Annotation of sys/arch/m68k/fpsp/sgetem.sa, Revision 1.1.1.1
1.1 nbrk 1: * $OpenBSD: sgetem.sa,v 1.2 1996/05/29 21:05:37 niklas Exp $
2: * $NetBSD: sgetem.sa,v 1.2 1994/10/26 07:49:45 cgd Exp $
3:
4: * MOTOROLA MICROPROCESSOR & MEMORY TECHNOLOGY GROUP
5: * M68000 Hi-Performance Microprocessor Division
6: * M68040 Software Package
7: *
8: * M68040 Software Package Copyright (c) 1993, 1994 Motorola Inc.
9: * All rights reserved.
10: *
11: * THE SOFTWARE is provided on an "AS IS" basis and without warranty.
12: * To the maximum extent permitted by applicable law,
13: * MOTOROLA DISCLAIMS ALL WARRANTIES WHETHER EXPRESS OR IMPLIED,
14: * INCLUDING IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A
15: * PARTICULAR PURPOSE and any warranty against infringement with
16: * regard to the SOFTWARE (INCLUDING ANY MODIFIED VERSIONS THEREOF)
17: * and any accompanying written materials.
18: *
19: * To the maximum extent permitted by applicable law,
20: * IN NO EVENT SHALL MOTOROLA BE LIABLE FOR ANY DAMAGES WHATSOEVER
21: * (INCLUDING WITHOUT LIMITATION, DAMAGES FOR LOSS OF BUSINESS
22: * PROFITS, BUSINESS INTERRUPTION, LOSS OF BUSINESS INFORMATION, OR
23: * OTHER PECUNIARY LOSS) ARISING OF THE USE OR INABILITY TO USE THE
24: * SOFTWARE. Motorola assumes no responsibility for the maintenance
25: * and support of the SOFTWARE.
26: *
27: * You are hereby granted a copyright license to use, modify, and
28: * distribute the SOFTWARE so long as this entire notice is retained
29: * without alteration in any modified and/or redistributed versions,
30: * and that such modified versions are clearly identified as such.
31: * No licenses are granted by implication, estoppel or otherwise
32: * under any patents or trademarks of Motorola, Inc.
33:
34: *
35: * sgetem.sa 3.1 12/10/90
36: *
37: * The entry point sGETEXP returns the exponent portion
38: * of the input argument. The exponent bias is removed
39: * and the exponent value is returned as an extended
40: * precision number in fp0. sGETEXPD handles denormalized
41: * numbers.
42: *
43: * The entry point sGETMAN extracts the mantissa of the
44: * input argument. The mantissa is converted to an
45: * extended precision number and returned in fp0. The
46: * range of the result is [1.0 - 2.0).
47: *
48: *
49: * Input: Double-extended number X in the ETEMP space in
50: * the floating-point save stack.
51: *
52: * Output: The functions return exp(X) or man(X) in fp0.
53: *
54: * Modified: fp0.
55: *
56:
57: SGETEM IDNT 2,1 Motorola 040 Floating Point Software Package
58:
59: section 8
60:
61: include fpsp.h
62:
63: xref nrm_set
64:
65: *
66: * This entry point is used by the unimplemented instruction exception
67: * handler. It points a0 to the input operand.
68: *
69: *
70: *
71: * SGETEXP
72: *
73:
74: xdef sgetexp
75: sgetexp:
76: move.w LOCAL_EX(a0),d0 ;get the exponent
77: bclr.l #15,d0 ;clear the sign bit
78: sub.w #$3fff,d0 ;subtract off the bias
79: fmove.w d0,fp0 ;move the exp to fp0
80: rts
81:
82: xdef sgetexpd
83: sgetexpd:
84: bclr.b #sign_bit,LOCAL_EX(a0)
85: bsr nrm_set ;normalize (exp will go negative)
86: move.w LOCAL_EX(a0),d0 ;load resulting exponent into d0
87: sub.w #$3fff,d0 ;subtract off the bias
88: fmove.w d0,fp0 ;move the exp to fp0
89: rts
90: *
91: *
92: * This entry point is used by the unimplemented instruction exception
93: * handler. It points a0 to the input operand.
94: *
95: *
96: *
97: * SGETMAN
98: *
99: *
100: * For normalized numbers, leave the mantissa alone, simply load
101: * with an exponent of +/- $3fff.
102: *
103: xdef sgetman
104: sgetman:
105: move.l USER_FPCR(a6),d0
106: andi.l #$ffffff00,d0 ;clear rounding precision and mode
107: fmove.l d0,fpcr ;this fpcr setting is used by the 882
108: move.w LOCAL_EX(a0),d0 ;get the exp (really just want sign bit)
109: or.w #$7fff,d0 ;clear old exp
110: bclr.l #14,d0 ;make it the new exp +-3fff
111: move.w d0,LOCAL_EX(a0) ;move the sign & exp back to fsave stack
112: fmove.x (a0),fp0 ;put new value back in fp0
113: rts
114:
115: *
116: * For denormalized numbers, shift the mantissa until the j-bit = 1,
117: * then load the exponent with +/1 $3fff.
118: *
119: xdef sgetmand
120: sgetmand:
121: move.l LOCAL_HI(a0),d0 ;load ms mant in d0
122: move.l LOCAL_LO(a0),d1 ;load ls mant in d1
123: bsr shft ;shift mantissa bits till msbit is set
124: move.l d0,LOCAL_HI(a0) ;put ms mant back on stack
125: move.l d1,LOCAL_LO(a0) ;put ls mant back on stack
126: bra.b sgetman
127:
128: *
129: * SHFT
130: *
131: * Shifts the mantissa bits until msbit is set.
132: * input:
133: * ms mantissa part in d0
134: * ls mantissa part in d1
135: * output:
136: * shifted bits in d0 and d1
137: shft:
138: tst.l d0 ;if any bits set in ms mant
139: bne.b upper ;then branch
140: * ;else no bits set in ms mant
141: tst.l d1 ;test if any bits set in ls mant
142: bne.b cont ;if set then continue
143: bra.b shft_end ;else return
144: cont:
145: move.l d3,-(a7) ;save d3
146: exg d0,d1 ;shift ls mant to ms mant
147: bfffo d0{0:32},d3 ;find first 1 in ls mant to d0
148: lsl.l d3,d0 ;shift first 1 to integer bit in ms mant
149: move.l (a7)+,d3 ;restore d3
150: bra.b shft_end
151: upper:
152:
153: movem.l d3/d5/d6,-(a7) ;save registers
154: bfffo d0{0:32},d3 ;find first 1 in ls mant to d0
155: lsl.l d3,d0 ;shift ms mant until j-bit is set
156: move.l d1,d6 ;save ls mant in d6
157: lsl.l d3,d1 ;shift ls mant by count
158: move.l #32,d5
159: sub.l d3,d5 ;sub 32 from shift for ls mant
160: lsr.l d5,d6 ;shift off all bits but those that will
161: * ;be shifted into ms mant
162: or.l d6,d0 ;shift the ls mant bits into the ms mant
163: movem.l (a7)+,d3/d5/d6 ;restore registers
164: shft_end:
165: rts
166:
167: end
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