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[official-gcc.git] / gcc / ada / sinput.ads
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1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT COMPILER COMPONENTS --
4 -- --
5 -- S I N P U T --
6 -- --
7 -- S p e c --
8 -- --
9 -- Copyright (C) 1992-2016, 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 input routines used for reading the
33 -- input source file. The actual I/O routines are in OS_Interface,
34 -- with this module containing only the system independent processing.
36 -- General Note: throughout the compiler, we use the term line or source
37 -- line to refer to a physical line in the source, terminated by the end of
38 -- physical line sequence.
40 -- There are two distinct concepts of line terminator in GNAT
42 -- A logical line terminator is what corresponds to the "end of a line" as
43 -- described in RM 2.2 (13). Any of the characters FF, LF, CR or VT or any
44 -- wide character that is a Line or Paragraph Separator acts as an end of
45 -- logical line in this sense, and it is essentially irrelevant whether one
46 -- or more appears in sequence (since if a sequence of such characters is
47 -- regarded as separate ends of line, then the intervening logical lines
48 -- are null in any case).
50 -- A physical line terminator is a sequence of format effectors that is
51 -- treated as ending a physical line. Physical lines have no Ada semantic
52 -- significance, but they are significant for error reporting purposes,
53 -- since errors are identified by line and column location.
55 -- In GNAT, a physical line is ended by any of the sequences LF, CR/LF, or
56 -- CR. LF is used in typical Unix systems, CR/LF in DOS systems, and CR
57 -- alone in System 7. In addition, we recognize any of these sequences in
58 -- any of the operating systems, for better behavior in treating foreign
59 -- files (e.g. a Unix file with LF terminators transferred to a DOS system).
60 -- Finally, wide character codes in categories Separator, Line and Separator,
61 -- Paragraph are considered to be physical line terminators.
63 with Alloc;
64 with Casing; use Casing;
65 with Namet; use Namet;
66 with Table;
67 with Types; use Types;
69 package Sinput is
71 type Type_Of_File is (
72 -- Indicates type of file being read
74 Src,
75 -- Normal Ada source file
77 Config,
78 -- Configuration pragma file
80 Def,
81 -- Preprocessing definition file
83 Preproc);
84 -- Source file with preprocessing commands to be preprocessed
86 type Instance_Id is new Nat;
87 No_Instance_Id : constant Instance_Id;
89 ----------------------------
90 -- Source License Control --
91 ----------------------------
93 -- The following type indicates the license state of a source if it
94 -- is known.
96 type License_Type is
97 (Unknown,
98 -- Licensing status of this source unit is unknown
100 Restricted,
101 -- This is a non-GPL'ed unit that is restricted from depending
102 -- on GPL'ed units (e.g. proprietary code is in this category)
104 GPL,
105 -- This file is licensed under the unmodified GPL. It is not allowed
106 -- to depend on Non_GPL units, and Non_GPL units may not depend on
107 -- this source unit.
109 Modified_GPL,
110 -- This file is licensed under the GNAT modified GPL (see header of
111 -- This file for wording of the modification). It may depend on other
112 -- Modified_GPL units or on unrestricted units.
114 Unrestricted);
115 -- The license on this file is permitted to depend on any other
116 -- units, or have other units depend on it, without violating the
117 -- license of this unit. Examples are public domain units, and
118 -- units defined in the RM).
120 -- The above license status is checked when the appropriate check is
121 -- activated and one source depends on another, and the licensing state
122 -- of both files is known:
124 -- The prohibited combinations are:
126 -- Restricted file may not depend on GPL file
128 -- GPL file may not depend on Restricted file
130 -- Modified GPL file may not depend on Restricted file
131 -- Modified_GPL file may not depend on GPL file
133 -- The reason for the last restriction here is that a client depending
134 -- on a modified GPL file must be sure that the license condition is
135 -- correct considered transitively.
137 -- The licensing status is determined either by the presence of a
138 -- specific pragma License, or by scanning the header for a predefined
139 -- statement, or any file if compiling in -gnatg mode.
141 -----------------------
142 -- Source File Table --
143 -----------------------
145 -- The source file table has an entry for each source file read in for
146 -- this run of the compiler. This table is (default) initialized when
147 -- the compiler is loaded, and simply accumulates entries as compilation
148 -- proceeds and various routines in Sinput and its child packages are
149 -- called to load required source files.
151 -- Virtual entries are also created for generic templates when they are
152 -- instantiated, as described in a separate section later on.
154 -- In the case where there are multiple main units (e.g. in the case of
155 -- the cross-reference tool), this table is not reset between these units,
156 -- so that a given source file is only read once if it is used by two
157 -- separate main units.
159 -- The entries in the table are accessed using a Source_File_Index that
160 -- ranges from 1 to Last_Source_File. Each entry has the following fields.
162 -- Note: fields marked read-only are set by Sinput or one of its child
163 -- packages when a source file table entry is created, and cannot be
164 -- subsequently modified, or alternatively are set only by very special
165 -- circumstances, documented in the comments.
167 -- File_Name : File_Name_Type (read-only)
168 -- Name of the source file (simple name with no directory information)
170 -- Full_File_Name : File_Name_Type (read-only)
171 -- Full file name (full name with directory info), used for generation
172 -- of error messages, etc.
174 -- File_Type : Type_Of_File (read-only)
175 -- Indicates type of file (source file, configuration pragmas file,
176 -- preprocessor definition file, preprocessor input file).
178 -- Reference_Name : File_Name_Type (read-only)
179 -- Name to be used for source file references in error messages where
180 -- only the simple name of the file is required. Identical to File_Name
181 -- unless pragma Source_Reference is used to change it. Only processing
182 -- for the Source_Reference pragma circuit may set this field.
184 -- Full_Ref_Name : File_Name_Type (read-only)
185 -- Name to be used for source file references in error messages where
186 -- the full name of the file is required. Identical to Full_File_Name
187 -- unless pragma Source_Reference is used to change it. Only processing
188 -- for the Source_Reference pragma may set this field.
190 -- Debug_Source_Name : File_Name_Type (read-only)
191 -- Name to be used for source file references in debugging information
192 -- where only the simple name of the file is required. Identical to
193 -- Reference_Name unless the -gnatD (debug source file) switch is used.
194 -- Only processing in Sprint that generates this file is permitted to
195 -- set this field.
197 -- Full_Debug_Name : File_Name_Type (read-only)
198 -- Name to be used for source file references in debugging information
199 -- where the full name of the file is required. This is identical to
200 -- Full_Ref_Name unless the -gnatD (debug source file) switch is used.
201 -- Only processing in Sprint that generates this file is permitted to
202 -- set this field.
204 -- Instance : Instance_Id (read-only)
205 -- For entries corresponding to a generic instantiation, unique
206 -- identifier denoting the full chain of nested instantiations. Set to
207 -- No_Instance_Id for the case of a normal, non-instantiation entry.
208 -- See below for details on the handling of generic instantiations.
210 -- License : License_Type;
211 -- License status of source file
213 -- Num_SRef_Pragmas : Nat;
214 -- Number of source reference pragmas present in source file
216 -- First_Mapped_Line : Logical_Line_Number;
217 -- This field stores logical line number of the first line in the
218 -- file that is not a Source_Reference pragma. If no source reference
219 -- pragmas are used, then the value is set to No_Line_Number.
221 -- Source_Text : Source_Buffer_Ptr (read-only)
222 -- Text of source file. Note that every source file has a distinct set
223 -- of non-overlapping logical bounds, so it is possible to determine
224 -- which file is referenced from a given subscript (Source_Ptr) value.
226 -- Source_First : Source_Ptr; (read-only)
227 -- Subscript of first character in Source_Text. Note that this cannot
228 -- be obtained as Source_Text'First, because we use virtual origin
229 -- addressing.
231 -- Source_Last : Source_Ptr; (read-only)
232 -- Subscript of last character in Source_Text. Note that this cannot
233 -- be obtained as Source_Text'Last, because we use virtual origin
234 -- addressing, so this value is always Source_Ptr'Last.
236 -- Time_Stamp : Time_Stamp_Type; (read-only)
237 -- Time stamp of the source file
239 -- Source_Checksum : Word;
240 -- Computed checksum for contents of source file. See separate section
241 -- later on in this spec for a description of the checksum algorithm.
243 -- Last_Source_Line : Physical_Line_Number;
244 -- Physical line number of last source line. While a file is being
245 -- read, this refers to the last line scanned. Once a file has been
246 -- completely scanned, it is the number of the last line in the file,
247 -- and hence also gives the number of source lines in the file.
249 -- Keyword_Casing : Casing_Type;
250 -- Casing style used in file for keyword casing. This is initialized
251 -- to Unknown, and then set from the first occurrence of a keyword.
252 -- This value is used only for formatting of error messages.
254 -- Identifier_Casing : Casing_Type;
255 -- Casing style used in file for identifier casing. This is initialized
256 -- to Unknown, and then set from an identifier in the program as soon as
257 -- one is found whose casing is sufficiently clear to make a decision.
258 -- This value is used for formatting of error messages, and also is used
259 -- in the detection of keywords misused as identifiers.
261 -- Inlined_Call : Source_Ptr;
262 -- Source file location of the subprogram call if this source file entry
263 -- represents an inlined body or an inherited pragma. Set to No_Location
264 -- otherwise. This field is read-only for clients.
266 -- Inlined_Body : Boolean;
267 -- This can only be set True if Instantiation has a value other than
268 -- No_Location. If true it indicates that the instantiation is actually
269 -- an instance of an inlined body.
271 -- Inherited_Pragma : Boolean;
272 -- This can only be set True if Instantiation has a value other than
273 -- No_Location. If true it indicates that the instantiation is actually
274 -- an inherited class-wide pre- or postcondition.
276 -- Template : Source_File_Index; (read-only)
277 -- Source file index of the source file containing the template if this
278 -- is a generic instantiation. Set to No_Source_File for the normal case
279 -- of a non-instantiation entry. See Sinput-L for details.
281 -- Unit : Unit_Number_Type;
282 -- Identifies the unit contained in this source file. Set by
283 -- Initialize_Scanner, must not be subsequently altered.
285 -- The source file table is accessed by clients using the following
286 -- subprogram interface:
288 subtype SFI is Source_File_Index;
290 System_Source_File_Index : SFI;
291 -- The file system.ads is always read by the compiler to determine the
292 -- settings of the target parameters in the private part of System. This
293 -- variable records the source file index of system.ads. Typically this
294 -- will be 1 since system.ads is read first.
296 function Debug_Source_Name (S : SFI) return File_Name_Type;
297 function File_Name (S : SFI) return File_Name_Type;
298 function File_Type (S : SFI) return Type_Of_File;
299 function First_Mapped_Line (S : SFI) return Logical_Line_Number;
300 function Full_Debug_Name (S : SFI) return File_Name_Type;
301 function Full_File_Name (S : SFI) return File_Name_Type;
302 function Full_Ref_Name (S : SFI) return File_Name_Type;
303 function Identifier_Casing (S : SFI) return Casing_Type;
304 function Inlined_Body (S : SFI) return Boolean;
305 function Inherited_Pragma (S : SFI) return Boolean;
306 function Inlined_Call (S : SFI) return Source_Ptr;
307 function Instance (S : SFI) return Instance_Id;
308 function Keyword_Casing (S : SFI) return Casing_Type;
309 function Last_Source_Line (S : SFI) return Physical_Line_Number;
310 function License (S : SFI) return License_Type;
311 function Num_SRef_Pragmas (S : SFI) return Nat;
312 function Reference_Name (S : SFI) return File_Name_Type;
313 function Source_Checksum (S : SFI) return Word;
314 function Source_First (S : SFI) return Source_Ptr;
315 function Source_Last (S : SFI) return Source_Ptr;
316 function Source_Text (S : SFI) return Source_Buffer_Ptr;
317 function Template (S : SFI) return Source_File_Index;
318 function Unit (S : SFI) return Unit_Number_Type;
319 function Time_Stamp (S : SFI) return Time_Stamp_Type;
321 procedure Set_Keyword_Casing (S : SFI; C : Casing_Type);
322 procedure Set_Identifier_Casing (S : SFI; C : Casing_Type);
323 procedure Set_License (S : SFI; L : License_Type);
324 procedure Set_Unit (S : SFI; U : Unit_Number_Type);
326 function Last_Source_File return Source_File_Index;
327 -- Index of last source file table entry
329 function Num_Source_Files return Nat;
330 -- Number of source file table entries
332 procedure Initialize;
333 -- Initialize internal tables
335 procedure Lock;
336 -- Lock internal tables
338 procedure Unlock;
339 -- Unlock internal tables
341 Main_Source_File : Source_File_Index := No_Source_File;
342 -- This is set to the source file index of the main unit
344 -----------------------------
345 -- Source_File_Index_Table --
346 -----------------------------
348 -- The Get_Source_File_Index function is called very frequently. Earlier
349 -- versions cached a single entry, but then reverted to a serial search,
350 -- and this proved to be a significant source of inefficiency. We then
351 -- switched to using a table with a start point followed by a serial
352 -- search. Now we make sure source buffers are on a reasonable boundary
353 -- (see Types.Source_Align), and we can just use a direct look up in the
354 -- following table.
356 -- Note that this array is pretty large, but in most operating systems
357 -- it will not be allocated in physical memory unless it is actually used.
359 Source_File_Index_Table :
360 array (Int range 0 .. 1 + (Int'Last / Source_Align)) of Source_File_Index;
362 procedure Set_Source_File_Index_Table (Xnew : Source_File_Index);
363 -- Sets entries in the Source_File_Index_Table for the newly created
364 -- Source_File table entry whose index is Xnew. The Source_First and
365 -- Source_Last fields of this entry must be set before the call.
367 -----------------------
368 -- Checksum Handling --
369 -----------------------
371 -- As a source file is scanned, a checksum is computed by taking all the
372 -- non-blank characters in the file, excluding comment characters, the
373 -- minus-minus sequence starting a comment, and all control characters
374 -- except ESC.
376 -- The checksum algorithm used is the standard CRC-32 algorithm, as
377 -- implemented by System.CRC32, except that we do not bother with the
378 -- final XOR with all 1 bits.
380 -- This algorithm ensures that the checksum includes all semantically
381 -- significant aspects of the program represented by the source file,
382 -- but is insensitive to layout, presence or contents of comments, wide
383 -- character representation method, or casing conventions outside strings.
385 -- Scans.Checksum is initialized appropriately at the start of scanning
386 -- a file, and copied into the Source_Checksum field of the file table
387 -- entry when the end of file is encountered.
389 -------------------------------------
390 -- Handling Generic Instantiations --
391 -------------------------------------
393 -- As described in Sem_Ch12, a generic instantiation involves making a
394 -- copy of the tree of the generic template. The source locations in
395 -- this tree directly reference the source of the template. However, it
396 -- is also possible to find the location of the instantiation.
398 -- This is achieved as follows. When an instantiation occurs, a new entry
399 -- is made in the source file table. This entry points to the same source
400 -- text, i.e. the file that contains the instantiation, but has a distinct
401 -- set of Source_Ptr index values. The separate range of Sloc values avoids
402 -- confusion, and means that the Sloc values can still be used to uniquely
403 -- identify the source file table entry. It is possible for both entries
404 -- to point to the same text, because of the virtual origin pointers used
405 -- in the source table.
407 -- The Instantiation_Id field of this source file index entry, set
408 -- to No_Instance_Id for normal entries, instead contains a value that
409 -- uniquely identifies a particular instantiation, and the associated
410 -- entry in the Instances table. The source location of the instantiation
411 -- can be retrieved using function Instantiation below. In the case of
412 -- nested instantiations, the Instances table can be used to trace the
413 -- complete chain of nested instantiations.
415 -- Two routines are used to build the special instance entries in the
416 -- source file table. Create_Instantiation_Source is first called to build
417 -- the virtual source table entry for the instantiation, and then the
418 -- Sloc values in the copy are adjusted using Adjust_Instantiation_Sloc.
419 -- See child unit Sinput.L for details on these two routines.
421 generic
422 with procedure Process (Id : Instance_Id; Inst_Sloc : Source_Ptr);
423 procedure Iterate_On_Instances;
424 -- Execute Process for each entry in the instance table
426 function Instantiation (S : SFI) return Source_Ptr;
427 -- For a source file entry that represents an inlined body, source location
428 -- of the inlined call. For a source file entry that represents an
429 -- inherited pragma, source location of the declaration to which the
430 -- overriding subprogram for the inherited pragma is attached. Otherwise,
431 -- for a source file entry that represents a generic instantiation, source
432 -- location of the instantiation. Returns No_Location in all other cases.
434 -----------------
435 -- Global Data --
436 -----------------
438 Current_Source_File : Source_File_Index := No_Source_File;
439 -- Source_File table index of source file currently being scanned.
440 -- Initialized so that some tools (such as gprbuild) can be built with
441 -- -gnatVa and pragma Initialize_Scalars without problems.
443 Current_Source_Unit : Unit_Number_Type;
444 -- Unit number of source file currently being scanned. The special value
445 -- of No_Unit indicates that the configuration pragma file is currently
446 -- being scanned (this has no entry in the unit table).
448 Source_gnat_adc : Source_File_Index := No_Source_File;
449 -- This is set if a gnat.adc file is present to reference this file
451 Source : Source_Buffer_Ptr;
452 -- Current source (copy of Source_File.Table (Current_Source_Unit).Source)
454 Internal_Source : aliased Source_Buffer (1 .. 81);
455 -- This buffer is used internally in the compiler when the lexical analyzer
456 -- is used to scan a string from within the compiler. The procedure is to
457 -- establish Internal_Source_Ptr as the value of Source, set the string to
458 -- be scanned, appropriately terminated, in this buffer, and set Scan_Ptr
459 -- to point to the start of the buffer. It is a fatal error if the scanner
460 -- signals an error while scanning a token in this internal buffer.
462 Internal_Source_Ptr : constant Source_Buffer_Ptr :=
463 Internal_Source'Unrestricted_Access;
464 -- Pointer to internal source buffer
466 -----------------------------------------
467 -- Handling of Source Line Terminators --
468 -----------------------------------------
470 -- In this section we discuss in detail the issue of terminators used to
471 -- terminate source lines. The RM says that one or more format effectors
472 -- (other than horizontal tab) end a source line, and defines the set of
473 -- such format effectors, but does not talk about exactly how they are
474 -- represented in the source program (since in general the RM is not in
475 -- the business of specifying source program formats).
477 -- The type Types.Line_Terminator is defined as a subtype of Character
478 -- that includes CR/LF/VT/FF. The most common line enders in practice
479 -- are CR (some MAC systems), LF (Unix systems), and CR/LF (DOS/Windows
480 -- systems). Any of these sequences is recognized as ending a physical
481 -- source line, and if multiple such terminators appear (e.g. LF/LF),
482 -- then we consider we have an extra blank line.
484 -- VT and FF are recognized as terminating source lines, but they are
485 -- considered to end a logical line instead of a physical line, so that
486 -- the line numbering ignores such terminators. The use of VT and FF is
487 -- mandated by the standard, and correctly handled in a conforming manner
488 -- by GNAT, but their use is not recommended.
490 -- In addition to the set of characters defined by the type in Types, in
491 -- wide character encoding, then the codes returning True for a call to
492 -- System.UTF_32.Is_UTF_32_Line_Terminator are also recognized as ending a
493 -- source line. This includes the standard codes defined above in addition
494 -- to NEL (NEXT LINE), LINE SEPARATOR and PARAGRAPH SEPARATOR. Again, as in
495 -- the case of VT and FF, the standard requires we recognize these as line
496 -- terminators, but we consider them to be logical line terminators. The
497 -- only physical line terminators recognized are the standard ones (CR,
498 -- LF, or CR/LF).
500 -- However, we do not recognize the NEL (16#85#) character as having the
501 -- significance of an end of line character when operating in normal 8-bit
502 -- Latin-n input mode for the compiler. Instead the rule in this mode is
503 -- that all upper half control codes (16#80# .. 16#9F#) are illegal if they
504 -- occur in program text, and are ignored if they appear in comments.
506 -- First, note that this behavior is fully conforming with the standard.
507 -- The standard has nothing whatever to say about source representation
508 -- and implementations are completely free to make there own rules. In
509 -- this case, in 8-bit mode, GNAT decides that the 16#0085# character is
510 -- not a representation of the NEL character, even though it looks like it.
511 -- If you have NEL's in your program, which you expect to be treated as
512 -- end of line characters, you must use a wide character encoding such as
513 -- UTF-8 for this code to be recognized.
515 -- Second, an explanation of why we take this slightly surprising choice.
516 -- We have never encountered anyone actually using the NEL character to
517 -- end lines. One user raised the issue as a result of some experiments,
518 -- but no one has ever submitted a program encoded this way, in any of
519 -- the possible encodings. It seems that even when using wide character
520 -- codes extensively, the normal approach is to use standard line enders
521 -- (LF or CR/LF). So the failure to recognize NEL in this mode seems to
522 -- have no practical downside.
524 -- Moreover, what we have seen in a significant number of programs from
525 -- multiple sources is the practice of writing all program text in lower
526 -- half (ASCII) form, but using UTF-8 encoded wide characters freely in
527 -- comments, where the comments are terminated by normal line endings
528 -- (LF or CR/LF). The comments do not contain NEL codes, but they can and
529 -- do contain other UTF-8 encoding sequences where one of the bytes is the
530 -- NEL code. Now such programs can of course be compiled in UTF-8 mode,
531 -- but in practice they also compile fine in standard 8-bit mode without
532 -- specifying a character encoding. Since this is common practice, it would
533 -- be a signficant upwards incompatibility to recognize NEL in 8-bit mode.
535 -----------------
536 -- Subprograms --
537 -----------------
539 procedure Backup_Line (P : in out Source_Ptr);
540 -- Back up the argument pointer to the start of the previous line. On
541 -- entry, P points to the start of a physical line in the source buffer.
542 -- On return, P is updated to point to the start of the previous line.
543 -- The caller has checked that a Line_Terminator character precedes P so
544 -- that there definitely is a previous line in the source buffer.
546 procedure Build_Location_String
547 (Buf : in out Bounded_String;
548 Loc : Source_Ptr);
549 -- This function builds a string literal of the form "name:line", where
550 -- name is the file name corresponding to Loc, and line is the line number.
551 -- If instantiations are involved, additional suffixes of the same form are
552 -- appended after the separating string " instantiated at ". The returned
553 -- string is appended to Buf.
555 function Build_Location_String (Loc : Source_Ptr) return String;
556 -- Functional form returning a String
558 procedure Check_For_BOM;
559 -- Check if the current source starts with a BOM. Scan_Ptr needs to be at
560 -- the start of the current source. If the current source starts with a
561 -- recognized BOM, then some flags such as Wide_Character_Encoding_Method
562 -- are set accordingly, and the Scan_Ptr on return points past this BOM.
563 -- An error message is output and Unrecoverable_Error raised if a non-
564 -- recognized BOM is detected. The call has no effect if no BOM is found.
566 function Get_Column_Number (P : Source_Ptr) return Column_Number;
567 -- The ones-origin column number of the specified Source_Ptr value is
568 -- determined and returned. Tab characters if present are assumed to
569 -- represent the standard 1,9,17.. spacing pattern.
571 function Get_Logical_Line_Number
572 (P : Source_Ptr) return Logical_Line_Number;
573 -- The line number of the specified source position is obtained by
574 -- doing a binary search on the source positions in the lines table
575 -- for the unit containing the given source position. The returned
576 -- value is the logical line number, already adjusted for the effect
577 -- of source reference pragmas. If P refers to the line of a source
578 -- reference pragma itself, then No_Line is returned. If no source
579 -- reference pragmas have been encountered, the value returned is
580 -- the same as the physical line number.
582 function Get_Logical_Line_Number_Img
583 (P : Source_Ptr) return String;
584 -- Same as above function, but returns the line number as a string of
585 -- decimal digits, with no leading space. Destroys Name_Buffer.
587 function Get_Physical_Line_Number
588 (P : Source_Ptr) return Physical_Line_Number;
589 -- The line number of the specified source position is obtained by
590 -- doing a binary search on the source positions in the lines table
591 -- for the unit containing the given source position. The returned
592 -- value is the physical line number in the source being compiled.
594 function Get_Source_File_Index (S : Source_Ptr) return Source_File_Index;
595 pragma Inline (Get_Source_File_Index);
596 -- Return file table index of file identified by given source pointer
597 -- value. This call must always succeed, since any valid source pointer
598 -- value belongs to some previously loaded source file.
600 function Instantiation_Depth (S : Source_Ptr) return Nat;
601 -- Determine instantiation depth for given Sloc value. A value of
602 -- zero means that the given Sloc is not in an instantiation.
604 function Line_Start (P : Source_Ptr) return Source_Ptr;
605 -- Finds the source position of the start of the line containing the
606 -- given source location.
608 function Line_Start
609 (L : Physical_Line_Number;
610 S : Source_File_Index) return Source_Ptr;
611 -- Finds the source position of the start of the given line in the
612 -- given source file, using a physical line number to identify the line.
614 function Num_Source_Lines (S : Source_File_Index) return Nat;
615 -- Returns the number of source lines (this is equivalent to reading
616 -- the value of Last_Source_Line, but returns Nat rather than a
617 -- physical line number).
619 procedure Register_Source_Ref_Pragma
620 (File_Name : File_Name_Type;
621 Stripped_File_Name : File_Name_Type;
622 Mapped_Line : Nat;
623 Line_After_Pragma : Physical_Line_Number);
624 -- Register a source reference pragma, the parameter File_Name is the
625 -- file name from the pragma, and Stripped_File_Name is this name with
626 -- the directory information stripped. Both these parameters are set
627 -- to No_Name if no file name parameter was given in the pragma.
628 -- (which can only happen for the second and subsequent pragmas).
629 -- Mapped_Line is the line number parameter from the pragma, and
630 -- Line_After_Pragma is the physical line number of the line that
631 -- follows the line containing the Source_Reference pragma.
633 function Original_Location (S : Source_Ptr) return Source_Ptr;
634 -- Given a source pointer S, returns the corresponding source pointer
635 -- value ignoring instantiation copies. For locations that do not
636 -- correspond to instantiation copies of templates, the argument is
637 -- returned unchanged. For locations that do correspond to copies of
638 -- templates from instantiations, the location within the original
639 -- template is returned. This is useful in canonicalizing locations.
641 function Instantiation_Location (S : Source_Ptr) return Source_Ptr;
642 pragma Inline (Instantiation_Location);
643 -- Given a source pointer S, returns the corresponding source pointer
644 -- value of the instantiation if this location is within an instance.
645 -- If S is not within an instance, then this returns No_Location.
647 function Comes_From_Inlined_Body (S : Source_Ptr) return Boolean;
648 pragma Inline (Comes_From_Inlined_Body);
649 -- Given a source pointer S, returns whether it comes from an inlined body.
650 -- This allows distinguishing these source pointers from those that come
651 -- from instantiation of generics, since Instantiation_Location returns a
652 -- valid location in both cases.
654 function Comes_From_Inherited_Pragma (S : Source_Ptr) return Boolean;
655 pragma Inline (Comes_From_Inherited_Pragma);
656 -- Given a source pointer S, returns whether it comes from an inherited
657 -- pragma. This allows distinguishing these source pointers from those
658 -- that come from instantiation of generics, since Instantiation_Location
659 -- returns a valid location in both cases.
661 function Top_Level_Location (S : Source_Ptr) return Source_Ptr;
662 -- Given a source pointer S, returns the argument unchanged if it is
663 -- not in an instantiation. If S is in an instantiation, then it returns
664 -- the location of the top level instantiation, i.e. the outer level
665 -- instantiation in the nested case.
667 function Physical_To_Logical
668 (Line : Physical_Line_Number;
669 S : Source_File_Index) return Logical_Line_Number;
670 -- Given a physical line number in source file whose source index is S,
671 -- return the corresponding logical line number. If the physical line
672 -- number is one containing a Source_Reference pragma, the result will
673 -- be No_Line_Number.
675 procedure Skip_Line_Terminators
676 (P : in out Source_Ptr;
677 Physical : out Boolean);
678 -- On entry, P points to a line terminator that has been encountered,
679 -- which is one of FF,LF,VT,CR or a wide character sequence whose value is
680 -- in category Separator,Line or Separator,Paragraph. P points just past
681 -- the character that was scanned. The purpose of this routine is to
682 -- distinguish physical and logical line endings. A physical line ending
683 -- is one of:
685 -- CR on its own (MAC System 7)
686 -- LF on its own (Unix and unix-like systems)
687 -- CR/LF (DOS, Windows)
688 -- Wide character in Separator,Line or Separator,Paragraph category
690 -- Note: we no longer recognize LF/CR (which we did in some earlier
691 -- versions of GNAT. The reason for this is that this sequence is not
692 -- used and recognizing it generated confusion. For example given the
693 -- sequence LF/CR/LF we were interpreting that as (LF/CR) ending the
694 -- first line and a blank line ending with CR following, but it is
695 -- clearly better to interpret this as LF, with a blank line terminated
696 -- by CR/LF, given that LF and CR/LF are both in common use, but no
697 -- system we know of uses LF/CR.
699 -- A logical line ending (that is not a physical line ending) is one of:
701 -- VT on its own
702 -- FF on its own
704 -- On return, P is bumped past the line ending sequence (one of the above
705 -- seven possibilities). Physical is set to True to indicate that a
706 -- physical end of line was encountered, in which case this routine also
707 -- makes sure that the lines table for the current source file has an
708 -- appropriate entry for the start of the new physical line.
710 procedure Sloc_Range (N : Node_Id; Min, Max : out Source_Ptr);
711 -- Given a node, returns the minimum and maximum source locations of any
712 -- node in the syntactic subtree for the node. This is not quite the same
713 -- as the locations of the first and last token in the node construct
714 -- because parentheses at the outer level do not have a recorded Sloc.
716 -- Note: At each step of the tree traversal, we make sure to go back to
717 -- the Original_Node, since this function is concerned about original
718 -- (source) locations.
720 -- Note: if the tree for the expression contains no "real" Sloc values,
721 -- i.e. values > No_Location, then both Min and Max are set to
722 -- Sloc (Original_Node (N)).
724 function Source_Offset (S : Source_Ptr) return Nat;
725 -- Returns the zero-origin offset of the given source location from the
726 -- start of its corresponding unit. This is used for creating canonical
727 -- names in some situations.
729 procedure Write_Location (P : Source_Ptr);
730 -- Writes out a string of the form fff:nn:cc, where fff, nn, cc are the
731 -- file name, line number and column corresponding to the given source
732 -- location. No_Location and Standard_Location appear as the strings
733 -- <no location> and <standard location>. If the location is within an
734 -- instantiation, then the instance location is appended, enclosed in
735 -- square brackets (which can nest if necessary). Note that this routine
736 -- is used only for internal compiler debugging output purposes (which
737 -- is why the somewhat cryptic use of brackets is acceptable).
739 procedure wl (P : Source_Ptr);
740 pragma Export (Ada, wl);
741 -- Equivalent to Write_Location (P); Write_Eol; for calls from GDB
743 procedure Write_Time_Stamp (S : Source_File_Index);
744 -- Writes time stamp of specified file in YY-MM-DD HH:MM.SS format
746 procedure Tree_Read;
747 -- Initializes internal tables from current tree file using the relevant
748 -- Table.Tree_Read routines.
750 procedure Tree_Write;
751 -- Writes out internal tables to current tree file using the relevant
752 -- Table.Tree_Write routines.
754 private
755 pragma Inline (File_Name);
756 pragma Inline (Full_File_Name);
757 pragma Inline (File_Type);
758 pragma Inline (Reference_Name);
759 pragma Inline (Full_Ref_Name);
760 pragma Inline (Debug_Source_Name);
761 pragma Inline (Full_Debug_Name);
762 pragma Inline (Instance);
763 pragma Inline (License);
764 pragma Inline (Num_SRef_Pragmas);
765 pragma Inline (First_Mapped_Line);
766 pragma Inline (Source_Text);
767 pragma Inline (Source_First);
768 pragma Inline (Source_Last);
769 pragma Inline (Time_Stamp);
770 pragma Inline (Source_Checksum);
771 pragma Inline (Last_Source_Line);
772 pragma Inline (Keyword_Casing);
773 pragma Inline (Identifier_Casing);
774 pragma Inline (Inlined_Call);
775 pragma Inline (Inlined_Body);
776 pragma Inline (Inherited_Pragma);
777 pragma Inline (Template);
778 pragma Inline (Unit);
780 pragma Inline (Set_Keyword_Casing);
781 pragma Inline (Set_Identifier_Casing);
783 pragma Inline (Last_Source_File);
784 pragma Inline (Num_Source_Files);
785 pragma Inline (Num_Source_Lines);
787 No_Instance_Id : constant Instance_Id := 0;
789 -------------------------
790 -- Source_Lines Tables --
791 -------------------------
793 type Lines_Table_Type is
794 array (Physical_Line_Number) of Source_Ptr;
795 -- Type used for lines table. The entries are indexed by physical line
796 -- numbers. The values are the starting Source_Ptr values for the start
797 -- of the corresponding physical line. Note that we make this a bogus
798 -- big array, sized as required, so that we avoid the use of fat pointers.
800 type Lines_Table_Ptr is access all Lines_Table_Type;
801 -- Type used for pointers to line tables
803 type Logical_Lines_Table_Type is
804 array (Physical_Line_Number) of Logical_Line_Number;
805 -- Type used for logical lines table. This table is used if a source
806 -- reference pragma is present. It is indexed by physical line numbers,
807 -- and contains the corresponding logical line numbers. An entry that
808 -- corresponds to a source reference pragma is set to No_Line_Number.
809 -- Note that we make this a bogus big array, sized as required, so that
810 -- we avoid the use of fat pointers.
812 type Logical_Lines_Table_Ptr is access all Logical_Lines_Table_Type;
813 -- Type used for pointers to logical line tables
815 -----------------------
816 -- Source_File Table --
817 -----------------------
819 -- See earlier descriptions for meanings of public fields
821 type Source_File_Record is record
822 File_Name : File_Name_Type;
823 Reference_Name : File_Name_Type;
824 Debug_Source_Name : File_Name_Type;
825 Full_Debug_Name : File_Name_Type;
826 Full_File_Name : File_Name_Type;
827 Full_Ref_Name : File_Name_Type;
828 Instance : Instance_Id;
829 Num_SRef_Pragmas : Nat;
830 First_Mapped_Line : Logical_Line_Number;
831 Source_Text : Source_Buffer_Ptr;
832 Source_First : Source_Ptr;
833 Source_Last : Source_Ptr;
834 Source_Checksum : Word;
835 Last_Source_Line : Physical_Line_Number;
836 Template : Source_File_Index;
837 Unit : Unit_Number_Type;
838 Time_Stamp : Time_Stamp_Type;
839 File_Type : Type_Of_File;
840 Inlined_Call : Source_Ptr;
841 Inlined_Body : Boolean;
842 Inherited_Pragma : Boolean;
843 License : License_Type;
844 Keyword_Casing : Casing_Type;
845 Identifier_Casing : Casing_Type;
847 -- The following fields are for internal use only (i.e. only in the
848 -- body of Sinput or its children, with no direct access by clients).
850 Sloc_Adjust : Source_Ptr;
851 -- A value to be added to Sloc values for this file to reference the
852 -- corresponding lines table. This is zero for the non-instantiation
853 -- case, and set so that the addition references the ultimate template
854 -- for the instantiation case. See Sinput-L for further details.
856 Lines_Table : Lines_Table_Ptr;
857 -- Pointer to lines table for this source. Updated as additional
858 -- lines are accessed using the Skip_Line_Terminators procedure.
859 -- Note: the lines table for an instantiation entry refers to the
860 -- original line numbers of the template see Sinput-L for details.
862 Logical_Lines_Table : Logical_Lines_Table_Ptr;
863 -- Pointer to logical lines table for this source. Non-null only if
864 -- a source reference pragma has been processed. Updated as lines
865 -- are accessed using the Skip_Line_Terminators procedure.
867 Lines_Table_Max : Physical_Line_Number;
868 -- Maximum subscript values for currently allocated Lines_Table
869 -- and (if present) the allocated Logical_Lines_Table. The value
870 -- Max_Source_Line gives the maximum used value, this gives the
871 -- maximum allocated value.
873 end record;
875 -- The following representation clause ensures that the above record
876 -- has no holes. We do this so that when instances of this record are
877 -- written by Tree_Gen, we do not write uninitialized values to the file.
879 AS : constant Pos := Standard'Address_Size;
881 for Source_File_Record use record
882 File_Name at 0 range 0 .. 31;
883 Reference_Name at 4 range 0 .. 31;
884 Debug_Source_Name at 8 range 0 .. 31;
885 Full_Debug_Name at 12 range 0 .. 31;
886 Full_File_Name at 16 range 0 .. 31;
887 Full_Ref_Name at 20 range 0 .. 31;
888 Instance at 48 range 0 .. 31;
889 Num_SRef_Pragmas at 24 range 0 .. 31;
890 First_Mapped_Line at 28 range 0 .. 31;
891 Source_First at 32 range 0 .. 31;
892 Source_Last at 36 range 0 .. 31;
893 Source_Checksum at 40 range 0 .. 31;
894 Last_Source_Line at 44 range 0 .. 31;
895 Template at 52 range 0 .. 31;
896 Unit at 56 range 0 .. 31;
897 Time_Stamp at 60 range 0 .. 8 * Time_Stamp_Length - 1;
898 File_Type at 74 range 0 .. 7;
899 Inlined_Call at 88 range 0 .. 31;
900 Inlined_Body at 75 range 0 .. 0;
901 Inherited_Pragma at 75 range 1 .. 1;
902 License at 76 range 0 .. 7;
903 Keyword_Casing at 77 range 0 .. 7;
904 Identifier_Casing at 78 range 0 .. 15;
905 Sloc_Adjust at 80 range 0 .. 31;
906 Lines_Table_Max at 84 range 0 .. 31;
908 -- The following fields are pointers, so we have to specialize their
909 -- lengths using pointer size, obtained above as Standard'Address_Size.
911 Source_Text at 92 range 0 .. AS - 1;
912 Lines_Table at 92 range AS .. AS * 2 - 1;
913 Logical_Lines_Table at 92 range AS * 2 .. AS * 3 - 1;
914 end record;
916 for Source_File_Record'Size use 92 * 8 + AS * 3;
917 -- This ensures that we did not leave out any fields
919 package Source_File is new Table.Table (
920 Table_Component_Type => Source_File_Record,
921 Table_Index_Type => Source_File_Index,
922 Table_Low_Bound => 1,
923 Table_Initial => Alloc.Source_File_Initial,
924 Table_Increment => Alloc.Source_File_Increment,
925 Table_Name => "Source_File");
927 -- Auxiliary table containing source location of instantiations. Index 0
928 -- is used for code that does not come from an instance.
930 package Instances is new Table.Table (
931 Table_Component_Type => Source_Ptr,
932 Table_Index_Type => Instance_Id,
933 Table_Low_Bound => 0,
934 Table_Initial => Alloc.Source_File_Initial,
935 Table_Increment => Alloc.Source_File_Increment,
936 Table_Name => "Instances");
938 -----------------
939 -- Subprograms --
940 -----------------
942 procedure Alloc_Line_Tables
943 (S : in out Source_File_Record;
944 New_Max : Nat);
945 -- Allocate or reallocate the lines table for the given source file so
946 -- that it can accommodate at least New_Max lines. Also allocates or
947 -- reallocates logical lines table if source ref pragmas are present.
949 procedure Add_Line_Tables_Entry
950 (S : in out Source_File_Record;
951 P : Source_Ptr);
952 -- Increment line table size by one (reallocating the lines table if
953 -- needed) and set the new entry to contain the value P. Also bumps
954 -- the Source_Line_Count field. If source reference pragmas are
955 -- present, also increments logical lines table size by one, and
956 -- sets new entry.
958 procedure Trim_Lines_Table (S : Source_File_Index);
959 -- Set lines table size for entry S in the source file table to
960 -- correspond to the current value of Num_Source_Lines, releasing
961 -- any unused storage. This is used by Sinput.L and Sinput.D.
963 end Sinput;