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x86: memtest bootparam
[sfrench/cifs-2.6.git] / arch / x86 / math-emu / polynom_Xsig.S
1 /*---------------------------------------------------------------------------+
2  |  polynomial_Xsig.S                                                        |
3  |                                                                           |
4  | Fixed point arithmetic polynomial evaluation.                             |
5  |                                                                           |
6  | Copyright (C) 1992,1993,1994,1995                                         |
7  |                       W. Metzenthen, 22 Parker St, Ormond, Vic 3163,      |
8  |                       Australia.  E-mail billm@jacobi.maths.monash.edu.au |
9  |                                                                           |
10  | Call from C as:                                                           |
11  |   void polynomial_Xsig(Xsig *accum, unsigned long long x,                 |
12  |                        unsigned long long terms[], int n)                 |
13  |                                                                           |
14  | Computes:                                                                 |
15  | terms[0] + (terms[1] + (terms[2] + ... + (terms[n-1]*x)*x)*x)*x) ... )*x  |
16  | and adds the result to the 12 byte Xsig.                                  |
17  | The terms[] are each 8 bytes, but all computation is performed to 12 byte |
18  | precision.                                                                |
19  |                                                                           |
20  | This function must be used carefully: most overflow of intermediate       |
21  | results is controlled, but overflow of the result is not.                 |
22  |                                                                           |
23  +---------------------------------------------------------------------------*/
24         .file   "polynomial_Xsig.S"
25
26 #include "fpu_emu.h"
27
28
29 #define TERM_SIZE       $8
30 #define SUM_MS          -20(%ebp)       /* sum ms long */
31 #define SUM_MIDDLE      -24(%ebp)       /* sum middle long */
32 #define SUM_LS          -28(%ebp)       /* sum ls long */
33 #define ACCUM_MS        -4(%ebp)        /* accum ms long */
34 #define ACCUM_MIDDLE    -8(%ebp)        /* accum middle long */
35 #define ACCUM_LS        -12(%ebp)       /* accum ls long */
36 #define OVERFLOWED      -16(%ebp)       /* addition overflow flag */
37
38 .text
39 ENTRY(polynomial_Xsig)
40         pushl   %ebp
41         movl    %esp,%ebp
42         subl    $32,%esp
43         pushl   %esi
44         pushl   %edi
45         pushl   %ebx
46
47         movl    PARAM2,%esi             /* x */
48         movl    PARAM3,%edi             /* terms */
49
50         movl    TERM_SIZE,%eax
51         mull    PARAM4                  /* n */
52         addl    %eax,%edi
53
54         movl    4(%edi),%edx            /* terms[n] */
55         movl    %edx,SUM_MS
56         movl    (%edi),%edx             /* terms[n] */
57         movl    %edx,SUM_MIDDLE
58         xor     %eax,%eax
59         movl    %eax,SUM_LS
60         movb    %al,OVERFLOWED
61
62         subl    TERM_SIZE,%edi
63         decl    PARAM4
64         js      L_accum_done
65
66 L_accum_loop:
67         xor     %eax,%eax
68         movl    %eax,ACCUM_MS
69         movl    %eax,ACCUM_MIDDLE
70
71         movl    SUM_MIDDLE,%eax
72         mull    (%esi)                  /* x ls long */
73         movl    %edx,ACCUM_LS
74
75         movl    SUM_MIDDLE,%eax
76         mull    4(%esi)                 /* x ms long */
77         addl    %eax,ACCUM_LS
78         adcl    %edx,ACCUM_MIDDLE
79         adcl    $0,ACCUM_MS
80
81         movl    SUM_MS,%eax
82         mull    (%esi)                  /* x ls long */
83         addl    %eax,ACCUM_LS
84         adcl    %edx,ACCUM_MIDDLE
85         adcl    $0,ACCUM_MS
86
87         movl    SUM_MS,%eax
88         mull    4(%esi)                 /* x ms long */
89         addl    %eax,ACCUM_MIDDLE
90         adcl    %edx,ACCUM_MS
91
92         testb   $0xff,OVERFLOWED
93         jz      L_no_overflow
94
95         movl    (%esi),%eax
96         addl    %eax,ACCUM_MIDDLE
97         movl    4(%esi),%eax
98         adcl    %eax,ACCUM_MS           /* This could overflow too */
99
100 L_no_overflow:
101
102 /*
103  * Now put the sum of next term and the accumulator
104  * into the sum register
105  */
106         movl    ACCUM_LS,%eax
107         addl    (%edi),%eax             /* term ls long */
108         movl    %eax,SUM_LS
109         movl    ACCUM_MIDDLE,%eax
110         adcl    (%edi),%eax             /* term ls long */
111         movl    %eax,SUM_MIDDLE
112         movl    ACCUM_MS,%eax
113         adcl    4(%edi),%eax            /* term ms long */
114         movl    %eax,SUM_MS
115         sbbb    %al,%al
116         movb    %al,OVERFLOWED          /* Used in the next iteration */
117
118         subl    TERM_SIZE,%edi
119         decl    PARAM4
120         jns     L_accum_loop
121
122 L_accum_done:
123         movl    PARAM1,%edi             /* accum */
124         movl    SUM_LS,%eax
125         addl    %eax,(%edi)
126         movl    SUM_MIDDLE,%eax
127         adcl    %eax,4(%edi)
128         movl    SUM_MS,%eax
129         adcl    %eax,8(%edi)
130
131         popl    %ebx
132         popl    %edi
133         popl    %esi
134         leave
135         ret
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