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int64 2
5
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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.
((((0x9f14 * 0x6eda) >> 0x1) >> 0x3) >> 0x1)
|
0x2271078
|
{
"difficulty": {
"difficulty": 4
},
"problem": "((((0x9f14 * 0x6eda) >> 0x1) >> 0x3) >> 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 60
}
| 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.
((((0x770f << 0x2) >> 0x1) - ((0xb203 + 0x21ac) + (0x2ff5 * 0xbff1))) << 0x1)
|
-0x47e9ac6c
|
{
"difficulty": {
"difficulty": 4
},
"problem": "((((0x770f << 0x2) >> 0x1) - ((0xb203 + 0x21ac) + (0x2ff5 * 0xbff1))) << 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 61
}
| 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.
((((0xea98 + 0x2bac) + (0x1f3c - 0x148b)) - ((0xddbe + 0x34fc) * (0xfd36 << 0x1))) - (((0xf721 * 0x2f01) << 0x0) << 0x0))
|
-0x24cd66fa4
|
{
"difficulty": {
"difficulty": 4
},
"problem": "((((0xea98 + 0x2bac) + (0x1f3c - 0x148b)) - ((0xddbe + 0x34fc) * (0xfd36 << 0x1))) - (((0xf721 * 0x2f01) << 0x0) << 0x0))",
"source_dataset": "bitwise_arithmetic",
"source_index": 62
}
| 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.
((((0x56ae >> 0x1) * (0xc150 - 0xe4a9)) + ((0xd9c7 - 0x6f1c) << 0x1)) * (((0xf232 >> 0x2) + (0xfaf0 - 0xd7f6)) >> 0x3))
|
-0x4765d8dd70
|
{
"difficulty": {
"difficulty": 4
},
"problem": "((((0x56ae >> 0x1) * (0xc150 - 0xe4a9)) + ((0xd9c7 - 0x6f1c) << 0x1)) * (((0xf232 >> 0x2) + (0xfaf0 - 0xd7f6)) >> 0x3))",
"source_dataset": "bitwise_arithmetic",
"source_index": 63
}
| 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.
((((0xcef3 * 0x1159) + (0x5e2a << 0x3)) >> 0x3) << 0x3)
|
0xe0906c8
|
{
"difficulty": {
"difficulty": 4
},
"problem": "((((0xcef3 * 0x1159) + (0x5e2a << 0x3)) >> 0x3) << 0x3)",
"source_dataset": "bitwise_arithmetic",
"source_index": 64
}
| 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.
((((0x8c42 << 0x0) * (0x9e5 >> 0x2)) << 0x0) >> 0x2)
|
0x56b3cc
|
{
"difficulty": {
"difficulty": 4
},
"problem": "((((0x8c42 << 0x0) * (0x9e5 >> 0x2)) << 0x0) >> 0x2)",
"source_dataset": "bitwise_arithmetic",
"source_index": 65
}
| 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.
((((0x4da8 + 0x37fe) << 0x1) << 0x0) + (((0x37bc << 0x0) - (0xebea << 0x0)) * ((0xb254 - 0x7151) - (0x5b44 + 0xcbdb))))
|
0xa1f61454
|
{
"difficulty": {
"difficulty": 4
},
"problem": "((((0x4da8 + 0x37fe) << 0x1) << 0x0) + (((0x37bc << 0x0) - (0xebea << 0x0)) * ((0xb254 - 0x7151) - (0x5b44 + 0xcbdb))))",
"source_dataset": "bitwise_arithmetic",
"source_index": 66
}
| 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.
((((0x910b * 0xeba3) >> 0x2) + ((0xe32f * 0xbb6b) - (0x5212 >> 0x1))) << 0x3)
|
0x63d93eae0
|
{
"difficulty": {
"difficulty": 4
},
"problem": "((((0x910b * 0xeba3) >> 0x2) + ((0xe32f * 0xbb6b) - (0x5212 >> 0x1))) << 0x3)",
"source_dataset": "bitwise_arithmetic",
"source_index": 67
}
| 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.
((((0xb158 >> 0x3) << 0x0) >> 0x0) << 0x1)
|
0x2c56
|
{
"difficulty": {
"difficulty": 4
},
"problem": "((((0xb158 >> 0x3) << 0x0) >> 0x0) << 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 68
}
| 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.
((((0xa236 - 0x3290) << 0x3) * ((0x80fb * 0xced5) * (0xe4bd - 0x9297))) - (((0x57bd + 0x76c5) >> 0x0) + ((0xbe50 * 0x7fbc) << 0x1)))
|
0x74abd612613869de
|
{
"difficulty": {
"difficulty": 4
},
"problem": "((((0xa236 - 0x3290) << 0x3) * ((0x80fb * 0xced5) * (0xe4bd - 0x9297))) - (((0x57bd + 0x76c5) >> 0x0) + ((0xbe50 * 0x7fbc) << 0x1)))",
"source_dataset": "bitwise_arithmetic",
"source_index": 69
}
| 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.
(((((0x922 << 0x0) >> 0x3) + ((0xc341 + 0xcf4a) >> 0x1)) - (((0x9b8d * 0x44b7) << 0x0) * ((0x94cd * 0x3239) >> 0x2))) + ((((0x36a2 * 0xac90) * (0x9cf0 + 0xa38d)) << 0x0) - (((0xe159 >> 0x2) - (0x6648 << 0x3)) << 0x3)))
|
-0x13087d70238236a
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x922 << 0x0) >> 0x3) + ((0xc341 + 0xcf4a) >> 0x1)) - (((0x9b8d * 0x44b7) << 0x0) * ((0x94cd * 0x3239) >> 0x2))) + ((((0x36a2 * 0xac90) * (0x9cf0 + 0xa38d)) << 0x0) - (((0xe159 >> 0x2) - (0x6648 << 0x3)) << 0x3)))",
"source_dataset": "bitwise_arithmetic",
"source_index": 0
}
| 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.
(((((0x6fb1 >> 0x2) << 0x3) + ((0x2849 << 0x1) + (0x21f2 << 0x3))) * (((0x954a + 0x10ab) - (0xd7cf + 0x2b6d)) >> 0x3)) - ((((0xe15a + 0x9866) + (0xad00 - 0x9bbf)) << 0x3) * (((0xe09e + 0xab30) * (0xcfb6 >> 0x0)) >> 0x2)))
|
-0x3df0aad0a67ba
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x6fb1 >> 0x2) << 0x3) + ((0x2849 << 0x1) + (0x21f2 << 0x3))) * (((0x954a + 0x10ab) - (0xd7cf + 0x2b6d)) >> 0x3)) - ((((0xe15a + 0x9866) + (0xad00 - 0x9bbf)) << 0x3) * (((0xe09e + 0xab30) * (0xcfb6 >> 0x0)) >> 0x2)))",
"source_dataset": "bitwise_arithmetic",
"source_index": 1
}
| 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.
(((((0x1aa5 + 0x291c) - (0xb289 * 0xa34e)) - ((0x5cb8 * 0x13d4) << 0x0)) + (((0x9f5 * 0x5934) * (0x7ae2 << 0x1)) >> 0x2)) >> 0x1)
|
0x6a598aa793
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x1aa5 + 0x291c) - (0xb289 * 0xa34e)) - ((0x5cb8 * 0x13d4) << 0x0)) + (((0x9f5 * 0x5934) * (0x7ae2 << 0x1)) >> 0x2)) >> 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 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.
(((((0xf5d2 + 0x50a0) + (0xe72d + 0xa0fb)) + ((0x3704 - 0xff19) * (0x1430 << 0x3))) * (((0xc76c * 0xbaa6) - (0x6a51 + 0x17fe)) + ((0xb3fd << 0x2) * (0x7f20 + 0xe9dc)))) << 0x1)
|
-0x4786455c3b4126eac
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0xf5d2 + 0x50a0) + (0xe72d + 0xa0fb)) + ((0x3704 - 0xff19) * (0x1430 << 0x3))) * (((0xc76c * 0xbaa6) - (0x6a51 + 0x17fe)) + ((0xb3fd << 0x2) * (0x7f20 + 0xe9dc)))) << 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 3
}
| 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.
(((((0x8c7 + 0x12a6) - (0xd8d8 + 0x8e7)) - ((0x66e1 + 0xfa6f) * (0x28f6 * 0x7981))) >> 0x2) << 0x3)
|
-0x35a98bcc3268
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x8c7 + 0x12a6) - (0xd8d8 + 0x8e7)) - ((0x66e1 + 0xfa6f) * (0x28f6 * 0x7981))) >> 0x2) << 0x3)",
"source_dataset": "bitwise_arithmetic",
"source_index": 4
}
| 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.
(((((0xa99b << 0x0) >> 0x3) >> 0x1) >> 0x1) << 0x1)
|
0xa98
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0xa99b << 0x0) >> 0x3) >> 0x1) >> 0x1) << 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 5
}
| 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.
(((((0x7f3a + 0xa739) << 0x3) >> 0x2) >> 0x3) - ((((0xc718 + 0x3a1) * (0x6c79 << 0x2)) * 0x960f) + (((0x3259 * 0x7878) >> 0x1) << 0x3)))
|
-0xc9673fa5bbc0
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x7f3a + 0xa739) << 0x3) >> 0x2) >> 0x3) - ((((0xc718 + 0x3a1) * (0x6c79 << 0x2)) * 0x960f) + (((0x3259 * 0x7878) >> 0x1) << 0x3)))",
"source_dataset": "bitwise_arithmetic",
"source_index": 6
}
| 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.
(((((0x2883 * 0x756f) + (0x8218 >> 0x2)) >> 0x3) * (((0x35cd >> 0x0) << 0x1) >> 0x0)) << 0x2)
|
0x3e7d8a52010
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x2883 * 0x756f) + (0x8218 >> 0x2)) >> 0x3) * (((0x35cd >> 0x0) << 0x1) >> 0x0)) << 0x2)",
"source_dataset": "bitwise_arithmetic",
"source_index": 7
}
| 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.
(((((0x16d2 >> 0x1) * (0xfbcf + 0x59f6)) * ((0xfdf5 * 0x9b91) - (0xa38e << 0x0))) - ((0x5763 << 0x1) * ((0x76c2 >> 0x2) * (0x953e >> 0x3)))) * ((((0x80d8 - 0x9308) >> 0x2) >> 0x1) + (((0x5700 - 0x993) * (0xf83e + 0xdbb0)) + ((0x8840 * 0x6cd3) - (0xc5a4 << 0x3)))))
|
0x727344120ad5831097bc290
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x16d2 >> 0x1) * (0xfbcf + 0x59f6)) * ((0xfdf5 * 0x9b91) - (0xa38e << 0x0))) - ((0x5763 << 0x1) * ((0x76c2 >> 0x2) * (0x953e >> 0x3)))) * ((((0x80d8 - 0x9308) >> 0x2) >> 0x1) + (((0x5700 - 0x993) * (0xf83e + 0xdbb0)) + ((0x8840 * 0x6cd3) - (0xc5a4 << 0x3)))))",
"source_dataset": "bitwise_arithmetic",
"source_index": 8
}
| 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.
(((((0x8d5c << 0x3) * (0x8704 >> 0x2)) - ((0x6865 * 0xb37d) * (0x841 + 0x8af7))) - (((0x5f01 * 0x73f4) - (0xc4a7 - 0xc3a2)) << 0x0)) >> 0x2)
|
-0xa85c4cf1832
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x8d5c << 0x3) * (0x8704 >> 0x2)) - ((0x6865 * 0xb37d) * (0x841 + 0x8af7))) - (((0x5f01 * 0x73f4) - (0xc4a7 - 0xc3a2)) << 0x0)) >> 0x2)",
"source_dataset": "bitwise_arithmetic",
"source_index": 9
}
| 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.
(((((0xd59f << 0x2) - (0x9c0 + 0x8c4c)) * ((0x2c98 - 0x7c5b) + (0x7e12 * 0xc834))) >> 0x1) + 0xa8a5)
|
0x87a5af77a2bd
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0xd59f << 0x2) - (0x9c0 + 0x8c4c)) * ((0x2c98 - 0x7c5b) + (0x7e12 * 0xc834))) >> 0x1) + 0xa8a5)",
"source_dataset": "bitwise_arithmetic",
"source_index": 10
}
| 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.
(((((0xea4c + 0x2c56) << 0x2) >> 0x2) << 0x1) - ((((0x3d22 * 0xf58) << 0x1) + ((0xa94d * 0x31e5) >> 0x1)) + (((0x14d4 << 0x1) << 0x1) >> 0x1)))
|
-0x17d19734
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0xea4c + 0x2c56) << 0x2) >> 0x2) << 0x1) - ((((0x3d22 * 0xf58) << 0x1) + ((0xa94d * 0x31e5) >> 0x1)) + (((0x14d4 << 0x1) << 0x1) >> 0x1)))",
"source_dataset": "bitwise_arithmetic",
"source_index": 11
}
| 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.
(((((0xe155 << 0x1) << 0x3) << 0x2) * (((0x450b * 0x11b) << 0x1) >> 0x0)) - ((((0x8e1d * 0x5db) << 0x2) * ((0xe4f8 + 0xffc) << 0x1)) >> 0x2))
|
0x1b5ec0cbf3e8
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0xe155 << 0x1) << 0x3) << 0x2) * (((0x450b * 0x11b) << 0x1) >> 0x0)) - ((((0x8e1d * 0x5db) << 0x2) * ((0xe4f8 + 0xffc) << 0x1)) >> 0x2))",
"source_dataset": "bitwise_arithmetic",
"source_index": 12
}
| 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.
(((((0x8b63 << 0x3) * (0xb916 * 0xf4cd)) - ((0xa2ec + 0x42da) >> 0x0)) * (((0x32f1 << 0x1) - (0x558e * 0xd557)) - 0xd46d)) - ((((0x3997 - 0x501f) << 0x3) >> 0x2) * (((0x7da1 << 0x3) << 0x1) - ((0xa3b6 - 0x47db) << 0x2))))
|
-0xd6b7380d8edf747196c2
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x8b63 << 0x3) * (0xb916 * 0xf4cd)) - ((0xa2ec + 0x42da) >> 0x0)) * (((0x32f1 << 0x1) - (0x558e * 0xd557)) - 0xd46d)) - ((((0x3997 - 0x501f) << 0x3) >> 0x2) * (((0x7da1 << 0x3) << 0x1) - ((0xa3b6 - 0x47db) << 0x2))))",
"source_dataset": "bitwise_arithmetic",
"source_index": 13
}
| 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.
(((((0x60eb + 0x9f43) << 0x1) >> 0x1) >> 0x3) >> 0x0)
|
0x2005
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x60eb + 0x9f43) << 0x1) >> 0x1) >> 0x3) >> 0x0)",
"source_dataset": "bitwise_arithmetic",
"source_index": 14
}
| 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.
(((((0x609 << 0x1) << 0x0) << 0x3) - (((0x3940 >> 0x2) * (0x6b4a - 0x733a)) - ((0xdfc << 0x2) << 0x0))) >> 0x0)
|
0x723380
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x609 << 0x1) << 0x0) << 0x3) - (((0x3940 >> 0x2) * (0x6b4a - 0x733a)) - ((0xdfc << 0x2) << 0x0))) >> 0x0)",
"source_dataset": "bitwise_arithmetic",
"source_index": 15
}
| 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.
(((((0xf87b * 0x7437) * (0x49af << 0x0)) << 0x1) - (((0xbad3 >> 0x0) * (0x210f << 0x1)) - ((0xad1b * 0xb905) - (0xd567 >> 0x2)))) - ((((0x9d1f - 0x3b4e) - (0x1888 >> 0x0)) - ((0x7d75 << 0x3) * (0x21d3 + 0xc60))) * (((0x20c4 + 0xf548) + (0x8e97 + 0xf054)) + ((0x55e9 >> 0x0) * (0xfd68 * 0x1335)))))
|
0x483a1808a3577c73b8b
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0xf87b * 0x7437) * (0x49af << 0x0)) << 0x1) - (((0xbad3 >> 0x0) * (0x210f << 0x1)) - ((0xad1b * 0xb905) - (0xd567 >> 0x2)))) - ((((0x9d1f - 0x3b4e) - (0x1888 >> 0x0)) - ((0x7d75 << 0x3) * (0x21d3 + 0xc60))) * (((0x20c4 + 0xf548) + (0x8e97 + 0xf054)) + ((0x55e9 >> 0x0) * (0xfd68 * 0x1335)))))",
"source_dataset": "bitwise_arithmetic",
"source_index": 16
}
| 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.
(((((0x4d31 >> 0x1) << 0x1) >> 0x1) * (((0xabc1 + 0x9513) + (0x1c1a >> 0x2)) >> 0x2)) << 0x0)
|
0xc5b2e10
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x4d31 >> 0x1) << 0x1) >> 0x1) * (((0xabc1 + 0x9513) + (0x1c1a >> 0x2)) >> 0x2)) << 0x0)",
"source_dataset": "bitwise_arithmetic",
"source_index": 17
}
| 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.
(((((0xab72 + 0xdc8e) + (0xce3 << 0x0)) << 0x0) - (((0x8cff - 0x4742) >> 0x2) - ((0x953f - 0xa657) - (0x5283 >> 0x3)))) >> 0x0)
|
0x1680c
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0xab72 + 0xdc8e) + (0xce3 << 0x0)) << 0x0) - (((0x8cff - 0x4742) >> 0x2) - ((0x953f - 0xa657) - (0x5283 >> 0x3)))) >> 0x0)",
"source_dataset": "bitwise_arithmetic",
"source_index": 18
}
| 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.
(((((0x556d << 0x1) * (0xe5ce + 0x81bc)) + ((0xcf75 << 0x1) - (0xe8dc * 0x4bb1))) * (((0xc92a - 0xb780) * (0x695f << 0x1)) * ((0x8b18 + 0x639d) >> 0x1))) >> 0x2)
|
0x122010007fbdf0f231c
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x556d << 0x1) * (0xe5ce + 0x81bc)) + ((0xcf75 << 0x1) - (0xe8dc * 0x4bb1))) * (((0xc92a - 0xb780) * (0x695f << 0x1)) * ((0x8b18 + 0x639d) >> 0x1))) >> 0x2)",
"source_dataset": "bitwise_arithmetic",
"source_index": 19
}
| 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.
(((((0x2a59 - 0x2fd) * (0xde6e - 0x206d)) * ((0xf4a0 * 0x9810) << 0x2)) - (((0xe6bd * 0x58b7) << 0x2) >> 0x1)) - ((((0x5f9c - 0xf4c3) << 0x3) * ((0x17c << 0x0) << 0x3)) - (((0xf582 - 0x69a9) * (0x4376 * 0x1fec)) - ((0xf1fe << 0x2) * (0xf1dd << 0x3)))))
|
0x425314e68342e992
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x2a59 - 0x2fd) * (0xde6e - 0x206d)) * ((0xf4a0 * 0x9810) << 0x2)) - (((0xe6bd * 0x58b7) << 0x2) >> 0x1)) - ((((0x5f9c - 0xf4c3) << 0x3) * ((0x17c << 0x0) << 0x3)) - (((0xf582 - 0x69a9) * (0x4376 * 0x1fec)) - ((0xf1fe << 0x2) * (0xf1dd << 0x3)))))",
"source_dataset": "bitwise_arithmetic",
"source_index": 20
}
| 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.
(((((0x4b70 - 0x13ec) + (0xd8b0 * 0xc00a)) + ((0x5501 - 0x3d1d) - (0xfa05 + 0x98d))) * (((0x6e8b >> 0x2) - (0x1c00 - 0xe6da)) >> 0x3)) * ((((0xaeab >> 0x0) << 0x3) * ((0xce3e + 0x5ea6) << 0x1)) + (((0x2282 * 0x21ce) << 0x3) + ((0x8301 >> 0x2) << 0x0))))
|
0xed4f00dae931dc62b3c0
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x4b70 - 0x13ec) + (0xd8b0 * 0xc00a)) + ((0x5501 - 0x3d1d) - (0xfa05 + 0x98d))) * (((0x6e8b >> 0x2) - (0x1c00 - 0xe6da)) >> 0x3)) * ((((0xaeab >> 0x0) << 0x3) * ((0xce3e + 0x5ea6) << 0x1)) + (((0x2282 * 0x21ce) << 0x3) + ((0x8301 >> 0x2) << 0x0))))",
"source_dataset": "bitwise_arithmetic",
"source_index": 21
}
| 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.
(((((0x156e - 0xdd80) - (0xb9a6 - 0x74c)) * ((0x1bfc - 0x9731) + (0x4495 >> 0x1))) + (((0xbf0d * 0x2425) << 0x2) + ((0x3c2f + 0x7826) >> 0x2))) >> 0x2)
|
0x3bd59c6f
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x156e - 0xdd80) - (0xb9a6 - 0x74c)) * ((0x1bfc - 0x9731) + (0x4495 >> 0x1))) + (((0xbf0d * 0x2425) << 0x2) + ((0x3c2f + 0x7826) >> 0x2))) >> 0x2)",
"source_dataset": "bitwise_arithmetic",
"source_index": 22
}
| 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.
(((((0xe768 << 0x0) * (0x4498 << 0x3)) >> 0x2) - (((0xdcb << 0x1) - (0x4115 * 0xf8b7)) * (0xbd91 * (0xf8f6 * 0xe1a9)))) * ((((0x850c - 0xfd40) >> 0x2) - ((0xb60b >> 0x0) - (0x459d + 0x4afe))) - (((0xc1e3 * 0xb719) - (0xa690 << 0x0)) - ((0x2aa0 - 0xff89) >> 0x3))))
|
-0x15bde4e6c0cb7d2c611d63161074
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0xe768 << 0x0) * (0x4498 << 0x3)) >> 0x2) - (((0xdcb << 0x1) - (0x4115 * 0xf8b7)) * (0xbd91 * (0xf8f6 * 0xe1a9)))) * ((((0x850c - 0xfd40) >> 0x2) - ((0xb60b >> 0x0) - (0x459d + 0x4afe))) - (((0xc1e3 * 0xb719) - (0xa690 << 0x0)) - ((0x2aa0 - 0xff89) >> 0x3))))",
"source_dataset": "bitwise_arithmetic",
"source_index": 23
}
| 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.
(((((0x21c1 >> 0x0) << 0x3) >> 0x3) << 0x0) << 0x1)
|
0x4382
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x21c1 >> 0x0) << 0x3) >> 0x3) << 0x0) << 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 24
}
| 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.
(((((0xa5d0 - 0xb2c) >> 0x3) >> 0x1) << 0x1) << 0x3)
|
0x9aa0
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0xa5d0 - 0xb2c) >> 0x3) >> 0x1) << 0x1) << 0x3)",
"source_dataset": "bitwise_arithmetic",
"source_index": 25
}
| 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.
(((((0x5d7b >> 0x0) * (0x1c27 << 0x2)) << 0x1) >> 0x0) >> 0x2)
|
0x148f637a
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x5d7b >> 0x0) * (0x1c27 << 0x2)) << 0x1) >> 0x0) >> 0x2)",
"source_dataset": "bitwise_arithmetic",
"source_index": 26
}
| 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.
(((((0x9229 << 0x2) >> 0x0) * ((0x3704 * 0xb294) - (0xd205 >> 0x0))) + (((0x6040 >> 0x0) * (0x8cc - 0x2627)) >> 0x3)) + ((((0xa250 << 0x3) * (0x308c >> 0x3)) * ((0x4332 << 0x0) * (0x9325 >> 0x0))) + (((0x7f54 * 0xf919) - (0x6268 << 0x1)) << 0x1)))
|
0x4a4c7d48669a6fc
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x9229 << 0x2) >> 0x0) * ((0x3704 * 0xb294) - (0xd205 >> 0x0))) + (((0x6040 >> 0x0) * (0x8cc - 0x2627)) >> 0x3)) + ((((0xa250 << 0x3) * (0x308c >> 0x3)) * ((0x4332 << 0x0) * (0x9325 >> 0x0))) + (((0x7f54 * 0xf919) - (0x6268 << 0x1)) << 0x1)))",
"source_dataset": "bitwise_arithmetic",
"source_index": 27
}
| 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.
(((((0xcf50 << 0x1) >> 0x2) + ((0x91d + 0x7ead) << 0x3)) << 0x0) * ((((0x27e7 >> 0x0) * (0xd555 * 0x186a)) << 0x2) << 0x2))
|
0xebd8ce56a6d43100
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0xcf50 << 0x1) >> 0x2) + ((0x91d + 0x7ead) << 0x3)) << 0x0) * ((((0x27e7 >> 0x0) * (0xd555 * 0x186a)) << 0x2) << 0x2))",
"source_dataset": "bitwise_arithmetic",
"source_index": 28
}
| 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.
(((((0x329d >> 0x0) - (0x5e9c >> 0x3)) - ((0x5a01 + 0x9c41) * (0x3196 >> 0x1))) * (((0x40ee + 0x9ba1) + (0xcfcb - 0xbd93)) << 0x1)) >> 0x2)
|
-0xb1f48f07eea
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x329d >> 0x0) - (0x5e9c >> 0x3)) - ((0x5a01 + 0x9c41) * (0x3196 >> 0x1))) * (((0x40ee + 0x9ba1) + (0xcfcb - 0xbd93)) << 0x1)) >> 0x2)",
"source_dataset": "bitwise_arithmetic",
"source_index": 29
}
| 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.
(((((0x2206 >> 0x2) * (0xa336 - 0x7ec)) >> 0x0) - (((0xa39c << 0x2) * (0x4dd2 - 0xf23a)) * ((0xf500 << 0x1) >> 0x3))) >> 0x0)
|
0x648ea217704a
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x2206 >> 0x2) * (0xa336 - 0x7ec)) >> 0x0) - (((0xa39c << 0x2) * (0x4dd2 - 0xf23a)) * ((0xf500 << 0x1) >> 0x3))) >> 0x0)",
"source_dataset": "bitwise_arithmetic",
"source_index": 30
}
| 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.
(((((0x746d - 0x1d42) << 0x3) >> 0x2) - (((0xeef8 * 0x473c) - (0x8233 - 0x2c8a)) - ((0xa7d7 + 0xf9d2) << 0x3))) >> 0x0)
|
-0x4270b8d9
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x746d - 0x1d42) << 0x3) >> 0x2) - (((0xeef8 * 0x473c) - (0x8233 - 0x2c8a)) - ((0xa7d7 + 0xf9d2) << 0x3))) >> 0x0)",
"source_dataset": "bitwise_arithmetic",
"source_index": 31
}
| 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.
(((((0xce3b << 0x2) - (0x4877 * 0x81b2)) * ((0x713c - 0x28c8) >> 0x3)) * 0xfc82) >> 0x2)
|
-0x51f15ebd90ca3e
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0xce3b << 0x2) - (0x4877 * 0x81b2)) * ((0x713c - 0x28c8) >> 0x3)) * 0xfc82) >> 0x2)",
"source_dataset": "bitwise_arithmetic",
"source_index": 32
}
| 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.
(((((0xee4a * 0x1672) * (0x801c * 0xb951)) << 0x1) >> 0x3) << 0x2)
|
0x79183516422c1b0
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0xee4a * 0x1672) * (0x801c * 0xb951)) << 0x1) >> 0x3) << 0x2)",
"source_dataset": "bitwise_arithmetic",
"source_index": 33
}
| 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.
(((((0x56ab + 0xd9e0) << 0x0) - 0x6ab8) * (((0x8bce * 0x75ec) << 0x0) >> 0x3)) << 0x0)
|
0x6387305c187
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x56ab + 0xd9e0) << 0x0) - 0x6ab8) * (((0x8bce * 0x75ec) << 0x0) >> 0x3)) << 0x0)",
"source_dataset": "bitwise_arithmetic",
"source_index": 34
}
| 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.
(((((0x263d - 0x8f4e) >> 0x0) + ((0x82df - 0xd6f0) << 0x0)) - (((0x15b9 + 0xd96b) - (0xe7b1 >> 0x0)) * ((0x194c + 0x94af) - (0xebb7 + 0xc914)))) * ((((0xd504 + 0xd8d5) * (0xc145 << 0x1)) >> 0x2) + (((0xf53 << 0x3) >> 0x0) << 0x0)))
|
0x4d869665daac534
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x263d - 0x8f4e) >> 0x0) + ((0x82df - 0xd6f0) << 0x0)) - (((0x15b9 + 0xd96b) - (0xe7b1 >> 0x0)) * ((0x194c + 0x94af) - (0xebb7 + 0xc914)))) * ((((0xd504 + 0xd8d5) * (0xc145 << 0x1)) >> 0x2) + (((0xf53 << 0x3) >> 0x0) << 0x0)))",
"source_dataset": "bitwise_arithmetic",
"source_index": 35
}
| 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.
(((((0xed24 - 0xb353) << 0x1) + ((0xb4dd << 0x1) * (0x5e75 * 0xeca))) * (((0xa5d9 >> 0x2) << 0x3) + ((0x167 >> 0x3) + (0x6faa - 0xcb5d)))) + ((0xccc3 - ((0xacfe + 0x8e57) >> 0x1)) << 0x2))
|
0x73bb976dd8c2a0a
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0xed24 - 0xb353) << 0x1) + ((0xb4dd << 0x1) * (0x5e75 * 0xeca))) * (((0xa5d9 >> 0x2) << 0x3) + ((0x167 >> 0x3) + (0x6faa - 0xcb5d)))) + ((0xccc3 - ((0xacfe + 0x8e57) >> 0x1)) << 0x2))",
"source_dataset": "bitwise_arithmetic",
"source_index": 36
}
| 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.
(((((0xfa72 + 0xbacb) * (0x2d36 * 0x69f4)) << 0x3) - (((0x466f << 0x1) + (0x7868 * 0x4582)) + ((0x5e59 >> 0x0) + (0xe4cf - 0xf0a8)))) * ((((0x9f28 >> 0x0) - (0xe8b7 >> 0x0)) + ((0x2e5 + 0xb85a) << 0x3)) * (((0x90cc >> 0x1) - (0xd683 >> 0x2)) - ((0x2d5d + 0xd242) - (0xb36d << 0x0)))))
|
-0x13f17c9bbfece099a9558
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0xfa72 + 0xbacb) * (0x2d36 * 0x69f4)) << 0x3) - (((0x466f << 0x1) + (0x7868 * 0x4582)) + ((0x5e59 >> 0x0) + (0xe4cf - 0xf0a8)))) * ((((0x9f28 >> 0x0) - (0xe8b7 >> 0x0)) + ((0x2e5 + 0xb85a) << 0x3)) * (((0x90cc >> 0x1) - (0xd683 >> 0x2)) - ((0x2d5d + 0xd242) - (0xb36d << 0x0)))))",
"source_dataset": "bitwise_arithmetic",
"source_index": 37
}
| 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.
(((((0xeeb4 << 0x0) + (0xf32e - 0x8889)) >> 0x1) << 0x2) >> 0x1)
|
0x15958
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0xeeb4 << 0x0) + (0xf32e - 0x8889)) >> 0x1) << 0x2) >> 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 38
}
| 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.
(((((0x15d >> 0x2) << 0x1) + ((0xe10e * 0x9571) - (0xffa5 - 0xdcc2))) >> 0x1) << 0x1)
|
0x83605af8
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x15d >> 0x2) << 0x1) + ((0xe10e * 0x9571) - (0xffa5 - 0xdcc2))) >> 0x1) << 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 39
}
| 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.
(((((0x6ff8 + 0x79b8) * (0x33a1 + 0x4fa2)) - ((0xa1bc + 0x545d) - (0x174e << 0x1))) * (((0x906b * 0xccde) * (0x6b83 << 0x2)) - ((0x1dcc * 0xf7b6) * (0x4d69 - 0xcb5)))) << 0x1)
|
0xaeea42261c9e68c63a10
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x6ff8 + 0x79b8) * (0x33a1 + 0x4fa2)) - ((0xa1bc + 0x545d) - (0x174e << 0x1))) * (((0x906b * 0xccde) * (0x6b83 << 0x2)) - ((0x1dcc * 0xf7b6) * (0x4d69 - 0xcb5)))) << 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 40
}
| 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.
(((((0x6a1e + 0x284e) * (0xd0c3 >> 0x3)) - ((0xc5b - 0xc915) - (0x5a63 << 0x1))) << 0x1) << 0x3)
|
0xeee23a00
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x6a1e + 0x284e) * (0xd0c3 >> 0x3)) - ((0xc5b - 0xc915) - (0x5a63 << 0x1))) << 0x1) << 0x3)",
"source_dataset": "bitwise_arithmetic",
"source_index": 41
}
| 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.
(((((0xc219 >> 0x2) << 0x3) * ((0xaa00 - 0xf147) * (0xd091 >> 0x1))) >> 0x1) + ((((0xece4 >> 0x0) << 0x1) >> 0x2) * ((0xecb7 + (0xe524 * 0xe8be)) * ((0xfa57 >> 0x3) * (0xc138 * 0xc490)))))
|
0x6d3c61b3f8fd910acdd8ac0
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0xc219 >> 0x2) << 0x3) * ((0xaa00 - 0xf147) * (0xd091 >> 0x1))) >> 0x1) + ((((0xece4 >> 0x0) << 0x1) >> 0x2) * ((0xecb7 + (0xe524 * 0xe8be)) * ((0xfa57 >> 0x3) * (0xc138 * 0xc490)))))",
"source_dataset": "bitwise_arithmetic",
"source_index": 42
}
| 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.
(((((0x8a50 << 0x1) * (0x9aee >> 0x3)) - (0x90f9 + (0x9f8e << 0x3))) * (((0x5a9f + 0xf344) - (0x91c7 << 0x1)) << 0x3)) >> 0x1)
|
0xdd33b854b0c
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x8a50 << 0x1) * (0x9aee >> 0x3)) - (0x90f9 + (0x9f8e << 0x3))) * (((0x5a9f + 0xf344) - (0x91c7 << 0x1)) << 0x3)) >> 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 43
}
| 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.
(((((0x1b45 << 0x0) * (0x76df << 0x1)) + ((0x666c - 0x49ed) + (0x65f9 << 0x2))) * (((0xc3f7 << 0x1) << 0x2) - ((0x9df8 << 0x3) * (0x2b29 * 0x9cc7)))) + ((((0x19b2 - 0xc93d) + (0xd388 << 0x1)) << 0x2) << 0x1))
|
-0xce942abc49af1ea1d20
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x1b45 << 0x0) * (0x76df << 0x1)) + ((0x666c - 0x49ed) + (0x65f9 << 0x2))) * (((0xc3f7 << 0x1) << 0x2) - ((0x9df8 << 0x3) * (0x2b29 * 0x9cc7)))) + ((((0x19b2 - 0xc93d) + (0xd388 << 0x1)) << 0x2) << 0x1))",
"source_dataset": "bitwise_arithmetic",
"source_index": 44
}
| 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.
(((((0xe648 + 0x5e1a) * (0xc23e << 0x3)) * ((0x411a - 0xf25c) + (0xf4bc >> 0x2))) >> 0x0) - ((((0x483a << 0x2) << 0x2) + ((0x3fbc * 0xa870) - (0xbea + 0x4216))) >> 0x1))
|
-0x37cc93800f390
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0xe648 + 0x5e1a) * (0xc23e << 0x3)) * ((0x411a - 0xf25c) + (0xf4bc >> 0x2))) >> 0x0) - ((((0x483a << 0x2) << 0x2) + ((0x3fbc * 0xa870) - (0xbea + 0x4216))) >> 0x1))",
"source_dataset": "bitwise_arithmetic",
"source_index": 45
}
| 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.
(((((0x23b0 << 0x0) + (0x2d5e >> 0x3)) >> 0x3) - (((0xf4b9 >> 0x0) + (0x8404 << 0x3)) - ((0x247f + 0x2152) << 0x0))) - ((((0x5e8c << 0x0) * (0x930f * 0x54d0)) + ((0x50ce * 0xb0e6) >> 0x3)) + (((0x9d2 * 0xe0b) - (0x84a8 - 0x7426)) * ((0xbf0f + 0x5070) * (0x9025 * 0xe54f)))))
|
-0x49bad70eb76fad7113
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x23b0 << 0x0) + (0x2d5e >> 0x3)) >> 0x3) - (((0xf4b9 >> 0x0) + (0x8404 << 0x3)) - ((0x247f + 0x2152) << 0x0))) - ((((0x5e8c << 0x0) * (0x930f * 0x54d0)) + ((0x50ce * 0xb0e6) >> 0x3)) + (((0x9d2 * 0xe0b) - (0x84a8 - 0x7426)) * ((0xbf0f + 0x5070) * (0x9025 * 0xe54f)))))",
"source_dataset": "bitwise_arithmetic",
"source_index": 46
}
| 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.
(((((0x4db8 - 0xb296) << 0x1) + ((0x771c >> 0x0) + (0x1302 + 0x6a93))) * (((0x66e + 0xe399) * (0x3a85 >> 0x0)) << 0x3)) >> 0x1)
|
0x23e83f7603fc
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x4db8 - 0xb296) << 0x1) + ((0x771c >> 0x0) + (0x1302 + 0x6a93))) * (((0x66e + 0xe399) * (0x3a85 >> 0x0)) << 0x3)) >> 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 47
}
| 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.
(((((0x44c5 * 0x7e05) >> 0x1) * ((0x22a7 + 0x8cbc) << 0x0)) >> 0x2) + ((((0x8035 + 0x58ab) << 0x2) >> 0x1) * (((0x4add * 0x4684) - (0xe72 * 0x4e3b)) * (0x2016 >> 0x1))))
|
0x1b88cdfcc8a0dd1
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x44c5 * 0x7e05) >> 0x1) * ((0x22a7 + 0x8cbc) << 0x0)) >> 0x2) + ((((0x8035 + 0x58ab) << 0x2) >> 0x1) * (((0x4add * 0x4684) - (0xe72 * 0x4e3b)) * (0x2016 >> 0x1))))",
"source_dataset": "bitwise_arithmetic",
"source_index": 48
}
| 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.
(((((0x3f61 * 0x3119) << 0x1) << 0x3) - (((0x2ee3 * 0x6364) >> 0x2) * ((0xe712 + 0x6514) >> 0x3))) - ((((0xadfa << 0x2) >> 0x2) * ((0x2efd << 0x2) * (0xeed4 >> 0x1))) * (((0x58d - 0xeaac) * (0x319 << 0x2)) << 0x3)))
|
0x14a5f69e8062f946bb64
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x3f61 * 0x3119) << 0x1) << 0x3) - (((0x2ee3 * 0x6364) >> 0x2) * ((0xe712 + 0x6514) >> 0x3))) - ((((0xadfa << 0x2) >> 0x2) * ((0x2efd << 0x2) * (0xeed4 >> 0x1))) * (((0x58d - 0xeaac) * (0x319 << 0x2)) << 0x3)))",
"source_dataset": "bitwise_arithmetic",
"source_index": 49
}
| 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.
(((((0x9394 + 0xabfd) << 0x0) + ((0x9c1e - 0x9e6a) - (0x7c98 << 0x1))) >> 0x0) >> 0x1)
|
0x220a
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x9394 + 0xabfd) << 0x0) + ((0x9c1e - 0x9e6a) - (0x7c98 << 0x1))) >> 0x0) >> 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 50
}
| 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.
(((((0x95e7 - 0x970) - (0xaec3 + 0xa028)) + ((0xc652 + 0xf0a0) << 0x3)) * (((0xecc9 << 0x0) * (0xec04 >> 0x0)) * ((0xd0e5 * 0x4ca) + (0x912a - 0x63d6)))) << 0x3)
|
0x1597e466297da18b63d00
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x95e7 - 0x970) - (0xaec3 + 0xa028)) + ((0xc652 + 0xf0a0) << 0x3)) * (((0xecc9 << 0x0) * (0xec04 >> 0x0)) * ((0xd0e5 * 0x4ca) + (0x912a - 0x63d6)))) << 0x3)",
"source_dataset": "bitwise_arithmetic",
"source_index": 51
}
| 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.
(((((0x9959 << 0x2) * (0x7074 + 0x456)) + ((0x5ab7 << 0x1) * (0x6a5d + 0x7843))) * (((0x7a6a * 0xb1d0) + (0xd0c1 + 0x60e4)) - ((0x47ec + 0xabe2) * (0xdf5f + 0x743c)))) + ((((0xe3bd - 0x7a05) << 0x0) - ((0x4938 >> 0x1) >> 0x1)) * (((0xae2d - 0x3bf0) - (0x82c5 - 0xa9ed)) >> 0x3)))
|
-0x19a2860c36a7b8990
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x9959 << 0x2) * (0x7074 + 0x456)) + ((0x5ab7 << 0x1) * (0x6a5d + 0x7843))) * (((0x7a6a * 0xb1d0) + (0xd0c1 + 0x60e4)) - ((0x47ec + 0xabe2) * (0xdf5f + 0x743c)))) + ((((0xe3bd - 0x7a05) << 0x0) - ((0x4938 >> 0x1) >> 0x1)) * (((0xae2d - 0x3bf0) - (0x82c5 - 0xa9ed)) >> 0x3)))",
"source_dataset": "bitwise_arithmetic",
"source_index": 52
}
| 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.
(((((0x9ae4 + 0x16b6) + (0xc7a - 0x9269)) - ((0x5d29 + 0x48c5) >> 0x1)) >> 0x3) >> 0x1)
|
-0x275
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x9ae4 + 0x16b6) + (0xc7a - 0x9269)) - ((0x5d29 + 0x48c5) >> 0x1)) >> 0x3) >> 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 53
}
| 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.
(((((0x1741 * 0x424d) + (0x47a4 * 0x22b5)) + ((0xfc26 << 0x3) + (0xb14e - 0xd7e3))) + (((0x8259 << 0x1) - (0x97c3 - 0xbfd6)) >> 0x3)) << 0x3)
|
0x7e207da0
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x1741 * 0x424d) + (0x47a4 * 0x22b5)) + ((0xfc26 << 0x3) + (0xb14e - 0xd7e3))) + (((0x8259 << 0x1) - (0x97c3 - 0xbfd6)) >> 0x3)) << 0x3)",
"source_dataset": "bitwise_arithmetic",
"source_index": 54
}
| 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.
(((((0x5f3d * 0x7a6) + (0x79b0 << 0x0)) >> 0x0) + (((0x8b9f + 0x8929) - (0x15d7 >> 0x0)) >> 0x1)) * ((((0x6ee << 0x0) >> 0x0) - ((0x8995 + 0xad54) + (0x9107 >> 0x3))) + (((0x9b41 * 0xffe3) >> 0x1) - ((0x8bac >> 0x0) * (0xc6ba - 0x7cd6)))))
|
0x6a332974f4f344
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x5f3d * 0x7a6) + (0x79b0 << 0x0)) >> 0x0) + (((0x8b9f + 0x8929) - (0x15d7 >> 0x0)) >> 0x1)) * ((((0x6ee << 0x0) >> 0x0) - ((0x8995 + 0xad54) + (0x9107 >> 0x3))) + (((0x9b41 * 0xffe3) >> 0x1) - ((0x8bac >> 0x0) * (0xc6ba - 0x7cd6)))))",
"source_dataset": "bitwise_arithmetic",
"source_index": 55
}
| 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.
(((((0xe9fe << 0x3) >> 0x0) * ((0x3248 << 0x1) * (0x8105 >> 0x1))) + (((0x8b33 << 0x1) - (0xd5f9 - 0x5140)) >> 0x0)) + ((((0xd995 >> 0x3) * (0xc957 << 0x2)) * ((0x5722 * 0x44ad) << 0x0)) >> 0x3))
|
0xfab34779bf15b3
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0xe9fe << 0x3) >> 0x0) * ((0x3248 << 0x1) * (0x8105 >> 0x1))) + (((0x8b33 << 0x1) - (0xd5f9 - 0x5140)) >> 0x0)) + ((((0xd995 >> 0x3) * (0xc957 << 0x2)) * ((0x5722 * 0x44ad) << 0x0)) >> 0x3))",
"source_dataset": "bitwise_arithmetic",
"source_index": 56
}
| 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.
(((((0x17ff >> 0x3) << 0x3) + ((0xda97 - 0x9221) - (0xae68 >> 0x0))) - ((0x3529 >> 0x3) << 0x1)) - ((((0x504f - 0x9f0d) << 0x1) << 0x2) + (((0xc868 >> 0x1) - (0x20d6 << 0x0)) << 0x1)))
|
0x193f0
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x17ff >> 0x3) << 0x3) + ((0xda97 - 0x9221) - (0xae68 >> 0x0))) - ((0x3529 >> 0x3) << 0x1)) - ((((0x504f - 0x9f0d) << 0x1) << 0x2) + (((0xc868 >> 0x1) - (0x20d6 << 0x0)) << 0x1)))",
"source_dataset": "bitwise_arithmetic",
"source_index": 57
}
| 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.
(((((0xbd99 + 0x75b8) + (0x56d9 - 0x3bcd)) * ((0x3147 - 0xe592) - (0xf79b << 0x1))) - (((0x2f3e + 0x271) << 0x1) << 0x1)) << 0x0)
|
-0x372487a99
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0xbd99 + 0x75b8) + (0x56d9 - 0x3bcd)) * ((0x3147 - 0xe592) - (0xf79b << 0x1))) - (((0x2f3e + 0x271) << 0x1) << 0x1)) << 0x0)",
"source_dataset": "bitwise_arithmetic",
"source_index": 58
}
| 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.
(((((0xebe3 - 0x4adc) >> 0x3) << 0x3) >> 0x2) - ((((0xc47b + 0x2798) << 0x3) - ((0xb1ea - 0x88d3) >> 0x0)) + (((0xae02 + 0xb5aa) << 0x1) * ((0x734c >> 0x1) - (0xe36c - 0x50db)))))
|
0xf70c2e87
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0xebe3 - 0x4adc) >> 0x3) << 0x3) >> 0x2) - ((((0xc47b + 0x2798) << 0x3) - ((0xb1ea - 0x88d3) >> 0x0)) + (((0xae02 + 0xb5aa) << 0x1) * ((0x734c >> 0x1) - (0xe36c - 0x50db)))))",
"source_dataset": "bitwise_arithmetic",
"source_index": 59
}
| 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.
(((((0x95d0 >> 0x1) * (0x7207 << 0x1)) >> 0x3) >> 0x2) >> 0x2)
|
0x857571
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x95d0 >> 0x1) * (0x7207 << 0x1)) >> 0x3) >> 0x2) >> 0x2)",
"source_dataset": "bitwise_arithmetic",
"source_index": 60
}
| 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.
(((((0xe045 * 0xaddf) << 0x0) >> 0x1) - (((0x34db * 0x9590) >> 0x2) >> 0x0)) << 0x3)
|
0x223859008
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0xe045 * 0xaddf) << 0x0) >> 0x1) - (((0x34db * 0x9590) >> 0x2) >> 0x0)) << 0x3)",
"source_dataset": "bitwise_arithmetic",
"source_index": 61
}
| 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.
(((((0xe639 + 0x26a7) + (0x5f66 * 0xa63f)) + ((0xfd36 << 0x1) - (0xb6c << 0x3))) - (((0x9a07 + 0xca1d) >> 0x3) * ((0x3430 >> 0x0) + (0xcf38 << 0x3)))) - ((((0x916 << 0x3) - (0x723b >> 0x0)) - ((0x2093 - 0x1381) + (0xb8b2 >> 0x3))) - (((0x85e8 << 0x0) + (0x41ff + 0xebbb)) << 0x1)))
|
-0xeb5cf0c3
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0xe639 + 0x26a7) + (0x5f66 * 0xa63f)) + ((0xfd36 << 0x1) - (0xb6c << 0x3))) - (((0x9a07 + 0xca1d) >> 0x3) * ((0x3430 >> 0x0) + (0xcf38 << 0x3)))) - ((((0x916 << 0x3) - (0x723b >> 0x0)) - ((0x2093 - 0x1381) + (0xb8b2 >> 0x3))) - (((0x85e8 << 0x0) + (0x41ff + 0xebbb)) << 0x1)))",
"source_dataset": "bitwise_arithmetic",
"source_index": 62
}
| 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.
(((((0xda8d - 0x5a2a) >> 0x3) * ((0x63ef >> 0x3) - (0xb601 - 0xfde3))) + (((0xeeed + 0x54ca) >> 0x1) * ((0x9263 >> 0x3) << 0x0))) * ((((0xdf0b << 0x0) + (0xfa6 - 0x9d13)) * ((0x7482 << 0x1) * (0xb341 + 0xa38d))) * (((0x6afb * 0x4e77) * (0xec49 + 0x1ccf)) >> 0x1)))
|
0x6f355f337c19cf95cb2d3f1ce36200
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0xda8d - 0x5a2a) >> 0x3) * ((0x63ef >> 0x3) - (0xb601 - 0xfde3))) + (((0xeeed + 0x54ca) >> 0x1) * ((0x9263 >> 0x3) << 0x0))) * ((((0xdf0b << 0x0) + (0xfa6 - 0x9d13)) * ((0x7482 << 0x1) * (0xb341 + 0xa38d))) * (((0x6afb * 0x4e77) * (0xec49 + 0x1ccf)) >> 0x1)))",
"source_dataset": "bitwise_arithmetic",
"source_index": 63
}
| 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.
(((((0xd049 - 0xf9a9) * (0x746d << 0x2)) + ((0xa6fc << 0x1) << 0x2)) >> 0x2) << 0x0)
|
-0x12cfcfe8
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0xd049 - 0xf9a9) * (0x746d << 0x2)) + ((0xa6fc << 0x1) << 0x2)) >> 0x2) << 0x0)",
"source_dataset": "bitwise_arithmetic",
"source_index": 64
}
| 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.
(((((0x4107 + 0x4cad) << 0x1) * ((0xbd0a - 0x89db) >> 0x1)) << 0x1) >> 0x3)
|
0x7151496
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x4107 + 0x4cad) << 0x1) * ((0xbd0a - 0x89db) >> 0x1)) << 0x1) >> 0x3)",
"source_dataset": "bitwise_arithmetic",
"source_index": 65
}
| 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.
(((((0x34b6 - 0xb710) + (0x1da9 - 0x31aa)) << 0x0) << 0x1) + ((((0x31da << 0x1) >> 0x2) + ((0x250f * 0x65fa) + (0xb6b6 << 0x2))) * (((0x646a + 0x78fc) * (0x329b - 0x904b)) >> 0x0)))
|
-0x4ad0773ac5d8616
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x34b6 - 0xb710) + (0x1da9 - 0x31aa)) << 0x0) << 0x1) + ((((0x31da << 0x1) >> 0x2) + ((0x250f * 0x65fa) + (0xb6b6 << 0x2))) * (((0x646a + 0x78fc) * (0x329b - 0x904b)) >> 0x0)))",
"source_dataset": "bitwise_arithmetic",
"source_index": 66
}
| 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.
(((((0x1501 >> 0x1) * (0x6e93 * 0xd7c6)) >> 0x0) + (((0xe039 << 0x3) >> 0x0) >> 0x3)) << 0x0)
|
0x3d297492d39
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x1501 >> 0x1) * (0x6e93 * 0xd7c6)) >> 0x0) + (((0xe039 << 0x3) >> 0x0) >> 0x3)) << 0x0)",
"source_dataset": "bitwise_arithmetic",
"source_index": 67
}
| 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.
(((((0x6baf >> 0x2) >> 0x0) << 0x0) >> 0x1) << 0x1)
|
0x1aea
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x6baf >> 0x2) >> 0x0) << 0x0) >> 0x1) << 0x1)",
"source_dataset": "bitwise_arithmetic",
"source_index": 68
}
| 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.
(((((0x9020 << 0x1) - (0xd34d << 0x2)) << 0x3) * (((0x76c5 * 0xe553) + (0xe21f - 0xf47c)) << 0x1)) - ((((0x7287 - 0xb184) + (0x95b4 - 0xc4a0)) << 0x2) + (((0xe085 + 0x6b6d) + (0x98ef - 0x9981)) + ((0x672e >> 0x1) << 0x0))))
|
-0xe77805eaf05d3
|
{
"difficulty": {
"difficulty": 5
},
"problem": "(((((0x9020 << 0x1) - (0xd34d << 0x2)) << 0x3) * (((0x76c5 * 0xe553) + (0xe21f - 0xf47c)) << 0x1)) - ((((0x7287 - 0xb184) + (0x95b4 - 0xc4a0)) << 0x2) + (((0xe085 + 0x6b6d) + (0x98ef - 0x9981)) + ((0x672e >> 0x1) << 0x0))))",
"source_dataset": "bitwise_arithmetic",
"source_index": 69
}
| 5
|
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