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1.1 ! root 1: /* ! 2: * Copyright (c) 1986 Regents of the University of California. ! 3: * All rights reserved. ! 4: * ! 5: * This code is derived from software contributed to Berkeley by ! 6: * Computer Consoles Inc. ! 7: * ! 8: * Redistribution and use in source and binary forms are permitted ! 9: * provided that: (1) source distributions retain this entire copyright ! 10: * notice and comment, and (2) distributions including binaries display ! 11: * the following acknowledgement: ``This product includes software ! 12: * developed by the University of California, Berkeley and its contributors'' ! 13: * in the documentation or other materials provided with the distribution ! 14: * and in all advertising materials mentioning features or use of this ! 15: * software. Neither the name of the University nor the names of its ! 16: * contributors may be used to endorse or promote products derived ! 17: * from this software without specific prior written permission. ! 18: * THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR ! 19: * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED ! 20: * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. ! 21: */ ! 22: ! 23: #if defined(SYSLIBC_SCCS) && !defined(lint) ! 24: .asciz "@(#)mulf.s 1.3 (Berkeley) 6/1/90" ! 25: #endif /* SYSLIBC_SCCS and not lint */ ! 26: ! 27: #include <tahoemath/fp.h> ! 28: #include "DEFS.h" ! 29: ! 30: #define HIDDEN 23 /* here we count from 0 not from 1 as in fp.h */ ! 31: ! 32: XENTRY(mulf, R2|R3|R4|R5|R6|R7|R8|R9) ! 33: clrl r3 /* r3 - sign: 0 for positive,1 for negative. */ ! 34: movl 4(fp),r0 ! 35: jgeq 1f ! 36: movl $1,r3 ! 37: 1: movl 12(fp),r2 ! 38: jgeq 2f ! 39: bbc $0,r3,1f /* seconed operand is negative. */ ! 40: clrl r3 /* if first was negative, make result positive. */ ! 41: jmp 2f ! 42: 1: movl $1,r3 /* if first was positive, make result negative. */ ! 43: 2: andl2 $EXPMASK,r0 /* compute first 'pure'exponent. */ ! 44: jeql is_res1 ! 45: shrl $EXPSHIFT,r0,r0 ! 46: subl2 $BIASP1,r0 ! 47: andl2 $EXPMASK,r2 /* compute seconed 'pure'exponent. */ ! 48: jeql is_res2 ! 49: shrl $EXPSHIFT,r2,r2 ! 50: subl2 $BIASP1,r2 ! 51: addl2 r0,r2 /* add the exponents. */ ! 52: addl2 $(BIASP1+2),r2 ! 53: jleq underflow ! 54: cmpl r2,$258 /* normalization can make the exp. smaller. */ ! 55: jgeq overflow ! 56: /* ! 57: * We have the sign in r3,the exponent in r2,now is the time to ! 58: * perform the multiplication... ! 59: */ ! 60: /* fetch first fraction: (r0) */ ! 61: andl3 $(0!(EXPMASK | SIGNBIT)),4(fp),r0 ! 62: orl2 $(0!CLEARHID),r0 ! 63: shll $7,r0,r0 /* leave the sign bit cleared. */ ! 64: ! 65: /* fetch seconed fraction: (r4) */ ! 66: andl3 $(0!(EXPMASK | SIGNBIT)),12(fp),r4 ! 67: orl2 $(0!CLEARHID),r4 ! 68: shll $7,r4,r4 /* leave the sign bit cleared. */ ! 69: ! 70: ! 71: emul r4,r0,$0,r0 ! 72: movl r0,r4 /* to see how much we realy need to shift. */ ! 73: movl $6,r5 /* r5 - shift counter. */ ! 74: shrl $7,r4,r4 /* dummy shift. */ ! 75: 1: bbs $HIDDEN,r4,realshift ! 76: shll $1,r4,r4 ! 77: decl r2 /* update exponent. */ ! 78: jeql underflow ! 79: decl r5 /* update shift counter. */ ! 80: jmp 1b ! 81: realshift: ! 82: shrl r5,r0,r0 ! 83: bbc $0,r1,shiftmore ! 84: incl r1 /* rounding. */ ! 85: shiftmore: ! 86: shrl $1,r0,r0 ! 87: comb: ! 88: andl2 $CLEARHID,r0 ! 89: shll $EXPSHIFT,r2,r4 ! 90: orl2 r4,r0 ! 91: cmpl r2,$256 ! 92: jlss 1f ! 93: callf $4,sfpover ! 94: sign: ! 95: 1: bbc $0,r3,done ! 96: orl2 $SIGNBIT,r0 ! 97: done: ret ! 98: ! 99: ! 100: ! 101: is_res1: ! 102: bbc $31,4(fp),retzero ! 103: callf $4,sfpresop ! 104: ret ! 105: is_res2: ! 106: bbc $31,12(fp),retzero ! 107: callf $4,sfpresop ! 108: ret ! 109: retzero: ! 110: clrl r0 ! 111: ret ! 112: overflow: ! 113: callf $4,sfpover ! 114: jmp sign ! 115: underflow: ! 116: callf $4,sfpunder ! 117: ret ! 118: ! 119: ! 120:
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