2010-12-20 Tobias Burnus <burnus@net-b.de>
[official-gcc.git] / gcc / ada / stand.ads
blob46bbe4cb8d3d63c44759b50736e521cf17d657bc
1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT COMPILER COMPONENTS --
4 -- --
5 -- S T A N D --
6 -- --
7 -- S p e c --
8 -- --
9 -- Copyright (C) 1992-2010, 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 the declarations of entities in package Standard,
33 -- These values are initialized either by calling CStand.Create_Standard,
34 -- or by calling Stand.Tree_Read.
36 with Types; use Types;
38 package Stand is
40 type Standard_Entity_Type is (
41 -- This enumeration type contains an entry for each name in Standard
43 -- Package names
45 S_Standard,
46 S_ASCII,
48 -- Types and subtypes defined in package Standard (in the order in which
49 -- they appear in the RM, so that the declarations are in the right
50 -- order for the purposes of ASIS traversals
52 S_Boolean,
54 S_Short_Short_Integer,
55 S_Short_Integer,
56 S_Integer,
57 S_Long_Integer,
58 S_Long_Long_Integer,
60 S_Natural,
61 S_Positive,
63 S_Short_Float,
64 S_Float,
65 S_Long_Float,
66 S_Long_Long_Float,
68 S_Character,
69 S_Wide_Character,
70 S_Wide_Wide_Character,
72 S_String,
73 S_Wide_String,
74 S_Wide_Wide_String,
76 S_Duration,
78 -- Enumeration literals for type Boolean
80 S_False,
81 S_True,
83 -- Exceptions declared in package Standard
85 S_Constraint_Error,
86 S_Numeric_Error,
87 S_Program_Error,
88 S_Storage_Error,
89 S_Tasking_Error,
91 -- Binary Operators declared in package Standard
93 S_Op_Add,
94 S_Op_And,
95 S_Op_Concat,
96 S_Op_Concatw,
97 S_Op_Concatww,
98 S_Op_Divide,
99 S_Op_Eq,
100 S_Op_Expon,
101 S_Op_Ge,
102 S_Op_Gt,
103 S_Op_Le,
104 S_Op_Lt,
105 S_Op_Mod,
106 S_Op_Multiply,
107 S_Op_Ne,
108 S_Op_Or,
109 S_Op_Rem,
110 S_Op_Subtract,
111 S_Op_Xor,
113 -- Unary operators declared in package Standard
115 S_Op_Abs,
116 S_Op_Minus,
117 S_Op_Not,
118 S_Op_Plus,
120 -- Constants defined in package ASCII (with value in hex).
121 -- First the thirty-two C0 control characters)
123 S_NUL, -- 16#00#
124 S_SOH, -- 16#01#
125 S_STX, -- 16#02#
126 S_ETX, -- 16#03#
127 S_EOT, -- 16#04#
128 S_ENQ, -- 16#05#
129 S_ACK, -- 16#06#
130 S_BEL, -- 16#07#
131 S_BS, -- 16#08#
132 S_HT, -- 16#09#
133 S_LF, -- 16#0A#
134 S_VT, -- 16#0B#
135 S_FF, -- 16#0C#
136 S_CR, -- 16#0D#
137 S_SO, -- 16#0E#
138 S_SI, -- 16#0F#
139 S_DLE, -- 16#10#
140 S_DC1, -- 16#11#
141 S_DC2, -- 16#12#
142 S_DC3, -- 16#13#
143 S_DC4, -- 16#14#
144 S_NAK, -- 16#15#
145 S_SYN, -- 16#16#
146 S_ETB, -- 16#17#
147 S_CAN, -- 16#18#
148 S_EM, -- 16#19#
149 S_SUB, -- 16#1A#
150 S_ESC, -- 16#1B#
151 S_FS, -- 16#1C#
152 S_GS, -- 16#1D#
153 S_RS, -- 16#1E#
154 S_US, -- 16#1F#
156 -- Here are the ones for Colonel Whitaker's O26 keypunch!
158 S_Exclam, -- 16#21#
159 S_Quotation, -- 16#22#
160 S_Sharp, -- 16#23#
161 S_Dollar, -- 16#24#
162 S_Percent, -- 16#25#
163 S_Ampersand, -- 16#26#
165 S_Colon, -- 16#3A#
166 S_Semicolon, -- 16#3B#
168 S_Query, -- 16#3F#
169 S_At_Sign, -- 16#40#
171 S_L_Bracket, -- 16#5B#
172 S_Back_Slash, -- 16#5C#
173 S_R_Bracket, -- 16#5D#
174 S_Circumflex, -- 16#5E#
175 S_Underline, -- 16#5F#
176 S_Grave, -- 16#60#
178 S_LC_A, -- 16#61#
179 S_LC_B, -- 16#62#
180 S_LC_C, -- 16#63#
181 S_LC_D, -- 16#64#
182 S_LC_E, -- 16#65#
183 S_LC_F, -- 16#66#
184 S_LC_G, -- 16#67#
185 S_LC_H, -- 16#68#
186 S_LC_I, -- 16#69#
187 S_LC_J, -- 16#6A#
188 S_LC_K, -- 16#6B#
189 S_LC_L, -- 16#6C#
190 S_LC_M, -- 16#6D#
191 S_LC_N, -- 16#6E#
192 S_LC_O, -- 16#6F#
193 S_LC_P, -- 16#70#
194 S_LC_Q, -- 16#71#
195 S_LC_R, -- 16#72#
196 S_LC_S, -- 16#73#
197 S_LC_T, -- 16#74#
198 S_LC_U, -- 16#75#
199 S_LC_V, -- 16#76#
200 S_LC_W, -- 16#77#
201 S_LC_X, -- 16#78#
202 S_LC_Y, -- 16#79#
203 S_LC_Z, -- 16#7A#
205 S_L_BRACE, -- 16#7B#
206 S_BAR, -- 16#7C#
207 S_R_BRACE, -- 16#7D#
208 S_TILDE, -- 16#7E#
210 -- And one more control character, all on its own
212 S_DEL); -- 16#7F#
214 subtype S_Types is
215 Standard_Entity_Type range S_Boolean .. S_Duration;
217 subtype S_Exceptions is
218 Standard_Entity_Type range S_Constraint_Error .. S_Tasking_Error;
220 subtype S_ASCII_Names is
221 Standard_Entity_Type range S_NUL .. S_DEL;
223 subtype S_Binary_Ops is
224 Standard_Entity_Type range S_Op_Add .. S_Op_Xor;
226 subtype S_Unary_Ops is
227 Standard_Entity_Type range S_Op_Abs .. S_Op_Plus;
229 type Standard_Entity_Array_Type is array (Standard_Entity_Type) of Node_Id;
231 Standard_Entity : Standard_Entity_Array_Type;
232 -- This array contains pointers to the Defining Identifier nodes
233 -- for each of the entities defined in Standard_Entities_Type. It
234 -- is initialized by the Create_Standard procedure.
236 Standard_Package_Node : Node_Id;
237 -- Points to the N_Package_Declaration node for standard. Also
238 -- initialized by the Create_Standard procedure.
240 -- The following Entities are the pointers to the Defining Identifier
241 -- nodes for some visible entities defined in Standard_Entities_Type.
243 SE : Standard_Entity_Array_Type renames Standard_Entity;
245 Standard_Standard : Entity_Id renames SE (S_Standard);
247 Standard_ASCII : Entity_Id renames SE (S_ASCII);
248 Standard_Character : Entity_Id renames SE (S_Character);
249 Standard_Wide_Character : Entity_Id renames SE (S_Wide_Character);
250 Standard_Wide_Wide_Character : Entity_Id renames SE (S_Wide_Wide_Character);
251 Standard_String : Entity_Id renames SE (S_String);
252 Standard_Wide_String : Entity_Id renames SE (S_Wide_String);
253 Standard_Wide_Wide_String : Entity_Id renames SE (S_Wide_Wide_String);
255 Standard_Boolean : Entity_Id renames SE (S_Boolean);
256 Standard_False : Entity_Id renames SE (S_False);
257 Standard_True : Entity_Id renames SE (S_True);
259 Standard_Duration : Entity_Id renames SE (S_Duration);
261 Standard_Natural : Entity_Id renames SE (S_Natural);
262 Standard_Positive : Entity_Id renames SE (S_Positive);
264 Standard_Constraint_Error : Entity_Id renames SE (S_Constraint_Error);
265 Standard_Numeric_Error : Entity_Id renames SE (S_Numeric_Error);
266 Standard_Program_Error : Entity_Id renames SE (S_Program_Error);
267 Standard_Storage_Error : Entity_Id renames SE (S_Storage_Error);
268 Standard_Tasking_Error : Entity_Id renames SE (S_Tasking_Error);
270 Standard_Short_Float : Entity_Id renames SE (S_Short_Float);
271 Standard_Float : Entity_Id renames SE (S_Float);
272 Standard_Long_Float : Entity_Id renames SE (S_Long_Float);
273 Standard_Long_Long_Float : Entity_Id renames SE (S_Long_Long_Float);
275 Standard_Short_Short_Integer : Entity_Id renames SE (S_Short_Short_Integer);
276 Standard_Short_Integer : Entity_Id renames SE (S_Short_Integer);
277 Standard_Integer : Entity_Id renames SE (S_Integer);
278 Standard_Long_Integer : Entity_Id renames SE (S_Long_Integer);
279 Standard_Long_Long_Integer : Entity_Id renames SE (S_Long_Long_Integer);
281 Standard_Op_Add : Entity_Id renames SE (S_Op_Add);
282 Standard_Op_And : Entity_Id renames SE (S_Op_And);
283 Standard_Op_Concat : Entity_Id renames SE (S_Op_Concat);
284 Standard_Op_Concatw : Entity_Id renames SE (S_Op_Concatw);
285 Standard_Op_Concatww : Entity_Id renames SE (S_Op_Concatww);
286 Standard_Op_Divide : Entity_Id renames SE (S_Op_Divide);
287 Standard_Op_Eq : Entity_Id renames SE (S_Op_Eq);
288 Standard_Op_Expon : Entity_Id renames SE (S_Op_Expon);
289 Standard_Op_Ge : Entity_Id renames SE (S_Op_Ge);
290 Standard_Op_Gt : Entity_Id renames SE (S_Op_Gt);
291 Standard_Op_Le : Entity_Id renames SE (S_Op_Le);
292 Standard_Op_Lt : Entity_Id renames SE (S_Op_Lt);
293 Standard_Op_Mod : Entity_Id renames SE (S_Op_Mod);
294 Standard_Op_Multiply : Entity_Id renames SE (S_Op_Multiply);
295 Standard_Op_Ne : Entity_Id renames SE (S_Op_Ne);
296 Standard_Op_Or : Entity_Id renames SE (S_Op_Or);
297 Standard_Op_Rem : Entity_Id renames SE (S_Op_Rem);
298 Standard_Op_Subtract : Entity_Id renames SE (S_Op_Subtract);
299 Standard_Op_Xor : Entity_Id renames SE (S_Op_Xor);
301 Standard_Op_Abs : Entity_Id renames SE (S_Op_Abs);
302 Standard_Op_Minus : Entity_Id renames SE (S_Op_Minus);
303 Standard_Op_Not : Entity_Id renames SE (S_Op_Not);
304 Standard_Op_Plus : Entity_Id renames SE (S_Op_Plus);
306 Last_Standard_Node_Id : Node_Id;
307 -- Highest Node_Id value used by Standard
309 Last_Standard_List_Id : List_Id;
310 -- Highest List_Id value used by Standard (including those used by
311 -- normal list headers, element list headers, and list elements)
313 Boolean_Literals : array (Boolean) of Entity_Id;
314 -- Entities for the two boolean literals, used by the expander
316 -------------------------------------
317 -- Semantic Phase Special Entities --
318 -------------------------------------
320 -- The semantic phase needs a number of entities for internal processing
321 -- that are logically at the level of Standard, and hence defined in this
322 -- package. However, they are never visible to a program, and are not
323 -- chained on to the Decls list of Standard. The names of all these
324 -- types are relevant only in certain debugging and error message
325 -- situations. They have names that are suitable for use in such
326 -- error messages (see body for actual names used).
328 Standard_Void_Type : Entity_Id;
329 -- This is a type used to represent the return type of procedures
331 Standard_Exception_Type : Entity_Id;
332 -- This is a type used to represent the Etype of exceptions
334 Standard_A_String : Entity_Id;
335 -- An access to String type used for building elements of tables
336 -- carrying the enumeration literal names.
338 Standard_A_Char : Entity_Id;
339 -- Access to character, used as a component of the exception type to
340 -- denote a thin pointer component.
342 Standard_Debug_Renaming_Type : Entity_Id;
343 -- A zero-size subtype of Integer, used as the type of variables used
344 -- to provide the debugger with name encodings for renaming declarations.
346 -- The entities labeled Any_xxx are used in situations where the full
347 -- characteristics of an entity are not yet known, e.g. Any_Character
348 -- is used to label a character literal before resolution is complete.
349 -- These entities are also used to construct appropriate references in
350 -- error messages ("expecting an integer type").
352 Any_Id : Entity_Id;
353 -- Used to represent some unknown identifier. Used to label undefined
354 -- identifier references to prevent cascaded errors.
356 Any_Type : Entity_Id;
357 -- Used to represent some unknown type. Plays an important role in
358 -- avoiding cascaded errors, since any node that remains labeled with
359 -- this type corresponds to an already issued error message. Any_Type
360 -- is propagated to avoid cascaded errors from a single type error.
362 Any_Access : Entity_Id;
363 -- Used to resolve the overloaded literal NULL
365 Any_Array : Entity_Id;
366 -- Used to represent some unknown array type
368 Any_Boolean : Entity_Id;
369 -- The context type of conditions in IF and WHILE statements
371 Any_Character : Entity_Id;
372 -- Any_Character is used to label character literals, which in general
373 -- will not have an explicit declaration (this is true of the predefined
374 -- character types).
376 Any_Composite : Entity_Id;
377 -- The type Any_Composite is used for aggregates before type resolution.
378 -- It is compatible with any array or non-limited record type.
380 Any_Discrete : Entity_Id;
381 -- Used to represent some unknown discrete type
383 Any_Fixed : Entity_Id;
384 -- Used to represent some unknown fixed-point type
386 Any_Integer : Entity_Id;
387 -- Used to represent some unknown integer type
389 Any_Modular : Entity_Id;
390 -- Used to represent the result type of a boolean operation on an
391 -- integer literal. The result is not Universal_Integer, because it is
392 -- only legal in a modular context.
394 Any_Numeric : Entity_Id;
395 -- Used to represent some unknown numeric type
397 Any_Real : Entity_Id;
398 -- Used to represent some unknown real type
400 Any_Scalar : Entity_Id;
401 -- Used to represent some unknown scalar type
403 Any_String : Entity_Id;
404 -- The type Any_String is used for string literals before type
405 -- resolution. It corresponds to array (Positive range <>) of character
406 -- where the component type is compatible with any character type,
407 -- not just Standard_Character.
409 Universal_Integer : Entity_Id;
410 -- Entity for universal integer type. The bounds of this type correspond
411 -- to the largest supported integer type (i.e. Long_Long_Integer). It is
412 -- the type used for runtime calculations in type universal integer.
414 Universal_Real : Entity_Id;
415 -- Entity for universal real type. The bounds of this type correspond to
416 -- to the largest supported real type (i.e. Long_Long_Float). It is the
417 -- type used for runtime calculations in type universal real. Note that
418 -- this type is always IEEE format, even if Long_Long_Float is Vax_Float
419 -- (and in that case the bounds don't correspond exactly).
421 Universal_Fixed : Entity_Id;
422 -- Entity for universal fixed type. This is a type with arbitrary
423 -- precision that can only appear in a context with a specific type.
424 -- Universal_Fixed labels the result of multiplication or division of
425 -- two fixed point numbers, and has no specified bounds (since, unlike
426 -- universal integer and universal real, it is never used for runtime
427 -- calculations).
429 Standard_Integer_8 : Entity_Id;
430 Standard_Integer_16 : Entity_Id;
431 Standard_Integer_32 : Entity_Id;
432 Standard_Integer_64 : Entity_Id;
433 -- These are signed integer types with the indicated sizes, They are
434 -- used for the underlying implementation types for fixed-point and
435 -- enumeration types.
437 Standard_Unsigned : Entity_Id;
438 -- An unsigned type of the same size as Standard_Integer
440 Abort_Signal : Entity_Id;
441 -- Entity for abort signal exception
443 Standard_Op_Rotate_Left : Entity_Id;
444 Standard_Op_Rotate_Right : Entity_Id;
445 Standard_Op_Shift_Left : Entity_Id;
446 Standard_Op_Shift_Right : Entity_Id;
447 Standard_Op_Shift_Right_Arithmetic : Entity_Id;
448 -- These entities are used for shift operators generated by the expander
450 -----------------
451 -- Subprograms --
452 -----------------
454 procedure Tree_Read;
455 -- Initializes entity values in this package from the current tree
456 -- file using Osint.Tree_Read. Note that Tree_Read includes all the
457 -- initialization that is carried out by Create_Standard.
459 procedure Tree_Write;
460 -- Writes out the entity values in this package to the current
461 -- tree file using Osint.Tree_Write.
463 end Stand;