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1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT COMPILER COMPONENTS --
4 -- --
5 -- S Y S T E M . A U X _ D E C --
6 -- --
7 -- S p e c --
8 -- --
9 -- Copyright (C) 1996-2009, 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 ------------------------------------------------------------------------------
32 -- This package contains definitions that are designed to be compatible
33 -- with the extra definitions in package System for DEC Ada implementations.
35 -- These definitions can be used directly by withing this package, or merged
36 -- with System using pragma Extend_System (Aux_DEC)
38 -- This is the VMS 64 bit version
40 with Ada.Unchecked_Conversion;
42 package System.Aux_DEC is
43 pragma Preelaborate;
45 type Short_Integer_Address is
46 range -2 ** (32 - 1) .. +2 ** (32 - 1) - 1;
47 -- Integer literals cannot appear naked in an address context, as a
48 -- result the bounds of Short_Address cannot be given simply as 2^32 etc.
50 subtype Short_Address is Address
51 range Address (Short_Integer_Address'First) ..
52 Address (Short_Integer_Address'Last);
53 for Short_Address'Object_Size use 32;
54 -- This subtype allows addresses to be converted from 64 bits to 32 bits
55 -- with an appropriate range check. Note that since this is a subtype of
56 -- type System.Address, the same limitations apply to this subtype. Namely
57 -- there are no visible arithmetic operations, and integer literals are
58 -- not available.
60 Short_Memory_Size : constant := 2 ** 32;
61 -- Defined for convenience of porting
63 type Integer_8 is range -2 ** (8 - 1) .. +2 ** (8 - 1) - 1;
64 for Integer_8'Size use 8;
66 type Integer_16 is range -2 ** (16 - 1) .. +2 ** (16 - 1) - 1;
67 for Integer_16'Size use 16;
69 type Integer_32 is range -2 ** (32 - 1) .. +2 ** (32 - 1) - 1;
70 for Integer_32'Size use 32;
72 type Integer_64 is range -2 ** (64 - 1) .. +2 ** (64 - 1) - 1;
73 for Integer_64'Size use 64;
75 type Integer_8_Array is array (Integer range <>) of Integer_8;
76 type Integer_16_Array is array (Integer range <>) of Integer_16;
77 type Integer_32_Array is array (Integer range <>) of Integer_32;
78 type Integer_64_Array is array (Integer range <>) of Integer_64;
79 -- These array types are not in all versions of DEC System, and in fact it
80 -- is not quite clear why they are in some and not others, but since they
81 -- definitely appear in some versions, we include them unconditionally.
83 type Largest_Integer is range Min_Int .. Max_Int;
85 type AST_Handler is private;
87 No_AST_Handler : constant AST_Handler;
89 type Type_Class is
90 (Type_Class_Enumeration,
91 Type_Class_Integer,
92 Type_Class_Fixed_Point,
93 Type_Class_Floating_Point,
94 Type_Class_Array,
95 Type_Class_Record,
96 Type_Class_Access,
97 Type_Class_Task, -- also in Ada 95 protected
98 Type_Class_Address);
100 function "not" (Left : Largest_Integer) return Largest_Integer;
101 function "and" (Left, Right : Largest_Integer) return Largest_Integer;
102 function "or" (Left, Right : Largest_Integer) return Largest_Integer;
103 function "xor" (Left, Right : Largest_Integer) return Largest_Integer;
105 Address_Zero : constant Address;
106 No_Addr : constant Address;
107 Address_Size : constant := Standard'Address_Size;
108 Short_Address_Size : constant := 32;
110 function "+" (Left : Address; Right : Integer) return Address;
111 function "+" (Left : Integer; Right : Address) return Address;
112 function "-" (Left : Address; Right : Address) return Integer;
113 function "-" (Left : Address; Right : Integer) return Address;
115 generic
116 type Target is private;
117 function Fetch_From_Address (A : Address) return Target;
119 generic
120 type Target is private;
121 procedure Assign_To_Address (A : Address; T : Target);
123 -- Floating point type declarations for VAX floating point data types
125 pragma Warnings (Off);
126 -- ??? needs comment
128 type F_Float is digits 6;
129 pragma Float_Representation (VAX_Float, F_Float);
131 type D_Float is digits 9;
132 pragma Float_Representation (Vax_Float, D_Float);
134 type G_Float is digits 15;
135 pragma Float_Representation (Vax_Float, G_Float);
137 -- Floating point type declarations for IEEE floating point data types
139 type IEEE_Single_Float is digits 6;
140 pragma Float_Representation (IEEE_Float, IEEE_Single_Float);
142 type IEEE_Double_Float is digits 15;
143 pragma Float_Representation (IEEE_Float, IEEE_Double_Float);
145 pragma Warnings (On);
147 Non_Ada_Error : exception;
149 -- Hardware-oriented types and functions
151 type Bit_Array is array (Integer range <>) of Boolean;
152 pragma Pack (Bit_Array);
154 subtype Bit_Array_8 is Bit_Array (0 .. 7);
155 subtype Bit_Array_16 is Bit_Array (0 .. 15);
156 subtype Bit_Array_32 is Bit_Array (0 .. 31);
157 subtype Bit_Array_64 is Bit_Array (0 .. 63);
159 type Unsigned_Byte is range 0 .. 255;
160 for Unsigned_Byte'Size use 8;
162 function "not" (Left : Unsigned_Byte) return Unsigned_Byte;
163 function "and" (Left, Right : Unsigned_Byte) return Unsigned_Byte;
164 function "or" (Left, Right : Unsigned_Byte) return Unsigned_Byte;
165 function "xor" (Left, Right : Unsigned_Byte) return Unsigned_Byte;
167 function To_Unsigned_Byte (X : Bit_Array_8) return Unsigned_Byte;
168 function To_Bit_Array_8 (X : Unsigned_Byte) return Bit_Array_8;
170 type Unsigned_Byte_Array is array (Integer range <>) of Unsigned_Byte;
172 type Unsigned_Word is range 0 .. 65535;
173 for Unsigned_Word'Size use 16;
175 function "not" (Left : Unsigned_Word) return Unsigned_Word;
176 function "and" (Left, Right : Unsigned_Word) return Unsigned_Word;
177 function "or" (Left, Right : Unsigned_Word) return Unsigned_Word;
178 function "xor" (Left, Right : Unsigned_Word) return Unsigned_Word;
180 function To_Unsigned_Word (X : Bit_Array_16) return Unsigned_Word;
181 function To_Bit_Array_16 (X : Unsigned_Word) return Bit_Array_16;
183 type Unsigned_Word_Array is array (Integer range <>) of Unsigned_Word;
185 type Unsigned_Longword is range -2_147_483_648 .. 2_147_483_647;
186 for Unsigned_Longword'Size use 32;
188 function "not" (Left : Unsigned_Longword) return Unsigned_Longword;
189 function "and" (Left, Right : Unsigned_Longword) return Unsigned_Longword;
190 function "or" (Left, Right : Unsigned_Longword) return Unsigned_Longword;
191 function "xor" (Left, Right : Unsigned_Longword) return Unsigned_Longword;
193 function To_Unsigned_Longword (X : Bit_Array_32) return Unsigned_Longword;
194 function To_Bit_Array_32 (X : Unsigned_Longword) return Bit_Array_32;
196 type Unsigned_Longword_Array is
197 array (Integer range <>) of Unsigned_Longword;
199 type Unsigned_32 is range 0 .. 4_294_967_295;
200 for Unsigned_32'Size use 32;
202 function "not" (Left : Unsigned_32) return Unsigned_32;
203 function "and" (Left, Right : Unsigned_32) return Unsigned_32;
204 function "or" (Left, Right : Unsigned_32) return Unsigned_32;
205 function "xor" (Left, Right : Unsigned_32) return Unsigned_32;
207 function To_Unsigned_32 (X : Bit_Array_32) return Unsigned_32;
208 function To_Bit_Array_32 (X : Unsigned_32) return Bit_Array_32;
210 type Unsigned_Quadword is record
211 L0 : Unsigned_Longword;
212 L1 : Unsigned_Longword;
213 end record;
215 for Unsigned_Quadword'Size use 64;
216 for Unsigned_Quadword'Alignment use
217 Integer'Min (8, Standard'Maximum_Alignment);
219 function "not" (Left : Unsigned_Quadword) return Unsigned_Quadword;
220 function "and" (Left, Right : Unsigned_Quadword) return Unsigned_Quadword;
221 function "or" (Left, Right : Unsigned_Quadword) return Unsigned_Quadword;
222 function "xor" (Left, Right : Unsigned_Quadword) return Unsigned_Quadword;
224 function To_Unsigned_Quadword (X : Bit_Array_64) return Unsigned_Quadword;
225 function To_Bit_Array_64 (X : Unsigned_Quadword) return Bit_Array_64;
227 type Unsigned_Quadword_Array is
228 array (Integer range <>) of Unsigned_Quadword;
230 function To_Address (X : Integer) return Address;
231 pragma Pure_Function (To_Address);
233 function To_Address_Long (X : Unsigned_Longword) return Address;
234 pragma Pure_Function (To_Address_Long);
236 function To_Integer (X : Address) return Integer;
238 function To_Unsigned_Longword (X : Address) return Unsigned_Longword;
239 function To_Unsigned_Longword (X : AST_Handler) return Unsigned_Longword;
241 -- Conventional names for static subtypes of type UNSIGNED_LONGWORD
243 subtype Unsigned_1 is Unsigned_Longword range 0 .. 2** 1-1;
244 subtype Unsigned_2 is Unsigned_Longword range 0 .. 2** 2-1;
245 subtype Unsigned_3 is Unsigned_Longword range 0 .. 2** 3-1;
246 subtype Unsigned_4 is Unsigned_Longword range 0 .. 2** 4-1;
247 subtype Unsigned_5 is Unsigned_Longword range 0 .. 2** 5-1;
248 subtype Unsigned_6 is Unsigned_Longword range 0 .. 2** 6-1;
249 subtype Unsigned_7 is Unsigned_Longword range 0 .. 2** 7-1;
250 subtype Unsigned_8 is Unsigned_Longword range 0 .. 2** 8-1;
251 subtype Unsigned_9 is Unsigned_Longword range 0 .. 2** 9-1;
252 subtype Unsigned_10 is Unsigned_Longword range 0 .. 2**10-1;
253 subtype Unsigned_11 is Unsigned_Longword range 0 .. 2**11-1;
254 subtype Unsigned_12 is Unsigned_Longword range 0 .. 2**12-1;
255 subtype Unsigned_13 is Unsigned_Longword range 0 .. 2**13-1;
256 subtype Unsigned_14 is Unsigned_Longword range 0 .. 2**14-1;
257 subtype Unsigned_15 is Unsigned_Longword range 0 .. 2**15-1;
258 subtype Unsigned_16 is Unsigned_Longword range 0 .. 2**16-1;
259 subtype Unsigned_17 is Unsigned_Longword range 0 .. 2**17-1;
260 subtype Unsigned_18 is Unsigned_Longword range 0 .. 2**18-1;
261 subtype Unsigned_19 is Unsigned_Longword range 0 .. 2**19-1;
262 subtype Unsigned_20 is Unsigned_Longword range 0 .. 2**20-1;
263 subtype Unsigned_21 is Unsigned_Longword range 0 .. 2**21-1;
264 subtype Unsigned_22 is Unsigned_Longword range 0 .. 2**22-1;
265 subtype Unsigned_23 is Unsigned_Longword range 0 .. 2**23-1;
266 subtype Unsigned_24 is Unsigned_Longword range 0 .. 2**24-1;
267 subtype Unsigned_25 is Unsigned_Longword range 0 .. 2**25-1;
268 subtype Unsigned_26 is Unsigned_Longword range 0 .. 2**26-1;
269 subtype Unsigned_27 is Unsigned_Longword range 0 .. 2**27-1;
270 subtype Unsigned_28 is Unsigned_Longword range 0 .. 2**28-1;
271 subtype Unsigned_29 is Unsigned_Longword range 0 .. 2**29-1;
272 subtype Unsigned_30 is Unsigned_Longword range 0 .. 2**30-1;
273 subtype Unsigned_31 is Unsigned_Longword range 0 .. 2**31-1;
275 -- Function for obtaining global symbol values
277 function Import_Value (Symbol : String) return Unsigned_Longword;
278 function Import_Address (Symbol : String) return Address;
279 function Import_Largest_Value (Symbol : String) return Largest_Integer;
281 pragma Import (Intrinsic, Import_Value);
282 pragma Import (Intrinsic, Import_Address);
283 pragma Import (Intrinsic, Import_Largest_Value);
285 -- For the following declarations, note that the declaration without
286 -- a Retry_Count parameter means to retry infinitely. A value of zero
287 -- for the Retry_Count parameter means do not retry.
289 -- Interlocked-instruction procedures
291 procedure Clear_Interlocked
292 (Bit : in out Boolean;
293 Old_Value : out Boolean);
295 procedure Set_Interlocked
296 (Bit : in out Boolean;
297 Old_Value : out Boolean);
299 type Aligned_Word is record
300 Value : Short_Integer;
301 end record;
303 for Aligned_Word'Alignment use
304 Integer'Min (2, Standard'Maximum_Alignment);
306 procedure Clear_Interlocked
307 (Bit : in out Boolean;
308 Old_Value : out Boolean;
309 Retry_Count : Natural;
310 Success_Flag : out Boolean);
312 procedure Set_Interlocked
313 (Bit : in out Boolean;
314 Old_Value : out Boolean;
315 Retry_Count : Natural;
316 Success_Flag : out Boolean);
318 procedure Add_Interlocked
319 (Addend : Short_Integer;
320 Augend : in out Aligned_Word;
321 Sign : out Integer);
323 type Aligned_Integer is record
324 Value : Integer;
325 end record;
327 for Aligned_Integer'Alignment use
328 Integer'Min (4, Standard'Maximum_Alignment);
330 type Aligned_Long_Integer is record
331 Value : Long_Integer;
332 end record;
334 for Aligned_Long_Integer'Alignment use
335 Integer'Min (8, Standard'Maximum_Alignment);
337 -- For the following declarations, note that the declaration without
338 -- a Retry_Count parameter mean to retry infinitely. A value of zero
339 -- for the Retry_Count means do not retry.
341 procedure Add_Atomic
342 (To : in out Aligned_Integer;
343 Amount : Integer);
345 procedure Add_Atomic
346 (To : in out Aligned_Integer;
347 Amount : Integer;
348 Retry_Count : Natural;
349 Old_Value : out Integer;
350 Success_Flag : out Boolean);
352 procedure Add_Atomic
353 (To : in out Aligned_Long_Integer;
354 Amount : Long_Integer);
356 procedure Add_Atomic
357 (To : in out Aligned_Long_Integer;
358 Amount : Long_Integer;
359 Retry_Count : Natural;
360 Old_Value : out Long_Integer;
361 Success_Flag : out Boolean);
363 procedure And_Atomic
364 (To : in out Aligned_Integer;
365 From : Integer);
367 procedure And_Atomic
368 (To : in out Aligned_Integer;
369 From : Integer;
370 Retry_Count : Natural;
371 Old_Value : out Integer;
372 Success_Flag : out Boolean);
374 procedure And_Atomic
375 (To : in out Aligned_Long_Integer;
376 From : Long_Integer);
378 procedure And_Atomic
379 (To : in out Aligned_Long_Integer;
380 From : Long_Integer;
381 Retry_Count : Natural;
382 Old_Value : out Long_Integer;
383 Success_Flag : out Boolean);
385 procedure Or_Atomic
386 (To : in out Aligned_Integer;
387 From : Integer);
389 procedure Or_Atomic
390 (To : in out Aligned_Integer;
391 From : Integer;
392 Retry_Count : Natural;
393 Old_Value : out Integer;
394 Success_Flag : out Boolean);
396 procedure Or_Atomic
397 (To : in out Aligned_Long_Integer;
398 From : Long_Integer);
400 procedure Or_Atomic
401 (To : in out Aligned_Long_Integer;
402 From : Long_Integer;
403 Retry_Count : Natural;
404 Old_Value : out Long_Integer;
405 Success_Flag : out Boolean);
407 type Insq_Status is
408 (Fail_No_Lock, OK_Not_First, OK_First);
410 for Insq_Status use
411 (Fail_No_Lock => -1,
412 OK_Not_First => 0,
413 OK_First => +1);
415 type Remq_Status is (
416 Fail_No_Lock,
417 Fail_Was_Empty,
418 OK_Not_Empty,
419 OK_Empty);
421 for Remq_Status use
422 (Fail_No_Lock => -1,
423 Fail_Was_Empty => 0,
424 OK_Not_Empty => +1,
425 OK_Empty => +2);
427 procedure Insqhi
428 (Item : Address;
429 Header : Address;
430 Status : out Insq_Status);
432 procedure Remqhi
433 (Header : Address;
434 Item : out Address;
435 Status : out Remq_Status);
437 procedure Insqti
438 (Item : Address;
439 Header : Address;
440 Status : out Insq_Status);
442 procedure Remqti
443 (Header : Address;
444 Item : out Address;
445 Status : out Remq_Status);
447 private
449 Address_Zero : constant Address := Null_Address;
450 No_Addr : constant Address := Null_Address;
452 -- An AST_Handler value is from a typing point of view simply a pointer
453 -- to a procedure taking a single 64bit parameter. However, this
454 -- is a bit misleading, because the data that this pointer references is
455 -- highly stylized. See body of System.AST_Handling for full details.
457 type AST_Handler is access procedure (Param : Long_Integer);
458 No_AST_Handler : constant AST_Handler := null;
460 -- Other operators have incorrect profiles. It would be nice to make
461 -- them intrinsic, since the backend can handle them, but the front
462 -- end is not prepared to deal with them, so at least inline them.
464 pragma Inline_Always ("+");
465 pragma Inline_Always ("-");
466 pragma Inline_Always ("not");
467 pragma Inline_Always ("and");
468 pragma Inline_Always ("or");
469 pragma Inline_Always ("xor");
471 -- Other inlined subprograms
473 pragma Inline_Always (Fetch_From_Address);
474 pragma Inline_Always (Assign_To_Address);
476 -- Synchronization related subprograms. Mechanism is explicitly set
477 -- so that the critical parameters are passed by reference.
478 -- Without this, the parameters are passed by copy, creating load/store
479 -- race conditions. We also inline them, since this seems more in the
480 -- spirit of the original (hardware intrinsic) routines.
482 pragma Export_Procedure
483 (Clear_Interlocked,
484 External => "system__aux_dec__clear_interlocked__1",
485 Parameter_Types => (Boolean, Boolean),
486 Mechanism => (Reference, Reference));
487 pragma Export_Procedure
488 (Clear_Interlocked,
489 External => "system__aux_dec__clear_interlocked__2",
490 Parameter_Types => (Boolean, Boolean, Natural, Boolean),
491 Mechanism => (Reference, Reference, Value, Reference));
492 pragma Inline_Always (Clear_Interlocked);
494 pragma Export_Procedure
495 (Set_Interlocked,
496 External => "system__aux_dec__set_interlocked__1",
497 Parameter_Types => (Boolean, Boolean),
498 Mechanism => (Reference, Reference));
499 pragma Export_Procedure
500 (Set_Interlocked,
501 External => "system__aux_dec__set_interlocked__2",
502 Parameter_Types => (Boolean, Boolean, Natural, Boolean),
503 Mechanism => (Reference, Reference, Value, Reference));
504 pragma Inline_Always (Set_Interlocked);
506 pragma Export_Procedure
507 (Add_Interlocked,
508 External => "system__aux_dec__add_interlocked__1",
509 Mechanism => (Value, Reference, Reference));
510 pragma Inline_Always (Add_Interlocked);
512 pragma Export_Procedure
513 (Add_Atomic,
514 External => "system__aux_dec__add_atomic__1",
515 Parameter_Types => (Aligned_Integer, Integer),
516 Mechanism => (Reference, Value));
517 pragma Export_Procedure
518 (Add_Atomic,
519 External => "system__aux_dec__add_atomic__2",
520 Parameter_Types => (Aligned_Integer, Integer, Natural, Integer, Boolean),
521 Mechanism => (Reference, Value, Value, Reference, Reference));
522 pragma Export_Procedure
523 (Add_Atomic,
524 External => "system__aux_dec__add_atomic__3",
525 Parameter_Types => (Aligned_Long_Integer, Long_Integer),
526 Mechanism => (Reference, Value));
527 pragma Export_Procedure
528 (Add_Atomic,
529 External => "system__aux_dec__add_atomic__4",
530 Parameter_Types => (Aligned_Long_Integer, Long_Integer, Natural,
531 Long_Integer, Boolean),
532 Mechanism => (Reference, Value, Value, Reference, Reference));
533 pragma Inline_Always (Add_Atomic);
535 pragma Export_Procedure
536 (And_Atomic,
537 External => "system__aux_dec__and_atomic__1",
538 Parameter_Types => (Aligned_Integer, Integer),
539 Mechanism => (Reference, Value));
540 pragma Export_Procedure
541 (And_Atomic,
542 External => "system__aux_dec__and_atomic__2",
543 Parameter_Types => (Aligned_Integer, Integer, Natural, Integer, Boolean),
544 Mechanism => (Reference, Value, Value, Reference, Reference));
545 pragma Export_Procedure
546 (And_Atomic,
547 External => "system__aux_dec__and_atomic__3",
548 Parameter_Types => (Aligned_Long_Integer, Long_Integer),
549 Mechanism => (Reference, Value));
550 pragma Export_Procedure
551 (And_Atomic,
552 External => "system__aux_dec__and_atomic__4",
553 Parameter_Types => (Aligned_Long_Integer, Long_Integer, Natural,
554 Long_Integer, Boolean),
555 Mechanism => (Reference, Value, Value, Reference, Reference));
556 pragma Inline_Always (And_Atomic);
558 pragma Export_Procedure
559 (Or_Atomic,
560 External => "system__aux_dec__or_atomic__1",
561 Parameter_Types => (Aligned_Integer, Integer),
562 Mechanism => (Reference, Value));
563 pragma Export_Procedure
564 (Or_Atomic,
565 External => "system__aux_dec__or_atomic__2",
566 Parameter_Types => (Aligned_Integer, Integer, Natural, Integer, Boolean),
567 Mechanism => (Reference, Value, Value, Reference, Reference));
568 pragma Export_Procedure
569 (Or_Atomic,
570 External => "system__aux_dec__or_atomic__3",
571 Parameter_Types => (Aligned_Long_Integer, Long_Integer),
572 Mechanism => (Reference, Value));
573 pragma Export_Procedure
574 (Or_Atomic,
575 External => "system__aux_dec__or_atomic__4",
576 Parameter_Types => (Aligned_Long_Integer, Long_Integer, Natural,
577 Long_Integer, Boolean),
578 Mechanism => (Reference, Value, Value, Reference, Reference));
579 pragma Inline_Always (Or_Atomic);
581 -- Provide proper unchecked conversion definitions for transfer
582 -- functions. Note that we need this level of indirection because
583 -- the formal parameter name is X and not Source (and this is indeed
584 -- detectable by a program)
586 function To_Unsigned_Byte_A is new
587 Ada.Unchecked_Conversion (Bit_Array_8, Unsigned_Byte);
589 function To_Unsigned_Byte (X : Bit_Array_8) return Unsigned_Byte
590 renames To_Unsigned_Byte_A;
592 function To_Bit_Array_8_A is new
593 Ada.Unchecked_Conversion (Unsigned_Byte, Bit_Array_8);
595 function To_Bit_Array_8 (X : Unsigned_Byte) return Bit_Array_8
596 renames To_Bit_Array_8_A;
598 function To_Unsigned_Word_A is new
599 Ada.Unchecked_Conversion (Bit_Array_16, Unsigned_Word);
601 function To_Unsigned_Word (X : Bit_Array_16) return Unsigned_Word
602 renames To_Unsigned_Word_A;
604 function To_Bit_Array_16_A is new
605 Ada.Unchecked_Conversion (Unsigned_Word, Bit_Array_16);
607 function To_Bit_Array_16 (X : Unsigned_Word) return Bit_Array_16
608 renames To_Bit_Array_16_A;
610 function To_Unsigned_Longword_A is new
611 Ada.Unchecked_Conversion (Bit_Array_32, Unsigned_Longword);
613 function To_Unsigned_Longword (X : Bit_Array_32) return Unsigned_Longword
614 renames To_Unsigned_Longword_A;
616 function To_Bit_Array_32_A is new
617 Ada.Unchecked_Conversion (Unsigned_Longword, Bit_Array_32);
619 function To_Bit_Array_32 (X : Unsigned_Longword) return Bit_Array_32
620 renames To_Bit_Array_32_A;
622 function To_Unsigned_32_A is new
623 Ada.Unchecked_Conversion (Bit_Array_32, Unsigned_32);
625 function To_Unsigned_32 (X : Bit_Array_32) return Unsigned_32
626 renames To_Unsigned_32_A;
628 function To_Bit_Array_32_A is new
629 Ada.Unchecked_Conversion (Unsigned_32, Bit_Array_32);
631 function To_Bit_Array_32 (X : Unsigned_32) return Bit_Array_32
632 renames To_Bit_Array_32_A;
634 function To_Unsigned_Quadword_A is new
635 Ada.Unchecked_Conversion (Bit_Array_64, Unsigned_Quadword);
637 function To_Unsigned_Quadword (X : Bit_Array_64) return Unsigned_Quadword
638 renames To_Unsigned_Quadword_A;
640 function To_Bit_Array_64_A is new
641 Ada.Unchecked_Conversion (Unsigned_Quadword, Bit_Array_64);
643 function To_Bit_Array_64 (X : Unsigned_Quadword) return Bit_Array_64
644 renames To_Bit_Array_64_A;
646 pragma Warnings (Off);
647 -- Turn warnings off. This is needed for systems with 64-bit integers,
648 -- where some of these operations are of dubious meaning, but we do not
649 -- want warnings when we compile on such systems.
651 function To_Address_A is new
652 Ada.Unchecked_Conversion (Integer, Address);
653 pragma Pure_Function (To_Address_A);
655 function To_Address (X : Integer) return Address
656 renames To_Address_A;
657 pragma Pure_Function (To_Address);
659 function To_Address_Long_A is new
660 Ada.Unchecked_Conversion (Unsigned_Longword, Address);
661 pragma Pure_Function (To_Address_Long_A);
663 function To_Address_Long (X : Unsigned_Longword) return Address
664 renames To_Address_Long_A;
665 pragma Pure_Function (To_Address_Long);
667 function To_Integer_A is new
668 Ada.Unchecked_Conversion (Address, Integer);
670 function To_Integer (X : Address) return Integer
671 renames To_Integer_A;
673 function To_Unsigned_Longword_A is new
674 Ada.Unchecked_Conversion (Address, Unsigned_Longword);
676 function To_Unsigned_Longword (X : Address) return Unsigned_Longword
677 renames To_Unsigned_Longword_A;
679 function To_Unsigned_Longword_A is new
680 Ada.Unchecked_Conversion (AST_Handler, Unsigned_Longword);
682 function To_Unsigned_Longword (X : AST_Handler) return Unsigned_Longword
683 renames To_Unsigned_Longword_A;
685 pragma Warnings (On);
687 end System.Aux_DEC;