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[official-gcc.git] / gcc / ada / get_scos.adb
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1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT COMPILER COMPONENTS --
4 -- --
5 -- G E T _ S C O S --
6 -- --
7 -- B o d y --
8 -- --
9 -- Copyright (C) 2009-2014, 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. 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 COPYING3. If not, go to --
19 -- http://www.gnu.org/licenses for a complete copy of the license. --
20 -- --
21 -- GNAT was originally developed by the GNAT team at New York University. --
22 -- Extensive contributions were provided by Ada Core Technologies Inc. --
23 -- --
24 ------------------------------------------------------------------------------
25
26 pragma Ada_2005;
27 -- This unit is not part of the compiler proper, it is used in tools that
28 -- read SCO information from ALI files (Xcov and sco_test). Ada 2005
29 -- constructs may therefore be used freely (and are indeed).
30
31 with Namet; use Namet;
32 with SCOs; use SCOs;
33 with Types; use Types;
34
35 with Ada.IO_Exceptions; use Ada.IO_Exceptions;
36
37 procedure Get_SCOs is
38 Dnum : Nat;
39 C : Character;
40 Loc1 : Source_Location;
41 Loc2 : Source_Location;
42 Cond : Character;
43 Dtyp : Character;
44
45 use ASCII;
46 -- For CR/LF
47
48 function At_EOL return Boolean;
49 -- Skips any spaces, then checks if we are the end of a line. If so,
50 -- returns True (but does not skip over the EOL sequence). If not,
51 -- then returns False.
52
53 procedure Check (C : Character);
54 -- Checks that file is positioned at given character, and if so skips past
55 -- it, If not, raises Data_Error.
56
57 function Get_Int return Int;
58 -- On entry the file is positioned to a digit. On return, the file is
59 -- positioned past the last digit, and the returned result is the decimal
60 -- value read. Data_Error is raised for overflow (value greater than
61 -- Int'Last), or if the initial character is not a digit.
62
63 procedure Get_Source_Location (Loc : out Source_Location);
64 -- Reads a source location in the form line:col and places the source
65 -- location in Loc. Raises Data_Error if the format does not match this
66 -- requirement. Note that initial spaces are not skipped.
67
68 procedure Get_Source_Location_Range (Loc1, Loc2 : out Source_Location);
69 -- Skips initial spaces, then reads a source location range in the form
70 -- line:col-line:col and places the two source locations in Loc1 and Loc2.
71 -- Raises Data_Error if format does not match this requirement.
72
73 procedure Skip_EOL;
74 -- Called with the current character about to be read being LF or CR. Skips
75 -- past CR/LF characters until either a non-CR/LF character is found, or
76 -- the end of file is encountered.
77
78 procedure Skip_Spaces;
79 -- Skips zero or more spaces at the current position, leaving the file
80 -- positioned at the first non-blank character (or Types.EOF).
81
82 ------------
83 -- At_EOL --
84 ------------
85
86 function At_EOL return Boolean is
87 begin
88 Skip_Spaces;
89 return Nextc = CR or else Nextc = LF;
90 end At_EOL;
91
92 -----------
93 -- Check --
94 -----------
95
96 procedure Check (C : Character) is
97 begin
98 if Nextc = C then
99 Skipc;
100 else
101 raise Data_Error;
102 end if;
103 end Check;
104
105 -------------
106 -- Get_Int --
107 -------------
108
109 function Get_Int return Int is
110 Val : Int;
111 C : Character;
112
113 begin
114 C := Nextc;
115 Val := 0;
116
117 if C not in '0' .. '9' then
118 raise Data_Error;
119 end if;
120
121 -- Loop to read digits of integer value
122
123 loop
124 declare
125 pragma Unsuppress (Overflow_Check);
126 begin
127 Val := Val * 10 + (Character'Pos (C) - Character'Pos ('0'));
128 end;
129
130 Skipc;
131 C := Nextc;
132
133 exit when C not in '0' .. '9';
134 end loop;
135
136 return Val;
137
138 exception
139 when Constraint_Error =>
140 raise Data_Error;
141 end Get_Int;
142
143 -------------------------
144 -- Get_Source_Location --
145 -------------------------
146
147 procedure Get_Source_Location (Loc : out Source_Location) is
148 pragma Unsuppress (Range_Check);
149 begin
150 Loc.Line := Logical_Line_Number (Get_Int);
151 Check (':');
152 Loc.Col := Column_Number (Get_Int);
153 exception
154 when Constraint_Error =>
155 raise Data_Error;
156 end Get_Source_Location;
157
158 -------------------------------
159 -- Get_Source_Location_Range --
160 -------------------------------
161
162 procedure Get_Source_Location_Range (Loc1, Loc2 : out Source_Location) is
163 begin
164 Skip_Spaces;
165 Get_Source_Location (Loc1);
166 Check ('-');
167 Get_Source_Location (Loc2);
168 end Get_Source_Location_Range;
169
170 --------------
171 -- Skip_EOL --
172 --------------
173
174 procedure Skip_EOL is
175 C : Character;
176
177 begin
178 loop
179 Skipc;
180 C := Nextc;
181 exit when C /= LF and then C /= CR;
182
183 if C = ' ' then
184 Skip_Spaces;
185 C := Nextc;
186 exit when C /= LF and then C /= CR;
187 end if;
188 end loop;
189 end Skip_EOL;
190
191 -----------------
192 -- Skip_Spaces --
193 -----------------
194
195 procedure Skip_Spaces is
196 begin
197 while Nextc = ' ' loop
198 Skipc;
199 end loop;
200 end Skip_Spaces;
201
202 Buf : String (1 .. 32_768);
203 N : Natural;
204 -- Scratch buffer, and index into it
205
206 Nam : Name_Id;
207
208 -- Start of processing for Get_SCOs
209
210 begin
211 SCOs.Initialize;
212
213 -- Loop through lines of SCO information
214
215 while Nextc = 'C' loop
216 Skipc;
217
218 C := Getc;
219
220 -- Make sure first line is a header line
221
222 if SCO_Unit_Table.Last = 0 and then C /= ' ' then
223 raise Data_Error;
224 end if;
225
226 -- Otherwise dispatch on type of line
227
228 case C is
229
230 -- Header or instance table entry
231
232 when ' ' =>
233
234 -- Complete previous entry if any
235
236 if SCO_Unit_Table.Last /= 0 then
237 SCO_Unit_Table.Table (SCO_Unit_Table.Last).To :=
238 SCO_Table.Last;
239 end if;
240
241 Skip_Spaces;
242
243 case Nextc is
244
245 -- Instance table entry
246
247 when 'i' =>
248 declare
249 Inum : SCO_Instance_Index;
250 begin
251 Skipc;
252 Skip_Spaces;
253
254 Inum := SCO_Instance_Index (Get_Int);
255 SCO_Instance_Table.Increment_Last;
256 pragma Assert (SCO_Instance_Table.Last = Inum);
257
258 Skip_Spaces;
259 declare
260 SIE : SCO_Instance_Table_Entry
261 renames SCO_Instance_Table.Table (Inum);
262 begin
263 SIE.Inst_Dep_Num := Get_Int;
264 C := Getc;
265 pragma Assert (C = '|');
266 Get_Source_Location (SIE.Inst_Loc);
267
268 if At_EOL then
269 SIE.Enclosing_Instance := 0;
270 else
271 Skip_Spaces;
272 SIE.Enclosing_Instance :=
273 SCO_Instance_Index (Get_Int);
274 pragma Assert (SIE.Enclosing_Instance in
275 SCO_Instance_Table.First
276 .. SCO_Instance_Table.Last);
277 end if;
278 end;
279 end;
280
281 -- Unit header
282
283 when '0' .. '9' =>
284 -- Scan out dependency number and file name
285
286 Dnum := Get_Int;
287
288 Skip_Spaces;
289
290 N := 0;
291 while Nextc > ' ' loop
292 N := N + 1;
293 Buf (N) := Getc;
294 end loop;
295
296 -- Make new unit table entry (will fill in To later)
297
298 SCO_Unit_Table.Append (
299 (File_Name => new String'(Buf (1 .. N)),
300 File_Index => 0,
301 Dep_Num => Dnum,
302 From => SCO_Table.Last + 1,
303 To => 0));
304
305 when others =>
306 raise Program_Error;
307
308 end case;
309
310 -- Statement entry
311
312 when 'S' | 's' =>
313 declare
314 Typ : Character;
315 Key : Character;
316
317 begin
318 Key := 'S';
319
320 -- If continuation, reset Last indication in last entry stored
321 -- for previous CS or cs line.
322
323 if C = 's' then
324 SCO_Table.Table (SCO_Table.Last).Last := False;
325 end if;
326
327 -- Initialize to scan items on one line
328
329 Skip_Spaces;
330
331 -- Loop through items on one line
332
333 loop
334 Nam := No_Name;
335 Typ := Nextc;
336
337 case Typ is
338 when '>' =>
339
340 -- Dominance marker may be present only at entry point
341
342 pragma Assert (Key = 'S');
343
344 Skipc;
345 Key := '>';
346 Typ := Getc;
347
348 -- Sanity check on dominance marker type indication
349
350 pragma Assert (Typ in 'A' .. 'Z');
351
352 when '1' .. '9' =>
353 Typ := ' ';
354
355 when others =>
356 Skipc;
357 if Typ = 'P' or else Typ = 'p' then
358 if Nextc not in '1' .. '9' then
359 Name_Len := 0;
360 loop
361 Name_Len := Name_Len + 1;
362 Name_Buffer (Name_Len) := Getc;
363 exit when Nextc = ':';
364 end loop;
365
366 Skipc; -- Past ':'
367
368 Nam := Name_Find;
369 end if;
370 end if;
371 end case;
372
373 if Key = '>' and then Typ /= 'E' then
374 Get_Source_Location (Loc1);
375 Loc2 := No_Source_Location;
376 else
377 Get_Source_Location_Range (Loc1, Loc2);
378 end if;
379
380 SCO_Table.Append
381 ((C1 => Key,
382 C2 => Typ,
383 From => Loc1,
384 To => Loc2,
385 Last => At_EOL,
386 Pragma_Sloc => No_Location,
387 Pragma_Aspect_Name => Nam));
388
389 if Key = '>' then
390 Key := 'S';
391 end if;
392
393 exit when At_EOL;
394 end loop;
395 end;
396
397 -- Decision entry
398
399 when 'E' | 'G' | 'I' | 'P' | 'W' | 'X' | 'A' =>
400 Dtyp := C;
401
402 if C = 'A' then
403 Name_Len := 0;
404 while Nextc /= ' ' loop
405 Name_Len := Name_Len + 1;
406 Name_Buffer (Name_Len) := Getc;
407 end loop;
408
409 Nam := Name_Find;
410
411 else
412 Nam := No_Name;
413 end if;
414
415 Skip_Spaces;
416
417 -- Output header
418
419 declare
420 Loc : Source_Location;
421
422 begin
423 -- Acquire location information
424
425 if Dtyp = 'X' then
426 Loc := No_Source_Location;
427 else
428 Get_Source_Location (Loc);
429 end if;
430
431 SCO_Table.Append
432 ((C1 => Dtyp,
433 C2 => ' ',
434 From => Loc,
435 To => No_Source_Location,
436 Last => False,
437 Pragma_Aspect_Name => Nam,
438 others => <>));
439 end;
440
441 -- Loop through terms in complex expression
442
443 C := Nextc;
444 while C /= CR and then C /= LF loop
445 if C = 'c' or else C = 't' or else C = 'f' then
446 Cond := C;
447 Skipc;
448 Get_Source_Location_Range (Loc1, Loc2);
449 SCO_Table.Append
450 ((C2 => Cond,
451 From => Loc1,
452 To => Loc2,
453 Last => False,
454 others => <>));
455
456 elsif C = '!' or else
457 C = '&' or else
458 C = '|'
459 then
460 Skipc;
461
462 declare
463 Loc : Source_Location;
464 begin
465 Get_Source_Location (Loc);
466 SCO_Table.Append
467 ((C1 => C,
468 From => Loc,
469 Last => False,
470 others => <>));
471 end;
472
473 elsif C = ' ' then
474 Skip_Spaces;
475
476 elsif C = 'T' or else C = 'F' then
477
478 -- Chaining indicator: skip for now???
479
480 declare
481 Loc1, Loc2 : Source_Location;
482 pragma Unreferenced (Loc1, Loc2);
483 begin
484 Skipc;
485 Get_Source_Location_Range (Loc1, Loc2);
486 end;
487
488 else
489 raise Data_Error;
490 end if;
491
492 C := Nextc;
493 end loop;
494
495 -- Reset Last indication to True for last entry
496
497 SCO_Table.Table (SCO_Table.Last).Last := True;
498
499 -- No other SCO lines are possible
500
501 when others =>
502 raise Data_Error;
503 end case;
504
505 Skip_EOL;
506 end loop;
507
508 -- Here with all SCO's stored, complete last SCO Unit table entry
509
510 SCO_Unit_Table.Table (SCO_Unit_Table.Last).To := SCO_Table.Last;
511 end Get_SCOs;
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