* config/rs6000/rs6000.md: Document why a pattern is not
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1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT RUNTIME COMPONENTS --
4 -- --
5 -- S Y S T E M . S T R E A M _ A T T R I B U T E S --
6 -- --
7 -- B o d y --
8 -- --
9 -- Copyright (C) 1992-2003, 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 2, 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. See the GNU General Public License --
17 -- for more details. You should have received a copy of the GNU General --
18 -- Public License distributed with GNAT; see file COPYING. If not, write --
19 -- to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, --
20 -- MA 02111-1307, USA. --
21 -- --
22 -- As a special exception, if other files instantiate generics from this --
23 -- unit, or you link this unit with other files to produce an executable, --
24 -- this unit does not by itself cause the resulting executable to be --
25 -- covered by the GNU General Public License. This exception does not --
26 -- however invalidate any other reasons why the executable file might be --
27 -- covered by the GNU Public License. --
28 -- --
29 -- GNAT was originally developed by the GNAT team at New York University. --
30 -- Extensive contributions were provided by Ada Core Technologies Inc. --
31 -- --
32 ------------------------------------------------------------------------------
34 with Ada.IO_Exceptions;
35 with Ada.Streams; use Ada.Streams;
36 with Unchecked_Conversion;
38 package body System.Stream_Attributes is
40 Err : exception renames Ada.IO_Exceptions.End_Error;
41 -- Exception raised if insufficient data read (note that the RM implies
42 -- that Data_Error might be the appropriate choice, but AI195-00132
43 -- decides with a binding interpretation that End_Error is preferred).
45 SU : constant := System.Storage_Unit;
47 subtype SEA is Ada.Streams.Stream_Element_Array;
48 subtype SEO is Ada.Streams.Stream_Element_Offset;
50 generic function UC renames Unchecked_Conversion;
52 -- Subtypes used to define Stream_Element_Array values that map
53 -- into the elementary types, using unchecked conversion.
55 Thin_Pointer_Size : constant := System.Address'Size;
56 Fat_Pointer_Size : constant := System.Address'Size * 2;
58 subtype S_AD is SEA (1 .. (Fat_Pointer_Size + SU - 1) / SU);
59 subtype S_AS is SEA (1 .. (Thin_Pointer_Size + SU - 1) / SU);
60 subtype S_B is SEA (1 .. (Boolean'Size + SU - 1) / SU);
61 subtype S_C is SEA (1 .. (Character'Size + SU - 1) / SU);
62 subtype S_F is SEA (1 .. (Float'Size + SU - 1) / SU);
63 subtype S_I is SEA (1 .. (Integer'Size + SU - 1) / SU);
64 subtype S_LF is SEA (1 .. (Long_Float'Size + SU - 1) / SU);
65 subtype S_LI is SEA (1 .. (Long_Integer'Size + SU - 1) / SU);
66 subtype S_LLF is SEA (1 .. (Long_Long_Float'Size + SU - 1) / SU);
67 subtype S_LLI is SEA (1 .. (Long_Long_Integer'Size + SU - 1) / SU);
68 subtype S_LLU is SEA (1 .. (UST.Long_Long_Unsigned'Size + SU - 1) / SU);
69 subtype S_LU is SEA (1 .. (UST.Long_Unsigned'Size + SU - 1) / SU);
70 subtype S_SF is SEA (1 .. (Short_Float'Size + SU - 1) / SU);
71 subtype S_SI is SEA (1 .. (Short_Integer'Size + SU - 1) / SU);
72 subtype S_SSI is SEA (1 .. (Short_Short_Integer'Size + SU - 1) / SU);
73 subtype S_SSU is SEA (1 .. (UST.Short_Short_Unsigned'Size + SU - 1) / SU);
74 subtype S_SU is SEA (1 .. (UST.Short_Unsigned'Size + SU - 1) / SU);
75 subtype S_U is SEA (1 .. (UST.Unsigned'Size + SU - 1) / SU);
76 subtype S_WC is SEA (1 .. (Wide_Character'Size + SU - 1) / SU);
78 -- Unchecked conversions from the elementary type to the stream type
80 function From_AD is new UC (Fat_Pointer, S_AD);
81 function From_AS is new UC (Thin_Pointer, S_AS);
82 function From_F is new UC (Float, S_F);
83 function From_I is new UC (Integer, S_I);
84 function From_LF is new UC (Long_Float, S_LF);
85 function From_LI is new UC (Long_Integer, S_LI);
86 function From_LLF is new UC (Long_Long_Float, S_LLF);
87 function From_LLI is new UC (Long_Long_Integer, S_LLI);
88 function From_LLU is new UC (UST.Long_Long_Unsigned, S_LLU);
89 function From_LU is new UC (UST.Long_Unsigned, S_LU);
90 function From_SF is new UC (Short_Float, S_SF);
91 function From_SI is new UC (Short_Integer, S_SI);
92 function From_SSI is new UC (Short_Short_Integer, S_SSI);
93 function From_SSU is new UC (UST.Short_Short_Unsigned, S_SSU);
94 function From_SU is new UC (UST.Short_Unsigned, S_SU);
95 function From_U is new UC (UST.Unsigned, S_U);
96 function From_WC is new UC (Wide_Character, S_WC);
98 -- Unchecked conversions from the stream type to elementary type
100 function To_AD is new UC (S_AD, Fat_Pointer);
101 function To_AS is new UC (S_AS, Thin_Pointer);
102 function To_F is new UC (S_F, Float);
103 function To_I is new UC (S_I, Integer);
104 function To_LF is new UC (S_LF, Long_Float);
105 function To_LI is new UC (S_LI, Long_Integer);
106 function To_LLF is new UC (S_LLF, Long_Long_Float);
107 function To_LLI is new UC (S_LLI, Long_Long_Integer);
108 function To_LLU is new UC (S_LLU, UST.Long_Long_Unsigned);
109 function To_LU is new UC (S_LU, UST.Long_Unsigned);
110 function To_SF is new UC (S_SF, Short_Float);
111 function To_SI is new UC (S_SI, Short_Integer);
112 function To_SSI is new UC (S_SSI, Short_Short_Integer);
113 function To_SSU is new UC (S_SSU, UST.Short_Short_Unsigned);
114 function To_SU is new UC (S_SU, UST.Short_Unsigned);
115 function To_U is new UC (S_U, UST.Unsigned);
116 function To_WC is new UC (S_WC, Wide_Character);
118 ----------
119 -- I_AD --
120 ----------
122 function I_AD (Stream : access RST) return Fat_Pointer is
123 T : S_AD;
124 L : SEO;
126 begin
127 Ada.Streams.Read (Stream.all, T, L);
129 if L < T'Last then
130 raise Err;
131 else
132 return To_AD (T);
133 end if;
134 end I_AD;
136 ----------
137 -- I_AS --
138 ----------
140 function I_AS (Stream : access RST) return Thin_Pointer is
141 T : S_AS;
142 L : SEO;
144 begin
145 Ada.Streams.Read (Stream.all, T, L);
147 if L < T'Last then
148 raise Err;
149 else
150 return To_AS (T);
151 end if;
152 end I_AS;
154 ---------
155 -- I_B --
156 ---------
158 function I_B (Stream : access RST) return Boolean is
159 T : S_B;
160 L : SEO;
162 begin
163 Ada.Streams.Read (Stream.all, T, L);
165 if L < T'Last then
166 raise Err;
167 else
168 return Boolean'Val (T (1));
169 end if;
170 end I_B;
172 ---------
173 -- I_C --
174 ---------
176 function I_C (Stream : access RST) return Character is
177 T : S_C;
178 L : SEO;
180 begin
181 Ada.Streams.Read (Stream.all, T, L);
183 if L < T'Last then
184 raise Err;
185 else
186 return Character'Val (T (1));
187 end if;
188 end I_C;
190 ---------
191 -- I_F --
192 ---------
194 function I_F (Stream : access RST) return Float is
195 T : S_F;
196 L : SEO;
198 begin
199 Ada.Streams.Read (Stream.all, T, L);
201 if L < T'Last then
202 raise Err;
203 else
204 return To_F (T);
205 end if;
206 end I_F;
208 ---------
209 -- I_I --
210 ---------
212 function I_I (Stream : access RST) return Integer is
213 T : S_I;
214 L : SEO;
216 begin
217 Ada.Streams.Read (Stream.all, T, L);
219 if L < T'Last then
220 raise Err;
221 else
222 return To_I (T);
223 end if;
224 end I_I;
226 ----------
227 -- I_LF --
228 ----------
230 function I_LF (Stream : access RST) return Long_Float is
231 T : S_LF;
232 L : SEO;
234 begin
235 Ada.Streams.Read (Stream.all, T, L);
237 if L < T'Last then
238 raise Err;
239 else
240 return To_LF (T);
241 end if;
242 end I_LF;
244 ----------
245 -- I_LI --
246 ----------
248 function I_LI (Stream : access RST) return Long_Integer is
249 T : S_LI;
250 L : SEO;
252 begin
253 Ada.Streams.Read (Stream.all, T, L);
255 if L < T'Last then
256 raise Err;
257 else
258 return To_LI (T);
259 end if;
260 end I_LI;
262 -----------
263 -- I_LLF --
264 -----------
266 function I_LLF (Stream : access RST) return Long_Long_Float is
267 T : S_LLF;
268 L : SEO;
270 begin
271 Ada.Streams.Read (Stream.all, T, L);
273 if L < T'Last then
274 raise Err;
275 else
276 return To_LLF (T);
277 end if;
278 end I_LLF;
280 -----------
281 -- I_LLI --
282 -----------
284 function I_LLI (Stream : access RST) return Long_Long_Integer is
285 T : S_LLI;
286 L : SEO;
288 begin
289 Ada.Streams.Read (Stream.all, T, L);
291 if L < T'Last then
292 raise Err;
293 else
294 return To_LLI (T);
295 end if;
296 end I_LLI;
298 -----------
299 -- I_LLU --
300 -----------
302 function I_LLU (Stream : access RST) return UST.Long_Long_Unsigned is
303 T : S_LLU;
304 L : SEO;
306 begin
307 Ada.Streams.Read (Stream.all, T, L);
309 if L < T'Last then
310 raise Err;
311 else
312 return To_LLU (T);
313 end if;
314 end I_LLU;
316 ----------
317 -- I_LU --
318 ----------
320 function I_LU (Stream : access RST) return UST.Long_Unsigned is
321 T : S_LU;
322 L : SEO;
324 begin
325 Ada.Streams.Read (Stream.all, T, L);
327 if L < T'Last then
328 raise Err;
329 else
330 return To_LU (T);
331 end if;
332 end I_LU;
334 ----------
335 -- I_SF --
336 ----------
338 function I_SF (Stream : access RST) return Short_Float is
339 T : S_SF;
340 L : SEO;
342 begin
343 Ada.Streams.Read (Stream.all, T, L);
345 if L < T'Last then
346 raise Err;
347 else
348 return To_SF (T);
349 end if;
350 end I_SF;
352 ----------
353 -- I_SI --
354 ----------
356 function I_SI (Stream : access RST) return Short_Integer is
357 T : S_SI;
358 L : SEO;
360 begin
361 Ada.Streams.Read (Stream.all, T, L);
363 if L < T'Last then
364 raise Err;
365 else
366 return To_SI (T);
367 end if;
368 end I_SI;
370 -----------
371 -- I_SSI --
372 -----------
374 function I_SSI (Stream : access RST) return Short_Short_Integer is
375 T : S_SSI;
376 L : SEO;
378 begin
379 Ada.Streams.Read (Stream.all, T, L);
381 if L < T'Last then
382 raise Err;
383 else
384 return To_SSI (T);
385 end if;
386 end I_SSI;
388 -----------
389 -- I_SSU --
390 -----------
392 function I_SSU (Stream : access RST) return UST.Short_Short_Unsigned is
393 T : S_SSU;
394 L : SEO;
396 begin
397 Ada.Streams.Read (Stream.all, T, L);
399 if L < T'Last then
400 raise Err;
401 else
402 return To_SSU (T);
403 end if;
404 end I_SSU;
406 ----------
407 -- I_SU --
408 ----------
410 function I_SU (Stream : access RST) return UST.Short_Unsigned is
411 T : S_SU;
412 L : SEO;
414 begin
415 Ada.Streams.Read (Stream.all, T, L);
417 if L < T'Last then
418 raise Err;
419 else
420 return To_SU (T);
421 end if;
422 end I_SU;
424 ---------
425 -- I_U --
426 ---------
428 function I_U (Stream : access RST) return UST.Unsigned is
429 T : S_U;
430 L : SEO;
432 begin
433 Ada.Streams.Read (Stream.all, T, L);
435 if L < T'Last then
436 raise Err;
437 else
438 return To_U (T);
439 end if;
440 end I_U;
442 ----------
443 -- I_WC --
444 ----------
446 function I_WC (Stream : access RST) return Wide_Character is
447 T : S_WC;
448 L : SEO;
450 begin
451 Ada.Streams.Read (Stream.all, T, L);
453 if L < T'Last then
454 raise Err;
455 else
456 return To_WC (T);
457 end if;
458 end I_WC;
460 ----------
461 -- W_AD --
462 ----------
464 procedure W_AD (Stream : access RST; Item : in Fat_Pointer) is
465 T : constant S_AD := From_AD (Item);
467 begin
468 Ada.Streams.Write (Stream.all, T);
469 end W_AD;
471 ----------
472 -- W_AS --
473 ----------
475 procedure W_AS (Stream : access RST; Item : in Thin_Pointer) is
476 T : constant S_AS := From_AS (Item);
478 begin
479 Ada.Streams.Write (Stream.all, T);
480 end W_AS;
482 ---------
483 -- W_B --
484 ---------
486 procedure W_B (Stream : access RST; Item : in Boolean) is
487 T : S_B;
489 begin
490 T (1) := Boolean'Pos (Item);
491 Ada.Streams.Write (Stream.all, T);
492 end W_B;
494 ---------
495 -- W_C --
496 ---------
498 procedure W_C (Stream : access RST; Item : in Character) is
499 T : S_C;
501 begin
502 T (1) := Character'Pos (Item);
503 Ada.Streams.Write (Stream.all, T);
504 end W_C;
506 ---------
507 -- W_F --
508 ---------
510 procedure W_F (Stream : access RST; Item : in Float) is
511 T : constant S_F := From_F (Item);
513 begin
514 Ada.Streams.Write (Stream.all, T);
515 end W_F;
517 ---------
518 -- W_I --
519 ---------
521 procedure W_I (Stream : access RST; Item : in Integer) is
522 T : constant S_I := From_I (Item);
524 begin
525 Ada.Streams.Write (Stream.all, T);
526 end W_I;
528 ----------
529 -- W_LF --
530 ----------
532 procedure W_LF (Stream : access RST; Item : in Long_Float) is
533 T : constant S_LF := From_LF (Item);
535 begin
536 Ada.Streams.Write (Stream.all, T);
537 end W_LF;
539 ----------
540 -- W_LI --
541 ----------
543 procedure W_LI (Stream : access RST; Item : in Long_Integer) is
544 T : constant S_LI := From_LI (Item);
546 begin
547 Ada.Streams.Write (Stream.all, T);
548 end W_LI;
550 -----------
551 -- W_LLF --
552 -----------
554 procedure W_LLF (Stream : access RST; Item : in Long_Long_Float) is
555 T : constant S_LLF := From_LLF (Item);
557 begin
558 Ada.Streams.Write (Stream.all, T);
559 end W_LLF;
561 -----------
562 -- W_LLI --
563 -----------
565 procedure W_LLI (Stream : access RST; Item : in Long_Long_Integer) is
566 T : constant S_LLI := From_LLI (Item);
568 begin
569 Ada.Streams.Write (Stream.all, T);
570 end W_LLI;
572 -----------
573 -- W_LLU --
574 -----------
576 procedure W_LLU (Stream : access RST; Item : in UST.Long_Long_Unsigned) is
577 T : constant S_LLU := From_LLU (Item);
579 begin
580 Ada.Streams.Write (Stream.all, T);
581 end W_LLU;
583 ----------
584 -- W_LU --
585 ----------
587 procedure W_LU (Stream : access RST; Item : in UST.Long_Unsigned) is
588 T : constant S_LU := From_LU (Item);
590 begin
591 Ada.Streams.Write (Stream.all, T);
592 end W_LU;
594 ----------
595 -- W_SF --
596 ----------
598 procedure W_SF (Stream : access RST; Item : in Short_Float) is
599 T : constant S_SF := From_SF (Item);
601 begin
602 Ada.Streams.Write (Stream.all, T);
603 end W_SF;
605 ----------
606 -- W_SI --
607 ----------
609 procedure W_SI (Stream : access RST; Item : in Short_Integer) is
610 T : constant S_SI := From_SI (Item);
612 begin
613 Ada.Streams.Write (Stream.all, T);
614 end W_SI;
616 -----------
617 -- W_SSI --
618 -----------
620 procedure W_SSI (Stream : access RST; Item : in Short_Short_Integer) is
621 T : constant S_SSI := From_SSI (Item);
623 begin
624 Ada.Streams.Write (Stream.all, T);
625 end W_SSI;
627 -----------
628 -- W_SSU --
629 -----------
631 procedure W_SSU (Stream : access RST; Item : in UST.Short_Short_Unsigned) is
632 T : constant S_SSU := From_SSU (Item);
634 begin
635 Ada.Streams.Write (Stream.all, T);
636 end W_SSU;
638 ----------
639 -- W_SU --
640 ----------
642 procedure W_SU (Stream : access RST; Item : in UST.Short_Unsigned) is
643 T : constant S_SU := From_SU (Item);
645 begin
646 Ada.Streams.Write (Stream.all, T);
647 end W_SU;
649 ---------
650 -- W_U --
651 ---------
653 procedure W_U (Stream : access RST; Item : in UST.Unsigned) is
654 T : constant S_U := From_U (Item);
656 begin
657 Ada.Streams.Write (Stream.all, T);
658 end W_U;
660 ----------
661 -- W_WC --
662 ----------
664 procedure W_WC (Stream : access RST; Item : in Wide_Character) is
665 T : constant S_WC := From_WC (Item);
667 begin
668 Ada.Streams.Write (Stream.all, T);
669 end W_WC;
671 end System.Stream_Attributes;