question stringlengths 264 538 | answer stringlengths 4 32 | metadata dict | difficulty int64 2 5 |
|---|---|---|---|
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.
(((0x9faa >> 0x2) - (0x2206 >> 0x2)) >> 0x0) | 0x1f69 | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0x9faa >> 0x2) - (0x2206 >> 0x2)) >> 0x0)",
"source_dataset": "bitwise_arithmetic",
"source_index": 30
} | 3 |
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.
(((0x13d9 >> 0x3) - (0x746d - 0x1d42)) >> 0x0) | -0x54b0 | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0x13d9 >> 0x3) - (0x746d - 0x1d42)) >> 0x0)",
"source_dataset": "bitwise_arithmetic",
"source_index": 31
} | 3 |
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.
(((0x2f8e * 0xe11b) * (0x5af6 - 0x1fbf)) >> 0x1) | 0x4d60e20dd5b | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0x2f8e * 0xe11b) * (0x5af6 - 0x1fbf)) >> 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 32
} | 3 |
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.
(((0xe9e4 << 0x2) >> 0x2) << 0x1) | 0x1d3c8 | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0xe9e4 << 0x2) >> 0x2) << 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 33
} | 3 |
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.
(((0x4918 - 0x4e27) * (0x7e5e << 0x0)) << 0x1) | -0x4fe7b04 | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0x4918 - 0x4e27) * (0x7e5e << 0x0)) << 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 34
} | 3 |
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.
(((0x4bd5 + 0x7aea) - (0x3de1 >> 0x0)) * ((0x2d34 << 0x1) + (0x2fd0 << 0x2))) | 0x96957fb0 | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0x4bd5 + 0x7aea) - (0x3de1 >> 0x0)) * ((0x2d34 << 0x1) + (0x2fd0 << 0x2)))",
"source_dataset": "bitwise_arithmetic",
"source_index": 35
} | 3 |
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.
(((0xa8cf + 0x26b4) * (0xc6ae << 0x1)) + ((0x368 >> 0x1) << 0x3)) | 0x14218c7b4 | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0xa8cf + 0x26b4) * (0xc6ae << 0x1)) + ((0x368 >> 0x1) << 0x3))",
"source_dataset": "bitwise_arithmetic",
"source_index": 36
} | 3 |
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.
(((0x28af << 0x2) - (0xfa72 + 0xbacb)) * ((0xd4fb << 0x2) * (0x62d3 + 0x1c38))) | -0x1c555b192c924 | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0x28af << 0x2) - (0xfa72 + 0xbacb)) * ((0xd4fb << 0x2) * (0x62d3 + 0x1c38)))",
"source_dataset": "bitwise_arithmetic",
"source_index": 37
} | 3 |
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.
(((0x67ba >> 0x0) << 0x3) >> 0x1) | 0x19ee8 | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0x67ba >> 0x0) << 0x3) >> 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 38
} | 3 |
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.
(((0x29cf + 0x271b) >> 0x2) << 0x1) | 0x2874 | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0x29cf + 0x271b) >> 0x2) << 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 39
} | 3 |
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.
(((0xcb48 - 0x2bbf) * (0xc457 - 0xeac2)) << 0x2) | -0x5fc4110c | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0xcb48 - 0x2bbf) * (0xc457 - 0xeac2)) << 0x2)",
"source_dataset": "bitwise_arithmetic",
"source_index": 40
} | 3 |
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.
(((0x316e - 0x2d80) << 0x2) << 0x0) | 0xfb8 | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0x316e - 0x2d80) << 0x2) << 0x0)",
"source_dataset": "bitwise_arithmetic",
"source_index": 41
} | 3 |
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.
(((0xd646 * 0x3356) >> 0x1) + ((0xe518 << 0x2) * (0xaa00 - 0xf147))) | -0xe9a8cfde | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0xd646 * 0x3356) >> 0x1) + ((0xe518 << 0x2) * (0xaa00 - 0xf147)))",
"source_dataset": "bitwise_arithmetic",
"source_index": 42
} | 3 |
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.
(((0x39f7 - 0x7712) * (0x960c * 0x39f4)) >> 0x3) | -0x103733da61a | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0x39f7 - 0x7712) * (0x960c * 0x39f4)) >> 0x3)",
"source_dataset": "bitwise_arithmetic",
"source_index": 43
} | 3 |
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.
(((0xb62c + 0x8192) * (0xd345 * 0xb9b6)) + ((0x1986 >> 0x3) + (0xc57d >> 0x1))) | 0xbaa238475252 | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0xb62c + 0x8192) * (0xd345 * 0xb9b6)) + ((0x1986 >> 0x3) + (0xc57d >> 0x1)))",
"source_dataset": "bitwise_arithmetic",
"source_index": 44
} | 3 |
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.
(((0xa60b * 0x8c16) >> 0x0) - ((0x9eab >> 0x0) + (0x411a - 0xf25c))) | 0x5adc5b89 | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0xa60b * 0x8c16) >> 0x0) - ((0x9eab >> 0x0) + (0x411a - 0xf25c)))",
"source_dataset": "bitwise_arithmetic",
"source_index": 45
} | 3 |
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.
(((0xc5b8 >> 0x0) - (0x23b0 << 0x0)) - ((0x53dc << 0x3) >> 0x2)) | -0x5b0 | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0xc5b8 >> 0x0) - (0x23b0 << 0x0)) - ((0x53dc << 0x3) >> 0x2))",
"source_dataset": "bitwise_arithmetic",
"source_index": 46
} | 3 |
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.
(((0x274a + 0xd9d8) * (0x4db8 - 0xb296)) >> 0x3) | -0xcaa0870 | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0x274a + 0xd9d8) * (0x4db8 - 0xb296)) >> 0x3)",
"source_dataset": "bitwise_arithmetic",
"source_index": 47
} | 3 |
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.
(((0xcf12 * 0x7486) >> 0x2) + ((0xfb5f + 0xaed6) >> 0x1)) | 0x1790f7f5 | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0xcf12 * 0x7486) >> 0x2) + ((0xfb5f + 0xaed6) >> 0x1))",
"source_dataset": "bitwise_arithmetic",
"source_index": 48
} | 3 |
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.
(((0xd925 << 0x3) - (0x3f61 * 0x3119)) - ((0xf7c5 - 0xcb9f) * (0xc531 + 0xd55a))) | -0x52edccf3 | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0xd925 << 0x3) - (0x3f61 * 0x3119)) - ((0xf7c5 - 0xcb9f) * (0xc531 + 0xd55a)))",
"source_dataset": "bitwise_arithmetic",
"source_index": 49
} | 3 |
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.
(((0x92fd + 0x86cd) >> 0x2) >> 0x3) | 0x8ce | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0x92fd + 0x86cd) >> 0x2) >> 0x3)",
"source_dataset": "bitwise_arithmetic",
"source_index": 50
} | 3 |
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.
(((0x5bfa + 0x26d7) * (0xcab0 + 0x2a3c)) << 0x1) | 0xfa4f9958 | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0x5bfa + 0x26d7) * (0xcab0 + 0x2a3c)) << 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 51
} | 3 |
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.
(((0xb0f1 + 0x8089) * (0x6eb6 * 0x9959)) + ((0xbf7e + 0x709e) >> 0x0)) | 0x4f226be1a578 | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0xb0f1 + 0x8089) * (0x6eb6 * 0x9959)) + ((0xbf7e + 0x709e) >> 0x0))",
"source_dataset": "bitwise_arithmetic",
"source_index": 52
} | 3 |
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.
(((0xf36c - 0x7f75) >> 0x2) >> 0x1) | 0xe7e | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0xf36c - 0x7f75) >> 0x2) >> 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 53
} | 3 |
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.
(((0xb3c2 + 0xe3fc) + (0xa5ae << 0x0)) << 0x3) | 0x11eb60 | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0xb3c2 + 0xe3fc) + (0xa5ae << 0x0)) << 0x3)",
"source_dataset": "bitwise_arithmetic",
"source_index": 54
} | 3 |
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.
(((0xc713 >> 0x0) + (0x5f3d * 0x7a6)) * ((0xd36d + 0x51b6) << 0x3)) | 0x1a17de4aa018 | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0xc713 >> 0x0) + (0x5f3d * 0x7a6)) * ((0xd36d + 0x51b6) << 0x3))",
"source_dataset": "bitwise_arithmetic",
"source_index": 55
} | 3 |
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.
(((0xbb6a * 0xd231) + (0xcac4 + 0x803c)) + ((0x207 * 0xc7a7) << 0x2)) | 0xa0352c8e | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0xbb6a * 0xd231) + (0xcac4 + 0x803c)) + ((0x207 * 0xc7a7) << 0x2))",
"source_dataset": "bitwise_arithmetic",
"source_index": 56
} | 3 |
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.
(((0x414b + 0xbba1) - (0x17ff >> 0x3)) - ((0xd383 * 0x645b) >> 0x1)) | -0x297433db | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0x414b + 0xbba1) - (0x17ff >> 0x3)) - ((0xd383 * 0x645b) >> 0x1))",
"source_dataset": "bitwise_arithmetic",
"source_index": 57
} | 3 |
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.
(((0x6ffa * 0x82c1) - (0x200e >> 0x3)) << 0x2) | 0xe4c56de4 | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0x6ffa * 0x82c1) - (0x200e >> 0x3)) << 0x2)",
"source_dataset": "bitwise_arithmetic",
"source_index": 58
} | 3 |
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.
(((0xd6b << 0x1) >> 0x1) - ((0x2a3b - 0x17bf) << 0x2)) | -0x3c85 | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0xd6b << 0x1) >> 0x1) - ((0x2a3b - 0x17bf) << 0x2))",
"source_dataset": "bitwise_arithmetic",
"source_index": 59
} | 3 |
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.
(((0x2fb7 >> 0x2) >> 0x3) >> 0x3) | 0x2f | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0x2fb7 >> 0x2) >> 0x3) >> 0x3)",
"source_dataset": "bitwise_arithmetic",
"source_index": 60
} | 3 |
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.
(((0xbe38 >> 0x3) - (0xe045 * 0xaddf)) << 0x2) | -0x261479550 | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0xbe38 >> 0x3) - (0xe045 * 0xaddf)) << 0x2)",
"source_dataset": "bitwise_arithmetic",
"source_index": 61
} | 3 |
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.
(((0xb7bc + 0x2107) - (0xea98 + 0x2bac)) - ((0x5f66 * 0xa63f) - (0x95de - 0x42c5))) | -0x3df38882 | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0xb7bc + 0x2107) - (0xea98 + 0x2bac)) - ((0x5f66 * 0xa63f) - (0x95de - 0x42c5)))",
"source_dataset": "bitwise_arithmetic",
"source_index": 62
} | 3 |
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.
(((0x8727 * 0xc5b0) + (0x2aee * 0xda8d)) * ((0x5aec << 0x1) - (0x63ef >> 0x3))) | 0x5d49ee0831c2 | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0x8727 * 0xc5b0) + (0x2aee * 0xda8d)) * ((0x5aec << 0x1) - (0x63ef >> 0x3)))",
"source_dataset": "bitwise_arithmetic",
"source_index": 63
} | 3 |
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.
(((0xf50b + 0xcf6b) >> 0x3) << 0x1) | 0x711c | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0xf50b + 0xcf6b) >> 0x3) << 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 64
} | 3 |
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.
(((0xf5fb * 0x2447) << 0x2) >> 0x1) | 0x45b7093a | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0xf5fb * 0x2447) << 0x2) >> 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 65
} | 3 |
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.
(((0x3325 << 0x0) << 0x2) + ((0xebca >> 0x0) - (0x378e << 0x0))) | 0x180d0 | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0x3325 << 0x0) << 0x2) + ((0xebca >> 0x0) - (0x378e << 0x0)))",
"source_dataset": "bitwise_arithmetic",
"source_index": 66
} | 3 |
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.
(((0x807f >> 0x2) + (0x1501 >> 0x1)) << 0x0) | 0x2a9f | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0x807f >> 0x2) + (0x1501 >> 0x1)) << 0x0)",
"source_dataset": "bitwise_arithmetic",
"source_index": 67
} | 3 |
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.
(((0xb7a8 << 0x0) >> 0x0) << 0x2) | 0x2dea0 | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0xb7a8 << 0x0) >> 0x0) << 0x2)",
"source_dataset": "bitwise_arithmetic",
"source_index": 68
} | 3 |
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.
(((0x6bbe << 0x1) * (0x9020 << 0x1)) - ((0x61cd * 0x3985) << 0x0)) | 0xdca7ea7f | {
"difficulty": {
"difficulty": 3
},
"problem": "(((0x6bbe << 0x1) * (0x9020 << 0x1)) - ((0x61cd * 0x3985) << 0x0))",
"source_dataset": "bitwise_arithmetic",
"source_index": 69
} | 3 |
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.
((((0x1741 >> 0x3) + (0x38f8 + 0x3c8f)) - ((0x6c65 >> 0x3) + (0xc341 + 0xcf4a))) + (((0x1b2a * 0x18be) - (0xd9f5 * 0x590d)) << 0x2)) | -0x124c5bcbc | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x1741 >> 0x3) + (0x38f8 + 0x3c8f)) - ((0x6c65 >> 0x3) + (0xc341 + 0xcf4a))) + (((0x1b2a * 0x18be) - (0xd9f5 * 0x590d)) << 0x2))",
"source_dataset": "bitwise_arithmetic",
"source_index": 0
} | 4 |
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.
((((0x9ce6 << 0x3) + (0xdb2f >> 0x3)) * ((0x6138 + 0x2849) + (0xd6a2 >> 0x1))) - (((0x1143 << 0x0) * (0xd7cf + 0x2b6d)) >> 0x3)) | 0x4c862c7a4 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x9ce6 << 0x3) + (0xdb2f >> 0x3)) * ((0x6138 + 0x2849) + (0xd6a2 >> 0x1))) - (((0x1143 << 0x0) * (0xd7cf + 0x2b6d)) >> 0x3))",
"source_dataset": "bitwise_arithmetic",
"source_index": 1
} | 4 |
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.
((((0x1edc - 0x9295) - 0x291c) + ((0x984b << 0x2) * (0xd86e * 0x4960))) >> 0x0) | 0x939cf335e22b | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x1edc - 0x9295) - 0x291c) + ((0x984b << 0x2) * (0xd86e * 0x4960))) >> 0x0)",
"source_dataset": "bitwise_arithmetic",
"source_index": 2
} | 4 |
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.
((((0x49aa + 0xcfc2) + (0xdbfc * 0xbf54)) * ((0xcc89 * 0xe665) >> 0x3)) << 0x1) | 0x1d8e46c3fd371038 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x49aa + 0xcfc2) + (0xdbfc * 0xbf54)) * ((0xcc89 * 0xe665) >> 0x3)) << 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 3
} | 4 |
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.
((((0x966f - 0x8abc) - (0x8c7 + 0x12a6)) >> 0x0) << 0x2) | -0x3ee8 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x966f - 0x8abc) - (0x8c7 + 0x12a6)) >> 0x0) << 0x2)",
"source_dataset": "bitwise_arithmetic",
"source_index": 4
} | 4 |
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.
((((0xb78 >> 0x3) >> 0x3) >> 0x1) << 0x1) | 0x2c | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0xb78 >> 0x3) >> 0x3) >> 0x1) << 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 5
} | 4 |
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.
((((0x2b67 << 0x0) >> 0x1) >> 0x2) - (((0xf08f + 0xe2b8) - (0xa29f * 0x2460)) * ((0xcc84 << 0x2) << 0x2))) | 0x12743e9f2a3ac | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x2b67 << 0x0) >> 0x1) >> 0x2) - (((0xf08f + 0xe2b8) - (0xa29f * 0x2460)) * ((0xcc84 << 0x2) << 0x2)))",
"source_dataset": "bitwise_arithmetic",
"source_index": 6
} | 4 |
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.
((((0xc323 + 0xbd66) >> 0x2) * ((0x1980 - 0x6d59) << 0x2)) << 0x1) | -0xfbe41690 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0xc323 + 0xbd66) >> 0x2) * ((0x1980 - 0x6d59) << 0x2)) << 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 7
} | 4 |
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.
((((0x3a71 * 0xae2b) * (0x59e0 - 0xd445)) - ((0x1298 - 0xf9ed) * (0xe5a7 >> 0x3))) * (((0x277 << 0x2) * (0xb437 << 0x0)) + ((0x76c2 >> 0x2) << 0x0))) | -0x83f1b72fc0c8fd1cdc | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x3a71 * 0xae2b) * (0x59e0 - 0xd445)) - ((0x1298 - 0xf9ed) * (0xe5a7 >> 0x3))) * (((0x277 << 0x2) * (0xb437 << 0x0)) + ((0x76c2 >> 0x2) << 0x0)))",
"source_dataset": "bitwise_arithmetic",
"source_index": 8
} | 4 |
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.
((((0xee25 * 0xdf05) - (0xbc41 << 0x2)) - ((0x6865 * 0xb37d) * (0x841 + 0x8af7))) >> 0x3) | -0x542d5bb7c81 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0xee25 * 0xdf05) - (0xbc41 << 0x2)) - ((0x6865 * 0xb37d) * (0x841 + 0x8af7))) >> 0x3)",
"source_dataset": "bitwise_arithmetic",
"source_index": 9
} | 4 |
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.
((((0x29bd - 0xfc7e) * (0xd59f << 0x2)) >> 0x2) + (((0xf39a << 0x3) + (0x8c30 * 0x22b0)) << 0x1)) | -0x89d0bf3f | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x29bd - 0xfc7e) * (0xd59f << 0x2)) >> 0x2) + (((0xf39a << 0x3) + (0x8c30 * 0x22b0)) << 0x1))",
"source_dataset": "bitwise_arithmetic",
"source_index": 10
} | 4 |
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.
((((0xbb60 << 0x0) >> 0x2) << 0x2) - (((0x182b - 0xca1a) + (0x6418 << 0x1)) << 0x1)) | 0x8ede | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0xbb60 << 0x0) >> 0x2) << 0x2) - (((0x182b - 0xca1a) + (0x6418 << 0x1)) << 0x1))",
"source_dataset": "bitwise_arithmetic",
"source_index": 11
} | 4 |
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.
((((0x557f << 0x3) << 0x0) * ((0x8bc8 + 0x5811) >> 0x0)) - (((0x6140 + 0xae5d) << 0x0) * ((0xb450 + 0x3641) - (0x2e47 >> 0x3)))) | 0x16e0396f3 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x557f << 0x3) << 0x0) * ((0x8bc8 + 0x5811) >> 0x0)) - (((0x6140 + 0xae5d) << 0x0) * ((0xb450 + 0x3641) - (0x2e47 >> 0x3))))",
"source_dataset": "bitwise_arithmetic",
"source_index": 12
} | 4 |
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.
((((0xeb7d * 0xb9cb) - (0x8b63 << 0x3)) * ((0xfe50 << 0x0) * (0xf5f9 + 0x3c09))) - (((0x17ad - 0x8181) - (0x32f1 << 0x1)) + ((0x1c6c + 0xd46d) * (0x5424 * 0x5dbf)))) | 0xcaecb30dc3cb139a | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0xeb7d * 0xb9cb) - (0x8b63 << 0x3)) * ((0xfe50 << 0x0) * (0xf5f9 + 0x3c09))) - (((0x17ad - 0x8181) - (0x32f1 << 0x1)) + ((0x1c6c + 0xd46d) * (0x5424 * 0x5dbf))))",
"source_dataset": "bitwise_arithmetic",
"source_index": 13
} | 4 |
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.
((((0xb613 << 0x0) >> 0x2) >> 0x3) >> 0x0) | 0x5b0 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0xb613 << 0x0) >> 0x2) >> 0x3) >> 0x0)",
"source_dataset": "bitwise_arithmetic",
"source_index": 14
} | 4 |
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.
((((0xa3d2 << 0x3) << 0x2) - ((0xafe8 >> 0x2) + (0x24ae >> 0x1))) >> 0x0) | 0x143bef | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0xa3d2 << 0x3) << 0x2) - ((0xafe8 >> 0x2) + (0x24ae >> 0x1))) >> 0x0)",
"source_dataset": "bitwise_arithmetic",
"source_index": 15
} | 4 |
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.
((((0xcf2f * 0xe17e) << 0x2) - ((0x794f - 0xc206) + (0xa9e4 >> 0x2))) - (((0x2d15 * 0x9dab) - (0xc3e0 - 0xaf09)) - ((0x224d - 0x2297) - (0x8cc - 0x4471)))) | 0x2be3590f1 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0xcf2f * 0xe17e) << 0x2) - ((0x794f - 0xc206) + (0xa9e4 >> 0x2))) - (((0x2d15 * 0x9dab) - (0xc3e0 - 0xaf09)) - ((0x224d - 0x2297) - (0x8cc - 0x4471))))",
"source_dataset": "bitwise_arithmetic",
"source_index": 16
} | 4 |
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.
((((0x61d5 << 0x2) >> 0x0) * ((0x178f * 0xc87) + (0x913c + 0x9d9a))) << 0x3) | 0xe279219cd60 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x61d5 << 0x2) >> 0x0) * ((0x178f * 0xc87) + (0x913c + 0x9d9a))) << 0x3)",
"source_dataset": "bitwise_arithmetic",
"source_index": 17
} | 4 |
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.
((((0xcbdb + 0xec95) << 0x0) - ((0x2270 - 0x4f5f) + (0x842c - 0x99b0))) >> 0x0) | 0x1fae3 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0xcbdb + 0xec95) << 0x0) - ((0x2270 - 0x4f5f) + (0x842c - 0x99b0))) >> 0x0)",
"source_dataset": "bitwise_arithmetic",
"source_index": 18
} | 4 |
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.
((((0x11ab * 0x68ce) + (0x56ab - 0xa2bd)) * 0x81bc) >> 0x1) | 0x1d51e624ff0 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x11ab * 0x68ce) + (0x56ab - 0xa2bd)) * 0x81bc) >> 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 19
} | 4 |
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.
((((0x2ccc * 0x830f) * (0xf70e + 0x43b7)) - ((0x79f9 + 0x7999) - (0xf4a0 * 0x9810))) - (((0x5f4 >> 0x3) * (0xe6bd * 0x58b7)) - ((0x9c83 * 0x6e3f) + (0x4895 >> 0x1)))) | 0x1bf84cf899af | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x2ccc * 0x830f) * (0xf70e + 0x43b7)) - ((0x79f9 + 0x7999) - (0xf4a0 * 0x9810))) - (((0x5f4 >> 0x3) * (0xe6bd * 0x58b7)) - ((0x9c83 * 0x6e3f) + (0x4895 >> 0x1))))",
"source_dataset": "bitwise_arithmetic",
"source_index": 20
} | 4 |
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.
((((0x144f + 0xa9cf) + (0xd496 + 0xa1d2)) * ((0x5501 - 0x3d1d) >> 0x1)) * (((0xb43a << 0x0) << 0x2) >> 0x2)) | 0x128b6d66a6f8 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x144f + 0xa9cf) + (0xd496 + 0xa1d2)) * ((0x5501 - 0x3d1d) >> 0x1)) * (((0xb43a << 0x0) << 0x2) >> 0x2))",
"source_dataset": "bitwise_arithmetic",
"source_index": 21
} | 4 |
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.
((((0xb3db - 0xd2c5) * (0x156e - 0xdd80)) + ((0x6826 + 0xaef1) - (0x2db0 + 0x1bfc))) >> 0x1) | 0xc14e4ef | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0xb3db - 0xd2c5) * (0x156e - 0xdd80)) + ((0x6826 + 0xaef1) - (0x2db0 + 0x1bfc))) >> 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 22
} | 4 |
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.
((((0xd46d * 0xa4b5) >> 0x3) - ((0x42c0 + 0x1de7) << 0x0)) * (((0x66e4 - 0x741e) * (0xc361 - 0x651)) * ((0xc456 * 0xe496) * (0xbd91 - 0x6f1c)))) | -0x230550d284dad77a2e6fbfd980 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0xd46d * 0xa4b5) >> 0x3) - ((0x42c0 + 0x1de7) << 0x0)) * (((0x66e4 - 0x741e) * (0xc361 - 0x651)) * ((0xc456 * 0xe496) * (0xbd91 - 0x6f1c))))",
"source_dataset": "bitwise_arithmetic",
"source_index": 23
} | 4 |
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.
((((0x3029 << 0x1) >> 0x1) << 0x1) << 0x3) | 0x30290 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x3029 << 0x1) >> 0x1) << 0x1) << 0x3)",
"source_dataset": "bitwise_arithmetic",
"source_index": 24
} | 4 |
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.
((((0x482c >> 0x1) >> 0x1) << 0x1) << 0x2) | 0x9058 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x482c >> 0x1) >> 0x1) << 0x1) << 0x2)",
"source_dataset": "bitwise_arithmetic",
"source_index": 25
} | 4 |
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.
((((0x7129 * 0xfa42) << 0x0) >> 0x0) >> 0x1) | 0x374f9b49 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x7129 * 0xfa42) << 0x0) >> 0x0) >> 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 26
} | 4 |
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.
((((0x6b1e >> 0x3) * (0x5339 >> 0x3)) + ((0x26af * 0x332e) << 0x1)) + (((0x6040 >> 0x0) + (0x8cc - 0x2627)) << 0x3)) | 0x1004f8e1 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x6b1e >> 0x3) * (0x5339 >> 0x3)) + ((0x26af * 0x332e) << 0x1)) + (((0x6040 >> 0x0) + (0x8cc - 0x2627)) << 0x3))",
"source_dataset": "bitwise_arithmetic",
"source_index": 27
} | 4 |
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.
((((0x386e >> 0x3) + (0x675f - 0xa726)) << 0x2) * (((0x80b6 + 0xcead) << 0x1) - ((0x65cd >> 0x0) + (0x26c5 * 0xf77d)))) | 0x21369636e2c0 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x386e >> 0x3) + (0x675f - 0xa726)) << 0x2) * (((0x80b6 + 0xcead) << 0x1) - ((0x65cd >> 0x0) + (0x26c5 * 0xf77d))))",
"source_dataset": "bitwise_arithmetic",
"source_index": 28
} | 4 |
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.
((((0x8421 - 0xf03) - (0x731 >> 0x2)) * ((0xa688 * 0x2bb3) << 0x1)) >> 0x0) | 0x199c65ae6360 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x8421 - 0xf03) - (0x731 >> 0x2)) * ((0xa688 * 0x2bb3) << 0x1)) >> 0x0)",
"source_dataset": "bitwise_arithmetic",
"source_index": 29
} | 4 |
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.
((((0xbe56 * 0xb8bf) >> 0x1) - ((0x758b - 0xd01c) + (0xc6bc + 0x4c9d))) >> 0x2) | 0x112b4c13 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0xbe56 * 0xb8bf) >> 0x1) - ((0x758b - 0xd01c) + (0xc6bc + 0x4c9d))) >> 0x2)",
"source_dataset": "bitwise_arithmetic",
"source_index": 30
} | 4 |
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.
((((0x8595 << 0x1) >> 0x0) - ((0xfeb4 >> 0x1) >> 0x1)) >> 0x1) | 0x65be | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x8595 << 0x1) >> 0x0) - ((0xfeb4 >> 0x1) >> 0x1)) >> 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 31
} | 4 |
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.
((((0x5af6 - 0x1fbf) * (0x8727 << 0x2)) * ((0x1c5 >> 0x0) * (0x713c - 0x28c8))) >> 0x3) | 0x7d4022f4fe362 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x5af6 - 0x1fbf) * (0x8727 << 0x2)) * ((0x1c5 >> 0x0) * (0x713c - 0x28c8))) >> 0x3)",
"source_dataset": "bitwise_arithmetic",
"source_index": 32
} | 4 |
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.
((((0x1a9c * 0xe6b6) << 0x2) >> 0x1) << 0x3) | 0x17fb12e80 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x1a9c * 0xe6b6) << 0x2) >> 0x1) << 0x3)",
"source_dataset": "bitwise_arithmetic",
"source_index": 33
} | 4 |
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.
((((0x7e5e << 0x0) - (0x3b38 * 0x562f)) * (0x6ab8 + (0xca0b >> 0x3))) << 0x3) | -0x52364d728cd0 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x7e5e << 0x0) - (0x3b38 * 0x562f)) * (0x6ab8 + (0xca0b >> 0x3))) << 0x3)",
"source_dataset": "bitwise_arithmetic",
"source_index": 34
} | 4 |
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.
((((0x9d80 >> 0x1) + (0x19f >> 0x2)) - ((0x82df - 0xd6f0) << 0x0)) * (((0x15b9 + 0xd96b) - (0xe7b1 >> 0x0)) * ((0x194c + 0x94af) - (0xebb7 + 0xc914)))) | -0x4e035263080 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x9d80 >> 0x1) + (0x19f >> 0x2)) - ((0x82df - 0xd6f0) << 0x0)) * (((0x15b9 + 0xd96b) - (0xe7b1 >> 0x0)) * ((0x194c + 0x94af) - (0xebb7 + 0xc914))))",
"source_dataset": "bitwise_arithmetic",
"source_index": 35
} | 4 |
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.
((((0xc6ae << 0x1) + (0x61fa << 0x0)) * ((0x6da6 * 0x5765) - (0xb4dd << 0x1))) + (((0x25e6 - 0x7859) - (0xa5d9 >> 0x2)) * ((0xea8c << 0x0) - (0x167 >> 0x3)))) | 0x486a655bf878 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0xc6ae << 0x1) + (0x61fa << 0x0)) * ((0x6da6 * 0x5765) - (0xb4dd << 0x1))) + (((0x25e6 - 0x7859) - (0xa5d9 >> 0x2)) * ((0xea8c << 0x0) - (0x167 >> 0x3))))",
"source_dataset": "bitwise_arithmetic",
"source_index": 36
} | 4 |
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.
((((0x89c * 0x3456) << 0x3) - ((0x62d3 + 0x1c38) * (0xb81 << 0x2))) * (((0x3e7f + 0x3085) + (0x3914 * 0xffa3)) << 0x2)) | -0x7cc2348d6e92400 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x89c * 0x3456) << 0x3) - ((0x62d3 + 0x1c38) * (0xb81 << 0x2))) * (((0x3e7f + 0x3085) + (0x3914 * 0xffa3)) << 0x2))",
"source_dataset": "bitwise_arithmetic",
"source_index": 37
} | 4 |
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.
((((0x8dd2 + 0xc3fc) >> 0x3) << 0x1) >> 0x1) | 0x2a39 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x8dd2 + 0xc3fc) >> 0x3) << 0x1) >> 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 38
} | 4 |
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.
((((0xad3f << 0x0) + (0xb975 * 0x5c9e)) >> 0x2) << 0x1) | 0x218c97ba | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0xad3f << 0x0) + (0xb975 * 0x5c9e)) >> 0x2) << 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 39
} | 4 |
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.
((((0x2916 * 0xc457) - (0x79b8 << 0x0)) * ((0x7c54 + 0x16d7) >> 0x0)) << 0x1) | 0x243a431f452c | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x2916 * 0xc457) - (0x79b8 << 0x0)) * ((0x7c54 + 0x16d7) >> 0x0)) << 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 40
} | 4 |
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.
((((0x162d * 0xd293) - (0x284e << 0x2)) << 0x0) << 0x3) | 0x91e824f8 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x162d * 0xd293) - (0x284e << 0x2)) << 0x0) << 0x3)",
"source_dataset": "bitwise_arithmetic",
"source_index": 41
} | 4 |
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.
((((0x80ac << 0x2) * (0xf36e >> 0x2)) >> 0x0) + (((0x23bd << 0x0) + (0x8c4d + 0x13c1)) * ((0x765 << 0x1) + (0x9ea4 >> 0x1)))) | 0xc25380c4 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x80ac << 0x2) * (0xf36e >> 0x2)) >> 0x0) + (((0x23bd << 0x0) + (0x8c4d + 0x13c1)) * ((0x765 << 0x1) + (0x9ea4 >> 0x1))))",
"source_dataset": "bitwise_arithmetic",
"source_index": 42
} | 4 |
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.
((((0x960c * 0x39f4) - (0xda72 >> 0x1)) * ((0x9ca3 << 0x0) >> 0x0)) >> 0x1) | 0xa6426645682 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x960c * 0x39f4) - (0xda72 >> 0x1)) * ((0x9ca3 << 0x0) >> 0x0)) >> 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 43
} | 4 |
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.
((((0xd345 * 0xb9b6) + (0xe31a + 0xde20)) * ((0xc57d >> 0x1) << 0x1)) + (((0x246a << 0x3) + (0xc3f7 << 0x1)) + ((0x5247 * 0x870c) + (0x5eb4 * 0xc1ab)))) | 0x763ca570b4ae | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0xd345 * 0xb9b6) + (0xe31a + 0xde20)) * ((0xc57d >> 0x1) << 0x1)) + (((0x246a << 0x3) + (0xc3f7 << 0x1)) + ((0x5247 * 0x870c) + (0x5eb4 * 0xc1ab))))",
"source_dataset": "bitwise_arithmetic",
"source_index": 44
} | 4 |
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.
((((0xe27d * 0xb6bb) * (0x4e9 * 0x47ae)) >> 0x1) - (((0x5409 << 0x3) * (0xd827 * 0x32fa)) + ((0x4c8c >> 0x2) << 0x2))) | 0x6eb0b2d823aa45 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0xe27d * 0xb6bb) * (0x4e9 * 0x47ae)) >> 0x1) - (((0x5409 << 0x3) * (0xd827 * 0x32fa)) + ((0x4c8c >> 0x2) << 0x2)))",
"source_dataset": "bitwise_arithmetic",
"source_index": 45
} | 4 |
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.
((((0xdb3c + 0x5864) >> 0x0) - ((0x53dc << 0x3) >> 0x2)) - (((0xfdde + 0x3d3b) - (0xf4b9 >> 0x0)) - ((0x8151 << 0x3) << 0x3))) | 0x2099c8 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0xdb3c + 0x5864) >> 0x0) - ((0x53dc << 0x3) >> 0x2)) - (((0xfdde + 0x3d3b) - (0xf4b9 >> 0x0)) - ((0x8151 << 0x3) << 0x3)))",
"source_dataset": "bitwise_arithmetic",
"source_index": 46
} | 4 |
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.
((((0x569d << 0x1) + (0x1499 * 0x9305)) * ((0x2630 - 0x9689) << 0x0)) >> 0x3) | -0xa628b5e744 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x569d << 0x1) + (0x1499 * 0x9305)) * ((0x2630 - 0x9689) << 0x0)) >> 0x3)",
"source_dataset": "bitwise_arithmetic",
"source_index": 47
} | 4 |
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.
((((0xe46c >> 0x2) * (0x5fa8 * 0x1404)) >> 0x0) + (((0x1421 << 0x0) - (0xfd16 - 0xcb49)) * ((0x7b42 + 0x5347) >> 0x1))) | 0x1ab0b484530 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0xe46c >> 0x2) * (0x5fa8 * 0x1404)) >> 0x0) + (((0x1421 << 0x0) - (0xfd16 - 0xcb49)) * ((0x7b42 + 0x5347) >> 0x1)))",
"source_dataset": "bitwise_arithmetic",
"source_index": 48
} | 4 |
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.
((((0x7827 << 0x2) << 0x1) - ((0xc531 + 0xd55a) - (0xb3bd << 0x2))) - (((0x2ee3 * 0x6364) >> 0x2) * ((0xe712 + 0x6514) >> 0x3))) | -0xbceeb97c8b | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x7827 << 0x2) << 0x1) - ((0xc531 + 0xd55a) - (0xb3bd << 0x2))) - (((0x2ee3 * 0x6364) >> 0x2) * ((0xe712 + 0x6514) >> 0x3)))",
"source_dataset": "bitwise_arithmetic",
"source_index": 49
} | 4 |
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.
((((0x29ad << 0x0) + (0x10e9 * 0xc23)) >> 0x0) >> 0x0) | 0xcd6588 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x29ad << 0x0) + (0x10e9 * 0xc23)) >> 0x0) >> 0x0)",
"source_dataset": "bitwise_arithmetic",
"source_index": 50
} | 4 |
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.
((((0x6534 - 0x2034) + (0x970 >> 0x0)) * ((0xa8d9 + 0x1311) * (0xc180 - 0x39ff))) << 0x3) | 0xf3ce68aa9300 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x6534 - 0x2034) + (0x970 >> 0x0)) * ((0xa8d9 + 0x1311) * (0xc180 - 0x39ff))) << 0x3)",
"source_dataset": "bitwise_arithmetic",
"source_index": 51
} | 4 |
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.
((((0xf4b8 * 0x4f2b) + (0xf6c4 * 0x8a96)) * ((0xf6bd * 0xecc4) + (0xacea - 0xba18))) + (((0xabdd + 0xf761) - (0xde6c * 0x1476)) << 0x0)) | 0xba8a71dc502c97f6 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0xf4b8 * 0x4f2b) + (0xf6c4 * 0x8a96)) * ((0xf6bd * 0xecc4) + (0xacea - 0xba18))) + (((0xabdd + 0xf761) - (0xde6c * 0x1476)) << 0x0))",
"source_dataset": "bitwise_arithmetic",
"source_index": 52
} | 4 |
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.
((((0x24b6 + 0xcf50) - (0xa27d + 0x47d1)) >> 0x1) >> 0x3) | 0x9b | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x24b6 + 0xcf50) - (0xa27d + 0x47d1)) >> 0x1) >> 0x3)",
"source_dataset": "bitwise_arithmetic",
"source_index": 53
} | 4 |
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.
((((0x2b97 + 0x6940) + (0x424d + 0xff8a)) + ((0xd915 + 0x949b) * (0x7cbc >> 0x2))) << 0x1) | 0x591a93fc | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x2b97 + 0x6940) + (0x424d + 0xff8a)) + ((0xd915 + 0x949b) * (0x7cbc >> 0x2))) << 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 54
} | 4 |
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.
((((0xe463 + 0xbf36) >> 0x3) + ((0xe780 - 0x4f39) + (0x8a39 << 0x1))) * (((0x1cfb - 0xec76) - (0x4828 >> 0x0)) - ((0x2f5f - 0x650) << 0x1))) | -0x2a7f1ce2c | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0xe463 + 0xbf36) >> 0x3) + ((0xe780 - 0x4f39) + (0x8a39 << 0x1))) * (((0x1cfb - 0xec76) - (0x4828 >> 0x0)) - ((0x2f5f - 0x650) << 0x1)))",
"source_dataset": "bitwise_arithmetic",
"source_index": 55
} | 4 |
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.
((((0x118d >> 0x3) * (0x9d7 << 0x2)) + 0xc8ae) + (((0x3248 << 0x1) * (0x8105 >> 0x1)) + ((0x8b73 - 0x3337) >> 0x3))) | 0x19ae2571 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x118d >> 0x3) * (0x9d7 << 0x2)) + 0xc8ae) + (((0x3248 << 0x1) * (0x8105 >> 0x1)) + ((0x8b73 - 0x3337) >> 0x3)))",
"source_dataset": "bitwise_arithmetic",
"source_index": 56
} | 4 |
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.
((((0x88e3 << 0x0) + (0x3410 << 0x1)) - ((0x27fb - 0x7723) * (0x57bc >> 0x0))) - ((0x3529 >> 0x3) << 0x1)) | 0x1b219d19 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x88e3 << 0x0) + (0x3410 << 0x1)) - ((0x27fb - 0x7723) * (0x57bc >> 0x0))) - ((0x3529 >> 0x3) << 0x1))",
"source_dataset": "bitwise_arithmetic",
"source_index": 57
} | 4 |
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.
((((0x896c + 0x200e) * (0x446f << 0x1)) - ((0xf6fa - 0x2eaf) * (0x5fbc * 0xa156))) << 0x1) | -0x5e6812e035d8 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x896c + 0x200e) * (0x446f << 0x1)) - ((0xf6fa - 0x2eaf) * (0x5fbc * 0xa156))) << 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 58
} | 4 |
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.
((((0x37ea >> 0x1) << 0x2) >> 0x2) - (((0x3735 * 0x1d5d) + (0xaf1e >> 0x2)) << 0x0)) | -0x6551f13 | {
"difficulty": {
"difficulty": 4
},
"problem": "((((0x37ea >> 0x1) << 0x2) >> 0x2) - (((0x3735 * 0x1d5d) + (0xaf1e >> 0x2)) << 0x0))",
"source_dataset": "bitwise_arithmetic",
"source_index": 59
} | 4 |
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