ldexp.S revision 1.4
1 1.4 jonathan /* $NetBSD: ldexp.S,v 1.4 1996/09/16 18:10:58 jonathan Exp $ */ 2 1.4 jonathan 3 1.1 glass /*- 4 1.1 glass * Copyright (c) 1991, 1993 5 1.1 glass * The Regents of the University of California. All rights reserved. 6 1.1 glass * 7 1.1 glass * This code is derived from software contributed to Berkeley by 8 1.1 glass * Ralph Campbell. 9 1.1 glass * 10 1.1 glass * Redistribution and use in source and binary forms, with or without 11 1.1 glass * modification, are permitted provided that the following conditions 12 1.1 glass * are met: 13 1.1 glass * 1. Redistributions of source code must retain the above copyright 14 1.1 glass * notice, this list of conditions and the following disclaimer. 15 1.1 glass * 2. Redistributions in binary form must reproduce the above copyright 16 1.1 glass * notice, this list of conditions and the following disclaimer in the 17 1.1 glass * documentation and/or other materials provided with the distribution. 18 1.1 glass * 3. All advertising materials mentioning features or use of this software 19 1.1 glass * must display the following acknowledgement: 20 1.1 glass * This product includes software developed by the University of 21 1.1 glass * California, Berkeley and its contributors. 22 1.1 glass * 4. Neither the name of the University nor the names of its contributors 23 1.1 glass * may be used to endorse or promote products derived from this software 24 1.1 glass * without specific prior written permission. 25 1.1 glass * 26 1.1 glass * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 27 1.1 glass * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 28 1.1 glass * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 29 1.1 glass * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 30 1.1 glass * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 31 1.1 glass * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 32 1.1 glass * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 33 1.1 glass * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 34 1.1 glass * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 35 1.1 glass * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 36 1.1 glass * SUCH DAMAGE. 37 1.1 glass */ 38 1.1 glass 39 1.1 glass #include <machine/machAsmDefs.h> 40 1.1 glass 41 1.1 glass #if defined(LIBC_SCCS) && !defined(lint) 42 1.1 glass ASMSTR("from: @(#)ldexp.s 8.1 (Berkeley) 6/4/93") 43 1.4 jonathan ASMSTR("$NetBSD: ldexp.S,v 1.4 1996/09/16 18:10:58 jonathan Exp $") 44 1.1 glass #endif /* LIBC_SCCS and not lint */ 45 1.1 glass 46 1.1 glass #define DEXP_INF 0x7ff 47 1.1 glass #define DEXP_BIAS 1023 48 1.1 glass #define DEXP_MIN -1022 49 1.1 glass #define DEXP_MAX 1023 50 1.1 glass #define DFRAC_BITS 52 51 1.1 glass #define DIMPL_ONE 0x00100000 52 1.1 glass #define DLEAD_ZEROS 31 - 20 53 1.1 glass #define STICKYBIT 1 54 1.1 glass #define GUARDBIT 0x80000000 55 1.1 glass #define DSIGNAL_NAN 0x00040000 56 1.1 glass #define DQUIET_NAN0 0x0007ffff 57 1.1 glass #define DQUIET_NAN1 0xffffffff 58 1.1 glass 59 1.1 glass /* 60 1.1 glass * double ldexp(x, N) 61 1.1 glass * double x; int N; 62 1.1 glass * 63 1.1 glass * Return x * (2**N), for integer values N. 64 1.1 glass */ 65 1.3 mycroft LEAF(ldexp) 66 1.1 glass mfc1 v1, $f13 # get MSW of x 67 1.1 glass mfc1 t3, $f12 # get LSW of x 68 1.1 glass sll t1, v1, 1 # get x exponent 69 1.1 glass srl t1, t1, 32 - 11 70 1.1 glass beq t1, DEXP_INF, 9f # is it a NAN or infinity? 71 1.1 glass beq t1, zero, 1f # zero or denormalized number? 72 1.1 glass addu t1, t1, a2 # scale exponent 73 1.1 glass sll v0, a2, 20 # position N for addition 74 1.1 glass bge t1, DEXP_INF, 8f # overflow? 75 1.1 glass addu v0, v0, v1 # multiply by (2**N) 76 1.1 glass ble t1, zero, 4f # underflow? 77 1.1 glass mtc1 v0, $f1 # save MSW of result 78 1.1 glass mtc1 t3, $f0 # save LSW of result 79 1.1 glass j ra 80 1.1 glass 1: 81 1.1 glass sll t2, v1, 32 - 20 # get x fraction 82 1.1 glass srl t2, t2, 32 - 20 83 1.1 glass srl t0, v1, 31 # get x sign 84 1.1 glass bne t2, zero, 1f 85 1.1 glass beq t3, zero, 9f # result is zero 86 1.1 glass 1: 87 1.1 glass /* 88 1.1 glass * Find out how many leading zero bits are in t2,t3 and put in t9. 89 1.1 glass */ 90 1.1 glass move v0, t2 91 1.1 glass move t9, zero 92 1.1 glass bne t2, zero, 1f 93 1.1 glass move v0, t3 94 1.1 glass addu t9, 32 95 1.1 glass 1: 96 1.1 glass srl t4, v0, 16 97 1.1 glass bne t4, zero, 1f 98 1.1 glass addu t9, 16 99 1.1 glass sll v0, 16 100 1.1 glass 1: 101 1.1 glass srl t4, v0, 24 102 1.1 glass bne t4, zero, 1f 103 1.1 glass addu t9, 8 104 1.1 glass sll v0, 8 105 1.1 glass 1: 106 1.1 glass srl t4, v0, 28 107 1.1 glass bne t4, zero, 1f 108 1.1 glass addu t9, 4 109 1.1 glass sll v0, 4 110 1.1 glass 1: 111 1.1 glass srl t4, v0, 30 112 1.1 glass bne t4, zero, 1f 113 1.1 glass addu t9, 2 114 1.1 glass sll v0, 2 115 1.1 glass 1: 116 1.1 glass srl t4, v0, 31 117 1.1 glass bne t4, zero, 1f 118 1.1 glass addu t9, 1 119 1.1 glass /* 120 1.1 glass * Now shift t2,t3 the correct number of bits. 121 1.1 glass */ 122 1.1 glass 1: 123 1.1 glass subu t9, t9, DLEAD_ZEROS # dont count normal leading zeros 124 1.1 glass li t1, DEXP_MIN + DEXP_BIAS 125 1.1 glass subu t1, t1, t9 # adjust exponent 126 1.1 glass addu t1, t1, a2 # scale exponent 127 1.1 glass li v0, 32 128 1.1 glass blt t9, v0, 1f 129 1.1 glass subu t9, t9, v0 # shift fraction left >= 32 bits 130 1.1 glass sll t2, t3, t9 131 1.1 glass move t3, zero 132 1.1 glass b 2f 133 1.1 glass 1: 134 1.1 glass subu v0, v0, t9 # shift fraction left < 32 bits 135 1.1 glass sll t2, t2, t9 136 1.1 glass srl t4, t3, v0 137 1.1 glass or t2, t2, t4 138 1.1 glass sll t3, t3, t9 139 1.1 glass 2: 140 1.1 glass bge t1, DEXP_INF, 8f # overflow? 141 1.1 glass ble t1, zero, 4f # underflow? 142 1.1 glass sll t2, t2, 32 - 20 # clear implied one bit 143 1.1 glass srl t2, t2, 32 - 20 144 1.1 glass 3: 145 1.1 glass sll t1, t1, 31 - 11 # reposition exponent 146 1.1 glass sll t0, t0, 31 # reposition sign 147 1.1 glass or t0, t0, t1 # put result back together 148 1.1 glass or t0, t0, t2 149 1.1 glass mtc1 t0, $f1 # save MSW of result 150 1.1 glass mtc1 t3, $f0 # save LSW of result 151 1.1 glass j ra 152 1.1 glass 4: 153 1.1 glass li v0, 0x80000000 154 1.1 glass ble t1, -52, 7f # is result too small for denorm? 155 1.1 glass sll t2, v1, 31 - 20 # clear exponent, extract fraction 156 1.1 glass or t2, t2, v0 # set implied one bit 157 1.1 glass blt t1, -30, 2f # will all bits in t3 be shifted out? 158 1.1 glass srl t2, t2, 31 - 20 # shift fraction back to normal position 159 1.1 glass subu t1, t1, 1 160 1.1 glass sll t4, t2, t1 # shift right t2,t3 based on exponent 161 1.1 glass srl t8, t3, t1 # save bits shifted out 162 1.1 glass negu t1 163 1.1 glass srl t3, t3, t1 164 1.1 glass or t3, t3, t4 165 1.1 glass srl t2, t2, t1 166 1.1 glass bge t8, zero, 1f # does result need to be rounded? 167 1.1 glass addu t3, t3, 1 # round result 168 1.1 glass sltu t4, t3, 1 169 1.1 glass sll t8, t8, 1 170 1.1 glass addu t2, t2, t4 171 1.1 glass bne t8, zero, 1f # round result to nearest 172 1.1 glass and t3, t3, ~1 173 1.1 glass 1: 174 1.1 glass mtc1 t3, $f0 # save denormalized result (LSW) 175 1.1 glass mtc1 t2, $f1 # save denormalized result (MSW) 176 1.1 glass bge v1, zero, 1f # should result be negative? 177 1.1 glass neg.d $f0, $f0 # negate result 178 1.1 glass 1: 179 1.1 glass j ra 180 1.1 glass 2: 181 1.1 glass mtc1 zero, $f1 # exponent and upper fraction 182 1.1 glass addu t1, t1, 20 # compute amount to shift right by 183 1.1 glass sll t8, t2, t1 # save bits shifted out 184 1.1 glass negu t1 185 1.1 glass srl t3, t2, t1 186 1.1 glass bge t8, zero, 1f # does result need to be rounded? 187 1.1 glass addu t3, t3, 1 # round result 188 1.1 glass sltu t4, t3, 1 189 1.1 glass sll t8, t8, 1 190 1.1 glass mtc1 t4, $f1 # exponent and upper fraction 191 1.1 glass bne t8, zero, 1f # round result to nearest 192 1.1 glass and t3, t3, ~1 193 1.1 glass 1: 194 1.1 glass mtc1 t3, $f0 195 1.1 glass bge v1, zero, 1f # is result negative? 196 1.1 glass neg.d $f0, $f0 # negate result 197 1.1 glass 1: 198 1.1 glass j ra 199 1.1 glass 7: 200 1.1 glass mtc1 zero, $f0 # result is zero 201 1.1 glass mtc1 zero, $f1 202 1.1 glass beq t0, zero, 1f # is result positive? 203 1.1 glass neg.d $f0, $f0 # negate result 204 1.1 glass 1: 205 1.1 glass j ra 206 1.1 glass 8: 207 1.1 glass li t1, 0x7ff00000 # result is infinity (MSW) 208 1.1 glass mtc1 t1, $f1 209 1.1 glass mtc1 zero, $f0 # result is infinity (LSW) 210 1.1 glass bge v1, zero, 1f # should result be negative infinity? 211 1.1 glass neg.d $f0, $f0 # result is negative infinity 212 1.1 glass 1: 213 1.1 glass add.d $f0, $f0 # cause overflow faults if enabled 214 1.1 glass j ra 215 1.1 glass 9: 216 1.1 glass mov.d $f0, $f12 # yes, result is just x 217 1.1 glass j ra 218 1.3 mycroft END(ldexp) 219
Indexes created Fri Oct 03 02:09:57 GMT 2025