/* $OpenBSD: fpu_log.c,v 1.4 2002/03/14 01:26:34 millert Exp $ */ /* $NetBSD: fpu_log.c,v 1.5 1996/10/13 03:19:18 christos Exp $ */ /* * Copyright (c) 1995 Ken Nakata * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the author nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * @(#)fpu_log.c 10/8/95 */ #include #include #include "fpu_emulate.h" static u_int logA6[] = { 0x3FC2499A, 0xB5E4040B }; static u_int logA5[] = { 0xBFC555B5, 0x848CB7DB }; static u_int logA4[] = { 0x3FC99999, 0x987D8730 }; static u_int logA3[] = { 0xBFCFFFFF, 0xFF6F7E97 }; static u_int logA2[] = { 0x3FD55555, 0x555555A4 }; static u_int logA1[] = { 0xBFE00000, 0x00000008 }; static u_int logB5[] = { 0x3F175496, 0xADD7DAD6 }; static u_int logB4[] = { 0x3F3C71C2, 0xFE80C7E0 }; static u_int logB3[] = { 0x3F624924, 0x928BCCFF }; static u_int logB2[] = { 0x3F899999, 0x999995EC }; static u_int logB1[] = { 0x3FB55555, 0x55555555 }; /* sfpn = shortened fp number; can represent only positive numbers */ static struct sfpn { int sp_exp; u_int sp_m0, sp_m1; } logtbl[] = { { 0x3FFE - 0x3fff, 0xFE03F80FU, 0xE03F80FEU }, { 0x3FF7 - 0x3fff, 0xFF015358U, 0x833C47E2U }, { 0x3FFE - 0x3fff, 0xFA232CF2U, 0x52138AC0U }, { 0x3FF9 - 0x3fff, 0xBDC8D83EU, 0xAD88D549U }, { 0x3FFE - 0x3fff, 0xF6603D98U, 0x0F6603DAU }, { 0x3FFA - 0x3fff, 0x9CF43DCFU, 0xF5EAFD48U }, { 0x3FFE - 0x3fff, 0xF2B9D648U, 0x0F2B9D65U }, { 0x3FFA - 0x3fff, 0xDA16EB88U, 0xCB8DF614U }, { 0x3FFE - 0x3fff, 0xEF2EB71FU, 0xC4345238U }, { 0x3FFB - 0x3fff, 0x8B29B775U, 0x1BD70743U }, { 0x3FFE - 0x3fff, 0xEBBDB2A5U, 0xC1619C8CU }, { 0x3FFB - 0x3fff, 0xA8D839F8U, 0x30C1FB49U }, { 0x3FFE - 0x3fff, 0xE865AC7BU, 0x7603A197U }, { 0x3FFB - 0x3fff, 0xC61A2EB1U, 0x8CD907ADU }, { 0x3FFE - 0x3fff, 0xE525982AU, 0xF70C880EU }, { 0x3FFB - 0x3fff, 0xE2F2A47AU, 0xDE3A18AFU }, { 0x3FFE - 0x3fff, 0xE1FC780EU, 0x1FC780E2U }, { 0x3FFB - 0x3fff, 0xFF64898EU, 0xDF55D551U }, { 0x3FFE - 0x3fff, 0xDEE95C4CU, 0xA037BA57U }, { 0x3FFC - 0x3fff, 0x8DB956A9U, 0x7B3D0148U }, { 0x3FFE - 0x3fff, 0xDBEB61EEU, 0xD19C5958U }, { 0x3FFC - 0x3fff, 0x9B8FE100U, 0xF47BA1DEU }, { 0x3FFE - 0x3fff, 0xD901B203U, 0x6406C80EU }, { 0x3FFC - 0x3fff, 0xA9372F1DU, 0x0DA1BD17U }, { 0x3FFE - 0x3fff, 0xD62B80D6U, 0x2B80D62CU }, { 0x3FFC - 0x3fff, 0xB6B07F38U, 0xCE90E46BU }, { 0x3FFE - 0x3fff, 0xD3680D36U, 0x80D3680DU }, { 0x3FFC - 0x3fff, 0xC3FD0329U, 0x06488481U }, { 0x3FFE - 0x3fff, 0xD0B69FCBU, 0xD2580D0BU }, { 0x3FFC - 0x3fff, 0xD11DE0FFU, 0x15AB18CAU }, { 0x3FFE - 0x3fff, 0xCE168A77U, 0x25080CE1U }, { 0x3FFC - 0x3fff, 0xDE1433A1U, 0x6C66B150U }, { 0x3FFE - 0x3fff, 0xCB8727C0U, 0x65C393E0U }, { 0x3FFC - 0x3fff, 0xEAE10B5AU, 0x7DDC8ADDU }, { 0x3FFE - 0x3fff, 0xC907DA4EU, 0x871146ADU }, { 0x3FFC - 0x3fff, 0xF7856E5EU, 0xE2C9B291U }, { 0x3FFE - 0x3fff, 0xC6980C69U, 0x80C6980CU }, { 0x3FFD - 0x3fff, 0x82012CA5U, 0xA68206D7U }, { 0x3FFE - 0x3fff, 0xC4372F85U, 0x5D824CA6U }, { 0x3FFD - 0x3fff, 0x882C5FCDU, 0x7256A8C5U }, { 0x3FFE - 0x3fff, 0xC1E4BBD5U, 0x95F6E947U }, { 0x3FFD - 0x3fff, 0x8E44C60BU, 0x4CCFD7DEU }, { 0x3FFE - 0x3fff, 0xBFA02FE8U, 0x0BFA02FFU }, { 0x3FFD - 0x3fff, 0x944AD09EU, 0xF4351AF6U }, { 0x3FFE - 0x3fff, 0xBD691047U, 0x07661AA3U }, { 0x3FFD - 0x3fff, 0x9A3EECD4U, 0xC3EAA6B2U }, { 0x3FFE - 0x3fff, 0xBB3EE721U, 0xA54D880CU }, { 0x3FFD - 0x3fff, 0xA0218434U, 0x353F1DE8U }, { 0x3FFE - 0x3fff, 0xB92143FAU, 0x36F5E02EU }, { 0x3FFD - 0x3fff, 0xA5F2FCABU, 0xBBC506DAU }, { 0x3FFE - 0x3fff, 0xB70FBB5AU, 0x19BE3659U }, { 0x3FFD - 0x3fff, 0xABB3B8BAU, 0x2AD362A5U }, { 0x3FFE - 0x3fff, 0xB509E68AU, 0x9B94821FU }, { 0x3FFD - 0x3fff, 0xB1641795U, 0xCE3CA97BU }, { 0x3FFE - 0x3fff, 0xB30F6352U, 0x8917C80BU }, { 0x3FFD - 0x3fff, 0xB7047551U, 0x5D0F1C61U }, { 0x3FFE - 0x3fff, 0xB11FD3B8U, 0x0B11FD3CU }, { 0x3FFD - 0x3fff, 0xBC952AFEU, 0xEA3D13E1U }, { 0x3FFE - 0x3fff, 0xAF3ADDC6U, 0x80AF3ADEU }, { 0x3FFD - 0x3fff, 0xC2168ED0U, 0xF458BA4AU }, { 0x3FFE - 0x3fff, 0xAD602B58U, 0x0AD602B6U }, { 0x3FFD - 0x3fff, 0xC788F439U, 0xB3163BF1U }, { 0x3FFE - 0x3fff, 0xAB8F69E2U, 0x8359CD11U }, { 0x3FFD - 0x3fff, 0xCCECAC08U, 0xBF04565DU }, { 0x3FFE - 0x3fff, 0xA9C84A47U, 0xA07F5638U }, { 0x3FFD - 0x3fff, 0xD2420487U, 0x2DD85160U }, { 0x3FFE - 0x3fff, 0xA80A80A8U, 0x0A80A80BU }, { 0x3FFD - 0x3fff, 0xD7894992U, 0x3BC3588AU }, { 0x3FFE - 0x3fff, 0xA655C439U, 0x2D7B73A8U }, { 0x3FFD - 0x3fff, 0xDCC2C4B4U, 0x9887DACCU }, { 0x3FFE - 0x3fff, 0xA4A9CF1DU, 0x96833751U }, { 0x3FFD - 0x3fff, 0xE1EEBD3EU, 0x6D6A6B9EU }, { 0x3FFE - 0x3fff, 0xA3065E3FU, 0xAE7CD0E0U }, { 0x3FFD - 0x3fff, 0xE70D785CU, 0x2F9F5BDCU }, { 0x3FFE - 0x3fff, 0xA16B312EU, 0xA8FC377DU }, { 0x3FFD - 0x3fff, 0xEC1F392CU, 0x5179F283U }, { 0x3FFE - 0x3fff, 0x9FD809FDU, 0x809FD80AU }, { 0x3FFD - 0x3fff, 0xF12440D3U, 0xE36130E6U }, { 0x3FFE - 0x3fff, 0x9E4CAD23U, 0xDD5F3A20U }, { 0x3FFD - 0x3fff, 0xF61CCE92U, 0x346600BBU }, { 0x3FFE - 0x3fff, 0x9CC8E160U, 0xC3FB19B9U }, { 0x3FFD - 0x3fff, 0xFB091FD3U, 0x8145630AU }, { 0x3FFE - 0x3fff, 0x9B4C6F9EU, 0xF03A3CAAU }, { 0x3FFD - 0x3fff, 0xFFE97042U, 0xBFA4C2ADU }, { 0x3FFE - 0x3fff, 0x99D722DAU, 0xBDE58F06U }, { 0x3FFE - 0x3fff, 0x825EFCEDU, 0x49369330U }, { 0x3FFE - 0x3fff, 0x9868C809U, 0x868C8098U }, { 0x3FFE - 0x3fff, 0x84C37A7AU, 0xB9A905C9U }, { 0x3FFE - 0x3fff, 0x97012E02U, 0x5C04B809U }, { 0x3FFE - 0x3fff, 0x87224C2EU, 0x8E645FB7U }, { 0x3FFE - 0x3fff, 0x95A02568U, 0x095A0257U }, { 0x3FFE - 0x3fff, 0x897B8CACU, 0x9F7DE298U }, { 0x3FFE - 0x3fff, 0x94458094U, 0x45809446U }, { 0x3FFE - 0x3fff, 0x8BCF55DEU, 0xC4CD05FEU }, { 0x3FFE - 0x3fff, 0x92F11384U, 0x0497889CU }, { 0x3FFE - 0x3fff, 0x8E1DC0FBU, 0x89E125E5U }, { 0x3FFE - 0x3fff, 0x91A2B3C4U, 0xD5E6F809U }, { 0x3FFE - 0x3fff, 0x9066E68CU, 0x955B6C9BU }, { 0x3FFE - 0x3fff, 0x905A3863U, 0x3E06C43BU }, { 0x3FFE - 0x3fff, 0x92AADE74U, 0xC7BE59E0U }, { 0x3FFE - 0x3fff, 0x8F1779D9U, 0xFDC3A219U }, { 0x3FFE - 0x3fff, 0x94E9BFF6U, 0x15845643U }, { 0x3FFE - 0x3fff, 0x8DDA5202U, 0x37694809U }, { 0x3FFE - 0x3fff, 0x9723A1B7U, 0x20134203U }, { 0x3FFE - 0x3fff, 0x8CA29C04U, 0x6514E023U }, { 0x3FFE - 0x3fff, 0x995899C8U, 0x90EB8990U }, { 0x3FFE - 0x3fff, 0x8B70344AU, 0x139BC75AU }, { 0x3FFE - 0x3fff, 0x9B88BDAAU, 0x3A3DAE2FU }, { 0x3FFE - 0x3fff, 0x8A42F870U, 0x5669DB46U }, { 0x3FFE - 0x3fff, 0x9DB4224FU, 0xFFE1157CU }, { 0x3FFE - 0x3fff, 0x891AC73AU, 0xE9819B50U }, { 0x3FFE - 0x3fff, 0x9FDADC26U, 0x8B7A12DAU }, { 0x3FFE - 0x3fff, 0x87F78087U, 0xF78087F8U }, { 0x3FFE - 0x3fff, 0xA1FCFF17U, 0xCE733BD4U }, { 0x3FFE - 0x3fff, 0x86D90544U, 0x7A34ACC6U }, { 0x3FFE - 0x3fff, 0xA41A9E8FU, 0x5446FB9FU }, { 0x3FFE - 0x3fff, 0x85BF3761U, 0x2CEE3C9BU }, { 0x3FFE - 0x3fff, 0xA633CD7EU, 0x6771CD8BU }, { 0x3FFE - 0x3fff, 0x84A9F9C8U, 0x084A9F9DU }, { 0x3FFE - 0x3fff, 0xA8489E60U, 0x0B435A5EU }, { 0x3FFE - 0x3fff, 0x83993052U, 0x3FBE3368U }, { 0x3FFE - 0x3fff, 0xAA59233CU, 0xCCA4BD49U }, { 0x3FFE - 0x3fff, 0x828CBFBEU, 0xB9A020A3U }, { 0x3FFE - 0x3fff, 0xAC656DAEU, 0x6BCC4985U }, { 0x3FFE - 0x3fff, 0x81848DA8U, 0xFAF0D277U }, { 0x3FFE - 0x3fff, 0xAE6D8EE3U, 0x60BB2468U }, { 0x3FFE - 0x3fff, 0x80808080U, 0x80808081U }, { 0x3FFE - 0x3fff, 0xB07197A2U, 0x3C46C654U }, }; static struct fpn *__fpu_logn(struct fpemu *fe); /* * natural log - algorithm taken from Motorola FPSP, * except this doesn't bother to check for invalid input. */ static struct fpn * __fpu_logn(fe) struct fpemu *fe; { static struct fpn X, F, U, V, W, KLOG2; struct fpn *d; int i, k; CPYFPN(&X, &fe->fe_f2); /* see if |X-1| < 1/16 approx. */ if ((-1 == X.fp_exp && (0xf07d0000U >> (31 - FP_LG)) <= X.fp_mant[0]) || (0 == X.fp_exp && X.fp_mant[0] <= (0x88410000U >> (31 - FP_LG)))) { /* log near 1 */ if (fpu_debug_level & DL_ARITH) printf("__fpu_logn: log near 1\n"); fpu_const(&fe->fe_f1, 0x32); /* X+1 */ d = fpu_add(fe); CPYFPN(&V, d); CPYFPN(&fe->fe_f1, &X); fpu_const(&fe->fe_f2, 0x32); /* 1.0 */ fe->fe_f2.fp_sign = 1; /* -1.0 */ /* X-1 */ d = fpu_add(fe); CPYFPN(&fe->fe_f1, d); /* 2(X-1) */ fe->fe_f1.fp_exp++; /* *= 2 */ CPYFPN(&fe->fe_f2, &V); /* U=2(X-1)/(X+1) */ d = fpu_div(fe); CPYFPN(&U, d); CPYFPN(&fe->fe_f1, d); CPYFPN(&fe->fe_f2, d); /* V=U*U */ d = fpu_mul(fe); CPYFPN(&V, d); CPYFPN(&fe->fe_f1, d); CPYFPN(&fe->fe_f2, d); /* W=V*V */ d = fpu_mul(fe); CPYFPN(&W, d); /* calculate U+U*V*([B1+W*(B3+W*B5)]+[V*(B2+W*B4)]) */ /* B1+W*(B3+W*B5) part */ CPYFPN(&fe->fe_f1, d); fpu_explode(fe, &fe->fe_f2, FTYPE_DBL, logB5); /* W*B5 */ d = fpu_mul(fe); CPYFPN(&fe->fe_f1, d); fpu_explode(fe, &fe->fe_f2, FTYPE_DBL, logB3); /* B3+W*B5 */ d = fpu_add(fe); CPYFPN(&fe->fe_f1, d); CPYFPN(&fe->fe_f2, &W); /* W*(B3+W*B5) */ d = fpu_mul(fe); CPYFPN(&fe->fe_f1, d); fpu_explode(fe, &fe->fe_f2, FTYPE_DBL, logB1); /* B1+W*(B3+W*B5) */ d = fpu_add(fe); CPYFPN(&X, d); /* [V*(B2+W*B4)] part */ CPYFPN(&fe->fe_f1, &W); fpu_explode(fe, &fe->fe_f2, FTYPE_DBL, logB4); /* W*B4 */ d = fpu_mul(fe); CPYFPN(&fe->fe_f1, d); fpu_explode(fe, &fe->fe_f2, FTYPE_DBL, logB2); /* B2+W*B4 */ d = fpu_add(fe); CPYFPN(&fe->fe_f1, d); CPYFPN(&fe->fe_f2, &V); /* V*(B2+W*B4) */ d = fpu_mul(fe); CPYFPN(&fe->fe_f1, d); CPYFPN(&fe->fe_f2, &X); /* B1+W*(B3+W*B5)+V*(B2+W*B4) */ d = fpu_add(fe); CPYFPN(&fe->fe_f1, d); CPYFPN(&fe->fe_f2, &V); /* V*(B1+W*(B3+W*B5)+V*(B2+W*B4)) */ d = fpu_mul(fe); CPYFPN(&fe->fe_f1, d); CPYFPN(&fe->fe_f2, &U); /* U*V*(B1+W*(B3+W*B5)+V*(B2+W*B4)) */ d = fpu_mul(fe); CPYFPN(&fe->fe_f1, d); CPYFPN(&fe->fe_f2, &U); /* U+U*V*(B1+W*(B3+W*B5)+V*(B2+W*B4)) */ d = fpu_add(fe); } else /* the usual case */ { if (fpu_debug_level & DL_ARITH) printf("__fpu_logn: the usual case. X=(%d,%08x,%08x...)\n", X.fp_exp, X.fp_mant[0], X.fp_mant[1]); k = X.fp_exp; /* X <- Y */ X.fp_exp = fe->fe_f2.fp_exp = 0; /* get the most significant 7 bits of X */ F.fp_class = FPC_NUM; F.fp_sign = 0; F.fp_exp = X.fp_exp; F.fp_mant[0] = X.fp_mant[0] & (0xfe000000U >> (31 - FP_LG)); F.fp_mant[0] |= (0x01000000U >> (31 - FP_LG)); F.fp_mant[1] = F.fp_mant[2] = F.fp_mant[3] = 0; F.fp_sticky = 0; if (fpu_debug_level & DL_ARITH) { printf("__fpu_logn: X=Y*2^k=(%d,%08x,%08x...)*2^%d\n", fe->fe_f2.fp_exp, fe->fe_f2.fp_mant[0], fe->fe_f2.fp_mant[1], k); printf("__fpu_logn: F=(%d,%08x,%08x...)\n", F.fp_exp, F.fp_mant[0], F.fp_mant[1]); } /* index to the table */ i = (F.fp_mant[0] >> (FP_LG - 7)) & 0x7e; if (fpu_debug_level & DL_ARITH) printf("__fpu_logn: index to logtbl i=%d(%x)\n", i, i); CPYFPN(&fe->fe_f1, &F); /* -F */ fe->fe_f1.fp_sign = 1; /* Y-F */ d = fpu_add(fe); CPYFPN(&fe->fe_f1, d); /* fe_f2 = 1/F */ fe->fe_f2.fp_class = FPC_NUM; fe->fe_f2.fp_sign = fe->fe_f2.fp_sticky = fe->fe_f2.fp_mant[3] = 0; fe->fe_f2.fp_exp = logtbl[i].sp_exp; fe->fe_f2.fp_mant[0] = (logtbl[i].sp_m0 >> (31 - FP_LG)); fe->fe_f2.fp_mant[1] = (logtbl[i].sp_m0 << (FP_LG + 1)) | (logtbl[i].sp_m1 >> (31 - FP_LG)); fe->fe_f2.fp_mant[2] = (u_int)(logtbl[i].sp_m1 << (FP_LG + 1)); if (fpu_debug_level & DL_ARITH) printf("__fpu_logn: 1/F=(%d,%08x,%08x...)\n", fe->fe_f2.fp_exp, fe->fe_f2.fp_mant[0], fe->fe_f2.fp_mant[1]); /* U = (Y-F) * (1/F) */ d = fpu_mul(fe); CPYFPN(&U, d); /* KLOG2 = K * ln(2) */ /* fe_f1 == (fpn)k */ fpu_explode(fe, &fe->fe_f1, FTYPE_LNG, &k); (void)fpu_const(&fe->fe_f2, 0x30 /* ln(2) */); if (fpu_debug_level & DL_ARITH) { printf("__fpu_logn: fp(k)=(%d,%08x,%08x...)\n", fe->fe_f1.fp_exp, fe->fe_f1.fp_mant[0], fe->fe_f1.fp_mant[1]); printf("__fpu_logn: ln(2)=(%d,%08x,%08x...)\n", fe->fe_f2.fp_exp, fe->fe_f2.fp_mant[0], fe->fe_f2.fp_mant[1]); } /* K * LOGOF2 */ d = fpu_mul(fe); CPYFPN(&KLOG2, d); /* V=U*U */ CPYFPN(&fe->fe_f1, &U); CPYFPN(&fe->fe_f2, &U); d = fpu_mul(fe); CPYFPN(&V, d); /* * approximation of LOG(1+U) by * (U+V*(A1+V*(A3+V*A5)))+(U*V*(A2+V*(A4+V*A6))) */ /* (U+V*(A1+V*(A3+V*A5))) part */ CPYFPN(&fe->fe_f1, d); fpu_explode(fe, &fe->fe_f2, FTYPE_DBL, logA5); /* V*A5 */ d = fpu_mul(fe); CPYFPN(&fe->fe_f1, d); fpu_explode(fe, &fe->fe_f2, FTYPE_DBL, logA3); /* A3+V*A5 */ d = fpu_add(fe); CPYFPN(&fe->fe_f1, d); CPYFPN(&fe->fe_f2, &V); /* V*(A3+V*A5) */ d = fpu_mul(fe); CPYFPN(&fe->fe_f1, d); fpu_explode(fe, &fe->fe_f2, FTYPE_DBL, logA1); /* A1+V*(A3+V*A5) */ d = fpu_add(fe); CPYFPN(&fe->fe_f1, d); CPYFPN(&fe->fe_f2, &V); /* V*(A1+V*(A3+V*A5)) */ d = fpu_mul(fe); CPYFPN(&fe->fe_f1, d); CPYFPN(&fe->fe_f2, &U); /* U+V*(A1+V*(A3+V*A5)) */ d = fpu_add(fe); CPYFPN(&X, d); /* (U*V*(A2+V*(A4+V*A6))) part */ CPYFPN(&fe->fe_f1, &V); fpu_explode(fe, &fe->fe_f2, FTYPE_DBL, logA6); /* V*A6 */ d = fpu_mul(fe); CPYFPN(&fe->fe_f1, d); fpu_explode(fe, &fe->fe_f2, FTYPE_DBL, logA4); /* A4+V*A6 */ d = fpu_add(fe); CPYFPN(&fe->fe_f1, d); CPYFPN(&fe->fe_f2, &V); /* V*(A4+V*A6) */ d = fpu_mul(fe); CPYFPN(&fe->fe_f1, d); fpu_explode(fe, &fe->fe_f2, FTYPE_DBL, logA2); /* A2+V*(A4+V*A6) */ d = fpu_add(fe); CPYFPN(&fe->fe_f1, d); CPYFPN(&fe->fe_f2, &V); /* V*(A2+V*(A4+V*A6)) */ d = fpu_mul(fe); CPYFPN(&fe->fe_f1, d); CPYFPN(&fe->fe_f2, &U); /* U*V*(A2+V*(A4+V*A6)) */ d = fpu_mul(fe); CPYFPN(&fe->fe_f1, d); i++; /* fe_f2 = logtbl[i+1] (== LOG(F)) */ fe->fe_f2.fp_class = FPC_NUM; fe->fe_f2.fp_sign = fe->fe_f2.fp_sticky = fe->fe_f2.fp_mant[3] = 0; fe->fe_f2.fp_exp = logtbl[i].sp_exp; fe->fe_f2.fp_mant[0] = (logtbl[i].sp_m0 >> (31 - FP_LG)); fe->fe_f2.fp_mant[1] = (logtbl[i].sp_m0 << (FP_LG + 1)) | (logtbl[i].sp_m1 >> (31 - FP_LG)); fe->fe_f2.fp_mant[2] = (logtbl[i].sp_m1 << (FP_LG + 1)); if (fpu_debug_level & DL_ARITH) printf("__fpu_logn: ln(F)=(%d,%08x,%08x,...)\n", fe->fe_f2.fp_exp, fe->fe_f2.fp_mant[0], fe->fe_f2.fp_mant[1]); /* LOG(F)+U*V*(A2+V*(A4+V*A6)) */ d = fpu_add(fe); CPYFPN(&fe->fe_f1, d); CPYFPN(&fe->fe_f2, &X); /* LOG(F)+U+V*(A1+V*(A3+V*A5))+U*V*(A2+V*(A4+V*A6)) */ d = fpu_add(fe); if (fpu_debug_level & DL_ARITH) printf("__fpu_logn: ln(Y)=(%c,%d,%08x,%08x,%08x,%08x)\n", d->fp_sign ? '-' : '+', d->fp_exp, d->fp_mant[0], d->fp_mant[1], d->fp_mant[2], d->fp_mant[3]); CPYFPN(&fe->fe_f1, d); CPYFPN(&fe->fe_f2, &KLOG2); /* K*LOGOF2+LOG(F)+U+V*(A1+V*(A3+V*A5))+U*V*(A2+V*(A4+V*A6)) */ d = fpu_add(fe); } return d; } struct fpn * fpu_log10(fe) struct fpemu *fe; { struct fpn *fp = &fe->fe_f2; u_int fpsr; fpsr = fe->fe_fpsr & ~FPSR_EXCP; /* clear all exceptions */ if (fp->fp_class >= FPC_NUM) { if (fp->fp_sign) { /* negative number or Inf */ fp = fpu_newnan(fe); fpsr |= FPSR_OPERR; } else if (fp->fp_class == FPC_NUM) { /* the real work here */ fp = __fpu_logn(fe); if (fp != &fe->fe_f1) CPYFPN(&fe->fe_f1, fp); (void)fpu_const(&fe->fe_f2, 0x31 /* ln(10) */); fp = fpu_div(fe); } /* else if fp == +Inf, return +Inf */ } else if (fp->fp_class == FPC_ZERO) { /* return -Inf */ fp->fp_class = FPC_INF; fp->fp_sign = 1; fpsr |= FPSR_DZ; } else if (fp->fp_class == FPC_SNAN) { fpsr |= FPSR_SNAN; fp = fpu_newnan(fe); } else { fp = fpu_newnan(fe); } fe->fe_fpsr = fpsr; return fp; } struct fpn * fpu_log2(fe) struct fpemu *fe; { struct fpn *fp = &fe->fe_f2; u_int fpsr; fpsr = fe->fe_fpsr & ~FPSR_EXCP; /* clear all exceptions */ if (fp->fp_class >= FPC_NUM) { if (fp->fp_sign) { /* negative number or Inf */ fp = fpu_newnan(fe); fpsr |= FPSR_OPERR; } else if (fp->fp_class == FPC_NUM) { /* the real work here */ if (fp->fp_mant[0] == FP_1 && fp->fp_mant[1] == 0 && fp->fp_mant[2] == 0 && fp->fp_mant[3] == 0) { /* fp == 2.0 ^ exp <--> log2(fp) == exp */ fpu_explode(fe, &fe->fe_f3, FTYPE_LNG, &fp->fp_exp); fp = &fe->fe_f3; } else { fp = __fpu_logn(fe); if (fp != &fe->fe_f1) CPYFPN(&fe->fe_f1, fp); (void)fpu_const(&fe->fe_f2, 0x30 /* ln(2) */); fp = fpu_div(fe); } } /* else if fp == +Inf, return +Inf */ } else if (fp->fp_class == FPC_ZERO) { /* return -Inf */ fp->fp_class = FPC_INF; fp->fp_sign = 1; fpsr |= FPSR_DZ; } else if (fp->fp_class == FPC_SNAN) { fpsr |= FPSR_SNAN; fp = fpu_newnan(fe); } else { fp = fpu_newnan(fe); } fe->fe_fpsr = fpsr; return fp; } struct fpn * fpu_logn(fe) struct fpemu *fe; { struct fpn *fp = &fe->fe_f2; u_int fpsr; fpsr = fe->fe_fpsr & ~FPSR_EXCP; /* clear all exceptions */ if (fp->fp_class >= FPC_NUM) { if (fp->fp_sign) { /* negative number or Inf */ fp = fpu_newnan(fe); fpsr |= FPSR_OPERR; } else if (fp->fp_class == FPC_NUM) { /* the real work here */ fp = __fpu_logn(fe); } /* else if fp == +Inf, return +Inf */ } else if (fp->fp_class == FPC_ZERO) { /* return -Inf */ fp->fp_class = FPC_INF; fp->fp_sign = 1; fpsr |= FPSR_DZ; } else if (fp->fp_class == FPC_SNAN) { fpsr |= FPSR_SNAN; fp = fpu_newnan(fe); } else { fp = fpu_newnan(fe); } fe->fe_fpsr = fpsr; return fp; } struct fpn * fpu_lognp1(fe) struct fpemu *fe; { struct fpn *fp; /* build a 1.0 */ fp = fpu_const(&fe->fe_f1, 0x32); /* get 1.0 */ /* fp = 1.0 + f2 */ fp = fpu_add(fe); /* copy the result to the src opr */ if (&fe->fe_f2 != fp) CPYFPN(&fe->fe_f2, fp); return fpu_logn(fe); }