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[/] [or1k/] [trunk/] [linux/] [linux-2.4/] [arch/] [m68k/] [fpsp040/] [scale.S] - Blame information for rev 1275

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Line No. Rev Author Line
1 1275 phoenix
|
2
|       scale.sa 3.3 7/30/91
3
|
4
|       The entry point sSCALE computes the destination operand
5
|       scaled by the source operand.  If the absolute value of
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|       the source operand is (>= 2^14) an overflow or underflow
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|       is returned.
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|
9
|       The entry point sscale is called from do_func to emulate
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|       the fscale unimplemented instruction.
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|
12
|       Input: Double-extended destination operand in FPTEMP,
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|               double-extended source operand in ETEMP.
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|
15
|       Output: The function returns scale(X,Y) to fp0.
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|
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|       Modifies: fp0.
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|
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|       Algorithm:
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|
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|               Copyright (C) Motorola, Inc. 1990
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|                       All Rights Reserved
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|
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|       THIS IS UNPUBLISHED PROPRIETARY SOURCE CODE OF MOTOROLA
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|       The copyright notice above does not evidence any
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|       actual or intended publication of such source code.
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28
|SCALE    idnt    2,1 | Motorola 040 Floating Point Software Package
29
 
30
        |section        8
31
 
32
        .include "fpsp.h"
33
 
34
        |xref   t_ovfl2
35
        |xref   t_unfl
36
        |xref   round
37
        |xref   t_resdnrm
38
 
39
SRC_BNDS: .short        0x3fff,0x400c
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|
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| This entry point is used by the unimplemented instruction exception
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| handler.
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|
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|
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|
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|       FSCALE
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|
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        .global sscale
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sscale:
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        fmovel          #0,%fpcr                |clr user enabled exc
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        clrl            %d1
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        movew           FPTEMP(%a6),%d1 |get dest exponent
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        smi             L_SCR1(%a6)     |use L_SCR1 to hold sign
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        andil           #0x7fff,%d1     |strip sign
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        movew           ETEMP(%a6),%d0  |check src bounds
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        andiw           #0x7fff,%d0     |clr sign bit
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        cmp2w           SRC_BNDS,%d0
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        bccs            src_in
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        cmpiw           #0x400c,%d0     |test for too large
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        bge             src_out
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|
63
| The source input is below 1, so we check for denormalized numbers
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| and set unfl.
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|
66
src_small:
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        moveb           DTAG(%a6),%d0
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        andib           #0xe0,%d0
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        tstb            %d0
70
        beqs            no_denorm
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        st              STORE_FLG(%a6)  |dest already contains result
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        orl             #unfl_mask,USER_FPSR(%a6) |set UNFL
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den_done:
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        leal            FPTEMP(%a6),%a0
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        bra             t_resdnrm
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no_denorm:
77
        fmovel          USER_FPCR(%a6),%FPCR
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        fmovex          FPTEMP(%a6),%fp0        |simply return dest
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        rts
80
 
81
 
82
|
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| Source is within 2^14 range.  To perform the int operation,
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| move it to d0.
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|
86
src_in:
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        fmovex          ETEMP(%a6),%fp0 |move in src for int
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        fmovel          #rz_mode,%fpcr  |force rz for src conversion
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        fmovel          %fp0,%d0                |int src to d0
90
        fmovel          #0,%FPSR                |clr status from above
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        tstw            ETEMP(%a6)      |check src sign
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        blt             src_neg
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|
94
| Source is positive.  Add the src to the dest exponent.
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| The result can be denormalized, if src = 0, or overflow,
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| if the result of the add sets a bit in the upper word.
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|
98
src_pos:
99
        tstw            %d1             |check for denorm
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        beq             dst_dnrm
101
        addl            %d0,%d1         |add src to dest exp
102
        beqs            denorm          |if zero, result is denorm
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        cmpil           #0x7fff,%d1     |test for overflow
104
        bges            ovfl
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        tstb            L_SCR1(%a6)
106
        beqs            spos_pos
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        orw             #0x8000,%d1
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spos_pos:
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        movew           %d1,FPTEMP(%a6) |result in FPTEMP
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        fmovel          USER_FPCR(%a6),%FPCR
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        fmovex          FPTEMP(%a6),%fp0        |write result to fp0
112
        rts
113
ovfl:
114
        tstb            L_SCR1(%a6)
115
        beqs            sovl_pos
116
        orw             #0x8000,%d1
117
sovl_pos:
118
        movew           FPTEMP(%a6),ETEMP(%a6)  |result in ETEMP
119
        movel           FPTEMP_HI(%a6),ETEMP_HI(%a6)
120
        movel           FPTEMP_LO(%a6),ETEMP_LO(%a6)
121
        bra             t_ovfl2
122
 
123
denorm:
124
        tstb            L_SCR1(%a6)
125
        beqs            den_pos
126
        orw             #0x8000,%d1
127
den_pos:
128
        tstl            FPTEMP_HI(%a6)  |check j bit
129
        blts            nden_exit       |if set, not denorm
130
        movew           %d1,ETEMP(%a6)  |input expected in ETEMP
131
        movel           FPTEMP_HI(%a6),ETEMP_HI(%a6)
132
        movel           FPTEMP_LO(%a6),ETEMP_LO(%a6)
133
        orl             #unfl_bit,USER_FPSR(%a6)        |set unfl
134
        leal            ETEMP(%a6),%a0
135
        bra             t_resdnrm
136
nden_exit:
137
        movew           %d1,FPTEMP(%a6) |result in FPTEMP
138
        fmovel          USER_FPCR(%a6),%FPCR
139
        fmovex          FPTEMP(%a6),%fp0        |write result to fp0
140
        rts
141
 
142
|
143
| Source is negative.  Add the src to the dest exponent.
144
| (The result exponent will be reduced).  The result can be
145
| denormalized.
146
|
147
src_neg:
148
        addl            %d0,%d1         |add src to dest
149
        beqs            denorm          |if zero, result is denorm
150
        blts            fix_dnrm        |if negative, result is
151
|                                       ;needing denormalization
152
        tstb            L_SCR1(%a6)
153
        beqs            sneg_pos
154
        orw             #0x8000,%d1
155
sneg_pos:
156
        movew           %d1,FPTEMP(%a6) |result in FPTEMP
157
        fmovel          USER_FPCR(%a6),%FPCR
158
        fmovex          FPTEMP(%a6),%fp0        |write result to fp0
159
        rts
160
 
161
 
162
|
163
| The result exponent is below denorm value.  Test for catastrophic
164
| underflow and force zero if true.  If not, try to shift the
165
| mantissa right until a zero exponent exists.
166
|
167
fix_dnrm:
168
        cmpiw           #0xffc0,%d1     |lower bound for normalization
169
        blt             fix_unfl        |if lower, catastrophic unfl
170
        movew           %d1,%d0         |use d0 for exp
171
        movel           %d2,-(%a7)      |free d2 for norm
172
        movel           FPTEMP_HI(%a6),%d1
173
        movel           FPTEMP_LO(%a6),%d2
174
        clrl            L_SCR2(%a6)
175
fix_loop:
176
        addw            #1,%d0          |drive d0 to 0
177
        lsrl            #1,%d1          |while shifting the
178
        roxrl           #1,%d2          |mantissa to the right
179
        bccs            no_carry
180
        st              L_SCR2(%a6)     |use L_SCR2 to capture inex
181
no_carry:
182
        tstw            %d0             |it is finished when
183
        blts            fix_loop        |d0 is zero or the mantissa
184
        tstb            L_SCR2(%a6)
185
        beqs            tst_zero
186
        orl             #unfl_inx_mask,USER_FPSR(%a6)
187
|                                       ;set unfl, aunfl, ainex
188
|
189
| Test for zero. If zero, simply use fmove to return +/- zero
190
| to the fpu.
191
|
192
tst_zero:
193
        clrw            FPTEMP_EX(%a6)
194
        tstb            L_SCR1(%a6)     |test for sign
195
        beqs            tst_con
196
        orw             #0x8000,FPTEMP_EX(%a6) |set sign bit
197
tst_con:
198
        movel           %d1,FPTEMP_HI(%a6)
199
        movel           %d2,FPTEMP_LO(%a6)
200
        movel           (%a7)+,%d2
201
        tstl            %d1
202
        bnes            not_zero
203
        tstl            FPTEMP_LO(%a6)
204
        bnes            not_zero
205
|
206
| Result is zero.  Check for rounding mode to set lsb.  If the
207
| mode is rp, and the zero is positive, return smallest denorm.
208
| If the mode is rm, and the zero is negative, return smallest
209
| negative denorm.
210
|
211
        btstb           #5,FPCR_MODE(%a6) |test if rm or rp
212
        beqs            no_dir
213
        btstb           #4,FPCR_MODE(%a6) |check which one
214
        beqs            zer_rm
215
zer_rp:
216
        tstb            L_SCR1(%a6)     |check sign
217
        bnes            no_dir          |if set, neg op, no inc
218
        movel           #1,FPTEMP_LO(%a6) |set lsb
219
        bras            sm_dnrm
220
zer_rm:
221
        tstb            L_SCR1(%a6)     |check sign
222
        beqs            no_dir          |if clr, neg op, no inc
223
        movel           #1,FPTEMP_LO(%a6) |set lsb
224
        orl             #neg_mask,USER_FPSR(%a6) |set N
225
        bras            sm_dnrm
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no_dir:
227
        fmovel          USER_FPCR(%a6),%FPCR
228
        fmovex          FPTEMP(%a6),%fp0        |use fmove to set cc's
229
        rts
230
 
231
|
232
| The rounding mode changed the zero to a smallest denorm. Call
233
| t_resdnrm with exceptional operand in ETEMP.
234
|
235
sm_dnrm:
236
        movel           FPTEMP_EX(%a6),ETEMP_EX(%a6)
237
        movel           FPTEMP_HI(%a6),ETEMP_HI(%a6)
238
        movel           FPTEMP_LO(%a6),ETEMP_LO(%a6)
239
        leal            ETEMP(%a6),%a0
240
        bra             t_resdnrm
241
 
242
|
243
| Result is still denormalized.
244
|
245
not_zero:
246
        orl             #unfl_mask,USER_FPSR(%a6) |set unfl
247
        tstb            L_SCR1(%a6)     |check for sign
248
        beqs            fix_exit
249
        orl             #neg_mask,USER_FPSR(%a6) |set N
250
fix_exit:
251
        bras            sm_dnrm
252
 
253
 
254
|
255
| The result has underflowed to zero. Return zero and set
256
| unfl, aunfl, and ainex.
257
|
258
fix_unfl:
259
        orl             #unfl_inx_mask,USER_FPSR(%a6)
260
        btstb           #5,FPCR_MODE(%a6) |test if rm or rp
261
        beqs            no_dir2
262
        btstb           #4,FPCR_MODE(%a6) |check which one
263
        beqs            zer_rm2
264
zer_rp2:
265
        tstb            L_SCR1(%a6)     |check sign
266
        bnes            no_dir2         |if set, neg op, no inc
267
        clrl            FPTEMP_EX(%a6)
268
        clrl            FPTEMP_HI(%a6)
269
        movel           #1,FPTEMP_LO(%a6) |set lsb
270
        bras            sm_dnrm         |return smallest denorm
271
zer_rm2:
272
        tstb            L_SCR1(%a6)     |check sign
273
        beqs            no_dir2         |if clr, neg op, no inc
274
        movew           #0x8000,FPTEMP_EX(%a6)
275
        clrl            FPTEMP_HI(%a6)
276
        movel           #1,FPTEMP_LO(%a6) |set lsb
277
        orl             #neg_mask,USER_FPSR(%a6) |set N
278
        bra             sm_dnrm         |return smallest denorm
279
 
280
no_dir2:
281
        tstb            L_SCR1(%a6)
282
        bges            pos_zero
283
neg_zero:
284
        clrl            FP_SCR1(%a6)    |clear the exceptional operand
285
        clrl            FP_SCR1+4(%a6)  |for gen_except.
286
        clrl            FP_SCR1+8(%a6)
287
        fmoves          #0x80000000,%fp0
288
        rts
289
pos_zero:
290
        clrl            FP_SCR1(%a6)    |clear the exceptional operand
291
        clrl            FP_SCR1+4(%a6)  |for gen_except.
292
        clrl            FP_SCR1+8(%a6)
293
        fmoves          #0x00000000,%fp0
294
        rts
295
 
296
|
297
| The destination is a denormalized number.  It must be handled
298
| by first shifting the bits in the mantissa until it is normalized,
299
| then adding the remainder of the source to the exponent.
300
|
301
dst_dnrm:
302
        moveml          %d2/%d3,-(%a7)
303
        movew           FPTEMP_EX(%a6),%d1
304
        movel           FPTEMP_HI(%a6),%d2
305
        movel           FPTEMP_LO(%a6),%d3
306
dst_loop:
307
        tstl            %d2             |test for normalized result
308
        blts            dst_norm        |exit loop if so
309
        tstl            %d0             |otherwise, test shift count
310
        beqs            dst_fin         |if zero, shifting is done
311
        subil           #1,%d0          |dec src
312
        lsll            #1,%d3
313
        roxll           #1,%d2
314
        bras            dst_loop
315
|
316
| Destination became normalized.  Simply add the remaining
317
| portion of the src to the exponent.
318
|
319
dst_norm:
320
        addw            %d0,%d1         |dst is normalized; add src
321
        tstb            L_SCR1(%a6)
322
        beqs            dnrm_pos
323
        orl             #0x8000,%d1
324
dnrm_pos:
325
        movemw          %d1,FPTEMP_EX(%a6)
326
        moveml          %d2,FPTEMP_HI(%a6)
327
        moveml          %d3,FPTEMP_LO(%a6)
328
        fmovel          USER_FPCR(%a6),%FPCR
329
        fmovex          FPTEMP(%a6),%fp0
330
        moveml          (%a7)+,%d2/%d3
331
        rts
332
 
333
|
334
| Destination remained denormalized.  Call t_excdnrm with
335
| exceptional operand in ETEMP.
336
|
337
dst_fin:
338
        tstb            L_SCR1(%a6)     |check for sign
339
        beqs            dst_exit
340
        orl             #neg_mask,USER_FPSR(%a6) |set N
341
        orl             #0x8000,%d1
342
dst_exit:
343
        movemw          %d1,ETEMP_EX(%a6)
344
        moveml          %d2,ETEMP_HI(%a6)
345
        moveml          %d3,ETEMP_LO(%a6)
346
        orl             #unfl_mask,USER_FPSR(%a6) |set unfl
347
        moveml          (%a7)+,%d2/%d3
348
        leal            ETEMP(%a6),%a0
349
        bra             t_resdnrm
350
 
351
|
352
| Source is outside of 2^14 range.  Test the sign and branch
353
| to the appropriate exception handler.
354
|
355
src_out:
356
        tstb            L_SCR1(%a6)
357
        beqs            scro_pos
358
        orl             #0x8000,%d1
359
scro_pos:
360
        movel           FPTEMP_HI(%a6),ETEMP_HI(%a6)
361
        movel           FPTEMP_LO(%a6),ETEMP_LO(%a6)
362
        tstw            ETEMP(%a6)
363
        blts            res_neg
364
res_pos:
365
        movew           %d1,ETEMP(%a6)  |result in ETEMP
366
        bra             t_ovfl2
367
res_neg:
368
        movew           %d1,ETEMP(%a6)  |result in ETEMP
369
        leal            ETEMP(%a6),%a0
370
        bra             t_unfl
371
        |end

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