ref: f3109e1faf8de6f98c308aabba79e8db0c0876dd
dir: /lib/math/test/log-impl.myr/
use std use math use testr /* Note: a major part of the algorithms are the C constants. They are tested extensively in log{,1p}0{1,2} */ const main = { testr.run([ [.name="log-01", .fn = log01], [.name="log-02", .fn = log02], [.name="log-03", .fn = log03], [.name="log-04", .fn = log04], [.name="log1p-01", .fn = log1p01], [.name="log1p-02", .fn = log1p02], [.name="log1p-03", .fn = log1p03], [.name="log1p-04", .fn = log1p04], ][:]) } const log01 = {c var inputs : (uint32, uint32)[:] = [ (0x00000000, 0xff800000), (0x01000000, 0xc2ad496b), (0x3f060000, 0xbf25b7eb), (0x3f871b00, 0x3d5d49cd), (0x3f710000, 0xbd77518e), (0x4effac00, 0x41abe3e7), (0x477fb7b6, 0x41316d93), (0x41ff8653, 0x405db02b), (0x7f800000, 0x7f800000), (0x3f800000, 0x00000000), (0x000009a4, 0xc2beef7f), (0x00000002, 0xc2cd2bec), /* C[0] */ (0x61017aaf, 0x4239cf35), /* C[1] */ (0x5702333f, 0x4202613d), /* C[2] */ (0x27837177, 0xc204fa63), /* ... */ (0x3603beba, 0xc152415d), (0x6c04905b, 0x4276e689), (0x4805d58d, 0x413d3fca), (0x3e0692bf, 0xc001e117), (0x4f08632d, 0x41ac6883), (0x4b88da49, 0x41859e88), (0x0389bcca, 0xc2a6356c), (0x720b6590, 0x428c2fb3), (0x1c0c5e59, 0xc2447c1e), (0x7b0cf7a7, 0x42a5297b), (0x488e1f1c, 0x41494d03), (0x7a8f5038, 0x42a3cf0a), (0x35905a30, 0xc15be22b), (0x49113e8d, 0x4154bd2b), (0x5811f2be, 0x420861b9), (0x73129cb1, 0x428f0f52), (0x6f93b5c4, 0x42855ee6), (0x5894d094, 0x420b3b6c), (0x08967e92, 0xc2982b29), (0x3396e716, 0xc183c476), (0x68981c93, 0x42640ae9), (0x6718afeb, 0x425bbd6e), (0x000009a4, 0xc2beef7f), (0x6c1a8cc2, 0x427783ac), (0x609bff02, 0x4237c835), (0x229d097e, 0xc21ffe0a), (0x031e0ed1, 0xc2a751dc), (0x491e82ab, 0x4156232c), (0x629fabc8, 0x4242f72e), (0x7b2155b9, 0x42a56e93), (0x36a205aa, 0xc143daeb), (0x2322aae2, 0xc21d142f), (0x1fa46ee3, 0xc230719c), (0x3ba4c8ff, 0xc0a95cb2), (0x0e26770d, 0xc288b7b7), (0x1d273361, 0xc23e3d6e), (0x01283d1c, 0xc2acbd76), (0x5d2967a1, 0x4224b42b), (0x2c29e575, 0xc1d5ff25), (0x12ab16d1, 0xc2785f53), (0x39ac732d, 0xc10050a6), (0x41ad00fe, 0x4044ba54), (0x522da14e, 0x41cf9c59), (0x6caf1807, 0x427ac941), (0x6a30133d, 0x426cf210), (0x4b309bc3, 0x41821d44), (0x043197b1, 0xc2a45069), (0x00b3484b, 0xc2adffcd), (0x6d347bde, 0x427dae16), (0x68348026, 0x4261f45a), (0x5c35d8c1, 0x421f712d), (0x0c372300, 0xc28e1269), (0x6737b23e, 0x425c7ac2), (0x5c38b8d6, 0x421f813d), (0x753a038d, 0x429514c2), (0x0abac215, 0xc292310f), (0x333bad9e, 0xc187915f), (0x623cc68a, 0x4240dcdc), (0x2b3e04e8, 0xc1e03107), (0x473ef1b8, 0x412cc12a), (0x3b3f8f2e, 0xc0bab99c), (0x7140973b, 0x428a0f6a), (0x44c1d017, 0x40eb152c), (0x2ec2d4dc, 0xc1b92cda), (0x6bc47734, 0x4275b39e), (0x5cc54778, 0x42228a5e), (0x78463aba, 0x429d86ab), (0x1a46981f, 0xc24e2fee), (0x334802ab, 0xc1870f08), (0x68c97d24, 0x42652ac6), (0x464a3cc7, 0x41177e43), (0x48cb418c, 0x414f067e), (0x71cc037f, 0x428b8fcf), (0x2d4d0ef7, 0xc1c966c5), (0x6cce3dc1, 0x427b70e9), (0x2e4f6e9c, 0xc1be3812), (0x32cf8b91, 0xc18c4edd), (0x0d515df5, 0xc28b0818), (0x1cd1e03f, 0xc2401a70), (0x75535300, 0x42955613), (0x0cd3dd45, 0xc28c64ea), (0x1cd566e5, 0xc2400960), (0x57d628d5, 0x4207249d), (0x75d75209, 0x4296c28e), (0x0fd8044a, 0xc28409a1), (0x0358fcb6, 0xc2a6af9e), (0x4d5a2f36, 0x4199fc7c), (0x3adb5dff, 0xc0cc9173), (0x0bdc4079, 0xc28f16d1), (0x12dcb6e2, 0xc2775a87), (0x175e379b, 0xc25e5f89), (0x38df6a31, 0xc1125a5c), (0x3d601f07, 0xc039f502), (0x4ae113c3, 0x417d04b7), (0x77e22cfa, 0x429c674e), (0x6fe31066, 0x42863b0d), (0x486401b0, 0x4145c607), (0x0f653fb1, 0xc2854e14), (0x39659200, 0xc106d3e7), (0x51e6f204, 0x41cc58fc), (0x13e7d980, 0xc2719c90), (0x5f691614, 0x42311213), (0x68ea445b, 0x4265c51f), (0x1c6b20bf, 0xc2426be1), (0x7b6b9715, 0x42a6306d), (0x606d0172, 0x4236aeb7), (0x3a6dea49, 0xc0e026ca), (0x0beecc4f, 0xc28eed6d), (0x056fdd5a, 0xc2a0f0bb), (0x4df0dd4c, 0x41a05296), (0x3c71cfbc, 0xc086e8ac), (0x5e736a8a, 0x422bb2ea), (0x47f3e7ff, 0x413bc301), (0x17f57b61, 0xc25b33cc), (0x3675ceb6, 0xc14846c5), (0x75f6c0f1, 0x42970853), (0x1077f9f5, 0xc2826017), (0x7278e907, 0x428d588a), (0x62f99bda, 0x4244c0af), (0x407af5c4, 0x3faee68b), (0x067c2ef4, 0xc29e114e), (0x7f7d456e, 0x42b16c9b), (0x4ffe543f, 0x41b6f03f), (0x4efebc08, 0x41abdc61), (0x2f7ffc46, 0xc1b17236), /* C[128] */ ][:] for (x, y) : inputs var xf : flt32 = std.flt32frombits(x) var yf : flt32 = std.flt32frombits(y) var rf = math.log(xf) testr.check(c, rf == yf, "log(0x{b=16,w=8,p=0}) should be 0x{b=16,w=8,p=0}, was 0x{b=16,w=8,p=0}", x, y, std.flt32bits(rf)) ;; for nan : [ 0x7fc00000, 0x7fd00000, 0x7fffffff, 0xc147a5e3 ][:] testr.check(c, std.isnan(math.log(std.flt32frombits(nan))), "log(0x{b=16,w=8,p=0}) should be NaN", nan) ;; } const log02 = {c var inputs : (uint64, uint64)[:] = [ (0x0000000000000000, 0xfff0000000000000), (0x4000000000000000, 0x3fe62e42fefa39ef), (0x7ff0000000000000, 0x7ff0000000000000), (0x3ff0000000000000, 0x0000000000000000), (0x3fee0fabffc702a3, 0xbfafffffbbdf52b4), (0x6834802690008002, 0x407bea2785dd467d), (0x00000000000009a4, 0xc08705080132de98), (0x49113e8d334802ab, 0x4059518f80c8b520), (0x70fffac8f637436f, 0x408100f58e19ab8f), (0x6900000000000002, 0x407c765cf8301757), /* C[0] */ (0x6a30133d035de442, 0x407d4927a622132e), /* C[1] */ (0x248037d89731238d, 0xc0730472f99e1f4a), /* C[2] */ (0x0ab05ff44dd62adb, 0xc082744e51a6f0b5), /* ... */ (0x2b108aea88779bcb, 0xc06cef4a2f1c6596), (0x4b309bc3b92e2dfc, 0x405f3371b7645f6c), (0x1990c9fa6a4c0713, 0xc07a98b52fca339e), (0x0740d2f4341bcac4, 0xc083a512fd9739f7), (0x2c4100ab8cb78c63, 0xc06b48fa89cd7e6c), (0x4ae113c3a6bc3a99, 0x405e576b1bac2f98), (0x49113e8d334802ab, 0x4059518f80c8b520), (0x54815a632f7ffc46, 0x406c840d22b38727), (0x482175028dd2b016, 0x4056b8ec87c62e57), (0x3f7197c085acb2f4, 0xc015cd158b41fb6a), (0x4651b338cfcc7ad5, 0x4051b353db2b8859), (0x1cd1e03f717eff79, 0xc07857016bce40ea), (0x0261f48674017371, 0xc0855513d4bd24c2), (0x7b922a8c7d7b8896, 0x4084ab1d75ac1cd5), (0x3fb23d2c3bf35ec8, 0xc0052208742a9d29), (0x5f92651d0e7b356e, 0x4075edf38e954d24), (0x7f7285f6b3e07dfa, 0x4086031261f39110), (0x2322aae2d2150337, 0xc073f62fbbbec476), (0x7eb2bb6da1727619, 0x4085c09e8f1dadd9), (0x71d2e2eb43d8256d, 0x40814a60e0b279cb), (0x74630f734df0dd4c, 0x40822dcdd6310ba8), (0x6fe31066fa71ca7a, 0x40809e8d868734a7), (0x00000000000009a4, 0xc08705080132de98), (0x5e736a8abf6dda11, 0x40752730815a6166), (0x6903781bd44c88f2, 0x407c7980c8a083ab), (0x28b3963c1648a637, 0xc0701a602dded579), (0x6f93b5c49bb1bad3, 0x40808317f139e8e2), (0x6133e925e6bf8a12, 0x40770f91495b0b5f), (0x3c44077c04158248, 0xc04455e5edbac018), (0x6e042c14d7b5903c, 0x407ff14c8c3b9be2), (0x0dc44db612e4d131, 0xc08162df301e5813), (0x4f646b7b7f44f304, 0x40656e70d305a121), (0x6834802690008002, 0x407bea2785dd467d), (0x43d4a2bb177f4778, 0x40459d6223a7d41b), (0x6634cc7aab4228cc, 0x407a877e7a78169b), (0x5894d0947b2155b9, 0x407115cf1b30a32d), (0x5624f4404ffe543f, 0x406ecac8a9c25223), (0x58751ddd6052330d, 0x4070ffdbd350379f), (0x7f75348c0f5498fb, 0x408604275047d724), (0x7265517fa66418ae, 0x40817d410871254b), (0x08158bfe5ae12b55, 0xc0835b01ec0d209d), (0x39659200fba6c321, 0xc0521ed4910ed7c0), (0x7635cba6522da14e, 0x4082cfafdb79820f), (0x5c35d8c190aea62e, 0x407399d2e3f6c83c), (0x36f6035fd99d5091, 0xc058dfa002d358b7), (0x57d628d547f3e7ff, 0x407091b9f622cd4e), (0x78463abad2eed0c7, 0x408386d5e3383f6b), (0x4b76524c54f71c43, 0x405ff7cf887ecb05), (0x524675375aaefb86, 0x40696dcc32c58d99), (0x1806909d6b4d344f, 0xc07ba93c617cc0e8), (0x7306c0360b296d7a, 0x4081b539dff3fe2b), (0x3396e71654ada984, 0xc0611c4da154c729), (0x51e6f204333bad9e, 0x4068e9668d521be8), (0x1af71f4d0ff0979d, 0xc0799f9949497468), (0x1d273361f32be48e, 0xc0781b61d584de4f), (0x05776dbf84a723dc, 0xc084433c2faca744), (0x541784f5f4f77091, 0x406bf2841f114315), (0x2577a13952a873f2, 0xc07258125f58596d), (0x01e7b0ed0c372300, 0xc0857f389ab75fb2), (0x13e7d98039ac732d, 0xc07e8450364cae3a), (0x1077f9f5782403b6, 0xc08073195883aa08), (0x62e813931fa46ee3, 0x40783e0bf5cda73d), (0x131831ae8a34c781, 0xc07f14422da7ff1f), (0x4f08632da9f79134, 0x4064ef09d28eeda0), (0x1eb87975b31b171e, 0xc0770544a50ec830), (0x11989fbebae2eb0f, 0xc0800f1295e3f21e), (0x5c38b8d6d96e1ffe, 0x40739bcd56c393a8), (0x7278e907f500a3f8, 0x4081840b7f2ad445), (0x73f90e51c4166808, 0x4082092d01e05c94), (0x7a7927863ba4c8ff, 0x408449e7d7ea5790), (0x504943add8ae6c70, 0x4066abc8767dbc43), (0x481953e382eee069, 0x4056a4615edb9861), (0x3e297530d3b5006a, 0xc033a307aa45595f), (0x71799aa6bce3b976, 0x40812b8ab6921ace), (0x28f9c062122d4255, 0xc06fd345b377c762), (0x2c29e575a79ea752, 0xc06b67e06908d1f4), (0x753a038d35905a30, 0x4082786127c0c498), (0x3d9a1e1a1f21c1bc, 0xc039d97d98b10ccb), (0x156a3759cb620ff3, 0xc07d78a18c7ae709), (0x1bea5f7f0998cd3b, 0xc078f72383135970), (0x6c1a8cc212dcb6e2, 0x407e9de4bd07d597), (0x089a9e5f347220f2, 0xc0832cf47cf5e0f7), (0x5c1abf7963c10a0c, 0x407386e1b0c37460), (0x0f1ae87bb321fb89, 0xc080ec2b87d49467), (0x407af5c43978f008, 0x4018448cf475c732), (0x12ab16d1692d6449, 0xc07f601524bb16d3), (0x48cb418c32cf8b91, 0x4058910d56870021), (0x720b6590a8e3f54c, 0x40815dfd6485181b), (0x46eb81a434b9f620, 0x40535ecb7294cc14), (0x7b6b9715161c2442, 0x40849dd29d738baf), (0x4eebb8fcb686a19f, 0x4064c6c75b7c96b0), (0x4cfbe7fe8242657f, 0x4062176353551bf1), (0x609bff020bdc4079, 0x4076a61dec83f7c3), (0x0f5c17c620a239e8, 0xc080d5a506dd57ea), (0x4f1c3cfb0a12764c, 0x406509e91a2092fc), (0x2fac53e44bfddb93, 0xc0668ae29cc4834f), (0x371c7eaeb3110aa5, 0xc05876628c3c6820), (0x56fcaa4913caa832, 0x406ff52903fd288b), (0x623cc68a255eedf9, 0x4077c6e7cd2766f5), (0x4bfcde0e60de47ad, 0x4060b5948be5f1a9), (0x285cf7151c6b20bf, 0xc07056a876ed47dd), (0x44bd10aeecadc14d, 0x404aa358796a4dca), (0x7f7d456ec4df8ff2, 0x408606bb7f61f92f), (0x395d6841a6821a8a, 0xc052375b513417c1), (0x33ed717b73129cb1, 0xc060a55c64cbc4e9), (0x667dad261da3f8f5, 0x407ab98af553a20c), (0x42cdc8a5274640b7, 0x403fd020a35da739), (0x3a6dea498fa485ba, 0xc04e883bb08ae507), (0x2b3e04e8f6266d83, 0xc06cafdc166f9da3), (0x488e1f1c6db084f8, 0x4057e601112df1ff), (0x6cce3dc1ca42a083, 0x407f19f86830564f), (0x697e599a1e4afd5f, 0x407cce3d2d79ec2e), (0x491e82abf353e79c, 0x40597613f67eb37a), (0x169eabc19e6f453d, 0xc07ca3673fa3d24d), (0x4efebc0847e20599, 0x4064e04285d5e27e), (0x544eeb58043197b1, 0x406c3dcfe12bf3bb), (0x27aeff1996633c47, 0xc070cf914713d900), (0x6caf1807e61b6f03, 0x407f043c0805dba1), (0x3aef3641195d57ab, 0xc04bbd04d4b5e1f2), (0x2e4f6e9cea0e6903, 0xc0686f887e310813), (0x4f5f7177b7abc69e, 0x40656612da92283f), (0x629fabc84d5a2f36, 0x40780afb4bbfbe4c), (0x418fce8b9cdac427, 0x40320409991d5e65), (0x056fdd5a05ee0cf9, 0xc0844651eb4324d0), (0x70fffac8f637436f, 0x408100f58e19ab8f), /* C[128] */ ][:] for (x, y) : inputs var xf : flt64 = std.flt64frombits(x) var yf : flt64 = std.flt64frombits(y) var rf = math.log(xf) testr.check(c, rf == yf, "log(0x{b=16,w=16,p=0}) should be 0x{b=16,w=16,p=0}, was 0x{b=16,w=16,p=0}", x, y, std.flt64bits(rf)) ;; for nan : [ 0x7ff8000000000000, 0x7ff9000000000000, 0x7fffffffffffffff, 0xc147a5e354789328, ][:] testr.check(c, std.isnan(math.log(std.flt64frombits(nan))), "log(0x{b=16,w=16,p=0}) should be NaN", nan) ;; } const log03 = {c /* The [Tan90], steps 1-3' implementation have error bounds of about 0.6 ulps, so we do not obtain last-bit accuracy. Here are some known-bad results. */ var inputs : (uint32, uint32, uint32)[:] = [ (0x3f610400, 0xbe041a91, 0xbe041a92), (0x3fc70700, 0x3ee200bf, 0x3ee200c0), (0x3f610400, 0xbe041a91, 0xbe041a92), (0x3e360700, 0xbfdd18a7, 0xbfdd18a8), ][:] for (x, y_perfect, y_acceptable) : inputs var xf : flt32 = std.flt32frombits(x) var ypf : flt32 = std.flt32frombits(y_perfect) var yaf : flt32 = std.flt32frombits(y_acceptable) var rf = math.log(xf) if rf != ypf && rf != yaf testr.fail(c, "log(0x{b=16,w=8,p=0}) was 0x{b=16,w=8,p=0}. It should have been 0x{b=16,w=8,p=0}, although we will also accept 0x{b=16,w=8,p=0}", x, std.flt32bits(rf), y_perfect, y_acceptable) ;; ;; } const log04 = {c /* The [Tan90], steps 1-3' implementation have error bounds of about 0.6 ulps, so we do not obtain last-bit accuracy. Here are some known-bad results. */ var inputs : (uint64, uint64, uint64)[:] = [ (0x3c71cfbc354934ae, 0xc0435ac0222f1703, 0xc0435ac0222f1704), (0x35f0681e2059a1bb, 0xc05bb8387abe5fcf, 0xc05bb8387abe5fd0), (0x40d268e6c4ad9588, 0x4023b04f15e91586, 0x4023b04f15e91585), ][:] for (x, y_perfect, y_acceptable) : inputs var xf : flt64 = std.flt64frombits(x) var ypf : flt64 = std.flt64frombits(y_perfect) var yaf : flt64 = std.flt64frombits(y_acceptable) var rf = math.log(xf) if rf != ypf && rf != yaf testr.fail(c, "log(0x{b=16,w=16,p=0}) was 0x{b=16,w=16,p=0}. It should have been 0x{b=16,w=16,p=0}, although we will also accept 0x{b=16,w=16,p=0}", x, std.flt64bits(rf), y_perfect, y_acceptable) ;; ;; } const log1p01 = {c var inputs : (uint32, uint32)[:] = [ (0x00000000, 0x00000000), (0xbf700700, 0xc0318e1e), (0x69000000, 0x42661ff7), /* C[0] */ (0x61017aaf, 0x4239cf35), /* C[1] */ (0x5702333f, 0x4202613d), /* C[2] */ (0x6e030844, 0x4280f8e2), /* ... */ (0xbf5f1ae3, 0xc00351a2), (0x6c04905b, 0x4276e689), (0x4805d58d, 0x413d3fd2), (0x7c06e112, 0x42a7d8a8), (0x4f08632d, 0x41ac6883), (0x4b88da49, 0x41859e88), (0x6b898457, 0x42744651), (0x720b6590, 0x428c2fb3), (0x5c0c2c03, 0x421e66a2), (0x7b0cf7a7, 0x42a5297b), (0x488e1f1c, 0x41494d06), (0x7a8f5038, 0x42a3cf0a), (0x768fe527, 0x4298b9fb), (0x49113e8d, 0x4154bd2d), (0x5811f2be, 0x420861b9), (0x73129cb1, 0x428f0f52), (0x6f93b5c4, 0x42855ee6), (0x5894d094, 0x420b3b6c), (0x3facbad0, 0x3f5aaba7), (0x6f16daf7, 0x428406cc), (0x68981c93, 0x42640ae9), (0x6718afeb, 0x425bbd6e), (0x4b19a1ed, 0x4180ffd5), (0x6c1a8cc2, 0x427783ac), (0x609bff02, 0x4237c835), (0x407af5c4, 0x3fcbf9dc), (0x459de4ba, 0x41087217), (0x491e82ab, 0x4156232d), (0x629fabc8, 0x4242f72e), (0x7b2155b9, 0x42a56e93), (0x7ba20272, 0x42a6d39a), (0x44229f49, 0x40cf561a), (0x782403b6, 0x429d25a9), (0x5624f440, 0x41fb8fe5), (0x7e263c63, 0x42adcf3f), (0x6026873d, 0x42354554), (0x52a873f2, 0x41d4e9ec), (0x5d2967a1, 0x4224b42b), (0x41a1dbe2, 0x40438dc0), (0x52ab609c, 0x41d50d2b), (0x632ba15e, 0x424606ed), (0x692d6449, 0x426756c6), (0x522da14e, 0x41cf9c59), (0x6caf1807, 0x427ac941), (0x6a30133d, 0x426cf210), (0x4b309bc3, 0x41821d44), (0x47b19da7, 0x4136aff5), (0x7eb2bb6d, 0x42af573f), (0x6d347bde, 0x427dae16), (0x68348026, 0x4261f45a), (0x5c35d8c1, 0x421f712d), (0x4fb68eb5, 0x41b44934), (0x6737b23e, 0x425c7ac2), (0x5c38b8d6, 0x421f813d), (0x753a038d, 0x429514c2), (0x733b43e1, 0x428f8ca0), (0x613c001e, 0x423b4d15), (0x623cc68a, 0x4240dcdc), (0x6e3e4d6b, 0x4281b7f2), (0x473ef1b8, 0x412cc13f), (0x50c01f91, 0x41bfc8ef), (0x7140973b, 0x428a0f6a), (0x44c1d017, 0x40eb1a74), (0x7d42efec, 0x42ab5b02), (0x6bc47734, 0x4275b39e), (0x5cc54778, 0x42228a5e), (0x78463aba, 0x429d86ab), (0x50473690, 0x41ba8795), (0x4fc7e753, 0x41b5031a), (0x68c97d24, 0x42652ac6), (0x464a3cc7, 0x41177e94), (0x48cb418c, 0x414f0681), (0x71cc037f, 0x428b8fcf), (0x6b4d344f, 0x42731a66), (0x6cce3dc1, 0x427b70e9), (0xbe43ff34, 0xbe598dc6), (0x42cdc8a5, 0x40949654), (0x5450d14b, 0x41e74489), (0x6052330d, 0x423633cf), (0x75535300, 0x42955613), (0x67d3bac5, 0x425fd1fa), (0x43d4a2bb, 0x40c1c32f), (0x57d628d5, 0x4207249d), (0x75d75209, 0x4296c28e), (0x65d79618, 0x4254cd54), (0x665934fc, 0x42579ac8), (0x4d5a2f36, 0x4199fc7c), (0x4e5b5517, 0x41a51e5d), (0x51dba523, 0x41cbf23d), (0x51dd3656, 0x41cc00cd), (0x3f3b4d9e, 0x3f0c9047), (0x745f3fc3, 0x4292ac65), (0x43dfe6db, 0x40c36926), (0x4ae113c3, 0x417d04b7), (0x77e22cfa, 0x429c674e), (0xbf6399e7, 0xc00cb9a1), (0x486401b0, 0x4145c60b), (0x76e50770, 0x4299a7f1), (0x53661704, 0x41dcf415), (0x51e6f204, 0x41cc58fc), (0x62e81393, 0x4244761b), (0x5f691614, 0x42311213), (0x68ea445b, 0x4265c51f), (0x4beb7a84, 0x4189f603), (0x7b6b9715, 0x42a6306d), (0x606d0172, 0x4236aeb7), (0x6a6d8093, 0x426e2483), (0x4aef46b9, 0x417dff4a), (0x40cff51e, 0x4000f145), (0x4df0dd4c, 0x41a05296), (0x6771f0ee, 0x425d94c7), (0x5e736a8a, 0x422bb2ea), (0x47f3e7ff, 0x413bc30a), (0x58751ddd, 0x420a74a6), (0x6675ba2a, 0x4258191d), (0x75f6c0f1, 0x42970853), (0x6d77f9a2, 0x427ef365), (0x7278e907, 0x428d588a), (0x62f99bda, 0x4244c0af), (0x5b7b5415, 0x421b30f9), (0x4cfbe7fe, 0x41959740), (0x3f79f629, 0x3f2e6894), (0x4ffe543f, 0x41b6f03f), (0x4efebc08, 0x41abdc61), (0x70fffac8, 0x42893e34), /* C[128] */ ][:] for (x, y) : inputs var xf : flt32 = std.flt32frombits(x) var yf : flt32 = std.flt32frombits(y) var rf = math.log1p(xf) testr.check(c, rf == yf, "log1p(0x{b=16,w=8,p=0}) should be 0x{b=16,w=8,p=0}, was 0x{b=16,w=8,p=0}", x, y, std.flt32bits(rf)) ;; } const log1p02 = {c var inputs : (uint64, uint64)[:] = [ (0x0000000000000000, 0x0000000000000000), (0x6900000000000002, 0x407c765cf8301757), /* C[0] */ (0x6a30133d035de442, 0x407d4927a622132e), /* C[1] */ (0x545031c8b889228e, 0x406c3f4c487ae367), /* C[2] */ (0xbfdf2f686343ab7f, 0xbfe56047e9fe5abe), /* ... */ (0x52b08a1d750f04ff, 0x4069ff462f9f1cbc), (0x4b309bc3b92e2dfc, 0x405f3371b7645f6c), (0x5580cc2d69e348b5, 0x406de5e6ca65b1cd), (0x4fe0e879a2736200, 0x406619d8f80fa200), (0x4ad0fbf9d10cd8a2, 0x405e2ab53092727b), (0x4ae113c3a6bc3a99, 0x405e576b1bac2f98), (0x49113e8d334802ab, 0x4059518f80c8b520), (0x54815a632f7ffc46, 0x406c840d22b38727), (0x482175028dd2b016, 0x4056b8ec87c62e57), (0x46719e36e5f0da58, 0x40520bc0c4781e1f), (0x4651b338cfcc7ad5, 0x4051b353db2b8859), (0x41a1dbe267002305, 0x4032d32be3bb9cb9), (0x5811f2beb37f6007, 0x4070bab72614d157), (0x7b922a8c7d7b8896, 0x4084ab1d75ac1cd5), (0x74a2309e5aa7b2e9, 0x4082439c5e5fec3b), (0x40d268e6c4ad9588, 0x4023b05609c9a18b), (0x7f7285f6b3e07dfa, 0x4086031261f39110), (0x54f29bb41ec2d2b9, 0x406d218d0b1c6484), (0x7eb2bb6da1727619, 0x4085c09e8f1dadd9), (0x71d2e2eb43d8256d, 0x40814a60e0b279cb), (0x74630f734df0dd4c, 0x40822dcdd6310ba8), (0x6fe31066fa71ca7a, 0x40809e8d868734a7), (0x50e345290de2dd6c, 0x406780ec610f0c26), (0x5e736a8abf6dda11, 0x40752730815a6166), (0x6903781bd44c88f2, 0x407c7980c8a083ab), (0x78b39b662df2692e, 0x4083aca5c3801c1c), (0x6f93b5c49bb1bad3, 0x40808317f139e8e2), (0x6133e925e6bf8a12, 0x40770f91495b0b5f), (0x5a63fa758c92398a, 0x407256c5e940a2db), (0x6e042c14d7b5903c, 0x407ff14c8c3b9be2), (0x5f7445e6b0eee22e, 0x4075d9537ce0389b), (0x4f646b7b7f44f304, 0x40656e70d305a121), (0x6834802690008002, 0x407bea2785dd467d), (0x43d4a2bb177f4778, 0x40459d6223a7d41b), (0x6634cc7aab4228cc, 0x407a877e7a78169b), (0x5894d0947b2155b9, 0x407115cf1b30a32d), (0x5624f4404ffe543f, 0x406ecac8a9c25223), (0x58751ddd6052330d, 0x4070ffdbd350379f), (0x7f75348c0f5498fb, 0x408604275047d724), (0x7265517fa66418ae, 0x40817d410871254b), (0x7515838bfa241f5a, 0x40826bc50abc4fa5), (0x45459662ae3323f5, 0x404d9bc7c072e470), (0x7635cba6522da14e, 0x4082cfafdb79820f), (0x5c35d8c190aea62e, 0x407399d2e3f6c83c), (0x4555f61f1c0c5e59, 0x404df6b397ade3ba), (0x57d628d547f3e7ff, 0x407091b9f622cd4e), (0x78463abad2eed0c7, 0x408386d5e3383f6b), (0x4b76524c54f71c43, 0x405ff7cf887ecb05), (0x524675375aaefb86, 0x40696dcc32c58d99), (0x68569f0d424db12a, 0x407c01e8fcc54a3b), (0x7306c0360b296d7a, 0x4081b539dff3fe2b), (0x4ad6e0cb2febd13d, 0x405e3dc5d9b757f7), (0x51e6f204333bad9e, 0x4068e9668d521be8), (0x4097178f382d0b5a, 0x401d32395ff3dc65), (0x7f373de46ebc9a27, 0x4085eeb4db53f788), (0x66d76e22a34e58cd, 0x407af84dc23a7f99), (0x541784f5f4f77091, 0x406bf2841f114315), (0x627797a59dd57660, 0x4077f016d94fac5c), (0x7ab7bb38889422cf, 0x40845f9ed64c4859), (0x4fc7e75368981c93, 0x4065f890d0df7af1), (0x75d8018df3774adb, 0x4082af304ec36d3f), (0x62e813931fa46ee3, 0x40783e0bf5cda73d), (0x75984e941fdcceb2, 0x4082991b8dfdda1c), (0x4f08632da9f79134, 0x4064ef09d28eeda0), (0x4ee87d4f36b08d11, 0x4064c2cf83f46cf4), (0x46a8931cf6708831, 0x4052a622d2cf5019), (0x5c38b8d6d96e1ffe, 0x40739bcd56c393a8), (0x7278e907f500a3f8, 0x4081840b7f2ad445), (0x73f90e51c4166808, 0x4082092d01e05c94), (0x7a7927863ba4c8ff, 0x408449e7d7ea5790), (0x504943add8ae6c70, 0x4066abc8767dbc43), (0x481953e382eee069, 0x4056a4615edb9861), (0x6b8984577920fba9, 0x407e397207c69605), (0x71799aa6bce3b976, 0x40812b8ab6921ace), (0x6019b68e88bc2e04, 0x40764c0873609927), (0x4bf9d05bd54aa5c3, 0x4060b200ae465dfa), (0x753a038d35905a30, 0x4082786127c0c498), (0x617a151591b1b79f, 0x4077403fbb1aa8c9), (0x503a33bad761d1c1, 0x406696c4be84ff41), (0x4d2a6cc069c8de6f, 0x4062582f440da781), (0x6c1a8cc212dcb6e2, 0x407e9de4bd07d597), (0x6b5a9349dd94a791, 0x407e18d31a0f5866), (0x5c1abf7963c10a0c, 0x407386e1b0c37460), (0x4d2ad7c63e651a60, 0x406258afdaa5e19a), (0x407af5c43978f008, 0x401846ebf755d962), (0x73cb2d9a04724837, 0x4081f930d140b8b3), (0x48cb418c32cf8b91, 0x4058910d56870021), (0x720b6590a8e3f54c, 0x40815dfd6485181b), (0x46eb81a434b9f620, 0x40535ecb7294cc14), (0x7b6b9715161c2442, 0x40849dd29d738baf), (0x4eebb8fcb686a19f, 0x4064c6c75b7c96b0), (0x4cfbe7fe8242657f, 0x4062176353551bf1), (0x609bff020bdc4079, 0x4076a61dec83f7c3), (0x7b9c14acd61754cb, 0x4084ae996873a75c), (0x4f1c3cfb0a12764c, 0x406509e91a2092fc), (0x6cfc6da63a428918, 0x407f3a4094ee1891), (0x74ec84ae3e4aeb42, 0x40825d639229d899), (0x56fcaa4913caa832, 0x406ff52903fd288b), (0x623cc68a255eedf9, 0x4077c6e7cd2766f5), (0x4bfcde0e60de47ad, 0x4060b5948be5f1a9), (0x7b0cf7a77eff4d34, 0x40847cf0fbe4ff93), (0x44bd10aeecadc14d, 0x404aa358796a4dca), (0x7f7d456ec4df8ff2, 0x408606bb7f61f92f), (0x7b8d69195829f3f8, 0x4084a96c99b76f20), (0x7f6d78ed8101a55a, 0x4086013df53b153f), (0x667dad261da3f8f5, 0x407ab98af553a20c), (0x42cdc8a5274640b7, 0x403fd020a35da73e), (0x5a6de65a705a667d, 0x40725d396e1dd345), (0x795dfa770c749b2c, 0x4083e77ef991f95a), (0x488e1f1c6db084f8, 0x4057e601112df1ff), (0x6cce3dc1ca42a083, 0x407f19f86830564f), (0x697e599a1e4afd5f, 0x407cce3d2d79ec2e), (0x491e82abf353e79c, 0x40597613f67eb37a), (0x722ea4ce7f96d2ff, 0x408169f9e9352797), (0x4efebc0847e20599, 0x4064e04285d5e27e), (0x544eeb58043197b1, 0x406c3dcfe12bf3bb), (0x46ff046b11b6e7e0, 0x405392d817dda2d2), (0x6caf1807e61b6f03, 0x407f043c0805dba1), (0x50ef387e0fc4a5e1, 0x4067905d34c36a51), (0x4cbf6bd74d8f3edf, 0x4061c276224e5d71), (0x4f5f7177b7abc69e, 0x40656612da92283f), (0x629fabc84d5a2f36, 0x40780afb4bbfbe4c), (0x418fce8b9cdac427, 0x40320409995dc1e7), (0x46cfe9b12985df6e, 0x40530f94e5ddae5e), (0x70fffac8f637436f, 0x408100f58e19ab8f), /* C[128] */ ][:] for (x, y) : inputs var xf : flt64 = std.flt64frombits(x) var yf : flt64 = std.flt64frombits(y) var rf = math.log1p(xf) testr.check(c, rf == yf, "log1p(0x{b=16,w=16,p=0}) should be 0x{b=16,w=16,p=0}, was 0x{b=16,w=16,p=0}", x, y, std.flt64bits(rf)) ;; } const log1p03 = {c /* As with log, there is some accepted error in log1p. */ var inputs : (uint32, uint32, uint32)[:] = [ (0x49c68d15, 0x4164d4d5, 0x4164d4d4), (0x3d86912c, 0x3d8254a9, 0x3d8254a8), (0x3dd7210e, 0x3dcc905b, 0x3dcc905c), (0x3d986e71, 0x3d93067e, 0x3d93067f), (0xbe1eefcb, 0xbe2cb799, 0xbe2cb798), (0x3e057287, 0x3dfae18d, 0x3dfae18c), (0x424d8fe0, 0x407d5bc1, 0x407d5bc2), (0xb95cb5e9, 0xb95cbbdb, 0xb95cbbdc), (0x3de66745, 0x3dda56fd, 0x3dda56fc), ][:] for (x, y_perfect, y_acceptable) : inputs var xf : flt32 = std.flt32frombits(x) var ypf : flt32 = std.flt32frombits(y_perfect) var yaf : flt32 = std.flt32frombits(y_acceptable) var rf = math.log1p(xf) if rf != ypf && rf != yaf testr.fail(c, "log1p(0x{b=16,w=8,p=0}) was 0x{b=16,w=8,p=0}. It should have been 0x{b=16,w=8,p=0}, although we will also accept 0x{b=16,w=8,p=0}", x, std.flt32bits(rf), y_perfect, y_acceptable) ;; ;; } const log1p04 = {c /* As with log, there is some accepted error in log1p. */ var inputs : (uint64, uint64, uint64)[:] = [ (0xbf8d2fb5e91b21dc, 0xbf8d65764edb0cd6, 0xbf8d65764edb0cd5), (0x3fc855690a4a67e1, 0x3fc64708ed6e9abb, 0x3fc64708ed6e9aba), (0xbfafb59aa6bb5f14, 0xbfb05dee438595dd, 0xbfb05dee438595de), (0x3f896e0154c1be37, 0x3f8945eb78442aa1, 0x3f8945eb78442aa0), (0x3fb09ef0bcfe6932, 0x3fb01a8404c5051a, 0x3fb01a8404c50519), (0x3fa071dec13893e8, 0x3fa02fad06dc3334, 0x3fa02fad06dc3335), (0x4000d2445e953eb4, 0x3ff21dbfa8f28f5d, 0x3ff21dbfa8f28f5c), (0xbfe37c5eda902f8d ,0xbfee0b40d5f061d7, 0xbfee0b40d5f061d6), (0x400dd2fe516cced3, 0x3ff8db2a8f466eeb, 0x3ff8db2a8f466eea), (0xbfb5d9612ba5b9bf, 0xbfb6d6962ad7508b, 0xbfb6d6962ad7508c), (0x40c512345c72e7f9, 0x4022929892b71a96, 0x4022929892b71a95), (0x47409b795894785f, 0x405448ab9f468935, 0x405448ab9f468936), ][:] for (x, y_perfect, y_acceptable) : inputs var xf : flt64 = std.flt64frombits(x) var ypf : flt64 = std.flt64frombits(y_perfect) var yaf : flt64 = std.flt64frombits(y_acceptable) var rf = math.log1p(xf) if rf != ypf && rf != yaf testr.fail(c, "log1p(0x{b=16,w=16,p=0}) was 0x{b=16,w=16,p=0}. It should have been 0x{b=16,w=16,p=0}, although we will also accept 0x{b=16,w=16,p=0}", x, std.flt64bits(rf), y_perfect, y_acceptable) ;; ;; }