q(int,int,int,int); ArrData data; int main(void){ int n,m,i,j,k,l; scanf("%d %d",&n,&m); data=(ArrData*)calloc(n,sizeof(ArrData)); for(l=0;l<n;l++){ scanf("%d",&data[l].num); data[l].index=l+1; } qsort(data,n,sizeof(ArrData),comp); for(l=0;l<m;l++){ scanf("%d %d %d",&i,&j,&k); Q(i,j,k,n); } free(data); return 0; } void Q(int i,int j,int k,int n){ int l,cnt; if((j-i)/2<k){ cnt=j-i+2; for(l=n-1;l>=0;l--){ if(i<=data[l].index&&data[l].index<=j) cnt--; if(cnt==k){ printf("%d\n",data[l].num); break; } } }else{ cnt=0; for(l=0;l<n;l++){ if(i<=data[l].index&&data[l].index<=j) cnt++; if(cnt==k){ printf("%d\n",data[l].num); break; } } } }
the_stack_data/165765834.c	/** * Author: dhayalaarthi.com * Email: [email protected] **/ #include <stdio.h> int main() { int n; scanf("%d",&n); char numbers[10][15] = { "one", "two", "three", "four", "five", "six", "seven", "eight", "nine" }; for(int i=0;i<sizeof(numbers) / sizeof(int); i++){ if(i == n) printf(numbers[i-1]); } if(n > 9){ printf("Greater than 9"); } return 0; }
the_stack_data/168892819.c	/* * Copyright (c) 2007 - 2015 Joseph Gaeddert * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. */ // // firdecim_rrrf_data_M5h23x50.c: autotest firdecim data // float firdecim_rrrf_data_M5h23x50_h[] = { -0.067636988306, -0.129830871935, -0.096852198413, -0.101084148415, -0.099274002866, 0.068432593779, -0.123467175510, 0.053608743344, 0.062001100783, -0.186969419240, 0.089108369240, -0.007475824870, 0.163590779858, 0.097601917788, 0.092009543577, -0.041838135753, -0.056136168702, 0.003032887982, 0.009882398914, 0.074984250657, -0.019855593061, -0.060394654408, 0.023157699589}; float firdecim_rrrf_data_M5h23x50_x[] = { -0.053013073944, -0.096057779578, 0.089544324704, -0.000543553496, 0.162822533187, -0.074585191755, 0.104404924404, -0.029558379775, -0.007349400311, -0.194774278732, -0.170758029656, 0.045377876421, 0.080652365875, 0.072939196850, -0.089654082233, -0.103982998990, 0.163030711963, -0.024228077817, 0.131281994357, 0.016327074888, -0.055411828614, 0.043034256150, 0.018076404143, 0.097676360852, 0.137184094723, 0.082482387627, 0.056634950389, 0.027836125209, -0.014908882821, 0.162327107907, -0.153015761693, -0.020845168829, -0.001125342955, -0.044310410921, -0.053090705118, -0.024619825348, 0.039550843685, -0.206275854122, 0.034696692856, -0.153816675012, -0.028473257841, 0.054242064784, 0.197473069156, 0.002233912029, 0.021458220407, 0.122982229244, 0.127458372904, -0.040153514587, -0.055390576800, 0.126488480454}; float firdecim_rrrf_data_M5h23x50_y[] = { 0.003585644662, -0.019185323038, 0.023723637517, -0.016266117610, -0.039970055370, -0.037092249176, 0.027140256398, 0.025837751181, 0.028127341349, -0.054916331965};
the_stack_data/1091380.c	/* * CS:APP Data Lab * * <Please put your name and userid here> * * bits.c - Source file with your solutions to the Lab. * This is the file you will hand in to your instructor. * * WARNING: Do not include the <stdio.h> header; it confuses the dlc * compiler. You can still use printf for debugging without including * <stdio.h>, although you might get a compiler warning. In general, * it's not good practice to ignore compiler warnings, but in this * case it's OK. / #if 0 / * Instructions to Students: * * STEP 1: Read the following instructions carefully. / You will provide your solution to the Data Lab by editing the collection of functions in this source file. INTEGER CODING RULES: Replace the "return" statement in each function with one or more lines of C code that implements the function. Your code must conform to the following style: int Funct(arg1, arg2, ...) { / brief description of how your implementation works / int var1 = Expr1; ... int varM = ExprM; varJ = ExprJ; ... varN = ExprN; return ExprR; } Each "Expr" is an expression using ONLY the following: 1. Integer constants 0 through 255 (0xFF), inclusive. You are not allowed to use big constants such as 0xffffffff. 2. Function arguments and local variables (no global variables). 3. Unary integer operations ! ~ 4. Binary integer operations & ^ \| + << >> Some of the problems restrict the set of allowed operators even further. Each "Expr" may consist of multiple operators. You are not restricted to one operator per line. You are expressly forbidden to: 1. Use any control constructs such as if, do, while, for, switch, etc. 2. Define or use any macros. 3. Define any additional functions in this file. 4. Call any functions. 5. Use any other operations, such as &&, \|\|, -, or ?: 6. Use any form of casting. 7. Use any data type other than int. This implies that you cannot use arrays, structs, or unions. You may assume that your machine: 1. Uses 2s complement, 32-bit representations of integers. 2. Performs right shifts arithmetically. 3. Has unpredictable behavior when shifting if the shift amount is less than 0 or greater than 31. EXAMPLES OF ACCEPTABLE CODING STYLE: / * pow2plus1 - returns 2^x + 1, where 0 <= x <= 31 / int pow2plus1(int x) { / exploit ability of shifts to compute powers of 2 / return (1 << x) + 1; } / * pow2plus4 - returns 2^x + 4, where 0 <= x <= 31 / int pow2plus4(int x) { / exploit ability of shifts to compute powers of 2 / int result = (1 << x); result += 4; return result; } FLOATING POINT CODING RULES For the problems that require you to implement floating-point operations, the coding rules are less strict. You are allowed to use looping and conditional control. You are allowed to use both ints and unsigneds. You can use arbitrary integer and unsigned constants. You can use any arithmetic, logical, or comparison operations on int or unsigned data. You are expressly forbidden to: 1. Define or use any macros. 2. Define any additional functions in this file. 3. Call any functions. 4. Use any form of casting. 5. Use any data type other than int or unsigned. This means that you cannot use arrays, structs, or unions. 6. Use any floating point data types, operations, or constants. NOTES: 1. Use the dlc (data lab checker) compiler (described in the handout) to check the legality of your solutions. 2. Each function has a maximum number of operations (integer, logical, or comparison) that you are allowed to use for your implementation of the function. The max operator count is checked by dlc. Note that assignment ('=') is not counted; you may use as many of these as you want without penalty. 3. Use the btest test harness to check your functions for correctness. 4. Use the BDD checker to formally verify your functions 5. The maximum number of ops for each function is given in the header comment for each function. If there are any inconsistencies between the maximum ops in the writeup and in this file, consider this file the authoritative source. / * STEP 2: Modify the following functions according the coding rules. * * IMPORTANT. TO AVOID GRADING SURPRISES: * 1. Use the dlc compiler to check that your solutions conform * to the coding rules. * 2. Use the BDD checker to formally verify that your solutions produce * the correct answers. / #endif //1 / * bitXor - x^y using only ~ and & * Example: bitXor(4, 5) = 1 * Legal ops: ~ & * Max ops: 14 * Rating: 1 / int bitXor(int x, int y) { return ~(~x&~y)&~(x&y); } / * tmin - return minimum two's complement integer * Legal ops: ! ~ & ^ \| + << >> * Max ops: 4 * Rating: 1 / int tmin(void) { return 1 << 31; } //2 / * isTmax - returns 1 if x is the maximum, two's complement number, * and 0 otherwise * Legal ops: ! ~ & ^ \| + * Max ops: 10 * Rating: 1 / int isTmax(int x) { return !(x^0x7FFFFFFF); } / * allOddBits - return 1 if all odd-numbered bits in word set to 1 * where bits are numbered from 0 (least significant) to 31 (most significant) * Examples allOddBits(0xFFFFFFFD) = 0, allOddBits(0xAAAAAAAA) = 1 * Legal ops: ! ~ & ^ \| + << >> * Max ops: 12 * Rating: 2 / int allOddBits(int x) { int a; a=0xAA+(0xAA<<8)+(0xAA<<16)+(0xAA<<24); return !((a&x)^a); } / * negate - return -x * Example: negate(1) = -1. * Legal ops: ! ~ & ^ \| + << >> * Max ops: 5 * Rating: 2 / int negate(int x) { return ~x+1; } //3 / * isAsciiDigit - return 1 if 0x30 <= x <= 0x39 (ASCII codes for characters '0' to '9') * Example: isAsciiDigit(0x35) = 1. * isAsciiDigit(0x3a) = 0. * isAsciiDigit(0x05) = 0. * Legal ops: ! ~ & ^ \| + << >> * Max ops: 15 * Rating: 3 / int isAsciiDigit(int x) { int is3= !((x>>4)^3); //if 0x3., this return 1 int digit4= (x>>3)&1; //return 1 if 4th digit is 1 int digit3= (x>>2)&1; //return 1 if 3rd digit is 1 int digit2= (x>>1)&1;//return 1 if 2nd digit is 1 return is3 & (!digit4 \| (digit4 & !(digit3 \| digit2))); } / * conditional - same as x ? y : z * Example: conditional(2,4,5) = 4 * Legal ops: ! ~ & ^ \| + << >> * Max ops: 16 * Rating: 3 / int conditional(int x, int y, int z) { //x=0,return z, x!=0 return y int a =!(!x); //a =0 if x=0, a=1 if x!=0, we want a=0xFFFFFFF if x!=0 int m= (a<<31)>>31;//m=0 if x=0, m =0xFFFF if x!=0 return (m&y)\|(~m&z); } / * isLessOrEqual - if x <= y then return 1, else return 0 * Example: isLessOrEqual(4,5) = 1. * Legal ops: ! ~ & ^ \| + << >> * Max ops: 24 * Rating: 3 / int isLessOrEqual(int x, int y) { //due to overflow, substraction result is accurate only when x,y are the same sign //x+(~b+1) >=0 int sx,sy,f,z; sx= (x>>31)&1; sy= (y>>31)&1; z=x+(~y+1); f=(z>>31)&1 \| !(z^0); //sx=0,sy=1 return ((!(sx^sy))&f) \| (sx&(!sy)); } //4 / * logicalNeg - implement the ! operator, using all of * the legal operators except ! * Examples: logicalNeg(3) = 0, logicalNeg(0) = 1 * Legal ops: ~ & ^ \| + << >> * Max ops: 12 * Rating: 4 / int logicalNeg(int x) { //if any bit of x is 1, return 1 x = x \| x>>16; x = x \| x>>8; x = x \| x>>4; x = x \| x>>2; x = x \| x>>1;//if any bit of x is 1, the last digit of x must be one x=x^1;//if x =0, change it to 1. if any bit of x is 1, change it to 0. return x&1; } / howManyBits - return the minimum number of bits required to represent x in * two's complement * Examples: howManyBits(12) = 5 * howManyBits(298) = 10 * howManyBits(-5) = 4 * howManyBits(0) = 1 * howManyBits(-1) = 1 * howManyBits(0x80000000) = 32 * Legal ops: ! ~ & ^ \| + << >> * Max ops: 90 * Rating: 4 / int howManyBits(int x) { return 0; } //float / * floatScale2 - Return bit-level equivalent of expression 2f for floating point argument f. * Both the argument and result are passed as unsigned int's, but * they are to be interpreted as the bit-level representation of * single-precision floating point values. * When argument is NaN, return argument * Legal ops: Any integer/unsigned operations incl. \|\|, &&. also if, while * Max ops: 30 * Rating: 4 / unsigned floatScale2(unsigned uf) { return 2; } / * floatFloat2Int - Return bit-level equivalent of expression (int) f * for floating point argument f. * Argument is passed as unsigned int, but * it is to be interpreted as the bit-level representation of a * single-precision floating point value. * Anything out of range (including NaN and infinity) should return * 0x80000000u. * Legal ops: Any integer/unsigned operations incl. \|\|, &&. also if, while * Max ops: 30 * Rating: 4 / int floatFloat2Int(unsigned uf) { int ep=(uf>>23)&0x000000FF; int biased=ep-127; int s=uf>>31; //add implict 1 to fraction part int f=(1<<23) \| (uf&0xFFFFFF); int val; //if ep all set to 1, or shift out of range if (ep>158) return 0x80000000u; // pure fraction if (biased<0) return 0; //2*(biased)M2(-23) if (biased>=23) val=f<<(biased-23); else val=f>>(23-biased); if (!s) return val; else return -val; } / * floatPower2 - Return bit-level equivalent of the expression 2.0^x * (2.0 raised to the power x) for any 32-bit integer x. * * The unsigned value that is returned should have the identical bit * representation as the single-precision floating-point number 2.0^x. * If the result is too small to be represented as a denorm, return * 0. If too large, return +INF. * * Legal ops: Any integer/unsigned operations incl. \|\|, &&. Also if, while * Max ops: 30 * Rating: 4 */ unsigned floatPower2(int x) { return 2; }
the_stack_data/145454081.c	#include "assert.h" int pow2(int n) { if (n == 0) { return 1; } else { int r1 = pow2(n-1); int r2 = pow2(n-1); return r1 + r2; } } int pow2_loop(int n) { int r = 1; for(int i = 0; i != n; i++) { r = 2*r; } return r; } int main() { int n = __VERIFIER_nondet_int(); if (0 <= n && n <= 29) { __VERIFIER_assert(pow2(n) == pow2_loop(n)); } return 0; }
the_stack_data/106562.c	#include <stdio.h> int main() { int i, j; for(i=8;i>=4;i--) { for(j=8;j>=i;j--) { printf("%d",i); } printf("\n"); } return 0; } //
the_stack_data/29795.c	#include<stdio.h> void counting_sort(int a[],int n,int max) { int count[500]={0},i,j; for(i=0;i<n;++i) count[a[i]]=count[a[i]]+1; printf("\nSorted elements are:"); for(i=0;i<=max;++i) for(j=1;j<=count[i];++j) printf("%d ",i); } int main() { int a[500],n,i,max=0; printf("Enter number of elements:"); scanf("%d",&n); // printf("\nEnter elements:"); for(i=0;i<n;++i) { //scanf("%d",&a[i]); a[i]=(rand()%n+1); if(a[i]>max) max=a[i]; } counting_sort(a,n,max); return 0; }
the_stack_data/184518618.c	/* ----------------------------------------------------------------------- * * * Copyright 2011 Erwan Velu - All Rights Reserved * * Permission is hereby granted, free of charge, to any person * obtaining a copy of this software and associated documentation * files (the "Software"), to deal in the Software without * restriction, including without limitation the rights to use, * copy, modify, merge, publish, distribute, sublicense, and/or * sell copies of the Software, and to permit persons to whom * the Software is furnished to do so, subject to the following * conditions: * * The above copyright notice and this permission notice shall * be included in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT * HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, * WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR * OTHER DEALINGS IN THE SOFTWARE. * * ----------------------------------------------------------------------- / #include <string.h> #include <stdlib.h> char strreplace(const char string, const char string_to_replace, const char string_to_insert) { char token = NULL; char *out = NULL; size_t slen, srlen, silen; token = strstr(string, string_to_replace); if (!token) return strdup(string); slen = strlen(string); srlen = strlen(string_to_replace); silen = strlen(string_to_insert); out = malloc(slen - srlen + silen + 1); if (!out) return NULL; memcpy(out, string, token - string); memcpy(out + (token - string), string_to_insert, silen); memcpy(out + (token - string) + silen, token + srlen, slen - srlen - (token - string) + 1); return out; }
the_stack_data/121224.c	/* A call will clobber all call-saved registers. If #pragma nosave_low_regs is specified, do not save/restore r0..r7. (On SH3* and SH4* r0..r7 are banked) Call-saved registers r8..r14 also don't need to be restored. To test that we look for register push insns such as 'mov.l r0,@-r15'. / / { dg-do compile { target { { banked_r0r7_isr } && nonpic } } } / / { dg-options "-O" } / / { dg-final { scan-assembler-times "rte" 1 } } / / { dg-final { scan-assembler-not "mov.l\tr\[0-9\],@-r15" } } / / { dg-final { scan-assembler-not "mov.l\tr1\[0-4\],@-r15" } } / / { dg-final { scan-assembler-times "macl" 2 } } */ extern void foo (void); #pragma interrupt #pragma nosave_low_regs void isr (void) { foo (); }
the_stack_data/48576439.c	#ifdef COMPILE_FOR_TEST #include <assert.h> #define assume(cond) assert(cond) #endif void main(int argc, char* argv[]) { int x_0_0;//sh_buf.outcnt int x_0_1;//sh_buf.outcnt int x_0_2;//sh_buf.outcnt int x_0_3;//sh_buf.outcnt int x_0_4;//sh_buf.outcnt int x_0_5;//sh_buf.outcnt int x_0_6;//sh_buf.outcnt int x_0_7;//sh_buf.outcnt int x_1_0;//sh_buf.outbuf[0] int x_1_1;//sh_buf.outbuf[0] int x_2_0;//sh_buf.outbuf[1] int x_2_1;//sh_buf.outbuf[1] int x_3_0;//sh_buf.outbuf[2] int x_3_1;//sh_buf.outbuf[2] int x_4_0;//sh_buf.outbuf[3] int x_4_1;//sh_buf.outbuf[3] int x_5_0;//sh_buf.outbuf[4] int x_5_1;//sh_buf.outbuf[4] int x_6_0;//sh_buf.outbuf[5] int x_7_0;//sh_buf.outbuf[6] int x_8_0;//sh_buf.outbuf[7] int x_9_0;//sh_buf.outbuf[8] int x_10_0;//sh_buf.outbuf[9] int x_11_0;//LOG_BUFSIZE int x_11_1;//LOG_BUFSIZE int x_12_0;//CREST_scheduler::lock_0 int x_13_0;//t3 T0 int x_14_0;//t2 T0 int x_15_0;//arg T0 int x_16_0;//functioncall::param T0 int x_16_1;//functioncall::param T0 int x_17_0;//buffered T0 int x_18_0;//functioncall::param T0 int x_18_1;//functioncall::param T0 int x_19_0;//functioncall::param T0 int x_19_1;//functioncall::param T0 int x_20_0;//functioncall::param T0 int x_20_1;//functioncall::param T0 int x_21_0;//functioncall::param T0 int x_21_1;//functioncall::param T0 int x_22_0;//direction T0 int x_23_0;//functioncall::param T0 int x_23_1;//functioncall::param T0 int x_24_0;//functioncall::param T0 int x_24_1;//functioncall::param T0 int x_25_0;//functioncall::param T0 int x_25_1;//functioncall::param T0 int x_26_0;//functioncall::param T0 int x_26_1;//functioncall::param T0 int x_27_0;//functioncall::param T0 int x_27_1;//functioncall::param T0 int x_28_0;//functioncall::param T0 int x_28_1;//functioncall::param T0 int x_29_0;//functioncall::param T0 int x_29_1;//functioncall::param T0 int x_30_0;//functioncall::param T0 int x_30_1;//functioncall::param T0 int x_31_0;//functioncall::param T0 int x_31_1;//functioncall::param T0 int x_32_0;//functioncall::param T0 int x_32_1;//functioncall::param T0 int x_33_0;//functioncall::param T0 int x_33_1;//functioncall::param T0 int x_34_0;//functioncall::param T0 int x_34_1;//functioncall::param T0 int x_35_0;//functioncall::param T1 int x_35_1;//functioncall::param T1 int x_36_0;//functioncall::param T1 int x_36_1;//functioncall::param T1 int x_37_0;//i T1 int x_37_1;//i T1 int x_37_2;//i T1 int x_38_0;//rv T1 int x_39_0;//rv T1 int x_39_1;//rv T1 int x_40_0;//functioncall::param T1 int x_40_1;//functioncall::param T1 int x_41_0;//functioncall::param T1 int x_41_1;//functioncall::param T1 int x_42_0;//functioncall::param T1 int x_42_1;//functioncall::param T1 int x_43_0;//functioncall::param T1 int x_43_1;//functioncall::param T1 int x_44_0;//functioncall::param T1 int x_44_1;//functioncall::param T1 int x_45_0;//functioncall::param T1 int x_45_1;//functioncall::param T1 int x_46_0;//functioncall::param T1 int x_46_1;//functioncall::param T1 int x_47_0;//functioncall::param T1 int x_47_1;//functioncall::param T1 int x_48_0;//functioncall::param T1 int x_48_1;//functioncall::param T1 int x_49_0;//functioncall::param T2 int x_49_1;//functioncall::param T2 int x_50_0;//functioncall::param T2 int x_50_1;//functioncall::param T2 int x_51_0;//i T2 int x_51_1;//i T2 int x_51_2;//i T2 int x_51_3;//i T2 int x_52_0;//rv T2 int x_53_0;//rv T2 int x_53_1;//rv T2 int x_54_0;//functioncall::param T2 int x_54_1;//functioncall::param T2 int x_55_0;//functioncall::param T2 int x_55_1;//functioncall::param T2 int x_56_0;//functioncall::param T2 int x_56_1;//functioncall::param T2 int x_57_0;//functioncall::param T2 int x_57_1;//functioncall::param T2 int x_58_0;//functioncall::param T2 int x_58_1;//functioncall::param T2 int x_59_0;//functioncall::param T2 int x_59_1;//functioncall::param T2 int x_59_2;//functioncall::param T2 int x_60_0;//functioncall::param T2 int x_60_1;//functioncall::param T2 T_0_0_0: x_0_0 = 0; T_0_1_0: x_1_0 = 0; T_0_2_0: x_2_0 = 0; T_0_3_0: x_3_0 = 0; T_0_4_0: x_4_0 = 0; T_0_5_0: x_5_0 = 0; T_0_6_0: x_6_0 = 0; T_0_7_0: x_7_0 = 0; T_0_8_0: x_8_0 = 0; T_0_9_0: x_9_0 = 0; T_0_10_0: x_10_0 = 0; T_0_11_0: x_11_0 = 0; T_0_12_0: x_13_0 = 2539611888; T_0_13_0: x_14_0 = 3417956960; T_0_14_0: x_15_0 = 0; T_0_15_0: x_16_0 = 947383651; T_0_16_0: x_16_1 = -1; T_0_17_0: x_17_0 = 0; T_0_18_0: x_18_0 = 1805662704; T_0_19_0: x_18_1 = x_17_0; T_0_20_0: x_19_0 = 1274269567; T_0_21_0: x_19_1 = 97; T_0_22_0: x_20_0 = 914787826; T_0_23_0: x_20_1 = 0; T_0_24_0: x_21_0 = 1818622533; T_0_25_0: x_21_1 = 0; T_0_26_0: x_22_0 = -877014976; T_0_27_0: x_23_0 = 496608146; T_0_28_0: x_23_1 = x_22_0; T_0_29_0: x_24_0 = 1154992508; T_0_30_0: x_24_1 = 0; T_0_31_0: x_12_0 = -1; T_0_32_0: x_0_1 = 5; T_0_33_0: x_1_1 = 72; T_0_34_0: x_2_1 = 69; T_0_35_0: x_3_1 = 76; T_0_36_0: x_4_1 = 76; T_0_37_0: x_5_1 = 79; T_0_38_0: x_25_0 = 2076325005; T_0_39_0: x_25_1 = 83; T_0_40_0: x_26_0 = 377743066; T_0_41_0: x_26_1 = 1; T_0_42_0: x_27_0 = 1987069870; T_0_43_0: x_27_1 = 1; T_0_44_0: x_28_0 = 389354619; T_0_45_0: x_28_1 = 1; T_0_46_0: x_29_0 = 1267319615; T_0_47_0: x_29_1 = 82; T_0_48_0: x_30_0 = 1403092463; T_0_49_0: x_30_1 = 90; T_0_50_0: x_31_0 = 382712174; T_0_51_0: x_31_1 = 1; T_0_52_0: x_32_0 = 1733455948; T_0_53_0: x_32_1 = 1; T_0_54_0: x_33_0 = 1452925783; T_0_55_0: x_33_1 = 2; T_0_56_0: x_34_0 = 1044341998; T_0_57_0: x_34_1 = 2; T_0_58_0: x_11_1 = 3; T_1_59_1: x_35_0 = 1743736326; T_1_60_1: x_35_1 = x_27_1; T_1_61_1: x_36_0 = 67238999; T_1_62_1: x_36_1 = x_28_1; T_1_63_1: x_37_0 = 0; T_1_64_1: x_38_0 = 828453377; T_2_65_2: x_49_0 = 831186625; T_2_66_2: x_49_1 = x_33_1; T_2_67_2: x_50_0 = 1412383626; T_2_68_2: x_50_1 = x_34_1; T_2_69_2: x_51_0 = 0; T_2_70_2: x_52_0 = 826352129; T_1_71_1: if (x_0_1 + x_36_1 > x_11_1 && x_0_1 != 0) x_39_0 = -869947472; T_2_72_2: if (x_0_1 + x_50_1 > x_11_1 && x_0_1 != 0) x_53_0 = -869947472; T_2_73_2: if (x_0_1 + x_50_1 > x_11_1 && x_0_1 != 0 && x_18_1 == 0 && x_18_1 == 0) x_54_0 = 1489661924; T_2_74_2: if (x_0_1 + x_50_1 > x_11_1 && x_0_1 != 0 && x_18_1 == 0 && x_18_1 == 0) x_54_1 = -1; T_2_75_2: if (x_0_1 + x_50_1 > x_11_1 && x_0_1 != 0 && x_18_1 == 0 && x_18_1 == 0) x_53_1 = x_54_1; T_2_76_2: if (x_0_1 + x_50_1 > x_11_1 && x_0_1 != 0 && x_18_1 == 0 && x_53_1 + 1 == 0) x_0_2 = 0; T_2_77_2: if (x_0_1 + x_50_1 > x_11_1 && x_0_1 != 0) x_55_0 = 195560616; T_2_78_2: if (x_0_1 + x_50_1 > x_11_1 && x_0_1 != 0) x_55_1 = 9; T_2_79_2: if (x_0_1 + x_50_1 > x_11_1 && x_0_1 != 0) x_56_0 = 332983468; T_2_80_2: if (x_0_1 + x_50_1 > x_11_1 && x_0_1 != 0) x_56_1 = x_55_1; T_2_81_2: if (x_0_1 + x_50_1 > x_11_1 && x_0_1 != 0) x_0_3 = 0; T_2_82_2: if (x_50_1 < x_11_1) x_57_0 = 860230392; T_2_83_2: if (x_50_1 < x_11_1) x_57_1 = 47097785018112; T_2_84_2: if (x_50_1 < x_11_1) x_58_0 = 495614752; T_2_85_2: if (x_50_1 < x_11_1) x_58_1 = x_0_3 + x_50_1; T_2_86_2: if (x_50_1 < x_11_1) x_51_1 = 0; T_2_87_2: if (x_50_1 < x_11_1 && x_51_1 < x_49_1) x_59_0 = 463830994; T_2_88_2: if (x_50_1 < x_11_1 && x_51_1 < x_49_1) x_59_1 = 47097785018112; T_2_89_2: if (x_50_1 < x_11_1) x_51_2 = 1 + x_51_1; T_2_90_2: if (x_50_1 < x_11_1 && x_51_2 < x_49_1) x_59_2 = 47097785018112; T_2_91_2: if (x_50_1 < x_11_1) x_51_3 = 1 + x_51_2; T_2_92_2: if (x_50_1 < x_11_1) x_60_0 = 1077996576; T_2_93_2: if (x_50_1 < x_11_1) x_60_1 = 47097785018112; T_2_94_2: if (x_0_1 + x_36_1 > x_11_1 && x_0_1 != 0 && x_18_1 == 0 && x_18_1 == 0) x_40_0 = 1211458787; T_2_95_2: if (x_0_1 + x_36_1 > x_11_1 && x_0_1 != 0 && x_18_1 == 0 && x_18_1 == 0) x_40_1 = -1; T_2_96_2: if (x_0_1 + x_36_1 > x_11_1 && x_0_1 != 0 && x_18_1 == 0 && x_18_1 == 0) x_39_1 = x_40_1; T_1_97_1: if (x_0_1 + x_36_1 > x_11_1 && x_0_1 != 0 && x_18_1 == 0 && x_39_1 + 1 == 0) x_0_4 = 0; T_1_98_1: if (x_0_1 + x_36_1 > x_11_1 && x_0_1 != 0) x_41_0 = 203472078; T_1_99_1: if (x_0_1 + x_36_1 > x_11_1 && x_0_1 != 0) x_41_1 = 9; T_1_100_1: if (x_0_1 + x_36_1 > x_11_1 && x_0_1 != 0) x_42_0 = 46611571; T_1_101_1: if (x_0_1 + x_36_1 > x_11_1 && x_0_1 != 0) x_42_1 = x_41_1; T_1_102_1: if (x_0_1 + x_36_1 > x_11_1 && x_0_1 != 0) x_0_5 = 0; T_1_103_1: if (x_36_1 < x_11_1) x_43_0 = 11358791; T_1_104_1: if (x_36_1 < x_11_1) x_43_1 = 47097782916864; T_1_105_1: if (x_50_1 < x_11_1) x_0_6 = x_0_3 + x_50_1; T_1_106_1: if (x_36_1 < x_11_1) x_44_0 = 2009134782; T_1_107_1: if (x_36_1 < x_11_1) x_44_1 = x_0_5 + x_36_1; T_1_108_1: if (x_36_1 < x_11_1) x_37_1 = 0; T_1_109_1: if (x_36_1 < x_11_1 && x_37_1 < x_35_1) x_45_0 = 1320881138; T_1_110_1: if (x_36_1 < x_11_1 && x_37_1 < x_35_1) x_45_1 = 47097782916864; T_1_111_1: if (x_36_1 < x_11_1) x_37_2 = 1 + x_37_1; T_1_112_1: if (x_36_1 < x_11_1) x_46_0 = 926146617; T_1_113_1: if (x_36_1 < x_11_1) x_46_1 = 47097782916864; T_1_114_1: if (x_36_1 < x_11_1) x_0_7 = x_0_6 + x_36_1; T_1_115_1: if (x_36_1 < x_11_1) x_47_0 = 1680273667; T_1_116_1: if (x_36_1 < x_11_1) x_47_1 = 47097782916864; T_1_117_1: if (x_36_1 < x_11_1) x_48_0 = 1817489285; T_1_118_1: if (x_36_1 < x_11_1) x_48_1 = 47097782916864; T_1_119_1: if (x_36_1 < x_11_1) assert(x_0_7 == x_44_1); }
the_stack_data/67919.c	/* * file2.c * * Created on: JAN 09, 2021 * Author: Yannic Kitten */ #include <stdio.h>
the_stack_data/14199412.c	int array_nested_read(int array[4][4]); int main() { int array[4][4] = { { 10, 20, 30, 40 }, { 11, 21, 31, 41 }, { 12, 22, 32, 42 } ,{ 13, 23, 33, 43 } }; return !(array_nested_read(array) == 44); }
the_stack_data/154829881.c	#include <fcntl.h> #include <sys/mman.h> #include <sys/stat.h> #include <unistd.h> void* __mmap(void, size_t, int, int, int, off_t); const char unsigned __map_file(const char* pathname, size_t* size) { struct stat st; const unsigned char* map = MAP_FAILED; int fd = open(pathname, O_RDONLY \| O_CLOEXEC \| O_NONBLOCK); if (fd < 0) return 0; if (!fstat(fd, &st)) { map = __mmap(0, st.st_size, PROT_READ, MAP_SHARED, fd, 0); *size = st.st_size; } close(fd); return map == MAP_FAILED ? 0 : map; }
the_stack_data/140764753.c	/* * This is meant to be a version of s_atof() that can deal with scientific notation * for example 5.23e2 can be expanded to 523.0 * * This exercise can be found in "The C Programming Language", second edition, * by Brian Kernighan and Dennis Ritchie on Page 73 / #include <ctype.h> #include <math.h> #include <stdio.h> #include <stdlib.h> #define negative 1 #define positive 0 double s_atof(char input, int len); int n_atoi(char c); extern char __progname; int main(void) { / grab the input and pass to s_atof() / / set our input string / char input; /* define an output var to set for easier error detection / double output; int captured; size_t maxlen; maxlen = 1024; if ((input = calloc(1, maxlen)) == NULL) { fprintf(stderr, "Error allocating memory\n"); return 1; } for (;;) { / grab some input from the user / captured = getline(&input, &maxlen, stdin); if (captured != -1) { output = s_atof(input, captured); (void)fprintf(stdout,"%s converted to floating point representation is:\n%0.3f\n", input, output); break; } else { return 2; break; } } return 0; } / * These really should be broken out into three separate functions, * should I need to tackle this problem again, I'd rewrite it as such. * * However, for the purpose of solving this problem, this approach is sufficient * and it clearly displays the calculations being done. / double s_atof(char input, int len){ /* verify the size of input / double value; int i, dot, exp, power, sign;; dot = exp = power = sign = i = value = 0; /* Find the index of the decimal point / while (i < len) { if (input[i] == '.') { dot = i; } / Find the start of the exponential expression / if (input[i] == 'e' \|\| input[i] == 'E') { exp = i; if (input[++i] == '-') { sign = negative; exp++; } else { sign = positive; } } i++; } / reset index for base value calculation / i = 0; while (i < dot) { power = (dot - i - 1); / the power of magnitude of the digit based off distance from the decimal / value += (pow(10,power) n_atoi(input[i])); i++; } /* now we need to capture the decimal portion of the number / i = dot++; while (i < len) { / test for the exponential expression and null terminator / if (input[i] == 'e' \|\| input[i] == 'E' \|\| input[i] == 0) { break; } power = (dot - i - 1); / power of the magnitude of the decimal portion / value += (pow(10,power) n_atoi(input[i])); i++; } /* finally calculate the exponential expression / i = exp++; / reset 'dot' to be recycled / dot = 0; while (i < len) { power = (len - i - 2); / reusing dot for temp value storage / dot += (pow(10,power) n_atoi(input[i])); i++; } if (sign == negative) { return (value /= (double)pow(10,dot)); } else { return (value = pow(10, dot)); } } int n_atoi(char c) { / simply converts a char to an int, returns the int */ if (c <= 57 && c >= 48) { return c - 48; } else { return 0; } }
the_stack_data/242330170.c	#include<stdio.h> #include<stdlib.h> struct node { int data; struct node next; }; typedef struct node node; void list(node first) { node c; printf("\n"); for(c=first;c!=NULL;c=c->next) { printf("%5d",c->data); } } node ins_after(node f) { int m; node c,cur; cur=(node)malloc(sizeof(node)); printf("\n Data ::"); scanf("%d",&cur->data); cur->next=NULL; if(f==NULL) { f=cur; return f; } printf("\n After Which No.?"); scanf("%d",&m); for(c=f;c!=NULL;c=c->next) { if(c->data==m) { cur->next=c->next; c->next=cur; break; } } return f; } node ins_before(node f) { int m; node c,cur,p; cur=(node)malloc(sizeof(node)); printf("\n Data ::"); scanf("%d",&cur->data); cur->next=NULL; if(f==NULL) { f=cur; return f; } printf("\n Before Which No. ?"); scanf("%d",&m); c=f; p=NULL; while(c!=NULL) { if(c->data==m) { cur->next=c; if(p!=NULL) p->next=cur; else f=cur; break; } p=c; c=c->next; } return f; } node* del_duplicate(node f) { int m; node p,t,c; if(f==NULL) { printf("\n!!! Empty !!!"); return NULL; } printf("\nEnter the number u want to delete ::"); scanf("%d",&m); p=NULL; c=f; while(c!=NULL) { if(c->data==m) { if(p==NULL) { t=c; c=c->next; f=c; free(t); } else { p->next=c->next; free(c); c=p->next; } continue; } p=c; c=c->next; } return f; } main() { int a,n,i,p; node *f=NULL; do { printf("\n1.Insert After"); printf("\n2.Insert Before"); printf("\n3.Delete Duplicate"); printf("\n4.List"); printf("\n5.Exit"); printf("\nEnter Your Choice ::"); scanf("%d",&n); switch(n) { case 1: f=ins_after(f); list(f); break; case 2: f=ins_before(f); list(f); break; case 3: f=del_duplicate(f); list(f); break; case 4: list(f); break; } } while(n!=5); }
the_stack_data/1129973.c	typedef enum {false, true} bool; extern int __VERIFIER_nondet_int(void); int main() { int c, x, y, z; x = __VERIFIER_nondet_int(); y = __VERIFIER_nondet_int(); z = __VERIFIER_nondet_int(); c = 0; while (x < y) { if (x < z) { x = x + 1; } else { z = z + 1; } c = c + 1; } return 0; }
the_stack_data/10217.c	#include<stdio.h> int main() { int n; scanf("%d",&n); while (n!=0) { if (n>2) printf("Bob\n"); else printf("Alice\n"); scanf("%d",&n); } return 0; }
the_stack_data/37551.c	/** @file main.c * * @copyright (C) 2020 Henrique Silva * * * @author Henrique Silva <[email protected]> * * @section LICENSE * * This file is subject to the terms and conditions defined in the file * 'LICENSE', which is part of this source code package. / #include <stdio.h> extern int yyparse(void); extern int yylex_destroy(void); void arvore = NULL; void exporta(void* arvore); void libera(void* arvore); int main(void) { int ret = yyparse(); exporta(arvore); libera(arvore); arvore = NULL; yylex_destroy(); return ret; }
the_stack_data/578644.c	/* { dg-do compile } / #include <stdarg.h> va_list v; volatile int i; void foo() { i = va_arg(v, char); / { dg-warning "is promoted to\|so you should" "char" } / i = va_arg(v, short); / { dg-warning "is promoted to" "short" } / i = va_arg(v, float); / { dg-warning "is promoted to" "float" } */ }
the_stack_data/1208116.c	#include<stdio.h> int main(){ int n,m; float h[200]; while(scanf("%d",&n)!=EOF){ while(n--){ scanf("%d",&m); int i; for(i = 0; i < m; i++){ scanf("%f",&h[i]); } float max = 0; for ( i = 0; i < m ;i++) { if (h[i] > max) { max = h[i]; } } printf("%.2f\n",max); } } }
the_stack_data/905487.c	/** * @file fakesys.c * @brief Fake system calls * @details Fake system calls with dummy implementation for testing only * @version 0.1 * @date 08/08/2015 15:57:38 * @author mribelotta / #if 0 void _exit(int n) {} void _sbrk(int n) {} void _kill(int p) {} int _getpid(void) {} int _write(int f, const void p, int n) {} void _close(int n) {} void _fstat(int n, void p) {} int _isatty(void) {} int _lseek(int f, int c, int n) {} int _read(int f, const void *p, int n) {} #endif
the_stack_data/97013594.c	#include<stdio.h> #include<stdlib.h> //For storing numbers with upto 10^5 digits char stack[10000]; int start=-1; int state; struct Trie{ char val; int count; struct Trie* children[11]; }; struct Trie* mytrie=NULL; void delete(char A[11]) { if(search(A)!=0) { int i=0; struct Trie* temp=mytrie; while(i<11 && A[i]!='\0') { temp=temp->children[A[i]-'0']; i++; } (temp->count)--; } } void frees(struct Trie* temp) { int i; if(temp==NULL) return; for(i=0;i<11;i++) { frees(temp->children[i]); } temp=NULL; free(temp); return; } void insert(char A[11]) { int i,j,k; i=0; struct Trie* temp=mytrie; while(i<11 && A[i]!='\0') { if(temp->children[A[i]-'0']==NULL) { temp->children[A[i]-'0']=malloc(sizeof(struct Trie)); for(k=0;k<10;k++) temp->children[A[i]-'0']->children[k]=NULL; } temp=temp->children[A[i]-'0']; temp->val=A[i]; if(temp->count>0) state=1; i++; } temp->count++; for(k=0;k<10;k++) if(temp->children[k]!=NULL) state=1; } int search(char A[11]) { struct Trie* temp=mytrie; int i=0; while(i<11 && A[i]!='\0') { temp=temp->children[A[i]-'0']; if(temp==NULL) return 0; i++; } return temp->count; } void printstack() { int i; for(i=1;i<=start;i++) //We print from the 2nd element in stack as the first element just has the start "#" value which we dont need to print printf("%c",stack[i]); printf("\n"); } void dfs(struct Trie* temp) { int i; if(temp!=NULL) { start++; stack[start]=temp->val; int k=temp->count; while(k!=0) { printstack(); k--; } for(i=0;i<10;i++) dfs(temp->children[i]); start--; } } int main() { int i,j,k,tc,n,m,a,b,c; char string[11]; scanf("%d",&tc); for(i=0;i<tc;i++) { frees(mytrie); mytrie=malloc(sizeof(struct Trie)); mytrie->val='#'; for(k=0;k<11;k++) mytrie->children[k]=NULL; state=0; scanf("%d\n",&n); for(j=0;j<n;j++) { scanf("%s", string); insert(string); } //dfs(mytrie); if(state==1) printf("NO\n"); else printf("YES\n"); } return 0; }
the_stack_data/62638868.c	/* * Compile with: * cc -I/usr/local/include -o time-test time-test.c -L/usr/local/lib -levent / #include <sys/types.h> #include <sys/stat.h> #include <sys/time.h> #include <sys/socket.h> #include <fcntl.h> #include <stdlib.h> #include <stdio.h> #include <string.h> #include <unistd.h> #include <errno.h> #include <event.h> int main(int argc, char argv) { / Initalize the event library */ event_init(); return (0); }
the_stack_data/78855.c	int f(int input2) { if(input2 != 2) if(input2 !=3) if(input2==4) return 1; } int main() { int input1; int y; y=f(input1); }
the_stack_data/35802.c	// carddeck.c // Chapter 16 // Learn C Programming // // carddeck.c is the final version of carddeck_3. // // compile with: // // cc carddeck.c -o carddeck -Wall -Werror =std=c11 // #include <stdbool.h> // for Boolean #include <stdio.h> // for printf() #include <string.h> // for strcpy() and strcat() #include <stdlib.h> // for rand() and srand() #include <time.h> // for date(). // Useful constants (avoid "magic numbers" whose meaning is // sometimes vague and whose values may change). Use these instead // of literals; when you need to change these, they will be applied // everywhere the enum is used. // enum { kCardsInDeck = 52, // For now, 52 cards in a deck. This will change // depending upon the card game and the # of wild // cards, etc. kCardsInSuit = 13, // For now, kCardsInDeck / 4. This will change // depending upon the card game. kCardsInHand = 5, // For now, 5 cards dealt for each hange. This will // change depending upon the card game. kNumHands = 4 // For now, for hands per "table". This will change // depending on the game we want to implement. }; const bool kWildCard = true; const bool kNotWildCard = false; // ============================================ // Definitions related to a Card // // Card Suits // typedef enum { club = 1, diamond, heart, spade } Suit; // Card Faces // typedef enum { one = 1, two , three , four , five , six , seven , eight , nine , ten , jack , queen , king , ace } Face; // A Card // typedef struct { Suit suit; int suitValue; Face face; int faceValue; bool isWild; } Card; // Operations on a Card // void InitializeCard( Card* pCard , Suit s , Face f , bool w ); void PrintCard( Card* pCard ); void CardToString( Card* pCard , char pCardStr[20] ); // ============================================ // Defintions related to a hand // // A Hand // typedef struct { int cardsDealt; Card* hand[ kCardsInHand ]; } Hand; // Operations on a Hand // void InitializeHand( Hand* pHand ); void AddCardToHand( Hand* pHand , Card* pCard ); void PrintHand( Hand* pHand , char* pLeadStr ); void PrintAllHands( Hand* hands[ kNumHands ] ); // ============================================ // Definitions related to a Deck // // A Deck // typedef struct { Card ordered[ kCardsInDeck ]; Card* shuffled[ kCardsInDeck ]; int numDealt; bool bIsShuffled; } Deck; // Operations on a Deck of Cards // void InitializeDeck( Deck* pDeck ); void ShuffleDeck( Deck* pDeck ); Card* DealCardFromDeck( Deck* pDeck ); void PrintDeck( Deck* pDeck ); // At this point, we have only defined structures and // declared functions (operations on those structures) for // * card // * hand // * deck // // For now, a hand loosely corresponds to a player. // // Nothing has been allocated and each function needs // to be fully defined. // int main( void ) { Deck deck; Deck* pDeck = &deck; InitializeDeck( pDeck ); PrintDeck( pDeck ); ShuffleDeck( pDeck ); PrintDeck( pDeck ); Hand h1 , h2 , h3 , h4; #if 0 InitializeHand( &h1 ); InitializeHand( &h2 ); InitializeHand( &h3 ); InitializeHand( &h4 ); #else Hand* hands[] = { &h1 , &h2 , &h3 , &h4 }; for( int i = 0 ; i < kNumHands ; i++ ) { InitializeHand( hands[i] ); } #endif for( int i = 0 ; i < kCardsInHand ; i++ ) { #if 0 AddCardToHand( &h1 , DealCardFromDeck( pDeck ) ); AddCardToHand( &h2 , DealCardFromDeck( pDeck ) ); AddCardToHand( &h3 , DealCardFromDeck( pDeck ) ); AddCardToHand( &h4 , DealCardFromDeck( pDeck ) ); #else for( int j = 0 ; j < kNumHands ; j++ ) { AddCardToHand( hands[j] , DealCardFromDeck( pDeck ) ); } #endif } PrintAllHands( hands ); PrintDeck( pDeck ); return 0; } // ============================================ // Operations on a Card // ============================================ void InitializeCard( Card* pCard, Suit s , Face f , bool w ) { pCard->suit = s; pCard->suitValue = (int)s; pCard->face = f; pCard->faceValue = (int)f; pCard->isWild = w; } void PrintCard( Card* pCard ) { char cardStr[20] = {0}; CardToString( pCard , cardStr ); printf( "%18s" , cardStr ); } void CardToString( Card* pCard , char pCardStr[20] ) { switch( pCard->face ) { case two: strcpy( pCardStr , " 2 " ); break; case three: strcpy( pCardStr , " 3 " ); break; case four: strcpy( pCardStr , " 4 " ); break; case five: strcpy( pCardStr , " 5 " ); break; case six: strcpy( pCardStr , " 6 " ); break; case seven: strcpy( pCardStr , " 7 " ); break; case eight: strcpy( pCardStr , " 8 " ); break; case nine: strcpy( pCardStr , " 9 " ); break; case ten: strcpy( pCardStr , " 10 " ); break; case jack: strcpy( pCardStr , " Jack " ); break; case queen: strcpy( pCardStr , "Queen " ); break; case king: strcpy( pCardStr , " King " ); break; case ace: strcpy( pCardStr , " Ace " ); break; default: strcpy( pCardStr , " ??? " ); break; } switch( pCard->suit ) { case spade: strcat( pCardStr , "of Spades "); break; case heart: strcat( pCardStr , "of Hearts "); break; case diamond: strcat( pCardStr , "of Diamonds"); break; case club: strcat( pCardStr , "of Clubs "); break; default: strcat( pCardStr , "of ???s "); break; } } // ============================================ // Operations on a Hand // ============================================ void InitializeHand( Hand* pHand ) { pHand->cardsDealt = 0; for( int i = 0; i < kCardsInHand ; i++ ) { pHand->hand[i] = NULL; } } void AddCardToHand( Hand* pHand , Card* pCard ) { if( pHand->cardsDealt == kCardsInHand ) return; pHand->hand[ pHand->cardsDealt ] = pCard; pHand->cardsDealt++; } void PrintHand( Hand* pHand , char* pLeadStr ) { for( int i = 0; i < kCardsInHand ; i++ ) // 1..5 { Card* pCard = pHand->hand[i]; printf("%s" , pLeadStr ); PrintCard( pCard ); printf("\n"); } } void PrintAllHands( Hand* hands[ kNumHands ] ) { printf( " Hand 1: \n"); PrintHand( hands[ 0 ] , " " ); printf( "Hand 2: \n"); PrintHand( hands[ 1 ], " " ); printf( " Hand 3: \n"); PrintHand( hands[ 2 ], " " ); printf( " Hand 4: \n" ); PrintHand( hands[ 3 ] , " " ); printf( "\n" ); } // ============================================ // Operations on a Deck of Cards // ============================================ void InitializeDeck( Deck* pDeck ) { Face f[13] = { two , three , four , five , six , seven , eight , nine , ten , jack , queen , king , ace }; Card* pC; for( int i = 0 ; i < kCardsInSuit ; i++ ) { pC = &(pDeck->ordered[ i + (0kCardsInSuit) ]); InitializeCard( pC , spade , f[i], kNotWildCard ); pC = &(pDeck->ordered[ i + (1kCardsInSuit) ]); InitializeCard( pC , heart , f[i], kNotWildCard ); pC = &(pDeck->ordered[ i + (2kCardsInSuit) ]); InitializeCard( pC , diamond , f[i], kNotWildCard ); pC = &(pDeck->ordered[ i + (3kCardsInSuit) ]); InitializeCard( pC , club , f[i], kNotWildCard ); } for( int i = 0 ; i < kCardsInDeck ; i++ ) { pDeck->shuffled[i] = &(pDeck->ordered[i]); } pDeck->bIsShuffled = false; pDeck->numDealt = 0; } void ShuffleDeck( Deck* pDeck ) { long randIndex; #if 1 srand( 810241024 ); // Just some number (8 megabits for giggles) // The actual number doesn't matter (could be 1). // this is handy for reproducibility and verifying // your program as you developt it. #else srand( time(NULL) ); // Seed our PRNG using time() function. Because time() // ever increases, we'll get a different series each time // we run the program. #endif Card* pTmpCard; // Now, walk through the shuffled array, swapping the pointer // at a random card index in shuffuled with the pointer at the // current card index. // for( int thisIndex = 0 ; thisIndex < kCardsInDeck ; thisIndex++ ) { // get a random index randIndex = rand() % kCardsInDeck; // get next random number between 0..52 // swap card pointers between thisIndex and randIndex pTmpCard = pDeck->shuffled[ thisIndex ]; pDeck->shuffled[ thisIndex ] = pDeck->shuffled[ randIndex ]; pDeck->shuffled[ randIndex ] = pTmpCard; } pDeck->bIsShuffled = true; } Card* DealCardFromDeck( Deck* pDeck ) { Card* pCard = pDeck->shuffled[ pDeck->numDealt ]; pDeck->shuffled[ pDeck->numDealt ] = NULL; pDeck->numDealt++; return pCard; } void PrintDeck( Deck* pDeck ) { printf( "%d cards in the deck\n" , kCardsInDeck ); printf( "Deck %s shuffled\n", pDeck->bIsShuffled ? "is" : "is not" ); printf( "%d cards dealt into %d hands\n" , pDeck->numDealt , kNumHands ); if( pDeck->bIsShuffled == true ) // Deck is shuffled. { if( pDeck->numDealt > 0 ) { printf( "The remaining shuffled deck:\n" ); } else { printf( "The full shuffled deck:\n"); } for( int i = pDeck->numDealt , j = 0 ; i < kCardsInDeck ; i++ , j++ ) { printf( "(%2d)" , i+1 ); PrintCard( pDeck->shuffled[ i ] ); if( j == 3 ) { printf( "\n" ); j = -1; } else { printf( "\t"); } } } else { // Deck is not shuffled. printf( "The ordered deck: \n" ); for( int i = 0 ; i < kCardsInSuit ; i++ ) { int index = i + (0kCardsInSuit); printf( "(%2d)" , index+1 ); PrintCard( &(pDeck->ordered[ index ] ) ); index = i + (1kCardsInSuit); printf( " (%2d)" , index+1 ); PrintCard( &(pDeck->ordered[ index ] ) ); index = i + (2kCardsInSuit); printf( " (%2d)" , index+1 ); PrintCard( &(pDeck->ordered[ i + (2kCardsInSuit) ] ) ); index = i + (3*kCardsInSuit); printf( " (%2d)" , index+1 ); PrintCard( &(pDeck->ordered[ index ] ) ); printf( "\n" ); } } printf( "\n\n" ); } // eof
the_stack_data/72012213.c	#include <stdio.h> /* Takes a number of inputs from the users and determine if the sum of the inputs is odd or even. */ int main () { int num; printf("How many numbers do you wish to input? "); scanf("%i", &num); float numArray[num]; printf("Now input your numbers: "); for (int i = 0; i < num; i++) { scanf("%f", &numArray[i]); } int sum = 0; for (int i = 0; i < num; i++) { sum += numArray[i]; } if (sum % 2 == 0) { printf("The sum of all the numbers is %i. It is EVEN.", sum); } else if (sum % 2 != 0) { printf("The sum of all the numbers is %i. It is ODD.", sum); } return 0; }
the_stack_data/154479.c	#include <stdio.h> #include <stdlib.h> void vassume(int b){} void vtrace(int a, int m){} void mainQ(int m, int u4) { vassume(m > 0); int a = 0; int j = 0; for (j = 1; j <= m; j++) { if (u4) a++; else a--; } vtrace(a, m); //assert(a >= 0 - m); //assert(a <= m); } void main(int argc, char *argv[]) { mainQ(atoi(argv[1]), atoi(argv[2])); }
the_stack_data/68887544.c	/* 920730-1.c */ #include <limits.h> f1() { int b=INT_MIN; return b>=INT_MIN; } f2() { int b=INT_MIN+1; return b>= (unsigned)(INT_MAX+2); } f3() { int b=INT_MAX; return b>=INT_MAX; } f4() { int b=-1; return b>=UINT_MAX; } main () { if((f1()&f2()&f3()&f4())!=1) abort(); exit(0); }
the_stack_data/51699676.c	// File name: ExtremeC_examples_chapter14_2.c // Description: This example tries to show the non-determinstic nature // of two concurrent processes. #include <stdio.h> #include <unistd.h> int main(int argc, char** argv) { pid_t ret = fork(); if (ret) { for (size_t i = 0; i < 5; i++) { printf("AAA\n"); usleep(1); } } else { for (size_t i = 0; i < 5; i++) { printf("BBBBBB\n"); usleep(1); } } return 0; }
the_stack_data/949758.c	/* example from http://barnyard.syr.edu/quickies/hanoi.c / / hanoi.c: solves the tower of hanoi problem. (Programming exercise.) / / By Terry R. McConnell (12/2/97) / / Compile: cc -o hanoi hanoi.c / / This program does no error checking. But then, if it's right, it's right ... right ? / / The original towers of hanoi problem seems to have been originally posed by one M. Claus in 1883. There is a popular legend that goes along with it that has been often repeated and paraphrased. It goes something like this: In the great temple at Benares there are 3 golden spikes. On one of them, God placed 64 disks increasing in size from bottom to top, at the beginning of time. Since then, and to this day, the priest on duty constantly transfers disks, one at a time, in such a way that no larger disk is ever put on top of a smaller one. When the disks have been transferred entirely to another spike the Universe will come to an end in a large thunderclap. This paraphrases the original legend due to DeParville, La Nature, Paris 1884, Part I, 285-286. For this and further information see: Mathematical Recreations & Essays, W.W. Rouse Ball, MacMillan, NewYork, 11th Ed. 1967, 303-305. * * / #include <stdio.h> #include <stdlib.h> #define TRUE 1 #define FALSE 0 / This is the number of "disks" on tower A initially. Taken to be 64 in the * legend. The number of moves required, in general, is 2^N - 1. For N = 64, * this is 18,446,744,073,709,551,615 / #define N 4 / These are the three towers. For example if the state of A is 0,1,3,4, that * means that there are three discs on A of sizes 1, 3, and 4. (Think of right * as being the "down" direction.) / int A[N], B[N], C[N]; void Hanoi(int,int,int,int); /* Print the current configuration of A, B, and C to the screen / void PrintAll() { int i; printf("A: "); for(i=0;i<N;i++)printf(" %d ",A[i]); printf("\n"); printf("B: "); for(i=0;i<N;i++)printf(" %d ",B[i]); printf("\n"); printf("C: "); for(i=0;i<N;i++)printf(" %d ",C[i]); printf("\n"); printf("------------------------------------------\n"); return; } / Move the leftmost nonzero element of source to dest, leave behind 0. / / Returns the value moved (not used.) / int Move(int source, int dest) { int i = 0, j = 0; while (i<N && (source[i])==0) i++; while (j<N && (dest[j])==0) j++; dest[j-1] = source[i]; source[i] = 0; PrintAll(); / Print configuration after each move. / return dest[j-1]; } / Moves first n nonzero numbers from source to dest using the rules of Hanoi. Calls itself recursively. / void Hanoi(int n,int source, int dest, int spare) { int i; if(n==1){ Move(source,dest); return; } Hanoi(n-1,source,spare,dest); Move(source,dest); Hanoi(n-1,spare,dest,source); return; } int main() { int i; /* initialize the towers / for(i=0;i<N;i++)A[i]=i+1; for(i=0;i<N;i++)B[i]=0; for(i=0;i<N;i++)C[i]=0; printf("Solution of Tower of Hanoi Problem with %d Disks\n\n",N); / Print the starting state / printf("Starting state:\n"); PrintAll(); printf("\n\nSubsequent states:\n\n"); / Do it! Use A = Source, B = Destination, C = Spare / Hanoi(N,A,B,C); return 0; } / vim: set expandtab ts=4 sw=3 sts=3 tw=80 :*/
the_stack_data/43888569.c	#ifdef N64VIDEO_C static STRICTINLINE int32_t normalize_dzpix(int32_t sum) { int count; if (sum & 0xc000) return 0x8000; if (!(sum & 0xffff)) return 1; if (sum == 1) return 3; for(count = 0x2000; count > 0; count >>= 1) { if (sum & count) return (count << 1); } msg_error("normalize_dzpix: invalid codepath taken"); return 0; } static void replicate_for_copy(uint32_t wid, uint32_t* outbyte, uint32_t inshort, uint32_t nybbleoffset, uint32_t tilenum, uint32_t tformat, uint32_t tsize) { uint32_t lownib, hinib; switch(tsize) { case PIXEL_SIZE_4BIT: lownib = (nybbleoffset ^ 3) << 2; lownib = hinib = (inshort >> lownib) & 0xf; if (tformat == FORMAT_CI) { outbyte = (state[wid].tile[tilenum].palette << 4) \| lownib; } else if (tformat == FORMAT_IA) { lownib = (lownib << 4) \| lownib; outbyte = (lownib & 0xe0) \| ((lownib & 0xe0) >> 3) \| ((lownib & 0xc0) >> 6); } else outbyte = (lownib << 4) \| lownib; break; case PIXEL_SIZE_8BIT: hinib = ((nybbleoffset ^ 3) \| 1) << 2; if (tformat == FORMAT_IA) { lownib = (inshort >> hinib) & 0xf; outbyte = (lownib << 4) \| lownib; } else { lownib = (inshort >> (hinib & ~4)) & 0xf; hinib = (inshort >> hinib) & 0xf; outbyte = (hinib << 4) \| lownib; } break; default: outbyte = (inshort >> 8) & 0xff; break; } } static void fetch_qword_copy(uint32_t wid, uint32_t* hidword, uint32_t* lowdword, int32_t ssss, int32_t ssst, uint32_t tilenum) { uint32_t shorta, shortb, shortc, shortd; uint32_t sortshort[8]; int hibits[6]; int lowbits[6]; int32_t sss = ssss, sst = ssst, sss1 = 0, sss2 = 0, sss3 = 0; int largetex = 0; uint32_t tformat, tsize; if (state[wid].other_modes.en_tlut) { tsize = PIXEL_SIZE_16BIT; tformat = state[wid].other_modes.tlut_type ? FORMAT_IA : FORMAT_RGBA; } else { tsize = state[wid].tile[tilenum].size; tformat = state[wid].tile[tilenum].format; } tc_pipeline_copy(wid, &sss, &sss1, &sss2, &sss3, &sst, tilenum); read_tmem_copy(wid, sss, sss1, sss2, sss3, sst, tilenum, sortshort, hibits, lowbits); largetex = (tformat == FORMAT_YUV \|\| (tformat == FORMAT_RGBA && tsize == PIXEL_SIZE_32BIT)); if (state[wid].other_modes.en_tlut) { shorta = sortshort[4]; shortb = sortshort[5]; shortc = sortshort[6]; shortd = sortshort[7]; } else if (largetex) { shorta = sortshort[0]; shortb = sortshort[1]; shortc = sortshort[2]; shortd = sortshort[3]; } else { shorta = hibits[0] ? sortshort[4] : sortshort[0]; shortb = hibits[1] ? sortshort[5] : sortshort[1]; shortc = hibits[3] ? sortshort[6] : sortshort[2]; shortd = hibits[4] ? sortshort[7] : sortshort[3]; } lowdword = (shortc << 16) \| shortd; if (tsize == PIXEL_SIZE_16BIT) hidword = (shorta << 16) \| shortb; else { replicate_for_copy(wid, &shorta, shorta, lowbits[0] & 3, tilenum, tformat, tsize); replicate_for_copy(wid, &shortb, shortb, lowbits[1] & 3, tilenum, tformat, tsize); replicate_for_copy(wid, &shortc, shortc, lowbits[3] & 3, tilenum, tformat, tsize); replicate_for_copy(wid, &shortd, shortd, lowbits[4] & 3, tilenum, tformat, tsize); hidword = (shorta << 24) \| (shortb << 16) \| (shortc << 8) \| shortd; } } static STRICTINLINE void rgba_correct(uint32_t wid, int offx, int offy, int r, int g, int b, int a, uint32_t cvg) { int summand_r, summand_b, summand_g, summand_a; if (cvg == 8) { r >>= 2; g >>= 2; b >>= 2; a >>= 2; } else { summand_r = offx state[wid].spans_cdr + offy * state[wid].spans_drdy; summand_g = offx * state[wid].spans_cdg + offy * state[wid].spans_dgdy; summand_b = offx * state[wid].spans_cdb + offy * state[wid].spans_dbdy; summand_a = offx * state[wid].spans_cda + offy * state[wid].spans_dady; r = ((r << 2) + summand_r) >> 4; g = ((g << 2) + summand_g) >> 4; b = ((b << 2) + summand_b) >> 4; a = ((a << 2) + summand_a) >> 4; } state[wid].shade_color.r = special_9bit_clamptable[r & 0x1ff]; state[wid].shade_color.g = special_9bit_clamptable[g & 0x1ff]; state[wid].shade_color.b = special_9bit_clamptable[b & 0x1ff]; state[wid].shade_color.a = special_9bit_clamptable[a & 0x1ff]; } static STRICTINLINE void z_correct(uint32_t wid, int offx, int offy, int* z, uint32_t cvg) { int summand_z; int sz = z; int zanded; if (cvg == 8) sz = sz >> 3; else { summand_z = offx state[wid].spans_cdz + offy * state[wid].spans_dzdy; sz = ((sz << 2) + summand_z) >> 5; } zanded = (sz & 0x60000) >> 17; switch (zanded) { case 0: z = sz & 0x3ffff; break; case 1: z = sz & 0x3ffff; break; case 2: z = 0x3ffff; break; case 3: z = 0; break; } } static void render_spans_1cycle_complete(uint32_t wid, int start, int end, int tilenum, int flip) { int zb = state[wid].zb_address >> 1; int zbcur; uint8_t offx, offy; struct spansigs sigs; uint32_t blend_en; uint32_t prewrap; uint32_t curpixel_cvg, curpixel_cvbit, curpixel_memcvg; int prim_tile = tilenum; int tile1 = tilenum; int newtile = tilenum; int news, newt; int i, j; int drinc, dginc, dbinc, dainc, dzinc, dsinc, dtinc, dwinc; int xinc; if (flip) { drinc = state[wid].spans_dr; dginc = state[wid].spans_dg; dbinc = state[wid].spans_db; dainc = state[wid].spans_da; dzinc = state[wid].spans_dz; dsinc = state[wid].spans_ds; dtinc = state[wid].spans_dt; dwinc = state[wid].spans_dw; xinc = 1; } else { drinc = -state[wid].spans_dr; dginc = -state[wid].spans_dg; dbinc = -state[wid].spans_db; dainc = -state[wid].spans_da; dzinc = -state[wid].spans_dz; dsinc = -state[wid].spans_ds; dtinc = -state[wid].spans_dt; dwinc = -state[wid].spans_dw; xinc = -1; } int dzpix; if (!state[wid].other_modes.z_source_sel) dzpix = state[wid].spans_dzpix; else { dzpix = state[wid].primitive_delta_z; dzinc = state[wid].spans_cdz = state[wid].spans_dzdy = 0; } int dzpixenc = dz_compress(dzpix); int cdith = 7, adith = 0; int r, g, b, a, z, s, t, w; int sr, sg, sb, sa, sz, ss, st, sw; int xstart, xend, xendsc; int sss = 0, sst = 0; int32_t prelodfrac; int curpixel = 0; int x, length, scdiff, lodlength; uint32_t fir, fig, fib; for (i = start; i <= end; i++) { if (state[wid].span[i].validline) { xstart = state[wid].span[i].lx; xend = state[wid].span[i].unscrx; xendsc = state[wid].span[i].rx; r = state[wid].span[i].r; g = state[wid].span[i].g; b = state[wid].span[i].b; a = state[wid].span[i].a; z = state[wid].other_modes.z_source_sel ? state[wid].primitive_z : state[wid].span[i].z; s = state[wid].span[i].s; t = state[wid].span[i].t; w = state[wid].span[i].w; x = xendsc; curpixel = state[wid].fb_width * i + x; zbcur = zb + curpixel; if (!flip) { length = xendsc - xstart; scdiff = xend - xendsc; compute_cvg_noflip(wid, i); } else { length = xstart - xendsc; scdiff = xendsc - xend; compute_cvg_flip(wid, i); } if (scdiff) { scdiff &= 0xfff; r += (drinc * scdiff); g += (dginc * scdiff); b += (dbinc * scdiff); a += (dainc * scdiff); z += (dzinc * scdiff); s += (dsinc * scdiff); t += (dtinc * scdiff); w += (dwinc * scdiff); } lodlength = length + scdiff; sigs.longspan = (lodlength > 7); sigs.midspan = (lodlength == 7); sigs.onelessthanmid = (lodlength == 6); for (j = 0; j <= length; j++) { sr = r >> 14; sg = g >> 14; sb = b >> 14; sa = a >> 14; ss = s >> 16; st = t >> 16; sw = w >> 16; sz = (z >> 10) & 0x3fffff; sigs.endspan = (j == length); sigs.preendspan = (j == (length - 1)); lookup_cvmask_derivatives(state[wid].cvgbuf[x], &offx, &offy, &curpixel_cvg, &curpixel_cvbit); get_texel1_1cycle(wid, &news, &newt, s, t, w, dsinc, dtinc, dwinc, i, &sigs); if (j) { state[wid].texel0_color = state[wid].texel1_color; state[wid].lod_frac = prelodfrac; } else { state[wid].tcdiv_ptr(ss, st, sw, &sss, &sst); tclod_1cycle_current(wid, &sss, &sst, news, newt, s, t, w, dsinc, dtinc, dwinc, i, prim_tile, &tile1, &sigs); texture_pipeline_cycle(wid, &state[wid].texel0_color, &state[wid].texel0_color, sss, sst, tile1, 0); } sigs.nextspan = sigs.endspan; sigs.endspan = sigs.preendspan; sigs.preendspan = (j == (length - 2)); s += dsinc; t += dtinc; w += dwinc; tclod_1cycle_next(wid, &news, &newt, s, t, w, dsinc, dtinc, dwinc, i, prim_tile, &newtile, &sigs, &prelodfrac); texture_pipeline_cycle(wid, &state[wid].texel1_color, &state[wid].texel1_color, news, newt, newtile, 0); rgba_correct(wid, offx, offy, sr, sg, sb, sa, curpixel_cvg); z_correct(wid, offx, offy, &sz, curpixel_cvg); if (state[wid].other_modes.f.getditherlevel < 2) get_dither_noise(wid, x, i, &cdith, &adith); combiner_1cycle(wid, adith, &curpixel_cvg); state[wid].fbread1_ptr(wid, curpixel, &curpixel_memcvg); if (z_compare(wid, zbcur, sz, dzpix, dzpixenc, &blend_en, &prewrap, &curpixel_cvg, curpixel_memcvg)) { if (blender_1cycle(wid, &fir, &fig, &fib, cdith, blend_en, prewrap, curpixel_cvg, curpixel_cvbit)) { state[wid].fbwrite_ptr(wid, curpixel, fir, fig, fib, blend_en, curpixel_cvg, curpixel_memcvg); if (state[wid].other_modes.z_update_en) z_store(zbcur, sz, dzpixenc); } } r += drinc; g += dginc; b += dbinc; a += dainc; z += dzinc; x += xinc; curpixel += xinc; zbcur += xinc; } } } } static void render_spans_1cycle_notexel1(uint32_t wid, int start, int end, int tilenum, int flip) { int zb = state[wid].zb_address >> 1; int zbcur; uint8_t offx, offy; struct spansigs sigs; uint32_t blend_en; uint32_t prewrap; uint32_t curpixel_cvg, curpixel_cvbit, curpixel_memcvg; int prim_tile = tilenum; int tile1 = tilenum; int i, j; int drinc, dginc, dbinc, dainc, dzinc, dsinc, dtinc, dwinc; int xinc; if (flip) { drinc = state[wid].spans_dr; dginc = state[wid].spans_dg; dbinc = state[wid].spans_db; dainc = state[wid].spans_da; dzinc = state[wid].spans_dz; dsinc = state[wid].spans_ds; dtinc = state[wid].spans_dt; dwinc = state[wid].spans_dw; xinc = 1; } else { drinc = -state[wid].spans_dr; dginc = -state[wid].spans_dg; dbinc = -state[wid].spans_db; dainc = -state[wid].spans_da; dzinc = -state[wid].spans_dz; dsinc = -state[wid].spans_ds; dtinc = -state[wid].spans_dt; dwinc = -state[wid].spans_dw; xinc = -1; } int dzpix; if (!state[wid].other_modes.z_source_sel) dzpix = state[wid].spans_dzpix; else { dzpix = state[wid].primitive_delta_z; dzinc = state[wid].spans_cdz = state[wid].spans_dzdy = 0; } int dzpixenc = dz_compress(dzpix); int cdith = 7, adith = 0; int r, g, b, a, z, s, t, w; int sr, sg, sb, sa, sz, ss, st, sw; int xstart, xend, xendsc; int sss = 0, sst = 0; int curpixel = 0; int x, length, scdiff, lodlength; uint32_t fir, fig, fib; for (i = start; i <= end; i++) { if (state[wid].span[i].validline) { xstart = state[wid].span[i].lx; xend = state[wid].span[i].unscrx; xendsc = state[wid].span[i].rx; r = state[wid].span[i].r; g = state[wid].span[i].g; b = state[wid].span[i].b; a = state[wid].span[i].a; z = state[wid].other_modes.z_source_sel ? state[wid].primitive_z : state[wid].span[i].z; s = state[wid].span[i].s; t = state[wid].span[i].t; w = state[wid].span[i].w; x = xendsc; curpixel = state[wid].fb_width * i + x; zbcur = zb + curpixel; if (!flip) { length = xendsc - xstart; scdiff = xend - xendsc; compute_cvg_noflip(wid, i); } else { length = xstart - xendsc; scdiff = xendsc - xend; compute_cvg_flip(wid, i); } if (scdiff) { scdiff &= 0xfff; r += (drinc * scdiff); g += (dginc * scdiff); b += (dbinc * scdiff); a += (dainc * scdiff); z += (dzinc * scdiff); s += (dsinc * scdiff); t += (dtinc * scdiff); w += (dwinc * scdiff); } lodlength = length + scdiff; sigs.longspan = (lodlength > 7); sigs.midspan = (lodlength == 7); for (j = 0; j <= length; j++) { sr = r >> 14; sg = g >> 14; sb = b >> 14; sa = a >> 14; ss = s >> 16; st = t >> 16; sw = w >> 16; sz = (z >> 10) & 0x3fffff; sigs.endspan = (j == length); sigs.preendspan = (j == (length - 1)); lookup_cvmask_derivatives(state[wid].cvgbuf[x], &offx, &offy, &curpixel_cvg, &curpixel_cvbit); state[wid].tcdiv_ptr(ss, st, sw, &sss, &sst); tclod_1cycle_current_simple(wid, &sss, &sst, s, t, w, dsinc, dtinc, dwinc, i, prim_tile, &tile1, &sigs); texture_pipeline_cycle(wid, &state[wid].texel0_color, &state[wid].texel0_color, sss, sst, tile1, 0); rgba_correct(wid, offx, offy, sr, sg, sb, sa, curpixel_cvg); z_correct(wid, offx, offy, &sz, curpixel_cvg); if (state[wid].other_modes.f.getditherlevel < 2) get_dither_noise(wid, x, i, &cdith, &adith); combiner_1cycle(wid, adith, &curpixel_cvg); state[wid].fbread1_ptr(wid, curpixel, &curpixel_memcvg); if (z_compare(wid, zbcur, sz, dzpix, dzpixenc, &blend_en, &prewrap, &curpixel_cvg, curpixel_memcvg)) { if (blender_1cycle(wid, &fir, &fig, &fib, cdith, blend_en, prewrap, curpixel_cvg, curpixel_cvbit)) { state[wid].fbwrite_ptr(wid, curpixel, fir, fig, fib, blend_en, curpixel_cvg, curpixel_memcvg); if (state[wid].other_modes.z_update_en) z_store(zbcur, sz, dzpixenc); } } s += dsinc; t += dtinc; w += dwinc; r += drinc; g += dginc; b += dbinc; a += dainc; z += dzinc; x += xinc; curpixel += xinc; zbcur += xinc; } } } } static void render_spans_1cycle_notex(uint32_t wid, int start, int end, int tilenum, int flip) { int zb = state[wid].zb_address >> 1; int zbcur; uint8_t offx, offy; uint32_t blend_en; uint32_t prewrap; uint32_t curpixel_cvg, curpixel_cvbit, curpixel_memcvg; int i, j; int drinc, dginc, dbinc, dainc, dzinc; int xinc; if (flip) { drinc = state[wid].spans_dr; dginc = state[wid].spans_dg; dbinc = state[wid].spans_db; dainc = state[wid].spans_da; dzinc = state[wid].spans_dz; xinc = 1; } else { drinc = -state[wid].spans_dr; dginc = -state[wid].spans_dg; dbinc = -state[wid].spans_db; dainc = -state[wid].spans_da; dzinc = -state[wid].spans_dz; xinc = -1; } int dzpix; if (!state[wid].other_modes.z_source_sel) dzpix = state[wid].spans_dzpix; else { dzpix = state[wid].primitive_delta_z; dzinc = state[wid].spans_cdz = state[wid].spans_dzdy = 0; } int dzpixenc = dz_compress(dzpix); int cdith = 7, adith = 0; int r, g, b, a, z; int sr, sg, sb, sa, sz; int xstart, xend, xendsc; int curpixel = 0; int x, length, scdiff; uint32_t fir, fig, fib; for (i = start; i <= end; i++) { if (state[wid].span[i].validline) { xstart = state[wid].span[i].lx; xend = state[wid].span[i].unscrx; xendsc = state[wid].span[i].rx; r = state[wid].span[i].r; g = state[wid].span[i].g; b = state[wid].span[i].b; a = state[wid].span[i].a; z = state[wid].other_modes.z_source_sel ? state[wid].primitive_z : state[wid].span[i].z; x = xendsc; curpixel = state[wid].fb_width * i + x; zbcur = zb + curpixel; if (!flip) { length = xendsc - xstart; scdiff = xend - xendsc; compute_cvg_noflip(wid, i); } else { length = xstart - xendsc; scdiff = xendsc - xend; compute_cvg_flip(wid, i); } if (scdiff) { scdiff &= 0xfff; r += (drinc * scdiff); g += (dginc * scdiff); b += (dbinc * scdiff); a += (dainc * scdiff); z += (dzinc * scdiff); } for (j = 0; j <= length; j++) { sr = r >> 14; sg = g >> 14; sb = b >> 14; sa = a >> 14; sz = (z >> 10) & 0x3fffff; lookup_cvmask_derivatives(state[wid].cvgbuf[x], &offx, &offy, &curpixel_cvg, &curpixel_cvbit); rgba_correct(wid, offx, offy, sr, sg, sb, sa, curpixel_cvg); z_correct(wid, offx, offy, &sz, curpixel_cvg); if (state[wid].other_modes.f.getditherlevel < 2) get_dither_noise(wid, x, i, &cdith, &adith); combiner_1cycle(wid, adith, &curpixel_cvg); state[wid].fbread1_ptr(wid, curpixel, &curpixel_memcvg); if (z_compare(wid, zbcur, sz, dzpix, dzpixenc, &blend_en, &prewrap, &curpixel_cvg, curpixel_memcvg)) { if (blender_1cycle(wid, &fir, &fig, &fib, cdith, blend_en, prewrap, curpixel_cvg, curpixel_cvbit)) { state[wid].fbwrite_ptr(wid, curpixel, fir, fig, fib, blend_en, curpixel_cvg, curpixel_memcvg); if (state[wid].other_modes.z_update_en) z_store(zbcur, sz, dzpixenc); } } r += drinc; g += dginc; b += dbinc; a += dainc; z += dzinc; x += xinc; curpixel += xinc; zbcur += xinc; } } } } static void render_spans_2cycle_complete(uint32_t wid, int start, int end, int tilenum, int flip) { int zb = state[wid].zb_address >> 1; int zbcur; uint8_t offx, offy; int32_t prelodfrac; struct color nexttexel1_color; uint32_t blend_en; uint32_t prewrap; uint32_t curpixel_cvg, curpixel_cvbit, curpixel_memcvg; uint32_t nextpixel_cvg; uint32_t acalpha; int tile2 = (tilenum + 1) & 7; int tile1 = tilenum; int prim_tile = tilenum; int tile3 = tilenum; int i, j; int drinc, dginc, dbinc, dainc, dzinc, dsinc, dtinc, dwinc; int xinc; if (flip) { drinc = state[wid].spans_dr; dginc = state[wid].spans_dg; dbinc = state[wid].spans_db; dainc = state[wid].spans_da; dzinc = state[wid].spans_dz; dsinc = state[wid].spans_ds; dtinc = state[wid].spans_dt; dwinc = state[wid].spans_dw; xinc = 1; } else { drinc = -state[wid].spans_dr; dginc = -state[wid].spans_dg; dbinc = -state[wid].spans_db; dainc = -state[wid].spans_da; dzinc = -state[wid].spans_dz; dsinc = -state[wid].spans_ds; dtinc = -state[wid].spans_dt; dwinc = -state[wid].spans_dw; xinc = -1; } int dzpix; if (!state[wid].other_modes.z_source_sel) dzpix = state[wid].spans_dzpix; else { dzpix = state[wid].primitive_delta_z; dzinc = state[wid].spans_cdz = state[wid].spans_dzdy = 0; } int dzpixenc = dz_compress(dzpix); int cdith = 7, adith = 0; int r, g, b, a, z, s, t, w; int sr, sg, sb, sa, sz, ss, st, sw; int xstart, xend, xendsc; int sss = 0, sst = 0; int curpixel = 0; int wen; int x, length, scdiff, lodlength; uint32_t fir, fig, fib; for (i = start; i <= end; i++) { if (state[wid].span[i].validline) { xstart = state[wid].span[i].lx; xend = state[wid].span[i].unscrx; xendsc = state[wid].span[i].rx; r = state[wid].span[i].r; g = state[wid].span[i].g; b = state[wid].span[i].b; a = state[wid].span[i].a; z = state[wid].other_modes.z_source_sel ? state[wid].primitive_z : state[wid].span[i].z; s = state[wid].span[i].s; t = state[wid].span[i].t; w = state[wid].span[i].w; x = xendsc; curpixel = state[wid].fb_width * i + x; zbcur = zb + curpixel; if (!flip) { length = xendsc - xstart; scdiff = xend - xendsc; compute_cvg_noflip(wid, i); } else { length = xstart - xendsc; scdiff = xendsc - xend; compute_cvg_flip(wid, i); } if (scdiff) { scdiff &= 0xfff; r += (drinc * scdiff); g += (dginc * scdiff); b += (dbinc * scdiff); a += (dainc * scdiff); z += (dzinc * scdiff); s += (dsinc * scdiff); t += (dtinc * scdiff); w += (dwinc * scdiff); } lodlength = length + scdiff; for (j = 0; j <= length; j++) { sz = (z >> 10) & 0x3fffff; if (!j) { sr = r >> 14; sg = g >> 14; sb = b >> 14; sa = a >> 14; ss = s >> 16; st = t >> 16; sw = w >> 16; state[wid].tcdiv_ptr(ss, st, sw, &sss, &sst); tclod_2cycle(wid, &sss, &sst, s, t, w, dsinc, dtinc, dwinc, prim_tile, &tile1, &tile2, &state[wid].lod_frac); texture_pipeline_cycle(wid, &state[wid].texel0_color, &state[wid].texel0_color, sss, sst, tile1, 0); texture_pipeline_cycle(wid, &state[wid].texel1_color, &state[wid].texel0_color, sss, sst, tile2, 1); lookup_cvmask_derivatives(state[wid].cvgbuf[x], &offx, &offy, &curpixel_cvg, &curpixel_cvbit); rgba_correct(wid, offx, offy, sr, sg, sb, sa, curpixel_cvg); if (state[wid].other_modes.f.getditherlevel < 2) get_dither_noise(wid, x, i, &cdith, &adith); combiner_2cycle_cycle0(wid, adith, curpixel_cvg, &acalpha); } s += dsinc; t += dtinc; w += dwinc; ss = s >> 16; st = t >> 16; sw = w >> 16; state[wid].tcdiv_ptr(ss, st, sw, &sss, &sst); if (j < length \|\| !state[wid].span[i + 1].validline \|\| lodlength < 3) { tclod_2cycle(wid, &sss, &sst, s, t, w, dsinc, dtinc, dwinc, prim_tile, &tile1, &tile2, &prelodfrac); texture_pipeline_cycle(wid, &state[wid].nexttexel_color, &state[wid].nexttexel_color, sss, sst, tile1, 0); texture_pipeline_cycle(wid, &nexttexel1_color, &state[wid].nexttexel_color, sss, sst, tile2, 1); } else { int sss2, sst2; ss = state[wid].span[i + 1].s >> 16; st = state[wid].span[i + 1].t >> 16; sw = state[wid].span[i + 1].w >> 16; state[wid].tcdiv_ptr(ss, st, sw, &sss2, &sst2); tclod_2cycle_next(wid, &sss, &sst, &sss2, &sst2, s, t, w, dsinc, dtinc, dwinc, prim_tile, &tile1, &tile3, &prelodfrac, i); texture_pipeline_cycle(wid, &state[wid].nexttexel_color, &state[wid].nexttexel_color, sss, sst, tile1, 0); texture_pipeline_cycle(wid, &nexttexel1_color, &state[wid].nexttexel_color, sss2, sst2, tile3, 0); } z_correct(wid, offx, offy, &sz, curpixel_cvg); combiner_2cycle_cycle1(wid, adith, &curpixel_cvg); state[wid].fbread2_ptr(wid, curpixel, &curpixel_memcvg); wen = z_compare(wid, zbcur, sz, dzpix, dzpixenc, &blend_en, &prewrap, &curpixel_cvg, curpixel_memcvg); if (wen) wen &= blender_2cycle_cycle0(wid, curpixel_cvg, curpixel_cvbit); else state[wid].memory_color = state[wid].pre_memory_color; x += xinc; r += drinc; g += dginc; b += dbinc; a += dainc; sr = r >> 14; sg = g >> 14; sb = b >> 14; sa = a >> 14; lookup_cvmask_derivatives(j < length ? state[wid].cvgbuf[x] : 0, &offx, &offy, &nextpixel_cvg, &curpixel_cvbit); rgba_correct(wid, offx, offy, sr, sg, sb, sa, nextpixel_cvg); state[wid].lod_frac = prelodfrac; state[wid].texel0_color = state[wid].nexttexel_color; state[wid].texel1_color = nexttexel1_color; combiner_2cycle_cycle0(wid, adith, nextpixel_cvg, &acalpha); if (wen) { wen &= alpha_compare(wid, acalpha); if (wen) { blender_2cycle_cycle1(wid, &fir, &fig, &fib, cdith, blend_en, prewrap); state[wid].fbwrite_ptr(wid, curpixel, fir, fig, fib, blend_en, curpixel_cvg, curpixel_memcvg); if (state[wid].other_modes.z_update_en) z_store(zbcur, sz, dzpixenc); } } if (state[wid].other_modes.f.getditherlevel < 2) get_dither_noise(wid, x, i, &cdith, &adith); curpixel_cvg = nextpixel_cvg; z += dzinc; curpixel += xinc; zbcur += xinc; } } } } static void render_spans_2cycle_notexelnext(uint32_t wid, int start, int end, int tilenum, int flip) { int zb = state[wid].zb_address >> 1; int zbcur; uint8_t offx, offy; uint32_t blend_en; uint32_t prewrap; uint32_t curpixel_cvg, curpixel_cvbit, curpixel_memcvg; uint32_t nextpixel_cvg; uint32_t acalpha; int tile2 = (tilenum + 1) & 7; int tile1 = tilenum; int prim_tile = tilenum; int i, j; int drinc, dginc, dbinc, dainc, dzinc, dsinc, dtinc, dwinc; int xinc; if (flip) { drinc = state[wid].spans_dr; dginc = state[wid].spans_dg; dbinc = state[wid].spans_db; dainc = state[wid].spans_da; dzinc = state[wid].spans_dz; dsinc = state[wid].spans_ds; dtinc = state[wid].spans_dt; dwinc = state[wid].spans_dw; xinc = 1; } else { drinc = -state[wid].spans_dr; dginc = -state[wid].spans_dg; dbinc = -state[wid].spans_db; dainc = -state[wid].spans_da; dzinc = -state[wid].spans_dz; dsinc = -state[wid].spans_ds; dtinc = -state[wid].spans_dt; dwinc = -state[wid].spans_dw; xinc = -1; } int dzpix; if (!state[wid].other_modes.z_source_sel) dzpix = state[wid].spans_dzpix; else { dzpix = state[wid].primitive_delta_z; dzinc = state[wid].spans_cdz = state[wid].spans_dzdy = 0; } int dzpixenc = dz_compress(dzpix); int cdith = 7, adith = 0; int r, g, b, a, z, s, t, w; int sr, sg, sb, sa, sz, ss, st, sw; int xstart, xend, xendsc; int sss = 0, sst = 0; int curpixel = 0; int wen; int x, length, scdiff; uint32_t fir, fig, fib; for (i = start; i <= end; i++) { if (state[wid].span[i].validline) { xstart = state[wid].span[i].lx; xend = state[wid].span[i].unscrx; xendsc = state[wid].span[i].rx; r = state[wid].span[i].r; g = state[wid].span[i].g; b = state[wid].span[i].b; a = state[wid].span[i].a; z = state[wid].other_modes.z_source_sel ? state[wid].primitive_z : state[wid].span[i].z; s = state[wid].span[i].s; t = state[wid].span[i].t; w = state[wid].span[i].w; x = xendsc; curpixel = state[wid].fb_width * i + x; zbcur = zb + curpixel; if (!flip) { length = xendsc - xstart; scdiff = xend - xendsc; compute_cvg_noflip(wid, i); } else { length = xstart - xendsc; scdiff = xendsc - xend; compute_cvg_flip(wid, i); } if (scdiff) { scdiff &= 0xfff; r += (drinc * scdiff); g += (dginc * scdiff); b += (dbinc * scdiff); a += (dainc * scdiff); z += (dzinc * scdiff); s += (dsinc * scdiff); t += (dtinc * scdiff); w += (dwinc * scdiff); } for (j = 0; j <= length; j++) { sz = (z >> 10) & 0x3fffff; if (!j) { sr = r >> 14; sg = g >> 14; sb = b >> 14; sa = a >> 14; ss = s >> 16; st = t >> 16; sw = w >> 16; state[wid].tcdiv_ptr(ss, st, sw, &sss, &sst); tclod_2cycle(wid, &sss, &sst, s, t, w, dsinc, dtinc, dwinc, prim_tile, &tile1, &tile2, &state[wid].lod_frac); texture_pipeline_cycle(wid, &state[wid].texel0_color, &state[wid].texel0_color, sss, sst, tile1, 0); texture_pipeline_cycle(wid, &state[wid].texel1_color, &state[wid].texel0_color, sss, sst, tile2, 1); lookup_cvmask_derivatives(state[wid].cvgbuf[x], &offx, &offy, &curpixel_cvg, &curpixel_cvbit); rgba_correct(wid, offx, offy, sr, sg, sb, sa, curpixel_cvg); if (state[wid].other_modes.f.getditherlevel < 2) get_dither_noise(wid, x, i, &cdith, &adith); combiner_2cycle_cycle0(wid, adith, curpixel_cvg, &acalpha); } z_correct(wid, offx, offy, &sz, curpixel_cvg); combiner_2cycle_cycle1(wid, adith, &curpixel_cvg); state[wid].fbread2_ptr(wid, curpixel, &curpixel_memcvg); wen = z_compare(wid, zbcur, sz, dzpix, dzpixenc, &blend_en, &prewrap, &curpixel_cvg, curpixel_memcvg); if (wen) wen &= blender_2cycle_cycle0(wid, curpixel_cvg, curpixel_cvbit); else state[wid].memory_color = state[wid].pre_memory_color; x += xinc; r += drinc; g += dginc; b += dbinc; a += dainc; s += dsinc; t += dtinc; w += dwinc; sr = r >> 14; sg = g >> 14; sb = b >> 14; sa = a >> 14; ss = s >> 16; st = t >> 16; sw = w >> 16; lookup_cvmask_derivatives(j < length ? state[wid].cvgbuf[x] : 0, &offx, &offy, &nextpixel_cvg, &curpixel_cvbit); rgba_correct(wid, offx, offy, sr, sg, sb, sa, nextpixel_cvg); state[wid].tcdiv_ptr(ss, st, sw, &sss, &sst); tclod_2cycle(wid, &sss, &sst, s, t, w, dsinc, dtinc, dwinc, prim_tile, &tile1, &tile2, &state[wid].lod_frac); texture_pipeline_cycle(wid, &state[wid].texel0_color, &state[wid].texel0_color, sss, sst, tile1, 0); texture_pipeline_cycle(wid, &state[wid].texel1_color, &state[wid].texel0_color, sss, sst, tile2, 1); combiner_2cycle_cycle0(wid, adith, nextpixel_cvg, &acalpha); if (wen) { wen &= alpha_compare(wid, acalpha); if (wen) { blender_2cycle_cycle1(wid, &fir, &fig, &fib, cdith, blend_en, prewrap); state[wid].fbwrite_ptr(wid, curpixel, fir, fig, fib, blend_en, curpixel_cvg, curpixel_memcvg); if (state[wid].other_modes.z_update_en) z_store(zbcur, sz, dzpixenc); } } if (state[wid].other_modes.f.getditherlevel < 2) get_dither_noise(wid, x, i, &cdith, &adith); curpixel_cvg = nextpixel_cvg; z += dzinc; curpixel += xinc; zbcur += xinc; } } } } static void render_spans_2cycle_notexel1(uint32_t wid, int start, int end, int tilenum, int flip) { int zb = state[wid].zb_address >> 1; int zbcur; uint8_t offx, offy; uint32_t blend_en; uint32_t prewrap; uint32_t curpixel_cvg, curpixel_cvbit, curpixel_memcvg; uint32_t nextpixel_cvg; uint32_t acalpha; int tile1 = tilenum; int prim_tile = tilenum; int i, j; int drinc, dginc, dbinc, dainc, dzinc, dsinc, dtinc, dwinc; int xinc; if (flip) { drinc = state[wid].spans_dr; dginc = state[wid].spans_dg; dbinc = state[wid].spans_db; dainc = state[wid].spans_da; dzinc = state[wid].spans_dz; dsinc = state[wid].spans_ds; dtinc = state[wid].spans_dt; dwinc = state[wid].spans_dw; xinc = 1; } else { drinc = -state[wid].spans_dr; dginc = -state[wid].spans_dg; dbinc = -state[wid].spans_db; dainc = -state[wid].spans_da; dzinc = -state[wid].spans_dz; dsinc = -state[wid].spans_ds; dtinc = -state[wid].spans_dt; dwinc = -state[wid].spans_dw; xinc = -1; } int dzpix; if (!state[wid].other_modes.z_source_sel) dzpix = state[wid].spans_dzpix; else { dzpix = state[wid].primitive_delta_z; dzinc = state[wid].spans_cdz = state[wid].spans_dzdy = 0; } int dzpixenc = dz_compress(dzpix); int cdith = 7, adith = 0; int r, g, b, a, z, s, t, w; int sr, sg, sb, sa, sz, ss, st, sw; int xstart, xend, xendsc; int sss = 0, sst = 0; int curpixel = 0; int wen; int x, length, scdiff; uint32_t fir, fig, fib; for (i = start; i <= end; i++) { if (state[wid].span[i].validline) { xstart = state[wid].span[i].lx; xend = state[wid].span[i].unscrx; xendsc = state[wid].span[i].rx; r = state[wid].span[i].r; g = state[wid].span[i].g; b = state[wid].span[i].b; a = state[wid].span[i].a; z = state[wid].other_modes.z_source_sel ? state[wid].primitive_z : state[wid].span[i].z; s = state[wid].span[i].s; t = state[wid].span[i].t; w = state[wid].span[i].w; x = xendsc; curpixel = state[wid].fb_width * i + x; zbcur = zb + curpixel; if (!flip) { length = xendsc - xstart; scdiff = xend - xendsc; compute_cvg_noflip(wid, i); } else { length = xstart - xendsc; scdiff = xendsc - xend; compute_cvg_flip(wid, i); } if (scdiff) { scdiff &= 0xfff; r += (drinc * scdiff); g += (dginc * scdiff); b += (dbinc * scdiff); a += (dainc * scdiff); z += (dzinc * scdiff); s += (dsinc * scdiff); t += (dtinc * scdiff); w += (dwinc * scdiff); } for (j = 0; j <= length; j++) { sz = (z >> 10) & 0x3fffff; if (!j) { sr = r >> 14; sg = g >> 14; sb = b >> 14; sa = a >> 14; ss = s >> 16; st = t >> 16; sw = w >> 16; state[wid].tcdiv_ptr(ss, st, sw, &sss, &sst); tclod_2cycle_notexel1(wid, &sss, &sst, s, t, w, dsinc, dtinc, dwinc, prim_tile, &tile1); texture_pipeline_cycle(wid, &state[wid].texel0_color, &state[wid].texel0_color, sss, sst, tile1, 0); lookup_cvmask_derivatives(state[wid].cvgbuf[x], &offx, &offy, &curpixel_cvg, &curpixel_cvbit); rgba_correct(wid, offx, offy, sr, sg, sb, sa, curpixel_cvg); if (state[wid].other_modes.f.getditherlevel < 2) get_dither_noise(wid, x, i, &cdith, &adith); combiner_2cycle_cycle0(wid, adith, curpixel_cvg, &acalpha); } z_correct(wid, offx, offy, &sz, curpixel_cvg); combiner_2cycle_cycle1(wid, adith, &curpixel_cvg); state[wid].fbread2_ptr(wid, curpixel, &curpixel_memcvg); wen = z_compare(wid, zbcur, sz, dzpix, dzpixenc, &blend_en, &prewrap, &curpixel_cvg, curpixel_memcvg); if (wen) wen &= blender_2cycle_cycle0(wid, curpixel_cvg, curpixel_cvbit); else state[wid].memory_color = state[wid].pre_memory_color; x += xinc; r += drinc; g += dginc; b += dbinc; a += dainc; s += dsinc; t += dtinc; w += dwinc; sr = r >> 14; sg = g >> 14; sb = b >> 14; sa = a >> 14; ss = s >> 16; st = t >> 16; sw = w >> 16; lookup_cvmask_derivatives(j < length ? state[wid].cvgbuf[x] : 0, &offx, &offy, &nextpixel_cvg, &curpixel_cvbit); rgba_correct(wid, offx, offy, sr, sg, sb, sa, nextpixel_cvg); state[wid].tcdiv_ptr(ss, st, sw, &sss, &sst); tclod_2cycle_notexel1(wid, &sss, &sst, s, t, w, dsinc, dtinc, dwinc, prim_tile, &tile1); texture_pipeline_cycle(wid, &state[wid].texel0_color, &state[wid].texel0_color, sss, sst, tile1, 0); combiner_2cycle_cycle0(wid, adith, nextpixel_cvg, &acalpha); if (wen) { wen &= alpha_compare(wid, acalpha); if (wen) { blender_2cycle_cycle1(wid, &fir, &fig, &fib, cdith, blend_en, prewrap); state[wid].fbwrite_ptr(wid, curpixel, fir, fig, fib, blend_en, curpixel_cvg, curpixel_memcvg); if (state[wid].other_modes.z_update_en) z_store(zbcur, sz, dzpixenc); } } if (state[wid].other_modes.f.getditherlevel < 2) get_dither_noise(wid, x, i, &cdith, &adith); curpixel_cvg = nextpixel_cvg; z += dzinc; curpixel += xinc; zbcur += xinc; } } } } static void render_spans_2cycle_notex(uint32_t wid, int start, int end, int tilenum, int flip) { int zb = state[wid].zb_address >> 1; int zbcur; uint8_t offx, offy; uint32_t blend_en; uint32_t prewrap; uint32_t curpixel_cvg, curpixel_cvbit, curpixel_memcvg; uint32_t nextpixel_cvg; uint32_t acalpha; int i, j; int drinc, dginc, dbinc, dainc, dzinc; int xinc; if (flip) { drinc = state[wid].spans_dr; dginc = state[wid].spans_dg; dbinc = state[wid].spans_db; dainc = state[wid].spans_da; dzinc = state[wid].spans_dz; xinc = 1; } else { drinc = -state[wid].spans_dr; dginc = -state[wid].spans_dg; dbinc = -state[wid].spans_db; dainc = -state[wid].spans_da; dzinc = -state[wid].spans_dz; xinc = -1; } int dzpix; if (!state[wid].other_modes.z_source_sel) dzpix = state[wid].spans_dzpix; else { dzpix = state[wid].primitive_delta_z; dzinc = state[wid].spans_cdz = state[wid].spans_dzdy = 0; } int dzpixenc = dz_compress(dzpix); int cdith = 7, adith = 0; int r, g, b, a, z; int sr, sg, sb, sa, sz; int xstart, xend, xendsc; int curpixel = 0; int wen; int x, length, scdiff; uint32_t fir, fig, fib; for (i = start; i <= end; i++) { if (state[wid].span[i].validline) { xstart = state[wid].span[i].lx; xend = state[wid].span[i].unscrx; xendsc = state[wid].span[i].rx; r = state[wid].span[i].r; g = state[wid].span[i].g; b = state[wid].span[i].b; a = state[wid].span[i].a; z = state[wid].other_modes.z_source_sel ? state[wid].primitive_z : state[wid].span[i].z; x = xendsc; curpixel = state[wid].fb_width * i + x; zbcur = zb + curpixel; if (!flip) { length = xendsc - xstart; scdiff = xend - xendsc; compute_cvg_noflip(wid, i); } else { length = xstart - xendsc; scdiff = xendsc - xend; compute_cvg_flip(wid, i); } if (scdiff) { scdiff &= 0xfff; r += (drinc * scdiff); g += (dginc * scdiff); b += (dbinc * scdiff); a += (dainc * scdiff); z += (dzinc * scdiff); } for (j = 0; j <= length; j++) { sz = (z >> 10) & 0x3fffff; if (!j) { sr = r >> 14; sg = g >> 14; sb = b >> 14; sa = a >> 14; lookup_cvmask_derivatives(state[wid].cvgbuf[x], &offx, &offy, &curpixel_cvg, &curpixel_cvbit); rgba_correct(wid, offx, offy, sr, sg, sb, sa, curpixel_cvg); if (state[wid].other_modes.f.getditherlevel < 2) get_dither_noise(wid, x, i, &cdith, &adith); combiner_2cycle_cycle0(wid, adith, curpixel_cvg, &acalpha); } z_correct(wid, offx, offy, &sz, curpixel_cvg); combiner_2cycle_cycle1(wid, adith, &curpixel_cvg); state[wid].fbread2_ptr(wid, curpixel, &curpixel_memcvg); wen = z_compare(wid, zbcur, sz, dzpix, dzpixenc, &blend_en, &prewrap, &curpixel_cvg, curpixel_memcvg); if (wen) wen &= blender_2cycle_cycle0(wid, curpixel_cvg, curpixel_cvbit); else state[wid].memory_color = state[wid].pre_memory_color; x += xinc; r += drinc; g += dginc; b += dbinc; a += dainc; sr = r >> 14; sg = g >> 14; sb = b >> 14; sa = a >> 14; lookup_cvmask_derivatives(j < length ? state[wid].cvgbuf[x] : 0, &offx, &offy, &nextpixel_cvg, &curpixel_cvbit); rgba_correct(wid, offx, offy, sr, sg, sb, sa, nextpixel_cvg); combiner_2cycle_cycle0(wid, adith, nextpixel_cvg, &acalpha); if (wen) { wen &= alpha_compare(wid, acalpha); if (wen) { blender_2cycle_cycle1(wid, &fir, &fig, &fib, cdith, blend_en, prewrap); state[wid].fbwrite_ptr(wid, curpixel, fir, fig, fib, blend_en, curpixel_cvg, curpixel_memcvg); if (state[wid].other_modes.z_update_en) z_store(zbcur, sz, dzpixenc); } } if (state[wid].other_modes.f.getditherlevel < 2) get_dither_noise(wid, x, i, &cdith, &adith); curpixel_cvg = nextpixel_cvg; z += dzinc; curpixel += xinc; zbcur += xinc; } } } } static void render_spans_fill(uint32_t wid, int start, int end, int flip) { if (state[wid].fb_size == PIXEL_SIZE_4BIT) { rdp_pipeline_crashed = 1; return; } int i, j; int fastkillbits = state[wid].other_modes.image_read_en \|\| state[wid].other_modes.z_compare_en; int slowkillbits = state[wid].other_modes.z_update_en && !state[wid].other_modes.z_source_sel && !fastkillbits; int xinc = flip ? 1 : -1; int xstart = 0, xendsc; int prevxstart; int curpixel = 0; int x, length; for (i = start; i <= end; i++) { prevxstart = xstart; xstart = state[wid].span[i].lx; xendsc = state[wid].span[i].rx; x = xendsc; curpixel = state[wid].fb_width * i + x; length = flip ? (xstart - xendsc) : (xendsc - xstart); if (state[wid].span[i].validline) { if (fastkillbits && length >= 0) { if (!onetimewarnings.fillmbitcrashes) msg_warning("render_spans_fill: image_read_en %x z_update_en %x z_compare_en %x. RDP crashed", state[wid].other_modes.image_read_en, state[wid].other_modes.z_update_en, state[wid].other_modes.z_compare_en); onetimewarnings.fillmbitcrashes = true; rdp_pipeline_crashed = 1; return; } for (j = 0; j <= length; j++) { switch(state[wid].fb_size) { case 0: fbfill_4(wid, curpixel); break; case 1: fbfill_8(wid, curpixel); break; case 2: fbfill_16(wid, curpixel); break; case 3: default: fbfill_32(wid, curpixel); break; } x += xinc; curpixel += xinc; } if (slowkillbits && length >= 0) { if (!onetimewarnings.fillmbitcrashes) msg_warning("render_spans_fill: image_read_en %x z_update_en %x z_compare_en %x z_source_sel %x. RDP crashed", state[wid].other_modes.image_read_en, state[wid].other_modes.z_update_en, state[wid].other_modes.z_compare_en, state[wid].other_modes.z_source_sel); onetimewarnings.fillmbitcrashes = 1; rdp_pipeline_crashed = 1; return; } } } } static void render_spans_copy(uint32_t wid, int start, int end, int tilenum, int flip) { int i, j, k; if (state[wid].fb_size == PIXEL_SIZE_32BIT) { rdp_pipeline_crashed = 1; return; } int tile1 = tilenum; int prim_tile = tilenum; int dsinc, dtinc, dwinc; int xinc; if (flip) { dsinc = state[wid].spans_ds; dtinc = state[wid].spans_dt; dwinc = state[wid].spans_dw; xinc = 1; } else { dsinc = -state[wid].spans_ds; dtinc = -state[wid].spans_dt; dwinc = -state[wid].spans_dw; xinc = -1; } int xstart = 0, xendsc; int s = 0, t = 0, w = 0, ss = 0, st = 0, sw = 0, sss = 0, sst = 0, ssw = 0; int fb_index, length; int diff = 0; uint32_t hidword = 0, lowdword = 0; uint32_t hidword1 = 0, lowdword1 = 0; int fbadvance = (state[wid].fb_size == PIXEL_SIZE_4BIT) ? 8 : 16 >> state[wid].fb_size; uint32_t fbptr = 0; int fbptr_advance = flip ? 8 : -8; uint64_t copyqword = 0; uint32_t tempdword = 0, tempbyte = 0; int copywmask = 0, alphamask = 0; int bytesperpixel = (state[wid].fb_size == PIXEL_SIZE_4BIT) ? 1 : (1 << (state[wid].fb_size - 1)); uint32_t fbendptr = 0; int32_t threshold, currthreshold; #define PIXELS_TO_BYTES_SPECIAL4(pix, siz) ((siz) ? PIXELS_TO_BYTES(pix, siz) : (pix)) for (i = start; i <= end; i++) { if (state[wid].span[i].validline) { s = state[wid].span[i].s; t = state[wid].span[i].t; w = state[wid].span[i].w; xstart = state[wid].span[i].lx; xendsc = state[wid].span[i].rx; fb_index = state[wid].fb_width * i + xendsc; fbptr = state[wid].fb_address + PIXELS_TO_BYTES_SPECIAL4(fb_index, state[wid].fb_size); fbendptr = state[wid].fb_address + PIXELS_TO_BYTES_SPECIAL4((state[wid].fb_width * i + xstart), state[wid].fb_size); length = flip ? (xstart - xendsc) : (xendsc - xstart); for (j = 0; j <= length; j += fbadvance) { ss = s >> 16; st = t >> 16; sw = w >> 16; state[wid].tcdiv_ptr(ss, st, sw, &sss, &sst); tclod_copy(wid, &sss, &sst, s, t, w, dsinc, dtinc, dwinc, prim_tile, &tile1); fetch_qword_copy(wid, &hidword, &lowdword, sss, sst, tile1); if (state[wid].fb_size == PIXEL_SIZE_16BIT \|\| state[wid].fb_size == PIXEL_SIZE_8BIT) copyqword = ((uint64_t)hidword << 32) \| ((uint64_t)lowdword); else copyqword = 0; if (!state[wid].other_modes.alpha_compare_en) alphamask = 0xff; else if (state[wid].fb_size == PIXEL_SIZE_16BIT) { alphamask = 0; alphamask \|= (((copyqword >> 48) & 1) ? 0xC0 : 0); alphamask \|= (((copyqword >> 32) & 1) ? 0x30 : 0); alphamask \|= (((copyqword >> 16) & 1) ? 0xC : 0); alphamask \|= ((copyqword & 1) ? 0x3 : 0); } else if (state[wid].fb_size == PIXEL_SIZE_8BIT) { alphamask = 0; threshold = (state[wid].other_modes.dither_alpha_en) ? (irand(&state[wid].rseed) & 0xff) : state[wid].blend_color.a; if (state[wid].other_modes.dither_alpha_en) { currthreshold = threshold; alphamask \|= (((copyqword >> 24) & 0xff) >= currthreshold ? 0xC0 : 0); currthreshold = ((threshold & 3) << 6) \| (threshold >> 2); alphamask \|= (((copyqword >> 16) & 0xff) >= currthreshold ? 0x30 : 0); currthreshold = ((threshold & 0xf) << 4) \| (threshold >> 4); alphamask \|= (((copyqword >> 8) & 0xff) >= currthreshold ? 0xC : 0); currthreshold = ((threshold & 0x3f) << 2) \| (threshold >> 6); alphamask \|= ((copyqword & 0xff) >= currthreshold ? 0x3 : 0); } else { alphamask \|= (((copyqword >> 24) & 0xff) >= threshold ? 0xC0 : 0); alphamask \|= (((copyqword >> 16) & 0xff) >= threshold ? 0x30 : 0); alphamask \|= (((copyqword >> 8) & 0xff) >= threshold ? 0xC : 0); alphamask \|= ((copyqword & 0xff) >= threshold ? 0x3 : 0); } } else alphamask = 0; copywmask = (flip) ? (fbendptr - fbptr + bytesperpixel) : (fbptr - fbendptr + bytesperpixel); if (copywmask > 8) copywmask = 8; tempdword = fbptr; k = 7; while(copywmask > 0) { tempbyte = (uint32_t)((copyqword >> (k << 3)) & 0xff); if (alphamask & (1 << k)) { PAIRWRITE8(tempdword, tempbyte, (tempbyte & 1) ? 3 : 0); } k--; tempdword += xinc; copywmask--; } s += dsinc; t += dtinc; w += dwinc; fbptr += fbptr_advance; } } } } static void edgewalker_for_prims(uint32_t wid, int32_t* ewdata) { int j = 0; int xleft = 0, xright = 0, xleft_inc = 0, xright_inc = 0; int r = 0, g = 0, b = 0, a = 0, z = 0, s = 0, t = 0, w = 0; int dr = 0, dg = 0, db = 0, da = 0; int drdx = 0, dgdx = 0, dbdx = 0, dadx = 0, dzdx = 0, dsdx = 0, dtdx = 0, dwdx = 0; int drdy = 0, dgdy = 0, dbdy = 0, dady = 0, dzdy = 0, dsdy = 0, dtdy = 0, dwdy = 0; int drde = 0, dgde = 0, dbde = 0, dade = 0, dzde = 0, dsde = 0, dtde = 0, dwde = 0; int tilenum = 0, flip = 0; int32_t yl = 0, ym = 0, yh = 0; int32_t xl = 0, xm = 0, xh = 0; int32_t dxldy = 0, dxhdy = 0, dxmdy = 0; if (state[wid].other_modes.f.stalederivs) { deduce_derivatives(wid); state[wid].other_modes.f.stalederivs = 0; } flip = (ewdata[0] & 0x800000) != 0; state[wid].max_level = (ewdata[0] >> 19) & 7; tilenum = (ewdata[0] >> 16) & 7; yl = SIGN(ewdata[0], 14); ym = ewdata[1] >> 16; ym = SIGN(ym, 14); yh = SIGN(ewdata[1], 14); xl = SIGN(ewdata[2], 28); xh = SIGN(ewdata[4], 28); xm = SIGN(ewdata[6], 28); dxldy = SIGN(ewdata[3], 30); dxhdy = SIGN(ewdata[5], 30); dxmdy = SIGN(ewdata[7], 30); r = (ewdata[8] & 0xffff0000) \| ((ewdata[12] >> 16) & 0x0000ffff); g = ((ewdata[8] << 16) & 0xffff0000) \| (ewdata[12] & 0x0000ffff); b = (ewdata[9] & 0xffff0000) \| ((ewdata[13] >> 16) & 0x0000ffff); a = ((ewdata[9] << 16) & 0xffff0000) \| (ewdata[13] & 0x0000ffff); drdx = (ewdata[10] & 0xffff0000) \| ((ewdata[14] >> 16) & 0x0000ffff); dgdx = ((ewdata[10] << 16) & 0xffff0000) \| (ewdata[14] & 0x0000ffff); dbdx = (ewdata[11] & 0xffff0000) \| ((ewdata[15] >> 16) & 0x0000ffff); dadx = ((ewdata[11] << 16) & 0xffff0000) \| (ewdata[15] & 0x0000ffff); drde = (ewdata[16] & 0xffff0000) \| ((ewdata[20] >> 16) & 0x0000ffff); dgde = ((ewdata[16] << 16) & 0xffff0000) \| (ewdata[20] & 0x0000ffff); dbde = (ewdata[17] & 0xffff0000) \| ((ewdata[21] >> 16) & 0x0000ffff); dade = ((ewdata[17] << 16) & 0xffff0000) \| (ewdata[21] & 0x0000ffff); drdy = (ewdata[18] & 0xffff0000) \| ((ewdata[22] >> 16) & 0x0000ffff); dgdy = ((ewdata[18] << 16) & 0xffff0000) \| (ewdata[22] & 0x0000ffff); dbdy = (ewdata[19] & 0xffff0000) \| ((ewdata[23] >> 16) & 0x0000ffff); dady = ((ewdata[19] << 16) & 0xffff0000) \| (ewdata[23] & 0x0000ffff); s = (ewdata[24] & 0xffff0000) \| ((ewdata[28] >> 16) & 0x0000ffff); t = ((ewdata[24] << 16) & 0xffff0000) \| (ewdata[28] & 0x0000ffff); w = (ewdata[25] & 0xffff0000) \| ((ewdata[29] >> 16) & 0x0000ffff); dsdx = (ewdata[26] & 0xffff0000) \| ((ewdata[30] >> 16) & 0x0000ffff); dtdx = ((ewdata[26] << 16) & 0xffff0000) \| (ewdata[30] & 0x0000ffff); dwdx = (ewdata[27] & 0xffff0000) \| ((ewdata[31] >> 16) & 0x0000ffff); dsde = (ewdata[32] & 0xffff0000) \| ((ewdata[36] >> 16) & 0x0000ffff); dtde = ((ewdata[32] << 16) & 0xffff0000) \| (ewdata[36] & 0x0000ffff); dwde = (ewdata[33] & 0xffff0000) \| ((ewdata[37] >> 16) & 0x0000ffff); dsdy = (ewdata[34] & 0xffff0000) \| ((ewdata[38] >> 16) & 0x0000ffff); dtdy = ((ewdata[34] << 16) & 0xffff0000) \| (ewdata[38] & 0x0000ffff); dwdy = (ewdata[35] & 0xffff0000) \| ((ewdata[39] >> 16) & 0x0000ffff); z = ewdata[40]; dzdx = ewdata[41]; dzde = ewdata[42]; dzdy = ewdata[43]; state[wid].spans_ds = dsdx & ~0x1f; state[wid].spans_dt = dtdx & ~0x1f; state[wid].spans_dw = dwdx & ~0x1f; state[wid].spans_dr = drdx & ~0x1f; state[wid].spans_dg = dgdx & ~0x1f; state[wid].spans_db = dbdx & ~0x1f; state[wid].spans_da = dadx & ~0x1f; state[wid].spans_dz = dzdx; state[wid].spans_drdy = drdy >> 14; state[wid].spans_dgdy = dgdy >> 14; state[wid].spans_dbdy = dbdy >> 14; state[wid].spans_dady = dady >> 14; state[wid].spans_dzdy = dzdy >> 10; state[wid].spans_drdy = SIGN(state[wid].spans_drdy, 13); state[wid].spans_dgdy = SIGN(state[wid].spans_dgdy, 13); state[wid].spans_dbdy = SIGN(state[wid].spans_dbdy, 13); state[wid].spans_dady = SIGN(state[wid].spans_dady, 13); state[wid].spans_dzdy = SIGN(state[wid].spans_dzdy, 22); state[wid].spans_cdr = state[wid].spans_dr >> 14; state[wid].spans_cdr = SIGN(state[wid].spans_cdr, 13); state[wid].spans_cdg = state[wid].spans_dg >> 14; state[wid].spans_cdg = SIGN(state[wid].spans_cdg, 13); state[wid].spans_cdb = state[wid].spans_db >> 14; state[wid].spans_cdb = SIGN(state[wid].spans_cdb, 13); state[wid].spans_cda = state[wid].spans_da >> 14; state[wid].spans_cda = SIGN(state[wid].spans_cda, 13); state[wid].spans_cdz = state[wid].spans_dz >> 10; state[wid].spans_cdz = SIGN(state[wid].spans_cdz, 22); state[wid].spans_dsdy = dsdy & ~0x7fff; state[wid].spans_dtdy = dtdy & ~0x7fff; state[wid].spans_dwdy = dwdy & ~0x7fff; int dzdy_dz = (dzdy >> 16) & 0xffff; int dzdx_dz = (dzdx >> 16) & 0xffff; state[wid].spans_dzpix = ((dzdy_dz & 0x8000) ? ((~dzdy_dz) & 0x7fff) : dzdy_dz) + ((dzdx_dz & 0x8000) ? ((~dzdx_dz) & 0x7fff) : dzdx_dz); state[wid].spans_dzpix = normalize_dzpix(state[wid].spans_dzpix & 0xffff) & 0xffff; xleft_inc = (dxmdy >> 2) & ~0x1; xright_inc = (dxhdy >> 2) & ~0x1; xright = xh & ~0x1; xleft = xm & ~0x1; int k = 0; int dsdiff, dtdiff, dwdiff, drdiff, dgdiff, dbdiff, dadiff, dzdiff; int sign_dxhdy = (ewdata[5] & 0x80000000) != 0; int dsdeh, dtdeh, dwdeh, drdeh, dgdeh, dbdeh, dadeh, dzdeh, dsdyh, dtdyh, dwdyh, drdyh, dgdyh, dbdyh, dadyh, dzdyh; int do_offset = !(sign_dxhdy ^ flip); if (do_offset) { dsdeh = dsde & ~0x1ff; dtdeh = dtde & ~0x1ff; dwdeh = dwde & ~0x1ff; drdeh = drde & ~0x1ff; dgdeh = dgde & ~0x1ff; dbdeh = dbde & ~0x1ff; dadeh = dade & ~0x1ff; dzdeh = dzde & ~0x1ff; dsdyh = dsdy & ~0x1ff; dtdyh = dtdy & ~0x1ff; dwdyh = dwdy & ~0x1ff; drdyh = drdy & ~0x1ff; dgdyh = dgdy & ~0x1ff; dbdyh = dbdy & ~0x1ff; dadyh = dady & ~0x1ff; dzdyh = dzdy & ~0x1ff; dsdiff = dsdeh - (dsdeh >> 2) - dsdyh + (dsdyh >> 2); dtdiff = dtdeh - (dtdeh >> 2) - dtdyh + (dtdyh >> 2); dwdiff = dwdeh - (dwdeh >> 2) - dwdyh + (dwdyh >> 2); drdiff = drdeh - (drdeh >> 2) - drdyh + (drdyh >> 2); dgdiff = dgdeh - (dgdeh >> 2) - dgdyh + (dgdyh >> 2); dbdiff = dbdeh - (dbdeh >> 2) - dbdyh + (dbdyh >> 2); dadiff = dadeh - (dadeh >> 2) - dadyh + (dadyh >> 2); dzdiff = dzdeh - (dzdeh >> 2) - dzdyh + (dzdyh >> 2); } else dsdiff = dtdiff = dwdiff = drdiff = dgdiff = dbdiff = dadiff = dzdiff = 0; int xfrac = 0; int dsdxh, dtdxh, dwdxh, drdxh, dgdxh, dbdxh, dadxh, dzdxh; if (state[wid].other_modes.cycle_type != CYCLE_TYPE_COPY) { dsdxh = (dsdx >> 8) & ~1; dtdxh = (dtdx >> 8) & ~1; dwdxh = (dwdx >> 8) & ~1; drdxh = (drdx >> 8) & ~1; dgdxh = (dgdx >> 8) & ~1; dbdxh = (dbdx >> 8) & ~1; dadxh = (dadx >> 8) & ~1; dzdxh = (dzdx >> 8) & ~1; } else dsdxh = dtdxh = dwdxh = drdxh = dgdxh = dbdxh = dadxh = dzdxh = 0; #define ADJUST_ATTR_PRIM() \ { \ state[wid].span[j].s = ((s & ~0x1ff) + dsdiff - (xfrac * dsdxh)) & ~0x3ff; \ state[wid].span[j].t = ((t & ~0x1ff) + dtdiff - (xfrac * dtdxh)) & ~0x3ff; \ state[wid].span[j].w = ((w & ~0x1ff) + dwdiff - (xfrac * dwdxh)) & ~0x3ff; \ state[wid].span[j].r = ((r & ~0x1ff) + drdiff - (xfrac * drdxh)) & ~0x3ff; \ state[wid].span[j].g = ((g & ~0x1ff) + dgdiff - (xfrac * dgdxh)) & ~0x3ff; \ state[wid].span[j].b = ((b & ~0x1ff) + dbdiff - (xfrac * dbdxh)) & ~0x3ff; \ state[wid].span[j].a = ((a & ~0x1ff) + dadiff - (xfrac * dadxh)) & ~0x3ff; \ state[wid].span[j].z = ((z & ~0x1ff) + dzdiff - (xfrac * dzdxh)) & ~0x3ff; \ } #define ADDVALUES_PRIM() { \ s += dsde; \ t += dtde; \ w += dwde; \ r += drde; \ g += dgde; \ b += dbde; \ a += dade; \ z += dzde; \ } int32_t maxxmx, minxmx, maxxhx, minxhx; int spix = 0; int ycur = yh & ~3; int ldflag = (sign_dxhdy ^ flip) ? 0 : 3; int invaly = 1; int length = 0; int32_t xrsc = 0, xlsc = 0, stickybit = 0; int32_t yllimit = 0, yhlimit = 0; if (yl & 0x2000) yllimit = 1; else if (yl & 0x1000) yllimit = 0; else yllimit = (yl & 0xfff) < state[wid].clip.yl; yllimit = yllimit ? yl : state[wid].clip.yl; int ylfar = yllimit \| 3; if ((yl >> 2) > (ylfar >> 2)) ylfar += 4; else if ((yllimit >> 2) >= 0 && (yllimit >> 2) < 1023) state[wid].span[(yllimit >> 2) + 1].validline = 0; if (yh & 0x2000) yhlimit = 0; else if (yh & 0x1000) yhlimit = 1; else yhlimit = (yh >= state[wid].clip.yh); yhlimit = yhlimit ? yh : state[wid].clip.yh; int yhclose = yhlimit & ~3; int32_t clipxlshift = state[wid].clip.xl << 1; int32_t clipxhshift = state[wid].clip.xh << 1; int allover = 1, allunder = 1, curover = 0, curunder = 0; int allinval = 1; int32_t curcross = 0; xfrac = ((xright >> 8) & 0xff); if (flip) { for (k = ycur; k <= ylfar; k++) { if (k == ym) { xleft = xl & ~1; xleft_inc = (dxldy >> 2) & ~1; } spix = k & 3; if (k >= yhclose) { invaly = k < yhlimit \|\| k >= yllimit; j = k >> 2; if (spix == 0) { maxxmx = 0; minxhx = 0xfff; allover = allunder = 1; allinval = 1; } stickybit = ((xright >> 1) & 0x1fff) > 0; xrsc = ((xright >> 13) & 0x1ffe) \| stickybit; curunder = ((xright & 0x8000000) \|\| (xrsc < clipxhshift && !(xright & 0x4000000))); xrsc = curunder ? clipxhshift : (((xright >> 13) & 0x3ffe) \| stickybit); curover = ((xrsc & 0x2000) \|\| (xrsc & 0x1fff) >= clipxlshift); xrsc = curover ? clipxlshift : xrsc; state[wid].span[j].majorx[spix] = xrsc & 0x1fff; allover &= curover; allunder &= curunder; stickybit = ((xleft >> 1) & 0x1fff) > 0; xlsc = ((xleft >> 13) & 0x1ffe) \| stickybit; curunder = ((xleft & 0x8000000) \|\| (xlsc < clipxhshift && !(xleft & 0x4000000))); xlsc = curunder ? clipxhshift : (((xleft >> 13) & 0x3ffe) \| stickybit); curover = ((xlsc & 0x2000) \|\| (xlsc & 0x1fff) >= clipxlshift); xlsc = curover ? clipxlshift : xlsc; state[wid].span[j].minorx[spix] = xlsc & 0x1fff; allover &= curover; allunder &= curunder; curcross = ((xleft ^ (1 << 27)) & (0x3fff << 14)) < ((xright ^ (1 << 27)) & (0x3fff << 14)); invaly \|= curcross; state[wid].span[j].invalyscan[spix] = invaly; allinval &= invaly; if (!invaly) { maxxmx = (((xlsc >> 3) & 0xfff) > maxxmx) ? (xlsc >> 3) & 0xfff : maxxmx; minxhx = (((xrsc >> 3) & 0xfff) < minxhx) ? (xrsc >> 3) & 0xfff : minxhx; } if (spix == ldflag) { state[wid].span[j].unscrx = SIGN(xright >> 16, 12); xfrac = (xright >> 8) & 0xff; ADJUST_ATTR_PRIM(); } if (spix == 3) { state[wid].span[j].lx = maxxmx; state[wid].span[j].rx = minxhx; state[wid].span[j].validline = !allinval && !allover && !allunder && (!state[wid].scfield \|\| (state[wid].scfield && !(state[wid].sckeepodd ^ (j & 1)))) && (!state[wid].stride \|\| j % state[wid].stride == state[wid].offset); } } if (spix == 3) { ADDVALUES_PRIM(); } xleft += xleft_inc; xright += xright_inc; } } else { for (k = ycur; k <= ylfar; k++) { if (k == ym) { xleft = xl & ~1; xleft_inc = (dxldy >> 2) & ~1; } spix = k & 3; if (k >= yhclose) { invaly = k < yhlimit \|\| k >= yllimit; j = k >> 2; if (spix == 0) { maxxhx = 0; minxmx = 0xfff; allover = allunder = 1; allinval = 1; } stickybit = ((xright >> 1) & 0x1fff) > 0; xrsc = ((xright >> 13) & 0x1ffe) \| stickybit; curunder = ((xright & 0x8000000) \|\| (xrsc < clipxhshift && !(xright & 0x4000000))); xrsc = curunder ? clipxhshift : (((xright >> 13) & 0x3ffe) \| stickybit); curover = ((xrsc & 0x2000) \|\| (xrsc & 0x1fff) >= clipxlshift); xrsc = curover ? clipxlshift : xrsc; state[wid].span[j].majorx[spix] = xrsc & 0x1fff; allover &= curover; allunder &= curunder; stickybit = ((xleft >> 1) & 0x1fff) > 0; xlsc = ((xleft >> 13) & 0x1ffe) \| stickybit; curunder = ((xleft & 0x8000000) \|\| (xlsc < clipxhshift && !(xleft & 0x4000000))); xlsc = curunder ? clipxhshift : (((xleft >> 13) & 0x3ffe) \| stickybit); curover = ((xlsc & 0x2000) \|\| (xlsc & 0x1fff) >= clipxlshift); xlsc = curover ? clipxlshift : xlsc; state[wid].span[j].minorx[spix] = xlsc & 0x1fff; allover &= curover; allunder &= curunder; curcross = ((xright ^ (1 << 27)) & (0x3fff << 14)) < ((xleft ^ (1 << 27)) & (0x3fff << 14)); invaly \|= curcross; state[wid].span[j].invalyscan[spix] = invaly; allinval &= invaly; if (!invaly) { minxmx = (((xlsc >> 3) & 0xfff) < minxmx) ? (xlsc >> 3) & 0xfff : minxmx; maxxhx = (((xrsc >> 3) & 0xfff) > maxxhx) ? (xrsc >> 3) & 0xfff : maxxhx; } if (spix == ldflag) { state[wid].span[j].unscrx = SIGN(xright >> 16, 12); xfrac = (xright >> 8) & 0xff; ADJUST_ATTR_PRIM(); } if (spix == 3) { state[wid].span[j].lx = minxmx; state[wid].span[j].rx = maxxhx; state[wid].span[j].validline = !allinval && !allover && !allunder && (!state[wid].scfield \|\| (state[wid].scfield && !(state[wid].sckeepodd ^ (j & 1)))) && (!state[wid].stride \|\| j % state[wid].stride == state[wid].offset); } } if (spix == 3) { ADDVALUES_PRIM(); } xleft += xleft_inc; xright += xright_inc; } } switch(state[wid].other_modes.cycle_type) { case CYCLE_TYPE_1: switch (state[wid].other_modes.f.textureuselevel0) { case 0: render_spans_1cycle_complete(wid, yhlimit >> 2, yllimit >> 2, tilenum, flip); break; case 1: render_spans_1cycle_notexel1(wid, yhlimit >> 2, yllimit >> 2, tilenum, flip); break; case 2: default: render_spans_1cycle_notex(wid, yhlimit >> 2, yllimit >> 2, tilenum, flip); break; } break; case CYCLE_TYPE_2: switch (state[wid].other_modes.f.textureuselevel1) { case 0: render_spans_2cycle_complete(wid, yhlimit >> 2, yllimit >> 2, tilenum, flip); break; case 1: render_spans_2cycle_notexelnext(wid, yhlimit >> 2, yllimit >> 2, tilenum, flip); break; case 2: render_spans_2cycle_notexel1(wid, yhlimit >> 2, yllimit >> 2, tilenum, flip); break; case 3: default: render_spans_2cycle_notex(wid, yhlimit >> 2, yllimit >> 2, tilenum, flip); break; } break; case CYCLE_TYPE_COPY: render_spans_copy(wid, yhlimit >> 2, yllimit >> 2, tilenum, flip); break; case CYCLE_TYPE_FILL: render_spans_fill(wid, yhlimit >> 2, yllimit >> 2, flip); break; default: msg_error("cycle_type %d", state[wid].other_modes.cycle_type); break; } } static void rasterizer_init(uint32_t wid) { state[wid].clip.xh = 0x2000; state[wid].clip.yh = 0x2000; } void rdp_tri_noshade(uint32_t wid, const uint32_t* args) { int32_t ewdata[CMD_MAX_INTS]; memcpy(&ewdata[0], args, 8 * sizeof(int32_t)); memset(&ewdata[8], 0, 36 * sizeof(int32_t)); edgewalker_for_prims(wid, ewdata); } void rdp_tri_noshade_z(uint32_t wid, const uint32_t* args) { int32_t ewdata[CMD_MAX_INTS]; memcpy(&ewdata[0], args, 8 * sizeof(int32_t)); memset(&ewdata[8], 0, 32 * sizeof(int32_t)); memcpy(&ewdata[40], args + 8, 4 * sizeof(int32_t)); edgewalker_for_prims(wid, ewdata); } void rdp_tri_tex(uint32_t wid, const uint32_t* args) { int32_t ewdata[CMD_MAX_INTS]; memcpy(&ewdata[0], args, 8 * sizeof(int32_t)); memset(&ewdata[8], 0, 16 * sizeof(int32_t)); memcpy(&ewdata[24], args + 8, 16 * sizeof(int32_t)); memset(&ewdata[40], 0, 4 * sizeof(int32_t)); edgewalker_for_prims(wid, ewdata); } void rdp_tri_tex_z(uint32_t wid, const uint32_t* args) { int32_t ewdata[CMD_MAX_INTS]; memcpy(&ewdata[0], args, 8 * sizeof(int32_t)); memset(&ewdata[8], 0, 16 * sizeof(int32_t)); memcpy(&ewdata[24], args + 8, 16 * sizeof(int32_t)); memcpy(&ewdata[40], args + 24, 4 * sizeof(int32_t)); edgewalker_for_prims(wid, ewdata); } void rdp_tri_shade(uint32_t wid, const uint32_t* args) { int32_t ewdata[CMD_MAX_INTS]; memcpy(&ewdata[0], args, 24 * sizeof(int32_t)); memset(&ewdata[24], 0, 20 * sizeof(int32_t)); edgewalker_for_prims(wid, ewdata); } void rdp_tri_shade_z(uint32_t wid, const uint32_t* args) { int32_t ewdata[CMD_MAX_INTS]; memcpy(&ewdata[0], args, 24 * sizeof(int32_t)); memset(&ewdata[24], 0, 16 * sizeof(int32_t)); memcpy(&ewdata[40], args + 24, 4 * sizeof(int32_t)); edgewalker_for_prims(wid, ewdata); } void rdp_tri_texshade(uint32_t wid, const uint32_t* args) { int32_t ewdata[CMD_MAX_INTS]; memcpy(&ewdata[0], args, 40 * sizeof(int32_t)); memset(&ewdata[40], 0, 4 * sizeof(int32_t)); edgewalker_for_prims(wid, ewdata); } void rdp_tri_texshade_z(uint32_t wid, const uint32_t* args) { int32_t ewdata[CMD_MAX_INTS]; memcpy(&ewdata[0], args, CMD_MAX_SIZE); edgewalker_for_prims(wid, ewdata); } void rdp_tex_rect(uint32_t wid, const uint32_t* args) { uint32_t tilenum = (args[1] >> 24) & 0x7; uint32_t xl = (args[0] >> 12) & 0xfff; uint32_t yl = (args[0] >> 0) & 0xfff; uint32_t xh = (args[1] >> 12) & 0xfff; uint32_t yh = (args[1] >> 0) & 0xfff; int32_t s = (args[2] >> 16) & 0xffff; int32_t t = (args[2] >> 0) & 0xffff; int32_t dsdx = (args[3] >> 16) & 0xffff; int32_t dtdy = (args[3] >> 0) & 0xffff; dsdx = SIGN16(dsdx); dtdy = SIGN16(dtdy); if (state[wid].other_modes.cycle_type == CYCLE_TYPE_FILL \|\| state[wid].other_modes.cycle_type == CYCLE_TYPE_COPY) yl \|= 3; uint32_t xlint = (xl >> 2) & 0x3ff; uint32_t xhint = (xh >> 2) & 0x3ff; int32_t ewdata[CMD_MAX_INTS]; ewdata[0] = (0x24 << 24) \| ((0x80 \| tilenum) << 16) \| yl; ewdata[1] = (yl << 16) \| yh; ewdata[2] = (xlint << 16) \| ((xl & 3) << 14); ewdata[3] = 0; ewdata[4] = (xhint << 16) \| ((xh & 3) << 14); ewdata[5] = 0; ewdata[6] = (xlint << 16) \| ((xl & 3) << 14); ewdata[7] = 0; memset(&ewdata[8], 0, 16 * sizeof(uint32_t)); ewdata[24] = (s << 16) \| t; ewdata[25] = 0; ewdata[26] = ((dsdx >> 5) << 16); ewdata[27] = 0; ewdata[28] = 0; ewdata[29] = 0; ewdata[30] = ((dsdx & 0x1f) << 11) << 16; ewdata[31] = 0; ewdata[32] = (dtdy >> 5) & 0xffff; ewdata[33] = 0; ewdata[34] = (dtdy >> 5) & 0xffff; ewdata[35] = 0; ewdata[36] = (dtdy & 0x1f) << 11; ewdata[37] = 0; ewdata[38] = (dtdy & 0x1f) << 11; ewdata[39] = 0; memset(&ewdata[40], 0, 4 * sizeof(int32_t)); edgewalker_for_prims(wid, ewdata); } void rdp_tex_rect_flip(uint32_t wid, const uint32_t* args) { uint32_t tilenum = (args[1] >> 24) & 0x7; uint32_t xl = (args[0] >> 12) & 0xfff; uint32_t yl = (args[0] >> 0) & 0xfff; uint32_t xh = (args[1] >> 12) & 0xfff; uint32_t yh = (args[1] >> 0) & 0xfff; int32_t s = (args[2] >> 16) & 0xffff; int32_t t = (args[2] >> 0) & 0xffff; int32_t dsdx = (args[3] >> 16) & 0xffff; int32_t dtdy = (args[3] >> 0) & 0xffff; dsdx = SIGN16(dsdx); dtdy = SIGN16(dtdy); if (state[wid].other_modes.cycle_type == CYCLE_TYPE_FILL \|\| state[wid].other_modes.cycle_type == CYCLE_TYPE_COPY) yl \|= 3; uint32_t xlint = (xl >> 2) & 0x3ff; uint32_t xhint = (xh >> 2) & 0x3ff; int32_t ewdata[CMD_MAX_INTS]; ewdata[0] = (0x25 << 24) \| ((0x80 \| tilenum) << 16) \| yl; ewdata[1] = (yl << 16) \| yh; ewdata[2] = (xlint << 16) \| ((xl & 3) << 14); ewdata[3] = 0; ewdata[4] = (xhint << 16) \| ((xh & 3) << 14); ewdata[5] = 0; ewdata[6] = (xlint << 16) \| ((xl & 3) << 14); ewdata[7] = 0; memset(&ewdata[8], 0, 16 * sizeof(int32_t)); ewdata[24] = (s << 16) \| t; ewdata[25] = 0; ewdata[26] = (dtdy >> 5) & 0xffff; ewdata[27] = 0; ewdata[28] = 0; ewdata[29] = 0; ewdata[30] = ((dtdy & 0x1f) << 11); ewdata[31] = 0; ewdata[32] = (dsdx >> 5) << 16; ewdata[33] = 0; ewdata[34] = (dsdx >> 5) << 16; ewdata[35] = 0; ewdata[36] = (dsdx & 0x1f) << 27; ewdata[37] = 0; ewdata[38] = (dsdx & 0x1f) << 27; ewdata[39] = 0; memset(&ewdata[40], 0, 4 * sizeof(int32_t)); edgewalker_for_prims(wid, ewdata); } void rdp_fill_rect(uint32_t wid, const uint32_t* args) { uint32_t xl = (args[0] >> 12) & 0xfff; uint32_t yl = (args[0] >> 0) & 0xfff; uint32_t xh = (args[1] >> 12) & 0xfff; uint32_t yh = (args[1] >> 0) & 0xfff; if (state[wid].other_modes.cycle_type == CYCLE_TYPE_FILL \|\| state[wid].other_modes.cycle_type == CYCLE_TYPE_COPY) yl \|= 3; uint32_t xlint = (xl >> 2) & 0x3ff; uint32_t xhint = (xh >> 2) & 0x3ff; int32_t ewdata[CMD_MAX_INTS]; ewdata[0] = (0x3680 << 16) \| yl; ewdata[1] = (yl << 16) \| yh; ewdata[2] = (xlint << 16) \| ((xl & 3) << 14); ewdata[3] = 0; ewdata[4] = (xhint << 16) \| ((xh & 3) << 14); ewdata[5] = 0; ewdata[6] = (xlint << 16) \| ((xl & 3) << 14); ewdata[7] = 0; memset(&ewdata[8], 0, 36 * sizeof(int32_t)); edgewalker_for_prims(wid, ewdata); } void rdp_set_prim_depth(uint32_t wid, const uint32_t* args) { state[wid].primitive_z = args[1] & (0x7fff << 16); state[wid].primitive_delta_z = (uint16_t)(args[1]); } void rdp_set_scissor(uint32_t wid, const uint32_t* args) { state[wid].clip.xh = (args[0] >> 12) & 0xfff; state[wid].clip.yh = (args[0] >> 0) & 0xfff; state[wid].clip.xl = (args[1] >> 12) & 0xfff; state[wid].clip.yl = (args[1] >> 0) & 0xfff; state[wid].scfield = (args[1] >> 25) & 1; state[wid].sckeepodd = (args[1] >> 24) & 1; } #endif // N64VIDEO_C
the_stack_data/3261657.c	#include "stdint.h" const uint64_t gf2184to25623[4184] __attribute__((aligned(32))) = { 0x1ULL, 0x0ULL, 0x0ULL, 0x0ULL, 0x9D20BFA775AF651AULL, 0x678339F6BB806C3DULL, 0x566A54E3FFC15EULL, 0x0ULL, 0xA9B0642930BE7F16ULL, 0xC5E8E4FBDCDB9965ULL, 0xDA9FFAA6AE9E35ULL, 0x0ULL, 0xE152677F5BBC4B17ULL, 0x5BA3F5A890B422FFULL, 0xC61CF43E98E5F6ULL, 0x0ULL, 0xD727C044CD771A1DULL, 0x75CA731747C03D06ULL, 0xCAF5FA45BEED59ULL, 0x0ULL, 0x3469770544FE871CULL, 0x784F021B2A59F360ULL, 0x89EF53B9848000ULL, 0x0ULL, 0x900A7C30E333AD1CULL, 0x38CD4D66CFB7E0DAULL, 0x69D4742180E173ULL, 0x0ULL, 0x319A5A3CCEB9A625ULL, 0xF352D56F8D2FB732ULL, 0x1F3E182249EC2AULL, 0x0ULL, 0x844DD9AD8EBDFD12ULL, 0xB0D85FC4C986919AULL, 0x46D9B0E3DDED9FULL, 0x0ULL, 0xEA19DFA2B91B792CULL, 0x6F8C0B78F8E7E44FULL, 0xA8073089A7B77ULL, 0x0ULL, 0x8B0CB75B011F4A13ULL, 0x572C6C816709002FULL, 0x6C638AC8149675ULL, 0x0ULL, 0xCB03F3EC5BD0AD28ULL, 0x1CF59EE6BF58B881ULL, 0xBE41A4B6564E01ULL, 0x0ULL, 0x3251D14AB6E90E13ULL, 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0x46B2C78C208CEBULL, 0x0ULL, 0x8CAB104AE1499517ULL, 0x5DA145CB6567EB5DULL, 0xDF2214D4422869ULL, 0x0ULL, 0x8B23D7F5C649223FULL, 0x8B4F792AA640B218ULL, 0x6911F32C68FE19ULL, 0x0ULL, 0x6D0F3ED8A76FA60DULL, 0x1CA89FCC9E3F8F31ULL, 0x1E3B9AEB865CBULL, 0x0ULL, 0x608EF4B94D44613EULL, 0xD46F2189C4A1930CULL, 0x217CAFD2376856ULL, 0x0ULL, 0xE282B8F15C8C71FULL, 0x49E6CB73348B063ULL, 0x625E08C292AF22ULL, 0x0ULL, 0xE99FF1F6FBD79600ULL, 0x2289362EBEBEF7C3ULL, 0x49881EFBA8C781ULL, 0x0ULL, 0x7B8C6EBAF2355E33ULL, 0x6F44797181D512FULL, 0x5F5C855DCECB8AULL, 0x0ULL, 0xB1AAE19AA6CB1774ULL, 0xF8235C01796B6719ULL, 0x61677584C9F2B3ULL, 0x0ULL, 0xD5C11A5FB6607260ULL, 0xB245E818A26F64DBULL, 0xE2796C415E91EBULL, 0x0ULL, 0xFEDBF512452F4D20ULL, 0x3212DB7D8AA0341BULL, 0xC40062BFE6C428ULL, 0x0ULL, 0x8C69BD5447E9B452ULL, 0x68034603EE035B0ULL, 0xB976896BB81FBEULL, 0x0ULL, 0xCD5F2241BC53F324ULL, 0xE994055090C70C6AULL, 0x1CE096F8AE147BULL, 0x0ULL, 0x20234C426626D426ULL, 0xCC059523F28136CULL, 0x7E565F91715637ULL, 0x0ULL, 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0xF988B8831E32A5F7ULL, 0xCBFC7E193B27B6ULL, 0x0ULL, 0xC3062403F0B3DF1CULL, 0x8E638BACA34D1647ULL, 0x9C3AC52839DC95ULL, 0x0ULL, 0x6295B7498952BA25ULL, 0x1512A7BFE660282DULL, 0xA9A5E92E59E974ULL, 0x0ULL, 0x1757047652A17C27ULL, 0xEFE9A605401CA484ULL, 0x7CAFC6E337F28ULL, 0x0ULL, 0x21C67926455CD10AULL, 0x73F255EBA881DB58ULL, 0x400254C5CB5730ULL, 0x0ULL, 0x8632BDF52AA5D0EULL, 0xB7DC7C68F11124E5ULL, 0xAB0D3B01301594ULL, 0x0ULL, 0xF902AFB31AB57924ULL, 0xF3253CF2A74E9F03ULL, 0xCA1A4880857181ULL, 0x0ULL, 0x9B7B39E7B6F82A0AULL, 0xF6B807A23475D17AULL, 0x80D163B6DE7146ULL, 0x0ULL, 0xB89474AAC1BFB11ULL, 0xDF2E4AED710A191FULL, 0x9A0109945062EULL, 0x0ULL, 0x55651B7E97EC8E36ULL, 0xFFA5446085712120ULL, 0x22B0E6197DD34CULL, 0x0ULL, 0x196163DB3E94A900ULL, 0xEFDB79ADD67C6575ULL, 0x42BD39611B20C6ULL, 0x0ULL, 0xAD1640EB6F9AA76FULL, 0xC331607A3FAD2289ULL, 0xB7F863828FDB9FULL, 0x0ULL, 0xA66E1FCB1C3D82EULL, 0x9A43D2B3DB8E606AULL, 0x179BBF98D26EF9ULL, 0x0ULL, 0x6FEE5636575A8371ULL, 0x5031B8F3FC2AE89BULL, 0x684C1AEC2C1591ULL, 0x0ULL, 0xECAD1B91984FA14DULL, 0x6CD0DA82EBE45066ULL, 0x42A347A9C38479ULL, 0x0ULL, 0xD6076989A8259D68ULL, 0x1C4874B9EA51D402ULL, 0xB97379ED617822ULL, 0x0ULL, 0x5217B048C0D3ED53ULL, 0xBB1699FD4965C3E7ULL, 0x20C745896BACBFULL, 0x0ULL, 0x84B5B67D170D7236ULL, 0x54CA4E19C2E12F69ULL, 0xC31BA30BF1E8D2ULL, 0x0ULL, 0x35D52D6DF7935734ULL, 0x5DAACC28D5841E2FULL, 0x6FD5BA0081A064ULL, 0x0ULL, 0x56048F5E88B1D63AULL, 0xC59BAB2DC1053A8BULL, 0xC84FA9A5A9841CULL, 0x0ULL, 0xA9767063F59F67CULL, 0xA43B55B422075FA2ULL, 0x94571187A56351ULL, 0x0ULL, 0xBC7CFE44E631A447ULL, 0xAE569173FAECD9A5ULL, 0x1EA8E74DB37DE5ULL, 0x0ULL, 0xC23E401609FBB432ULL, 0xEC4F732C27F28827ULL, 0x5821F3C6504127ULL, 0x0ULL, 0x46C1B67B9E6D3F77ULL, 0xB769B4EBBB1012F0ULL, 0x6D74E73FE92D19ULL, 0x0ULL, 0xD9CDE7D91981531ULL, 0x49048F649F4F3CD6ULL, 0x1C81359FAB9BD5ULL, 0x0ULL, 0xA3EE5CE49D9F306FULL, 0x4528B2289ABEBF63ULL, 0xEF07F77BFD3629ULL, 0x0ULL, 0x58D8779A04ADC438ULL, 0x37BE5C5EC46E8BBDULL, 0x1A7759BD5DE0A4ULL, 0x0ULL, 0x929AC85B2DF1D719ULL, 0x62852F45A22DAD98ULL, 0x6E5ADF267E4830ULL, 0x0ULL, 0x6A95B197D0FC6D12ULL, 0xB718EE9EA7D0FC19ULL, 0x99582AC1719E79ULL, 0x0ULL, 0x70315F42C6D6AE45ULL, 0xB48C31B07566A1AEULL, 0x71B385EE974ED0ULL, 0x0ULL, 0x602DE71B05CFF976ULL, 0x4112EA92F1ED6D1ULL, 0x21E9414AE9F46EULL, 0x0ULL, 0xB33CD35DF983F05DULL, 0xDBB2A738DEC03E33ULL, 0xCB32CC6F55748AULL, 0x0ULL, 0x4BA3BF720F8DAA1EULL, 0xBF8F796AE35D94F1ULL, 0xFCEDD65A38382ULL, 0x0ULL, 0x306D5BB007ECCB61ULL, 0xE22D73DB4EA5F7ABULL, 0xC18C9553FC45A6ULL, 0x0ULL, 0x3CEBBE346307A53AULL, 0xD8F22059D30232E4ULL, 0x64D03B1FB9E20EULL, 0x0ULL, 0xEE7B80D3804EAB20ULL, 0x2EBF44570FECB06AULL, 0xDD1175E365AF68ULL, 0x0ULL, 0x3E692D3B4302EE3AULL, 0x4779FA8616D93B1EULL, 0x6C57F0316F9573ULL, 0x0ULL, 0xC6EE816B03D5AC27ULL, 0x36F5C662A9AE9706ULL, 0x882E8283CE8564ULL, 0x0ULL, 0x50BE29662CA6848ULL, 0x747B8BF2BD3F2335ULL, 0xCCF0C9279F5A6BULL, 0x0ULL, 0xA5CF2B861867442FULL, 0xB8A0A95D2C69A2C7ULL, 0x8E6369B9D8056AULL, 0x0ULL, 0x88164E05B3AC5E3CULL, 0xD1670399DD51A234ULL, 0xEE6FF093E1AD79ULL, 0x0ULL, 0xFA07CFE7DA4057DULL, 0x29AC99805280D689ULL, 0xC1A62A44A6D756ULL, 0x0ULL, 0xC21A735DDB2E7271ULL, 0x1800A241762A450FULL, 0xE2296C6687916CULL, 0x0ULL, 0xDCEDEB2CB6A6993AULL, 0x78E41B4BF6E5D05FULL, 0x2AA0522E31ABB5ULL, 0x0ULL, 0xB55924297AB93D2AULL, 0x88DD1A2B3983B697ULL, 0xE74CC9EE892CF2ULL, 0x0ULL, 0xE27865CBD04F2B31ULL, 0x2CAE3C81D4D0B0F6ULL, 0x483270AF3689B3ULL, 0x0ULL, 0xE09AF4E534DBA67FULL, 0x6D1897E51EDCF47BULL, 0x4E3734D8C1080ULL, 0x0ULL, 0xDA6167DE82815800ULL, 0x4D2BC8B6F07FE223ULL, 0x19D03A9CF39BD8ULL, 0x0ULL, 0x6DDF2C58D325EA60ULL, 0xE2065D5356D5124EULL, 0x5C4218BDE5252EULL, 0x0ULL, 0xE085666225633BD4ULL, 0x57F95AD8BFA7A493ULL, 0xBDB341CA6C4FE9ULL, 0x0ULL, 0xAE2CF78A4EB75975ULL, 0x759CA76A9DE651A4ULL, 0x35DE7F253032EFULL, 0x0ULL, 0x522F63692D7C0676ULL, 0xB18EEA0F4C712FEEULL, 0xDA3199BD997A1FULL, 0x0ULL, }; const uint64_t gf25623to2184[4184] __attribute__((aligned(32))) = { 0x1ULL, 0x0ULL, 0x0ULL, 0x0ULL, 0x2D4C005E351D0973ULL, 0xC3101A115C1BEAC0ULL, 0xC001441C81811FULL, 0x0ULL, 0xA850C975EF89F755ULL, 0x74153DC7A08EC73DULL, 0x8055899682CF43ULL, 0x0ULL, 0xF7F3CA38347A5D1EULL, 0x89E895EF8AF5886BULL, 0x9FFF677F7733B9ULL, 0x0ULL, 0xCF97346C61C6AFD1ULL, 0xB3278076C7760256ULL, 0x93957AE3D8514DULL, 0x0ULL, 0xEA1CED5BE1C5B1F1ULL, 0x9D580BDF341EEB70ULL, 0x1C4462E1BEB8EBULL, 0x0ULL, 0x6EE7887AD365ECF7ULL, 0x886F1F26A72499DEULL, 0xFEA091EAABBF9ULL, 0x0ULL, 0x48EB9004AADD44F4ULL, 0xC5A386C62FDEAC8AULL, 0xF9DB13240FFB74ULL, 0x0ULL, 0xE481B4DCAC70B407ULL, 0x3D94F2E2AA4D6A0DULL, 0x11AE3FD947D57DULL, 0x0ULL, 0xD3362899CD55EBAAULL, 0x5D5CFC9D152B7225ULL, 0x1EABAE8C08321BULL, 0x0ULL, 0xB58425EE13985650ULL, 0x55F94BABC062503CULL, 0x8966FD059656EFULL, 0x0ULL, 0xA35F28FDF7E5AB1CULL, 0x5E34DF2E6C218E3BULL, 0x86EFC9B8D64DCBULL, 0x0ULL, 0xBCE76EA8C4D4249BULL, 0xC0B488506C1D0AULL, 0xCE1D0628CE13E5ULL, 0x0ULL, 0xA96B68F97A1705C6ULL, 0x6944D9718D585689ULL, 0x4AC7BC1316AC00ULL, 0x0ULL, 0x8B7674166FC581E9ULL, 0xB6FAD7420167C0B6ULL, 0x896037EA950927ULL, 0x0ULL, 0x2560BAF8C5980454ULL, 0x7B43889D2E23CA86ULL, 0xD3431FBC121AE2ULL, 0x0ULL, 0xDF5883BC76F1277CULL, 0x5CD1FAD8D9AA983AULL, 0x181F22F42BFACAULL, 0x0ULL, 0x56C64456E4EAAE38ULL, 0x9D83BBE0A8E4A4B5ULL, 0x13AD00DA5C4DD9ULL, 0x0ULL, 0x9C2C0D95CE99D0ABULL, 0x39F4B6D4F575D78ULL, 0x5B4B029A6859DULL, 0x0ULL, 0xF65D49B3401E4620ULL, 0x189611731D7EEDD9ULL, 0x1D4C31661F342CULL, 0x0ULL, 0xE4DD4BDFC3190612ULL, 0x5F11A03F67DA2499ULL, 0xCABD7FAA5E954BULL, 0x0ULL, 0x6570D4C401699D14ULL, 0x30820961ACCD3C52ULL, 0x1C6E0E38C7C1CEULL, 0x0ULL, 0x867C3976F13FA0B9ULL, 0xD0039B769FA1F6C8ULL, 0x5712D6B2E08E2ULL, 0x0ULL, 0x72D34D8E4E0513DBULL, 0x9CD1BBB83413F6AFULL, 0x59A1022CCACBFEULL, 0x0ULL, 0xA0F22C6FC0995434ULL, 0x7B633FABC3448F9FULL, 0xD1BC320FCD614EULL, 0x0ULL, 0xB923ED4E1DCE6E4EULL, 0x13941CFEC2357157ULL, 0x9F9041A867156DULL, 0x0ULL, 0x763A8B3EB47A514CULL, 0x36EA721939B7DC39ULL, 0x40FB7A197AFD63ULL, 0x0ULL, 0x61F59FFAB60D8CA7ULL, 0xE8FA4D01AC7D21A1ULL, 0x625C77F64F28ULL, 0x0ULL, 0xEA9395F11728995DULL, 0x60798CDE9F90E334ULL, 0x8F7042B19CB710ULL, 0x0ULL, 0xC4208C640A992E70ULL, 0x1E0D651359143C89ULL, 0xB17EA9E0137B5ULL, 0x0ULL, 0x5040B3368170C148ULL, 0xF732B62DAF5C0936ULL, 0x143F14B8D29AFEULL, 0x0ULL, 0xAB2F6A3FDE81001FULL, 0xADB406616CDBCF7DULL, 0x15F5B1618D02DBULL, 0x0ULL, 0xC6D84EEA738F17C0ULL, 0x84723EAB36C7659FULL, 0x4B055FFD3137E8ULL, 0x0ULL, 0x88C6094193F41E9ULL, 0xB5A9EB2CA84C3FD5ULL, 0x522A3874213166ULL, 0x0ULL, 0x27838D5631D8DD7CULL, 0xBBDD1C287343B3C0ULL, 0x13E551E6192104ULL, 0x0ULL, 0xE75667B41EBEE7BCULL, 0xCFA08EEE80F30250ULL, 0x172DC8DB510A19ULL, 0x0ULL, 0xF0F69C11AC51AE6ULL, 0xBB7A6DB608352ECEULL, 0xC01BA603FEA03EULL, 0x0ULL, 0x7FC8848067E9C8E3ULL, 0x1637DF0F35B12D37ULL, 0x9C2E4504F07040ULL, 0x0ULL, 0xC31A5DB30068F4EAULL, 0xB016E7A7DAD9E664ULL, 0xD73C8A66DADA7DULL, 0x0ULL, 0xC7D4B02F17CF90EDULL, 0xD7ED43DB6BFB4E4ULL, 0x8A8BBD245C555BULL, 0x0ULL, 0xBE948B46FAF6E95CULL, 0xD86ECBC95EF244A5ULL, 0xCFD436751E4E04ULL, 0x0ULL, 0x3A60A72F0DED76BCULL, 0x54EC3CA355EB4A3CULL, 0x9067CFB1892BC2ULL, 0x0ULL, 0x34C00FF0946886A9ULL, 0x103A06D728B34330ULL, 0x3E9F09D646150ULL, 0x0ULL, 0x9BF728E1418FA03ULL, 0x5CAFB6544CDA69C1ULL, 0x46582A8B52E747ULL, 0x0ULL, 0x56AB21C49CEA2CEAULL, 0x40A99DE25A51632CULL, 0xCA8A90A7B22D87ULL, 0x0ULL, 0xE3D4A87F2C380FC2ULL, 0x134D11E55FAFAF65ULL, 0x4B49504D175C8BULL, 0x0ULL, 0xC9EA2A5717989032ULL, 0x6F35ED081F3E14D5ULL, 0x4CC06756C369B2ULL, 0x0ULL, 0x6309611C2736977ULL, 0xA20F8BE0BCCDBD37ULL, 0x4D14AC385DB810ULL, 0x0ULL, 0x29A06C2EFA777A27ULL, 0xBFD388A14CC7E1FFULL, 0xC91E3BD4793513ULL, 0x0ULL, 0x57F9ED6538DD89BDULL, 0xAA2774ED85713DF2ULL, 0x96F437D4A92B65ULL, 0x0ULL, 0xF15FDDDD5CD7913DULL, 0xB39803531894159FULL, 0x7F7C8FD521B2FULL, 0x0ULL, 0x9B0090312BF1A03BULL, 0xA7E36F75A925A697ULL, 0x9EEC034DE5EBD5ULL, 0x0ULL, 0x8BBADE73B93A4774ULL, 0xF8F8ED081069E332ULL, 0xCD05FA0C35C9ADULL, 0x0ULL, 0x9EE29F5F6DE0FEC4ULL, 0xFF71B363E2D06EA7ULL, 0xD89B6E4A81F099ULL, 0x0ULL, 0xACC9F1B002AB124AULL, 0x4BD57E3304090089ULL, 0x9D43950F0A73EAULL, 0x0ULL, 0xD5FD1F5B40CFA029ULL, 0x433742A0037A5363ULL, 0x46337BE91C392CULL, 0x0ULL, 0x9F2F9D5AA0AF7F36ULL, 0xC8897348E482456AULL, 0xD2BBDBD96F2B93ULL, 0x0ULL, 0x1CD885A9B2387FB7ULL, 0xB21B0978B2354279ULL, 0x169AE5B51C1A66ULL, 0x0ULL, 0x18E2CF0F5F36225FULL, 0x8014FF613F24394CULL, 0xDAB01D4F4ADFULL, 0x0ULL, 0x20CF35D2D4485CDBULL, 0x2F7E1A97E51B6870ULL, 0x822230AA6A1EDULL, 0x0ULL, 0x552C49F23F0A2029ULL, 0x57B65E9CFF58DD76ULL, 0x9CE095CF0B4B43ULL, 0x0ULL, 0xBF53126B68B1EEC1ULL, 0xFA1A0BCBDB9CF3D2ULL, 0x8AA092ABB866AAULL, 0x0ULL, 0xA096151AF7BCFA95ULL, 0x390630BE090F2ED5ULL, 0xD0CCBBEAD58D6EULL, 0x0ULL, 0x2585AA6A31E1E7F4ULL, 0x1F4141976ADDF5ACULL, 0x9EA5CA71CDC80FULL, 0x0ULL, 0xD4F9303BB7722CD0ULL, 0x993C0878AEE74311ULL, 0x9739018DDABEAFULL, 0x0ULL, 0xADA6FD9CB45AA01ULL, 0x4C091100F753F57CULL, 0x5F5877B8F1BE52ULL, 0x0ULL, 0x2555F2860F37EFF5ULL, 0xED174970EA176752ULL, 0x326826478F4A6ULL, 0x0ULL, 0x1BCCD0EE4FF33468ULL, 0x5DB20D4E65EE3E85ULL, 0xD8B6B166615897ULL, 0x0ULL, 0x6223A418D0CE9186ULL, 0x3219BB2F75C1D9BEULL, 0x8B2AE5911ACC7ULL, 0x0ULL, 0xF35BB85436FFD201ULL, 0x5CE2B3E6CA16FFA1ULL, 0x45441EC8FCD061ULL, 0x0ULL, 0x960E285BBCA010BULL, 0xD35A95354D5EF5F2ULL, 0x16AFC00AA9149EULL, 0x0ULL, 0x82ABFCA175EF6F2AULL, 0x8935AEAD9CEBEDF1ULL, 0x9CF36C966A364BULL, 0x0ULL, 0xBF7F0524DCD66F56ULL, 0x868FCB6CC2C67D75ULL, 0x555241F5C2DCE3ULL, 0x0ULL, 0x553D70AD1C00BA91ULL, 0xD0E528BD154DDB7BULL, 0xCBE4B529E0BA66ULL, 0x0ULL, 0x9B9ADEAE09FF6872ULL, 0x2D945E2E3FFF186DULL, 0x1939405B9789EAULL, 0x0ULL, 0x12F1C4776CAC4241ULL, 0xA5358DAEA9AB1521ULL, 0xB83D03A8CF183ULL, 0x0ULL, 0xC81948A32BB65546ULL, 0x9EBDA2017705D2AAULL, 0x1F7535D91C28C1ULL, 0x0ULL, 0x3E1D6BAF06D3E9E2ULL, 0x559081CC75DB36CDULL, 0xCA7ADF135AAAFAULL, 0x0ULL, 0x9428787A6A52E253ULL, 0xAB3EFB45C9BE42F2ULL, 0x51DB3103468970ULL, 0x0ULL, 0x42B496851A346B51ULL, 0xE50D7CBE6D7E6180ULL, 0x5F98A2C1657F53ULL, 0x0ULL, 0x5A7F3D77F874D27ULL, 0xC94EB087A450838EULL, 0x82AFDCC429F1FCULL, 0x0ULL, 0x925033EDA8A370A4ULL, 0xC61CBCA0CBD0E743ULL, 0x8EEB2C6FBB1EC4ULL, 0x0ULL, 0xD73B13BD0F6BC891ULL, 0x1EBD2C058208B31EULL, 0xCAC09B24074D9AULL, 0x0ULL, 0x11FE0B539530519AULL, 0xAA3AEA22DF9D9D0BULL, 0xD88ED9B1498F74ULL, 0x0ULL, 0x2CC14491B8130A9ULL, 0x1142DF5041CD21CBULL, 0x5EFCCAC751D901ULL, 0x0ULL, 0xED34CEE80E4F2048ULL, 0x97B64F8A4096EFD9ULL, 0x420482AE8E9519ULL, 0x0ULL, 0x11D096885A5780FAULL, 0x308C021EE7364DFDULL, 0x43572D30BE8B37ULL, 0x0ULL, 0x63CB52D4498B0E79ULL, 0x78F3CF730F7F650ULL, 0x429290CA3D1F77ULL, 0x0ULL, 0xDB5795EC32FAF7D3ULL, 0xF891A7CF7CDC1030ULL, 0x4D996C4DC4110ULL, 0x0ULL, 0x96703B5216C3DC83ULL, 0x535A07C30CC54BA0ULL, 0x58F6C1E874E97AULL, 0x0ULL, 0xEA1AA26DFD512107ULL, 0x2835CC5A4546C469ULL, 0xC31DAF5790C95AULL, 0x0ULL, 0xBE68B32526761261ULL, 0x410AAA62D8BDECBFULL, 0x83E658A058AC91ULL, 0x0ULL, 0x55C3E5A995B51509ULL, 0xB6FC0F9BB32535E1ULL, 0x9B6E71A11DFC09ULL, 0x0ULL, 0x54DDF9D07C23B861ULL, 0xB4F8E396714454F7ULL, 0x8A126A53E98E2EULL, 0x0ULL, 0x2629CE71AF47DADULL, 0x466D30EA865BB579ULL, 0x8C263C2217BE6EULL, 0x0ULL, 0x6A4F931018DFB070ULL, 0x2291FA2F5FDDF7CDULL, 0x5A498B0D5F3F1DULL, 0x0ULL, 0xAF8D6B020771193FULL, 0xC5EE5D3D98097E7BULL, 0x964C0FB47B7F8DULL, 0x0ULL, 0x9BA8D2BFD0978370ULL, 0x5699105BB5E8B50CULL, 0x8ABBA265129051ULL, 0x0ULL, 0xF5B2C3AEAC1FAE7CULL, 0xDA107400888B0E30ULL, 0xDB451ADFC4D7FEULL, 0x0ULL, 0xE09AC44F4783286CULL, 0xD44BE38A7B5BAA6FULL, 0x56AEA2BFAFD5F5ULL, 0x0ULL, 0xA335C6AC9AC129DBULL, 0x33690865783484ULL, 0x8577F72041E4B3ULL, 0x0ULL, 0xEA2E5F6F5A2AEDF4ULL, 0xF83652B5FAED701EULL, 0xC075A3923286DAULL, 0x0ULL, 0x164FD87C0FAA5DDULL, 0x4C531E6F6430D1DAULL, 0x491F81E39673FFULL, 0x0ULL, 0x11E952F503049CDEULL, 0x59AC31985E13609CULL, 0xE8D05EF013FA1ULL, 0x0ULL, 0xAC61ADE683931734ULL, 0x289DDC28EEE2FD7FULL, 0x15A438CB27E726ULL, 0x0ULL, 0x6DA98D8F1AB666AEULL, 0x507C9B4E3E55068AULL, 0xCB14936990A431ULL, 0x0ULL, 0xB4557DB9976861B3ULL, 0x8654E2EABDE212EFULL, 0x5CF3D9ACCFFFEBULL, 0x0ULL, 0xE523D80B179C4CBEULL, 0xCDFEFB1158D42139ULL, 0xC6907A0BD294CBULL, 0x0ULL, 0xD791ABFC63823300ULL, 0x3B954D9F3F4F4006ULL, 0xD81B6967D3BF07ULL, 0x0ULL, 0xE4E0C165E96D3EE4ULL, 0xEB26F252E2F03B68ULL, 0xCFE55B938AAC8FULL, 0x0ULL, 0x427644D43EA2F3EAULL, 0xDF6D1338D9902D95ULL, 0x106486C3E99E33ULL, 0x0ULL, 0xC77FA1A686043A98ULL, 0xAEBFAB1D4054C487ULL, 0xCBB9B953EB64FDULL, 0x0ULL, 0x531648A829D25657ULL, 0x4CB7B8727E487A83ULL, 0xD8673E3A8F3EDFULL, 0x0ULL, 0x631C24BE30290176ULL, 0xC1F8783D1AEDC9AEULL, 0x919060597BF5E3ULL, 0x0ULL, 0x7301B7559D88490AULL, 0x182E80BB3D3327BBULL, 0xC4D7EF3B53E4ADULL, 0x0ULL, 0xD9B90AB2C706F0FCULL, 0x36BD9EA95CCDC40EULL, 0x5AF4E564ECE620ULL, 0x0ULL, 0x7695BA3C7159675AULL, 0x9EFFE67A3058AC96ULL, 0x50324163B43CE2ULL, 0x0ULL, 0x24DB7C3B9346109FULL, 0xF9BA2770FA09ED83ULL, 0xC3C2CA5BFAAF2CULL, 0x0ULL, 0x2FD54201115FFF02ULL, 0x5F02FC937F6D982EULL, 0xC2A0FCC433FF1AULL, 0x0ULL, 0x39347DB455B8D932ULL, 0x3554B3103024B2FCULL, 0x83C6A63B90553EULL, 0x0ULL, 0x740564F971D14160ULL, 0xED4883D18F70694DULL, 0x9377826B64F4CULL, 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the_stack_data/5347.c	/* _start should be the only thing left after GC. */ void _start() __asm__("_start"); void _start() { } void dropme1() { } int dropme2[102] = { 0 };
the_stack_data/633930.c	// Recursive factorial function // // Doesn't do error checking // n < 1 or not a number produce n! = 1 #include <stdio.h> int fac (int); // fac :: int -> int int main (void) { int n = 0; printf ("n = "); scanf ("%d", &n); printf ("n! = %d\n", fac (n)); return 0; } int fac (int n) { if (n <= 1) return 1; else return n * fac (n - 1); }
the_stack_data/43084.c	/- Copyright (c) 2004 Stefan Farfeleder * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * $FreeBSD: releng/11.0/lib/msun/src/s_creall.c 129864 2004-05-30 09:21:56Z stefanf $ */ #include <complex.h> long double creall(long double complex z) { return z; }
the_stack_data/150139626.c	/* mbed Microcontroller Library * SPDX-License-Identifier: BSD-3-Clause ****************************************************************************** * * Copyright (c) 2015-2020 STMicroelectronics. * All rights reserved. * * This software component is licensed by ST under BSD 3-Clause license, * the "License"; You may not use this file except in compliance with the * License. You may obtain a copy of the License at: * opensource.org/licenses/BSD-3-Clause * ****************************************************************************** / #if DEVICE_SERIAL #include "serial_api_hal.h" #define UART_NUM (5) uint32_t serial_irq_ids[UART_NUM] = {0}; UART_HandleTypeDef uart_handlers[UART_NUM]; static uart_irq_handler irq_handler; // Defined in serial_api.c extern int8_t get_uart_index(UARTName uart_name); /***************************************************************************** * INTERRUPTS HANDLING *****************************************************************************/ static void uart_irq(UARTName uart_name) { int8_t id = get_uart_index(uart_name); if (id >= 0) { UART_HandleTypeDef huart = &uart_handlers[id]; if (serial_irq_ids[id] != 0) { if (__HAL_UART_GET_FLAG(huart, UART_FLAG_TXE) != RESET) { if (__HAL_UART_GET_IT(huart, UART_IT_TXE) != RESET && __HAL_UART_GET_IT_SOURCE(huart, UART_IT_TXE)) { irq_handler(serial_irq_ids[id], TxIrq); } } if (__HAL_UART_GET_FLAG(huart, UART_FLAG_RXNE) != RESET) { if (__HAL_UART_GET_IT(huart, UART_IT_RXNE) != RESET && __HAL_UART_GET_IT_SOURCE(huart, UART_IT_RXNE)) { irq_handler(serial_irq_ids[id], RxIrq); /* Flag has been cleared when reading the content / } } if (__HAL_UART_GET_FLAG(huart, UART_FLAG_ORE) != RESET) { if (__HAL_UART_GET_IT(huart, UART_IT_ORE) != RESET) { __HAL_UART_CLEAR_FLAG(huart, UART_CLEAR_OREF); } } } } } #if defined(USART1_BASE) static void uart1_irq(void) { uart_irq(UART_1); } #endif #if defined(USART2_BASE) static void uart2_irq(void) { uart_irq(UART_2); } #endif #if defined(USART3_BASE) static void uart3_irq(void) { uart_irq(UART_3); } #endif #if defined(USART4_BASE) static void uart4_irq(void) { uart_irq(UART_4); } #endif #if defined(LPUART1_BASE) static void lpuart1_irq(void) { uart_irq(LPUART_1); } #endif void serial_irq_handler(serial_t obj, uart_irq_handler handler, uint32_t id) { struct serial_s obj_s = SERIAL_S(obj); irq_handler = handler; serial_irq_ids[obj_s->index] = id; } void serial_irq_set(serial_t obj, SerialIrq irq, uint32_t enable) { struct serial_s obj_s = SERIAL_S(obj); UART_HandleTypeDef huart = &uart_handlers[obj_s->index]; IRQn_Type irq_n = (IRQn_Type)0; uint32_t vector = 0; #if defined(USART1_BASE) if (obj_s->uart == UART_1) { irq_n = USART1_IRQn; vector = (uint32_t)&uart1_irq; } #endif #if defined(USART2_BASE) if (obj_s->uart == UART_2) { irq_n = USART2_IRQn; vector = (uint32_t)&uart2_irq; } #endif #if defined(USART3_BASE) if (obj_s->uart == UART_3) { irq_n = USART3_IRQn; vector = (uint32_t)&uart3_irq; } #endif #if defined(USART4_BASE) if (obj_s->uart == UART_4) { irq_n = USART3_4_LPUART1_IRQn; vector = (uint32_t)&uart4_irq; } #endif #if defined(LPUART1_BASE) if (obj_s->uart == LPUART_1) { irq_n = LPUART1_IRQn; vector = (uint32_t)&lpuart1_irq; } #endif if (enable) { if (irq == RxIrq) { __HAL_UART_ENABLE_IT(huart, UART_IT_RXNE); } else { // TxIrq __HAL_UART_ENABLE_IT(huart, UART_IT_TXE); } NVIC_SetVector(irq_n, vector); NVIC_EnableIRQ(irq_n); } else { // disable int all_disabled = 0; if (irq == RxIrq) { __HAL_UART_DISABLE_IT(huart, UART_IT_RXNE); // Check if TxIrq is disabled too #if defined(STM32G0) #define USART_CR1_TXEIE USART_CR1_TXEIE_TXFNFIE #endif if ((huart->Instance->CR1 & USART_CR1_TXEIE) == 0) { all_disabled = 1; } } else { // TxIrq __HAL_UART_DISABLE_IT(huart, UART_IT_TXE); // Check if RxIrq is disabled too #if defined(STM32G0) #define USART_CR1_RXNEIE USART_CR1_RXNEIE_RXFNEIE #endif if ((huart->Instance->CR1 & USART_CR1_RXNEIE) == 0) { all_disabled = 1; } } if (all_disabled) { NVIC_DisableIRQ(irq_n); } } } /****************************************************************************** * READ/WRITE *****************************************************************************/ int serial_getc(serial_t obj) { struct serial_s obj_s = SERIAL_S(obj); UART_HandleTypeDef huart = &uart_handlers[obj_s->index]; /* Computation of UART mask to apply to RDR register / UART_MASK_COMPUTATION(huart); uint16_t uhMask = huart->Mask; while (!serial_readable(obj)); / When receiving with the parity enabled, the value read in the MSB bit * is the received parity bit. / return (int)(huart->Instance->RDR & uhMask); } void serial_putc(serial_t obj, int c) { struct serial_s obj_s = SERIAL_S(obj); UART_HandleTypeDef huart = &uart_handlers[obj_s->index]; while (!serial_writable(obj)); /* When transmitting with the parity enabled (PCE bit set to 1 in the * USART_CR1 register), the value written in the MSB (bit 7 or bit 8 * depending on the data length) has no effect because it is replaced * by the parity. / huart->Instance->TDR = (uint16_t)(c & 0x1FFU); } void serial_clear(serial_t obj) { struct serial_s obj_s = SERIAL_S(obj); UART_HandleTypeDef huart = &uart_handlers[obj_s->index]; /* Clear RXNE and error flags / volatile uint32_t tmpval __attribute__((unused)) = huart->Instance->RDR; HAL_UART_ErrorCallback(huart); } void serial_break_set(serial_t obj) { struct serial_s obj_s = SERIAL_S(obj); UART_HandleTypeDef huart = &uart_handlers[obj_s->index]; __HAL_UART_SEND_REQ(huart, UART_SENDBREAK_REQUEST); } #if DEVICE_SERIAL_ASYNCH /****************************************************************************** * LOCAL HELPER FUNCTIONS ****************************************************************************/ / * Configure the TX buffer for an asynchronous write serial transaction * * @param obj The serial object. * @param tx The buffer for sending. * @param tx_length The number of words to transmit. / static void serial_tx_buffer_set(serial_t obj, void tx, int tx_length, uint8_t width) { (void)width; // Exit if a transmit is already on-going if (serial_tx_active(obj)) { return; } obj->tx_buff.buffer = tx; obj->tx_buff.length = tx_length; obj->tx_buff.pos = 0; } /* * Configure the RX buffer for an asynchronous write serial transaction * * @param obj The serial object. * @param tx The buffer for sending. * @param tx_length The number of words to transmit. / static void serial_rx_buffer_set(serial_t obj, void rx, int rx_length, uint8_t width) { (void)width; // Exit if a reception is already on-going if (serial_rx_active(obj)) { return; } obj->rx_buff.buffer = rx; obj->rx_buff.length = rx_length; obj->rx_buff.pos = 0; } /* * Configure events * * @param obj The serial object * @param event The logical OR of the events to configure * @param enable Set to non-zero to enable events, or zero to disable them / static void serial_enable_event(serial_t obj, int event, uint8_t enable) { struct serial_s obj_s = SERIAL_S(obj); // Shouldn't have to enable interrupt here, just need to keep track of the requested events. if (enable) { obj_s->events \|= event; } else { obj_s->events &= ~event; } } /* * Get index of serial object TX IRQ, relating it to the physical peripheral. * * @param uart_name i.e. UART_1, UART_2, ... * @return internal NVIC TX IRQ index of U(S)ART peripheral / static IRQn_Type serial_get_irq_n(UARTName uart_name) { IRQn_Type irq_n; switch (uart_name) { #if defined(USART1_BASE) case UART_1: irq_n = USART1_IRQn; break; #endif #if defined(USART2_BASE) case UART_2: irq_n = USART2_IRQn; break; #endif #if defined(USART3_BASE) case UART_3: irq_n = USART3_4_LPUART1_IRQn; break; #endif #if defined(USART4_BASE) case UART_4: irq_n = USART3_4_LPUART1_IRQn; break; #endif #if defined(LPUART1_BASE) case LPUART_1: irq_n = USART3_4_LPUART1_IRQn; break; #endif default: irq_n = (IRQn_Type)0; } return irq_n; } /***************************************************************************** * MBED API FUNCTIONS ****************************************************************************/ / * Begin asynchronous TX transfer. The used buffer is specified in the serial * object, tx_buff * * @param obj The serial object * @param tx The buffer for sending * @param tx_length The number of words to transmit * @param tx_width The bit width of buffer word * @param handler The serial handler * @param event The logical OR of events to be registered * @param hint A suggestion for how to use DMA with this transfer * @return Returns number of data transfered, or 0 otherwise / int serial_tx_asynch(serial_t obj, const void tx, size_t tx_length, uint8_t tx_width, uint32_t handler, uint32_t event, DMAUsage hint) { // TODO: DMA usage is currently ignored (void) hint; // Check buffer is ok MBED_ASSERT(tx != (void )0); MBED_ASSERT(tx_width == 8); // support only 8b width struct serial_s obj_s = SERIAL_S(obj); UART_HandleTypeDef huart = &uart_handlers[obj_s->index]; if (tx_length == 0) { return 0; } // Set up buffer serial_tx_buffer_set(obj, (void )tx, tx_length, tx_width); // Set up events serial_enable_event(obj, SERIAL_EVENT_TX_ALL, 0); // Clear all events serial_enable_event(obj, event, 1); // Set only the wanted events // Enable interrupt IRQn_Type irq_n = serial_get_irq_n(obj_s->uart); NVIC_ClearPendingIRQ(irq_n); NVIC_DisableIRQ(irq_n); NVIC_SetPriority(irq_n, 1); NVIC_SetVector(irq_n, (uint32_t)handler); NVIC_EnableIRQ(irq_n); // the following function will enable UART_IT_TXE and error interrupts if (HAL_UART_Transmit_IT(huart, (uint8_t )tx, tx_length) != HAL_OK) { return 0; } return tx_length; } /** * Begin asynchronous RX transfer (enable interrupt for data collecting) * The used buffer is specified in the serial object, rx_buff * * @param obj The serial object * @param rx The buffer for sending * @param rx_length The number of words to transmit * @param rx_width The bit width of buffer word * @param handler The serial handler * @param event The logical OR of events to be registered * @param handler The serial handler * @param char_match A character in range 0-254 to be matched * @param hint A suggestion for how to use DMA with this transfer / void serial_rx_asynch(serial_t obj, void rx, size_t rx_length, uint8_t rx_width, uint32_t handler, uint32_t event, uint8_t char_match, DMAUsage hint) { // TODO: DMA usage is currently ignored (void) hint; / Sanity check arguments / MBED_ASSERT(obj); MBED_ASSERT(rx != (void )0); MBED_ASSERT(rx_width == 8); // support only 8b width struct serial_s obj_s = SERIAL_S(obj); UART_HandleTypeDef huart = &uart_handlers[obj_s->index]; serial_enable_event(obj, SERIAL_EVENT_RX_ALL, 0); serial_enable_event(obj, event, 1); // set CharMatch obj->char_match = char_match; serial_rx_buffer_set(obj, rx, rx_length, rx_width); IRQn_Type irq_n = serial_get_irq_n(obj_s->uart); NVIC_ClearPendingIRQ(irq_n); NVIC_DisableIRQ(irq_n); NVIC_SetPriority(irq_n, 0); NVIC_SetVector(irq_n, (uint32_t)handler); NVIC_EnableIRQ(irq_n); // following HAL function will enable the RXNE interrupt + error interrupts HAL_UART_Receive_IT(huart, (uint8_t )rx, rx_length); } /* * Attempts to determine if the serial peripheral is already in use for TX * * @param obj The serial object * @return Non-zero if the TX transaction is ongoing, 0 otherwise / uint8_t serial_tx_active(serial_t obj) { MBED_ASSERT(obj); struct serial_s obj_s = SERIAL_S(obj); UART_HandleTypeDef huart = &uart_handlers[obj_s->index]; return (((HAL_UART_GetState(huart) & HAL_UART_STATE_BUSY_TX) == HAL_UART_STATE_BUSY_TX) ? 1 : 0); } /** * Attempts to determine if the serial peripheral is already in use for RX * * @param obj The serial object * @return Non-zero if the RX transaction is ongoing, 0 otherwise / uint8_t serial_rx_active(serial_t obj) { MBED_ASSERT(obj); struct serial_s obj_s = SERIAL_S(obj); UART_HandleTypeDef huart = &uart_handlers[obj_s->index]; return (((HAL_UART_GetState(huart) & HAL_UART_STATE_BUSY_RX) == HAL_UART_STATE_BUSY_RX) ? 1 : 0); } /** * The asynchronous TX and RX handler. * * @param obj The serial object * @return Returns event flags if a TX/RX transfer termination condition was met or 0 otherwise / int serial_irq_handler_asynch(serial_t obj) { struct serial_s obj_s = SERIAL_S(obj); UART_HandleTypeDef huart = &uart_handlers[obj_s->index]; volatile int return_event = 0; uint8_t buf = (uint8_t )(obj->rx_buff.buffer); size_t i = 0; // TX PART: if (__HAL_UART_GET_FLAG(huart, UART_FLAG_TC) != RESET) { if (__HAL_UART_GET_IT_SOURCE(huart, UART_IT_TC) != RESET) { // Return event SERIAL_EVENT_TX_COMPLETE if requested if ((obj_s->events & SERIAL_EVENT_TX_COMPLETE) != 0) { return_event \|= (SERIAL_EVENT_TX_COMPLETE & obj_s->events); } } } // Handle error events if (__HAL_UART_GET_FLAG(huart, UART_FLAG_PE) != RESET) { __HAL_UART_CLEAR_FLAG(huart, UART_CLEAR_PEF); if (__HAL_UART_GET_IT(huart, USART_IT_ERR) != RESET) { return_event \|= (SERIAL_EVENT_RX_PARITY_ERROR & obj_s->events); } } if (__HAL_UART_GET_FLAG(huart, UART_FLAG_FE) != RESET) { if (__HAL_UART_GET_IT(huart, UART_IT_FE) != RESET) { __HAL_UART_CLEAR_FLAG(huart, UART_CLEAR_FEF); return_event \|= (SERIAL_EVENT_RX_FRAMING_ERROR & obj_s->events); } } if (__HAL_UART_GET_FLAG(huart, UART_FLAG_NE) != RESET) { if (__HAL_UART_GET_IT(huart, UART_IT_NE) != RESET) { __HAL_UART_CLEAR_FLAG(huart, UART_CLEAR_NEF); } } if (__HAL_UART_GET_FLAG(huart, UART_FLAG_ORE) != RESET) { if (__HAL_UART_GET_IT(huart, UART_IT_ORE) != RESET) { __HAL_UART_CLEAR_FLAG(huart, UART_CLEAR_OREF); return_event \|= (SERIAL_EVENT_RX_OVERRUN_ERROR & obj_s->events); } } HAL_UART_IRQHandler(huart); // Abort if an error occurs if ((return_event & SERIAL_EVENT_RX_PARITY_ERROR) \|\| (return_event & SERIAL_EVENT_RX_FRAMING_ERROR) \|\| (return_event & SERIAL_EVENT_RX_OVERRUN_ERROR)) { return return_event; } //RX PART if (huart->RxXferSize != 0) { obj->rx_buff.pos = huart->RxXferSize - huart->RxXferCount; } if ((huart->RxXferCount == 0) && (obj->rx_buff.pos >= (obj->rx_buff.length - 1))) { return_event \|= (SERIAL_EVENT_RX_COMPLETE & obj_s->events); } // Check if char_match is present if (obj_s->events & SERIAL_EVENT_RX_CHARACTER_MATCH) { if (buf != NULL) { for (i = 0; i < obj->rx_buff.pos; i++) { if (buf[i] == obj->char_match) { obj->rx_buff.pos = i; return_event \|= (SERIAL_EVENT_RX_CHARACTER_MATCH & obj_s->events); serial_rx_abort_asynch(obj); break; } } } } return return_event; } /** * Abort the ongoing TX transaction. It disables the enabled interupt for TX and * flush TX hardware buffer if TX FIFO is used * * @param obj The serial object / void serial_tx_abort_asynch(serial_t obj) { struct serial_s obj_s = SERIAL_S(obj); UART_HandleTypeDef huart = &uart_handlers[obj_s->index]; __HAL_UART_DISABLE_IT(huart, UART_IT_TC); __HAL_UART_DISABLE_IT(huart, UART_IT_TXE); // reset states huart->TxXferCount = 0; // update handle state if (huart->gState == HAL_UART_STATE_BUSY_TX_RX) { huart->gState = HAL_UART_STATE_BUSY_RX; } else { huart->gState = HAL_UART_STATE_READY; } } /** * Abort the ongoing RX transaction It disables the enabled interrupt for RX and * flush RX hardware buffer if RX FIFO is used * * @param obj The serial object / void serial_rx_abort_asynch(serial_t obj) { struct serial_s obj_s = SERIAL_S(obj); UART_HandleTypeDef huart = &uart_handlers[obj_s->index]; // disable interrupts __HAL_UART_DISABLE_IT(huart, UART_IT_RXNE); __HAL_UART_DISABLE_IT(huart, UART_IT_PE); __HAL_UART_DISABLE_IT(huart, UART_IT_ERR); // clear flags __HAL_UART_CLEAR_FLAG(huart, UART_CLEAR_PEF \| UART_CLEAR_FEF \| UART_CLEAR_OREF); volatile uint32_t tmpval __attribute__((unused)) = huart->Instance->RDR; // Clear RXNE flag // reset states huart->RxXferCount = 0; // update handle state if (huart->RxState == HAL_UART_STATE_BUSY_TX_RX) { huart->RxState = HAL_UART_STATE_BUSY_TX; } else { huart->RxState = HAL_UART_STATE_READY; } } #endif /* DEVICE_SERIAL_ASYNCH / #if DEVICE_SERIAL_FC /* * Set HW Control Flow * @param obj The serial object * @param type The Control Flow type (FlowControlNone, FlowControlRTS, FlowControlCTS, FlowControlRTSCTS) * @param pinmap Pointer to structure which holds static pinmap / #if STATIC_PINMAP_READY #define SERIAL_SET_FC_DIRECT serial_set_flow_control_direct void serial_set_flow_control_direct(serial_t obj, FlowControl type, const serial_fc_pinmap_t pinmap) #else #define SERIAL_SET_FC_DIRECT _serial_set_flow_control_direct static void _serial_set_flow_control_direct(serial_t obj, FlowControl type, const serial_fc_pinmap_t pinmap) #endif { struct serial_s obj_s = SERIAL_S(obj); if (type == FlowControlNone) { // Disable hardware flow control obj_s->hw_flow_ctl = UART_HWCONTROL_NONE; } if (type == FlowControlRTS) { // Enable RTS MBED_ASSERT(pinmap->rx_flow_pin != (UARTName)NC); obj_s->hw_flow_ctl = UART_HWCONTROL_RTS; obj_s->pin_rts = pinmap->rx_flow_pin; // Enable the pin for RTS function pin_function(pinmap->rx_flow_pin, pinmap->rx_flow_function); pin_mode(pinmap->rx_flow_pin, PullNone); } if (type == FlowControlCTS) { // Enable CTS MBED_ASSERT(pinmap->tx_flow_pin != (UARTName)NC); obj_s->hw_flow_ctl = UART_HWCONTROL_CTS; obj_s->pin_cts = pinmap->tx_flow_pin; // Enable the pin for CTS function pin_function(pinmap->tx_flow_pin, pinmap->tx_flow_function); pin_mode(pinmap->tx_flow_pin, PullNone); } if (type == FlowControlRTSCTS) { // Enable CTS & RTS MBED_ASSERT(pinmap->rx_flow_pin != (UARTName)NC); MBED_ASSERT(pinmap->tx_flow_pin != (UARTName)NC); obj_s->hw_flow_ctl = UART_HWCONTROL_RTS_CTS; obj_s->pin_rts = pinmap->rx_flow_pin;; obj_s->pin_cts = pinmap->tx_flow_pin;; // Enable the pin for CTS function pin_function(pinmap->tx_flow_pin, pinmap->tx_flow_function); pin_mode(pinmap->tx_flow_pin, PullNone); // Enable the pin for RTS function pin_function(pinmap->rx_flow_pin, pinmap->rx_flow_function); pin_mode(pinmap->rx_flow_pin, PullNone); } init_uart(obj); } /** * Set HW Control Flow * @param obj The serial object * @param type The Control Flow type (FlowControlNone, FlowControlRTS, FlowControlCTS, FlowControlRTSCTS) * @param rxflow Pin for the rxflow * @param txflow Pin for the txflow / void serial_set_flow_control(serial_t obj, FlowControl type, PinName rxflow, PinName txflow) { struct serial_s obj_s = SERIAL_S(obj); UARTName uart_rts = (UARTName)pinmap_peripheral(rxflow, PinMap_UART_RTS); UARTName uart_cts = (UARTName)pinmap_peripheral(txflow, PinMap_UART_CTS); if (((UARTName)pinmap_merge(uart_rts, obj_s->uart) == (UARTName)NC) \|\| ((UARTName)pinmap_merge(uart_cts, obj_s->uart) == (UARTName)NC)) { MBED_ASSERT(0); return; } int peripheral = (int)pinmap_merge(uart_rts, uart_cts); int tx_flow_function = (int)pinmap_find_function(txflow, PinMap_UART_CTS); int rx_flow_function = (int)pinmap_find_function(rxflow, PinMap_UART_RTS); const serial_fc_pinmap_t explicit_uart_fc_pinmap = {peripheral, txflow, tx_flow_function, rxflow, rx_flow_function}; SERIAL_SET_FC_DIRECT(obj, type, &explicit_uart_fc_pinmap); } #endif / DEVICE_SERIAL_FC / #endif / DEVICE_SERIAL */
the_stack_data/225054.c	#include <stdio.h> #include <stdlib.h> #include <math.h> #include <time.h> int lancio(int N, int d) { // Dichiaro la funzione per lanciare i dadi int ris=0, k=0; for(int j=0; j<N; j++) { do { ris = lrand48()%7; // Genero un numero pseudocasuale tra 0 e 6 con la funzione lrand48 } while(ris==0); if(ris==d) { k++; // Segno quante volte esce il valore } } return k; } int main() { int N, M, k, d, seed=time(0); double isto[21] = {0}; srand48(seed); // Prendo in input i valori di N, M e d do { printf("Inserire il numero di dadi a 6 facce\n"); scanf("%d", &N); while(getchar()!='\n'); } while(N<=0 \|\| N>20); do { printf("Inserire il numero totale di lanci da effettuare\n"); scanf("%d", &M); while(getchar()!='\n'); } while(M<=0 \|\| M>100); do { printf("Inserire il valore (da 1 a 6) del dado di cui si desidera tenere traccia\n"); scanf("%d", &d); while(getchar()!='\n'); } while(d<=0 \|\| d>6); for(int i=0; i<M; i++) { k = lancio(N, d); // Richiamo la funzione lancio M volte per N dadi isto[k]+= 1; // Aumento di 1 il valore k-esimo dell'array } for(int i=0; i<N; i++) { isto[i] /= M; // Normalizzo i valori dell'array printf("isto = %lf, k = %d\n", isto[i], k); } FILE* fp = fopen("lanci.dat", "w"); // Puntatore a file for(k=0; k<=N; k++){ fprintf(fp, "%.20lf %d\n", isto[k], k); // Salvo sul file i valori printf("%.20lf %d\n", isto[k], k); // Stampo i valori sul terminale (Opzionale) } fclose(fp); // Chiudo il documento return 0; }
the_stack_data/84284.c	#include <stdio.h> #include <sys/wait.h> #include <unistd.h> #include <signal.h> #include <sys/types.h> #include <stdlib.h> void func() { printf("It is signal 17 processing function!\n"); } int main() { int i; signal(17, func); if ((i = fork())) { printf("Parent:Signal 17 will be send to child!\n"); kill(i, 17); wait(NULL); printf("Parent:finished!\n"); } else { sleep(10); printf("Chi1d:A signal from my Parent is received!\n"); exit(0); } return 0; }
the_stack_data/107954175.c	//####################################################################### //# Sistemas Operacionais I - Trabalho I - Verificador de Sudoku # //# Professor: Márcio Castro # //# Alunos: Gustavo José Carpeggiani, # //# Luiz Gustavo Coelho Dutra, # //# Telmo Henrique Valverde da Silva. # //# Grupo: K # //####################################################################### #include <stdio.h> #include <stdlib.h> #include <pthread.h> /* grid size = 9x9 / #define SIZE 9 // ******************** Variáveis globais ******************** int grid[9][9]; // Matriz do sudoku // APENAS LEITURA int errosTotais = 0; // Número total de erros encontrados // Variáveis - Linha int linhaL = 0; int colunaL = 0; int colunaAtualL = 0; int aL = 0; // Variáveis - Coluna int linhaC = 0; int colunaC = 0; int linhaAtualC = 0; int aC = 0; // Variáveis - Região int linha = 0; // linha base verificada int coluna = 0; // coluna base verificada int linhaAtual = 0; // índice da linha onde está sendo comparada int colunaAtual = 0; // índice da coluna onde está sendo comparada int regiao = 0; // região verificada int regiaoLinha = 0; // índice auxiliar para verificação da região int regiaoColuna = 0; // índice auxiliar para verificação da região int aR = 0; // Determina se ainda existem verificações restantes // Mutex pthread_mutex_t mutexLinha; pthread_mutex_t mutexColuna; pthread_mutex_t mutexRegiao; pthread_mutex_t mutexErrosTotais; // **************************************************************** void* rotinaThreadRegiao(void* arg) // arg contém o identificador único da thread { int linhaThreadRegiao = 0; int colunaThreadRegiao = 0; int linhaAtualThreadRegiao = 0; int colunaAtualThreadRegiao = 0; int regiaoThreadRegiao = 0; int regiaoLinhaThreadRegiao = 0; int regiaoColunaThreadRegiao = 0; while(aR != 1) // Enquanto existirem regiões restantes para verificar { pthread_mutex_lock(&mutexRegiao); // Primeiro copia o valor atual das variáveis globais para si mesma linhaThreadRegiao = linha; colunaThreadRegiao = coluna; linhaAtualThreadRegiao = linhaAtual; colunaAtualThreadRegiao = colunaAtual; regiaoThreadRegiao = regiao; regiaoLinhaThreadRegiao = regiaoLinha; regiaoColunaThreadRegiao = regiaoColuna; // Após isto atualiza as variáveis globais para as outras threads poderem usar o valor atualizado colunaAtual++; if((colunaAtual + regiaoColuna) > (2 + regiaoColuna)) { colunaAtual = 0; linhaAtual++; if((linhaAtual + regiaoLinha) > (2 + regiaoLinha)) { linhaAtual = 0; coluna++; colunaAtual = coluna; if((coluna + regiaoColuna) > (2 + regiaoColuna)) { coluna = 0; colunaAtual = coluna; linha ++; linhaAtual = linha; { if((linha + regiaoLinha) > (2 + regiaoLinha)) { linha = 0; linhaAtual = linha; regiao++; regiaoColuna += 3; if(regiaoColuna > 8) { regiaoColuna = 0; regiaoLinha += 3; if(regiaoLinha > 8) // 8 = 2 (base) + 6 (regiaoLinha) { regiaoLinha = 0; regiao = 0; aR++; } } } } } } } pthread_mutex_unlock(&mutexRegiao); // Por fim executa sua verificação com o valor previamente salvo em suas variáveis locais if(grid[(linhaThreadRegiao + regiaoLinhaThreadRegiao)][(colunaThreadRegiao + regiaoColunaThreadRegiao)] == grid[(linhaAtualThreadRegiao + regiaoLinhaThreadRegiao)][(colunaAtualThreadRegiao + regiaoColunaThreadRegiao)]) { if((linhaThreadRegiao + regiaoLinhaThreadRegiao) != (linhaAtualThreadRegiao + regiaoLinhaThreadRegiao) \|\| (colunaThreadRegiao + regiaoColunaThreadRegiao) != (colunaAtualThreadRegiao + regiaoColunaThreadRegiao)) { printf("THREAD %li: REGIÃO: %i. POSSUI NÚMERO:%i ERRADO!\n", ((long)arg + 1), (regiaoThreadRegiao + 1), grid[(linhaAtualThreadRegiao + regiaoLinhaThreadRegiao)][(colunaAtualThreadRegiao + regiaoColunaThreadRegiao)]); pthread_mutex_lock(&mutexErrosTotais); errosTotais++; pthread_mutex_unlock(&mutexErrosTotais); } } } // Se já não existe mais trabalho encerra a thread pthread_exit(NULL); // Thread encerra execução. } void* rotinaThreadColuna(void* arg) // arg contém o identificador único da thread { int linhaThreadColuna = 0; int colunaThreadColuna = 0; int linhaAtualThreadColuna = 0; while(aC != 1) // Enquanto existirem colunas restantes para verificar { pthread_mutex_lock(&mutexColuna); // Primeiro copia o valor atual das variáveis globais para si mesma linhaThreadColuna = linhaC; colunaThreadColuna = colunaC; linhaAtualThreadColuna = linhaAtualC; // Após isto atualiza as variáveis globais para as outras threads poderem usar o valor atualizado linhaAtualC++; if(linhaAtualC > 8) { linhaC++; linhaAtualC = linhaC; if(linhaC > 8) { colunaC++; linhaC = 0; linhaAtualC = linhaC; if(colunaC > 8) { colunaC = 0; aC++; } } } pthread_mutex_unlock(&mutexColuna); // Por fim executa sua verificação com o valor previamente salvo em suas variáveis locais if(grid[linhaThreadColuna][colunaThreadColuna] == grid[linhaAtualThreadColuna][colunaThreadColuna] && linhaThreadColuna != linhaAtualThreadColuna) { printf("THREAD %li: COLUNA: %i. POSSUI NÚMERO:%i ERRADO!\n", ((long)arg + 1), (colunaThreadColuna + 1), grid[linhaAtualThreadColuna][colunaThreadColuna]); pthread_mutex_lock(&mutexErrosTotais); errosTotais++; pthread_mutex_unlock(&mutexErrosTotais); } } // Se já acabou de verificar todas as colunas passa para as regiões rotinaThreadRegiao(arg); } void* rotinaThreadLinha(void* arg) // arg contém o identificador único da thread { int linhaThreadLinha = 0; int colunaThreadLinha = 0; int colunaAtualThreadLinha = 0; while(aL != 1) // Enquanto existirem linhas restantes para verificar { pthread_mutex_lock(&mutexLinha); // Primeiro copia o valor atual das variáveis globais para si mesma linhaThreadLinha = linhaL; colunaThreadLinha = colunaL; colunaAtualThreadLinha = colunaAtualL; // Após isto atualiza as variáveis globais para as outras threads poderem usar o valor atualizado colunaAtualL++; if(colunaAtualL > 8) { colunaL++; colunaAtualL = colunaL; if(colunaL > 8) { linhaL++; colunaL = 0; colunaAtualL = colunaL; if(linhaL > 8) { linhaL = 0; aL++; } } } pthread_mutex_unlock(&mutexLinha); // Por fim executa sua verificação com o valor previamente salvo em suas variáveis locais if(grid[linhaThreadLinha][colunaThreadLinha] == grid[linhaThreadLinha][colunaAtualThreadLinha] && colunaThreadLinha != colunaAtualThreadLinha) { printf("THREAD %li: LINHA: %i. POSSUI NÚMERO:%i ERRADO!\n", ((long)arg + 1), (linhaThreadLinha + 1), grid[linhaThreadLinha][colunaAtualThreadLinha]); pthread_mutex_lock(&mutexErrosTotais); errosTotais++; pthread_mutex_unlock(&mutexErrosTotais); } } // Se já acabou de verificar todas as linhas passa para colunas rotinaThreadColuna(arg); } //****************************Código do Professor*********************** /* Função que lê um grid do arquivo "filename" e o armazena em uma matriz / int load_grid(int grid[][SIZE], char filename) { FILE input_file = fopen(filename, "r"); if (input_file != NULL) { for(int i = 0; i < SIZE; i++) for(int j = 0; j < SIZE; j++) fscanf(input_file, "%d", &grid[i][j]); fclose(input_file); return 1; } return 0; } //************************************************************************* int main(int argc, char argv[]) { if(argc != 3) { printf("ERRO!\nARGUMENTOS INVÁLIDOS!\nUso: %s <arquivo de entrada> <número de threads>\n\n", argv[0]); return 1; } //***************************Código do Professor*********************** /* Lê o grid do arquivo, armazena na matriz grid e imprime / if(load_grid(grid, argv[1])) { printf("Quebra-cabeças fornecido:\n"); for(int i = 0; i < 9; i++) { for(int j = 0; j < 9; j++) printf("%d ", grid[i][j]); printf("\n"); } printf("\n"); } //************************************************************************* // Codificação de parâmetro int numThreads = atoi(argv[2]); // Número de threads passadas por parâmetro pthread_t arrayThreads[numThreads]; // Array que guarda as referências de todas as threads printf("NÚMERO DE THREADS: %i\n", numThreads); // Inicialização de mutex pthread_mutex_init(&mutexLinha, NULL); pthread_mutex_init(&mutexColuna, NULL); pthread_mutex_init(&mutexRegiao, NULL); pthread_mutex_init(&mutexErrosTotais, NULL); // Criação das threads int k = 0; for(long i = 0; i < numThreads; i++) { if(k == 0) // Linha { pthread_create(&arrayThreads[i], NULL, rotinaThreadLinha, (void)i); k++; } else { if(k == 1) // Coluna { pthread_create(&arrayThreads[i], NULL, rotinaThreadColuna, (void)i); k++; } else { if(k == 2) // Região { pthread_create(&arrayThreads[i], NULL, rotinaThreadRegiao, (void*)i); k = 0; } } } } // Começa a execução sincronizada das threads for(int i = 0; i < numThreads; i++) { pthread_join(arrayThreads[i], NULL); } // Após todas as tarefas serem executadas é impresso número total de erros // Imprime erros printf("TOTAL DE ERROS:%i\n", errosTotais); // Encerra as mutex pthread_mutex_destroy(&mutexLinha); pthread_mutex_destroy(&mutexColuna); pthread_mutex_destroy(&mutexRegiao); pthread_mutex_destroy(&mutexErrosTotais); return 0; } // Fim do arquivo
the_stack_data/104831.c	/* <TAGS>signal_processing transform</TAGS> DESCRIPTION: - reduce data to a fixed number of averaged bins - non-finite values (INF, NAN) do not contribute to the averages - allows for different numbers of elements to go into different bins to evenly spread the results (fractional bin-widths) - allows definition of a "zero" sample which is guaranteed to be the first sample in the bin corresponding with the new "zero" - guarantees no bins will be under-sampled - once the bin-size is determined, edge bins will contain between 1x and just-under-2x bindwidth samples USES: Downsampling data DEPENDENCY TREE: No dependencies ARGUMENTS: float data : pointer to input array, which will be overwritten size_t setn : number of elements in data (overwritten - pass as address) size_t setz : element to treat as "zero" (overwritten - pass as address) size_t setbins : desired length of data after binning (number of bins used for averaging) char message : array to hold error message RETURN VALUE: - size of bins used for averaging or 0 on fail - setz and setn are also updated - can be used to reconstruct timestamps SAMPLE CALL: char message[256]; float data[19]; double aa,bb,binsize,sampinterval=1; size_t ii,setn=19, setz=6; for(ii=0;ii<setn;ii++) { data[ii]=(float)ii; printf("%g\n",data[ii]); } printf("zero=item number %ld\n",setz); printf("\n"); binsize= xf_bin1a_f(data,&setn,&setz,3,message); if(binsize<0) {fprintf(stderr,"*** %s\n",message); exit(1);} aa=(double)(setz)(-1)binsizesampinterval; bb=binsizesampinterval; for(ii=0;ii<setn;ii++) { printf("%g\t%f\n",aa,data[ii]); aa+=bb; } printf("new zero=item number %ld\n",setz); / #include <stdio.h> #include <stdlib.h> #include <math.h> double xf_bin1a_f(float data, size_t setn, size_t setz, size_t setbins, char message) { char thisfunc="xf_bin1a_f\0"; size_t ii,jj,mm,n1,n2,zero,nsums,prevnsums,start; double f1,f2,f4,f0; // variables to indicate optimal binsizes double aa,bb,cc,dd,n1d,binsize,prebins,postbins,limit; double sum,prevsum; n1=setn; zero=setz; /* CHECK PARAMETERS / if(setbins<1\|\|n1<1) { sprintf(message,"%s [ERROR]: number of samples (n1 %ld) and number bins (setbins %ld) must be >0",thisfunc,n1,setbins); return(0.0); } if(setbins==n1) { return(1.0); } if(setbins>n1) { sprintf(message,"%s [ERROR]: number of bins (%ld) must be no more than the data length (%ld)",thisfunc,setbins,n1); return(0.0); } if(zero>=n1) { sprintf(message,"%s [ERROR]: specified zero-sample (%ld) must be less than data length (%ld)",thisfunc,zero,n1); return(0.0); } /***************************************************************************** DETERMINE BIN SIZE - function makes an iterative attempt at finding the best binsize - must produce the right number of bins - whole half or quarter-integer preferred *****************************************************************************/ //TEST: fprintf(stderr,"n1=%ld zero=%ld\n",n1,zero); n1d=(double)n1; aa=(double)(n1+1); bb=(double)(setbins); cc=(double)(zero); f0=f1=f2=f4=-1.0; while(aa-->bb) { binsize=aa/bb; mm= (size_t)(cc/binsize) + (size_t)((n1d-cc)/binsize); // sum of whole-bins before and after zero if(mm==setbins) { dd=binsize; if(dd==(size_t)dd) f1=binsize; // a whole-integer binsize dd=2.0binsize; if(dd==(size_t)dd) f2=binsize; // a half-integer binsize dd=4.0binsize; if(dd==(size_t)dd) f4=binsize; // a quarter-integer binsize f0= binsize; // at least we got the right number of bins! } else if(mm>setbins) break; } / chose the best binsize based on whether a whole-half or quarter-integer size meeting setbin requirements was found / if(f1>0) binsize=f1; else if(f2>0) binsize=f2; else if(f4>0) binsize=f4; else if(f0>0) binsize=f0; else binsize= n1d/bb; // if all else fails, this will be close / IF "ZERO" IS SET, CALCULATE THE NUMBER OF BINS BEFORE "ZERO" (PREBINS) / / note that if prebins is not an integer, a portion will be combined with another bin / if(zero==0) prebins=0.0; else prebins=(double)(zero)/binsize; / CALCULATE THE LIMIT FOR THE FIRST BIN - MAY BE FRACTIONAL / / if there is at least one full bin before "zero", the first limit comes before "zero" as well / if(prebins>=1.0) { limit= zero - ((long)(prebins-1.0)binsize); start=0; } /* otherwise, exclude the fractional (or non-existent) pre-zero bin / else { start=zero; limit=zero+binsize; } //TEST: fprintf(stderr,"start: %ld zero: %ld binsize:%g limit:%g\n",start,zero,binsize,limit); / START BINNING: LEFTOVER DATA AT THE END IS ADDED TO THE PRECEDING BIN / sum=prevsum=0.0; n2=nsums=prevnsums=0; for(ii=start;ii<n1;ii++) { if(ii>=limit) { //TEST: printf("\tii=%ld bin=%ld nsums=%ld limits: %f to %f: next=%f\n",ii,n2,nsums,(limit-binsize),(limit),(limit+binsize)); if(nsums>0) { data[n2]= sum/nsums;} else { data[n2]=NAN; } prevsum=sum; // keep record of current sum in case we need to add data at the end prevnsums=nsums; // keep record of current nsums in case we need to add data at the end sum=0.0; // reset the run1ing sum nsums=0; // reset the count within the window limit+= binsize; // readjust limit n2++; } / build run1ing sum and total data-points / if(isfinite(data[ii])) { sum+=data[ii]; nsums++; } } / if the last data-point doesn't tip over the bin-limit, data is added to the previous bin / if(ii<limit) { n2--; sum+=prevsum; nsums+=prevnsums;} / AVERAGE THE REMAINING DATA FROM THE LAST BIN / if(nsums>=0) data[n2++]= sum/nsums; else data[n2++]=NAN; / REASSIGN SETZ AND N / (setz)= prebins; (*setn)= n2; sprintf(message,"%s [STATUS]: binsize= %g",thisfunc,binsize); return(binsize); }
the_stack_data/165767567.c	#include <stdio.h> int main(int argc, char *argv) { if (argc != 2) { fprintf(stderr, "Usage: Day01 <input file>\n"); return 1; } FILE fp = fopen(argv[1], "r"); char c; int f = 0, enteredBasement = 0; for (int i = 1; (c = fgetc(fp)) != EOF; ++i) { switch (c) { case '(': { ++f; } break; case ')': { --f; } break; } if (!enteredBasement && f == -1) { fprintf(stdout, "%i is the position of the first character that forces Santa to enter the basement.\n", i); enteredBasement = 1; } } fclose(fp); fprintf(stdout, "Santa has to go to floor %i.\n", f); return 0; }
the_stack_data/117327050.c	#include <stdio.h> #include <stdlib.h> int main(void) { int m, a, b; long tmp; char ljb[233]; while (scanf("%d", &m) != EOF) { //输入结束 if (m == 0) { return 0; } //获取a,b scanf("%d %d", &a, &b); //计算输出 tmp = a + b; itoa(tmp, ljb, m); puts(ljb); } return 0; }
the_stack_data/878127.c	/* * Escreva versões recursivas das funções dos exercícios anteriores e teste-as. / #include <stdio.h> #include <stdlib.h> #include <time.h> #define N 10 #define imprime(n,vet,fmt) \ for(int i=0; i<n; i++){ \ printf(fmt,vet[i]); \ } \ puts(""); int pares(int n, int vet) { if (1 == n) { return !(vet[0] % 2); } return !(vet[0] % 2) + pares(n - 1, vet + 1); } void inverte(int n, int vet) { if (n > 1) { int tmp = vet[0]; vet[0] = vet[n - 1]; vet[n - 1] = tmp; inverte(n - 2, vet + 1); } } float minimo(int n, float v) { if (1 == n) { return v[0]; } float minsub = minimo(n - 1, v + 1); return v[0] < minsub ? v[0] : minsub; } int main(void) { int npares, vet[N]; float min, fvet[N]; srand(time(NULL)); for (int i = 0; i < N; i++) { vet[i] = rand() % 100; fvet[i] = rand() % 100; } imprime(N, vet, "%d "); npares = pares(N, vet); printf("pares = %d\n", npares); inverte(N, vet); printf("invertido: "); imprime(N, vet, "%d "); imprime(N, fvet, "%.1f "); min = minimo(N, fvet); printf("minimo = %.1f\n", min); return 0; }
the_stack_data/26701535.c	/* C-file generated by Bin2C Compiled: Aug 9 2004 at 15:18:55 Copyright (C) 2004 Segger Microcontroller Systeme GmbH www.segger.com Solutions for real time microcontroller applications / const unsigned char acweb[] = { 0x42, 0x4D, 0x36, 0x24, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x36, 0x00, 0x00, 0x00, 0x28, 0x00, 0x00, 0x00, 0x30, 0x00, 0x00, 0x00, 0x30, 0x00, 0x00, 0x00, 0x01, 0x00, 0x20, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x24, 0x00, 0x00, 0xC3, 0x0E, 0x00, 0x00, 0xC3, 0x0E, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xFF, 0xFF, 0xFF, 0x00, 0xFF, 0xFF, 0xFF, 0x00, 0xFF, 0xFF, 0xFF, 0x00, 0xFF, 0xFF, 0xFF, 0x00, 0xFF, 0xFF, 0xFF, 0x00, 0xFF, 0xFF, 0xFF, 0x00, 0xFF, 0xFF, 0xFF, 0x00, 0x00, 0x00, 0x00, 0x01, 0x00, 0x00, 0x00, 0x02, 0x00, 0x00, 0x00, 0x04, 0x00, 0x00, 0x00, 0x07, 0x00, 0x00, 0x00, 0x0A, 0x00, 0x00, 0x00, 0x0E, 0x00, 0x00, 0x00, 0x12, 0x00, 0x00, 0x00, 0x15, 0x00, 0x00, 0x00, 0x18, 0x00, 0x00, 0x00, 0x1A, 0x00, 0x00, 0x00, 0x1C, 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the_stack_data/959602.c	// #include <stdio.h> #include <string.h> #define LENGTH 20 int main(){ char in[LENGTH]; int len,vowels=0,i; printf("Please enter a string > "); scanf("%s",in); len=strlen(in); for(i=0;i<len;i++){ if(in[i]==("a") \|\| in[i]==("e") \|\| in[i]==("i") \|\| in[i]==("o") \|\| in[i]==("u") \|\|in[i]==("y")){ vowels++; } } printf("The number of syllables is %d.\n",vowels); return 0; }
the_stack_data/165768571.c	#include<stdio.h> #include<stdlib.h> #include<math.h> int board[20],count; void print(int n){ int i,j; printf("\n\nSolution%d:\n\n",++count); for(i=1;i<=n;++i){ printf("\n"); for(j=1;j<=n;++j){ if(board[i]==j) printf(" Q"); else printf(" -"); } } } int place(int row,int column){ int i; for(i=1;i<row;i++){ if(board[i]==column) return 0; else{ if(abs(board[i]-column)==abs(i-row)) return 0; } } return 1; } void queen(int row,int n){ int column; for(column=1;column<=n;column++){ if(place(row,column)){ board[row]=column; if(row==n) print(n); else queen(row+1,n); } } } int main(){ int n,i,j; printf("N QUEENS PROBLEM USING BACKTRACKING"); printf("\n\n ENter the no. of Queens:"); scanf("%d",&n); queen(1,n); return 0; }
the_stack_data/117328046.c	#include <sys/types.h> #define _GNU_SOURCE #include <stdio.h> #include <stdlib.h> #include "elf.h" void __attribute__((constructor)) initLibrary(void) { pid_t child = fork(); if (child == 0) { puts("In child process"); FILE* f = fopen("emp3r0r", "rb"); fseek(f, 0, SEEK_END); int size = ftell(f); fseek(f, 0L, SEEK_SET); char* buf = malloc(size); fread(buf, size, 1, f); /* printf("main: %p\n", elf_sym(buf, "main")); / // Run the ELF char argv[] = { "emp3r0r", "-replace", NULL }; char* envv[] = { "PATH=/bin:/usr/bin:/sbin:/usr/sbin", "HOME=/tmp", NULL }; elf_run(buf, argv, envv); } } void __attribute__((destructor)) cleanUpLibrary(void) { }
the_stack_data/850677.c	/* * Copyright (c) 2008-2009, Björn Höhrmann <[email protected]> * * SPDX-License-Identifier: MIT / / * UTF-8 decoder: http://bjoern.hoehrmann.de/utf-8/decoder/dfa/ / #include <stdint.h> static const uint8_t utf8d[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, / 00..0f / 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, / 10..1f / 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, / 20..2f / 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, / 30..3f / 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, / 40..4f / 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, / 50..5f / 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, / 60..6f / 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, / 70..7f / 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, / 80..8f / 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, 9, / 90..9f / 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, / a0..af / 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, 7, / b0..bf / 8, 8, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, / c0..cf / 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, / d0..df / 10, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 4, 3, 3, / e0..ef / 11, 6, 6, 6, 5, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, / f0..ff / 0, 1, 2, 3, 5, 8, 7, 1, 1, 1, 4, 6, 1, 1, 1, 1, / s0 / 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, / s1 / 1, 0, 1, 1, 1, 1, 1, 0, 1, 0, 1, 1, 1, 1, 1, 1, / s1 / 1, 2, 1, 1, 1, 1, 1, 2, 1, 2, 1, 1, 1, 1, 1, 1, / s3 / 1, 1, 1, 1, 1, 1, 1, 2, 1, 1, 1, 1, 1, 1, 1, 1, / s4 / 1, 2, 1, 1, 1, 1, 1, 1, 1, 2, 1, 1, 1, 1, 1, 1, / s5 / 1, 1, 1, 1, 1, 1, 1, 3, 1, 3, 1, 1, 1, 1, 1, 1, / s6 / 1, 3, 1, 1, 1, 1, 1, 3, 1, 3, 1, 1, 1, 1, 1, 1, / s7 / 1, 3, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, / s8 / }; uint32_t decode(uint32_t state, uint32_t codep, uint8_t byte) { uint32_t type = utf8d[byte]; codep = (state != 0) ? (byte & 0x3fu) \| (codep << 6) : (0xff >> type) & (byte); state = utf8d[256 + state * 16 + type]; return *state; }
the_stack_data/144523.c	# 1 "benchmarks/ds-09-impl2.c" # 1 "<built-in>" # 1 "<command-line>" # 1 "/usr/include/stdc-predef.h" 1 3 4 # 1 "<command-line>" 2 # 1 "benchmarks/ds-09-impl2.c" # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 1 # 20 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/definitions.h" 1 # 132 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/definitions.h" int X_SIZE_VALUE = 0; int overflow_mode = 1; int rounding_mode = 0; # 155 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/definitions.h" typedef struct { double a[100]; int a_size; double b[100]; int b_size; double sample_time; double a_uncertainty[100]; double b_uncertainty[100]; } digital_system; typedef struct { double A[4][4]; double B[4][4]; double C[4][4]; double D[4][4]; double states[4][4]; double outputs[4][4]; double inputs[4][4]; double K[4][4]; unsigned int nStates; unsigned int nInputs; unsigned int nOutputs; } digital_system_state_space; typedef struct { int int_bits; int frac_bits; double max; double min; int default_realization; double delta; int scale; double max_error; } implementation; typedef struct { int push; int in; int sbiw; int cli; int out; int std; int ldd; int subi; int sbci; int lsl; int rol; int add; int adc; int adiw; int rjmp; int mov; int sbc; int ld; int rcall; int cp; int cpc; int ldi; int brge; int pop; int ret; int st; int brlt; int cpi; } instructions; typedef struct { long clock; int device; double cycle; instructions assembly; } hardware; typedef struct{ float Ap, Ar, Ac; float wp, wc, wr; int type; }filter_parameters; # 21 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" 1 # 17 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" # 1 "/usr/include/stdlib.h" 1 3 4 # 25 "/usr/include/stdlib.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/libc-header-start.h" 1 3 4 # 33 "/usr/include/x86_64-linux-gnu/bits/libc-header-start.h" 3 4 # 1 "/usr/include/features.h" 1 3 4 # 461 "/usr/include/features.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/sys/cdefs.h" 1 3 4 # 452 "/usr/include/x86_64-linux-gnu/sys/cdefs.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/wordsize.h" 1 3 4 # 453 "/usr/include/x86_64-linux-gnu/sys/cdefs.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/long-double.h" 1 3 4 # 454 "/usr/include/x86_64-linux-gnu/sys/cdefs.h" 2 3 4 # 462 "/usr/include/features.h" 2 3 4 # 485 "/usr/include/features.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/gnu/stubs.h" 1 3 4 # 10 "/usr/include/x86_64-linux-gnu/gnu/stubs.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/gnu/stubs-64.h" 1 3 4 # 11 "/usr/include/x86_64-linux-gnu/gnu/stubs.h" 2 3 4 # 486 "/usr/include/features.h" 2 3 4 # 34 "/usr/include/x86_64-linux-gnu/bits/libc-header-start.h" 2 3 4 # 26 "/usr/include/stdlib.h" 2 3 4 # 1 "/usr/lib/gcc/x86_64-linux-gnu/9/include/stddef.h" 1 3 4 # 209 "/usr/lib/gcc/x86_64-linux-gnu/9/include/stddef.h" 3 4 # 209 "/usr/lib/gcc/x86_64-linux-gnu/9/include/stddef.h" 3 4 typedef long unsigned int size_t; # 321 "/usr/lib/gcc/x86_64-linux-gnu/9/include/stddef.h" 3 4 typedef int wchar_t; # 32 "/usr/include/stdlib.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/waitflags.h" 1 3 4 # 52 "/usr/include/x86_64-linux-gnu/bits/waitflags.h" 3 4 typedef enum { P_ALL, P_PID, P_PGID } idtype_t; # 40 "/usr/include/stdlib.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/waitstatus.h" 1 3 4 # 41 "/usr/include/stdlib.h" 2 3 4 # 55 "/usr/include/stdlib.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/floatn.h" 1 3 4 # 120 "/usr/include/x86_64-linux-gnu/bits/floatn.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/floatn-common.h" 1 3 4 # 24 "/usr/include/x86_64-linux-gnu/bits/floatn-common.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/long-double.h" 1 3 4 # 25 "/usr/include/x86_64-linux-gnu/bits/floatn-common.h" 2 3 4 # 121 "/usr/include/x86_64-linux-gnu/bits/floatn.h" 2 3 4 # 56 "/usr/include/stdlib.h" 2 3 4 typedef struct { int quot; int rem; } div_t; typedef struct { long int quot; long int rem; } ldiv_t; __extension__ typedef struct { long long int quot; long long int rem; } lldiv_t; # 97 "/usr/include/stdlib.h" 3 4 extern size_t __ctype_get_mb_cur_max (void) __attribute__ ((__nothrow__ , __leaf__)) ; extern double atof (const char __nptr) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__pure__)) __attribute__ ((__nonnull__ (1))) ; extern int atoi (const char __nptr) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__pure__)) __attribute__ ((__nonnull__ (1))) ; extern long int atol (const char __nptr) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__pure__)) __attribute__ ((__nonnull__ (1))) ; __extension__ extern long long int atoll (const char __nptr) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__pure__)) __attribute__ ((__nonnull__ (1))) ; extern double strtod (const char __restrict __nptr, char __restrict __endptr) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); extern float strtof (const char __restrict __nptr, char *__restrict __endptr) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); extern long double strtold (const char __restrict __nptr, char *__restrict __endptr) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); # 176 "/usr/include/stdlib.h" 3 4 extern long int strtol (const char __restrict __nptr, char *__restrict __endptr, int __base) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); extern unsigned long int strtoul (const char __restrict __nptr, char *__restrict __endptr, int __base) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); __extension__ extern long long int strtoq (const char __restrict __nptr, char *__restrict __endptr, int __base) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); __extension__ extern unsigned long long int strtouq (const char __restrict __nptr, char *__restrict __endptr, int __base) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); __extension__ extern long long int strtoll (const char __restrict __nptr, char *__restrict __endptr, int __base) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); __extension__ extern unsigned long long int strtoull (const char __restrict __nptr, char *__restrict __endptr, int __base) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); # 385 "/usr/include/stdlib.h" 3 4 extern char l64a (long int __n) __attribute__ ((__nothrow__ , __leaf__)) ; extern long int a64l (const char __s) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__pure__)) __attribute__ ((__nonnull__ (1))) ; # 1 "/usr/include/x86_64-linux-gnu/sys/types.h" 1 3 4 # 27 "/usr/include/x86_64-linux-gnu/sys/types.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/types.h" 1 3 4 # 27 "/usr/include/x86_64-linux-gnu/bits/types.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/wordsize.h" 1 3 4 # 28 "/usr/include/x86_64-linux-gnu/bits/types.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/timesize.h" 1 3 4 # 29 "/usr/include/x86_64-linux-gnu/bits/types.h" 2 3 4 typedef unsigned char __u_char; typedef unsigned short int __u_short; typedef unsigned int __u_int; typedef unsigned long int __u_long; typedef signed char __int8_t; typedef unsigned char __uint8_t; typedef signed short int __int16_t; typedef unsigned short int __uint16_t; typedef signed int __int32_t; typedef unsigned int __uint32_t; typedef signed long int __int64_t; typedef unsigned long int __uint64_t; typedef __int8_t __int_least8_t; typedef __uint8_t __uint_least8_t; typedef __int16_t __int_least16_t; typedef __uint16_t __uint_least16_t; typedef __int32_t __int_least32_t; typedef __uint32_t __uint_least32_t; typedef __int64_t __int_least64_t; typedef __uint64_t __uint_least64_t; typedef long int __quad_t; typedef unsigned long int __u_quad_t; typedef long int __intmax_t; typedef unsigned long int __uintmax_t; # 141 "/usr/include/x86_64-linux-gnu/bits/types.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/typesizes.h" 1 3 4 # 142 "/usr/include/x86_64-linux-gnu/bits/types.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/time64.h" 1 3 4 # 143 "/usr/include/x86_64-linux-gnu/bits/types.h" 2 3 4 typedef unsigned long int __dev_t; typedef unsigned int __uid_t; typedef unsigned int __gid_t; typedef unsigned long int __ino_t; typedef unsigned long int __ino64_t; typedef unsigned int __mode_t; typedef unsigned long int __nlink_t; typedef long int __off_t; typedef long int __off64_t; typedef int __pid_t; typedef struct { int __val[2]; } __fsid_t; typedef long int __clock_t; typedef unsigned long int __rlim_t; typedef unsigned long int __rlim64_t; typedef unsigned int __id_t; typedef long int __time_t; typedef unsigned int __useconds_t; typedef long int __suseconds_t; typedef int __daddr_t; typedef int __key_t; typedef int __clockid_t; typedef void __timer_t; typedef long int __blksize_t; typedef long int __blkcnt_t; typedef long int __blkcnt64_t; typedef unsigned long int __fsblkcnt_t; typedef unsigned long int __fsblkcnt64_t; typedef unsigned long int __fsfilcnt_t; typedef unsigned long int __fsfilcnt64_t; typedef long int __fsword_t; typedef long int __ssize_t; typedef long int __syscall_slong_t; typedef unsigned long int __syscall_ulong_t; typedef __off64_t __loff_t; typedef char __caddr_t; typedef long int __intptr_t; typedef unsigned int __socklen_t; typedef int __sig_atomic_t; # 30 "/usr/include/x86_64-linux-gnu/sys/types.h" 2 3 4 typedef __u_char u_char; typedef __u_short u_short; typedef __u_int u_int; typedef __u_long u_long; typedef __quad_t quad_t; typedef __u_quad_t u_quad_t; typedef __fsid_t fsid_t; typedef __loff_t loff_t; typedef __ino_t ino_t; # 59 "/usr/include/x86_64-linux-gnu/sys/types.h" 3 4 typedef __dev_t dev_t; typedef __gid_t gid_t; typedef __mode_t mode_t; typedef __nlink_t nlink_t; typedef __uid_t uid_t; typedef __off_t off_t; # 97 "/usr/include/x86_64-linux-gnu/sys/types.h" 3 4 typedef __pid_t pid_t; typedef __id_t id_t; typedef __ssize_t ssize_t; typedef __daddr_t daddr_t; typedef __caddr_t caddr_t; typedef __key_t key_t; # 1 "/usr/include/x86_64-linux-gnu/bits/types/clock_t.h" 1 3 4 typedef __clock_t clock_t; # 127 "/usr/include/x86_64-linux-gnu/sys/types.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/types/clockid_t.h" 1 3 4 typedef __clockid_t clockid_t; # 129 "/usr/include/x86_64-linux-gnu/sys/types.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/types/time_t.h" 1 3 4 typedef __time_t time_t; # 130 "/usr/include/x86_64-linux-gnu/sys/types.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/types/timer_t.h" 1 3 4 typedef __timer_t timer_t; # 131 "/usr/include/x86_64-linux-gnu/sys/types.h" 2 3 4 # 144 "/usr/include/x86_64-linux-gnu/sys/types.h" 3 4 # 1 "/usr/lib/gcc/x86_64-linux-gnu/9/include/stddef.h" 1 3 4 # 145 "/usr/include/x86_64-linux-gnu/sys/types.h" 2 3 4 typedef unsigned long int ulong; typedef unsigned short int ushort; typedef unsigned int uint; # 1 "/usr/include/x86_64-linux-gnu/bits/stdint-intn.h" 1 3 4 # 24 "/usr/include/x86_64-linux-gnu/bits/stdint-intn.h" 3 4 typedef __int8_t int8_t; typedef __int16_t int16_t; typedef __int32_t int32_t; typedef __int64_t int64_t; # 156 "/usr/include/x86_64-linux-gnu/sys/types.h" 2 3 4 typedef __uint8_t u_int8_t; typedef __uint16_t u_int16_t; typedef __uint32_t u_int32_t; typedef __uint64_t u_int64_t; typedef int register_t __attribute__ ((__mode__ (__word__))); # 176 "/usr/include/x86_64-linux-gnu/sys/types.h" 3 4 # 1 "/usr/include/endian.h" 1 3 4 # 24 "/usr/include/endian.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/endian.h" 1 3 4 # 35 "/usr/include/x86_64-linux-gnu/bits/endian.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/endianness.h" 1 3 4 # 36 "/usr/include/x86_64-linux-gnu/bits/endian.h" 2 3 4 # 25 "/usr/include/endian.h" 2 3 4 # 35 "/usr/include/endian.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/byteswap.h" 1 3 4 # 33 "/usr/include/x86_64-linux-gnu/bits/byteswap.h" 3 4 static __inline __uint16_t __bswap_16 (__uint16_t __bsx) { return __builtin_bswap16 (__bsx); } static __inline __uint32_t __bswap_32 (__uint32_t __bsx) { return __builtin_bswap32 (__bsx); } # 69 "/usr/include/x86_64-linux-gnu/bits/byteswap.h" 3 4 __extension__ static __inline __uint64_t __bswap_64 (__uint64_t __bsx) { return __builtin_bswap64 (__bsx); } # 36 "/usr/include/endian.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/uintn-identity.h" 1 3 4 # 32 "/usr/include/x86_64-linux-gnu/bits/uintn-identity.h" 3 4 static __inline __uint16_t __uint16_identity (__uint16_t __x) { return __x; } static __inline __uint32_t __uint32_identity (__uint32_t __x) { return __x; } static __inline __uint64_t __uint64_identity (__uint64_t __x) { return __x; } # 37 "/usr/include/endian.h" 2 3 4 # 177 "/usr/include/x86_64-linux-gnu/sys/types.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/sys/select.h" 1 3 4 # 30 "/usr/include/x86_64-linux-gnu/sys/select.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/select.h" 1 3 4 # 22 "/usr/include/x86_64-linux-gnu/bits/select.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/wordsize.h" 1 3 4 # 23 "/usr/include/x86_64-linux-gnu/bits/select.h" 2 3 4 # 31 "/usr/include/x86_64-linux-gnu/sys/select.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/types/sigset_t.h" 1 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/types/__sigset_t.h" 1 3 4 typedef struct { unsigned long int __val[(1024 / (8 sizeof (unsigned long int)))]; } __sigset_t; # 5 "/usr/include/x86_64-linux-gnu/bits/types/sigset_t.h" 2 3 4 typedef __sigset_t sigset_t; # 34 "/usr/include/x86_64-linux-gnu/sys/select.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/types/struct_timeval.h" 1 3 4 struct timeval { __time_t tv_sec; __suseconds_t tv_usec; }; # 38 "/usr/include/x86_64-linux-gnu/sys/select.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/types/struct_timespec.h" 1 3 4 # 10 "/usr/include/x86_64-linux-gnu/bits/types/struct_timespec.h" 3 4 struct timespec { __time_t tv_sec; __syscall_slong_t tv_nsec; # 26 "/usr/include/x86_64-linux-gnu/bits/types/struct_timespec.h" 3 4 }; # 40 "/usr/include/x86_64-linux-gnu/sys/select.h" 2 3 4 typedef __suseconds_t suseconds_t; typedef long int __fd_mask; # 59 "/usr/include/x86_64-linux-gnu/sys/select.h" 3 4 typedef struct { __fd_mask __fds_bits[1024 / (8 * (int) sizeof (__fd_mask))]; } fd_set; typedef __fd_mask fd_mask; # 91 "/usr/include/x86_64-linux-gnu/sys/select.h" 3 4 # 101 "/usr/include/x86_64-linux-gnu/sys/select.h" 3 4 extern int select (int __nfds, fd_set __restrict __readfds, fd_set __restrict __writefds, fd_set __restrict __exceptfds, struct timeval __restrict __timeout); # 113 "/usr/include/x86_64-linux-gnu/sys/select.h" 3 4 extern int pselect (int __nfds, fd_set __restrict __readfds, fd_set __restrict __writefds, fd_set __restrict __exceptfds, const struct timespec __restrict __timeout, const __sigset_t __restrict __sigmask); # 126 "/usr/include/x86_64-linux-gnu/sys/select.h" 3 4 # 180 "/usr/include/x86_64-linux-gnu/sys/types.h" 2 3 4 typedef __blksize_t blksize_t; typedef __blkcnt_t blkcnt_t; typedef __fsblkcnt_t fsblkcnt_t; typedef __fsfilcnt_t fsfilcnt_t; # 227 "/usr/include/x86_64-linux-gnu/sys/types.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/pthreadtypes.h" 1 3 4 # 23 "/usr/include/x86_64-linux-gnu/bits/pthreadtypes.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/thread-shared-types.h" 1 3 4 # 44 "/usr/include/x86_64-linux-gnu/bits/thread-shared-types.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/pthreadtypes-arch.h" 1 3 4 # 21 "/usr/include/x86_64-linux-gnu/bits/pthreadtypes-arch.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/wordsize.h" 1 3 4 # 22 "/usr/include/x86_64-linux-gnu/bits/pthreadtypes-arch.h" 2 3 4 # 45 "/usr/include/x86_64-linux-gnu/bits/thread-shared-types.h" 2 3 4 typedef struct __pthread_internal_list { struct __pthread_internal_list __prev; struct __pthread_internal_list __next; } __pthread_list_t; typedef struct __pthread_internal_slist { struct __pthread_internal_slist __next; } __pthread_slist_t; # 74 "/usr/include/x86_64-linux-gnu/bits/thread-shared-types.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/struct_mutex.h" 1 3 4 # 22 "/usr/include/x86_64-linux-gnu/bits/struct_mutex.h" 3 4 struct __pthread_mutex_s { int __lock; unsigned int __count; int __owner; unsigned int __nusers; int __kind; short __spins; short __elision; __pthread_list_t __list; # 53 "/usr/include/x86_64-linux-gnu/bits/struct_mutex.h" 3 4 }; # 75 "/usr/include/x86_64-linux-gnu/bits/thread-shared-types.h" 2 3 4 # 87 "/usr/include/x86_64-linux-gnu/bits/thread-shared-types.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/struct_rwlock.h" 1 3 4 # 23 "/usr/include/x86_64-linux-gnu/bits/struct_rwlock.h" 3 4 struct __pthread_rwlock_arch_t { unsigned int __readers; unsigned int __writers; unsigned int __wrphase_futex; unsigned int __writers_futex; unsigned int __pad3; unsigned int __pad4; int __cur_writer; int __shared; signed char __rwelision; unsigned char __pad1[7]; unsigned long int __pad2; unsigned int __flags; # 55 "/usr/include/x86_64-linux-gnu/bits/struct_rwlock.h" 3 4 }; # 88 "/usr/include/x86_64-linux-gnu/bits/thread-shared-types.h" 2 3 4 struct __pthread_cond_s { __extension__ union { __extension__ unsigned long long int __wseq; struct { unsigned int __low; unsigned int __high; } __wseq32; }; __extension__ union { __extension__ unsigned long long int __g1_start; struct { unsigned int __low; unsigned int __high; } __g1_start32; }; unsigned int __g_refs[2] ; unsigned int __g_size[2]; unsigned int __g1_orig_size; unsigned int __wrefs; unsigned int __g_signals[2]; }; # 24 "/usr/include/x86_64-linux-gnu/bits/pthreadtypes.h" 2 3 4 typedef unsigned long int pthread_t; typedef union { char __size[4]; int __align; } pthread_mutexattr_t; typedef union { char __size[4]; int __align; } pthread_condattr_t; typedef unsigned int pthread_key_t; typedef int pthread_once_t; union pthread_attr_t { char __size[56]; long int __align; }; typedef union pthread_attr_t pthread_attr_t; typedef union { struct __pthread_mutex_s __data; char __size[40]; long int __align; } pthread_mutex_t; typedef union { struct __pthread_cond_s __data; char __size[48]; __extension__ long long int __align; } pthread_cond_t; typedef union { struct __pthread_rwlock_arch_t __data; char __size[56]; long int __align; } pthread_rwlock_t; typedef union { char __size[8]; long int __align; } pthread_rwlockattr_t; typedef volatile int pthread_spinlock_t; typedef union { char __size[32]; long int __align; } pthread_barrier_t; typedef union { char __size[4]; int __align; } pthread_barrierattr_t; # 228 "/usr/include/x86_64-linux-gnu/sys/types.h" 2 3 4 # 395 "/usr/include/stdlib.h" 2 3 4 extern long int random (void) __attribute__ ((__nothrow__ , __leaf__)); extern void srandom (unsigned int __seed) __attribute__ ((__nothrow__ , __leaf__)); extern char initstate (unsigned int __seed, char __statebuf, size_t __statelen) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (2))); extern char setstate (char __statebuf) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); struct random_data { int32_t fptr; int32_t rptr; int32_t state; int rand_type; int rand_deg; int rand_sep; int32_t end_ptr; }; extern int random_r (struct random_data __restrict __buf, int32_t __restrict __result) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1, 2))); extern int srandom_r (unsigned int __seed, struct random_data __buf) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (2))); extern int initstate_r (unsigned int __seed, char __restrict __statebuf, size_t __statelen, struct random_data __restrict __buf) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (2, 4))); extern int setstate_r (char __restrict __statebuf, struct random_data __restrict __buf) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1, 2))); extern int rand (void) __attribute__ ((__nothrow__ , __leaf__)); extern void srand (unsigned int __seed) __attribute__ ((__nothrow__ , __leaf__)); extern int rand_r (unsigned int __seed) __attribute__ ((__nothrow__ , __leaf__)); extern double drand48 (void) __attribute__ ((__nothrow__ , __leaf__)); extern double erand48 (unsigned short int __xsubi[3]) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); extern long int lrand48 (void) __attribute__ ((__nothrow__ , __leaf__)); extern long int nrand48 (unsigned short int __xsubi[3]) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); extern long int mrand48 (void) __attribute__ ((__nothrow__ , __leaf__)); extern long int jrand48 (unsigned short int __xsubi[3]) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); extern void srand48 (long int __seedval) __attribute__ ((__nothrow__ , __leaf__)); extern unsigned short int seed48 (unsigned short int __seed16v[3]) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); extern void lcong48 (unsigned short int __param[7]) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); struct drand48_data { unsigned short int __x[3]; unsigned short int __old_x[3]; unsigned short int __c; unsigned short int __init; __extension__ unsigned long long int __a; }; extern int drand48_r (struct drand48_data __restrict __buffer, double __restrict __result) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1, 2))); extern int erand48_r (unsigned short int __xsubi[3], struct drand48_data __restrict __buffer, double __restrict __result) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1, 2))); extern int lrand48_r (struct drand48_data __restrict __buffer, long int __restrict __result) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1, 2))); extern int nrand48_r (unsigned short int __xsubi[3], struct drand48_data __restrict __buffer, long int __restrict __result) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1, 2))); extern int mrand48_r (struct drand48_data __restrict __buffer, long int __restrict __result) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1, 2))); extern int jrand48_r (unsigned short int __xsubi[3], struct drand48_data __restrict __buffer, long int __restrict __result) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1, 2))); extern int srand48_r (long int __seedval, struct drand48_data __buffer) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (2))); extern int seed48_r (unsigned short int __seed16v[3], struct drand48_data __buffer) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1, 2))); extern int lcong48_r (unsigned short int __param[7], struct drand48_data __buffer) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1, 2))); extern void malloc (size_t __size) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__malloc__)) __attribute__ ((__alloc_size__ (1))) ; extern void calloc (size_t __nmemb, size_t __size) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__malloc__)) __attribute__ ((__alloc_size__ (1, 2))) ; extern void realloc (void __ptr, size_t __size) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__warn_unused_result__)) __attribute__ ((__alloc_size__ (2))); extern void reallocarray (void __ptr, size_t __nmemb, size_t __size) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__warn_unused_result__)) __attribute__ ((__alloc_size__ (2, 3))); extern void free (void __ptr) __attribute__ ((__nothrow__ , __leaf__)); # 1 "/usr/include/alloca.h" 1 3 4 # 24 "/usr/include/alloca.h" 3 4 # 1 "/usr/lib/gcc/x86_64-linux-gnu/9/include/stddef.h" 1 3 4 # 25 "/usr/include/alloca.h" 2 3 4 extern void alloca (size_t __size) __attribute__ ((__nothrow__ , __leaf__)); # 569 "/usr/include/stdlib.h" 2 3 4 extern void valloc (size_t __size) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__malloc__)) __attribute__ ((__alloc_size__ (1))) ; extern int posix_memalign (void __memptr, size_t __alignment, size_t __size) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))) ; extern void aligned_alloc (size_t __alignment, size_t __size) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__malloc__)) __attribute__ ((__alloc_size__ (2))) ; extern void abort (void) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__noreturn__)); extern int atexit (void (__func) (void)) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); extern int at_quick_exit (void (__func) (void)) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); extern int on_exit (void (__func) (int __status, void __arg), void __arg) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); extern void exit (int __status) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__noreturn__)); extern void quick_exit (int __status) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__noreturn__)); extern void _Exit (int __status) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__noreturn__)); extern char getenv (const char __name) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))) ; # 647 "/usr/include/stdlib.h" 3 4 extern int putenv (char __string) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); extern int setenv (const char __name, const char __value, int __replace) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (2))); extern int unsetenv (const char __name) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); extern int clearenv (void) __attribute__ ((__nothrow__ , __leaf__)); # 675 "/usr/include/stdlib.h" 3 4 extern char mktemp (char __template) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); # 688 "/usr/include/stdlib.h" 3 4 extern int mkstemp (char __template) __attribute__ ((__nonnull__ (1))) ; # 710 "/usr/include/stdlib.h" 3 4 extern int mkstemps (char __template, int __suffixlen) __attribute__ ((__nonnull__ (1))) ; # 731 "/usr/include/stdlib.h" 3 4 extern char mkdtemp (char __template) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))) ; # 784 "/usr/include/stdlib.h" 3 4 extern int system (const char __command) ; # 800 "/usr/include/stdlib.h" 3 4 extern char realpath (const char __restrict __name, char __restrict __resolved) __attribute__ ((__nothrow__ , __leaf__)) ; typedef int (__compar_fn_t) (const void , const void ); # 820 "/usr/include/stdlib.h" 3 4 extern void bsearch (const void __key, const void __base, size_t __nmemb, size_t __size, __compar_fn_t __compar) __attribute__ ((__nonnull__ (1, 2, 5))) ; extern void qsort (void __base, size_t __nmemb, size_t __size, __compar_fn_t __compar) __attribute__ ((__nonnull__ (1, 4))); # 840 "/usr/include/stdlib.h" 3 4 extern int abs (int __x) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__const__)) ; extern long int labs (long int __x) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__const__)) ; __extension__ extern long long int llabs (long long int __x) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__const__)) ; extern div_t div (int __numer, int __denom) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__const__)) ; extern ldiv_t ldiv (long int __numer, long int __denom) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__const__)) ; __extension__ extern lldiv_t lldiv (long long int __numer, long long int __denom) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__const__)) ; # 872 "/usr/include/stdlib.h" 3 4 extern char ecvt (double __value, int __ndigit, int __restrict __decpt, int __restrict __sign) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (3, 4))) ; extern char fcvt (double __value, int __ndigit, int __restrict __decpt, int __restrict __sign) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (3, 4))) ; extern char gcvt (double __value, int __ndigit, char __buf) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (3))) ; extern char qecvt (long double __value, int __ndigit, int __restrict __decpt, int __restrict __sign) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (3, 4))) ; extern char qfcvt (long double __value, int __ndigit, int __restrict __decpt, int __restrict __sign) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (3, 4))) ; extern char qgcvt (long double __value, int __ndigit, char __buf) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (3))) ; extern int ecvt_r (double __value, int __ndigit, int __restrict __decpt, int __restrict __sign, char __restrict __buf, size_t __len) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (3, 4, 5))); extern int fcvt_r (double __value, int __ndigit, int __restrict __decpt, int __restrict __sign, char __restrict __buf, size_t __len) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (3, 4, 5))); extern int qecvt_r (long double __value, int __ndigit, int __restrict __decpt, int __restrict __sign, char __restrict __buf, size_t __len) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (3, 4, 5))); extern int qfcvt_r (long double __value, int __ndigit, int __restrict __decpt, int __restrict __sign, char __restrict __buf, size_t __len) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (3, 4, 5))); extern int mblen (const char __s, size_t __n) __attribute__ ((__nothrow__ , __leaf__)); extern int mbtowc (wchar_t __restrict __pwc, const char __restrict __s, size_t __n) __attribute__ ((__nothrow__ , __leaf__)); extern int wctomb (char __s, wchar_t __wchar) __attribute__ ((__nothrow__ , __leaf__)); extern size_t mbstowcs (wchar_t __restrict __pwcs, const char __restrict __s, size_t __n) __attribute__ ((__nothrow__ , __leaf__)); extern size_t wcstombs (char __restrict __s, const wchar_t __restrict __pwcs, size_t __n) __attribute__ ((__nothrow__ , __leaf__)); extern int rpmatch (const char __response) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))) ; # 957 "/usr/include/stdlib.h" 3 4 extern int getsubopt (char __restrict __optionp, char const __restrict __tokens, char __restrict __valuep) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1, 2, 3))) ; # 1003 "/usr/include/stdlib.h" 3 4 extern int getloadavg (double __loadavg[], int __nelem) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); # 1013 "/usr/include/stdlib.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/stdlib-float.h" 1 3 4 # 1014 "/usr/include/stdlib.h" 2 3 4 # 1023 "/usr/include/stdlib.h" 3 4 # 18 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" 2 # 1 "/usr/include/assert.h" 1 3 4 # 66 "/usr/include/assert.h" 3 4 extern void __assert_fail (const char __assertion, const char __file, unsigned int __line, const char __function) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__noreturn__)); extern void __assert_perror_fail (int __errnum, const char __file, unsigned int __line, const char __function) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__noreturn__)); extern void __assert (const char __assertion, const char __file, int __line) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__noreturn__)); # 19 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" 2 # 1 "/usr/include/stdio.h" 1 3 4 # 27 "/usr/include/stdio.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/libc-header-start.h" 1 3 4 # 28 "/usr/include/stdio.h" 2 3 4 # 1 "/usr/lib/gcc/x86_64-linux-gnu/9/include/stddef.h" 1 3 4 # 34 "/usr/include/stdio.h" 2 3 4 # 1 "/usr/lib/gcc/x86_64-linux-gnu/9/include/stdarg.h" 1 3 4 # 40 "/usr/lib/gcc/x86_64-linux-gnu/9/include/stdarg.h" 3 4 typedef __builtin_va_list __gnuc_va_list; # 37 "/usr/include/stdio.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/types/__fpos_t.h" 1 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/types/__mbstate_t.h" 1 3 4 # 13 "/usr/include/x86_64-linux-gnu/bits/types/__mbstate_t.h" 3 4 typedef struct { int __count; union { unsigned int __wch; char __wchb[4]; } __value; } __mbstate_t; # 6 "/usr/include/x86_64-linux-gnu/bits/types/__fpos_t.h" 2 3 4 typedef struct _G_fpos_t { __off_t __pos; __mbstate_t __state; } __fpos_t; # 40 "/usr/include/stdio.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/types/__fpos64_t.h" 1 3 4 # 10 "/usr/include/x86_64-linux-gnu/bits/types/__fpos64_t.h" 3 4 typedef struct _G_fpos64_t { __off64_t __pos; __mbstate_t __state; } __fpos64_t; # 41 "/usr/include/stdio.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/types/__FILE.h" 1 3 4 struct _IO_FILE; typedef struct _IO_FILE __FILE; # 42 "/usr/include/stdio.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/types/FILE.h" 1 3 4 struct _IO_FILE; typedef struct _IO_FILE FILE; # 43 "/usr/include/stdio.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/types/struct_FILE.h" 1 3 4 # 35 "/usr/include/x86_64-linux-gnu/bits/types/struct_FILE.h" 3 4 struct _IO_FILE; struct _IO_marker; struct _IO_codecvt; struct _IO_wide_data; typedef void _IO_lock_t; struct _IO_FILE { int _flags; char _IO_read_ptr; char _IO_read_end; char _IO_read_base; char _IO_write_base; char _IO_write_ptr; char _IO_write_end; char _IO_buf_base; char _IO_buf_end; char _IO_save_base; char _IO_backup_base; char _IO_save_end; struct _IO_marker _markers; struct _IO_FILE _chain; int _fileno; int _flags2; __off_t _old_offset; unsigned short _cur_column; signed char _vtable_offset; char _shortbuf[1]; _IO_lock_t _lock; __off64_t _offset; struct _IO_codecvt _codecvt; struct _IO_wide_data _wide_data; struct _IO_FILE _freeres_list; void _freeres_buf; size_t __pad5; int _mode; char _unused2[15 * sizeof (int) - 4 * sizeof (void ) - sizeof (size_t)]; }; # 44 "/usr/include/stdio.h" 2 3 4 # 52 "/usr/include/stdio.h" 3 4 typedef __gnuc_va_list va_list; # 84 "/usr/include/stdio.h" 3 4 typedef __fpos_t fpos_t; # 133 "/usr/include/stdio.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/stdio_lim.h" 1 3 4 # 134 "/usr/include/stdio.h" 2 3 4 extern FILE stdin; extern FILE stdout; extern FILE stderr; extern int remove (const char __filename) __attribute__ ((__nothrow__ , __leaf__)); extern int rename (const char __old, const char __new) __attribute__ ((__nothrow__ , __leaf__)); extern int renameat (int __oldfd, const char __old, int __newfd, const char __new) __attribute__ ((__nothrow__ , __leaf__)); # 173 "/usr/include/stdio.h" 3 4 extern FILE tmpfile (void) ; # 187 "/usr/include/stdio.h" 3 4 extern char tmpnam (char __s) __attribute__ ((__nothrow__ , __leaf__)) ; extern char tmpnam_r (char __s) __attribute__ ((__nothrow__ , __leaf__)) ; # 204 "/usr/include/stdio.h" 3 4 extern char tempnam (const char __dir, const char __pfx) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__malloc__)) ; extern int fclose (FILE __stream); extern int fflush (FILE __stream); # 227 "/usr/include/stdio.h" 3 4 extern int fflush_unlocked (FILE __stream); # 246 "/usr/include/stdio.h" 3 4 extern FILE fopen (const char __restrict __filename, const char __restrict __modes) ; extern FILE freopen (const char __restrict __filename, const char __restrict __modes, FILE __restrict __stream) ; # 279 "/usr/include/stdio.h" 3 4 extern FILE fdopen (int __fd, const char __modes) __attribute__ ((__nothrow__ , __leaf__)) ; # 292 "/usr/include/stdio.h" 3 4 extern FILE fmemopen (void __s, size_t __len, const char __modes) __attribute__ ((__nothrow__ , __leaf__)) ; extern FILE open_memstream (char __bufloc, size_t __sizeloc) __attribute__ ((__nothrow__ , __leaf__)) ; extern void setbuf (FILE __restrict __stream, char __restrict __buf) __attribute__ ((__nothrow__ , __leaf__)); extern int setvbuf (FILE __restrict __stream, char __restrict __buf, int __modes, size_t __n) __attribute__ ((__nothrow__ , __leaf__)); extern void setbuffer (FILE __restrict __stream, char __restrict __buf, size_t __size) __attribute__ ((__nothrow__ , __leaf__)); extern void setlinebuf (FILE __stream) __attribute__ ((__nothrow__ , __leaf__)); extern int fprintf (FILE __restrict __stream, const char __restrict __format, ...); extern int printf (const char __restrict __format, ...); extern int sprintf (char __restrict __s, const char __restrict __format, ...) __attribute__ ((__nothrow__)); extern int vfprintf (FILE __restrict __s, const char __restrict __format, __gnuc_va_list __arg); extern int vprintf (const char __restrict __format, __gnuc_va_list __arg); extern int vsprintf (char __restrict __s, const char __restrict __format, __gnuc_va_list __arg) __attribute__ ((__nothrow__)); extern int snprintf (char __restrict __s, size_t __maxlen, const char __restrict __format, ...) __attribute__ ((__nothrow__)) __attribute__ ((__format__ (__printf__, 3, 4))); extern int vsnprintf (char __restrict __s, size_t __maxlen, const char __restrict __format, __gnuc_va_list __arg) __attribute__ ((__nothrow__)) __attribute__ ((__format__ (__printf__, 3, 0))); # 379 "/usr/include/stdio.h" 3 4 extern int vdprintf (int __fd, const char __restrict __fmt, __gnuc_va_list __arg) __attribute__ ((__format__ (__printf__, 2, 0))); extern int dprintf (int __fd, const char __restrict __fmt, ...) __attribute__ ((__format__ (__printf__, 2, 3))); extern int fscanf (FILE __restrict __stream, const char __restrict __format, ...) ; extern int scanf (const char __restrict __format, ...) ; extern int sscanf (const char __restrict __s, const char __restrict __format, ...) __attribute__ ((__nothrow__ , __leaf__)); extern int fscanf (FILE __restrict __stream, const char __restrict __format, ...) __asm__ ("" "__isoc99_fscanf") ; extern int scanf (const char __restrict __format, ...) __asm__ ("" "__isoc99_scanf") ; extern int sscanf (const char __restrict __s, const char __restrict __format, ...) __asm__ ("" "__isoc99_sscanf") __attribute__ ((__nothrow__ , __leaf__)) ; # 432 "/usr/include/stdio.h" 3 4 extern int vfscanf (FILE __restrict __s, const char __restrict __format, __gnuc_va_list __arg) __attribute__ ((__format__ (__scanf__, 2, 0))) ; extern int vscanf (const char __restrict __format, __gnuc_va_list __arg) __attribute__ ((__format__ (__scanf__, 1, 0))) ; extern int vsscanf (const char __restrict __s, const char __restrict __format, __gnuc_va_list __arg) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__format__ (__scanf__, 2, 0))); extern int vfscanf (FILE __restrict __s, const char __restrict __format, __gnuc_va_list __arg) __asm__ ("" "__isoc99_vfscanf") __attribute__ ((__format__ (__scanf__, 2, 0))) ; extern int vscanf (const char __restrict __format, __gnuc_va_list __arg) __asm__ ("" "__isoc99_vscanf") __attribute__ ((__format__ (__scanf__, 1, 0))) ; extern int vsscanf (const char __restrict __s, const char __restrict __format, __gnuc_va_list __arg) __asm__ ("" "__isoc99_vsscanf") __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__format__ (__scanf__, 2, 0))); # 485 "/usr/include/stdio.h" 3 4 extern int fgetc (FILE __stream); extern int getc (FILE __stream); extern int getchar (void); extern int getc_unlocked (FILE __stream); extern int getchar_unlocked (void); # 510 "/usr/include/stdio.h" 3 4 extern int fgetc_unlocked (FILE __stream); # 521 "/usr/include/stdio.h" 3 4 extern int fputc (int __c, FILE __stream); extern int putc (int __c, FILE __stream); extern int putchar (int __c); # 537 "/usr/include/stdio.h" 3 4 extern int fputc_unlocked (int __c, FILE __stream); extern int putc_unlocked (int __c, FILE __stream); extern int putchar_unlocked (int __c); extern int getw (FILE __stream); extern int putw (int __w, FILE __stream); extern char fgets (char __restrict __s, int __n, FILE __restrict __stream) ; # 603 "/usr/include/stdio.h" 3 4 extern __ssize_t __getdelim (char *__restrict __lineptr, size_t __restrict __n, int __delimiter, FILE __restrict __stream) ; extern __ssize_t getdelim (char __restrict __lineptr, size_t __restrict __n, int __delimiter, FILE __restrict __stream) ; extern __ssize_t getline (char __restrict __lineptr, size_t __restrict __n, FILE __restrict __stream) ; extern int fputs (const char __restrict __s, FILE __restrict __stream); extern int puts (const char __s); extern int ungetc (int __c, FILE __stream); extern size_t fread (void __restrict __ptr, size_t __size, size_t __n, FILE __restrict __stream) ; extern size_t fwrite (const void __restrict __ptr, size_t __size, size_t __n, FILE __restrict __s); # 673 "/usr/include/stdio.h" 3 4 extern size_t fread_unlocked (void __restrict __ptr, size_t __size, size_t __n, FILE __restrict __stream) ; extern size_t fwrite_unlocked (const void __restrict __ptr, size_t __size, size_t __n, FILE __restrict __stream); extern int fseek (FILE __stream, long int __off, int __whence); extern long int ftell (FILE __stream) ; extern void rewind (FILE __stream); # 707 "/usr/include/stdio.h" 3 4 extern int fseeko (FILE __stream, __off_t __off, int __whence); extern __off_t ftello (FILE __stream) ; # 731 "/usr/include/stdio.h" 3 4 extern int fgetpos (FILE __restrict __stream, fpos_t __restrict __pos); extern int fsetpos (FILE __stream, const fpos_t __pos); # 757 "/usr/include/stdio.h" 3 4 extern void clearerr (FILE __stream) __attribute__ ((__nothrow__ , __leaf__)); extern int feof (FILE __stream) __attribute__ ((__nothrow__ , __leaf__)) ; extern int ferror (FILE __stream) __attribute__ ((__nothrow__ , __leaf__)) ; extern void clearerr_unlocked (FILE __stream) __attribute__ ((__nothrow__ , __leaf__)); extern int feof_unlocked (FILE __stream) __attribute__ ((__nothrow__ , __leaf__)) ; extern int ferror_unlocked (FILE __stream) __attribute__ ((__nothrow__ , __leaf__)) ; extern void perror (const char __s); # 1 "/usr/include/x86_64-linux-gnu/bits/sys_errlist.h" 1 3 4 # 26 "/usr/include/x86_64-linux-gnu/bits/sys_errlist.h" 3 4 extern int sys_nerr; extern const char const sys_errlist[]; # 782 "/usr/include/stdio.h" 2 3 4 extern int fileno (FILE __stream) __attribute__ ((__nothrow__ , __leaf__)) ; extern int fileno_unlocked (FILE __stream) __attribute__ ((__nothrow__ , __leaf__)) ; # 800 "/usr/include/stdio.h" 3 4 extern FILE popen (const char __command, const char __modes) ; extern int pclose (FILE __stream); extern char ctermid (char __s) __attribute__ ((__nothrow__ , __leaf__)); # 840 "/usr/include/stdio.h" 3 4 extern void flockfile (FILE __stream) __attribute__ ((__nothrow__ , __leaf__)); extern int ftrylockfile (FILE __stream) __attribute__ ((__nothrow__ , __leaf__)) ; extern void funlockfile (FILE __stream) __attribute__ ((__nothrow__ , __leaf__)); # 858 "/usr/include/stdio.h" 3 4 extern int __uflow (FILE ); extern int __overflow (FILE , int); # 873 "/usr/include/stdio.h" 3 4 # 20 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" 2 # 21 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" void __DSVERIFIER_assume(_Bool expression){ __CPROVER_assume(expression); } void __DSVERIFIER_assert(_Bool expression){ # 36 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" 3 4 ((void) sizeof (( # 36 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" expression # 36 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 36 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" expression # 36 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" 3 4 ) ; else __assert_fail ( # 36 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" "expression" # 36 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h", 36, __extension__ __PRETTY_FUNCTION__); })) # 36 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" ; } void __DSVERIFIER_assert_msg(_Bool expression, char msg){ printf("%s", msg); # 41 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" 3 4 ((void) sizeof (( # 41 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" expression # 41 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 41 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" expression # 41 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" 3 4 ) ; else __assert_fail ( # 41 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" "expression" # 41 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h", 41, __extension__ __PRETTY_FUNCTION__); })) # 41 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" ; } # 22 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/fixed-point.h" 1 # 27 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/fixed-point.h" # 1 "/usr/lib/gcc/x86_64-linux-gnu/9/include/stdint.h" 1 3 4 # 9 "/usr/lib/gcc/x86_64-linux-gnu/9/include/stdint.h" 3 4 # 1 "/usr/include/stdint.h" 1 3 4 # 26 "/usr/include/stdint.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/libc-header-start.h" 1 3 4 # 27 "/usr/include/stdint.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/wchar.h" 1 3 4 # 29 "/usr/include/stdint.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/wordsize.h" 1 3 4 # 30 "/usr/include/stdint.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/stdint-uintn.h" 1 3 4 # 24 "/usr/include/x86_64-linux-gnu/bits/stdint-uintn.h" 3 4 # 24 "/usr/include/x86_64-linux-gnu/bits/stdint-uintn.h" 3 4 typedef __uint8_t uint8_t; typedef __uint16_t uint16_t; typedef __uint32_t uint32_t; typedef __uint64_t uint64_t; # 38 "/usr/include/stdint.h" 2 3 4 typedef __int_least8_t int_least8_t; typedef __int_least16_t int_least16_t; typedef __int_least32_t int_least32_t; typedef __int_least64_t int_least64_t; typedef __uint_least8_t uint_least8_t; typedef __uint_least16_t uint_least16_t; typedef __uint_least32_t uint_least32_t; typedef __uint_least64_t uint_least64_t; typedef signed char int_fast8_t; typedef long int int_fast16_t; typedef long int int_fast32_t; typedef long int int_fast64_t; # 71 "/usr/include/stdint.h" 3 4 typedef unsigned char uint_fast8_t; typedef unsigned long int uint_fast16_t; typedef unsigned long int uint_fast32_t; typedef unsigned long int uint_fast64_t; # 87 "/usr/include/stdint.h" 3 4 typedef long int intptr_t; typedef unsigned long int uintptr_t; # 101 "/usr/include/stdint.h" 3 4 typedef __intmax_t intmax_t; typedef __uintmax_t uintmax_t; # 10 "/usr/lib/gcc/x86_64-linux-gnu/9/include/stdint.h" 2 3 4 # 28 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/fixed-point.h" 2 # 1 "/usr/include/inttypes.h" 1 3 4 # 34 "/usr/include/inttypes.h" 3 4 typedef int __gwchar_t; # 266 "/usr/include/inttypes.h" 3 4 typedef struct { long int quot; long int rem; } imaxdiv_t; # 290 "/usr/include/inttypes.h" 3 4 extern intmax_t imaxabs (intmax_t __n) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__const__)); extern imaxdiv_t imaxdiv (intmax_t __numer, intmax_t __denom) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__const__)); extern intmax_t strtoimax (const char __restrict __nptr, char __restrict __endptr, int __base) __attribute__ ((__nothrow__ , __leaf__)); extern uintmax_t strtoumax (const char __restrict __nptr, char ** __restrict __endptr, int __base) __attribute__ ((__nothrow__ , __leaf__)); extern intmax_t wcstoimax (const __gwchar_t __restrict __nptr, __gwchar_t __restrict __endptr, int __base) __attribute__ ((__nothrow__ , __leaf__)); extern uintmax_t wcstoumax (const __gwchar_t __restrict __nptr, __gwchar_t ** __restrict __endptr, int __base) __attribute__ ((__nothrow__ , __leaf__)); # 432 "/usr/include/inttypes.h" 3 4 # 29 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/fixed-point.h" 2 # 30 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/fixed-point.h" extern implementation impl; typedef int64_t fxp_t; fxp_t _fxp_one; fxp_t _fxp_half; fxp_t _fxp_minus_one; fxp_t _fxp_min; fxp_t _fxp_max; double _dbl_max; double _dbl_min; fxp_t _fxp_fmask; fxp_t _fxp_imask; static const double scale_factor[31] = { 1.0, 2.0, 4.0, 8.0, 16.0, 32.0, 64.0, 128.0, 256.0, 512.0, 1024.0, 2048.0, 4096.0, 8192.0, 16384.0, 32768.0, 65536.0, 131072.0, 262144.0, 524288.0, 1048576.0, 2097152.0, 4194304.0, 8388608.0, 16777216.0, 33554432.0, 67108864.0, 134217728.0, 268435456.0, 536870912.0, 1073741824.0 }; static const double scale_factor_inv[31] = { 1.0, 0.5, 0.25, 0.125, 0.0625, 0.03125, 0.015625, 0.0078125, 0.00390625, 0.001953125, 0.0009765625, 0.00048828125, 0.000244140625, 0.0001220703125, 0.00006103515625, 0.000030517578125, 0.000015258789063, 0.000007629394531, 0.000003814697266, 0.000001907348633, 0.000000953674316, 0.000000476837158, 0.000000238418579, 0.000000119209290, 0.000000059604645, 0.000000029802322, 0.000000014901161, 0.000000007450581, 0.000000003725290, 0.000000001862645, 0.000000000931323 }; static const float rand_uni[10000] = { -0.486240329978498f, -0.0886462298529236f, -0.140307596103306f, 0.301096597450952f, 0.0993171079928659f, 0.971751769763271f, 0.985173975730828f, 0.555993645184930f, 0.582088652691427f, -0.153377496651175f, 0.383610009058905f, -0.335724126391271f, 0.978768141636516f, -0.276250018648572f, 0.390075705739569f, -0.179022404038782f, 0.690083827115783f, -0.872530132490992f, -0.970585763293203f, -0.581476053441704f, -0.532614615674888f, -0.239699306693312f, -0.678183014035494f, 0.349502640932782f, -0.210469890686263f, 0.841262085391842f, -0.473585465151401f, 0.659383565443701f, -0.651160036945754f, -0.961043527561335f, -0.0814927639199137f, 0.621303110569702f, -0.784529166943541f, 0.0238464770757800f, 0.392694728594110f, 0.776848735202001f, 0.0870059709310509f, 0.880563655271790f, 0.883457036977564f, -0.249235082877382f, -0.691040749216870f, 0.578731120064320f, -0.973932858000832f, -0.117699105431720f, -0.723831748151088f, -0.483149657477524f, -0.821277691383664f, -0.459725618100875f, 0.148175952221864f, 0.444306875534854f, -0.325610376336498f, 0.544142311404910f, -0.165319440455435f, 0.136706800705517f, 0.543312481350682f, 0.467210959764607f, -0.349266618228534f, -0.660110730565862f, 0.910332331495431f, 0.961049802789367f, -0.786168905164629f, 0.305648402726554f, 0.510815258508885f, 0.0950733260984060f, 0.173750645487898f, 0.144488668408672f, 0.0190031984466126f, -0.299194577636724f, 0.302411647442273f, -0.730462524226212f, 0.688646006554796f, 0.134948379722118f, 0.533716723458894f, -0.00226300779660438f, -0.561340777806718f, 0.450396313744017f, -0.569445876566955f, 0.954155246557698f, -0.255403882430676f, -0.759820984120828f, -0.855279790307514f, -0.147352581758156f, -0.302269055643746f, -0.642038024364086f, -0.367405981107491f, 0.491844011712164f, -0.542191710121194f, -0.938294043323732f, 0.683979894338020f, 0.294728290855287f, 0.00662691839443919f, -0.931040350582855f, 0.152356209974418f, 0.678620860551457f, -0.534989269238408f, 0.932096367913226f, -0.0361062818028513f, -0.847189697149530f, -0.975903030160255f, 0.623293205784014f, -0.661289688031659f, 0.724486055119603f, 0.307504095172835f, 0.00739266163731767f, -0.393681596442097f, 0.0313739422974388f, 0.0768157689673350f, -0.652063346886817f, 0.864188030044388f, -0.588932092781034f, 0.496015896758580f, -0.872858269231211f, 0.978780599551039f, -0.504887732991147f, -0.462378791937628f, 0.0141726829338038f, 0.769610007653591f, 0.945233033188923f, -0.782235375325016f, -0.832206533738799f, 0.745634368088673f, -0.696969510157151f, -0.0674631869948374f, -0.123186450806584f, -0.359158959141949f, -0.393882649464391f, 0.441371446689899f, -0.829394270569736f, -0.301502651277431f, -0.996215501187289f, 0.934634037393066f, -0.282431114746289f, -0.927550795619590f, -0.437037530043415f, -0.360426812995980f, 0.949549724575862f, 0.502784616197919f, 0.800771681422909f, -0.511398929004089f, 0.309288504642554f, -0.207261227890933f, 0.930587995125773f, -0.777029876696670f, -0.489329175755640f, -0.134595132329858f, 0.285771358983518f, 0.182331373854387f, -0.544110494560697f, 0.278439882883985f, -0.556325158102182f, 0.579043806545889f, 0.134648133801916f, 0.602850725479294f, -0.151663563868883f, 0.180694361855878f, -0.651591295315595f, 0.281129147768056f, -0.580047306475484f, 0.687883075491433f, 0.279398670804288f, -0.853428128249503f, -0.532609367372680f, -0.821156786377917f, -0.181273229058573f, -0.983898569846882f, -0.0964374318311501f, 0.880923372124250f, 0.102643371392389f, 0.893615387135596f, -0.259276649383649f, 0.699287743639363f, 0.402940604635828f, -0.110721596226581f, 0.0846246472582877f, 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range_size; } fxp_t fxp_get_int_part(fxp_t in) { return ((in < 0) ? -((-in) & _fxp_imask) : in & _fxp_imask); } fxp_t fxp_get_frac_part(fxp_t in) { return ((in < 0) ? -((-in) & _fxp_fmask) : in & _fxp_fmask); } float fxp_to_float(fxp_t fxp); fxp_t fxp_quantize(fxp_t aquant) { if (overflow_mode == 2) { if(aquant < _fxp_min) { return _fxp_min; } else if(aquant > _fxp_max) { return _fxp_max; } } else if (overflow_mode == 3) { if(aquant < _fxp_min \|\| aquant > _fxp_max) { return wrap(aquant, _fxp_min, _fxp_max); } } return (fxp_t) aquant; } void fxp_verify_overflow(fxp_t value){ fxp_quantize(value); printf("An Overflow Occurred in system's output"); __DSVERIFIER_assert(value <= _fxp_max && value >= _fxp_min); } void fxp_verify_overflow_node(fxp_t value, char* msg){ if (2 == 2) { printf("%s",msg); __DSVERIFIER_assert(value <= _fxp_max && value >= _fxp_min); } } void fxp_verify_overflow_array(fxp_t array[], int n){ int i=0; for(i=0; i<n;i++){ fxp_verify_overflow(array[i]); } } fxp_t fxp_int_to_fxp(int in) { fxp_t lin; lin = (fxp_t) in_fxp_one; return lin; } int fxp_to_int(fxp_t fxp) { if(fxp >= 0){ fxp += _fxp_half; } else { fxp -= _fxp_half; } fxp >>= impl.frac_bits; return (int) fxp; } fxp_t fxp_float_to_fxp(float f) { fxp_t tmp; double ftemp; ftemp = f scale_factor[impl.frac_bits]; if(f >= 0) { tmp = (fxp_t)(ftemp + 0.5); } else { tmp = (fxp_t)(ftemp - 0.5); } return tmp; } fxp_t fxp_double_to_fxp(double value) { fxp_t tmp; double ftemp = value * scale_factor[impl.frac_bits]; if (rounding_mode == 0){ if(value >= 0) { tmp = (fxp_t)(ftemp + 0.5); } else { tmp = (fxp_t)(ftemp - 0.5); } } else if(rounding_mode == 1){ tmp = (fxp_t) ftemp; double residue = ftemp - tmp; if ((value < 0) && (residue != 0)){ ftemp = ftemp - 1; tmp = (fxp_t) ftemp; } } else if (rounding_mode == 0){ tmp = (fxp_t) ftemp; } return tmp; } void fxp_float_to_fxp_array(float f[], fxp_t r[], int N) { int i; for(i = 0; i < N; ++i) { r[i] = fxp_float_to_fxp(f[i]); } } void fxp_double_to_fxp_array(double f[], fxp_t r[], int N) { int i; for(i = 0; i < N; ++i) { r[i] = fxp_double_to_fxp(f[i]); } } # 275 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/fixed-point.h" float fxp_to_float(fxp_t fxp) { float f; int f_int = (int) fxp; f = f_int * scale_factor_inv[impl.frac_bits]; return f; } double fxp_to_double(fxp_t fxp) { double f; int f_int = (int) fxp; f = f_int * scale_factor_inv[impl.frac_bits]; return f; } void fxp_to_float_array(float f[], fxp_t r[], int N) { int i; for(i = 0; i < N; ++i) { f[i] = fxp_to_float(r[i]); } } void fxp_to_double_array(double f[], fxp_t r[], int N) { int i; for(i = 0; i < N; ++i) { f[i] = fxp_to_double(r[i]); } } fxp_t fxp_abs(fxp_t a) { fxp_t tmp; tmp = ((a < 0) ? -(fxp_t)(a) : a); tmp = fxp_quantize(tmp); return tmp; } fxp_t fxp_add(fxp_t aadd, fxp_t badd) { fxp_t tmpadd; tmpadd = ((fxp_t)(aadd) + (fxp_t)(badd)); tmpadd = fxp_quantize(tmpadd); return tmpadd; } fxp_t fxp_sub(fxp_t asub, fxp_t bsub) { fxp_t tmpsub; tmpsub = (fxp_t)((fxp_t)(asub) - (fxp_t)(bsub)); tmpsub = fxp_quantize(tmpsub); return tmpsub; } fxp_t fxp_mult(fxp_t amult, fxp_t bmult) { fxp_t tmpmult, tmpmultprec; tmpmult = (fxp_t)((fxp_t)(amult)(fxp_t)(bmult)); if (tmpmult >= 0) { tmpmultprec = (tmpmult + ((tmpmult & 1 << (impl.frac_bits - 1)) << 1)) >> impl.frac_bits; } else { tmpmultprec = -(((-tmpmult) + (((-tmpmult) & 1 << (impl.frac_bits - 1)) << 1)) >> impl.frac_bits); } tmpmultprec = fxp_quantize(tmpmultprec); return tmpmultprec; } # 372 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/fixed-point.h" fxp_t fxp_div(fxp_t a, fxp_t b){ __DSVERIFIER_assume( b!=0 ); fxp_t tmpdiv = ((a << impl.frac_bits) / b); tmpdiv = fxp_quantize(tmpdiv); return tmpdiv; } fxp_t fxp_neg(fxp_t aneg) { fxp_t tmpneg; tmpneg = -(fxp_t)(aneg); tmpneg = fxp_quantize(tmpneg); return tmpneg; } # 398 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/fixed-point.h" fxp_t fxp_sign(fxp_t a) { return ((a == 0) ? 0 : ((a < 0) ? _fxp_minus_one : _fxp_one) ); } fxp_t fxp_shrl(fxp_t in, int shift) { return (fxp_t) (((unsigned int) in) >> shift); } fxp_t fxp_square(fxp_t a) { return fxp_mult(a, a); } void fxp_print_int(fxp_t a) { printf("\n%i", (int32_t)a); } void fxp_print_float(fxp_t a) { printf("\n%f", fxp_to_float(a)); } void fxp_print_float_array(fxp_t a[], int N) { int i; for(i = 0; i < N; ++i) { printf("\n%f", fxp_to_float(a[i])); } } void print_fxp_array_elements(char name, fxp_t * v, int n){ printf("%s = {", name); int i; for(i=0; i < n; i++){ printf(" %jd ", v[i]); } printf("}\n"); } # 23 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/util.h" 1 # 24 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/util.h" void initialize_array(double v[], int n){ int i; for(i=0; i<n; i++){ v[i] = 0; } } void revert_array(double v[], double out[], int n){ initialize_array(out,n); int i; for(i=0; i<n; i++){ out[i] = v[n-i-1]; } } double internal_pow(double a, double b){ int i; double acc = 1; for (i=0; i < b; i++){ acc = acca; } return acc; } double internal_abs(double a){ return a < 0 ? -a : a; } int fatorial(int n){ return n == 0 ? 1 : n fatorial(n-1); } int check_stability(double a[], int n){ int lines = 2 * n - 1; int columns = n; double m[lines][n]; int i,j; double current_stability[n]; for (i=0; i < n; i++){ current_stability[i] = a[i]; } double sum = 0; for (i=0; i < n; i++){ sum += a[i]; } if (sum <= 0){ printf("[DEBUG] the first constraint of Jury criteria failed: (F(1) > 0)"); return 0; } sum = 0; for (i=0; i < n; i++){ sum += a[i] * internal_pow(-1, n-1-i); } sum = sum * internal_pow(-1, n-1); if (sum <= 0){ printf("[DEBUG] the second constraint of Jury criteria failed: (F(-1)(-1)^n > 0)"); return 0; } if (internal_abs(a[n-1]) > a[0]){ printf("[DEBUG] the third constraint of Jury criteria failed: (abs(a0) < a_{n}z^{n})"); return 0; } for (i=0; i < lines; i++){ for (j=0; j < columns; j++){ m[i][j] = 0; } } for (i=0; i < lines; i++){ for (j=0; j < columns; j++){ if (i == 0){ m[i][j] = a[j]; continue; } if (i % 2 != 0 ){ int x; for(x=0; x<columns;x++){ m[i][x] = m[i-1][columns-x-1]; } columns = columns - 1; j = columns; }else{ m[i][j] = m[i-2][j] - (m[i-2][columns] / m[i-2][0]) * m[i-1][j]; } } } int first_is_positive = m[0][0] >= 0 ? 1 : 0; for (i=0; i < lines; i++){ if (i % 2 == 0){ int line_is_positive = m[i][0] >= 0 ? 1 : 0; if (first_is_positive != line_is_positive){ return 0; } continue; } } return 1; } void poly_sum(double a[], int Na, double b[], int Nb, double ans[], int Nans){ int i; Nans = Na>Nb? Na:Nb; for (i=0; i<Nans; i++){ if (Na>Nb){ ans[i]=a[i]; if (i > Na-Nb-1){ ans[i]=ans[i]+b[i-Na+Nb]; } }else { ans[i]=b[i]; if (i> Nb - Na -1){ ans[i]=ans[i]+a[i-Nb+Na]; } } } } void poly_mult(double a[], int Na, double b[], int Nb, double ans[], int Nans){ int i; int j; int k; Nans = Na+Nb-1; for (i=0; i<Na; i++){ for (j=0; j<Nb; j++){ k= Na + Nb - i - j - 2; ans[k]=0; } } for (i=0; i<Na; i++){ for (j=0; j<Nb; j++){ k= Na + Nb - i - j - 2; ans[k]=ans[k]+a[Na - i - 1]b[Nb - j - 1]; } } } void double_check_oscillations(double y, int y_size){ __DSVERIFIER_assume(y[0] != y[y_size - 1]); int window_timer = 0; int window_count = 0; int i, j; for (i = 2; i < y_size; i++){ int window_size = i; for(j=0; j<y_size; j++){ if (window_timer > window_size){ window_timer = 0; window_count = 0; } int window_index = j + window_size; if (window_index < y_size){ if (y[j] == y[window_index]){ window_count++; # 209 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/util.h" 3 4 ((void) sizeof (( # 209 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/util.h" !(window_count == window_size) # 209 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/util.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 209 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/util.h" !(window_count == window_size) # 209 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/util.h" 3 4 ) ; else __assert_fail ( # 209 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/util.h" "!(window_count == window_size)" # 209 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/util.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/util.h", 209, __extension__ __PRETTY_FUNCTION__); })) # 209 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/util.h" ; } }else{ break; } window_timer++; } } } void double_check_limit_cycle(double * y, int y_size){ double reference = y[y_size - 1]; int idx = 0; int window_size = 1; for(idx = (y_size-2); idx >= 0; idx--){ if (y[idx] != reference){ window_size++; }else{ break; } } __DSVERIFIER_assume(window_size != y_size && window_size != 1); printf("window_size %d\n", window_size); int desired_elements = 2 * window_size; int found_elements = 0; for(idx = (y_size-1); idx >= 0; idx--){ if (idx > (y_size-window_size-1)){ printf("%.0f == %.0f\n", y[idx], y[idx-window_size]); int cmp_idx = idx - window_size; if ((cmp_idx > 0) && (y[idx] == y[idx-window_size])){ found_elements = found_elements + 2; }else{ break; } } } printf("desired_elements %d\n", desired_elements); printf("found_elements %d\n", found_elements); __DSVERIFIER_assert(desired_elements != found_elements); } void double_check_persistent_limit_cycle(double * y, int y_size){ int idy = 0; int count_same = 0; int window_size = 0; double reference = y[0]; for(idy = 0; idy < y_size; idy++){ if (y[idy] != reference){ window_size++; } else if (window_size != 0){ break; } else { count_same++; } } window_size += count_same; __DSVERIFIER_assume(window_size > 1 && window_size <= y_size/2); double lco_elements[window_size]; for(idy = 0; idy < y_size; idy++){ if (idy < window_size){ lco_elements[idy] = y[idy]; } } idy = 0; int lco_idy = 0; _Bool is_persistent = 0; while (idy < y_size){ if(y[idy++] == lco_elements[lco_idy++]){ is_persistent = 1; }else{ is_persistent = 0; break; } if (lco_idy == window_size){ lco_idy = 0; } } __DSVERIFIER_assert(is_persistent == 0); } void print_array_elements(char * name, double * v, int n){ printf("%s = {", name); int i; for(i=0; i < n; i++){ printf(" %.32f ", v[i]); } printf("}\n"); } void double_add_matrix( unsigned int lines, unsigned int columns, double m1[4][4], double m2[4][4], double result[4][4]){ unsigned int i, j; for (i = 0; i < lines; i++){ for (j = 0; j < columns; j++){ result[i][j] = m1[i][j] + m2[i][j]; } } } void double_sub_matrix( unsigned int lines, unsigned int columns, double m1[4][4], double m2[4][4], double result[4][4]){ unsigned int i, j; for (i = 0; i < lines; i++){ for (j = 0; j < columns; j++){ result[i][j] = m1[i][j] - m2[i][j]; } } } void double_matrix_multiplication( unsigned int i1, unsigned int j1, unsigned int i2, unsigned int j2, double m1[4][4], double m2[4][4], double m3[4][4]){ unsigned int i, j, k; if (j1 == i2) { for (i=0; i<i1; i++) { for (j=0; j<j2; j++) { m3[i][j] = 0; } } for (i=0;i<i1; i++) { for (j=0; j<j2; j++) { for (k=0; k<j1; k++) { double mult = (m1[i][k] * m2[k][j]); m3[i][j] = m3[i][j] + (m1[i][k] * m2[k][j]); } } } } else { printf("\nError! Operation invalid, please enter with valid matrices.\n"); } } void fxp_matrix_multiplication( unsigned int i1, unsigned int j1, unsigned int i2, unsigned int j2, fxp_t m1[4][4], fxp_t m2[4][4], fxp_t m3[4][4]){ unsigned int i, j, k; if (j1 == i2) { for (i=0; i<i1; i++) { for (j=0; j<j2; j++) { m3[i][j] = 0; } } for (i=0;i<i1; i++) { for (j=0; j<j2; j++) { for (k=0; k<j1; k++) { m3[i][j] = fxp_add( m3[i][j], fxp_mult(m1[i][k] , m2[k][j])); } } } } else { printf("\nError! Operation invalid, please enter with valid matrices.\n"); } } void fxp_exp_matrix(unsigned int lines, unsigned int columns, fxp_t m1[4][4], unsigned int expNumber, fxp_t result[4][4]){ unsigned int i, j, l, k; fxp_t m2[4][4]; if(expNumber == 0){ for (i = 0; i < lines; i++){ for (j = 0; j < columns; j++){ if(i == j){ result[i][j] = fxp_double_to_fxp(1.0); } else { result[i][j] = 0.0; } } } return; } for (i = 0; i < lines; i++) for (j = 0; j < columns; j++) result[i][j] = m1[i][j]; if(expNumber == 1){ return; } for(l = 1; l < expNumber; l++){ for (i = 0; i < lines; i++) for (j = 0; j < columns; j++) m2[i][j] = result[i][j]; for (i = 0; i < lines; i++) for (j = 0; j < columns; j++) result[i][j] = 0; for (i=0;i<lines; i++) { for (j=0; j<columns; j++) { for (k=0; k<columns; k++) { result[i][j] = fxp_add( result[i][j], fxp_mult(m2[i][k] , m1[k][j])); } } } } } void double_exp_matrix(unsigned int lines, unsigned int columns, double m1[4][4], unsigned int expNumber, double result[4][4]){ unsigned int i, j, k, l; double m2[4][4]; if(expNumber == 0){ for (i = 0; i < lines; i++){ for (j = 0; j < columns; j++){ if(i == j){ result[i][j] = 1.0; } else { result[i][j] = 0.0; } } } return; } for (i = 0; i < lines; i++) for (j = 0; j < columns; j++) result[i][j] = m1[i][j]; if(expNumber == 1){ return; } for(l = 1; l < expNumber; l++){ for (i = 0; i < lines; i++) for (j = 0; j < columns; j++) m2[i][j] = result[i][j]; for (i = 0; i < lines; i++) for (j = 0; j < columns; j++) result[i][j] = 0; for (i=0;i<lines; i++) { for (j=0; j<columns; j++) { for (k=0; k<columns; k++) { result[i][j] = result[i][j] + (m2[i][k] * m1[k][j]); } } } } } void fxp_add_matrix( unsigned int lines, unsigned int columns, fxp_t m1[4][4], fxp_t m2[4][4], fxp_t result[4][4]){ unsigned int i, j; for (i = 0; i < lines; i++) for (j = 0; j < columns; j++) { result[i][j] = fxp_add(m1[i][j] , m2[i][j]); } } void fxp_sub_matrix( unsigned int lines, unsigned int columns, fxp_t m1[4][4], fxp_t m2[4][4], fxp_t result[4][4]){ unsigned int i, j; for (i = 0; i < lines; i++) for (j = 0; j < columns; j++) result[i][j] = fxp_sub(m1[i][j] , m2[i][j]); } void print_matrix(double matrix[4][4], unsigned int lines, unsigned int columns){ printf("\nMatrix\n=====================\n\n"); unsigned int i, j; for (i=0; i<lines; i++) { for (j=0; j<columns; j++) { printf("#matrix[%d][%d]: %2.2f ", i,j,matrix[i][j]); } printf("\n"); } printf("\n"); } double determinant(double a[4][4],int n) { int i,j,j1,j2; double det = 0; double m[4][4]; if (n < 1) { } else if (n == 1) { det = a[0][0]; } else if (n == 2) { det = a[0][0] * a[1][1] - a[1][0] * a[0][1]; } else { det = 0; for (j1=0;j1<n;j1++) { for (i=0;i<n-1;i++) for (i=1;i<n;i++) { j2 = 0; for (j=0;j<n;j++) { if (j == j1) continue; m[i-1][j2] = a[i][j]; j2++; } } det += internal_pow(-1.0,1.0+j1+1.0) * a[0][j1] * determinant(m,n-1); } } return(det); } double fxp_determinant(fxp_t a_fxp[4][4],int n) { int i,j,j1,j2; double a[4][4]; for(i=0; i<n;i++){ for(j=0; j<n;j++){ a[i][j]= fxp_to_double(a_fxp[i][j]); } } double det = 0; double m[4][4]; if (n < 1) { } else if (n == 1) { det = a[0][0]; } else if (n == 2) { det = a[0][0] * a[1][1] - a[1][0] * a[0][1]; } else { det = 0; for (j1=0;j1<n;j1++) { for (i=0;i<n-1;i++) for (i=1;i<n;i++) { j2 = 0; for (j=0;j<n;j++) { if (j == j1) continue; m[i-1][j2] = a[i][j]; j2++; } } det += internal_pow(-1.0,1.0+j1+1.0) * a[0][j1] * determinant(m,n-1); } } return(det); } void transpose(double a[4][4], double b[4][4],int n, int m) { int i,j; for (i=0;i<n;i++) { for (j=0;j<m;j++) { b[j][i] = a[i][j]; } } } void fxp_transpose(fxp_t a[4][4], fxp_t b[4][4],int n, int m) { int i,j; for (i=0;i<n;i++) { for (j=0;j<m;j++) { b[j][i] = a[i][j]; } } } # 24 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 1 # 19 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" extern int generic_timer; extern hardware hw; double generic_timing_shift_l_double(double zIn, double z[], int N) { generic_timer += ((2 * hw.assembly.push) + (3 * hw.assembly.in) + (3 * hw.assembly.out) + (1 * hw.assembly.sbiw) + (1 * hw.assembly.cli) + (8 * hw.assembly.std)); int i; double zOut; zOut = z[0]; generic_timer += ((5 * hw.assembly.ldd) + (2 * hw.assembly.mov) + (4 * hw.assembly.std) + (1 * hw.assembly.ld)); generic_timer += ((2 * hw.assembly.std) + (1 * hw.assembly.rjmp)); for (i = 0; i < N - 1; i++) { generic_timer += ((17 * hw.assembly.ldd) + (4 * hw.assembly.lsl) + (4 * hw.assembly.rol) + (2 * hw.assembly.add) + (2 * hw.assembly.adc) + (6 * hw.assembly.mov) + (2 * hw.assembly.adiw) + (5 * hw.assembly.std) + (1 * hw.assembly.ld) + (1 * hw.assembly.st) + (1 * hw.assembly.subi) + (1 * hw.assembly.sbc)+ (1 * hw.assembly.cp) + (1 * hw.assembly.cpc) + (1 * hw.assembly.brlt)); z[i] = z[i + 1]; } z[N - 1] = zIn; generic_timer += ((12 * hw.assembly.ldd) + (6 * hw.assembly.mov) + (3 * hw.assembly.std) + (2 * hw.assembly.lsl) + (2 * hw.assembly.rol) + (1 * hw.assembly.adc) + (1 * hw.assembly.add) + (1 * hw.assembly.subi) + (1 * hw.assembly.sbci) + (1 * hw.assembly.st) + (1 * hw.assembly.adiw) + (1 * hw.assembly.in)+ (1 * hw.assembly.cli)); generic_timer += ((3 * hw.assembly.out) + (2 * hw.assembly.pop) + (1 * hw.assembly.ret)); return (zOut); } double generic_timing_shift_r_double(double zIn, double z[], int N) { generic_timer += ((2 * hw.assembly.push) + (3 * hw.assembly.in) + (3 * hw.assembly.out) + (1 * hw.assembly.sbiw) + (1 * hw.assembly.cli) + (8 * hw.assembly.std)); int i; double zOut; zOut = z[N - 1]; generic_timer += ((7 * hw.assembly.ldd) + (2 * hw.assembly.rol) + (2 * hw.assembly.lsl) + (2 * hw.assembly.mov) + (4 * hw.assembly.std) + (1 * hw.assembly.add) + (1 * hw.assembly.adc) + (1 * hw.assembly.ld) + (1 * hw.assembly.subi) + (1 * hw.assembly.sbci)); generic_timer += ((2 * hw.assembly.ldd) + (2 * hw.assembly.std) + (1 * hw.assembly.sbiw) + (1 * hw.assembly.rjmp)); for (i = N - 1; i > 0; i--) { z[i] = z[i - 1]; generic_timer += ((15 * hw.assembly.ldd) + (4 * hw.assembly.lsl) + (4 * hw.assembly.rol) + (2 * hw.assembly.add) + (2 * hw.assembly.adc) + (4 * hw.assembly.mov) + (5 * hw.assembly.std) + (1 * hw.assembly.subi) + (1 * hw.assembly.sbci) + (1 * hw.assembly.ld) + (1 * hw.assembly.st) + (1 * hw.assembly.sbiw) + (1 * hw.assembly.cp) + (1 * hw.assembly.cpc) + (1 * hw.assembly.brlt)); } z[0] = zIn; generic_timer += ((10 * hw.assembly.ldd) + (5 * hw.assembly.mov) + (3 * hw.assembly.std) + (3 * hw.assembly.out) + (2 * hw.assembly.pop) + (1 * hw.assembly.ret) + (1 * hw.assembly.ret) + (1 * hw.assembly.cli) + (1 * hw.assembly.in) + (1 * hw.assembly.st) + (1 * hw.assembly.adiw)); return zOut; } fxp_t shiftL(fxp_t zIn, fxp_t z[], int N) { int i; fxp_t zOut; zOut = z[0]; for (i = 0; i < N - 1; i++) { z[i] = z[i + 1]; } z[N - 1] = zIn; return (zOut); } fxp_t shiftR(fxp_t zIn, fxp_t z[], int N) { int i; fxp_t zOut; zOut = z[N - 1]; for (i = N - 1; i > 0; i--) { z[i] = z[i - 1]; } z[0] = zIn; return zOut; } float shiftLfloat(float zIn, float z[], int N) { int i; float zOut; zOut = z[0]; for (i = 0; i < N - 1; i++) { z[i] = z[i + 1]; } z[N - 1] = zIn; return (zOut); } float shiftRfloat(float zIn, float z[], int N) { int i; float zOut; zOut = z[N - 1]; for (i = N - 1; i > 0; i--) { z[i] = z[i - 1]; } z[0] = zIn; return zOut; } double shiftRDdouble(double zIn, double z[], int N) { int i; double zOut; zOut = z[0]; for (i = 0; i < N - 1; i++) { z[i] = z[i + 1]; } z[N - 1] = zIn; return (zOut); } double shiftRdouble(double zIn, double z[], int N) { int i; double zOut; zOut = z[N - 1]; for (i = N - 1; i > 0; i--) { z[i] = z[i - 1]; } z[0] = zIn; return zOut; } double shiftLDouble(double zIn, double z[], int N) { int i; double zOut; zOut = z[0]; for (i = 0; i < N - 1; i++) { z[i] = z[i + 1]; } z[N - 1] = zIn; return (zOut); } void shiftLboth(float zfIn, float zf[], fxp_t zIn, fxp_t z[], int N) { int i; fxp_t zOut; float zfOut; zOut = z[0]; zfOut = zf[0]; for (i = 0; i < N - 1; i++) { z[i] = z[i + 1]; zf[i] = zf[i + 1]; } z[N - 1] = zIn; zf[N - 1] = zfIn; } void shiftRboth(float zfIn, float zf[], fxp_t zIn, fxp_t z[], int N) { int i; fxp_t zOut; float zfOut; zOut = z[N - 1]; zfOut = zf[N - 1]; for (i = N - 1; i > 0; i--) { z[i] = z[i - 1]; zf[i] = zf[i - 1]; } z[0] = zIn; zf[0] = zfIn; } int order(int Na, int Nb) { return Na > Nb ? Na - 1 : Nb - 1; } void fxp_check_limit_cycle(fxp_t y[], int y_size){ fxp_t reference = y[y_size - 1]; int idx = 0; int window_size = 1; for(idx = (y_size-2); idx >= 0; idx--){ if (y[idx] != reference){ window_size++; }else{ break; } } __DSVERIFIER_assume(window_size != y_size && window_size != 1); printf("window_size %d\n", window_size); int desired_elements = 2 * window_size; int found_elements = 0; for(idx = (y_size-1); idx >= 0; idx--){ if (idx > (y_size-window_size-1)){ printf("%.0f == %.0f\n", y[idx], y[idx-window_size]); int cmp_idx = idx - window_size; if ((cmp_idx > 0) && (y[idx] == y[idx-window_size])){ found_elements = found_elements + 2; }else{ break; } } } __DSVERIFIER_assume(found_elements > 0); printf("desired_elements %d\n", desired_elements); printf("found_elements %d\n", found_elements); __DSVERIFIER_assume(found_elements == desired_elements); __DSVERIFIER_assert(0); } void fxp_check_persistent_limit_cycle(fxp_t * y, int y_size){ int idy = 0; int count_same = 0; int window_size = 0; fxp_t reference = y[0]; for(idy = 0; idy < y_size; idy++){ if (y[idy] != reference){ window_size++; } else if (window_size != 0){ break; } else { count_same++; } } window_size += count_same; __DSVERIFIER_assume(window_size > 1 && window_size <= y_size/2); fxp_t lco_elements[window_size]; for(idy = 0; idy < y_size; idy++){ if (idy < window_size){ lco_elements[idy] = y[idy]; } } idy = 0; int lco_idy = 0; _Bool is_persistent = 0; while (idy < y_size){ if(y[idy++] == lco_elements[lco_idy++]){ is_persistent = 1; }else{ is_persistent = 0; break; } if (lco_idy == window_size){ lco_idy = 0; } } __DSVERIFIER_assert(is_persistent == 0); } void fxp_check_oscillations(fxp_t y[] , int y_size){ __DSVERIFIER_assume((y[0] != y[y_size - 1]) && (y[y_size - 1] != y[y_size - 2])); int window_timer = 0; int window_count = 0; int i, j; for (i = 2; i < y_size; i++){ int window_size = i; for(j=0; j<y_size; j++){ if (window_timer > window_size){ window_timer = 0; window_count = 0; } int window_index = j + window_size; if (window_index < y_size){ if (y[j] == y[window_index]){ window_count++; __DSVERIFIER_assert(!(window_count == window_size)); } }else{ break; } window_timer++; } } } int fxp_ln(int x) { int t, y; y = 0xa65af; if (x < 0x00008000) x <<= 16, y -= 0xb1721; if (x < 0x00800000) x <<= 8, y -= 0x58b91; if (x < 0x08000000) x <<= 4, y -= 0x2c5c8; if (x < 0x20000000) x <<= 2, y -= 0x162e4; if (x < 0x40000000) x <<= 1, y -= 0x0b172; t = x + (x >> 1); if ((t & 0x80000000) == 0) x = t, y -= 0x067cd; t = x + (x >> 2); if ((t & 0x80000000) == 0) x = t, y -= 0x03920; t = x + (x >> 3); if ((t & 0x80000000) == 0) x = t, y -= 0x01e27; t = x + (x >> 4); if ((t & 0x80000000) == 0) x = t, y -= 0x00f85; t = x + (x >> 5); if ((t & 0x80000000) == 0) x = t, y -= 0x007e1; t = x + (x >> 6); if ((t & 0x80000000) == 0) x = t, y -= 0x003f8; t = x + (x >> 7); if ((t & 0x80000000) == 0) x = t, y -= 0x001fe; x = 0x80000000 - x; y -= x >> 15; return y; } double fxp_log10_low(double x) { int xint = (int) (x * 65536.0 + 0.5); int lnum = fxp_ln(xint); int lden = fxp_ln(655360); return ((double) lnum / (double) lden); } double fxp_log10(double x) { if (x > 32767.0) { if (x > 1073676289.0) { x = x / 1073676289.0; return fxp_log10_low(x) + 9.030873362; } x = x / 32767.0; return fxp_log10_low(x) + 4.515436681; } return fxp_log10_low(x); } float snrVariance(float s[], float n[], int blksz) { int i; double sm = 0, nm = 0, sv = 0, nv = 0, snr; for (i = 0; i < blksz; i++) { sm += s[i]; nm += n[i]; } sm /= blksz; nm /= blksz; for (i = 0; i < blksz; i++) { sv += (s[i] - sm) * (s[i] - sm); nv += (n[i] - nm) * (n[i] - nm); } if (nv != 0.0f) { # 373 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ((void) sizeof (( # 373 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" sv >= nv # 373 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 373 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" sv >= nv # 373 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ) ; else __assert_fail ( # 373 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" "sv >= nv" # 373 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h", 373, __extension__ __PRETTY_FUNCTION__); })) # 373 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" ; snr = sv / nv; return snr; } else { return 9999.9f; } } float snrPower(float s[], float n[], int blksz) { int i; double sv = 0, nv = 0, snr; for (i = 0; i < blksz; i++) { sv += s[i] * s[i]; nv += n[i] * n[i]; } if (nv != 0.0f) { # 394 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ((void) sizeof (( # 394 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" sv >= nv # 394 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 394 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" sv >= nv # 394 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ) ; else __assert_fail ( # 394 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" "sv >= nv" # 394 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h", 394, __extension__ __PRETTY_FUNCTION__); })) # 394 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" ; snr = sv / nv; return snr; } else { return 9999.9f; } } float snrPoint(float s[], float n[], int blksz) { int i; double ratio = 0, power = 0; for (i = 0; i < blksz; i++) { if(n[i] == 0) continue; ratio = s[i] / n[i]; if(ratio > 150.0f \|\| ratio < -150.0f) continue; power = ratio * ratio; # 412 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ((void) sizeof (( # 412 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" power >= 1.0f # 412 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 412 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" power >= 1.0f # 412 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ) ; else __assert_fail ( # 412 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" "power >= 1.0f" # 412 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h", 412, __extension__ __PRETTY_FUNCTION__); })) # 412 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" ; } return 9999.9f; } unsigned long next = 1; int rand(void) { next = next1103515245 + 12345; return (unsigned int)(next/65536) % 32768; } void srand(unsigned int seed) { next = seed; } float iirIIOutTime(float w[], float x, float a[], float b[], int Na, int Nb) { int timer1 = 0; float a_ptr, b_ptr, w_ptr; float sum = 0; a_ptr = &a[1]; b_ptr = &b[0]; w_ptr = &w[1]; int k, j; timer1 += 71; for (j = 1; j < Na; j++) { w[0] -= a_ptr++ w_ptr++; timer1 += 54; } w[0] += x; w_ptr = &w[0]; for (k = 0; k < Nb; k++) { sum += b_ptr++ * w_ptr++; timer1 += 46; } timer1 += 38; # 450 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ((void) sizeof (( # 450 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" (double)timer11 / 16000000 <= (double)1 / 100 # 450 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 450 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" (double)timer11 / 16000000 <= (double)1 / 100 # 450 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ) ; else __assert_fail ( # 450 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" "(double)timer1CYCLE <= (double)DEADLINE" # 450 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h", 450, __extension__ __PRETTY_FUNCTION__); })) # 450 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" ; return sum; } float iirIItOutTime(float w[], float x, float a[], float b[], int Na, int Nb) { int timer1 = 0; float a_ptr, b_ptr; float yout = 0; a_ptr = &a[1]; b_ptr = &b[0]; int Nw = Na > Nb ? Na : Nb; yout = (b_ptr++ x) + w[0]; int j; timer1 += 105; for (j = 0; j < Nw - 1; j++) { w[j] = w[j + 1]; if (j < Na - 1) { w[j] -= a_ptr++ yout; timer1 += 41; } if (j < Nb - 1) { w[j] += b_ptr++ x; timer1 += 38; } timer1 += 54; } timer1 += 7; # 477 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ((void) sizeof (( # 477 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" (double)timer11 / 16000000 <= (double)1 / 100 # 477 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 477 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" (double)timer11 / 16000000 <= (double)1 / 100 # 477 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ) ; else __assert_fail ( # 477 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" "(double)timer1CYCLE <= (double)DEADLINE" # 477 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h", 477, __extension__ __PRETTY_FUNCTION__); })) # 477 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" ; return yout; } double iirIItOutTime_double(double w[], double x, double a[], double b[], int Na, int Nb) { int timer1 = 0; double a_ptr, b_ptr; double yout = 0; a_ptr = &a[1]; b_ptr = &b[0]; int Nw = Na > Nb ? Na : Nb; yout = (b_ptr++ * x) + w[0]; int j; timer1 += 105; for (j = 0; j < Nw - 1; j++) { w[j] = w[j + 1]; if (j < Na - 1) { w[j] -= a_ptr++ yout; timer1 += 41; } if (j < Nb - 1) { w[j] += b_ptr++ x; timer1 += 38; } timer1 += 54; } timer1 += 7; # 504 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ((void) sizeof (( # 504 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" (double)timer11 / 16000000 <= (double)1 / 100 # 504 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 504 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" (double)timer11 / 16000000 <= (double)1 / 100 # 504 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ) ; else __assert_fail ( # 504 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" "(double)timer1CYCLE <= (double)DEADLINE" # 504 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h", 504, __extension__ __PRETTY_FUNCTION__); })) # 504 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" ; return yout; } void iirOutBoth(float yf[], float xf[], float af[], float bf[], float sumf_ref, fxp_t y[], fxp_t x[], fxp_t a[], fxp_t b[], fxp_t sum_ref, int Na, int Nb) { fxp_t a_ptr, y_ptr, b_ptr, x_ptr; float af_ptr, yf_ptr, bf_ptr, xf_ptr; fxp_t sum = 0; float sumf = 0; a_ptr = &a[1]; y_ptr = &y[Na - 1]; b_ptr = &b[0]; x_ptr = &x[Nb - 1]; af_ptr = &af[1]; yf_ptr = &yf[Na - 1]; bf_ptr = &bf[0]; xf_ptr = &xf[Nb - 1]; int i, j; for (i = 0; i < Nb; i++) { sum = fxp_add(sum, fxp_mult(b_ptr++, x_ptr--)); sumf += bf_ptr++ * xf_ptr--; } for (j = 1; j < Na; j++) { sum = fxp_sub(sum, fxp_mult(a_ptr++, y_ptr--)); sumf -= af_ptr++ * yf_ptr--; } sum_ref = sum; sumf_ref = sumf; } fxp_t iirOutFixedL(fxp_t y[], fxp_t x[], fxp_t xin, fxp_t a[], fxp_t b[], int Na, int Nb) { fxp_t a_ptr, y_ptr, b_ptr, x_ptr; fxp_t sum = 0; a_ptr = &a[Na - 1]; y_ptr = &y[1]; b_ptr = &b[Nb - 1]; x_ptr = &x[0]; int i, j; for (i = 0; i < Nb - 1; i++) { x[i] = x[i+1]; sum = fxp_add(sum, fxp_mult(b_ptr--, x_ptr++)); } x[Nb - 1] = xin; sum = fxp_add(sum, fxp_mult(b_ptr--, x_ptr++)); for (j = 1; j < Na - 1; j++) { sum = fxp_sub(sum, fxp_mult(a_ptr--, y_ptr++)); y[j] = y[j+1]; } if(Na>1) sum = fxp_sub(sum, fxp_mult(a_ptr--, y_ptr++)); y[Na - 1] = sum; return sum; } float iirOutFloatL(float y[], float x[], float xin, float a[], float b[], int Na, int Nb) { float a_ptr, y_ptr, b_ptr, x_ptr; float sum = 0; a_ptr = &a[Na - 1]; y_ptr = &y[1]; b_ptr = &b[Nb - 1]; x_ptr = &x[0]; int i, j; for (i = 0; i < Nb - 1; i++) { x[i] = x[i+1]; sum += b_ptr-- * x_ptr++; } x[Nb - 1] = xin; sum += b_ptr-- * x_ptr++; for (j = 1; j < Na - 1; j++) { sum -= a_ptr-- * y_ptr++; y[j] = y[j+1]; } if(Na>1) sum -= a_ptr-- * y_ptr++; y[Na - 1] = sum; return sum; } float iirOutBothL(float yf[], float xf[], float af[], float bf[], float xfin, fxp_t y[], fxp_t x[], fxp_t a[], fxp_t b[], fxp_t xin, int Na, int Nb) { fxp_t a_ptr, y_ptr, b_ptr, x_ptr; fxp_t sum = 0; a_ptr = &a[Na - 1]; y_ptr = &y[1]; b_ptr = &b[Nb - 1]; x_ptr = &x[0]; float af_ptr, yf_ptr, bf_ptr, xf_ptr; float sumf = 0; af_ptr = &af[Na - 1]; yf_ptr = &yf[1]; bf_ptr = &bf[Nb - 1]; xf_ptr = &xf[0]; int i, j; for (i = 0; i < Nb - 1; i++) { x[i] = x[i+1]; sum = fxp_add(sum, fxp_mult(b_ptr--, x_ptr++)); xf[i] = xf[i+1]; sumf += bf_ptr-- * xf_ptr++; } x[Nb - 1] = xin; sum = fxp_add(sum, fxp_mult(b_ptr--, x_ptr++)); xf[Nb - 1] = xfin; sumf += bf_ptr-- * xf_ptr++; for (j = 1; j < Na - 1; j++) { sum = fxp_sub(sum, fxp_mult(a_ptr--, y_ptr++)); y[j] = y[j+1]; sumf -= af_ptr-- * yf_ptr++; yf[j] = yf[j+1]; } if(Na>1) sum = fxp_sub(sum, fxp_mult(a_ptr--, y_ptr++)); y[Na - 1] = sum; if(Na>1) sumf -= af_ptr-- * yf_ptr++; yf[Na - 1] = sumf; return fxp_to_float(sum) - sumf; } float iirOutBothL2(float yf[], float xf[], float af[], float bf[], float xfin, fxp_t y[], fxp_t x[], fxp_t a[], fxp_t b[], fxp_t xin, int Na, int Nb) { fxp_t a_ptr, y_ptr, b_ptr, x_ptr; fxp_t sum = 0; a_ptr = &a[Na - 1]; y_ptr = &y[1]; b_ptr = &b[Nb - 1]; x_ptr = &x[0]; float af_ptr, yf_ptr, bf_ptr, xf_ptr; float sumf = 0; af_ptr = &af[Na - 1]; yf_ptr = &yf[1]; bf_ptr = &bf[Nb - 1]; xf_ptr = &xf[0]; int i=0, j=1; for (i = 0; i < Nb - 1; i++) { x[i] = x[i+1]; sum = fxp_add(sum, fxp_mult(b[Nb - 1 - i], x[i])); xf[i] = xf[i+1]; sumf += bf[Nb - 1 - i] xf[i]; } x[Nb - 1] = xin; sum = fxp_add(sum, fxp_mult(b[Nb - 1 - i], x[i])); xf[Nb - 1] = xfin; sumf += bf[Nb - 1 - i] * xf[i]; for (j = 1; j < Na - 1; j++) { sum = fxp_sub(sum, fxp_mult(a[Na - j], y[j])); y[j] = y[j+1]; sumf -= af[Na - j] * yf[j]; yf[j] = yf[j+1]; } if(Na>1) sum = fxp_sub(sum, fxp_mult(a[Na - j], y[j])); y[Na - 1] = sum; if(Na>1) sumf -= af[Na - j] * yf[j]; yf[Na - 1] = sumf; return fxp_to_float(sum) - sumf; } # 25 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" 1 # 19 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" extern digital_system ds; extern hardware hw; extern int generic_timer; fxp_t fxp_direct_form_1(fxp_t y[], fxp_t x[], fxp_t a[], fxp_t b[], int Na, int Nb) { fxp_t a_ptr, y_ptr, b_ptr, x_ptr; fxp_t sum = 0; a_ptr = &a[1]; y_ptr = &y[Na - 1]; b_ptr = &b[0]; x_ptr = &x[Nb - 1]; int i, j; for (i = 0; i < Nb; i++) { sum = fxp_add(sum, fxp_mult(b_ptr++, x_ptr--)); } for (j = 1; j < Na; j++) { sum = fxp_sub(sum, fxp_mult(a_ptr++, y_ptr--)); } fxp_verify_overflow_node(sum, "An Overflow Occurred in the node a0"); sum = fxp_div(sum,a[0]); return fxp_quantize(sum); } fxp_t fxp_direct_form_2(fxp_t w[], fxp_t x, fxp_t a[], fxp_t b[], int Na, int Nb) { fxp_t a_ptr, b_ptr, w_ptr; fxp_t sum = 0; a_ptr = &a[1]; b_ptr = &b[0]; w_ptr = &w[1]; int k, j; for (j = 1; j < Na; j++) { w[0] = fxp_sub(w[0], fxp_mult(a_ptr++, w_ptr++)); } w[0] = fxp_add(w[0], x); w[0] = fxp_div(w[0], a[0]); fxp_verify_overflow_node(w[0], "An Overflow Occurred in the node b0"); w_ptr = &w[0]; for (k = 0; k < Nb; k++) { sum = fxp_add(sum, fxp_mult(b_ptr++, w_ptr++)); } return fxp_quantize(sum); } fxp_t fxp_transposed_direct_form_2(fxp_t w[], fxp_t x, fxp_t a[], fxp_t b[], int Na, int Nb) { fxp_t a_ptr, b_ptr; fxp_t yout = 0; a_ptr = &a[1]; b_ptr = &b[0]; int Nw = Na > Nb ? Na : Nb; yout = fxp_add(fxp_mult(b_ptr++, x), w[0]); yout = fxp_div(yout, a[0]); int j; for (j = 0; j < Nw - 1; j++) { w[j] = w[j + 1]; if (j < Na - 1) { w[j] = fxp_sub(w[j], fxp_mult(a_ptr++, yout)); } if (j < Nb - 1) { w[j] = fxp_add(w[j], fxp_mult(b_ptr++, x)); } } fxp_verify_overflow_node(w[j], "An Overflow Occurred in the node a0"); return fxp_quantize(yout); } double double_direct_form_1(double y[], double x[], double a[], double b[], int Na, int Nb) { double a_ptr, y_ptr, b_ptr, x_ptr; double sum = 0; a_ptr = &a[1]; y_ptr = &y[Na - 1]; b_ptr = &b[0]; x_ptr = &x[Nb - 1]; int i, j; for (i = 0; i < Nb; i++) { sum += b_ptr++ x_ptr--; } for (j = 1; j < Na; j++) { sum -= a_ptr++ * y_ptr--; } sum = (sum / a[0]); return sum; } double double_direct_form_2(double w[], double x, double a[], double b[], int Na, int Nb) { double a_ptr, b_ptr, w_ptr; double sum = 0; a_ptr = &a[1]; b_ptr = &b[0]; w_ptr = &w[1]; int k, j; for (j = 1; j < Na; j++) { w[0] -= a_ptr++ w_ptr++; } w[0] += x; w[0] = w[0] / a[0]; w_ptr = &w[0]; for (k = 0; k < Nb; k++) { sum += b_ptr++ * w_ptr++; } return sum; } double double_transposed_direct_form_2(double w[], double x, double a[], double b[], int Na, int Nb) { double a_ptr, b_ptr; double yout = 0; a_ptr = &a[1]; b_ptr = &b[0]; int Nw = Na > Nb ? Na : Nb; yout = (b_ptr++ * x) + w[0]; yout = yout / a[0]; int j; for (j = 0; j < Nw - 1; j++) { w[j] = w[j + 1]; if (j < Na - 1) { w[j] -= a_ptr++ yout; } if (j < Nb - 1) { w[j] += b_ptr++ x; } } return yout; } float float_direct_form_1(float y[], float x[], float a[], float b[], int Na, int Nb) { float a_ptr, y_ptr, b_ptr, x_ptr; float sum = 0; a_ptr = &a[1]; y_ptr = &y[Na - 1]; b_ptr = &b[0]; x_ptr = &x[Nb - 1]; int i, j; for (i = 0; i < Nb; i++) { sum += b_ptr++ x_ptr--; } for (j = 1; j < Na; j++) { sum -= a_ptr++ * y_ptr--; } sum = (sum / a[0]); return sum; } float float_direct_form_2(float w[], float x, float a[], float b[], int Na, int Nb) { float a_ptr, b_ptr, w_ptr; float sum = 0; a_ptr = &a[1]; b_ptr = &b[0]; w_ptr = &w[1]; int k, j; for (j = 1; j < Na; j++) { w[0] -= a_ptr++ w_ptr++; } w[0] += x; w[0] = w[0] / a[0]; w_ptr = &w[0]; for (k = 0; k < Nb; k++) { sum += b_ptr++ * w_ptr++; } return sum; } float float_transposed_direct_form_2(float w[], float x, float a[], float b[], int Na, int Nb) { float a_ptr, b_ptr; float yout = 0; a_ptr = &a[1]; b_ptr = &b[0]; int Nw = Na > Nb ? Na : Nb; yout = (b_ptr++ * x) + w[0]; yout = yout / a[0]; int j; for (j = 0; j < Nw - 1; j++) { w[j] = w[j + 1]; if (j < Na - 1) { w[j] -= a_ptr++ yout; } if (j < Nb - 1) { w[j] += b_ptr++ x; } } return yout; } double double_direct_form_1_MSP430(double y[], double x[], double a[], double b[], int Na, int Nb){ int timer1 = 0; double a_ptr, y_ptr, b_ptr, x_ptr; double sum = 0; a_ptr = &a[1]; y_ptr = &y[Na-1]; b_ptr = &b[0]; x_ptr = &x[Nb-1]; int i, j; timer1 += 91; for (i = 0; i < Nb; i++){ sum += b_ptr++ x_ptr--; timer1 += 47; } for (j = 1; j < Na; j++){ sum -= a_ptr++ * y_ptr--; timer1 += 57; } timer1 += 3; # 235 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" 3 4 ((void) sizeof (( # 235 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" (double) timer1 hw.cycle <= ds.sample_time # 235 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 235 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" (double) timer1 * hw.cycle <= ds.sample_time # 235 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" 3 4 ) ; else __assert_fail ( # 235 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" "(double) timer1 * hw.cycle <= ds.sample_time" # 235 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h", 235, __extension__ __PRETTY_FUNCTION__); })) # 235 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" ; return sum; } double double_direct_form_2_MSP430(double w[], double x, double a[], double b[], int Na, int Nb) { int timer1 = 0; double a_ptr, b_ptr, w_ptr; double sum = 0; a_ptr = &a[1]; b_ptr = &b[0]; w_ptr = &w[1]; int k, j; timer1 += 71; for (j = 1; j < Na; j++) { w[0] -= a_ptr++ * w_ptr++; timer1 += 54; } w[0] += x; w[0] = w[0] / a[0]; w_ptr = &w[0]; for (k = 0; k < Nb; k++) { sum += b_ptr++ * w_ptr++; timer1 += 46; } timer1 += 38; # 262 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" 3 4 ((void) sizeof (( # 262 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" (double) timer1 hw.cycle <= ds.sample_time # 262 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 262 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" (double) timer1 * hw.cycle <= ds.sample_time # 262 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" 3 4 ) ; else __assert_fail ( # 262 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" "(double) timer1 * hw.cycle <= ds.sample_time" # 262 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h", 262, __extension__ __PRETTY_FUNCTION__); })) # 262 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" ; return sum; } double double_transposed_direct_form_2_MSP430(double w[], double x, double a[], double b[], int Na, int Nb) { int timer1 = 0; double a_ptr, b_ptr; double yout = 0; a_ptr = &a[1]; b_ptr = &b[0]; int Nw = Na > Nb ? Na : Nb; yout = (b_ptr++ x) + w[0]; int j; timer1 += 105; for (j = 0; j < Nw - 1; j++) { w[j] = w[j + 1]; if (j < Na - 1) { w[j] -= a_ptr++ yout; timer1 += 41; } if (j < Nb - 1) { w[j] += b_ptr++ x; timer1 += 38; } timer1 += 54; } timer1 += 7; # 291 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" 3 4 ((void) sizeof (( # 291 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" (double) timer1 * hw.cycle <= ds.sample_time # 291 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 291 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" (double) timer1 * hw.cycle <= ds.sample_time # 291 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" 3 4 ) ; else __assert_fail ( # 291 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" "(double) timer1 * hw.cycle <= ds.sample_time" # 291 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h", 291, __extension__ __PRETTY_FUNCTION__); })) # 291 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" ; return yout; } double generic_timing_double_direct_form_1(double y[], double x[], double a[], double b[], int Na, int Nb){ generic_timer += ((6 * hw.assembly.push) + (3 * hw.assembly.in) + (1 * hw.assembly.sbiw) + (1 * hw.assembly.cli) + (3 * hw.assembly.out) + (12 * hw.assembly.std)); double a_ptr, y_ptr, b_ptr, x_ptr; double sum = 0; a_ptr = &a[1]; y_ptr = &y[Na-1]; b_ptr = &b[0]; x_ptr = &x[Nb-1]; generic_timer += ((12 * hw.assembly.std) + (12 * hw.assembly.ldd) + (2 * hw.assembly.subi) + (2 * hw.assembly.sbci) + (4 * hw.assembly.lsl) + (4 * hw.assembly.rol) + (2 * hw.assembly.add) + (2 * hw.assembly.adc) + (1 * hw.assembly.adiw)); int i, j; generic_timer += ((2 * hw.assembly.std) + (1 * hw.assembly.rjmp)); for (i = 0; i < Nb; i++){ generic_timer += ((20 * hw.assembly.ldd) + (24 * hw.assembly.mov) + (2 * hw.assembly.subi) + (1 * hw.assembly.sbci) + (1 * hw.assembly.sbc) + (10 * hw.assembly.std) + (2 * hw.assembly.ld) + (2 * hw.assembly.rcall) + (1 * hw.assembly.adiw) + (1 * hw.assembly.cp) + (1 * hw.assembly.cpc) + (1 * hw.assembly.adiw) + (1 * hw.assembly.brge) + (1 * hw.assembly.rjmp)); sum += b_ptr++ x_ptr--; } generic_timer += ((2 hw.assembly.ldi) + (2 * hw.assembly.std) + (1 * hw.assembly.rjmp)); for (j = 1; j < Na; j++){ generic_timer += ((22 * hw.assembly.ldd) + (24 * hw.assembly.mov) + (2 * hw.assembly.subi) + (8 * hw.assembly.std) + (1 * hw.assembly.sbci) + (2 * hw.assembly.ld) + (2 * hw.assembly.rcall) + (1 * hw.assembly.sbc) + (1 * hw.assembly.adiw) + (1 * hw.assembly.cp) + (1 * hw.assembly.cpc) + (1 * hw.assembly.adiw) + (1 * hw.assembly.brge) + (1 * hw.assembly.rjmp)); sum -= a_ptr++ y_ptr--; } generic_timer += ((4 hw.assembly.ldd) + (4 * hw.assembly.mov) + (1 * hw.assembly.adiw) + (1 * hw.assembly.in) + (1 * hw.assembly.cli) + (3 * hw.assembly.out) + (6 * hw.assembly.pop) + (1 * hw.assembly.ret)); return sum; } double generic_timing_double_direct_form_2(double w[], double x, double a[], double b[], int Na, int Nb) { generic_timer += ((8 * hw.assembly.push) + (14 * hw.assembly.std) + (3 * hw.assembly.out) + (3 * hw.assembly.in) + (1 * hw.assembly.sbiw) + (1 * hw.assembly.cli)); double a_ptr, b_ptr, w_ptr; double sum = 0; a_ptr = &a[1]; b_ptr = &b[0]; w_ptr = &w[1]; int k, j; generic_timer += ((10 hw.assembly.std) + (6 * hw.assembly.ldd) + (2 * hw.assembly.adiw)); generic_timer += ((2 * hw.assembly.ldi) + (2 * hw.assembly.std) + (1 * hw.assembly.rjmp)); for (j = 1; j < Na; j++) { w[0] -= a_ptr++ w_ptr++; generic_timer += ((23 hw.assembly.ldd) + (32 * hw.assembly.mov) + (9 * hw.assembly.std) + (2 * hw.assembly.subi) + (3 * hw.assembly.ld) + (2 * hw.assembly.rcall) + (2 * hw.assembly.sbci) + (1 * hw.assembly.st) + (1 * hw.assembly.adiw) + (1 * hw.assembly.cp) + (1 * hw.assembly.cpc) + (1 * hw.assembly.brge)); } w[0] += x; w_ptr = &w[0]; generic_timer += ((13 * hw.assembly.ldd) + (12 * hw.assembly.mov) + (5 * hw.assembly.std) + (1 * hw.assembly.st) + (1 * hw.assembly.ld) + (1 * hw.assembly.rcall)); generic_timer += ((2 * hw.assembly.std) + (1 * hw.assembly.rjmp)); for (k = 0; k < Nb; k++) { sum += b_ptr++ w_ptr++; generic_timer += ((20 hw.assembly.ldd) + (24 * hw.assembly.mov) + (10 * hw.assembly.std) + (2 * hw.assembly.rcall) + (2 * hw.assembly.ld) + (2 * hw.assembly.subi) + (2 * hw.assembly.sbci) + (1 * hw.assembly.adiw) + (1 * hw.assembly.cp) + (1 * hw.assembly.cpc) + (1 * hw.assembly.brge) + (1 * hw.assembly.rjmp)); } generic_timer += ((4 * hw.assembly.ldd) + (4 * hw.assembly.mov) + (1 * hw.assembly.adiw) + (1 * hw.assembly.in) + (1 * hw.assembly.cli) + (3 * hw.assembly.out) + (8 * hw.assembly.pop) + (1 * hw.assembly.ret)); return sum; } double generic_timing_double_transposed_direct_form_2(double w[], double x, double a[], double b[], int Na, int Nb) { generic_timer += ((8 * hw.assembly.push) + (14 * hw.assembly.std) + (3 * hw.assembly.out) + (3 * hw.assembly.in) + (1 * hw.assembly.sbiw) + (1 * hw.assembly.cli)); double a_ptr, b_ptr; double yout = 0; a_ptr = &a[1]; b_ptr = &b[0]; int Nw = Na > Nb ? Na : Nb; yout = (b_ptr++ x) + w[0]; int j; generic_timer += ((15 * hw.assembly.std) + (22 * hw.assembly.ldd) + (24 * hw.assembly.mov) + (2 * hw.assembly.rcall) + (2 * hw.assembly.ld) + (1 * hw.assembly.cp) + (1 * hw.assembly.cpc) + (1 * hw.assembly.subi) + (1 * hw.assembly.sbci) + (1 * hw.assembly.brge) + (1 * hw.assembly.adiw)); generic_timer += ((2 * hw.assembly.std) + (1 * hw.assembly.rjmp)); for (j = 0; j < Nw - 1; j++) { w[j] = w[j + 1]; if (j < Na - 1) { w[j] -= a_ptr++ yout; } if (j < Nb - 1) { w[j] += b_ptr++ x; } generic_timer += ((70 * hw.assembly.mov) + (65 * hw.assembly.ldd) + (12 * hw.assembly.lsl) + (12 * hw.assembly.rol) + (15 * hw.assembly.std) + (6 * hw.assembly.add) + (6 * hw.assembly.adc) + (2 * hw.assembly.adiw) + (3 * hw.assembly.cpc) + (3 * hw.assembly.cp) + (5 * hw.assembly.ld) + (4 * hw.assembly.rcall) + (5 * hw.assembly.subi) + (3 * hw.assembly.rjmp) + (2 * hw.assembly.brlt) + (3 * hw.assembly.st) + (2 * hw.assembly.sbci) + (3 * hw.assembly.sbc) + (1 * hw.assembly.brge)); } generic_timer += ((4 * hw.assembly.ldd) + (4 * hw.assembly.mov) + (8 * hw.assembly.pop) + (3 * hw.assembly.out) + (1 * hw.assembly.in) + (1 * hw.assembly.cli) + (1 * hw.assembly.adiw) + (1 * hw.assembly.ret)); return yout; } void double_direct_form_1_impl2(double x[], int x_size, double b[], int b_size, double a[], int a_size, double y[]){ int i = 0; int j = 0; double v[x_size]; for(i = 0; i < x_size; i++){ v[i] = 0; for(j = 0; j < b_size; j++){ if (j > i) break; v[i] = v[i] + x[i-j] * b[j]; } } y[0] = v[0]; for(i = 1; i < x_size; i++){ y[i] = 0; y[i] = y[i] + v[i]; for(j = 1; j < a_size; j++){ if (j > i) break; y[i] = y[i] + y[i-j] * ((-1) * a[j]); } } } void fxp_direct_form_1_impl2(fxp_t x[], int x_size, fxp_t b[], int b_size, fxp_t a[], int a_size, fxp_t y[]){ int i = 0; int j = 0; fxp_t v[x_size]; for(i = 0; i < x_size; i++){ v[i] = 0; for(j = 0; j < b_size; j++){ if (j > i) break; v[i] = fxp_add(v[i], fxp_mult(x[i-j], b[j])); } } y[0] = v[0]; for(i = 1; i < x_size; i++){ y[i] = 0; y[i] = fxp_add(y[i], v[i]); for(j = 1; j < a_size; j++){ if (j > i) break; y[i] = fxp_add(y[i], fxp_mult(y[i-j] , -a[j])); } } } # 26 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/delta-operator.h" 1 # 19 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/delta-operator.h" # 1 "/usr/include/assert.h" 1 3 4 # 20 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/delta-operator.h" 2 # 1 "/usr/include/assert.h" 1 3 4 # 23 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/delta-operator.h" 2 int nchoosek(int n, int k){ if (k == 0) return 1; return (n * nchoosek(n - 1, k - 1)) / k; } void generate_delta_coefficients(double vetor[], double out[], int n, double delta){ int i,j; int N = n - 1; double sum_delta_operator; for(i=0; i<=N; i++) { sum_delta_operator = 0; for(j=0; j<=i; j++) { sum_delta_operator = sum_delta_operator + vetor[j]nchoosek(N-j,i-j); } out[i] = internal_pow(delta,N-i)sum_delta_operator; } } void get_delta_transfer_function(double b[], double b_out[], int b_size, double a[], double a_out[], int a_size, double delta){ generate_delta_coefficients(b, b_out, b_size, delta); generate_delta_coefficients(a, a_out, a_size, delta); } void get_delta_transfer_function_with_base(double b[], double b_out[], int b_size, double a[], double a_out[], int a_size, double delta){ int i,j; int N = a_size - 1; int M = b_size - 1; double sum_delta_operator; for(i=0; i<=N; i++) { sum_delta_operator = 0; for(j=0; j<=i; j++) { sum_delta_operator = sum_delta_operator + a[j]nchoosek(N-j,i-j); } a_out[i] = internal_pow(delta,N-i)sum_delta_operator; } for(i=0; i<=M; i++) { sum_delta_operator = 0; for(j=0; j<=i; j++) { sum_delta_operator = sum_delta_operator + b[j]nchoosek(M-j,i-j); } b_out[i] = internal_pow(delta,M-i)sum_delta_operator; } } # 27 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/closed-loop.h" 1 # 28 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/closed-loop.h" void ft_closedloop_series(double c_num[], int Nc_num, double c_den[], int Nc_den, double model_num[], int Nmodel_num, double model_den[], int Nmodel_den, double ans_num[], int Nans_num, double ans_den[], int Nans_den){ Nans_num = Nc_num + Nmodel_num - 1; Nans_den = Nc_den + Nmodel_den - 1 ; double den_mult [Nans_den]; poly_mult(c_num, Nc_num, model_num, Nmodel_num, ans_num, Nans_num); poly_mult(c_den, Nc_den, model_den, Nmodel_den, den_mult, Nans_den ); poly_sum(ans_num, Nans_num , den_mult, Nans_den , ans_den, Nans_den); } void ft_closedloop_sensitivity(double c_num[], int Nc_num, double c_den[], int Nc_den, double model_num[], int Nmodel_num, double model_den[], int Nmodel_den, double ans_num[], int Nans_num, double ans_den[], int Nans_den){ int Nans_num_p = Nc_num + Nmodel_num-1; Nans_den = Nc_den + Nmodel_den-1; Nans_num = Nc_den + Nmodel_den-1; double num_mult [Nans_num_p]; poly_mult(c_den, Nc_den, model_den, Nmodel_den, ans_num, Nans_num); poly_mult(c_num, Nc_num, model_num, Nmodel_num, num_mult, Nans_num_p); poly_sum(ans_num, Nans_num, num_mult, Nans_num_p, ans_den, Nans_den); } void ft_closedloop_feedback(double c_num[], int Nc_num, double c_den[], int Nc_den, double model_num[], int Nmodel_num, double model_den[], int Nmodel_den, double ans_num[], int Nans_num, double ans_den[], int Nans_den){ Nans_num = Nc_den + Nmodel_num - 1; Nans_den = Nc_den + Nmodel_den - 1; int Nnum_mult = Nc_num + Nmodel_num - 1; double den_mult [Nans_den]; double num_mult [Nnum_mult]; poly_mult(c_num, Nc_num, model_num, Nmodel_num, num_mult, Nnum_mult); poly_mult(c_den, Nc_den, model_den, Nmodel_den, den_mult, Nans_den); poly_sum(num_mult, Nnum_mult, den_mult, Nans_den, ans_den, Nans_den); poly_mult(c_den, Nc_den, model_num, Nmodel_num, ans_num, Nans_num); } int check_stability_closedloop(double a[], int n, double plant_num[], int p_num_size, double plant_den[], int p_den_size){ int columns = n; double m[2 * n - 1][n]; int i,j; int first_is_positive = 0; double * p_num = plant_num; double * p_den = plant_den; double sum = 0; for (i=0; i < n; i++){ sum += a[i]; } __DSVERIFIER_assert(sum > 0); sum = 0; for (i=0; i < n; i++){ sum += a[i] * internal_pow(-1, n-1-i); } sum = sum * internal_pow(-1, n-1); __DSVERIFIER_assert(sum > 0); __DSVERIFIER_assert(internal_abs(a[n-1]) < a[0]); for (i=0; i < 2 * n - 1; i++){ for (j=0; j < columns; j++){ m[i][j] = 0; if (i == 0){ m[i][j] = a[j]; continue; } if (i % 2 != 0 ){ int x; for(x=0; x<columns;x++){ m[i][x] = m[i-1][columns-x-1]; } columns = columns - 1; j = columns; }else{ __DSVERIFIER_assert(m[i-2][0] > 0); m[i][j] = m[i-2][j] - (m[i-2][columns] / m[i-2][0]) * m[i-1][j]; __DSVERIFIER_assert((m[0][0] >= 0) && (m[i][0] >= 0)); } } } return 1; } # 28 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/initialization.h" 1 # 17 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/initialization.h" extern digital_system ds; extern digital_system plant; extern digital_system control; extern implementation impl; extern filter_parameters filter; extern hardware hw; void initialization(){ if (impl.frac_bits >= 32){ printf("impl.frac_bits must be less than word width!\n"); } if (impl.int_bits >= 32 - impl.frac_bits){ printf("impl.int_bits must be less than word width subtracted by precision!\n"); # 33 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/initialization.h" 3 4 ((void) sizeof (( # 33 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/initialization.h" 0 # 33 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/initialization.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 33 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/initialization.h" 0 # 33 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/initialization.h" 3 4 ) ; else __assert_fail ( # 33 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/initialization.h" "0" # 33 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/initialization.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/initialization.h", 33, __extension__ __PRETTY_FUNCTION__); })) # 33 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/initialization.h" ; } if(impl.frac_bits >= 31){ _fxp_one = 0x7fffffff; }else{ _fxp_one = (0x00000001 << impl.frac_bits); } _fxp_half = (0x00000001 << (impl.frac_bits - 1)); _fxp_minus_one = -(0x00000001 << impl.frac_bits); _fxp_min = -(0x00000001 << (impl.frac_bits + impl.int_bits - 1)); _fxp_max = (0x00000001 << (impl.frac_bits + impl.int_bits - 1)) - 1; _fxp_fmask = ((((int32_t) 1) << impl.frac_bits) - 1); _fxp_imask = ((0x80000000) >> (32 - impl.frac_bits - 1)); _dbl_min = _fxp_min; _dbl_min /= (1 << impl.frac_bits); _dbl_max = _fxp_max; _dbl_max /= (1 << impl.frac_bits); if ((impl.scale == 0) \|\| (impl.scale == 1)){ impl.scale = 1; return; } if (impl.min != 0){ impl.min = impl.min / impl.scale; } if (impl.max != 0){ impl.max = impl.max / impl.scale; } # 80 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/initialization.h" } # 29 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/state-space.h" 1 # 19 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/state-space.h" extern digital_system_state_space _controller; extern int nStates; extern int nInputs; extern int nOutputs; double double_state_space_representation(void){ double result1[4][4]; double result2[4][4]; int i, j; for(i=0; i<4;i++){ for(j=0; j<4;j++){ result1[i][j]=0; result2[i][j]=0; } } double_matrix_multiplication(nOutputs,nStates,nStates,1,_controller.C,_controller.states,result1); double_matrix_multiplication(nOutputs,nInputs,nInputs,1,_controller.D,_controller.inputs,result2); double_add_matrix(nOutputs, 1, result1, result2, _controller.outputs); double_matrix_multiplication(nStates,nStates,nStates,1,_controller.A,_controller.states,result1); double_matrix_multiplication(nStates,nInputs,nInputs,1,_controller.B,_controller.inputs,result2); double_add_matrix(nStates, 1, result1, result2, _controller.states); return _controller.outputs[0][0]; } double fxp_state_space_representation(void){ fxp_t result1[4][4]; fxp_t result2[4][4]; int i, j; for(i=0; i<4;i++){ for(j=0; j<4;j++){ result1[i][j]=0; result2[i][j]=0; } } fxp_t A_fpx[4][4]; fxp_t B_fpx[4][4]; fxp_t C_fpx[4][4]; fxp_t D_fpx[4][4]; fxp_t states_fpx[4][4]; fxp_t inputs_fpx[4][4]; fxp_t outputs_fpx[4][4]; for(i=0; i<4;i++){ for(j=0; j<4;j++){ A_fpx[i][j]=0; } } for(i=0; i<4;i++){ for(j=0; j<4;j++){ B_fpx[i][j]=0; } } for(i=0; i<4;i++){ for(j=0; j<4;j++){ C_fpx[i][j]=0; } } for(i=0; i<4;i++){ for(j=0; j<4;j++){ D_fpx[i][j]=0; } } for(i=0; i<4;i++){ for(j=0; j<4;j++){ states_fpx[i][j]=0; } } for(i=0; i<4;i++){ for(j=0; j<4;j++){ inputs_fpx[i][j]=0; } } for(i=0; i<4;i++){ for(j=0; j<4;j++){ outputs_fpx[i][j]=0; } } for(i=0; i<nStates;i++){ for(j=0; j<nStates;j++){ A_fpx[i][j]= fxp_double_to_fxp(_controller.A[i][j]); } } for(i=0; i<nStates;i++){ for(j=0; j<nInputs;j++){ B_fpx[i][j]= fxp_double_to_fxp(_controller.B[i][j]); } } for(i=0; i<nOutputs;i++){ for(j=0; j<nStates;j++){ C_fpx[i][j]= fxp_double_to_fxp(_controller.C[i][j]); } } for(i=0; i<nOutputs;i++){ for(j=0; j<nInputs;j++){ D_fpx[i][j]= fxp_double_to_fxp(_controller.D[i][j]); } } for(i=0; i<nStates;i++){ for(j=0; j<1;j++){ states_fpx[i][j]= fxp_double_to_fxp(_controller.states[i][j]); } } for(i=0; i<nInputs;i++){ for(j=0; j<1;j++){ inputs_fpx[i][j]= fxp_double_to_fxp(_controller.inputs[i][j]); } } for(i=0; i<nOutputs;i++){ for(j=0; j<1;j++){ outputs_fpx[i][j]= fxp_double_to_fxp(_controller.outputs[i][j]); } } fxp_matrix_multiplication(nOutputs,nStates,nStates,1,C_fpx,states_fpx,result1); fxp_matrix_multiplication(nOutputs,nInputs,nInputs,1,D_fpx,inputs_fpx,result2); fxp_add_matrix(nOutputs, 1, result1, result2, outputs_fpx); fxp_matrix_multiplication(nStates,nStates,nStates,1,A_fpx,states_fpx,result1); fxp_matrix_multiplication(nStates,nInputs,nInputs,1,B_fpx,inputs_fpx,result2); fxp_add_matrix(nStates, 1, result1, result2, states_fpx); for(i=0; i<nStates;i++){ for(j=0; j<1;j++){ _controller.states[i][j]= fxp_to_double(states_fpx[i][j]); } } for(i=0; i<nOutputs;i++){ for(j=0; j<1;j++){ _controller.outputs[i][j]= fxp_to_double(outputs_fpx[i][j]); } } return _controller.outputs[0][0]; } # 30 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/filter_functions.h" 1 # 20 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/filter_functions.h" double sinTyl(double x, int precision){ double sine; double xsquared = xx; double aux; if (precision < 0) { printf("Warning: Function sinTyl from bmc/core/filter_functions.h: " "Precision must be a positive integer. Assuming 0 precision\n"); precision = 0; } if (precision >= 0) { aux = 0; sine = aux; if (precision >= 1) { aux = x; sine += aux; if (precision >= 2) { aux = auxxsquared; sine -= aux/6; if (precision >= 3) { aux = auxxsquared; sine +=aux/120; if(precision >=4) { aux = auxxsquared; sine -=aux/5040; if(precision >= 5) { aux = auxxsquared; sine +=aux/362880; if(precision >= 6) { aux = auxxsquared; sine -=aux/39916800; if (precision >= 7) printf("Warning: Function sinTyl " "from bmc/core/filter_functions.h: Precision " "representation exceeded. Assuming maximum precision of 6\n"); } } } } } } } return sine; } double cosTyl(double x, int precision){ double cosine; double xsquared = xx; double aux; if (precision < 0) { printf("Warning: Function cosTyl from bmc/core/filter_functions.h: " "Precision must be a positive integer. Assuming 0 precision\n"); precision = 0; } if (precision >= 0) { aux = 0; cosine = aux; if (precision >= 1) { aux = 1; cosine = 1; if (precision >= 2) { aux = xsquared; cosine -= aux/2; if (precision >= 3) { aux = auxxsquared; cosine += aux/24; if(precision >=4) { aux = auxxsquared; cosine -=aux/720; if(precision >= 5) { aux = auxxsquared; cosine +=aux/40320; if(precision >= 6) { aux = auxxsquared; cosine -=aux/3628800; if (precision >= 7) printf("Warning: Function sinTyl " "from bmc/core/filter_functions.h: Precision " "representation exceeded. Assuming maximum precision of 6\n"); } } } } } } } return cosine; } double atanTyl(double x, int precision){ double atangent; double xsquared = xx; double aux; if (precision < 0) { printf("Warning: Function sinTyl from bmc/core/filter_functions.h: " "Precision must be a positive integer. Assuming 0 precision\n"); precision = 0; } if (precision >= 0) { aux = 0; atangent = aux; if (precision >= 1) { aux = x; atangent = aux; if (precision >= 2) { aux = xsquared; atangent -= aux/3; if (precision >= 3) { aux = auxxsquared; atangent += aux/5; if(precision >=4) { aux = auxxsquared; atangent -=aux/7; if (precision >= 7) printf("Warning: Function sinTyl from bmc/core/filter_functions.h: " "Precision representation exceeded. Assuming maximum precision of 4\n"); } } } } } return atangent; } float sqrt1(const float x) { const float xhalf = 0.5fx; union { float x; int i; } u; u.x = x; u.i = 0x5f3759df - (u.i >> 1); return xu.x(1.5f - xhalfu.xu.x); } float sqrt2(const float x) { union { int i; float x; } u; u.x = x; u.i = (1<<29) + (u.i >> 1) - (1<<22); return u.x; } float fabsolut(float x) { if (x < 0) x = -x; return x; } static float sqrt3(float val) { float x = val/10; float dx; double diff; double min_tol = 0.00001; int i, flag; flag = 0; if (val == 0 ) x = 0; else { for (i=1;i<20;i++) { if (!flag) { dx = (val - (xx)) / (2.0 * x); x = x + dx; diff = val - (xx); if (fabsolut(diff) <= min_tol) flag = 1; } else x =x; } } return (x); } # 31 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_overflow.h" 1 # 19 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_overflow.h" int nondet_int(); float nondet_float(); extern digital_system ds; extern implementation impl; int verify_overflow(void) { fxp_t a_fxp[ds.a_size]; fxp_t b_fxp[ds.b_size]; fxp_double_to_fxp_array(ds.a, a_fxp, ds.a_size); fxp_double_to_fxp_array(ds.b, b_fxp, ds.b_size); # 73 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_overflow.h" fxp_t min_fxp = fxp_double_to_fxp(impl.min); fxp_t max_fxp = fxp_double_to_fxp(impl.max); fxp_t y[X_SIZE_VALUE]; fxp_t x[X_SIZE_VALUE]; int i; for (i = 0; i < X_SIZE_VALUE; ++i) { y[i] = 0; x[i] = nondet_int(); __DSVERIFIER_assume(x[i] >= min_fxp && x[i] <= max_fxp); } int Nw = 0; Nw = ds.a_size > ds.b_size ? ds.a_size : ds.b_size; fxp_t yaux[ds.a_size]; fxp_t xaux[ds.b_size]; fxp_t waux[Nw]; for (i = 0; i < ds.a_size; ++i) { yaux[i] = 0; } for (i = 0; i < ds.b_size; ++i) { xaux[i] = 0; } for (i = 0; i < Nw; ++i) { waux[i] = 0; } fxp_t xk, temp; fxp_t aptr, bptr, xptr, yptr, wptr; int j; for (i = 0; i < X_SIZE_VALUE; ++i) { shiftL(x[i], xaux, ds.b_size); y[i] = fxp_direct_form_1(yaux, xaux, a_fxp, b_fxp, ds.a_size, ds.b_size); shiftL(y[i], yaux, ds.a_size); # 174 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_overflow.h" } overflow_mode = 1; fxp_verify_overflow_array(y, X_SIZE_VALUE); return 0; } # 33 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" 1 # 15 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" extern digital_system ds; extern implementation impl; extern digital_system_state_space _controller; extern int nStates; extern int nInputs; extern int nOutputs; int verify_limit_cycle_state_space(void){ double stateMatrix[4][4]; double outputMatrix[4][4]; double arrayLimitCycle[4]; double result1[4][4]; double result2[4][4]; int i, j, k; for(i=0; i<4;i++){ for(j=0; j<4;j++){ result1[i][j]=0; result2[i][j]=0; stateMatrix[i][j]=0; outputMatrix[i][j]=0; } } double_matrix_multiplication(nOutputs,nStates,nStates,1,_controller.C,_controller.states,result1); double_matrix_multiplication(nOutputs,nInputs,nInputs,1,_controller.D,_controller.inputs,result2); double_add_matrix(nOutputs, 1, result1, result2, _controller.outputs); k = 0; for (i = 1; i < 0; i++) { double_matrix_multiplication(nStates,nStates,nStates,1,_controller.A,_controller.states,result1); double_matrix_multiplication(nStates,nInputs,nInputs,1,_controller.B,_controller.inputs,result2); double_add_matrix(nStates, 1, result1, result2, _controller.states); double_matrix_multiplication(nOutputs,nStates,nStates,1,_controller.C,_controller.states,result1); double_matrix_multiplication(nOutputs,nInputs,nInputs,1,_controller.D,_controller.inputs,result2); double_add_matrix(nOutputs, 1, result1, result2, _controller.outputs); int l; for(l = 0; l < nStates; l++){ stateMatrix[l][k] = _controller.states[l][0]; } for(l = 0; l < nOutputs; l++){ stateMatrix[l][k] = _controller.outputs[l][0]; } k++; } printf("#matrix STATES -------------------------------"); print_matrix(stateMatrix,nStates,0); printf("#matrix OUTPUTS -------------------------------"); print_matrix(outputMatrix,nOutputs,0); # 93 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" 3 4 ((void) sizeof (( # 93 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" 0 # 93 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 93 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" 0 # 93 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" 3 4 ) ; else __assert_fail ( # 93 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" "0" # 93 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h", 93, __extension__ __PRETTY_FUNCTION__); })) # 93 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" ; for(i=0; i<nStates;i++){ for(j=0; j<0;j++){ arrayLimitCycle[j] = stateMatrix[i][j]; } double_check_persistent_limit_cycle(arrayLimitCycle,0); } for(i=0; i<nOutputs;i++){ for(j=0; j<0;j++){ arrayLimitCycle[j] = outputMatrix[i][j]; } double_check_persistent_limit_cycle(arrayLimitCycle,0); } # 110 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" 3 4 ((void) sizeof (( # 110 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" 0 # 110 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 110 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" 0 # 110 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" 3 4 ) ; else __assert_fail ( # 110 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" "0" # 110 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h", 110, __extension__ __PRETTY_FUNCTION__); })) # 110 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" ; } int verify_limit_cycle(void){ overflow_mode = 3; int i; int Set_xsize_at_least_two_times_Na = 2 * ds.a_size; printf("X_SIZE must be at least 2 * ds.a_size"); __DSVERIFIER_assert(X_SIZE_VALUE >= Set_xsize_at_least_two_times_Na); fxp_t a_fxp[ds.a_size]; fxp_t b_fxp[ds.b_size]; fxp_double_to_fxp_array(ds.a, a_fxp, ds.a_size); fxp_double_to_fxp_array(ds.b, b_fxp, ds.b_size); # 168 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" fxp_t y[X_SIZE_VALUE]; fxp_t x[X_SIZE_VALUE]; fxp_t min_fxp = fxp_double_to_fxp(impl.min); fxp_t max_fxp = fxp_double_to_fxp(impl.max); fxp_t xaux[ds.b_size]; int nondet_constant_input = nondet_int(); __DSVERIFIER_assume(nondet_constant_input >= min_fxp && nondet_constant_input <= max_fxp); for (i = 0; i < X_SIZE_VALUE; ++i) { x[i] = nondet_constant_input; y[i] = 0; } for (i = 0; i < ds.b_size; ++i) { xaux[i] = nondet_constant_input; } int Nw = 0; Nw = ds.a_size > ds.b_size ? ds.a_size : ds.b_size; fxp_t yaux[ds.a_size]; fxp_t y0[ds.a_size]; fxp_t waux[Nw]; fxp_t w0[Nw]; for (i = 0; i < ds.a_size; ++i) { yaux[i] = nondet_int(); __DSVERIFIER_assume(yaux[i] >= min_fxp && yaux[i] <= max_fxp); y0[i] = yaux[i]; } # 213 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" fxp_t xk, temp; fxp_t aptr, bptr, xptr, yptr, wptr; int j; for(i=0; i<X_SIZE_VALUE; ++i){ shiftL(x[i], xaux, ds.b_size); y[i] = fxp_direct_form_1(yaux, xaux, a_fxp, b_fxp, ds.a_size, ds.b_size); shiftL(y[i], yaux, ds.a_size); # 278 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" } fxp_check_persistent_limit_cycle(y, X_SIZE_VALUE); return 0; } # 34 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error.h" 1 # 17 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error.h" extern digital_system ds; extern implementation impl; int verify_error(void){ overflow_mode = 2; double a_cascade[100]; int a_cascade_size; double b_cascade[100]; int b_cascade_size; fxp_t a_fxp[ds.a_size]; fxp_t b_fxp[ds.b_size]; fxp_double_to_fxp_array(ds.a, a_fxp, ds.a_size); fxp_double_to_fxp_array(ds.b, b_fxp, ds.b_size); # 69 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error.h" fxp_t min_fxp = fxp_double_to_fxp(impl.min); fxp_t max_fxp = fxp_double_to_fxp(impl.max); fxp_t y[X_SIZE_VALUE]; fxp_t x[X_SIZE_VALUE]; double yf[X_SIZE_VALUE]; double xf[X_SIZE_VALUE]; int Nw = 0; Nw = ds.a_size > ds.b_size ? ds.a_size : ds.b_size; fxp_t yaux[ds.a_size]; fxp_t xaux[ds.b_size]; fxp_t waux[Nw]; double yfaux[ds.a_size]; double xfaux[ds.b_size]; double wfaux[Nw]; int i; for (i = 0; i < ds.a_size; ++i) { yaux[i] = 0; yfaux[i] = 0; } for (i = 0; i < ds.b_size; ++i) { xaux[i] = 0; xfaux[i] = 0; } for (i = 0; i < Nw; ++i) { waux[i] = 0; wfaux[i] = 0; } for (i = 0; i < X_SIZE_VALUE; ++i) { y[i] = 0; x[i] = nondet_int(); __DSVERIFIER_assume(x[i] >= min_fxp && x[i] <= max_fxp); yf[i] = 0.0f; xf[i] = fxp_to_double(x[i]); } for (i = 0; i < X_SIZE_VALUE; ++i) { shiftL(x[i], xaux, ds.b_size); y[i] = fxp_direct_form_1(yaux, xaux, a_fxp, b_fxp, ds.a_size, ds.b_size); shiftL(y[i], yaux, ds.a_size); shiftLDouble(xf[i], xfaux, ds.b_size); yf[i] = double_direct_form_1(yfaux, xfaux, ds.a, ds.b, ds.a_size, ds.b_size); shiftLDouble(yf[i], yfaux, ds.a_size); # 169 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error.h" double absolute_error = yf[i] - fxp_to_double(y[i]); __DSVERIFIER_assert(absolute_error < (impl.max_error) && absolute_error > (-impl.max_error)); } return 0; } # 35 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_zero_input_limit_cycle.h" 1 # 13 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_zero_input_limit_cycle.h" extern digital_system ds; extern implementation impl; int verify_zero_input_limit_cycle(void){ overflow_mode = 3; int i,j; int Set_xsize_at_least_two_times_Na = 2 ds.a_size; printf("X_SIZE must be at least 2 * ds.a_size"); # 23 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_zero_input_limit_cycle.h" 3 4 ((void) sizeof (( # 23 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_zero_input_limit_cycle.h" X_SIZE_VALUE >= Set_xsize_at_least_two_times_Na # 23 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_zero_input_limit_cycle.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 23 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_zero_input_limit_cycle.h" X_SIZE_VALUE >= Set_xsize_at_least_two_times_Na # 23 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_zero_input_limit_cycle.h" 3 4 ) ; else __assert_fail ( # 23 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_zero_input_limit_cycle.h" "X_SIZE_VALUE >= Set_xsize_at_least_two_times_Na" # 23 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_zero_input_limit_cycle.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_zero_input_limit_cycle.h", 23, __extension__ __PRETTY_FUNCTION__); })) # 23 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_zero_input_limit_cycle.h" ; fxp_t a_fxp[ds.a_size]; fxp_t b_fxp[ds.b_size]; fxp_double_to_fxp_array(ds.a, a_fxp, ds.a_size); fxp_double_to_fxp_array(ds.b, b_fxp, ds.b_size); # 71 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_zero_input_limit_cycle.h" fxp_t min_fxp = fxp_double_to_fxp(impl.min); fxp_t max_fxp = fxp_double_to_fxp(impl.max); fxp_t y[X_SIZE_VALUE]; fxp_t x[X_SIZE_VALUE]; for (i = 0; i < X_SIZE_VALUE; ++i) { y[i] = 0; x[i] = 0; } int Nw = 0; Nw = ds.a_size > ds.b_size ? ds.a_size : ds.b_size; fxp_t yaux[ds.a_size]; fxp_t xaux[ds.b_size]; fxp_t waux[Nw]; fxp_t y0[ds.a_size]; fxp_t w0[Nw]; for (i = 0; i < ds.a_size; ++i) { yaux[i] = nondet_int(); __DSVERIFIER_assume(yaux[i] >= min_fxp && yaux[i] <= max_fxp); y0[i] = yaux[i]; } # 111 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_zero_input_limit_cycle.h" for (i = 0; i < ds.b_size; ++i) { xaux[i] = 0; } fxp_t xk, temp; fxp_t aptr, bptr, xptr, yptr, wptr; for(i=0; i<X_SIZE_VALUE; ++i){ shiftL(x[i], xaux, ds.b_size); y[i] = fxp_direct_form_1(yaux, xaux, a_fxp, b_fxp, ds.a_size, ds.b_size); shiftL(y[i], yaux, ds.a_size); # 188 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_zero_input_limit_cycle.h" } fxp_check_persistent_limit_cycle(y, X_SIZE_VALUE); return 0; } # 36 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_generic_timing.h" 1 # 16 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_generic_timing.h" int nondet_int(); float nondet_float(); extern digital_system ds; extern implementation impl; extern hardware hw; int generic_timer = 0; int verify_generic_timing(void) { double y[X_SIZE_VALUE]; double x[X_SIZE_VALUE]; int i; for (i = 0; i < X_SIZE_VALUE; ++i) { y[i] = 0; x[i] = nondet_float(); __DSVERIFIER_assume(x[i] >= impl.min && x[i] <= impl.max); } int Nw = 0; Nw = ds.a_size > ds.b_size ? ds.a_size : ds.b_size; double yaux[ds.a_size]; double xaux[ds.b_size]; double waux[Nw]; for (i = 0; i < ds.a_size; ++i) { yaux[i] = 0; } for (i = 0; i < ds.b_size; ++i) { xaux[i] = 0; } for (i = 0; i < Nw; ++i) { waux[i] = 0; } double xk, temp; double aptr, bptr, xptr, yptr, wptr; int j; generic_timer += ((2 * hw.assembly.std) + (1 * hw.assembly.rjmp)); double initial_timer = generic_timer; for (i = 0; i < X_SIZE_VALUE; ++i) { generic_timer += ((2 * hw.assembly.ldd) + (1 * hw.assembly.adiw) + (2 * hw.assembly.std)); generic_timer += ((2 * hw.assembly.ldd) + (1 * hw.assembly.cpi) + (1 * hw.assembly.cpc) + (1 * hw.assembly.brlt)); generic_timing_shift_l_double(x[i], xaux, ds.b_size); y[i] = generic_timing_double_direct_form_1(yaux, xaux, ds.a, ds.b, ds.a_size, ds.b_size); generic_timing_shift_l_double(y[i], yaux, ds.a_size); # 88 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_generic_timing.h" double spent_time = (((double) generic_timer) * hw.cycle); # 89 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_generic_timing.h" 3 4 ((void) sizeof (( # 89 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_generic_timing.h" spent_time <= ds.sample_time # 89 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_generic_timing.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 89 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_generic_timing.h" spent_time <= ds.sample_time # 89 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_generic_timing.h" 3 4 ) ; else __assert_fail ( # 89 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_generic_timing.h" "spent_time <= ds.sample_time" # 89 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_generic_timing.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_generic_timing.h", 89, __extension__ __PRETTY_FUNCTION__); })) # 89 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_generic_timing.h" ; generic_timer = initial_timer; } return 0; } # 37 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_timing_msp430.h" 1 # 16 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_timing_msp430.h" int nondet_int(); float nondet_float(); extern digital_system ds; extern implementation impl; int verify_timing_msp_430(void) { double y[X_SIZE_VALUE]; double x[X_SIZE_VALUE]; int i; for (i = 0; i < X_SIZE_VALUE; ++i) { y[i] = 0; x[i] = nondet_float(); __DSVERIFIER_assume(x[i] >= impl.min && x[i] <= impl.max); } int Nw = 0; Nw = ds.a_size > ds.b_size ? ds.a_size : ds.b_size; double yaux[ds.a_size]; double xaux[ds.b_size]; double waux[Nw]; for (i = 0; i < ds.a_size; ++i) { yaux[i] = 0; } for (i = 0; i < ds.b_size; ++i) { xaux[i] = 0; } for (i = 0; i < Nw; ++i) { waux[i] = 0; } double xk, temp; double aptr, bptr, xptr, yptr, wptr; int j; for (i = 0; i < X_SIZE_VALUE; ++i) { shiftL(x[i], xaux, ds.b_size); y[i] = double_direct_form_1_MSP430(yaux, xaux, ds.a, ds.b, ds.a_size, ds.b_size); shiftL(y[i], yaux, ds.a_size); # 121 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_timing_msp430.h" } return 0; } # 38 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_stability.h" 1 # 21 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_stability.h" extern digital_system ds; extern implementation impl; int verify_stability(void){ overflow_mode = 0; fxp_t a_fxp[ds.a_size]; fxp_double_to_fxp_array(ds.a, a_fxp, ds.a_size); double _a[ds.a_size]; fxp_to_double_array(_a, a_fxp, ds.a_size); # 37 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_stability.h" 3 4 ((void) sizeof (( # 37 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_stability.h" check_stability(_a, ds.a_size) # 37 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_stability.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 37 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_stability.h" check_stability(_a, ds.a_size) # 37 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_stability.h" 3 4 ) ; else __assert_fail ( # 37 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_stability.h" "check_stability(_a, ds.a_size)" # 37 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_stability.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_stability.h", 37, __extension__ __PRETTY_FUNCTION__); })) # 37 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_stability.h" ; # 83 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_stability.h" return 0; } # 39 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_minimum_phase.h" 1 # 21 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_minimum_phase.h" extern digital_system ds; extern implementation impl; int verify_minimum_phase(void){ overflow_mode = 0; fxp_t b_fxp[ds.b_size]; fxp_double_to_fxp_array(ds.b, b_fxp, ds.b_size); double _b[ds.b_size]; fxp_to_double_array(_b, b_fxp, ds.b_size); __DSVERIFIER_assert(check_stability(_b, ds.b_size)); # 85 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_minimum_phase.h" return 0; } # 40 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_stability_closedloop.h" 1 # 17 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_stability_closedloop.h" extern digital_system plant; extern digital_system plant_cbmc; extern digital_system controller; int verify_stability_closedloop_using_dslib(void){ double c_num = controller.b; int c_num_size = controller.b_size; double * c_den = controller.a; int c_den_size = controller.a_size; fxp_t c_num_fxp[controller.b_size]; fxp_double_to_fxp_array(c_num, c_num_fxp, controller.b_size); fxp_t c_den_fxp[controller.a_size]; fxp_double_to_fxp_array(c_den, c_den_fxp, controller.a_size); double c_num_qtz[controller.b_size]; fxp_to_double_array(c_num_qtz, c_num_fxp, controller.b_size); double c_den_qtz[controller.a_size]; fxp_to_double_array(c_den_qtz, c_den_fxp, controller.a_size); # 48 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_stability_closedloop.h" double * p_num = plant_cbmc.b; int p_num_size = plant.b_size; double * p_den = plant_cbmc.a; int p_den_size = plant.a_size; double ans_num[100]; int ans_num_size = controller.b_size + plant.b_size - 1; double ans_den[100]; int ans_den_size = controller.a_size + plant.a_size - 1; # 68 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_stability_closedloop.h" printf("Verifying stability for closedloop function\n"); __DSVERIFIER_assert(check_stability_closedloop(ans_den, ans_den_size, p_num, p_num_size, p_den, p_den_size)); return 0; } # 41 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle_closedloop.h" 1 # 23 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle_closedloop.h" extern digital_system plant; extern digital_system plant_cbmc; extern digital_system controller; double nondet_double(); int verify_limit_cycle_closed_loop(void){ overflow_mode = 3; double * c_num = controller.b; int c_num_size = controller.b_size; double * c_den = controller.a; int c_den_size = controller.a_size; fxp_t c_num_fxp[controller.b_size]; fxp_double_to_fxp_array(c_num, c_num_fxp, controller.b_size); fxp_t c_den_fxp[controller.a_size]; fxp_double_to_fxp_array(c_den, c_den_fxp, controller.a_size); double c_num_qtz[controller.b_size]; fxp_to_double_array(c_num_qtz, c_num_fxp, controller.b_size); double c_den_qtz[controller.a_size]; fxp_to_double_array(c_den_qtz, c_den_fxp, controller.a_size); # 58 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle_closedloop.h" double * p_num = plant_cbmc.b; int p_num_size = plant.b_size; double * p_den = plant_cbmc.a; int p_den_size = plant.a_size; double ans_num[100]; int ans_num_size = controller.b_size + plant.b_size - 1; double ans_den[100]; int ans_den_size = controller.a_size + plant.a_size - 1; int i; double y[X_SIZE_VALUE]; double x[X_SIZE_VALUE]; double xaux[ans_num_size]; double nondet_constant_input = nondet_double(); __DSVERIFIER_assume(nondet_constant_input >= impl.min && nondet_constant_input <= impl.max); for (i = 0; i < X_SIZE_VALUE; ++i) { x[i] = nondet_constant_input; y[i] = 0; } for (i = 0; i < ans_num_size; ++i) { xaux[i] = nondet_constant_input; } double yaux[ans_den_size]; double y0[ans_den_size]; int Nw = ans_den_size > ans_num_size ? ans_den_size : ans_num_size; double waux[Nw]; double w0[Nw]; for (i = 0; i < ans_den_size; ++i) { yaux[i] = nondet_int(); __DSVERIFIER_assume(yaux[i] >= impl.min && yaux[i] <= impl.max); y0[i] = yaux[i]; } # 112 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle_closedloop.h" double xk, temp; double aptr, bptr, xptr, yptr, wptr; int j; for(i=0; i<X_SIZE_VALUE; ++i){ shiftLDouble(x[i], xaux, ans_num_size); y[i] = double_direct_form_1(yaux, xaux, ans_den, ans_num, ans_den_size, ans_num_size); shiftLDouble(y[i], yaux, ans_den_size); # 137 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle_closedloop.h" } double_check_persistent_limit_cycle(y, X_SIZE_VALUE); return 0; } # 42 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_closedloop.h" 1 # 23 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_closedloop.h" extern digital_system plant; extern digital_system plant_cbmc; extern digital_system controller; int verify_error_closedloop(void){ overflow_mode = 3; double c_num = controller.b; int c_num_size = controller.b_size; double * c_den = controller.a; int c_den_size = controller.a_size; fxp_t c_num_fxp[controller.b_size]; fxp_double_to_fxp_array(c_num, c_num_fxp, controller.b_size); fxp_t c_den_fxp[controller.a_size]; fxp_double_to_fxp_array(c_den, c_den_fxp, controller.a_size); double c_num_qtz[controller.b_size]; fxp_to_double_array(c_num_qtz, c_num_fxp, controller.b_size); double c_den_qtz[controller.a_size]; fxp_to_double_array(c_den_qtz, c_den_fxp, controller.a_size); # 56 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_closedloop.h" double * p_num = plant_cbmc.b; int p_num_size = plant.b_size; double * p_den = plant_cbmc.a; int p_den_size = plant.a_size; double ans_num_double[100]; double ans_num_qtz[100]; int ans_num_size = controller.b_size + plant.b_size - 1; double ans_den_qtz[100]; double ans_den_double[100]; int ans_den_size = controller.a_size + plant.a_size - 1; # 77 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_closedloop.h" int i; double y_qtz[X_SIZE_VALUE]; double y_double[X_SIZE_VALUE]; double x_qtz[X_SIZE_VALUE]; double x_double[X_SIZE_VALUE]; double xaux_qtz[ans_num_size]; double xaux_double[ans_num_size]; double xaux[ans_num_size]; double nondet_constant_input = nondet_double(); __DSVERIFIER_assume(nondet_constant_input >= impl.min && nondet_constant_input <= impl.max); for (i = 0; i < X_SIZE_VALUE; ++i) { x_qtz[i] = nondet_constant_input; x_double[i] = nondet_constant_input; y_qtz[i] = 0; y_double[i] = 0; } for (i = 0; i < ans_num_size; ++i) { xaux_qtz[i] = nondet_constant_input; xaux_double[i] = nondet_constant_input; } double yaux_qtz[ans_den_size]; double yaux_double[ans_den_size]; double y0_qtz[ans_den_size]; double y0_double[ans_den_size]; int Nw = ans_den_size > ans_num_size ? ans_den_size : ans_num_size; double waux_qtz[Nw]; double waux_double[Nw]; double w0_qtz[Nw]; double w0_double[Nw]; for (i = 0; i < ans_den_size; ++i) { yaux_qtz[i] = 0; yaux_double[i] = 0; } for(i=0; i<X_SIZE_VALUE; ++i){ shiftLDouble(x_qtz[i], xaux_qtz, ans_num_size); y_qtz[i] = double_direct_form_1(yaux_qtz, xaux_qtz, ans_den_qtz, ans_num_qtz, ans_den_size, ans_num_size); shiftLDouble(y_qtz[i], yaux_qtz, ans_den_size); shiftLDouble(x_double[i], xaux_double, ans_num_size); y_double[i] = double_direct_form_1(yaux_double, xaux_double, ans_den_double, ans_num_double, ans_den_size, ans_num_size); shiftLDouble(y_double[i], yaux_double, ans_den_size); # 156 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_closedloop.h" double absolute_error = y_double[i] - fxp_to_double(y_qtz[i]); __DSVERIFIER_assert(absolute_error < (impl.max_error) && absolute_error > (-impl.max_error)); } return 0; } # 43 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" 1 # 20 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" extern digital_system_state_space _controller; extern double error_limit; extern int closed_loop; double new_state[4][4]; double new_stateFWL[4][4]; digital_system_state_space _controller_fxp; digital_system_state_space _controller_double; double ss_system_quantization_error(fxp_t inputs){ digital_system_state_space __backupController; int i; int j; _controller.inputs[0][0] = inputs; for(i=0; i<nStates;i++){ for(j=0; j<nStates;j++){ __backupController.A[i][j]= (_controller.A[i][j]); } } for(i=0; i<nStates;i++){ for(j=0; j<nInputs;j++){ __backupController.B[i][j]= (_controller.B[i][j]); } } for(i=0; i<nOutputs;i++){ for(j=0; j<nStates;j++){ __backupController.C[i][j]= (_controller.C[i][j]); } } for(i=0; i<nOutputs;i++){ for(j=0; j<nInputs;j++){ __backupController.D[i][j]= (_controller.D[i][j]); } } for(i=0; i<nStates;i++){ for(j=0; j<1;j++){ __backupController.states[i][j]= (_controller.states[i][j]); } } for(i=0; i<nInputs;i++){ for(j=0; j<1;j++){ __backupController.inputs[i][j]= (_controller.inputs[i][j]); } } for(i=0; i<nOutputs;i++){ for(j=0; j<1;j++){ __backupController.outputs[i][j]= (_controller.outputs[i][j]); } } double __quant_error = 0.0; for(i=0; i<nStates;i++){ for(j=0; j<1;j++){ _controller.states[i][j]= (new_state[i][j]); } } double output_double = double_state_space_representation(); for(i=0; i<nStates;i++){ for(j=0; j<1;j++){ new_state[i][j]= (_controller.states[i][j]); } } __backupController.inputs[0][0] = inputs; for(i=0; i<nStates;i++){ for(j=0; j<nStates;j++){ _controller.A[i][j] = __backupController.A[i][j]; } } for(i=0; i<nStates;i++){ for(j=0; j<nInputs;j++){ _controller.B[i][j] = __backupController.B[i][j]; } } for(i=0; i<nOutputs;i++){ for(j=0; j<nStates;j++){ _controller.C[i][j] = __backupController.C[i][j]; } } for(i=0; i<nOutputs;i++){ for(j=0; j<nInputs;j++){ _controller.D[i][j] = __backupController.D[i][j]; } } for(i=0; i<nStates;i++){ for(j=0; j<1;j++){ _controller.states[i][j] = __backupController.states[i][j]; } } for(i=0; i<nInputs;i++){ for(j=0; j<1;j++){ _controller.inputs[i][j] = __backupController.inputs[i][j]; } } for(i=0; i<nOutputs;i++){ for(j=0; j<1;j++){ _controller.outputs[i][j] = __backupController.outputs[i][j]; } } for(i=0; i<nStates;i++){ for(j=0; j<1;j++){ _controller.states[i][j]= (new_stateFWL[i][j]); } } double output_fxp = fxp_state_space_representation(); for(i=0; i<nStates;i++){ for(j=0; j<1;j++){ new_stateFWL[i][j]= (_controller.states[i][j]); } } __quant_error = output_double - output_fxp; return __quant_error; } double fxp_ss_closed_loop_quantization_error(double reference){ double reference_aux[4][4]; double result1[4][4]; double temp_result1[4][4]; double result2[4][4]; double temp_states[4][4]; fxp_t K_fxp[4][4]; fxp_t states_fxp[4][4]; fxp_t result_fxp[4][4]; unsigned int i; unsigned int j; unsigned int k; short unsigned int flag = 0; for(i=0; i<nOutputs;i++){ for(j=0; j<nInputs;j++){ if(_controller_fxp.D[i][j] != 0){ flag = 1; } } } for(i=0; i<4;i++){ for(j=0; j<4;j++){ reference_aux[i][j]=0; K_fxp[i][j] = 0; } } for(i=0; i<nInputs;i++){ reference_aux[i][0]= reference; } for(i=0; i<4;i++){ states_fxp[i][0]=0; } for(i=0; i<nStates;i++){ K_fxp[0][i]= fxp_double_to_fxp(_controller_fxp.K[0][i]); } for(i=0; i<4;i++){ for(j=0; j<4;j++){ result1[i][j]=0; result2[i][j]=0; } } for(k=0; k<nStates;k++) { states_fxp[k][0]= fxp_double_to_fxp(_controller_fxp.states[k][0]); } fxp_matrix_multiplication(nOutputs,nStates,nStates,1,K_fxp,states_fxp,result_fxp); fxp_t reference_fxp[4][4]; fxp_t result_fxp2[4][4]; for(k=0;k<nInputs;k++) { reference_fxp[k][0] =fxp_double_to_fxp(fxp_quantize(reference_aux[k][0])); } fxp_sub_matrix(nInputs,1, reference_fxp, result_fxp, result_fxp2); for(k=0; k<nInputs;k++) { _controller_fxp.inputs[k][0] = fxp_to_double(fxp_quantize(result_fxp2[k][0])); } double_matrix_multiplication(nOutputs,nStates,nStates,1,_controller_fxp.C,_controller_fxp.states,result1); if(flag == 1) { double_matrix_multiplication(nOutputs,nInputs,nInputs,1,_controller_fxp.D,_controller_fxp.inputs,result2); } double_add_matrix(nOutputs,1,result1,result2,_controller_fxp.outputs); double_matrix_multiplication(nStates,nStates,nStates,1,_controller_fxp.A,_controller_fxp.states,result1); double_matrix_multiplication(nStates,nInputs,nInputs,1,_controller_fxp.B,_controller_fxp.inputs,result2); double_add_matrix(nStates,1,result1,result2,_controller_fxp.states); return _controller_fxp.outputs[0][0]; } double ss_closed_loop_quantization_error(double reference){ double reference_aux[4][4]; double result1[4][4]; double result2[4][4]; unsigned int i; unsigned int j; short unsigned int flag = 0; for(i=0; i<nOutputs;i++){ for(j=0; j<nInputs;j++){ if(_controller_double.D[i][j] != 0){ flag = 1; } } } for(i=0; i<nInputs;i++){ for(j=0; j<1;j++){ reference_aux[i][j]= reference; } } for(i=0; i<4;i++){ for(j=0; j<4;j++){ result1[i][j]=0; result2[i][j]=0; } } double_matrix_multiplication(nOutputs,nStates,nStates,1,_controller_double.K,_controller_double.states,result1); double_sub_matrix(nInputs,1,reference_aux,result1, _controller_double.inputs); double_matrix_multiplication(nOutputs,nStates,nStates,1,_controller_double.C,_controller_double.states,result1); if(flag == 1) double_matrix_multiplication(nOutputs,nInputs,nInputs,1,_controller_double.D,_controller_double.inputs,result2); double_add_matrix(nOutputs,1,result1,result2,_controller_double.outputs); double_matrix_multiplication(nStates,nStates,nStates,1,_controller_double.A,_controller_double.states,result1); double_matrix_multiplication(nStates,nInputs,nInputs,1,_controller_double.B,_controller_double.inputs,result2); double_add_matrix(nStates,1,result1,result2,_controller_double.states); return _controller_double.outputs[0][0]; } int verify_error_state_space(void){ int i,j; for(i=0; i<nStates;i++){ for(j=0; j<1;j++){ new_state[i][j]= (_controller.states[i][j]); } } for(i=0; i<nStates;i++){ for(j=0; j<1;j++){ new_stateFWL[i][j]= (_controller.states[i][j]); } } _controller_fxp = _controller; _controller_double = _controller; overflow_mode = 0; fxp_t x[0]; fxp_t min_fxp = fxp_double_to_fxp(impl.min); fxp_t max_fxp = fxp_double_to_fxp(impl.max); double nondet_constant_input = nondet_double(); __DSVERIFIER_assume(nondet_constant_input >= min_fxp && nondet_constant_input <= max_fxp); for (i = 0; i < 0; ++i) { x[i] = nondet_constant_input; } double __quant_error; if(closed_loop){ for (i = 0; i < 0; ++i) { __quant_error = ss_closed_loop_quantization_error(x[i]) - fxp_ss_closed_loop_quantization_error(x[i]); # 354 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" 3 4 ((void) sizeof (( # 354 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" __quant_error < error_limit && __quant_error > ((-1)error_limit) # 354 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 354 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" __quant_error < error_limit && __quant_error > ((-1)error_limit) # 354 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" 3 4 ) ; else __assert_fail ( # 354 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" "__quant_error < error_limit && __quant_error > ((-1)error_limit)" # 354 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h", 354, __extension__ __PRETTY_FUNCTION__); })) # 354 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" ; } } else { for (i=0; i < 0; i++) { __quant_error = ss_system_quantization_error(x[i]); # 361 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" 3 4 ((void) sizeof (( # 361 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" __quant_error < error_limit && __quant_error > ((-1)error_limit) # 361 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 361 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" __quant_error < error_limit && __quant_error > ((-1)error_limit) # 361 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" 3 4 ) ; else __assert_fail ( # 361 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" "__quant_error < error_limit && __quant_error > ((-1)error_limit)" # 361 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h", 361, __extension__ __PRETTY_FUNCTION__); })) # 361 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" ; } } return 0; } # 44 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_safety_state_space.h" 1 # 17 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_safety_state_space.h" extern digital_system_state_space _controller; extern double error_limit; extern int closed_loop; double fxp_ss_closed_loop_safety(){ double reference[4][4]; double result1[4][4]; double result2[4][4]; fxp_t K_fpx[4][4]; fxp_t outputs_fpx[4][4]; fxp_t result_fxp[4][4]; unsigned int i; unsigned int j; unsigned int k; short unsigned int flag = 0; for(i=0; i<nOutputs;i++){ for(j=0; j<nInputs;j++){ if(_controller.D[i][j] != 0){ flag = 1; } } } for(i=0; i<nInputs;i++){ for(j=0; j<1;j++){ reference[i][j]= (_controller.inputs[i][j]); } } for(i=0; i<nInputs;i++){ for(j=0; j<nOutputs;j++){ K_fpx[i][j]=0; } } for(i=0; i<nOutputs;i++){ for(j=0; j<1;j++){ outputs_fpx[i][j]=0; } } for(i=0; i<4;i++){ for(j=0; j<4;j++){ result_fxp[i][j]=0; } } for(i=0; i<nInputs;i++){ for(j=0; j<nOutputs;j++){ K_fpx[i][j]= fxp_double_to_fxp(_controller.K[i][j]); } } for(i=0; i<4;i++){ for(j=0; j<4;j++){ result1[i][j]=0; result2[i][j]=0; } } for (i = 1; i < 0; i++) { double_matrix_multiplication(nOutputs,nStates,nStates,1,_controller.C,_controller.states,result1); if(flag == 1){ double_matrix_multiplication(nOutputs,nInputs,nInputs,1,_controller.D,_controller.inputs,result2); } double_add_matrix(nOutputs, 1, result1, result2, _controller.outputs); for(k=0; k<nOutputs;k++){ for(j=0; j<1;j++){ outputs_fpx[k][j]= fxp_double_to_fxp(_controller.outputs[k][j]); } } fxp_matrix_multiplication(nInputs,nOutputs,nOutputs,1,K_fpx,outputs_fpx,result_fxp); for(k=0; k<nInputs;k++){ for(j=0; j<1;j++){ result1[k][j]= fxp_to_double(result_fxp[k][j]); } } printf("### fxp: U (before) = %.9f", _controller.inputs[0][0]); printf("### fxp: reference = %.9f", reference[0][0]); printf("### fxp: result1 = %.9f", result1[0][0]); printf("### fxp: reference - result1 = %.9f", (reference[0][0] - result1[0][0])); double_sub_matrix(nInputs, 1, reference, result1, _controller.inputs); printf("### fxp: Y = %.9f", _controller.outputs[0][0]); printf("### fxp: U (after) = %.9f \n### \n### ", _controller.inputs[0][0]); double_matrix_multiplication(nStates,nStates,nStates,1,_controller.A,_controller.states,result1); double_matrix_multiplication(nStates,nInputs,nInputs,1,_controller.B,_controller.inputs,result2); double_add_matrix(nStates, 1, result1, result2, _controller.states); } return _controller.outputs[0][0]; } int verify_safety_state_space(void){ fxp_t output_fxp = fxp_ss_closed_loop_safety(); double output_double = fxp_to_double(output_fxp); # 140 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_safety_state_space.h" 3 4 ((void) sizeof (( # 140 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_safety_state_space.h" output_double <= error_limit # 140 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_safety_state_space.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 140 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_safety_state_space.h" output_double <= error_limit # 140 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_safety_state_space.h" 3 4 ) ; else __assert_fail ( # 140 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_safety_state_space.h" "output_double <= error_limit" # 140 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_safety_state_space.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_safety_state_space.h", 140, __extension__ __PRETTY_FUNCTION__); })) # 140 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_safety_state_space.h" ; return 0; } # 45 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" 1 # 14 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" extern digital_system_state_space _controller; int verify_controllability(void){ int i; int j; fxp_t A_fpx[4][4]; fxp_t B_fpx[4][4]; fxp_t controllabilityMatrix[4][4]; fxp_t backup[4][4]; fxp_t backupSecond[4][4]; double controllabilityMatrix_double[4][4]; for(i=0; i<nStates;i++){ for(j=0; j<(nStatesnInputs);j++){ A_fpx[i][j] = 0.0; B_fpx[i][j] = 0.0; controllabilityMatrix[i][j] = 0.0; backup[i][j] = 0.0; backupSecond[i][j] = 0.0; controllabilityMatrix_double[i][j] = 0.0; } } for(i=0; i<nStates;i++){ for(j=0; j<nStates;j++){ A_fpx[i][j]= fxp_double_to_fxp(_controller.A[i][j]); } } for(i=0; i<nStates;i++){ for(j=0; j<nInputs;j++){ B_fpx[i][j]= fxp_double_to_fxp(_controller.B[i][j]); } } if(nInputs > 1){ int l = 0; for(j=0; j<(nStatesnInputs);){ fxp_exp_matrix(nStates,nStates,A_fpx,l,backup); l++; fxp_matrix_multiplication(nStates,nStates,nStates,nInputs,backup,B_fpx,backupSecond); for(int k = 0; k < nInputs; k++){ for(i = 0; i<nStates;i++){ controllabilityMatrix[i][j]= backupSecond[i][k]; } j++; } } for(i=0; i<nStates;i++){ for(j=0; j<(nStatesnInputs);j++){ backup[i][j]= 0.0; } } fxp_transpose(controllabilityMatrix,backup,nStates,(nStatesnInputs)); fxp_t mimo_controllabilityMatrix_fxp[4][4]; fxp_matrix_multiplication(nStates,(nStatesnInputs),(nStatesnInputs),nStates,controllabilityMatrix,backup,mimo_controllabilityMatrix_fxp); for(i=0; i<nStates;i++){ for(j=0; j<nStates;j++){ controllabilityMatrix_double[i][j]= fxp_to_double(mimo_controllabilityMatrix_fxp[i][j]); } } # 91 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" 3 4 ((void) sizeof (( # 91 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" determinant(controllabilityMatrix_double,nStates) != 0 # 91 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 91 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" determinant(controllabilityMatrix_double,nStates) != 0 # 91 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" 3 4 ) ; else __assert_fail ( # 91 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" "determinant(controllabilityMatrix_double,nStates) != 0" # 91 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h", 91, __extension__ __PRETTY_FUNCTION__); })) # 91 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" ; } else { for(j=0; j<nStates;j++){ fxp_exp_matrix(nStates,nStates,A_fpx,j,backup); fxp_matrix_multiplication(nStates,nStates,nStates,nInputs,backup,B_fpx,backupSecond); for(i = 0; i<nStates;i++){ controllabilityMatrix[i][j]= backupSecond[i][0]; } } for(i=0; i<nStates;i++){ for(j=0; j<nStates;j++){ controllabilityMatrix_double[i][j]= fxp_to_double(controllabilityMatrix[i][j]); } } # 113 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" 3 4 ((void) sizeof (( # 113 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" determinant(controllabilityMatrix_double,nStates) != 0 # 113 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 113 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" determinant(controllabilityMatrix_double,nStates) != 0 # 113 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" 3 4 ) ; else __assert_fail ( # 113 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" "determinant(controllabilityMatrix_double,nStates) != 0" # 113 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h", 113, __extension__ __PRETTY_FUNCTION__); })) # 113 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" ; } return 0; } int verify_controllability_double(void){ int i; int j; double controllabilityMatrix[4][4]; double backup[4][4]; double backupSecond[4][4]; double controllabilityMatrix_double[4][4]; if(nInputs > 1){ int l = 0; for(j=0; j<(nStatesnInputs);){ double_exp_matrix(nStates,nStates,_controller.A,l,backup); l++; double_matrix_multiplication(nStates,nStates,nStates,nInputs,backup,_controller.B,backupSecond); for(int k = 0; k < nInputs; k++){ for(i = 0; i<nStates;i++){ controllabilityMatrix[i][j]= backupSecond[i][k]; } j++; } } for(i=0; i<nStates;i++){ for(j=0; j<(nStatesnInputs);j++){ backup[i][j]= 0.0; } } transpose(controllabilityMatrix,backup,nStates,(nStatesnInputs)); double mimo_controllabilityMatrix_double[4][4]; double_matrix_multiplication(nStates,(nStatesnInputs),(nStatesnInputs),nStates,controllabilityMatrix,backup,mimo_controllabilityMatrix_double); # 154 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" 3 4 ((void) sizeof (( # 154 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" determinant(mimo_controllabilityMatrix_double,nStates) != 0 # 154 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 154 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" determinant(mimo_controllabilityMatrix_double,nStates) != 0 # 154 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" 3 4 ) ; else __assert_fail ( # 154 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" "determinant(mimo_controllabilityMatrix_double,nStates) != 0" # 154 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h", 154, __extension__ __PRETTY_FUNCTION__); })) # 154 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" ; } else { for(j=0; j<nStates;j++){ double_exp_matrix(nStates,nStates,_controller.A,j,backup); double_matrix_multiplication(nStates,nStates,nStates,nInputs,backup,_controller.B,backupSecond); for(i = 0; i<nStates;i++){ controllabilityMatrix[i][j]= backupSecond[i][0]; } } # 163 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" 3 4 ((void) sizeof (( # 163 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" determinant(controllabilityMatrix,nStates) != 0 # 163 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 163 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" determinant(controllabilityMatrix,nStates) != 0 # 163 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" 3 4 ) ; else __assert_fail ( # 163 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" "determinant(controllabilityMatrix,nStates) != 0" # 163 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h", 163, __extension__ __PRETTY_FUNCTION__); })) # 163 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" ; } return 0; } # 46 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" 1 # 17 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" extern digital_system_state_space _controller; int verify_observability(void){ int i; int j; fxp_t A_fpx[4][4]; fxp_t C_fpx[4][4]; fxp_t observabilityMatrix[4][4]; fxp_t backup[4][4]; fxp_t backupSecond[4][4]; double observabilityMatrix_double[4][4]; for(i=0; i<nStates;i++){ for(j=0; j<nStates;j++){ observabilityMatrix[i][j]= 0; A_fpx[i][j]=0; C_fpx[i][j]= 0; backup[i][j]= 0; backupSecond[i][j]= 0; } } for(i=0; i<nStates;i++){ for(j=0; j<nStates;j++){ A_fpx[i][j]= fxp_double_to_fxp(_controller.A[i][j]); } } for(i=0; i<nOutputs;i++){ for(j=0; j<nStates;j++){ C_fpx[i][j]= fxp_double_to_fxp(_controller.C[i][j]); } } if(nOutputs > 1){ int l; j = 0; for(l=0; l<nStates;){ fxp_exp_matrix(nStates,nStates,A_fpx,l,backup); l++; fxp_matrix_multiplication(nOutputs,nStates,nStates,nStates,C_fpx,backup,backupSecond); for(int k = 0; k < nOutputs; k++){ for(i = 0; i<nStates;i++){ observabilityMatrix[j][i]= backupSecond[k][i]; } j++; } } # 80 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" for(i=0; i<nStates;i++){ for(j=0; j<(nStatesnOutputs);j++){ backup[i][j]= 0.0; } } fxp_transpose(observabilityMatrix,backup,(nStatesnOutputs),nStates); # 99 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" fxp_t mimo_observabilityMatrix_fxp[4][4]; fxp_matrix_multiplication(nStates,(nStatesnOutputs),(nStatesnOutputs),nStates,backup,observabilityMatrix,mimo_observabilityMatrix_fxp); # 112 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" for(i=0; i<nStates;i++){ for(j=0; j<nStates;j++){ observabilityMatrix_double[i][j]= fxp_to_double(mimo_observabilityMatrix_fxp[i][j]); } } # 119 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" 3 4 ((void) sizeof (( # 119 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" determinant(observabilityMatrix_double,nStates) != 0 # 119 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 119 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" determinant(observabilityMatrix_double,nStates) != 0 # 119 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" 3 4 ) ; else __assert_fail ( # 119 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" "determinant(observabilityMatrix_double,nStates) != 0" # 119 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h", 119, __extension__ __PRETTY_FUNCTION__); })) # 119 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" ; }else{ for(i=0; i<nStates;i++){ fxp_exp_matrix(nStates,nStates,A_fpx,i,backup); fxp_matrix_multiplication(nOutputs,nStates,nStates,nStates,C_fpx,backup,backupSecond); for(j = 0; j<nStates;j++){ observabilityMatrix[i][j]= backupSecond[0][j]; } } for(i=0; i<nStates;i++){ for(j=0; j<nStates;j++){ observabilityMatrix_double[i][j]= fxp_to_double(observabilityMatrix[i][j]); } } # 134 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" 3 4 ((void) sizeof (( # 134 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" determinant(observabilityMatrix_double,nStates) != 0 # 134 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 134 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" determinant(observabilityMatrix_double,nStates) != 0 # 134 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" 3 4 ) ; else __assert_fail ( # 134 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" "determinant(observabilityMatrix_double,nStates) != 0" # 134 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h", 134, __extension__ __PRETTY_FUNCTION__); })) # 134 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" ; } return 0; } # 47 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_magnitude.h" 1 # 16 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_magnitude.h" extern filter_parameters filter; extern implementation impl; extern digital_system ds; # 28 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_magnitude.h" void resp_mag(double num, int lnum, double* den, int lden, double* res, int N) { double w; int m, i; double out_numRe[N + 1]; double out_numIm[N + 1]; double out_denRe[N + 1]; double out_denIm[N + 1]; double old_out_Re; double zero_test; for (w = 0, i = 0; w <= 3.14159265358979323846; w += 3.14159265358979323846 / N, ++i) { out_numRe[i] = num[0]; out_numIm[i] = 0; for (m = 1; m < lnum; ++m) { old_out_Re = out_numRe[i]; out_numRe[i] = cosTyl(w, 6) * out_numRe[i] - sinTyl(w, 6) * out_numIm[i] + num[m]; out_numIm[i] = sinTyl(w, 6) * old_out_Re + cosTyl(w, 6) * out_numIm[i]; } out_denRe[i] = den[0]; out_denIm[i] = 0; for (m = 1; m < lden; ++m) { old_out_Re = out_denRe[i]; out_denRe[i] = cosTyl(w, 6) * out_denRe[i] - sinTyl(w, 6) * out_denIm[i] + den[m]; out_denIm[i] = sinTyl(w, 6) * old_out_Re + cosTyl(w, 6) * out_denIm[i]; } res[i] = sqrt3(out_numRe[i] * out_numRe[i] + out_numIm[i] * out_numIm[i]); zero_test = sqrt3(out_denRe[i] * out_denRe[i] + out_denIm[i] * out_denIm[i]); __DSVERIFIER_assume(zero_test != 0); res[i] = res[i] / zero_test; } } int verify_magnitude(void) { int freq_response_samples = 100; double w; double w_incr = 1.0 / freq_response_samples; double res[freq_response_samples+1]; int i,j; fxp_t a_fxp[ds.a_size]; fxp_double_to_fxp_array(ds.a, a_fxp, ds.a_size); double _a[ds.a_size]; fxp_to_double_array(_a, a_fxp, ds.a_size); fxp_t b_fxp[ds.b_size]; fxp_double_to_fxp_array(ds.b, b_fxp, ds.b_size); double _b[ds.b_size]; fxp_to_double_array(_b, b_fxp, ds.b_size); resp_mag(ds.b, ds.b_size, ds.a, ds.a_size, res, freq_response_samples); if (filter.type == 1) { for (i = 0, w = 0; (w <= 1.0); ++i, w += w_incr) { if (w <= filter.wp) { __DSVERIFIER_assert_msg(res[i] >= filter.Ap, "\|----------------Passband Failure-------------\|"); } else if (w == filter.wc) { __DSVERIFIER_assert_msg(res[i] <= filter.Ac, "\|-------------Cutoff Frequency Failure--------\|"); } else if ((w >= filter.wr) && (w <= 1)) { __DSVERIFIER_assert_msg(res[i] <= filter.Ar, "\|----------------Stopband Failure-------------\|"); } } } else if (filter.type == 2) { for (i = 0, w = 0; (w <= 1.0); ++i, w += w_incr) { if (w <= filter.wr) { __DSVERIFIER_assert_msg(res[i] <= filter.Ar, "\|----------------Stopband Failure-------------\|"); } else if (w == filter.wc) { __DSVERIFIER_assert_msg(res[i] <= filter.Ac, "\|-------------Cutoff Frequency Failure--------\|"); } else if ((w > filter.wp) && (w <= 1)) { __DSVERIFIER_assert_msg(res[i] >= filter.Ap, "\|----------------Passband Failure-------------\|"); } } } else { __DSVERIFIER_assert(0); } return 0; } # 48 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 extern digital_system ds; extern digital_system plant; digital_system plant_cbmc; extern digital_system controller; extern implementation impl; extern hardware hw; extern digital_system_state_space _controller; extern filter_parameters filter; unsigned int nondet_uint(); extern void initials(); void validation(); void call_verification_task(void * verification_task); void call_closedloop_verification_task(void * closedloop_verification_task); float nondet_float(); double nondet_double(); int main(){ initialization(); validation(); if (1 == 0) rounding_mode = 0; else if (1 == 1) rounding_mode = 1; else if (1 == 2) rounding_mode = 2; if (3 == 3) { call_verification_task(&verify_overflow); } else if (3 == 2) { call_verification_task(&verify_limit_cycle); } else if (3 == 6) { call_verification_task(&verify_error); } else if (3 == 1) { call_verification_task(&verify_zero_input_limit_cycle); } else if (3 == 4) { call_verification_task(&verify_timing_msp_430); } else if (3 == 5) { call_verification_task(&verify_generic_timing); } else if (3 == 7) { call_verification_task(&verify_stability); } else if (3 == 8) { call_verification_task(&verify_minimum_phase); } else if (3 == 9) { call_closedloop_verification_task(&verify_stability_closedloop_using_dslib); } else if (3 == 10) { call_closedloop_verification_task(&verify_limit_cycle_closed_loop); } else if (3 == 11) { call_closedloop_verification_task(&verify_error_closedloop); } else if (3 == 12) { verify_error_state_space(); } else if (3 == 16) { verify_safety_state_space(); } else if (3 == 13) { verify_controllability(); } else if (3 == 14) { verify_observability(); } else if (3 == 15) { verify_limit_cycle_state_space(); } else if (3 == 18) { call_verification_task(&verify_magnitude); } return 0; } void validation() { if (3 == 12 \|\| 3 == 16 \|\| 3 == 15 \|\| 3 == 13 \|\| 3 == 14) { if (0 == 0) { printf("\n\n*******************************************************************************************\n"); printf(" set a K_SIZE to use this property in DSVerifier (use: -DK_SIZE=VALUE) \n"); printf("*****************************************************************************************\n"); __DSVERIFIER_assert(0); exit(1); } initials(); return; } if (((3 != 9) && (3 != 10) && (3 != 11)) && (ds.a_size == 0 \|\| ds.b_size == 0)) { printf("\n\n*************************************************************************\n"); printf(" set (ds and impl) parameters to check with DSVerifier \n"); printf("*************************************************************************\n"); __DSVERIFIER_assert(0); } if ((3 == 9) \|\| (3 == 10) \|\| (3 == 11)) { if (controller.a_size == 0 \|\| plant.b_size == 0 \|\| impl.int_bits == 0 ) { printf("\n\n**************************************************************************************************\n"); printf(" set (controller, plant, and impl) parameters to check CLOSED LOOP with DSVerifier \n"); printf("**************************************************************************************************\n"); __DSVERIFIER_assert(0); } else { printf("\n\n**************************************************************************************************\n"); printf(" set (controller and impl) parameters so that they do not overflow \n"); printf("**************************************************************************************************\n"); unsigned j; for (j = 0; j < controller.a_size; ++j) { const double value=controller.a[j]; __DSVERIFIER_assert(value <= _dbl_max); __DSVERIFIER_assert(value >= _dbl_min); } for (j = 0; j < controller.b_size; ++j) { const double value=controller.b[j]; __DSVERIFIER_assert(value <= _dbl_max); __DSVERIFIER_assert(value >= _dbl_min); } } if (controller.b_size > 0) { unsigned j, zeros=0; for (j = 0; j < controller.b_size; ++j) { if (controller.b[j]==0) ++zeros; } if (zeros == controller.b_size) { printf("\n\n**************************************************************************************************\n"); printf(" The controller numerator must not be zero \n"); printf("**************************************************************************************************\n"); __DSVERIFIER_assert(0); } } if (controller.a_size > 0) { unsigned j, zeros=0; for (j = 0; j < controller.a_size; ++j) { if (controller.a[j]==0) ++zeros; } if (zeros == controller.a_size) { printf("\n\n**************************************************************************************************\n"); printf(" The controller denominator must not be zero \n"); printf("**************************************************************************************************\n"); __DSVERIFIER_assert(0); } } if (0 == 0) { printf("\n\n************************************************************************************************************\n"); printf(" set a connection mode to check CLOSED LOOP with DSVerifier (use: --connection-mode TYPE) \n"); printf("************************************************************************************************************\n"); __DSVERIFIER_assert(0); } } if (3 == 0) { printf("\n\n************************************************************************************\n"); printf(" set the property to check with DSVerifier (use: --property NAME) \n"); printf("************************************************************************************\n"); __DSVERIFIER_assert(0); } if ((3 == 3) \|\| (3 == 2) \|\| (3 == 1) \|\| (3 == 10) \|\| (3 == 11) \|\| (3 == 4 \|\| 3 == 5) \|\| 3 == 6) { if ((10 == 0) && !(0 == 1)) { printf("\n\n*****************************************************************************************\n"); printf(" set a X_SIZE to use this property in DSVerifier (use: --x-size VALUE) \n"); printf("******************************************************************************************\n"); __DSVERIFIER_assert(0); } else if (0 == 1) { X_SIZE_VALUE = nondet_uint(); __DSVERIFIER_assume( X_SIZE_VALUE > (2 ds.a_size)); } else if (10 < 0) { printf("\n\n*******************************************************************************************\n"); printf(" set a X_SIZE > 0 \n"); printf("*****************************************************************************************\n"); __DSVERIFIER_assert(0); } else { X_SIZE_VALUE = 10; } } if ((1 == 0) && (3 != 9) && (3 != 18)) { printf("\n\n******************************************************************************************\n"); printf(" set the realization to check with DSVerifier (use: --realization NAME) \n"); printf("******************************************************************************************\n"); __DSVERIFIER_assert(0); } if (3 == 6 \|\| 3 == 11) { if (impl.max_error == 0) { printf("\n\n********************************************************************\n"); printf(" provide the maximum expected error (use: impl.max_error) \n"); printf("********************************************************************\n"); __DSVERIFIER_assert(0); } } if (3 == 4 \|\| 3 == 5) { if (3 == 5 \|\| 3 == 4) { if (hw.clock == 0l) { printf("\n\n************************\n"); printf(" Clock could not be zero \n"); printf("************************\n"); __DSVERIFIER_assert(0); } hw.cycle = ((double) 1.0 / hw.clock); if (hw.cycle < 0) { printf("\n\n******************************************\n"); printf(" The cycle time could not be representable \n"); printf("******************************************\n"); __DSVERIFIER_assert(0); } if (ds.sample_time == 0) { printf("\n\n**************************************************************************\n"); printf(" provide the sample time of the digital system (ds.sample_time) \n"); printf("**************************************************************************\n"); __DSVERIFIER_assert(0); } } } if (3 == 18) { if (!((filter.Ap > 0) && (filter.Ac >0) && (filter.Ar >0))) { printf("\n\n**************************************************************************\n"); printf(" set values bigger than 0 for Ap, Ac and Ar* \n"); printf("***************************************************************************\n"); __DSVERIFIER_assert(0); } } if ((1 == 7) \|\| (1 == 8) \|\| (1 == 9) \|\| (1 == 10) \|\| (1 == 11) \|\| (1 == 12)) { printf("\n\n***************************************\n"); printf(" Temporarily the cascade modes are disabled \n"); printf("********************************************\n"); __DSVERIFIER_assert(0); } } void call_verification_task(void verification_task) { int i = 0; _Bool base_case_executed = 0; if (0 == 2) { for(i=0; i<ds.b_size; i++) { if (ds.b_uncertainty[i] > 0) { double factor = ds.b_uncertainty[i]; factor = factor < 0 ? factor * (-1) : factor; double min = ds.b[i] - factor; double max = ds.b[i] + factor; if ((factor == 0) && (base_case_executed == 1)) { continue; } else if ((factor == 0) && (base_case_executed == 0)) { base_case_executed = 1; } ds.b[i] = nondet_double(); __DSVERIFIER_assume((ds.b[i] >= min) && (ds.b[i] <= max)); } } for(i=0; i<ds.a_size; i++) { if (ds.a_uncertainty[i] > 0) { double factor = ds.a_uncertainty[i]; factor = factor < 0 ? factor * (-1) : factor; double min = ds.a[i] - factor; double max = ds.a[i] + factor; if ((factor == 0) && (base_case_executed == 1)) { continue; } else if ((factor == 0) && (base_case_executed == 0)) { base_case_executed = 1; } ds.a[i] = nondet_double(); __DSVERIFIER_assume((ds.a[i] >= min) && (ds.a[i] <= max)); } } } else { int i=0; for(i=0; i<ds.b_size; i++) { if (ds.b_uncertainty[i] > 0) { double factor = ((ds.b[i] * ds.b_uncertainty[i]) / 100); factor = factor < 0 ? factor * (-1) : factor; double min = ds.b[i] - factor; double max = ds.b[i] + factor; if ((factor == 0) && (base_case_executed == 1)) { continue; } else if ((factor == 0) && (base_case_executed == 0)) { base_case_executed = 1; } ds.b[i] = nondet_double(); __DSVERIFIER_assume((ds.b[i] >= min) && (ds.b[i] <= max)); } } for(i=0; i<ds.a_size; i++) { if (ds.a_uncertainty[i] > 0) { double factor = ((ds.a[i] * ds.a_uncertainty[i]) / 100); factor = factor < 0 ? factor * (-1) : factor; double min = ds.a[i] - factor; double max = ds.a[i] + factor; if ((factor == 0) && (base_case_executed == 1)) { continue; } else if ((factor == 0) && (base_case_executed == 0)) { base_case_executed = 1; } ds.a[i] = nondet_double(); __DSVERIFIER_assume((ds.a[i] >= min) && (ds.a[i] <= max)); } } } ((void()())verification_task)(); } void call_closedloop_verification_task(void closedloop_verification_task) { _Bool base_case_executed = 0; int i=0; for(i=0; i<plant.b_size; i++) { if (plant.b_uncertainty[i] > 0) { double factor = ((plant.b[i] * plant.b_uncertainty[i]) / 100); factor = factor < 0 ? factor * (-1) : factor; double min = plant.b[i] - factor; double max = plant.b[i] + factor; if ((factor == 0) && (base_case_executed == 1)) { continue; } else if ((factor == 0) && (base_case_executed == 0)) { base_case_executed = 1; } plant_cbmc.b[i] = nondet_double(); __DSVERIFIER_assume((plant_cbmc.b[i] >= min) && (plant_cbmc.b[i] <= max)); }else{ plant_cbmc.b[i] = plant.b[i]; } } for(i=0; i<plant.a_size; i++) { if (plant.a_uncertainty[i] > 0) { double factor = ((plant.a[i] * plant.a_uncertainty[i]) / 100); factor = factor < 0 ? factor * (-1) : factor; double min = plant.a[i] - factor; double max = plant.a[i] + factor; if ((factor == 0) && (base_case_executed == 1)) { continue; } else if ((factor == 0) && (base_case_executed == 0)) { base_case_executed = 1; } plant_cbmc.a[i] = nondet_double(); __DSVERIFIER_assume((plant_cbmc.a[i] >= min) && (plant_cbmc.a[i] <= max)); } else { plant_cbmc.a[i] = plant.a[i]; } } ((void(*)())closedloop_verification_task)(); } # 2 "benchmarks/ds-09-impl2.c" 2 digital_system ds = { .b = { 0.1, -0.1 }, .b_size = 2, .a = { 1.0, -1.0 }, .a_size = 2, .sample_time = 0.02 }; implementation impl = { .int_bits = 8, .frac_bits = 8, .max = 1.0, .min = -1.0 };
the_stack_data/25958.c	#include <stdio.h> #include <stdlib.h> #include <time.h> int main(void) { srand(time(NULL)); const int len = 4; const int len2 = 30; char matrix[len][len]; int arrAd2[len2]; printf("Addition 1\n"); printf("Array without changes:"); for (int i = 0; i < len; i++){ printf("\n\t%d. ", i+1); for(int j = 0; j < len; j++) { ((matrix+i)+j) = (char)(rand()%21+97); printf("%c; ", ((matrix+i)+j)); } } char buf; for (int i = 0, k = len-1; i < len; i++, k--) { for(int j = 0, z = len-1; j < len; j++, z--) { if (j >= k) { continue; } buf = ((matrix+i)+j); ((matrix+i)+j) = ((matrix+z)+k); ((matrix+z)+k) = buf; } } printf("\nModificated array array:"); for (int i = 0; i < len; i++) { printf("\n\t%d. ", i+1); for(int j = 0; j < len; j++) { printf("%c; ", ((matrix+i)+j)); } } printf("\n\nAddition 2\n"); int grans[2]; grans = rand()%(len2-2); (grans + 1) = grans+rand()%(len2-grans); printf("Unsorted array:\n"); for (int i = 0; i < len2; i++) { (arrAd2 + i) = rand()%100; printf("%d ", arrAd2[i]); } printf("\nArray will be sorted between these indexes: %d and %d\n", grans[0], grans[1]); printf("Sorted array:\n"); int temp; for (int i = grans; i < (grans+1); i++){ for (int j = grans; j < (grans+1) - i - 1; j++){ if ((arrAd2+j) > (arrAd2+j+1) ){ temp = arrAd2[j]; (arrAd2+j) = (arrAd2+j + 1); (arrAd2+j + 1) = temp; } } } for (int i = 0; i < len2; i++) { printf("%d, ", *(arrAd2 + i)); } return 0; }
the_stack_data/75510.c	/* HAL raised several warnings, ignore them */ #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wunused-parameter" #ifdef STM32F1xx #include "stm32f1xx_hal_nor.c" #elif STM32F2xx #include "stm32f2xx_hal_nor.c" #elif STM32F3xx #include "stm32f3xx_hal_nor.c" #elif STM32F4xx #include "stm32f4xx_hal_nor.c" #elif STM32F7xx #include "stm32f7xx_hal_nor.c" #elif STM32G4xx #include "stm32g4xx_hal_nor.c" #elif STM32H7xx #include "stm32h7xx_hal_nor.c" #elif STM32L1xx #include "stm32l1xx_hal_nor.c" #elif STM32L4xx #include "stm32l4xx_hal_nor.c" #elif STM32L5xx #include "stm32l5xx_hal_nor.c" #elif STM32U5xx #include "stm32u5xx_hal_nor.c" #endif #pragma GCC diagnostic pop
the_stack_data/179831455.c	#include <errno.h> #include <regex.h> #include <stdbool.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <unistd.h> #include <time.h> #define BUFSIZE 1024 void writeHelp(void) { printf("A simple sleep application"); printf("\n"); printf("Usage:"); printf("\n"); printf("countdowntimer 2m2s"); printf("\n"); } char addChars(char char1, char char2, char destination[]) { destination[0] = char1; destination[1] = char2; destination[2] = '\0'; return destination; } char char2String(char character, char string[]) { string[0] = character; string[1] = '\0'; return string; } char insertString(char string1[], char string2[], int position) { size_t length1 = strlen(string1); size_t length2 = strlen(string2); if (position < 0) position = 0; if (position > length1) position = length1; char newPos = string1 + position; memmove(newPos + length2, newPos, length1 - position); memmove(newPos, string2, length2); return string1; } char appendString(char string1[], char string2[]) { size_t length1 = strlen(string1); int position = length1; char newPos = string1 + position; memmove(newPos, string2, length1); return string1; } int isNum(char num) { regex_t regex; int reti, return_value; char checkValue[1]; checkValue[0] = num; checkValue[1] = '\0'; reti = regcomp(&regex,"[0-9]",0); if (reti) { fprintf(stderr, "Could not compile regex\n"); exit(1); } reti = regexec(&regex, checkValue, 0, NULL, 0); if (!reti) { return_value = 0; } else { return_value = 1; } regfree(&regex); return return_value; } int sleep_milliseconds(long milliseconds) { struct timespec ts; int res; if (milliseconds < 0) { return -1; } ts.tv_sec = milliseconds / 1000; ts.tv_nsec = (milliseconds % 1000) * 1000000; do { res = nanosleep(&ts, &ts); } while (res && errno == EINTR); return res; } int main(int argc, char argv[]){ if (argc >= 2) { int i = 0, counterIntervals = 0, counterMeasurements = 0, sleep = 0, timeIntervals[BUFSIZE]; char timeMeasurements[BUFSIZE][BUFSIZE], tmpNumbers[BUFSIZE], currentChar[BUFSIZE], tmpChar[BUFSIZE], currentCharacter, previousCharacter; char timeArg = argv[1]; size_t length = strlen(timeArg); for (; i < length; i++) { previousCharacter = timeArg[i-1]; currentCharacter = timeArg[i]; memset(tmpChar, '\0', BUFSIZE); memset(tmpNumbers, '\0', BUFSIZE); if ((isNum(currentCharacter)) == 0) { counterMeasurements--; if ((isNum(previousCharacter)) == 0) { counterIntervals--; sprintf(tmpChar, "%d", timeIntervals[counterIntervals]); appendString(tmpChar, char2String(currentCharacter, currentChar)); timeIntervals[counterIntervals] = atoi(tmpChar); } else { timeIntervals[counterIntervals] = atoi(char2String(currentCharacter,tmpNumbers)); } } else { counterIntervals--; if ((strcmp(char2String(currentCharacter, currentChar), char2String('s', tmpChar))) == 0) { if ((strcmp(char2String(previousCharacter, currentChar), char2String('m', tmpChar))) == 0) { counterMeasurements--; strcpy(timeMeasurements[counterMeasurements], "ms"); } else { strcpy(timeMeasurements[counterMeasurements], char2String(currentCharacter, tmpChar)); } } else { strcpy(timeMeasurements[counterMeasurements], char2String(currentCharacter, tmpChar)); } } counterIntervals++; counterMeasurements++; } for (i = 0; i < counterMeasurements; i++) { if (strcmp(timeMeasurements[i], "ms") == 0) { sleep = sleep + timeIntervals[i]; } else if (strcmp(timeMeasurements[i], "s") == 0) { sleep = sleep + (timeIntervals[i] * 1000); } else if (strcmp(timeMeasurements[i], "m") == 0) { sleep = sleep + ((timeIntervals[i] * 60) * 1000); } else if (strcmp(timeMeasurements[i], "m") == 0) { sleep = sleep + (((timeIntervals[i] * 60) * 60) * 1000); } } printf("Amonut of milliseconds to sleep for %d\n", sleep); sleep_milliseconds(sleep); } else { writeHelp(); } }
the_stack_data/52256.c	/* * * cppkw.c * * generate the cppkeywords.in file * this will include all reserved macros in * addition to all reserved keywords * / // // Copyright (c) Microsoft Corporation. All rights reserved. // #include <string.h> #include <stdio.h> #include <malloc.h> // usage : cppkw <location of keywdat.h> <location of p0io.c> <outputfile> int main(int argc, char argv[]) { char szRoot; char szData; char szTemp; char szEnd; FILE fpIn; FILE fpOut; int nRet; long nFileLength = 0; nRet = 0; szRoot = NULL; szData = NULL; szTemp = NULL; szEnd = NULL; fpIn = NULL; fpOut = NULL; if (argc < 4) { printf("usage : cppkw <location of keywdat.h> <location of p0io.c> <outputfile>\n"); return 1; } fpIn = fopen(argv[1], "r"); if (!fpIn) { printf("error : could not open keywdat file \"%s\"\n", argv[1]); return 1; } fpOut = fopen(argv[3], "w"); if (!fpOut) { printf("error : could not open output file \"%s\" for writing\n", argv[3]); goto error; } fprintf(fpOut, "%%class=CCppKeywordLookup\r\n" "%%preamble\r\n" "//\r\n" "// generated with VC7Libs\\Nonship\\Src\\Sproxy2\\static_hash\\static_hash /i cppkeywords.in /o CppKeywordTable.h /w\r\n" "//\r\n" "\r\n" "%%type=char\r\n" "%%data\r\n"); nFileLength = _filelength(_fileno(fpIn)); szData = (char )malloc(nFileLength+1); if (!szData) { printf("out of memory\n"); goto error; } fread(szData, nFileLength, 1, fpIn); szData[nFileLength] = '\0'; szTemp = szRoot = szData; szEnd = szData+nFileLength; szTemp = strstr(szTemp, "\nDAT(\""); while (szTemp != NULL) { char szTemp2 = NULL; szData = szTemp; szData+= sizeof("\nDAT(\"")-1; if (szData >= szEnd) { printf("error in (expected) format of keywdat file.\n"); goto error; } szTemp2 = strchr(szData, '"'); if (!szTemp2) { printf("error in (expected) format of keywdat file.\n"); goto error; } fprintf(fpOut, "%.s,0\r\n", szTemp2-szData, szData); szTemp = strstr(szTemp+1, "\nDAT(\""); } fclose(fpIn); fpIn = fopen(argv[2], "r"); if (!fpIn) { printf("error : could not open p0io file \"%s\" for reading.\n", argv[2]); goto error; } nFileLength = _filelength(_fileno(fpIn)); if ((szEnd-szRoot) < nFileLength) { free(szRoot); szRoot = (char )malloc(nFileLength+1); if (!szRoot) { printf("out of memory.\n"); goto error; } } fread(szRoot, nFileLength, 1, fpIn); szRoot[nFileLength] = '\0'; szTemp = szData = szRoot; szEnd = szData+nFileLength; szTemp = strstr(szTemp, "GetIdForString((pIdString_t) \""); while (szTemp != NULL) { char szTemp2 = NULL; szData = szTemp; szData += sizeof("GetIdForString((pIdString_t) \"")-1; if (szData >= szEnd) { printf("error in (expected) format of p0io file.\n"); goto error; } szTemp2 = strchr(szData, '"'); if (!szTemp2) { printf("error in (expected) format of p0io file.\n"); goto error; } fprintf(fpOut, "%.s,0\r\n", szTemp2-szData, szData); szTemp = strstr(szTemp+1, "GetIdForString((pIdString_t) \""); } goto end; error: nRet = 1; end: if (fpIn != NULL) { fclose(fpIn); } if (fpOut != NULL) { fclose(fpOut); } if (szRoot != NULL) { free(szRoot); } return nRet; }
the_stack_data/64200877.c	#ifdef COMPILE_FOR_TEST #include <assert.h> #define assume(cond) assert(cond) #endif void main(int argc, char* argv[]) { int x_0_0;//sh_buf.outcnt int x_0_1;//sh_buf.outcnt int x_0_2;//sh_buf.outcnt int x_0_3;//sh_buf.outcnt int x_0_4;//sh_buf.outcnt int x_1_0;//sh_buf.outbuf[0] int x_1_1;//sh_buf.outbuf[0] int x_2_0;//sh_buf.outbuf[1] int x_2_1;//sh_buf.outbuf[1] int x_3_0;//sh_buf.outbuf[2] int x_3_1;//sh_buf.outbuf[2] int x_4_0;//sh_buf.outbuf[3] int x_4_1;//sh_buf.outbuf[3] int x_5_0;//sh_buf.outbuf[4] int x_5_1;//sh_buf.outbuf[4] int x_6_0;//sh_buf.outbuf[5] int x_7_0;//sh_buf.outbuf[6] int x_8_0;//sh_buf.outbuf[7] int x_9_0;//sh_buf.outbuf[8] int x_10_0;//sh_buf.outbuf[9] int x_11_0;//LOG_BUFSIZE int x_11_1;//LOG_BUFSIZE int x_12_0;//CREST_scheduler::lock_0 int x_12_1;//CREST_scheduler::lock_0 int x_12_2;//CREST_scheduler::lock_0 int x_13_0;//t3 T0 int x_14_0;//t2 T0 int x_15_0;//arg T0 int x_16_0;//functioncall::param T0 int x_16_1;//functioncall::param T0 int x_17_0;//buffered T0 int x_18_0;//functioncall::param T0 int x_18_1;//functioncall::param T0 int x_19_0;//functioncall::param T0 int x_19_1;//functioncall::param T0 int x_20_0;//functioncall::param T0 int x_20_1;//functioncall::param T0 int x_20_2;//functioncall::param T0 int x_21_0;//functioncall::param T0 int x_21_1;//functioncall::param T0 int x_22_0;//direction T0 int x_23_0;//functioncall::param T0 int x_23_1;//functioncall::param T0 int x_24_0;//functioncall::param T0 int x_24_1;//functioncall::param T0 int x_25_0;//functioncall::param T0 int x_25_1;//functioncall::param T0 int x_26_0;//functioncall::param T0 int x_26_1;//functioncall::param T0 int x_27_0;//functioncall::param T0 int x_27_1;//functioncall::param T0 int x_28_0;//functioncall::param T0 int x_28_1;//functioncall::param T0 int x_29_0;//functioncall::param T0 int x_29_1;//functioncall::param T0 int x_30_0;//functioncall::param T0 int x_30_1;//functioncall::param T0 int x_31_0;//functioncall::param T0 int x_31_1;//functioncall::param T0 int x_32_0;//functioncall::param T0 int x_32_1;//functioncall::param T0 int x_33_0;//functioncall::param T0 int x_33_1;//functioncall::param T0 int x_34_0;//functioncall::param T0 int x_34_1;//functioncall::param T0 int x_35_0;//functioncall::param T1 int x_35_1;//functioncall::param T1 int x_36_0;//functioncall::param T1 int x_36_1;//functioncall::param T1 int x_37_0;//i T1 int x_37_1;//i T1 int x_37_2;//i T1 int x_38_0;//rv T1 int x_39_0;//functioncall::param T1 int x_39_1;//functioncall::param T1 int x_40_0;//functioncall::param T1 int x_40_1;//functioncall::param T1 int x_41_0;//functioncall::param T1 int x_41_1;//functioncall::param T1 int x_42_0;//functioncall::param T1 int x_42_1;//functioncall::param T1 int x_43_0;//functioncall::param T1 int x_43_1;//functioncall::param T1 int x_44_0;//functioncall::param T1 int x_44_1;//functioncall::param T1 int x_45_0;//functioncall::param T2 int x_45_1;//functioncall::param T2 int x_46_0;//functioncall::param T2 int x_46_1;//functioncall::param T2 int x_47_0;//i T2 int x_47_1;//i T2 int x_47_2;//i T2 int x_47_3;//i T2 int x_48_0;//rv T2 int x_49_0;//rv T2 int x_50_0;//blocksize T2 int x_50_1;//blocksize T2 int x_51_0;//functioncall::param T2 int x_51_1;//functioncall::param T2 int x_51_2;//functioncall::param T2 int x_52_0;//apr_thread_mutex_lock::rv T2 int x_52_1;//apr_thread_mutex_lock::rv T2 int x_53_0;//functioncall::param T2 int x_53_1;//functioncall::param T2 int x_54_0;//status T2 int x_54_1;//status T2 int x_55_0;//functioncall::param T2 int x_55_1;//functioncall::param T2 int x_56_0;//functioncall::param T2 int x_56_1;//functioncall::param T2 int x_57_0;//functioncall::param T2 int x_57_1;//functioncall::param T2 int x_58_0;//functioncall::param T2 int x_58_1;//functioncall::param T2 int x_59_0;//functioncall::param T2 int x_59_1;//functioncall::param T2 int x_59_2;//functioncall::param T2 int x_60_0;//functioncall::param T2 int x_60_1;//functioncall::param T2 T_0_0_0: x_0_0 = 0; T_0_1_0: x_1_0 = 0; T_0_2_0: x_2_0 = 0; T_0_3_0: x_3_0 = 0; T_0_4_0: x_4_0 = 0; T_0_5_0: x_5_0 = 0; T_0_6_0: x_6_0 = 0; T_0_7_0: x_7_0 = 0; T_0_8_0: x_8_0 = 0; T_0_9_0: x_9_0 = 0; T_0_10_0: x_10_0 = 0; T_0_11_0: x_11_0 = 0; T_0_12_0: x_13_0 = 3792446512; T_0_13_0: x_14_0 = 1060328032; T_0_14_0: x_15_0 = 0; T_0_15_0: x_16_0 = 1463794471; T_0_16_0: x_16_1 = -1; T_0_17_0: x_17_0 = 0; T_0_18_0: x_18_0 = 819615146; T_0_19_0: x_18_1 = x_17_0; T_0_20_0: x_19_0 = 1354901200; T_0_21_0: x_19_1 = 97; T_0_22_0: x_20_0 = 1788201287; T_0_23_0: x_20_1 = 0; T_0_24_0: x_21_0 = 1303176133; T_0_25_0: x_21_1 = 0; T_0_26_0: x_22_0 = 1060323392; T_0_27_0: x_23_0 = 247662543; T_0_28_0: x_23_1 = x_22_0; T_0_29_0: x_24_0 = 350595227; T_0_30_0: x_24_1 = 0; T_0_31_0: x_12_0 = -1; T_0_32_0: x_0_1 = 5; T_0_33_0: x_1_1 = 72; T_0_34_0: x_2_1 = 69; T_0_35_0: x_3_1 = 76; T_0_36_0: x_4_1 = 76; T_0_37_0: x_5_1 = 79; T_0_38_0: x_25_0 = 1024841789; T_0_39_0: x_25_1 = 83; T_0_40_0: x_26_0 = 459367916; T_0_41_0: x_26_1 = 1; T_0_42_0: x_27_0 = 696602055; T_0_43_0: x_27_1 = 1; T_0_44_0: x_28_0 = 523197950; T_0_45_0: x_28_1 = 1; T_0_46_0: x_29_0 = 69762775; T_0_47_0: x_29_1 = 82; T_0_48_0: x_30_0 = 138721683; T_0_49_0: x_30_1 = 90; T_0_50_0: x_31_0 = 1216202088; T_0_51_0: x_31_1 = 1; T_0_52_0: x_32_0 = 1999259928; T_0_53_0: x_32_1 = 1; T_0_54_0: x_33_0 = 935451565; T_0_55_0: x_33_1 = 2; T_0_56_0: x_34_0 = 1047781297; T_0_57_0: x_34_1 = 2; T_0_58_0: x_11_1 = 6; T_1_59_1: x_35_0 = 548646098; T_1_60_1: x_35_1 = x_27_1; T_1_61_1: x_36_0 = 545948908; T_1_62_1: x_36_1 = x_28_1; T_1_63_1: x_37_0 = 0; T_1_64_1: x_38_0 = -1108884991; T_2_65_2: x_45_0 = 815422236; T_2_66_2: x_45_1 = x_33_1; T_2_67_2: x_46_0 = 1955699756; T_2_68_2: x_46_1 = x_34_1; T_2_69_2: x_47_0 = 0; T_2_70_2: x_48_0 = -1110986239; T_2_71_2: if (x_0_1 + x_46_1 > x_11_1 && x_0_1 != 0) x_49_0 = 1067390896; T_2_72_2: if (x_0_1 + x_46_1 > x_11_1 && x_0_1 != 0 && x_18_1 != 0) x_50_0 = 10990; T_2_73_2: if (x_0_1 + x_46_1 > x_11_1 && x_0_1 != 0 && x_18_1 != 0) x_51_0 = 1860455937; T_2_74_2: if (x_0_1 + x_46_1 > x_11_1 && x_0_1 != 0 && x_18_1 != 0) x_51_1 = x_0_1; T_2_75_2: if (x_0_1 + x_46_1 > x_11_1 && x_0_1 != 0 && x_18_1 != 0 && x_0_1 == x_51_1) x_52_0 = 0; T_2_76_2: if (x_0_1 + x_46_1 > x_11_1 && x_0_1 != 0 && x_18_1 != 0 && x_0_1 == x_51_1 && 0 == x_12_0 + 1) x_12_1 = 2; T_2_77_2: if (x_0_1 + x_46_1 > x_11_1 && x_0_1 != 0 && x_18_1 != 0 && x_0_1 == x_51_1 && 2 == x_12_1) x_52_1 = 0; T_2_78_2: if (x_0_1 + x_46_1 > x_11_1 && x_0_1 != 0 && x_18_1 != 0 && 2 == x_12_1) x_53_0 = 2060277499; T_2_79_2: if (x_0_1 + x_46_1 > x_11_1 && x_0_1 != 0 && x_18_1 != 0 && 2 == x_12_1) x_53_1 = 0; T_2_80_2: if (x_0_1 + x_46_1 > x_11_1 && x_0_1 != 0 && x_18_1 != 0 && 0 == x_53_1 && 2 == x_12_1) x_50_1 = x_51_1; T_2_81_2: if (x_0_1 + x_46_1 > x_11_1 && x_0_1 != 0 && x_18_1 != 0 && 0 == x_53_1 && 2 == x_12_1) x_20_2 = x_20_1 + x_50_1; T_2_82_2: if (x_0_1 + x_46_1 > x_11_1 && x_0_1 != 0 && x_18_1 != 0 && 0 == x_53_1 && 2 == x_12_1) x_51_2 = -1*x_50_1 + x_51_1; T_2_83_2: if (x_0_1 + x_46_1 > x_11_1 && x_0_1 != 0 && x_18_1 != 0 && x_51_2 <= 0 && 2 == x_12_1) x_54_0 = 0; T_2_84_2: if (x_0_1 + x_46_1 > x_11_1 && x_0_1 != 0 && x_18_1 != 0 && x_51_2 <= 0 && 2 == x_12_1) x_12_2 = -1; T_2_85_2: if (x_0_1 + x_46_1 > x_11_1 && x_0_1 != 0 && x_18_1 != 0 && x_51_2 <= 0) x_54_1 = 0; T_2_86_2: if (x_0_1 + x_46_1 > x_11_1 && x_0_1 != 0) x_55_0 = 127324543; T_2_87_2: if (x_0_1 + x_46_1 > x_11_1 && x_0_1 != 0) x_55_1 = x_53_1; T_2_88_2: if (x_0_1 + x_46_1 > x_11_1 && x_0_1 != 0) x_56_0 = 540047507; T_2_89_2: if (x_0_1 + x_46_1 > x_11_1 && x_0_1 != 0) x_56_1 = x_55_1; T_2_90_2: if (x_0_1 + x_46_1 > x_11_1 && x_0_1 != 0) x_0_2 = 0; T_2_91_2: if (x_46_1 < x_11_1) x_57_0 = 1586060945; T_2_92_2: if (x_46_1 < x_11_1) x_57_1 = 47202801571584; T_2_93_2: if (x_36_1 < x_11_1) x_39_0 = 1786556134; T_1_94_1: if (x_36_1 < x_11_1) x_39_1 = 47202799470336; T_1_95_1: if (x_36_1 < x_11_1) x_40_0 = 41509753; T_1_96_1: if (x_36_1 < x_11_1) x_40_1 = x_0_2 + x_36_1; T_1_97_1: if (x_36_1 < x_11_1) x_37_1 = 0; T_1_98_1: if (x_36_1 < x_11_1 && x_37_1 < x_35_1) x_41_0 = 1091044280; T_1_99_1: if (x_36_1 < x_11_1 && x_37_1 < x_35_1) x_41_1 = 47202799470336; T_1_100_1: if (x_36_1 < x_11_1) x_37_2 = 1 + x_37_1; T_1_101_1: if (x_36_1 < x_11_1) x_42_0 = 1945536893; T_1_102_1: if (x_36_1 < x_11_1) x_42_1 = 47202799470336; T_1_103_1: if (x_36_1 < x_11_1) x_0_3 = x_0_2 + x_36_1; T_1_104_1: if (x_36_1 < x_11_1) x_43_0 = 892251223; T_1_105_1: if (x_36_1 < x_11_1) x_43_1 = 47202799470336; T_1_106_1: if (x_46_1 < x_11_1) x_58_0 = 407355103; T_1_107_1: if (x_46_1 < x_11_1) x_58_1 = x_0_2 + x_46_1; T_1_108_1: if (x_46_1 < x_11_1) x_47_1 = 0; T_2_109_2: if (x_46_1 < x_11_1 && x_47_1 < x_45_1) x_59_0 = 617668391; T_2_110_2: if (x_46_1 < x_11_1 && x_47_1 < x_45_1) x_59_1 = 47202801571584; T_2_111_2: if (x_46_1 < x_11_1) x_47_2 = 1 + x_47_1; T_2_112_2: if (x_46_1 < x_11_1 && x_47_2 < x_45_1) x_59_2 = 47202801571584; T_2_113_2: if (x_46_1 < x_11_1) x_47_3 = 1 + x_47_2; T_2_114_2: if (x_46_1 < x_11_1) x_60_0 = 99668775; T_2_115_2: if (x_46_1 < x_11_1) x_60_1 = 47202801571584; T_2_116_2: if (x_46_1 < x_11_1) x_0_4 = x_0_3 + x_46_1; T_2_117_2: if (x_36_1 < x_11_1) x_44_0 = 48072742; T_2_118_2: if (x_36_1 < x_11_1) x_44_1 = 47202799470336; T_2_119_2: if (x_36_1 < x_11_1) assert(x_0_4 == x_40_1); }
the_stack_data/132953914.c	/* M3 -- Meka Robotics Real-Time Control System Copyright (c) 2010 Meka Robotics Author: [email protected] (Aaron Edsinger) M3 is free software: you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. M3 is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with M3. If not, see <http://www.gnu.org/licenses/>. / #ifdef USE_BLDC #include "p33Fxxxx.h" #include "setup.h" #include "bldc.h" #include "ethercat.h" #include "timer3.h" #include "dio.h" #include "pwm.h" unsigned int bldc_fwd; unsigned int bldc_hall_val; /********************************************************** Low side driver table is as below. In the StateLoTableClk and the StateLoTableAntiClk tables, the Low side driver is PWM while the high side driver is either on or off. See Microchip AN957 **********************************************************/ / Sensor Code order: 5 4 6 2 3 1 X X POVD3H POVD3L POVD2H POVD2L POVD1H POVD1L X X POUT3H POUT3L POUT2H POUT2L POUT1H POUT1L X X Q5 Q6 Q3 Q4 Q1 Q2 X X Q5 Q6 Q3 Q4 Q1 Q2 POVDXX=1: PWM POVDXX=0: POUT //4Q PWM //Table based on Microchip AN857 Forward: Code: 1 : Q1=On, Q6=PWM = 0011 0000 0000 0010 = 0x3002 Code: 2 : Q3=On, Q2=PWM = 0000 0011 0000 1000 = 0x0308 Code: 3 : Q3=On, Q6=PWM = 0011 0000 0000 1000 = 0x3008 Code: 4 : Q5=On, Q4=PWM = 0000 1100 0010 0000 = 0x0C20 Code: 5 : Q1=On, Q4=PWM = 0000 1100 0000 0010 = 0x0C02 Code: 6 : Q5=On, Q2=PWM = 0000 0011 0010 0000 = 0x0320 //2Q PWM //Table based on Microchip AN857 Forward: Code: 1 : Q1=On, Q6=PWM = 0001 0000 0000 0010 = 0x1002 Code: 2 : Q3=On, Q2=PWM = 0000 0001 0000 1000 = 0x0108 Code: 3 : Q3=On, Q6=PWM = 0001 0000 0000 1000 = 0x1008 Code: 4 : Q5=On, Q4=PWM = 0000 0100 0010 0000 = 0x0420 Code: 5 : Q1=On, Q4=PWM = 0000 0100 0000 0010 = 0x0402 Code: 6 : Q5=On, Q2=PWM = 0000 0001 0010 0000 = 0x0120 / //Pwm low leg #ifdef BLDC_SWITCH_LO_LEG #ifdef PWM_4Q unsigned int StateTableFwd[] = {0x0000, 0x3002, 0x0308, 0x3008, 0x0C20, 0x0C02, 0x0320, 0x0000}; unsigned int StateTableRev[] = {0x0000, 0x0320, 0x0C02, 0x0C20, 0x3008, 0x0308, 0x3002, 0x0000}; #endif #ifdef PWM_2Q unsigned int StateTableFwd[] = {0x0000, 0x1002, 0x0108, 0x1008, 0x0420, 0x0402, 0x120, 0x0000}; unsigned int StateTableRev[] = {0x0000, 0x0120, 0x0402, 0x0420, 0x1008, 0x0108, 0x1002, 0x0000}; #endif #else //Pwm high leg unsigned int StateTableFwd[] = {0x0000, 0x0310, 0x3004, 0x0304, 0x0C01, 0x0C10, 0x3001, 0x0000}; unsigned int StateTableRev[] = {0x0000, 0x3001, 0x0C10, 0x0C01, 0x0304, 0x3004, 0x0310, 0x0000}; #endif void set_bldc_dir(unsigned int fwd) { bldc_fwd=fwd; bldc_hall_val = BLDC_HALL_STATE; //ec_debug[0]=bldc_hall_val; if (bldc_fwd) OVDCON = StateTableFwd[bldc_hall_val]; else OVDCON = StateTableRev[bldc_hall_val]; } #ifdef USE_BLDC_INPUT_CAPTURE void __attribute__((__interrupt__, no_auto_psv)) _IC1Interrupt(void) { _IC1IF = 0; //Clear the flag bldc_hall_val = BLDC_HALL_STATE; //if (bldc_hall_val == 0 \|\| bldc_hall_val==7) // ec_debug[0]=++; //ec_debug[0]=bldc_hall_val; if (bldc_fwd) OVDCON = StateTableFwd[bldc_hall_val]; else OVDCON = StateTableRev[bldc_hall_val]; } void __attribute__((__interrupt__, no_auto_psv)) _IC2Interrupt(void) { _IC2IF = 0; //Clear the flag bldc_hall_val = BLDC_HALL_STATE; //if (bldc_hall_val == 0 \|\| bldc_hall_val==7) // ec_debug[0]=++; //ec_debug[0]=bldc_hall_val; if (bldc_fwd) OVDCON = StateTableFwd[bldc_hall_val]; else OVDCON = StateTableRev[bldc_hall_val]; } void __attribute__((__interrupt__, no_auto_psv)) _IC7Interrupt(void) { _IC7IF = 0; //Clear the flag bldc_hall_val = BLDC_HALL_STATE; //if (bldc_hall_val == 0 \|\| bldc_hall_val==7) // ec_debug[0]=++; ec_debug[0]=bldc_hall_val; if (bldc_fwd) OVDCON = StateTableFwd[bldc_hall_val]; else OVDCON = StateTableRev[bldc_hall_val]; } #endif #ifdef USE_BLDC_CHANGE_NOTIFICATION void __attribute__((__interrupt__, no_auto_psv)) _CNInterrupt(void) { _CNIF=0; bldc_hall_val = BLDC_HALL_STATE; ///if (bldc_hall_val==0 \|\| bldc_hall_val==7) //ec_debug[0]=ec_debug[0]+1;//=bldc_hall_val; if (bldc_fwd) OVDCON = StateTableFwd[bldc_hall_val]; else OVDCON = StateTableRev[bldc_hall_val]; } #endif //We don't really need Timer2 or Input Capture //This can be done with Change Notification IRQ //Switch? #define T2_TICKS_PER_US 5 #define T2_PERIOD_US 5000 #define T2_PERIOD_TICKS T2_PERIOD_UST2_TICKS_PER_US void setup_bldc(void) { bldc_fwd=0; bldc_hall_val = BLDC_HALL_STATE; //ec_debug[0]=bldc_hall_val; OVDCON = StateTableRev[bldc_hall_val]; #ifdef USE_BLDC_INPUT_CAPTURE //Setup Timer2 T2CON = 0; TMR2 = 0x0000; T2CONbits.TCKPS=1; // 1:8 Prescalar, so 1 tick = 200ns , 5 ticks/us PR2 = (unsigned int)T2_PERIOD_TICKS; //Set period to roll-over every T2_PERIOD_TICKS T2CONbits.TON = 1; //Start Timer 2 //Setup input capture 1 IC1CONbits.ICM=0; //Disable IC1 IC1CONbits.ICTMR=1; //Use Timer2 time-base IC1CONbits.ICI=0; //Interrupt every capture event IC1CONbits.ICM=1; //Capture every edge IFS0bits.IC1IF = 0; //Clear IC1 Interrupt Status Flag IEC0bits.IC1IE = 1; //Enable IC1 interrupt //Setup input capture 2 IC2CONbits.ICM=0; //Disable IC2 IC2CONbits.ICTMR=1; //Use Timer2 time-base IC2CONbits.ICI=0; //Interrupt every capture event IC2CONbits.ICM=1; //Capture every edge IFS0bits.IC2IF = 0; //Clear IC2 Interrupt Status Flag IEC0bits.IC2IE = 1; //Enable IC2 interrupt //Setup input capture 7 IC7CONbits.ICM=0; //Disable IC2 IC7CONbits.ICTMR=1; //Use Timer2 time-base IC7CONbits.ICI=0; //Interrupt every capture event IC7CONbits.ICM=1; //Capture every edge IFS1bits.IC7IF = 0; //Clear IC2 Interrupt Status Flag IEC1bits.IC7IE = 1; //Enable IC2 interrupt //Maxon motors have internal pull-up, otherwise.. //CNPU1bits.CN1PUE=1; //Enable weak pull-up on CN1 //CNPU2bits.CN21PUE=1; //Enable weak pull-up on CN21 //CNPU2bits.CN22PUE=1; //Enable weak pull-up on CN22 #endif #ifdef USE_BLDC_CHANGE_NOTIFICATION //Needed for the New EC45 50W motors !!! They do not have internal pull ups #if defined M3_MAX2_BLDC_A2R2 \|\|defined M3_MAX2_BLDC_A2R1 \|\| defined M3_MAX2_BLDC_T2R1 \|\| defined M3_MAX2_BLDC_T2R2 \|\| defined M3_MAX2_BLDC_A2R3 \|\| defined M3_MAX2_BLDC_T2R3 CNEN1bits.CN1IE =1; //Enable change-notification interrupt CN1: Hall1 CNEN2bits.CN21IE =1; //Enable change-notification interrupt CN21: Hall2 CNEN2bits.CN22IE =1; //Enable change-notification interrupt CN22: Hall3 CNPU1bits.CN1PUE=1; //Enable weak pull-up on CN1 CNPU2bits.CN21PUE=1; //Enable weak pull-up on CN21 CNPU2bits.CN22PUE=1; //Enable weak pull-up on CN22 _CNIF = 0; //Clear change-notification Interrupt Status Flag _CNIE=1;//Enable change notification interrupt #endif #endif } #endif
the_stack_data/220455677.c	// /LLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLL // 【平台】北京龙邱智能科技TC264DA核心板 // 【编写】ZYF/chiusir // 【E-mail 】[email protected] // 【软件版本】V1.1 版权所有，单位使用请先联系授权 // 【最后更新】2020年4月10日 // 【相关信息参考下列地址】 // 【网站】http://www.lqist.cn // 【淘宝店铺】http://longqiu.taobao.com // ------------------------------------------------ // 【dev.env.】Hightec4.9.3/Tasking6.3及以上版本 // 【Target 】 TC264DA // 【Crystal】 20.000Mhz // 【SYS PLL】 200MHz // ________________________________________________________________ // QQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQ/ // #include <LQ_I2C_9AX.h> // #include <LQ_OLED096.h> // #include <LQ_SOFTI2C.h> // #include <LQ_STM.h> // #include <stdio.h> // /** // * @brief 九轴测试 // * // * @param // * // * @return // * // * @note // * // * @example // * // * @date 2019/6/13 星期四 // / // void Test_9AX(void) // { // char txt[30]; // short aacx,aacy,aacz; //加速度传感器原始数据 // short gyrox,gyroy,gyroz; //陀螺仪原始数据 // short magx, magy, magz; //地磁计原始数据 // OLED_Init(); //LCD初始化 // OLED_CLS(); //LCD清屏 // IIC_Init(); // OLED_P8x16Str(15,0,"LQ 9AX Test"); // if(LQ9AX_Init()) // { // OLED_P8x16Str(0,2,"9AX Test Fail"); // #pragma warning 557 // 屏蔽警告 // while (1); // #pragma warning default // 打开警告 // } // while(1) // { // FX_8700_GetACCRaw(&aacx,&aacy,&aacz); //得到加速度传感器数据 // FX_8700_GetMAGRaw(&magx, &magy, &magz); // FX_21002_GetRaw(&gyrox, &gyroy, &gyroz); // sprintf((char)txt,"ax:%06d",aacx); // OLED_P6x8Str(0,2,txt); // sprintf((char)txt,"ay:%06d",aacy); // OLED_P6x8Str(0,3,txt); // sprintf((char)txt,"az:%06d",aacz); // OLED_P6x8Str(0,4,txt); // sprintf((char)txt,"gx:%06d",gyrox); // OLED_P6x8Str(0,5,txt); // sprintf((char)txt,"gy:%06d",gyroy); // OLED_P6x8Str(0,6,txt); // sprintf((char)txt,"gz:%06d",gyroz); // OLED_P6x8Str(0,7,txt); // sprintf((char)txt,"MX:%5d ",magx); // OLED_P6x8Str(60,5,txt); // sprintf((char)txt,"MY:%5d ",magy); // OLED_P6x8Str(60,6,txt); // sprintf((char)txt,"MZ:%5d ",magz); // OLED_P6x8Str(60,7,txt); // delayms(100); // } // } // /** // * @brief 不精确延时 // * // * @param 无 // * // * @return 无 // * // * @note 无 // * // * @example delayms_9ax(100); // * // * @date 2019/4/22 星期一 // / // void delayms_9ax(signed short ms) // { // volatile uint32_t i = 0; // while(ms--) // { // for (i = 0; i < 30000; ++i) // { // __asm("NOP"); / delay / // } // } // } // /! // * @brief 九轴寄存器初始化 // * // * @param 无 // * // * @return 无 // * // * @note 无 // * // * @see LQ9AX_Init(); // * // * @date 2019/6/13 星期四 // / // unsigned char LQ9AX_Init(void) // { // FX_8700_Active(0); // delayms_9ax(10); // if(FX_8700_Check()) // { // // PRINTF("\n FX_8700 Init Fail \n"); // return 1; // } // FX_8700_SetRate(800, 2); // 800Hz 地磁和加速度计都使能 // FX_8700_SetRange(4); //± 4g // FX_8700_Active(1); // FX_21002_Active(0); // delayms_9ax(10); // if(FX_21002_Check()) // { // // PRINTF("\n FX_2100 Init Fail \n"); // return 2; // } // FX_21002_SetRate(800); // 800Hz 角速度计 // FX_21002_SetRange(2000); //± 2000dps // FX_21002_SetLP(2); //低通滤波 // FX_21002_Active(1); // delayms_9ax(10); // return 0; // } // /! // * @brief 设置FXOS8700 是否激活 // * // * @param enable : 1：激活 0：待机 // * // * @return 0 : 成功其他：失败 // * // * @note 无 // * // * @see FX_8700_Active(1); //使能 // * // * @date 2019/6/13 星期四 // / // unsigned char FX_8700_Active(unsigned char enable) // { // / 开启高分辨率模式 / // FX_Write_Byte(FXOS8700_ADDR, FXOS8701CQ_CTRL_REG2, 0x02); // unsigned char reg = FX_Read_Byte(FXOS8700_ADDR, FXOS8701CQ_CTRL_REG1); // if(enable) // { // reg = reg \| FXOS8701CQ_CTRL_REG1_ACTIVE; // } // else // { // reg = reg & ~FXOS8701CQ_CTRL_REG1_ACTIVE; // } // return FX_Write_Byte(FXOS8700_ADDR, FXOS8701CQ_CTRL_REG1, reg); // } // /! // * @brief 获取加速度计原始数据 // * // * @param ax,ay,az:加速度计x,y,z轴的原始读数(带符号) // * // * @return 0 : 成功其他：失败 // * // * @note 无 // * // * @see int16_t data[3]; // * @see FX_8700_GetACCRaw(&data[0], &data[1], &data[2]);//获取加速度原始数据 // * // * @date 2019/6/13 星期四 // / // unsigned char FX_8700_GetACCRaw(short ax,short ay,short az) // { // unsigned char buf[6],res; // res = FX_Read_Len(FXOS8700_ADDR, FXOS8701CQ_OUT_X_MSB, 6, buf); // if(res==0) // { // ax = -((signed short)buf[0]<<8)\|buf[1]; // ay = -((signed short)buf[2]<<8)\|buf[3]; // az = ((signed short)buf[4]<<8)\|buf[5]; // } // return res; // } // /! // * @brief 获取地磁计计原始数据 // * // * @param mx,my,mz:地磁计x,y,z轴的原始读数(带符号) // * // * @return 0 : 成功其他：失败 // * // * @note 无 // * // * @see int16_t data[3]; // * @see FX_8700_GetMAGRaw(&data[0], &data[1], &data[2]);//获取地磁计原始数据 // * // * @date 2019/6/13 星期四 // / // unsigned char FX_8700_GetMAGRaw(short mx,short my,short mz) // { // unsigned char buf[6],res; // res = FX_Read_Len(FXOS8700_ADDR, FXOS8701CQ_M_OUT_X_MSB, 6, buf); // if(res==0) // { // mx = -((signed short)buf[0]<<8)\|buf[1]; // my = -((signed short)buf[2]<<8)\|buf[3]; // mz = ((signed short)buf[4]<<8)\|buf[5]; // } // return res; // } // /! // * @brief 设置FXOS8700 量程 // * // * @param dps : 设置量程单位度每秒 // * // * @return 0 : 成功其他：失败 // * // * @note 地磁计和加速度计量程是一起设定的 ±2g;±0.244 mg/LSB ±4g;±0.488 mg/LSB ±8g ±0.976 mg/LSB // * // * @see FX_8700_SetRange(4); //设置量程 ±4g // * // * @date 2019/6/13 星期四 // / // unsigned char FX_8700_SetRange(unsigned char mg) // { // unsigned char reg = FX_Read_Byte(FXOS8700_ADDR, FXOS8701CQ_XYZ_DATA_CFG); // reg = reg & ~XYZ_DATA_CFG_FS_MASK; // if(mg <= 2) // { // reg \|= XYZ_DATA_CFG_FS_2G; // } // else if(mg <= 4) // { // reg \|= XYZ_DATA_CFG_FS_4G; // } // else // { // reg \|= XYZ_DATA_CFG_FS_8G; // } // return FX_Write_Byte(FXOS8700_ADDR, FXOS8701CQ_XYZ_DATA_CFG, reg); // } // /! // * @brief 设置FXOS8700 采样速率 // * // * @param fps 设置输出速率单位 1秒刷新多少次 // * @param mode 0: 仅使用加速度计 1：仅使用地磁计 2：加速度计和地磁计都用（会导致输出速率减半） // * // * @return 0 : 成功其他：失败 // * // * @note 无 // * // * @see FX_8700_SetRate(800, 2); // 800Hz 地磁和加速度计都使能 // * // * @date 2019/6/13 星期四 // / // unsigned char FX_8700_SetRate(signed short fps, unsigned char mode) // { // if(mode == 0) // { // FX_Write_Byte(FXOS8700_ADDR, FXOS8701CQ_M_CTRL_REG1, 0x00); // } // else if(mode == 1) // { // FX_Write_Byte(FXOS8700_ADDR, FXOS8701CQ_M_CTRL_REG1, 0x01); // } // else // { // FX_Write_Byte(FXOS8700_ADDR, FXOS8701CQ_M_CTRL_REG1, 0x40\|0x1C\|0x03); // } // unsigned char reg = FX_Read_Byte(FXOS8700_ADDR, FXOS8701CQ_CTRL_REG1); // reg &= ~CTRL_REG_DR_MASK; // if(fps <= 6) // { // reg \|= CTRL_REG1_DR(6); // } // else if(fps <= 12) // { // reg \|= CTRL_REG1_DR(5); // } // else if(fps <= 50) // { // reg \|= CTRL_REG1_DR(4); // } // else if(fps <= 100) // { // reg \|= CTRL_REG1_DR(3); // } // else if(fps <= 200) // { // reg \|= CTRL_REG1_DR(2); // } // else if(fps <= 400) // { // reg \|= CTRL_REG1_DR(1); // } // else // { // reg \|= CTRL_REG1_DR(0); // } // reg &= ~0x02; // return FX_Write_Byte(FXOS8700_ADDR, FXOS8701CQ_CTRL_REG1, reg); // } // /! // * @brief FXOS8700 自检 // * // * @param 无 // * // * @return 0 : 正常其他：错误 // * // * @note 无 // * // * @see FX_8700_Check(); //获取ID 检查是否连接正常 // * // * @date 2019/6/13 星期四 // / // unsigned char FX_8700_Check(void) // { // unsigned char ID = 0; // ID = FX_Read_Byte(FXOS8700_ADDR, FXOS8701CQ_WHOAMI); // if(FXOS8700CQ_WHOAMI_VAL == ID \|\| FXOS8701CQ_WHOAMI_VAL == ID) // { // // PRINTF("\n FXOS8700 is OK\n"); // return 0; // } // else // { // // PRINTF("\n FXOS8700 is Failed\n\rCheck ID = %x \n" , ID); // } // return 1; // } // /-------------------------------------------------------------------------------------- // ----------------------------------FXAS21002--------------------------------------------- // ----------------------------------------------------------------------------------------/ // /! // * @brief 获取角速度计原始数据 // * // * @param gyrox,gyroy,gyroz:陀螺仪x,y,z轴的原始读数(带符号) // * // * @return 0 : 正常其他：错误 // * // * @note 无 // * // * @see int16_t data[3]; // * @see FX_21002_GetRaw(&data[0], &data[1], &data[2]);//获取陀螺仪原始数据 // * // * @date 2019/6/13 星期四 // / // unsigned char FX_21002_GetRaw(short gyrox, short gyroy, short gyroz) // { // unsigned char buf[6],res; // res = FX_Read_Len(FXAS21002C_ADDR, FXAS21002C_OUT_X_MSB, 6, buf); // if(res==0) // { // gyrox = ((signed short)buf[0]<<8)\|buf[1]; // gyroy = ((signed short)buf[2]<<8)\|buf[3]; // gyroz = ((signed short)buf[4]<<8)\|buf[5]; // } // return res; // } // /! // * @brief 设置FXAS21002 是否激活 // * // * @param enable : 1：激活 0：待机 // * // * @return 0 : 正常其他：错误 // * // * @note 无 // * // * @see FX_21002_Active(1); //使能FX_21002 // * // * @date 2019/6/13 星期四 // / // unsigned char FX_21002_Active(unsigned char enable) // { // unsigned char reg = FX_Read_Byte(FXAS21002C_ADDR, FXAS21002C_CTRL_REG1); // if(enable) // { // reg = reg \| CTRL_REG1_ACTIVE; // } // else // { // reg = reg & ~CTRL_REG1_READY; // } // return FX_Write_Byte(FXAS21002C_ADDR, FXAS21002C_CTRL_REG1, reg); // } // /! // * @brief 设置FXAS21002 高通滤波 // * // * @param BW : 设置截止频率（具体频率看表） // * // * @return 0 : 正常其他：错误 // * // * @note 不同采样频率下高通滤波可以设置的值入下表 // * // * mode 采样速率 800 Hz 400 Hz 200 Hz 100 Hz 50 Hz 25 Hz 12.5 Hz // * 0 截止频率 15 7.5 3.75 1.875 0.937 0.468 0.234 // * 1 截止频率 7.7 3.85 1.925 0.963 0.481 0.241 0.120 // * 2 截止频率 3.9 1.95 0.975 0.488 0.244 0.122 0.061 // * 3 截止频率 1.98 0.99 0.495 0.248 0.124 0.062 0.031 // * // * @see FX_21002_SetHP(0); //设置高通滤波 // * // * @date 2019/6/13 星期四 // / // unsigned char FX_21002_SetHP(unsigned char mode) // { // unsigned char reg = FX_Read_Byte(FXAS21002C_ADDR, FXAS21002C_CTRL_REG0); // reg = reg \| CTRL_REG0_HPF_EN; // reg \|= (mode << CTRL_REG0_SEL_SHIFTS); // return FX_Write_Byte(FXAS21002C_ADDR, FXAS21002C_CTRL_REG0, reg); // } // /! // * @brief 设置FXAS21002 低通滤波 // * // * @param BW : 设置截止频率（具体频率看表） // * // * @return 0 : 正常其他：错误 // * // * @note 不同采样频率下低通滤波可以设置的值入下表 // * mode 采样速率 800 Hz 400 Hz 200 Hz 100 Hz 50 Hz 25 Hz 12.5 Hz // * 0 截止频率 256 128 64 32 16 8 4 // * 1 截止频率 128 64 32 16 8 4 — // * 2 截止频率 64 32 16 8 4 — — // * // * @see FX_21002_SetLP(0) //如果采样速率 800Hz 则低通滤波截止频率 256 // * // * @date 2019/6/13 星期四 // / // unsigned char FX_21002_SetLP(unsigned char mode) // { // unsigned char reg = FX_Read_Byte(FXAS21002C_ADDR, FXAS21002C_CTRL_REG0); // reg = reg & ~CTRL_REG0_BW_MASK; // reg \|= (mode << CTRL_REG0_BW_SHIFTS); // return FX_Write_Byte(FXAS21002C_ADDR, FXAS21002C_CTRL_REG0, reg); // } // /! // * @brief 设置FXAS21002 量程 // * // * @param dps : 设置量程单位度每秒 // * // * @return 0 : 正常其他：错误 // * // * @note ±250dps;1,±500dps;2,±1000dps;3,±2000dps // * // * @see FX_21002_SetRange(2000); //设置量程 ±2000dps // * // * @date 2019/6/13 星期四 // / // unsigned char FX_21002_SetRange(unsigned short dps) // { // unsigned char reg = FX_Read_Byte(FXAS21002C_ADDR, FXAS21002C_CTRL_REG0); // reg = reg & ~CTRL_REG0_FS_MASK; // if(dps <= 250) // { // reg \|= CTRL_REG0_FS_250_DPS; // } // else if(dps <= 500) // { // reg \|= CTRL_REG0_FS_500_DPS; // } // else if(dps <= 1000) // { // reg \|= CTRL_REG0_FS_1000_DPS; // } // else // { // reg \|= CTRL_REG0_FS_2000_DPS; // } // return FX_Write_Byte(FXAS21002C_ADDR, FXAS21002C_CTRL_REG0, reg); // } // /! // * @brief 设置FXAS21002 采样速率 // * // * @param fps 设置输出速率单位 1秒刷新多少次 // * // * @return 0 : 正常其他：错误 // * // * @note 无 // * // * @see FX_21002_SetRate(800); //设置采样率800Hz // * // * @date 2019/6/13 星期四 // / // unsigned char FX_21002_SetRate(unsigned short fps) // { // unsigned char reg = FX_Read_Byte(FXAS21002C_ADDR, FXAS21002C_CTRL_REG1); // reg &= ~CTRL_REG_DR_MASK; // if(fps <= 13) // { // reg \|= CTRL_REG_DR_12_5; // } // else if(fps <= 25) // { // reg \|= CTRL_REG_DR_25HZ; // } // else if(fps <= 50) // { // reg \|= CTRL_REG_DR_50HZ; // } // else if(fps <= 100) // { // reg \|= CTRL_REG_DR_100HZ; // } // else if(fps <= 200) // { // reg \|= CTRL_REG_DR_200HZ; // } // else if(fps <= 400) // { // reg \|= CTRL_REG_DR_400HZ; // } // else // { // reg \|= CTRL_REG_DR_800HZ; // } // return FX_Write_Byte(FXAS21002C_ADDR, FXAS21002C_CTRL_REG1, reg); // } // /! // * @brief FXAS21002 自检 // * // * @param 无 // * // * @return 0 : 正常其他：错误 // * // * @note 无 // * // * @see FX_21002_Check(); //自检 // * // * @date 2019/6/13 星期四 // / // unsigned char FX_21002_Check(void) // { // unsigned char ID = 0; // ID = FX_Read_Byte(FXAS21002C_ADDR, FXAS21002C_WHO_AM_I); // if(FXAS21002C_ID == ID) // { // // PRINTF("\n FXAS21002 is OK\n"); // return 0; // } // else // { // // PRINTF("\n FXAS21002 is Failed\n\rCheck ID = %x \n" , ID); // } // return 1; // } // /-------------------------------------------------------------------------------------- // ----------------------------------底层驱动行数------------------------------------------ // ----------------------------------------------------------------------------------------/ // /! // * @brief IIC 连续读 // * // * @param addr:器件地址 // * @param reg :要读取的寄存器地址 // * @param len :要读取的长度 // * @param buf :读取到的数据存储区 // * // * @return 0 ：读取成功 // * // * @note 移植时如果使用模拟IIC 需要修改这里 // * // * @see unsigned char buf[6],res; // * @see res = FX_Read_Len(FXAS21002C_ADDR, FXAS21002C_OUT_X_MSB, 6, buf);//读取陀螺仪数据 // * // * @date 2019/6/12 星期三 // / // unsigned char FX_Read_Len(unsigned char addr,unsigned char reg,unsigned char len,unsigned char buf) // { // return IIC_ReadMultByteFromSlave(addr<<1, reg, len, buf); // } // /! // @brief IIC 写一个寄存器 // * // * @param addr :器件地址 // * @param reg :要写的寄存器地址 // * @param value :要写入的值 // * // * @return 0 ：读取成功 // * // * @note 移植时如果使用模拟IIC 需要修改这里 // * // * @see FX_Write_Byte(FXAS21002C_ADDR, FXAS21002C_CTRL_REG1, 0x00); //写一个寄存器 // * // * @date 2019/6/12 星期三 // / // unsigned char FX_Write_Byte(unsigned char addr,unsigned char reg,unsigned char value) // { // return IIC_WriteByteToSlave(addr<<1, reg, value); // } // /! // * @brief IIC 读一个寄存器 // * // * @param addr :器件地址 // * @param reg :要读的寄存器地址 // * // * @return 0 ：读取成功 // * // * @note 移植时如果使用模拟IIC 需要修改这里 // * // * @see FX_Read_Byte(FXAS21002C_ADDR, FXAS21002C_WHO_AM_I); //读一个寄存器 // * // * @date 2019/6/12 星期三 // */ // unsigned char FX_Read_Byte(unsigned char addr,unsigned char reg) // { // unsigned char value[1]; // FX_Read_Len(addr, reg, 1, value); // return value[0]; // }
the_stack_data/161080414.c	#include <stdlib.h> /* This tests an insn length of sign extension on h8300 port. / extern void exit (int); volatile signed char q; volatile signed int n; void foo (void) { signed char p; for (;;) { p = (signed char ) q; n = p[2]; p = (signed char ) q; n = p[2]; p = (signed char ) q; n = p[2]; p = (signed char ) q; n = p[2]; p = (signed char ) q; n = p[2]; p = (signed char ) q; n = p[2]; p = (signed char ) q; n = p[2]; p = (signed char ) q; n = p[2]; p = (signed char ) q; n = p[2]; p = (signed char ) q; n = p[2]; p = (signed char ) q; n = p[2]; } } int main () { exit (0); }
the_stack_data/74698.c	/* Program quad - calculate the quadratic formula roots / / Written by - C. Severance Tue Dec 7 22:34:11 EST 1993 / #include <math.h> main() { float a,b,c,det,root1,root2; double tmp; printf("enter a,b,c: "); scanf("%f %f %f",&a,&b,&c); tmp = bb - 4 * a * c; det = sqrt( tmp ); root1 = ( -1.0b + det ) / ( 2 a ); root2 = ( -1.0b - det ) / ( 2 a ); printf("root1 = %f\n",root1); printf("root2 = %f\n",root2); }
the_stack_data/95056.c	#include <stdio.h> #include <string.h> #include <ctype.h> #include <stdlib.h> char my_strcat(char dest, char src){ int len_src = strlen(src); int start_src = strlen(dest); int len_final = strlen(dest) + strlen(src); for (int i = 0; i < len_final; i++){ dest[start_src + i] = src[i]; } return dest; } int my_strcmp_rec(char str1, char str2){ int i = 0; if ((str1 + i) == '\0' && str2[i] == '\0'){ return 0; } else if (str1[i] != str2[i]){ return (str1[i] - str2[i]); } else if (str1[i] == str2[i]) { my_strcmp_rec(str1+1, str2 + 1); } } int my_atoi(char str){ int i = 0; int sign = 1; int num = 0; if(str[0] == '-'){ sign = -1; ++i; } for(; str[i] != '\0' && isdigit(str[i]); i++){ num = num10 + (str[i] - '0'); } return signnum; } struct node{ int data; struct node next; }; void append(struct node head, int value, int closed){ struct node cur = head; struct node loop = NULL; if(closed == 1){ loop = head->next; } while(cur->next != NULL){ cur = cur->next; } struct node node = (struct node )malloc(sizeof(struct node)); node->data = value; node->next = loop; cur->next = node; } int cycle_fnct(struct node head){ struct node tort = head; struct node hare = head; int x = 0; while(x == 0 && hare->next != NULL && hare->next->next != NULL){ tort = tort->next; hare = hare->next->next; if(tort == hare){ x = 1; } } if(tort == hare){ return 1; } else{ return 0; } } int main(void){ char a[10] = "Hi"; char b[10] = "Hee"; my_strcat(a , b); printf(a); char num[] = "-1234567"; int x = my_atoi(num); printf("\n%d", x); struct node node0 = (struct node )malloc(sizeof(struct node)); node0->data = 5; node0->next = NULL; append(node0, 8, 0); append(node0, 12, 0); append(node0, 7, 0); append(node0, 4, 0); append(node0, -2, 1); int f = cycle_fnct(node0); printf("%d\n", f); return 0; }
the_stack_data/198579915.c	/* * An example demonstrating basic directory listing. * * Compile this file with Visual Studio and run the produced command in * console with a directory name argument. For example, command * * ls "c:\Program Files" * * might output something like * * ./ * ../ * 7-Zip/ * Internet Explorer/ * Microsoft Visual Studio 9.0/ * Microsoft.NET/ * Mozilla Firefox/ * * The ls command provided by this file is only an example: the command does * not have any fancy options like "ls -al" in Linux and the command does not * support file name matching like "ls .c". * Copyright (C) 1998-2019 Toni Ronkko * This file is part of dirent. Dirent may be freely distributed * under the MIT license. For all details and documentation, see * https://github.com/tronkko/dirent / #define _CRT_SECURE_NO_WARNINGS #include <stdio.h> #include <stdlib.h> #include <string.h> #include <dirent.h> #include <errno.h> #include <locale.h> static void list_directory(const char dirname); int main(int argc, char argv[]) { / Select default locale / setlocale(LC_ALL, ""); / For each directory in command line / int i = 1; while (i < argc) { list_directory(argv[i]); i++; } / List current working directory if no arguments on command line / if (argc == 1) list_directory("."); return EXIT_SUCCESS; } / * List files and directories within a directory. / static void list_directory(const char dirname) { /* Open directory stream / DIR dir = opendir(dirname); if (!dir) { /* Could not open directory / fprintf(stderr, "Cannot open %s (%s)\n", dirname, strerror(errno)); exit(EXIT_FAILURE); } / Print all files and directories within the directory / struct dirent ent; while ((ent = readdir(dir)) != NULL) { switch (ent->d_type) { case DT_REG: printf("%s\n", ent->d_name); break; case DT_DIR: printf("%s/\n", ent->d_name); break; case DT_LNK: printf("%s@\n", ent->d_name); break; default: printf("%s*\n", ent->d_name); } } closedir(dir); }
the_stack_data/68888552.c	#include <stdio.h> #include <stdlib.h> int main() { char name[100], age[100], year[100], gender[100], eye_color[100], hair_color[100]; printf("What is your name?\n"); fgets(name, 100, stdin); printf("What is your age?\n"); fgets(age, 100, stdin); printf("What is your year?\n"); fgets(year, 100, stdin); printf("What is your gender?\n"); fgets(gender, 100, stdin); printf("What is your eye color?\n"); fgets(eye_color, 100, stdin); printf("What is your hair color?\n"); fgets(hair_color, 100, stdin); printf("\nName: %sAge: %sYear: %sGender: %sEye Color: %sHair Color: %s", name, age, year, gender, eye_color, hair_color); }
the_stack_data/574889.c	/* Generated by CIL v. 1.3.7 / / print_CIL_Input is true / #line 31 "/usr/include/bits/types.h" typedef unsigned char __u_char; #line 35 "/usr/include/sys/types.h" typedef __u_char u_char; #line 339 "/usr/include/stdio.h" extern int printf(char const __restrict __format , ...) ; #line 81 "/usr/include/ctype.h" extern __attribute__((__nothrow__)) unsigned short const *__ctype_b_loc(void) __attribute__((__const__)) ; #line 67 "./sendmail.h" void tTflag(char s ) ; #line 68 void tTsetup(u_char vect , int size , char defflags ) ; #line 88 "tTflag-bad.c" static u_char tTvect ; #line 89 "tTflag-bad.c" static int tTsize ; #line 90 "tTflag-bad.c" static char DefFlags ; #line 94 "tTflag-bad.c" void tTsetup(u_char vect , int size , char defflags ) { { #line 100 tTvect = vect; #line 101 tTsize = size; #line 102 DefFlags = defflags; #line 103 return; } } #line 118 "tTflag-bad.c" void tTflag(char s ) { int first ; int last ; register unsigned int i ; char tmp ; unsigned short const tmp___0 ; unsigned short const tmp___1 ; unsigned short const *tmp___2 ; int tmp___3 ; char tmp___4 ; char __cil_tmp11 ; int __cil_tmp12 ; char __cil_tmp13 ; int __cil_tmp14 ; int __cil_tmp15 ; char __cil_tmp16 ; int __cil_tmp17 ; unsigned short const __cil_tmp18 ; unsigned short const __cil_tmp19 ; unsigned short __cil_tmp20 ; int __cil_tmp21 ; char __cil_tmp22 ; int __cil_tmp23 ; int __cil_tmp24 ; unsigned int __cil_tmp25 ; unsigned int __cil_tmp26 ; char __cil_tmp27 ; int __cil_tmp28 ; char __cil_tmp29 ; int __cil_tmp30 ; int __cil_tmp31 ; char __cil_tmp32 ; int __cil_tmp33 ; unsigned short const __cil_tmp34 ; unsigned short const __cil_tmp35 ; unsigned short __cil_tmp36 ; int __cil_tmp37 ; char __cil_tmp38 ; int __cil_tmp39 ; int __cil_tmp40 ; unsigned int __cil_tmp41 ; unsigned int __cil_tmp42 ; char __cil_tmp43 ; int __cil_tmp44 ; char __cil_tmp45 ; int __cil_tmp46 ; int __cil_tmp47 ; char __cil_tmp48 ; int __cil_tmp49 ; unsigned short const __cil_tmp50 ; unsigned short const __cil_tmp51 ; unsigned short __cil_tmp52 ; int __cil_tmp53 ; char __cil_tmp54 ; int __cil_tmp55 ; int __cil_tmp56 ; unsigned int __cil_tmp57 ; unsigned int __cil_tmp58 ; char const * __restrict __cil_tmp59 ; u_char __cil_tmp60 ; char __cil_tmp61 ; int __cil_tmp62 ; { { #line 125 __cil_tmp11 = s; #line 125 __cil_tmp12 = (int )__cil_tmp11; #line 125 if (__cil_tmp12 == 0) { #line 126 s = DefFlags; } else { } } { #line 128 while (1) { while_continue: /* CIL Label / ; #line 131 i = 0U; { #line 133 while (1) { while_continue___0: / CIL Label / ; { #line 133 __cil_tmp13 = s; #line 133 __cil_tmp14 = (int )__cil_tmp13; #line 133 __cil_tmp15 = __cil_tmp14 & -128; #line 133 if (__cil_tmp15 == 0) { { #line 133 tmp___0 = __ctype_b_loc(); } { #line 133 __cil_tmp16 = s; #line 133 __cil_tmp17 = (int )__cil_tmp16; #line 133 __cil_tmp18 = tmp___0; #line 133 __cil_tmp19 = __cil_tmp18 + __cil_tmp17; #line 133 __cil_tmp20 = __cil_tmp19; #line 133 __cil_tmp21 = (int const )__cil_tmp20; #line 133 if (__cil_tmp21 & 2048) { } else { #line 133 goto while_break___0; } } } else { #line 133 goto while_break___0; } } #line 134 tmp = s; #line 134 s = s + 1; #line 134 __cil_tmp22 = tmp; #line 134 __cil_tmp23 = (int )__cil_tmp22; #line 134 __cil_tmp24 = __cil_tmp23 - 48; #line 134 __cil_tmp25 = (unsigned int )__cil_tmp24; #line 134 __cil_tmp26 = i * 10U; #line 134 i = __cil_tmp26 + __cil_tmp25; } while_break___0: /* CIL Label / ; } #line 138 first = (int )i; { #line 141 __cil_tmp27 = s; #line 141 __cil_tmp28 = (int )__cil_tmp27; #line 141 if (__cil_tmp28 == 45) { #line 143 i = 0U; { #line 144 while (1) { while_continue___1: /* CIL Label / ; #line 144 s = s + 1; { #line 144 __cil_tmp29 = s; #line 144 __cil_tmp30 = (int )__cil_tmp29; #line 144 __cil_tmp31 = __cil_tmp30 & -128; #line 144 if (__cil_tmp31 == 0) { { #line 144 tmp___1 = __ctype_b_loc(); } { #line 144 __cil_tmp32 = s; #line 144 __cil_tmp33 = (int )__cil_tmp32; #line 144 __cil_tmp34 = tmp___1; #line 144 __cil_tmp35 = __cil_tmp34 + __cil_tmp33; #line 144 __cil_tmp36 = __cil_tmp35; #line 144 __cil_tmp37 = (int const )__cil_tmp36; #line 144 if (__cil_tmp37 & 2048) { } else { #line 144 goto while_break___1; } } } else { #line 144 goto while_break___1; } } #line 145 __cil_tmp38 = s; #line 145 __cil_tmp39 = (int )__cil_tmp38; #line 145 __cil_tmp40 = __cil_tmp39 - 48; #line 145 __cil_tmp41 = (unsigned int )__cil_tmp40; #line 145 __cil_tmp42 = i * 10U; #line 145 i = __cil_tmp42 + __cil_tmp41; } while_break___1: /* CIL Label / ; } } else { } } #line 147 last = (int )i; #line 150 i = 1U; { #line 151 __cil_tmp43 = s; #line 151 __cil_tmp44 = (int )__cil_tmp43; #line 151 if (__cil_tmp44 == 46) { #line 153 i = 0U; { #line 154 while (1) { while_continue___2: /* CIL Label / ; #line 154 s = s + 1; { #line 154 __cil_tmp45 = s; #line 154 __cil_tmp46 = (int )__cil_tmp45; #line 154 __cil_tmp47 = __cil_tmp46 & -128; #line 154 if (__cil_tmp47 == 0) { { #line 154 tmp___2 = __ctype_b_loc(); } { #line 154 __cil_tmp48 = s; #line 154 __cil_tmp49 = (int )__cil_tmp48; #line 154 __cil_tmp50 = tmp___2; #line 154 __cil_tmp51 = __cil_tmp50 + __cil_tmp49; #line 154 __cil_tmp52 = __cil_tmp51; #line 154 __cil_tmp53 = (int const )__cil_tmp52; #line 154 if (__cil_tmp53 & 2048) { } else { #line 154 goto while_break___2; } } } else { #line 154 goto while_break___2; } } #line 155 __cil_tmp54 = s; #line 155 __cil_tmp55 = (int )__cil_tmp54; #line 155 __cil_tmp56 = __cil_tmp55 - 48; #line 155 __cil_tmp57 = (unsigned int )__cil_tmp56; #line 155 __cil_tmp58 = i * 10U; #line 155 i = __cil_tmp58 + __cil_tmp57; } while_break___2: /* CIL Label / ; } } else { } } #line 160 if (first >= tTsize) { #line 161 first = tTsize - 1; } else { } #line 162 if (last >= tTsize) { #line 163 last = tTsize - 1; } else { } { #line 166 while (1) { while_continue___3: / CIL Label / ; #line 166 if (first <= last) { } else { #line 166 goto while_break___3; } { #line 168 __cil_tmp59 = (char const __restrict )"index = %d\n"; #line 168 printf(__cil_tmp59, first); } #line 171 tmp___3 = first; #line 171 first = first + 1; #line 171 __cil_tmp60 = tTvect + tmp___3; #line 171 __cil_tmp60 = (u_char )i; } while_break___3: / CIL Label / ; } #line 177 tmp___4 = s; #line 177 s = s + 1; { #line 177 __cil_tmp61 = tmp___4; #line 177 __cil_tmp62 = (int )__cil_tmp61; #line 177 if (__cil_tmp62 == 0) { #line 178 return; } else { } } } while_break: /* CIL Label */ ; } } }

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