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Please solve this problem. Assume there is arbitrary bit depth and that there are signed integers. If the answer is negative, reply as a negative value (ex., -0x3), not the two's-compliment form. Reply only with the final hexidecimal value.
((((0x3fa3 - 0xb817) - (0x4902 + 0x5096)) * ((0x8eee << 0x3) * (0xffdd << 0x3))) + (((0xe9f4 - 0x3596) >> 0x0) + ((0x50ec - 0xc5e8) >> 0x3)))
|
-0x263b20fd72bc42
|
{"source_dataset": "bitwise_arithmetic", "source_index": 20990, "problem": "((((0x3fa3 - 0xb817) - (0x4902 + 0x5096)) * ((0x8eee << 0x3) * (0xffdd << 0x3))) + (((0xe9f4 - 0x3596) >> 0x0) + ((0x50ec - 0xc5e8) >> 0x3)))", "difficulty": {"difficulty": 4}, "answer": "-0x263b20fd72bc42", "question": "Please solve this problem. Assume there is arbitrary bit depth and that there are signed integers. If the answer is negative, reply as a negative value (ex., -0x3), not the two's-compliment form. Reply only with the final hexidecimal value.\n((((0x3fa3 - 0xb817) - (0x4902 + 0x5096)) * ((0x8eee << 0x3) * (0xffdd << 0x3))) + (((0xe9f4 - 0x3596) >> 0x0) + ((0x50ec - 0xc5e8) >> 0x3)))"}
|
Please solve this problem. Assume there is arbitrary bit depth and that there are signed integers. If the answer is negative, reply as a negative value (ex., -0x3), not the two's-compliment form. Reply only with the final hexidecimal value.
((((0xacdd << 0x0) << 0x1) << 0x1) + (((0x1445 + 0xddab) >> 0x1) - ((0xe9af - 0xf80a) >> 0x2)))
|
0x33003
|
{"source_dataset": "bitwise_arithmetic", "source_index": 20991, "problem": "((((0xacdd << 0x0) << 0x1) << 0x1) + (((0x1445 + 0xddab) >> 0x1) - ((0xe9af - 0xf80a) >> 0x2)))", "difficulty": {"difficulty": 4}, "answer": "0x33003", "question": "Please solve this problem. Assume there is arbitrary bit depth and that there are signed integers. If the answer is negative, reply as a negative value (ex., -0x3), not the two's-compliment form. Reply only with the final hexidecimal value.\n((((0xacdd << 0x0) << 0x1) << 0x1) + (((0x1445 + 0xddab) >> 0x1) - ((0xe9af - 0xf80a) >> 0x2)))"}
|
Please solve this problem. Assume there is arbitrary bit depth and that there are signed integers. If the answer is negative, reply as a negative value (ex., -0x3), not the two's-compliment form. Reply only with the final hexidecimal value.
((((0x68d - 0x79df) * (0x65e5 >> 0x0)) + ((0xc5dc << 0x1) << 0x0)) << 0x1)
|
-0x5bc9ed44
|
{"source_dataset": "bitwise_arithmetic", "source_index": 20992, "problem": "((((0x68d - 0x79df) * (0x65e5 >> 0x0)) + ((0xc5dc << 0x1) << 0x0)) << 0x1)", "difficulty": {"difficulty": 4}, "answer": "-0x5bc9ed44", "question": "Please solve this problem. Assume there is arbitrary bit depth and that there are signed integers. If the answer is negative, reply as a negative value (ex., -0x3), not the two's-compliment form. Reply only with the final hexidecimal value.\n((((0x68d - 0x79df) * (0x65e5 >> 0x0)) + ((0xc5dc << 0x1) << 0x0)) << 0x1)"}
|
Please solve this problem. Assume there is arbitrary bit depth and that there are signed integers. If the answer is negative, reply as a negative value (ex., -0x3), not the two's-compliment form. Reply only with the final hexidecimal value.
((((0x63e4 >> 0x0) + (0x304 + 0x42ef)) * ((0xb41d << 0x0) * (0x8af0 << 0x2))) - (((0x58f3 + 0x44eb) + (0x6813 * 0x1e4e)) * ((0xb9a9 >> 0x3) - (0x3a75 * 0x7887))))
|
0x1542662c80625f0
|
{"source_dataset": "bitwise_arithmetic", "source_index": 20993, "problem": "((((0x63e4 >> 0x0) + (0x304 + 0x42ef)) * ((0xb41d << 0x0) * (0x8af0 << 0x2))) - (((0x58f3 + 0x44eb) + (0x6813 * 0x1e4e)) * ((0xb9a9 >> 0x3) - (0x3a75 * 0x7887))))", "difficulty": {"difficulty": 4}, "answer": "0x1542662c80625f0", "question": "Please solve this problem. Assume there is arbitrary bit depth and that there are signed integers. If the answer is negative, reply as a negative value (ex., -0x3), not the two's-compliment form. Reply only with the final hexidecimal value.\n((((0x63e4 >> 0x0) + (0x304 + 0x42ef)) * ((0xb41d << 0x0) * (0x8af0 << 0x2))) - (((0x58f3 + 0x44eb) + (0x6813 * 0x1e4e)) * ((0xb9a9 >> 0x3) - (0x3a75 * 0x7887))))"}
|
Please solve this problem. Assume there is arbitrary bit depth and that there are signed integers. If the answer is negative, reply as a negative value (ex., -0x3), not the two's-compliment form. Reply only with the final hexidecimal value.
((((0x2c3d - 0xe57d) - (0xefcd + 0x16e1)) - ((0xb8cb * 0xd805) - (0xa4b7 >> 0x2))) - (((0x22c6 + 0x2bb7) * (0x86ae + 0xa6be)) >> 0x3))
|
-0xa77dbd6f
|
{"source_dataset": "bitwise_arithmetic", "source_index": 20994, "problem": "((((0x2c3d - 0xe57d) - (0xefcd + 0x16e1)) - ((0xb8cb * 0xd805) - (0xa4b7 >> 0x2))) - (((0x22c6 + 0x2bb7) * (0x86ae + 0xa6be)) >> 0x3))", "difficulty": {"difficulty": 4}, "answer": "-0xa77dbd6f", "question": "Please solve this problem. Assume there is arbitrary bit depth and that there are signed integers. If the answer is negative, reply as a negative value (ex., -0x3), not the two's-compliment form. Reply only with the final hexidecimal value.\n((((0x2c3d - 0xe57d) - (0xefcd + 0x16e1)) - ((0xb8cb * 0xd805) - (0xa4b7 >> 0x2))) - (((0x22c6 + 0x2bb7) * (0x86ae + 0xa6be)) >> 0x3))"}
|
Please solve this problem. Assume there is arbitrary bit depth and that there are signed integers. If the answer is negative, reply as a negative value (ex., -0x3), not the two's-compliment form. Reply only with the final hexidecimal value.
((((0xfad4 * 0x6b74) + (0x7aee * 0xa630)) << 0x1) >> 0x1)
|
0xb915a4b0
|
{"source_dataset": "bitwise_arithmetic", "source_index": 20995, "problem": "((((0xfad4 * 0x6b74) + (0x7aee * 0xa630)) << 0x1) >> 0x1)", "difficulty": {"difficulty": 4}, "answer": "0xb915a4b0", "question": "Please solve this problem. Assume there is arbitrary bit depth and that there are signed integers. If the answer is negative, reply as a negative value (ex., -0x3), not the two's-compliment form. Reply only with the final hexidecimal value.\n((((0xfad4 * 0x6b74) + (0x7aee * 0xa630)) << 0x1) >> 0x1)"}
|
Please solve this problem. Assume there is arbitrary bit depth and that there are signed integers. If the answer is negative, reply as a negative value (ex., -0x3), not the two's-compliment form. Reply only with the final hexidecimal value.
((((0xffa7 - 0x16f) >> 0x1) << 0x0) << 0x2)
|
0x1fc70
|
{"source_dataset": "bitwise_arithmetic", "source_index": 20996, "problem": "((((0xffa7 - 0x16f) >> 0x1) << 0x0) << 0x2)", "difficulty": {"difficulty": 4}, "answer": "0x1fc70", "question": "Please solve this problem. Assume there is arbitrary bit depth and that there are signed integers. If the answer is negative, reply as a negative value (ex., -0x3), not the two's-compliment form. Reply only with the final hexidecimal value.\n((((0xffa7 - 0x16f) >> 0x1) << 0x0) << 0x2)"}
|
Please solve this problem. Assume there is arbitrary bit depth and that there are signed integers. If the answer is negative, reply as a negative value (ex., -0x3), not the two's-compliment form. Reply only with the final hexidecimal value.
((((0xfe11 >> 0x1) + (0x48c >> 0x0)) >> 0x1) * (((0x6b0c * 0x2917) << 0x3) + ((0xdda2 + 0x78b9) * (0xfb9b - 0xcc95))))
|
0x337c2eab8914
|
{"source_dataset": "bitwise_arithmetic", "source_index": 20997, "problem": "((((0xfe11 >> 0x1) + (0x48c >> 0x0)) >> 0x1) * (((0x6b0c * 0x2917) << 0x3) + ((0xdda2 + 0x78b9) * (0xfb9b - 0xcc95))))", "difficulty": {"difficulty": 4}, "answer": "0x337c2eab8914", "question": "Please solve this problem. Assume there is arbitrary bit depth and that there are signed integers. If the answer is negative, reply as a negative value (ex., -0x3), not the two's-compliment form. Reply only with the final hexidecimal value.\n((((0xfe11 >> 0x1) + (0x48c >> 0x0)) >> 0x1) * (((0x6b0c * 0x2917) << 0x3) + ((0xdda2 + 0x78b9) * (0xfb9b - 0xcc95))))"}
|
Please solve this problem. Assume there is arbitrary bit depth and that there are signed integers. If the answer is negative, reply as a negative value (ex., -0x3), not the two's-compliment form. Reply only with the final hexidecimal value.
((((0x28b2 - 0xe4d7) - (0xb505 - 0x15be)) * ((0x8bad - 0x704f) * (0x595a << 0x0))) << 0x3)
|
-0x67b4785e2880
|
{"source_dataset": "bitwise_arithmetic", "source_index": 20998, "problem": "((((0x28b2 - 0xe4d7) - (0xb505 - 0x15be)) * ((0x8bad - 0x704f) * (0x595a << 0x0))) << 0x3)", "difficulty": {"difficulty": 4}, "answer": "-0x67b4785e2880", "question": "Please solve this problem. Assume there is arbitrary bit depth and that there are signed integers. If the answer is negative, reply as a negative value (ex., -0x3), not the two's-compliment form. Reply only with the final hexidecimal value.\n((((0x28b2 - 0xe4d7) - (0xb505 - 0x15be)) * ((0x8bad - 0x704f) * (0x595a << 0x0))) << 0x3)"}
|
Please solve this problem. Assume there is arbitrary bit depth and that there are signed integers. If the answer is negative, reply as a negative value (ex., -0x3), not the two's-compliment form. Reply only with the final hexidecimal value.
((((0xe532 << 0x2) * (0xd2ba >> 0x1)) >> 0x3) - (((0xb86f * 0xb6b1) << 0x2) - ((0x9cba - 0xcc29) - (0xae6f >> 0x3))))
|
-0x1df4f9da3
|
{"source_dataset": "bitwise_arithmetic", "source_index": 20999, "problem": "((((0xe532 << 0x2) * (0xd2ba >> 0x1)) >> 0x3) - (((0xb86f * 0xb6b1) << 0x2) - ((0x9cba - 0xcc29) - (0xae6f >> 0x3))))", "difficulty": {"difficulty": 4}, "answer": "-0x1df4f9da3", "question": "Please solve this problem. Assume there is arbitrary bit depth and that there are signed integers. If the answer is negative, reply as a negative value (ex., -0x3), not the two's-compliment form. Reply only with the final hexidecimal value.\n((((0xe532 << 0x2) * (0xd2ba >> 0x1)) >> 0x3) - (((0xb86f * 0xb6b1) << 0x2) - ((0x9cba - 0xcc29) - (0xae6f >> 0x3))))"}
|
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