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1.1 root 1: #ifdef LIBC_SCCS
2: .asciz "@(#)divd.s 1.1 (Berkeley/CCI) 7/2/86"
3: #endif LIBC_SCCS
4:
5: #include <tahoemath/fp.h>
6: #include "DEFS.h"
7:
8: #define HIDDEN 23 /* here we count from 0 not from 1 as in fp.h */
9:
10: XENTRY(divd, R2|R3|R4|R5|R6|R7|R8|R9)
11: clrl r3 # r3 - sign: 0 for positive,1 for negative.
12: movl 4(fp),r0
13: jgeq 1f
14: movl $1,r3
15: 1: movl 12(fp),r2
16: jgeq 2f
17: bbc $0,r3,1f # seconed operand is negative.
18: clrl r3 # if first was negative, make result positive.
19: jmp 2f
20: 1: movl $1,r3 # if first was positive, make result negative.
21: 2: andl2 $EXPMASK,r0 # compute first 'pure'exponent.
22: jeql is_res1
23: shrl $EXPSHIFT,r0,r0
24: subl2 $BIAS,r0
25: andl2 $EXPMASK,r2 # compute seconed 'pure'exponent.
26: jeql is_res2
27: shrl $EXPSHIFT,r2,r2
28: subl2 $BIAS,r2
29: subl3 r2,r0,r2 # subtruct the exponents.
30: addl2 $BIAS,r2
31: jleq underf
32: # normalization can make the exp. smaller.
33: #
34: # We have the sign in r3,the exponent in r2,now is the time to
35: # perform the division...
36: #
37: # fetch dividend. (r4,r5)
38: andl3 $(0!(EXPMASK | SIGNBIT)),4(fp),r4
39: orl2 $(0!CLEARHID),r4
40: movl 8(fp),r5
41:
42: # fetch divisor : (r6,r7)
43: andl3 $(0!(EXPMASK | SIGNBIT)),12(fp),r6
44: orl2 $(0!CLEARHID),r6
45: movl 16(fp),r7
46:
47: movl $0,r0 # init r0,r1 to be zeros
48: movl $0,r1
49: movl $(0!CLEARHID),r8# r8 first bit to set (if).
50: shll $1,r8,r8 # to have one more bit,because we might
51: # have to shift left to normelize.
52: movl $0,r9
53:
54: 2:
55: subl2 r7,r5
56: sbwc r6,r4
57: jgeq 1f
58: addl2 r7,r5
59: adwc r6,r4
60: shlq $1,r4,r4
61: shrq $1,r8,r8
62: jeql over
63: jmp 2b
64: 1:
65: orl2 r8,r0
66: orl2 r9,r1
67: shlq $1,r4,r4
68: shrq $1,r8,r8
69: jneq 2b
70:
71: over:
72: callf $4,fnorm
73: sign:
74: 1: bbc $0,r3,done
75: orl2 $SIGNBIT,r0
76: done: ret
77:
78: is_res1:
79: bbc $31,4(fp),retz
80: callf $4,fpresop
81: ret
82: is_res2:
83: bbc $31,12(fp),z_div
84: callf $4,fpresop
85: ret
86: retz:
87: clrl r0
88: clrl r1
89: ret
90: underf:
91: callf $4,fpunder
92: ret
93: z_div:
94: callf $4,fpzdiv
95: ret
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