submission_id
int32 10
42.5k
| func_code
stringlengths 22
782
| assignment_id
stringlengths 4
23
| func_name
stringlengths 4
23
| description
stringlengths 26
128
| test
stringlengths 45
1.22k
| correct
bool 2
classes | user
stringlengths 36
36
| academic_year
int32 2.02k
2.02k
|
|---|---|---|---|---|---|---|---|---|
25,800 | def overlap(x1=0, y1=0, r1=0, x2=0, y2=0, r2=1):
d = math.sqrt((x2 - x1) ** 2 + (y2 - y1) ** 2)
rd = r1 + r2
if d < rd:
return True
else:
return False | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | false | 98d44d17-92f8-4274-915e-b88bdd9dca26 | 2,016 |
6,498 | def overlap(x1=0, y1=0, r1=0, x2=0, y2=0, r2=1):
d = math.sqrt((x2 - x1) ** 2 + (y2 - y1) ** 2)
rd = r1 + r2
if d < rd:
return True
else:
return False | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | false | 98d44d17-92f8-4274-915e-b88bdd9dca26 | 2,016 |
160 | def append2list(l1, l2=[]):
if l2 == ' ':
l2 = []
for i in l1:
l2.append(i)
return l2 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 9a05c20e-2fde-40c1-948b-649e25b30e6e | 2,016 |
29,749 | def append2list(l1, l2=None):
if l2 is None:
l2 = []
for i in l1:
l2.append(i)
else:
for i in l1:
l2.append(i)
return l2 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 2157ade0-6890-435b-8669-a884e3233bc7 | 2,016 |
18,089 | def append2list(l1, l2=None):
if l2 is None:
l2 = []
for i in l1:
l2.append(i)
else:
for i in l1:
l2.append(i)
return l2 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 2157ade0-6890-435b-8669-a884e3233bc7 | 2,016 |
9,767 | def overlap(x1=0, y1=0, r1=1, x2=0, y2=0, r2=1):
x = (x2 - x1) * (x2 - x1)
y = (y2 - y1) * (y2 - y1)
xy = x + y
D = math.sqrt(xy)
if D >= r1 + r2:
return False
else:
return True | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | false | 336d0cd0-002e-4296-ba45-582077aac4a4 | 2,016 |
14,822 | def overlap(x1=0, y1=0, r1=1, x2=0, y2=0, r2=1):
x = (x2 - x1) * (x2 - x1)
y = (y2 - y1) * (y2 - y1)
xy = x + y
D = math.sqrt(xy)
if D >= r1 + r2:
return False
else:
return True | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | false | 336d0cd0-002e-4296-ba45-582077aac4a4 | 2,016 |
36,390 | def append2list(l1, l2=[]):
if l2 == '':
l2 = []
for i in l1:
l2.append(i)
return l2 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 9a05c20e-2fde-40c1-948b-649e25b30e6e | 2,016 |
4,490 | def append2list(l1, l2=''):
if l2 == '':
l2 = []
for i in l1:
l2.append(i)
return l2 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 9a05c20e-2fde-40c1-948b-649e25b30e6e | 2,016 |
13,407 | def append2list(l1, l2=''):
if l2 == '':
l2 = []
for i in l1:
l2.append(i)
return l2 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 9a05c20e-2fde-40c1-948b-649e25b30e6e | 2,016 |
16,728 | def append2list(l1, l2=[]):
for i in l2:
l1.append(i)
return l1 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | false | 932dfe81-cd49-4d41-8b87-456f3246e781 | 2,016 |
14,304 | def overlap(x1=0, y1=0, r1=1, x2=0, y2=0, r2=1):
from math import sqrt
dist = sqrt((x2 - x1) ** 2 + (y2 - y1) ** 2)
print(dist < r1 + r2) | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | false | c0a5d565-4fbf-4274-85af-71162f38b8d4 | 2,016 |
19,255 | def overlap(x1=0, y1=0, r1=0, x2=0, y2=0, r2=1):
return abs(r1 - r2) <= ((x1 - x2) ** 2 + (y1 - y2) ** 2) ** 0.5 and ((
x1 - x2) ** 2 + (y1 - y2) ** 2) ** 0.5 <= (r1 + r2) ** 2 | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | false | 262b3841-5158-4b0c-be99-57281e73f267 | 2,016 |
6,883 | def overlap(x1=0, y1=0, r1=0, x2=0, y2=0, r2=1):
return abs(r1 - r2) <= ((x1 - x2) ** 2 + (y1 - y2) ** 2) ** 0.5 and ((
x1 - x2) ** 2 + (y1 - y2) ** 2) ** 0.5 <= (r1 + r2) ** 2 | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | false | 262b3841-5158-4b0c-be99-57281e73f267 | 2,016 |
42,018 | def append2list(l1, l2=[]):
for i in l2[::-1]:
l1.append(i)
return l1 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | false | 932dfe81-cd49-4d41-8b87-456f3246e781 | 2,016 |
36,545 | def append2list(l1, l2=[]):
for i in l1:
l2.append(i)
return l2 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 6f8302a0-5974-4b36-a8e9-6b3968a8fce1 | 2,016 |
25,758 | def overlap(x1=0, y1=0, r1=1, x2=0, y2=0, r2=1):
from math import sqrt
dist = sqrt((x2 - x1) ** 2 + (y2 - y1) ** 2)
print(dist < r1 + r2) | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | false | c0a5d565-4fbf-4274-85af-71162f38b8d4 | 2,016 |
24,893 | def append2list(l1, l2=[]):
for i in l1:
l2.append(i)
return l2 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | f98e9d61-9e86-4fed-86db-3cf718c5962d | 2,016 |
20,907 | def append2list(l1, l2=[]):
for i in l1:
l2.append(i)
return l2 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 75a32f49-710d-463f-8fee-0ae9b91a3034 | 2,016 |
1,278 | def append2list(l1, l2=[]):
return l2 + l1 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 66e06699-d10a-47f1-a343-55edd72e95d2 | 2,016 |
38,688 | def append2list(l1, l2=[]):
return l2 + l1 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 66e06699-d10a-47f1-a343-55edd72e95d2 | 2,016 |
36,514 | def overlap(x1=0, y1=0, r1=1, x2=0, y2=0, r2=1):
from math import sqrt
print((x1, y1, r1, x2, y2, r2))
dist = sqrt((x2 - x1) ** 2 + (y2 - y1) ** 2)
print(dist < r1 + r2) | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | false | c0a5d565-4fbf-4274-85af-71162f38b8d4 | 2,016 |
14,136 | def append2list(l1, l2=[]):
return l2 + l1 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | f98e9d61-9e86-4fed-86db-3cf718c5962d | 2,016 |
6,710 | def append2list(l1, l2=[]):
return l2 + l1 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | f98e9d61-9e86-4fed-86db-3cf718c5962d | 2,016 |
19,671 | def append2list(l1, l2=None):
if l2 is None:
l2 = []
for i in l1:
l2.append(i)
return l2 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 2eb2f93d-3491-4b0b-bad9-894c90595058 | 2,016 |
25,502 | def overlap(x1=0, y1=0, r1=1, x2=0, y2=0, r2=1):
from math import sqrt
print((x1, y1, r1, x2, y2, r2))
dist = sqrt((x2 - x1) ** 2 + (y2 - y1) ** 2) | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | false | c0a5d565-4fbf-4274-85af-71162f38b8d4 | 2,016 |
19,333 | def append2list(l1, l2=None):
if l2 is None:
l2 = []
for i in l1:
l2.append(i)
return l2 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 2eb2f93d-3491-4b0b-bad9-894c90595058 | 2,016 |
155 | def append2list(l1, l2=None):
if l2 is None:
l2 = []
for i in l1:
l2.append(i)
return l2 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 2eb2f93d-3491-4b0b-bad9-894c90595058 | 2,016 |
3,476 | def append2list(l1, l2=[]):
return l1 + l2 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | false | 932dfe81-cd49-4d41-8b87-456f3246e781 | 2,016 |
17,721 | def append2list(l1, l2=[]):
for i in l1:
l2.append(i)
return l2 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 3e9f1e04-e9fd-4164-8fa5-c7feb1dcc1f5 | 2,016 |
3,306 | def append2list(l1, l2=[]):
return l2 + l1 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 030c2a56-757a-4b4d-ac91-67aecc3d9b33 | 2,016 |
27,269 | def append2list(l1, l2=[]):
return l2 + l1 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 030c2a56-757a-4b4d-ac91-67aecc3d9b33 | 2,016 |
27,647 | def append2list(l1, l2=[]):
for i in l1:
l2.append(i)
return l2 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 0473ca8a-3862-4046-a34c-16eb754fdfff | 2,016 |
36,228 | def overlap(x1=0, y1=0, r1=1, x2=0, y2=0, r2=1):
distance = math.sqrt((x2 - x1) ** 2 + (y2 - y1) ** 2)
if distance >= r1 + r2:
return False
return True | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | false | ac1dec5e-a5eb-4183-ba72-3b639e82db3c | 2,016 |
1,263 | def overlap(x1=0, y1=0, r1=1, x2=0, y2=0, r2=1):
distance = math.sqrt((x2 - x1) ** 2 + (y2 - y1) ** 2)
if distance >= r1 + r2:
return False
return True | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | false | ac1dec5e-a5eb-4183-ba72-3b639e82db3c | 2,016 |
30,890 | def append2list(l1, l2=[]):
for i in l1:
l2.append(i)
return l2 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 3e9f1e04-e9fd-4164-8fa5-c7feb1dcc1f5 | 2,016 |
33,104 | def append2list(l1, l2=[]):
return l2 + l1 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 75a32f49-710d-463f-8fee-0ae9b91a3034 | 2,016 |
39,966 | def append2list(l1, l2=[]):
return l2 + l1 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 75a32f49-710d-463f-8fee-0ae9b91a3034 | 2,016 |
6,657 | def append2list(l1, l2=[]):
for i in l1:
l2.append(i)
return l2 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 3e9f1e04-e9fd-4164-8fa5-c7feb1dcc1f5 | 2,016 |
9,264 | def append2list(l1, l2=[]):
for i in l2:
l1.append(i)
return l1 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | false | 8d8fa15f-3f0d-4a69-849b-9b7da96123cd | 2,016 |
933 | def append2list(l1, l2=[]):
for i in l1:
l2.append(i)
l1 = l1.clear()
return l2 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 262b3841-5158-4b0c-be99-57281e73f267 | 2,016 |
9,280 | def append2list(l1, l2=[]):
for i in l1:
l2.append(i)
l1 = l1.clear()
return l2 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 262b3841-5158-4b0c-be99-57281e73f267 | 2,016 |
16,043 | def append2list(l1, l2=[]):
for i in l1:
l2.append(i)
l1 = l1.clear()
return l2 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 262b3841-5158-4b0c-be99-57281e73f267 | 2,016 |
18,237 | _A = None
def overlap(x1=_A, y1=_A, r1=_A, x2=_A, y2=_A, r2=_A):
if x1 is _A:
x1 = 0
if y1 is _A:
y1 = 0
if r1 is _A:
r1 = 1
if x2 is _A:
x2 = 0
if y2 is _A:
y2 = 0
if r2 is _A:
r2 = 1
return (x1 - x2) ** 2 + (y1 - y2) ** 2 < (r1 + r2) ** 2 | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | false | 5cf0f5b5-a91e-4c33-8ac1-92aa868cd3b0 | 2,016 |
23,272 | _A = None
def overlap(x1=_A, y1=_A, r1=_A, x2=_A, y2=_A, r2=_A):
if x1 is _A:
x1 = 0
if y1 is _A:
y1 = 0
if r1 is _A:
r1 = 1
if x2 is _A:
x2 = 0
if y2 is _A:
y2 = 0
if r2 is _A:
r2 = 1
return (x1 - x2) ** 2 + (y1 - y2) ** 2 < (r1 + r2) ** 2 | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | false | 5cf0f5b5-a91e-4c33-8ac1-92aa868cd3b0 | 2,016 |
6,162 | def append2list(l1, l2=[]):
for i in l1:
l2.append(i)
return l2 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 0473ca8a-3862-4046-a34c-16eb754fdfff | 2,016 |
18,814 | def overlap(x1=0, y1=0, r1=1, x2=0, y2=0, r2=1):
from math import sqrt
dist = sqrt((x2 - x1) ** 2 + (y2 - y1) ** 2)
print(dist < r1 + r2) | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | false | c0a5d565-4fbf-4274-85af-71162f38b8d4 | 2,016 |
32,579 | _A = None
def overlap(x1=_A, y1=_A, r1=_A, x2=_A, y2=_A, r2=_A):
if x1 is _A:
x1 = 0
if y1 is _A:
y1 = 0
if r1 is _A:
r1 = 1
if x2 is _A:
x2 = 0
if y2 is _A:
y2 = 0
if r2 is _A:
r2 = 1
return ((x2 - x1) ** 2 + (y2 - y1) ** 2) ** 0.5 < r1 + r2 | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | true | 6a42703e-da42-4824-8b83-b6f291ad71be | 2,016 |
29,927 | _A = None
def overlap(x1=_A, y1=_A, r1=_A, x2=_A, y2=_A, r2=_A):
if x1 is _A:
x1 = 0
if y1 is _A:
y1 = 0
if r1 is _A:
r1 = 1
if x2 is _A:
x2 = 0
if y2 is _A:
y2 = 0
if r2 is _A:
r2 = 1
return ((x2 - x1) ** 2 + (y2 - y1) ** 2) ** 0.5 < r1 + r2 | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | true | 6a42703e-da42-4824-8b83-b6f291ad71be | 2,016 |
36,647 | def append2list(l1, l2=[]):
for i in l1:
l2.append(i)
return l2 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 3e9f1e04-e9fd-4164-8fa5-c7feb1dcc1f5 | 2,016 |
20,834 | def append2list(l1=[], l2=[]):
for i in l1:
l2.append(i)
return l2 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 0473ca8a-3862-4046-a34c-16eb754fdfff | 2,016 |
15,868 | def overlap(x1=0, y1=0, r1=1, x2=0, y2=0, r2=1):
from math import sqrt
dist = sqrt((x2 - x1) ** 2 + (y2 - y1) ** 2)
return dist < r1 + r2 | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | true | c0a5d565-4fbf-4274-85af-71162f38b8d4 | 2,016 |
41,797 | def overlap(x1=0, y1=0, r1=1, x2=0, y2=0, r2=1):
from math import sqrt
dist = sqrt((x2 - x1) ** 2 + (y2 - y1) ** 2)
return dist < r1 + r2 | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | true | c0a5d565-4fbf-4274-85af-71162f38b8d4 | 2,016 |
7,007 | def append2list(d1=[], d2=[]):
for i in d1:
d2.append(i)
return d2 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 0473ca8a-3862-4046-a34c-16eb754fdfff | 2,016 |
21,717 | def append2list(l1, l2=[]):
return l2 + l1 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 932dfe81-cd49-4d41-8b87-456f3246e781 | 2,016 |
34,602 | def append2list(l1, l2=[]):
return l2 + l1 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 932dfe81-cd49-4d41-8b87-456f3246e781 | 2,016 |
13,504 | def append2list(l1, l2=[]):
return l2 + l1 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 8d8fa15f-3f0d-4a69-849b-9b7da96123cd | 2,016 |
18,724 | def append2list(l1, l2=[]):
return l2 + l1 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 8d8fa15f-3f0d-4a69-849b-9b7da96123cd | 2,016 |
26,735 | def append2list(l1=[], l2=[]):
return l2 + l1 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 0473ca8a-3862-4046-a34c-16eb754fdfff | 2,016 |
377 | def append2list(l1, l2=[]):
return l2 + l1 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 0473ca8a-3862-4046-a34c-16eb754fdfff | 2,016 |
23,997 | def append2list(l1, l2=[]):
return l2 + l1 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 0473ca8a-3862-4046-a34c-16eb754fdfff | 2,016 |
20,167 | def append2list(l1, l2=[]):
if l2:
for i in l1:
l2.append(i)
return l2
else:
return l1 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 6f8302a0-5974-4b36-a8e9-6b3968a8fce1 | 2,016 |
33,655 | def append2list(l1, l2=[]):
if l2:
for i in l1:
l2.append(i)
return l2
else:
return l1 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 6f8302a0-5974-4b36-a8e9-6b3968a8fce1 | 2,016 |
6,596 | def overlap(x1=0, y1=0, r1=1, x2=1, y2=1, r2=1):
distance_centre = int(sqrt((x2 - x1) ** 2 + (y2 - y1) ** 2))
distance_radius = r1 + r2
if distance_centre < distance_radius:
return True
else:
return False | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | false | bd03ecd6-cea3-4854-803a-b14d429489a7 | 2,016 |
8,870 | def overlap(x1=0, y1=0, r1=1, x2=1, y2=1, r2=1):
distance_centre = int(sqrt((x2 - x1) ** 2 + (y2 - y1) ** 2))
distance_radius = r1 + r2
if distance_centre < distance_radius:
return True
else:
return False | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | false | bd03ecd6-cea3-4854-803a-b14d429489a7 | 2,016 |
10,895 | def overlap(x1=0, y1=0, r1=1, x2=1, y2=1, r2=1):
distance_centre = int(sqrt((x2 - x1) ** 2 + (y2 - y1) ** 2))
distance_radius = r1 + r2
if distance_centre < distance_radius:
return True
else:
return False | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | false | bd03ecd6-cea3-4854-803a-b14d429489a7 | 2,016 |
17,856 | def append2list(l1, l2=None):
if l2 == None:
l2 = []
for i in l1:
l2.append(i)
return l2 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 3e9f1e04-e9fd-4164-8fa5-c7feb1dcc1f5 | 2,016 |
27,720 | def append2list(l1, l2=None):
if l2 == None:
l2 = []
for i in l1:
l2.append(i)
return l2 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 3e9f1e04-e9fd-4164-8fa5-c7feb1dcc1f5 | 2,016 |
27,613 | def append2list(l1, l2=None):
if l2 == None:
l2 = []
for i in l1:
l2.append(i)
return l2 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | d2e09b87-6673-4e12-97a7-4a861a6daa84 | 2,016 |
37,984 | def append2list(l1, l2=None):
if l2 == None:
l2 = []
for i in l1:
l2.append(i)
return l2 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | d2e09b87-6673-4e12-97a7-4a861a6daa84 | 2,016 |
16,314 | def append2list(l1, l2=None):
if l2 is None:
l2 = []
for i in l1:
l2.append(i)
return l2 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | false | 17658437-97b1-4a8a-ac6f-a63a54536e33 | 2,016 |
20,029 | def overlap(x1=0, y1=0, r1=1, x2=0, y2=0, r2=1):
x = x2 - x1
y = y2 - y1
r = r1 + r2
distance = (x * x + y * y) ** 0.5
return r > distance | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | true | 66e06699-d10a-47f1-a343-55edd72e95d2 | 2,016 |
3,516 | def overlap(x1=0, y1=0, r1=1, x2=0, y2=0, r2=1):
distance = ((x2 - x1) ** 2 + (y2 - y1) ** 2) ** 0.5
return r1 + r2 > distance | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | true | 66e06699-d10a-47f1-a343-55edd72e95d2 | 2,016 |
15,531 | def overlap(x1=0, y1=0, r1=1, x2=0, y2=0, r2=1):
distance = ((x2 - x1) ** 2 + (y2 - y1) ** 2) ** 0.5
return r1 + r2 > distance | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | true | 66e06699-d10a-47f1-a343-55edd72e95d2 | 2,016 |
38,778 | def overlap(x1=0, y1=0, r1=1, x2=0, y2=0, r2=1):
x = x2 - x1
y = y2 - y1
r = r1 + r2
hypotenuse = (x ** 2 + y ** 2) ** 0.5
return r > hypotenuse | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | true | f98e9d61-9e86-4fed-86db-3cf718c5962d | 2,016 |
19,864 | def overlap(x1=0, y1=0, r1=1, x2=0, y2=0, r2=1):
x = x2 - x1
y = y2 - y1
r = r1 + r2
hypotenuse = (x ** 2 + y ** 2) ** 0.5
return r > hypotenuse | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | true | f98e9d61-9e86-4fed-86db-3cf718c5962d | 2,016 |
2,919 | def append2list(l1, l2=None):
if l2 is None:
l2 = []
for i in l1:
l2.append(i)
return l2 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 17658437-97b1-4a8a-ac6f-a63a54536e33 | 2,016 |
25,939 | def append2list(l1, l2=None):
if l2 is None:
l2 = []
for i in l1:
l2.append(i)
return l2 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 17658437-97b1-4a8a-ac6f-a63a54536e33 | 2,016 |
11,011 | def append2list(l1, l2=None):
if l2:
for i in l1:
l2.append(i)
return l2
else:
return l1 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 431d0ef6-9edd-464b-a5fa-cccf8b152f4e | 2,016 |
2,262 | def append2list(l1, l2=None):
if l2:
for i in l1:
l2.append(i)
return l2
else:
return l1 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 431d0ef6-9edd-464b-a5fa-cccf8b152f4e | 2,016 |
34,009 | def overlap(x1=0, y1=0, r1=0, x2=0, y2=0, r2=0):
circles = (x2 - x1) ** 2 + (y2 - y1) ** 2
distance = circles ** 1 / 2
length = r1 + r2
if distance <= length:
return True
else:
return False | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | false | 422fe752-ca84-4537-b250-7de556e6ee94 | 2,016 |
33,361 | def dist(x1, y1, x2, y2):
return math.sqrt((x2 - x1) ** 2 + (y2 - y1) ** 2)
def overlap(x1=0, y1=0, r1=1, x2=0, y2=0, r2=1):
return r1 + r2 > dist(x1, y1, x2, y2) | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | false | 932dfe81-cd49-4d41-8b87-456f3246e781 | 2,016 |
35,217 | def dist(x1, y1, x2, y2):
return math.sqrt((x2 - x1) ** 2 + (y2 - y1) ** 2)
def overlap(x1=0, y1=0, r1=1, x2=0, y2=0, r2=1):
return r1 + r2 > dist(x1, y1, x2, y2) | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | false | 932dfe81-cd49-4d41-8b87-456f3246e781 | 2,016 |
38,169 | def overlap(x1=0, y1=0, r1=1, x2=0, y2=0, r2=1):
if r1 + r2 <= sqrt((x2 - x1) ** 2 + (y2 - y1) ** 2):
return False
return True | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | false | fc73b043-0c96-4ce3-8b8f-2c4c98785aa6 | 2,016 |
12,354 | def overlap(x1=0, y1=0, r1=1, x2=0, y2=0, r2=1):
if r1 + r2 <= sqrt((x2 - x1) ** 2 + (y2 - y1) ** 2):
return False
return True | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | false | fc73b043-0c96-4ce3-8b8f-2c4c98785aa6 | 2,016 |
205 | def overlap(x1, y1, r1, x2, y2, r2):
distance = ((x2 - x1) ** 2 + (y2 - y1) ** 2) // 2
if r1 + r2 == distance:
return True
elif r1 - r2 == distance:
return True
else:
return False | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | false | 0473ca8a-3862-4046-a34c-16eb754fdfff | 2,016 |
32,027 | _A = None
def overlap(x1=_A, y1=_A, r1=_A, x2=_A, y2=_A, r2=_A):
if x1 is _A:
x1 = 0
if x2 is _A:
x2 = 0
if r1 is _A:
r1 = 1
if y2 is _A:
y2 = 0
if y1 is _A:
y1 = 0
if r2 is _A:
r2 = 1
if (x2 - x1) ** 2 + (y2 - y1) ** 2 >= (r1 + r2) ** 2:
return False
else:
return True | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | false | 2157ade0-6890-435b-8669-a884e3233bc7 | 2,016 |
9,740 | _A = None
def overlap(x1=_A, y1=_A, r1=_A, x2=_A, y2=_A, r2=_A):
if x1 is _A:
x1 = 0
if x2 is _A:
x2 = 0
if r1 is _A:
r1 = 1
if y2 is _A:
y2 = 0
if y1 is _A:
y1 = 0
if r2 is _A:
r2 = 1
if (x2 - x1) ** 2 + (y2 - y1) ** 2 >= (r1 + r2) ** 2:
return False
else:
return True | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | false | 2157ade0-6890-435b-8669-a884e3233bc7 | 2,016 |
41,149 | def overlap(x1=0, y1=0, r1=1, x2=0, y2=0, r2=1):
circles = (x2 - x1) ** 2 + (y2 - y1) ** 2
distance = circles ** 1 / 2
length = r1 + r2
if distance < length:
return True
else:
return False | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | false | 422fe752-ca84-4537-b250-7de556e6ee94 | 2,016 |
5,238 | def overlap(x1=0, y1=0, r1=1, x2=0, y2=0, r2=1):
distance = ((x2 - x1) ** 2 + (y2 - y1) ** 2) // 2
if r1 + r2 == distance:
return True
elif r1 - r2 == distance:
return True
else:
return False | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | false | 0473ca8a-3862-4046-a34c-16eb754fdfff | 2,016 |
16,243 | def overlap(x1=0, y1=0, r1=0, x2=0, y2=0, r2=0):
dist_p = ((x2 - x1) ** 2 + (y2 - y1) ** 2) ** (1 / 2)
dist_r = r1 + r2
if dist_p < dist_r:
print(True)
else:
print(False) | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | false | 2eb2f93d-3491-4b0b-bad9-894c90595058 | 2,016 |
12,742 | def append2list(l1, l2=[]):
for i in l1:
l2.append(i)
return l2 | append2list | append2list | Appends elements of a list l1 at the end of the list l2. If l2 not supplied default to empty list. | assert append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866],[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866])==[-16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866, -16276, 117, -12248, -4743, -25, -6030600119498841921, -8866, -12248, -4743, -25, -6030600119498841921, -8866] and append2list([-21267],[-21267, -21267])==[-21267, -21267, -21267] | true | 5a6b9af4-c978-4326-ba5b-405c4a284f15 | 2,016 |
18,113 | def overlap(x1=0, y1=0, r1=1, x2=0, y2=0, r2=1):
distance = ((x2 - x1) ** 2 + (y2 - y1) ** 2) // 2
print(diatance)
print(r1)
print(r2)
if r1 + r2 == distance:
return True
elif r1 - r2 == distance:
return True
else:
return False | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | false | 0473ca8a-3862-4046-a34c-16eb754fdfff | 2,016 |
30,979 | def overlap(x1=0, y1=0, r1=0, x2=0, y2=0, r2=0):
dist_p = ((x2 - x1) ** 2 + (y2 - y1) ** 2) ** (1 / 2)
dist_r = r1 + r2
if dist_p < dist_r:
return True
else:
return False | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | true | 2eb2f93d-3491-4b0b-bad9-894c90595058 | 2,016 |
668 | def overlap(x1=0, y1=0, r1=1, x2=0, y2=0, r2=1):
distance = ((x2 - x1) ** 2 + (y2 - y1) ** 2) // 2
print(distance)
print(r1)
print(r2)
if r1 + r2 == distance:
return True
elif r1 - r2 == distance:
return True
else:
return False | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | false | 0473ca8a-3862-4046-a34c-16eb754fdfff | 2,016 |
29,973 | def overlap(x1=0, y1=0, r1=1, x2=0, y2=0, r2=1):
dist = ((x2 - x1) ** 2 + (y2 - y1) ** 2) ** 0.5
return dist < r1 + r2 | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | true | 431d0ef6-9edd-464b-a5fa-cccf8b152f4e | 2,016 |
20,723 | def overlap(x1=0, y1=0, r1=1, x2=0, y2=0, r2=1):
dist = ((x2 - x1) ** 2 + (y2 - y1) ** 2) ** 0.5
return dist < r1 + r2 | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | true | 431d0ef6-9edd-464b-a5fa-cccf8b152f4e | 2,016 |
40,108 | def overlap(x1, y1, r1, x2, y2, r2):
dist_p = ((x2 - x1) ** 2 + (y2 - y1) ** 2) ** (1 / 2)
dist_r = r1 + r2
if dist_p < dist_r:
return True
else:
return False | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | true | 2eb2f93d-3491-4b0b-bad9-894c90595058 | 2,016 |
32,566 | def overlap(x1=0, y1=0, r1=1, x2=0, y2=0, r2=1):
x = x2 - x1
y = y2 - y1
r = r1 + r2
distance = (x ** 2 + y ** 2) ** 0.5
return r > distance | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | true | 030c2a56-757a-4b4d-ac91-67aecc3d9b33 | 2,016 |
2,904 | def overlap(x1=0, y1=0, r1=1, x2=0, y2=0, r2=1):
x = x2 - x1
y = y2 - y1
r = r1 + r2
distance = (x ** 2 + y ** 2) ** 0.5
return r > distance | overlap | overlap | Test if two circles overlap. | assert overlap(12,-6058,21436,-3483096651887624530,24,31017)==False and overlap(-30592,-26624,-11905,1,2,30134)==False and overlap(0,0,0,0,0,0)==False and overlap(5128,-8635,-28938,25,-31295,-21637807133189218411179185993653430151)==False and overlap(-16348,-2218,2871,-15155,-83,24475)==True and overlap(4807,1216206119,8753907074291481720,-19844,-26061,-15639)==True and overlap(1348593950,19232,-10923,20,2259187900768772679,-5343103208648864320)==False and overlap(8410739119977124611,9995,83,8410739119977124611,19348,21604)==True | true | 030c2a56-757a-4b4d-ac91-67aecc3d9b33 | 2,016 |
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