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1 706 jeremybenn
------------------------------------------------------------------------------
2
--                                                                          --
3
--                         GNAT COMPILER COMPONENTS                         --
4
--                                                                          --
5
--             G N A T . A L T I V E C . C O N V E R S I O N S              --
6
--                                                                          --
7
--                                 B o d y                                  --
8
--                                                                          --
9
--          Copyright (C) 2005-2009, Free Software Foundation, Inc.         --
10
--                                                                          --
11
-- GNAT is free software;  you can  redistribute it  and/or modify it under --
12
-- terms of the  GNU General Public License as published  by the Free Soft- --
13
-- ware  Foundation;  either version 3,  or (at your option) any later ver- --
14
-- sion.  GNAT is distributed in the hope that it will be useful, but WITH- --
15
-- OUT ANY WARRANTY;  without even the  implied warranty of MERCHANTABILITY --
16
-- or FITNESS FOR A PARTICULAR PURPOSE.                                     --
17
--                                                                          --
18
-- As a special exception under Section 7 of GPL version 3, you are granted --
19
-- additional permissions described in the GCC Runtime Library Exception,   --
20
-- version 3.1, as published by the Free Software Foundation.               --
21
--                                                                          --
22
-- You should have received a copy of the GNU General Public License and    --
23
-- a copy of the GCC Runtime Library Exception along with this program;     --
24
-- see the files COPYING3 and COPYING.RUNTIME respectively.  If not, see    --
25
-- <http://www.gnu.org/licenses/>.                                          --
26
--                                                                          --
27
-- GNAT was originally developed  by the GNAT team at  New York University. --
28
-- Extensive contributions were provided by Ada Core Technologies Inc.      --
29
--                                                                          --
30
------------------------------------------------------------------------------
31
 
32
with Ada.Unchecked_Conversion;
33
 
34
with System; use System;
35
 
36
package body GNAT.Altivec.Conversions is
37
 
38
   --  All the vector/view conversions operate similarly: bare unchecked
39
   --  conversion on big endian targets, and elements permutation on little
40
   --  endian targets. We call "Mirroring" the elements permutation process.
41
 
42
   --  We would like to provide a generic version of the conversion routines
43
   --  and just have a set of "renaming as body" declarations to satisfy the
44
   --  public interface. This unfortunately prevents inlining, which we must
45
   --  preserve at least for the hard binding.
46
 
47
   --  We instead provide a generic version of facilities needed by all the
48
   --  conversion routines and use them repeatedly.
49
 
50
   generic
51
      type Vitem_Type is private;
52
 
53
      type Varray_Index_Type is range <>;
54
      type Varray_Type is array (Varray_Index_Type) of Vitem_Type;
55
 
56
      type Vector_Type is private;
57
      type View_Type is private;
58
 
59
   package Generic_Conversions is
60
 
61
      subtype Varray is Varray_Type;
62
      --  This provides an easy common way to refer to the type parameter
63
      --  in contexts where a specific instance of this package is "use"d.
64
 
65
      procedure Mirror (A : Varray_Type; Into : out Varray_Type);
66
      pragma Inline (Mirror);
67
      --  Mirror the elements of A into INTO, not touching the per-element
68
      --  internal ordering.
69
 
70
      --  A procedure with an out parameter is a bit heavier to use than a
71
      --  function but reduces the amount of temporary creations around the
72
      --  call. Instances are typically not front-end inlined. They can still
73
      --  be back-end inlined on request with the proper command-line option.
74
 
75
      --  Below are Unchecked Conversion routines for various purposes,
76
      --  relying on internal knowledge about the bits layout in the different
77
      --  types (all 128 value bits blocks).
78
 
79
      --  View<->Vector straight bitwise conversions on BE targets
80
 
81
      function UNC_To_Vector is
82
         new Ada.Unchecked_Conversion (View_Type, Vector_Type);
83
 
84
      function UNC_To_View is
85
         new Ada.Unchecked_Conversion (Vector_Type, View_Type);
86
 
87
      --  Varray->Vector/View for returning mirrored results on LE targets
88
 
89
      function UNC_To_Vector is
90
         new Ada.Unchecked_Conversion (Varray_Type, Vector_Type);
91
 
92
      function UNC_To_View is
93
         new Ada.Unchecked_Conversion (Varray_Type, View_Type);
94
 
95
      --  Vector/View->Varray for to-be-permuted source on LE targets
96
 
97
      function UNC_To_Varray is
98
         new Ada.Unchecked_Conversion (Vector_Type, Varray_Type);
99
 
100
      function UNC_To_Varray is
101
         new Ada.Unchecked_Conversion (View_Type, Varray_Type);
102
 
103
   end Generic_Conversions;
104
 
105
   package body Generic_Conversions is
106
 
107
      procedure Mirror (A : Varray_Type; Into : out Varray_Type) is
108
      begin
109
         for J in A'Range loop
110
            Into (J) := A (A'Last - J + A'First);
111
         end loop;
112
      end Mirror;
113
 
114
   end Generic_Conversions;
115
 
116
   --  Now we declare the instances and implement the interface function
117
   --  bodies simply calling the instantiated routines.
118
 
119
   ---------------------
120
   -- Char components --
121
   ---------------------
122
 
123
   package SC_Conversions is new Generic_Conversions
124
     (signed_char, Vchar_Range, Varray_signed_char, VSC, VSC_View);
125
 
126
   function To_Vector (S : VSC_View) return VSC is
127
      use SC_Conversions;
128
   begin
129
      if Default_Bit_Order = High_Order_First then
130
         return UNC_To_Vector (S);
131
      else
132
         declare
133
            M : Varray;
134
         begin
135
            Mirror (UNC_To_Varray (S), Into => M);
136
            return UNC_To_Vector (M);
137
         end;
138
      end if;
139
   end To_Vector;
140
 
141
   function To_View (S : VSC) return VSC_View is
142
      use SC_Conversions;
143
   begin
144
      if Default_Bit_Order = High_Order_First then
145
         return UNC_To_View (S);
146
      else
147
         declare
148
            M : Varray;
149
         begin
150
            Mirror (UNC_To_Varray (S), Into => M);
151
            return UNC_To_View (M);
152
         end;
153
      end if;
154
   end To_View;
155
 
156
   --
157
 
158
   package UC_Conversions is new Generic_Conversions
159
     (unsigned_char, Vchar_Range, Varray_unsigned_char, VUC, VUC_View);
160
 
161
   function To_Vector (S : VUC_View) return VUC is
162
      use UC_Conversions;
163
   begin
164
      if Default_Bit_Order = High_Order_First then
165
         return UNC_To_Vector (S);
166
      else
167
         declare
168
            M : Varray;
169
         begin
170
            Mirror (UNC_To_Varray (S), Into => M);
171
            return UNC_To_Vector (M);
172
         end;
173
      end if;
174
   end To_Vector;
175
 
176
   function To_View (S : VUC) return VUC_View is
177
      use UC_Conversions;
178
   begin
179
      if Default_Bit_Order = High_Order_First then
180
         return UNC_To_View (S);
181
      else
182
         declare
183
            M : Varray;
184
         begin
185
            Mirror (UNC_To_Varray (S), Into => M);
186
            return UNC_To_View (M);
187
         end;
188
      end if;
189
   end To_View;
190
 
191
   --
192
 
193
   package BC_Conversions is new Generic_Conversions
194
     (bool_char, Vchar_Range, Varray_bool_char, VBC, VBC_View);
195
 
196
   function To_Vector (S : VBC_View) return VBC is
197
      use BC_Conversions;
198
   begin
199
      if Default_Bit_Order = High_Order_First then
200
         return UNC_To_Vector (S);
201
      else
202
         declare
203
            M : Varray;
204
         begin
205
            Mirror (UNC_To_Varray (S), Into => M);
206
            return UNC_To_Vector (M);
207
         end;
208
      end if;
209
   end To_Vector;
210
 
211
   function To_View (S : VBC) return VBC_View is
212
      use BC_Conversions;
213
   begin
214
      if Default_Bit_Order = High_Order_First then
215
         return UNC_To_View (S);
216
      else
217
         declare
218
            M : Varray;
219
         begin
220
            Mirror (UNC_To_Varray (S), Into => M);
221
            return UNC_To_View (M);
222
         end;
223
      end if;
224
   end To_View;
225
 
226
   ----------------------
227
   -- Short components --
228
   ----------------------
229
 
230
   package SS_Conversions is new Generic_Conversions
231
     (signed_short, Vshort_Range, Varray_signed_short, VSS, VSS_View);
232
 
233
   function To_Vector (S : VSS_View) return VSS is
234
      use SS_Conversions;
235
   begin
236
      if Default_Bit_Order = High_Order_First then
237
         return UNC_To_Vector (S);
238
      else
239
         declare
240
            M : Varray;
241
         begin
242
            Mirror (UNC_To_Varray (S), Into => M);
243
            return UNC_To_Vector (M);
244
         end;
245
      end if;
246
   end To_Vector;
247
 
248
   function To_View (S : VSS) return VSS_View is
249
      use SS_Conversions;
250
   begin
251
      if Default_Bit_Order = High_Order_First then
252
         return UNC_To_View (S);
253
      else
254
         declare
255
            M : Varray;
256
         begin
257
            Mirror (UNC_To_Varray (S), Into => M);
258
            return UNC_To_View (M);
259
         end;
260
      end if;
261
   end To_View;
262
 
263
   --
264
 
265
   package US_Conversions is new Generic_Conversions
266
     (unsigned_short, Vshort_Range, Varray_unsigned_short, VUS, VUS_View);
267
 
268
   function To_Vector (S : VUS_View) return VUS is
269
      use US_Conversions;
270
   begin
271
      if Default_Bit_Order = High_Order_First then
272
         return UNC_To_Vector (S);
273
      else
274
         declare
275
            M : Varray;
276
         begin
277
            Mirror (UNC_To_Varray (S), Into => M);
278
            return UNC_To_Vector (M);
279
         end;
280
      end if;
281
   end To_Vector;
282
 
283
   function To_View (S : VUS) return VUS_View is
284
      use US_Conversions;
285
   begin
286
      if Default_Bit_Order = High_Order_First then
287
         return UNC_To_View (S);
288
      else
289
         declare
290
            M : Varray;
291
         begin
292
            Mirror (UNC_To_Varray (S), Into => M);
293
            return UNC_To_View (M);
294
         end;
295
      end if;
296
   end To_View;
297
 
298
   --
299
 
300
   package BS_Conversions is new Generic_Conversions
301
     (bool_short, Vshort_Range, Varray_bool_short, VBS, VBS_View);
302
 
303
   function To_Vector (S : VBS_View) return VBS is
304
      use BS_Conversions;
305
   begin
306
      if Default_Bit_Order = High_Order_First then
307
         return UNC_To_Vector (S);
308
      else
309
         declare
310
            M : Varray;
311
         begin
312
            Mirror (UNC_To_Varray (S), Into => M);
313
            return UNC_To_Vector (M);
314
         end;
315
      end if;
316
   end To_Vector;
317
 
318
   function To_View (S : VBS) return VBS_View is
319
      use BS_Conversions;
320
   begin
321
      if Default_Bit_Order = High_Order_First then
322
         return UNC_To_View (S);
323
      else
324
         declare
325
            M : Varray;
326
         begin
327
            Mirror (UNC_To_Varray (S), Into => M);
328
            return UNC_To_View (M);
329
         end;
330
      end if;
331
   end To_View;
332
 
333
   --------------------
334
   -- Int components --
335
   --------------------
336
 
337
   package SI_Conversions is new Generic_Conversions
338
     (signed_int, Vint_Range, Varray_signed_int, VSI, VSI_View);
339
 
340
   function To_Vector (S : VSI_View) return VSI is
341
      use SI_Conversions;
342
   begin
343
      if Default_Bit_Order = High_Order_First then
344
         return UNC_To_Vector (S);
345
      else
346
         declare
347
            M : Varray;
348
         begin
349
            Mirror (UNC_To_Varray (S), Into => M);
350
            return UNC_To_Vector (M);
351
         end;
352
      end if;
353
   end To_Vector;
354
 
355
   function To_View (S : VSI) return VSI_View is
356
      use SI_Conversions;
357
   begin
358
      if Default_Bit_Order = High_Order_First then
359
         return UNC_To_View (S);
360
      else
361
         declare
362
            M : Varray;
363
         begin
364
            Mirror (UNC_To_Varray (S), Into => M);
365
            return UNC_To_View (M);
366
         end;
367
      end if;
368
   end To_View;
369
 
370
   --
371
 
372
   package UI_Conversions is new Generic_Conversions
373
     (unsigned_int, Vint_Range, Varray_unsigned_int, VUI, VUI_View);
374
 
375
   function To_Vector (S : VUI_View) return VUI is
376
      use UI_Conversions;
377
   begin
378
      if Default_Bit_Order = High_Order_First then
379
         return UNC_To_Vector (S);
380
      else
381
         declare
382
            M : Varray;
383
         begin
384
            Mirror (UNC_To_Varray (S), Into => M);
385
            return UNC_To_Vector (M);
386
         end;
387
      end if;
388
   end To_Vector;
389
 
390
   function To_View (S : VUI) return VUI_View is
391
      use UI_Conversions;
392
   begin
393
      if Default_Bit_Order = High_Order_First then
394
         return UNC_To_View (S);
395
      else
396
         declare
397
            M : Varray;
398
         begin
399
            Mirror (UNC_To_Varray (S), Into => M);
400
            return UNC_To_View (M);
401
         end;
402
      end if;
403
   end To_View;
404
 
405
   --
406
 
407
   package BI_Conversions is new Generic_Conversions
408
     (bool_int, Vint_Range, Varray_bool_int, VBI, VBI_View);
409
 
410
   function To_Vector (S : VBI_View) return VBI is
411
      use BI_Conversions;
412
   begin
413
      if Default_Bit_Order = High_Order_First then
414
         return UNC_To_Vector (S);
415
      else
416
         declare
417
            M : Varray;
418
         begin
419
            Mirror (UNC_To_Varray (S), Into => M);
420
            return UNC_To_Vector (M);
421
         end;
422
      end if;
423
   end To_Vector;
424
 
425
   function To_View (S : VBI) return VBI_View is
426
      use BI_Conversions;
427
   begin
428
      if Default_Bit_Order = High_Order_First then
429
         return UNC_To_View (S);
430
      else
431
         declare
432
            M : Varray;
433
         begin
434
            Mirror (UNC_To_Varray (S), Into => M);
435
            return UNC_To_View (M);
436
         end;
437
      end if;
438
   end To_View;
439
 
440
   ----------------------
441
   -- Float components --
442
   ----------------------
443
 
444
   package F_Conversions is new Generic_Conversions
445
     (C_float, Vfloat_Range, Varray_float, VF, VF_View);
446
 
447
   function To_Vector (S : VF_View) return VF is
448
      use F_Conversions;
449
   begin
450
      if Default_Bit_Order = High_Order_First then
451
         return UNC_To_Vector (S);
452
      else
453
         declare
454
            M : Varray;
455
         begin
456
            Mirror (UNC_To_Varray (S), Into => M);
457
            return UNC_To_Vector (M);
458
         end;
459
      end if;
460
   end To_Vector;
461
 
462
   function To_View (S : VF) return VF_View is
463
      use F_Conversions;
464
   begin
465
      if Default_Bit_Order = High_Order_First then
466
         return UNC_To_View (S);
467
      else
468
         declare
469
            M : Varray;
470
         begin
471
            Mirror (UNC_To_Varray (S), Into => M);
472
            return UNC_To_View (M);
473
         end;
474
      end if;
475
   end To_View;
476
 
477
   ----------------------
478
   -- Pixel components --
479
   ----------------------
480
 
481
   package P_Conversions is new Generic_Conversions
482
     (pixel, Vpixel_Range, Varray_pixel, VP, VP_View);
483
 
484
   function To_Vector (S : VP_View) return VP is
485
      use P_Conversions;
486
   begin
487
      if Default_Bit_Order = High_Order_First then
488
         return UNC_To_Vector (S);
489
      else
490
         declare
491
            M : Varray;
492
         begin
493
            Mirror (UNC_To_Varray (S), Into => M);
494
            return UNC_To_Vector (M);
495
         end;
496
      end if;
497
   end To_Vector;
498
 
499
   function To_View (S : VP) return VP_View is
500
      use P_Conversions;
501
   begin
502
      if Default_Bit_Order = High_Order_First then
503
         return UNC_To_View (S);
504
      else
505
         declare
506
            M : Varray;
507
         begin
508
            Mirror (UNC_To_Varray (S), Into => M);
509
            return UNC_To_View (M);
510
         end;
511
      end if;
512
   end To_View;
513
 
514
end GNAT.Altivec.Conversions;

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