PR testsuite/64850
[official-gcc.git] / gcc / ada / g-comlin.adb
blob440b5d12f3c37a09ea240abdee83fef8e06f905a
1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT COMPILER COMPONENTS --
4 -- --
5 -- G N A T . C O M M A N D _ L I N E --
6 -- --
7 -- B o d y --
8 -- --
9 -- Copyright (C) 1999-2014, 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. --
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 with Ada.Characters.Handling; use Ada.Characters.Handling;
33 with Ada.Strings.Unbounded;
34 with Ada.Text_IO; use Ada.Text_IO;
35 with Ada.Unchecked_Deallocation;
37 with GNAT.Directory_Operations; use GNAT.Directory_Operations;
38 with GNAT.OS_Lib; use GNAT.OS_Lib;
40 package body GNAT.Command_Line is
42 -- General note: this entire body could use much more commenting. There
43 -- are large sections of uncommented code throughout, and many formal
44 -- parameters of local subprograms are not documented at all ???
46 package CL renames Ada.Command_Line;
48 type Switch_Parameter_Type is
49 (Parameter_None,
50 Parameter_With_Optional_Space, -- ':' in getopt
51 Parameter_With_Space_Or_Equal, -- '=' in getopt
52 Parameter_No_Space, -- '!' in getopt
53 Parameter_Optional); -- '?' in getopt
55 procedure Set_Parameter
56 (Variable : out Parameter_Type;
57 Arg_Num : Positive;
58 First : Positive;
59 Last : Positive;
60 Extra : Character := ASCII.NUL);
61 pragma Inline (Set_Parameter);
62 -- Set the parameter that will be returned by Parameter below
64 -- Extra is a character that needs to be added when reporting Full_Switch.
65 -- (it will in general be the switch character, for instance '-').
66 -- Otherwise, Full_Switch will report 'f' instead of '-f'. In particular,
67 -- it needs to be set when reporting an invalid switch or handling '*'.
69 -- Parameters need to be defined ???
71 function Goto_Next_Argument_In_Section (Parser : Opt_Parser) return Boolean;
72 -- Go to the next argument on the command line. If we are at the end of
73 -- the current section, we want to make sure there is no other identical
74 -- section on the command line (there might be multiple instances of
75 -- -largs). Returns True iff there is another argument.
77 function Get_File_Names_Case_Sensitive return Integer;
78 pragma Import (C, Get_File_Names_Case_Sensitive,
79 "__gnat_get_file_names_case_sensitive");
81 File_Names_Case_Sensitive : constant Boolean :=
82 Get_File_Names_Case_Sensitive /= 0;
84 procedure Canonical_Case_File_Name (S : in out String);
85 -- Given a file name, converts it to canonical case form. For systems where
86 -- file names are case sensitive, this procedure has no effect. If file
87 -- names are not case sensitive (i.e. for example if you have the file
88 -- "xyz.adb", you can refer to it as XYZ.adb or XyZ.AdB), then this call
89 -- converts the given string to canonical all lower case form, so that two
90 -- file names compare equal if they refer to the same file.
92 procedure Internal_Initialize_Option_Scan
93 (Parser : Opt_Parser;
94 Switch_Char : Character;
95 Stop_At_First_Non_Switch : Boolean;
96 Section_Delimiters : String);
97 -- Initialize Parser, which must have been allocated already
99 function Argument (Parser : Opt_Parser; Index : Integer) return String;
100 -- Return the index-th command line argument
102 procedure Find_Longest_Matching_Switch
103 (Switches : String;
104 Arg : String;
105 Index_In_Switches : out Integer;
106 Switch_Length : out Integer;
107 Param : out Switch_Parameter_Type);
108 -- Return the Longest switch from Switches that at least partially matches
109 -- Arg. Index_In_Switches is set to 0 if none matches. What are other
110 -- parameters??? in particular Param is not always set???
112 procedure Unchecked_Free is new Ada.Unchecked_Deallocation
113 (Argument_List, Argument_List_Access);
115 procedure Unchecked_Free is new Ada.Unchecked_Deallocation
116 (Command_Line_Configuration_Record, Command_Line_Configuration);
118 procedure Remove (Line : in out Argument_List_Access; Index : Integer);
119 -- Remove a specific element from Line
121 procedure Add
122 (Line : in out Argument_List_Access;
123 Str : String_Access;
124 Before : Boolean := False);
125 -- Add a new element to Line. If Before is True, the item is inserted at
126 -- the beginning, else it is appended.
128 procedure Add
129 (Config : in out Command_Line_Configuration;
130 Switch : Switch_Definition);
131 procedure Add
132 (Def : in out Alias_Definitions_List;
133 Alias : Alias_Definition);
134 -- Add a new element to Def
136 procedure Initialize_Switch_Def
137 (Def : out Switch_Definition;
138 Switch : String := "";
139 Long_Switch : String := "";
140 Help : String := "";
141 Section : String := "";
142 Argument : String := "ARG");
143 -- Initialize [Def] with the contents of the other parameters.
144 -- This also checks consistency of the switch parameters, and will raise
145 -- Invalid_Switch if they do not match.
147 procedure Decompose_Switch
148 (Switch : String;
149 Parameter_Type : out Switch_Parameter_Type;
150 Switch_Last : out Integer);
151 -- Given a switch definition ("name:" for instance), extracts the type of
152 -- parameter that is expected, and the name of the switch
154 function Can_Have_Parameter (S : String) return Boolean;
155 -- True if S can have a parameter
157 function Require_Parameter (S : String) return Boolean;
158 -- True if S requires a parameter
160 function Actual_Switch (S : String) return String;
161 -- Remove any possible trailing '!', ':', '?' and '='
163 generic
164 with procedure Callback
165 (Simple_Switch : String;
166 Separator : String;
167 Parameter : String;
168 Index : Integer); -- Index in Config.Switches, or -1
169 procedure For_Each_Simple_Switch
170 (Config : Command_Line_Configuration;
171 Section : String;
172 Switch : String;
173 Parameter : String := "";
174 Unalias : Boolean := True);
175 -- Breaks Switch into as simple switches as possible (expanding aliases and
176 -- ungrouping common prefixes when possible), and call Callback for each of
177 -- these.
179 procedure Sort_Sections
180 (Line : GNAT.OS_Lib.Argument_List_Access;
181 Sections : GNAT.OS_Lib.Argument_List_Access;
182 Params : GNAT.OS_Lib.Argument_List_Access);
183 -- Reorder the command line switches so that the switches belonging to a
184 -- section are grouped together.
186 procedure Group_Switches
187 (Cmd : Command_Line;
188 Result : Argument_List_Access;
189 Sections : Argument_List_Access;
190 Params : Argument_List_Access);
191 -- Group switches with common prefixes whenever possible. Once they have
192 -- been grouped, we also check items for possible aliasing.
194 procedure Alias_Switches
195 (Cmd : Command_Line;
196 Result : Argument_List_Access;
197 Params : Argument_List_Access);
198 -- When possible, replace one or more switches by an alias, i.e. a shorter
199 -- version.
201 function Looking_At
202 (Type_Str : String;
203 Index : Natural;
204 Substring : String) return Boolean;
205 -- Return True if the characters starting at Index in Type_Str are
206 -- equivalent to Substring.
208 generic
209 with function Callback (S : String; Index : Integer) return Boolean;
210 procedure Foreach_Switch
211 (Config : Command_Line_Configuration;
212 Section : String);
213 -- Iterate over all switches defined in Config, for a specific section.
214 -- Index is set to the index in Config.Switches. Stop iterating when
215 -- Callback returns False.
217 --------------
218 -- Argument --
219 --------------
221 function Argument (Parser : Opt_Parser; Index : Integer) return String is
222 begin
223 if Parser.Arguments /= null then
224 return Parser.Arguments (Index + Parser.Arguments'First - 1).all;
225 else
226 return CL.Argument (Index);
227 end if;
228 end Argument;
230 ------------------------------
231 -- Canonical_Case_File_Name --
232 ------------------------------
234 procedure Canonical_Case_File_Name (S : in out String) is
235 begin
236 if not File_Names_Case_Sensitive then
237 for J in S'Range loop
238 if S (J) in 'A' .. 'Z' then
239 S (J) := Character'Val
240 (Character'Pos (S (J)) +
241 (Character'Pos ('a') - Character'Pos ('A')));
242 end if;
243 end loop;
244 end if;
245 end Canonical_Case_File_Name;
247 ---------------
248 -- Expansion --
249 ---------------
251 function Expansion (Iterator : Expansion_Iterator) return String is
252 type Pointer is access all Expansion_Iterator;
254 It : constant Pointer := Iterator'Unrestricted_Access;
255 S : String (1 .. 1024);
256 Last : Natural;
258 Current : Depth := It.Current_Depth;
259 NL : Positive;
261 begin
262 -- It is assumed that a directory is opened at the current level.
263 -- Otherwise GNAT.Directory_Operations.Directory_Error will be raised
264 -- at the first call to Read.
266 loop
267 Read (It.Levels (Current).Dir, S, Last);
269 -- If we have exhausted the directory, close it and go back one level
271 if Last = 0 then
272 Close (It.Levels (Current).Dir);
274 -- If we are at level 1, we are finished; return an empty string
276 if Current = 1 then
277 return String'(1 .. 0 => ' ');
279 -- Otherwise continue with the directory at the previous level
281 else
282 Current := Current - 1;
283 It.Current_Depth := Current;
284 end if;
286 -- If this is a directory, that is neither "." or "..", attempt to
287 -- go to the next level.
289 elsif Is_Directory
290 (It.Dir_Name (1 .. It.Levels (Current).Name_Last) &
291 S (1 .. Last))
292 and then S (1 .. Last) /= "."
293 and then S (1 .. Last) /= ".."
294 then
295 -- We can go to the next level only if we have not reached the
296 -- maximum depth,
298 if Current < It.Maximum_Depth then
299 NL := It.Levels (Current).Name_Last;
301 -- And if relative path of this new directory is not too long
303 if NL + Last + 1 < Max_Path_Length then
304 Current := Current + 1;
305 It.Current_Depth := Current;
306 It.Dir_Name (NL + 1 .. NL + Last) := S (1 .. Last);
307 NL := NL + Last + 1;
308 It.Dir_Name (NL) := Directory_Separator;
309 It.Levels (Current).Name_Last := NL;
310 Canonical_Case_File_Name (It.Dir_Name (1 .. NL));
312 -- Open the new directory, and read from it
314 GNAT.Directory_Operations.Open
315 (It.Levels (Current).Dir, It.Dir_Name (1 .. NL));
316 end if;
317 end if;
318 end if;
320 -- Check the relative path against the pattern
322 -- Note that we try to match also against directory names, since
323 -- clients of this function may expect to retrieve directories.
325 declare
326 Name : String :=
327 It.Dir_Name (It.Start .. It.Levels (Current).Name_Last)
328 & S (1 .. Last);
330 begin
331 Canonical_Case_File_Name (Name);
333 -- If it matches return the relative path
335 if GNAT.Regexp.Match (Name, Iterator.Regexp) then
336 return Name;
337 end if;
338 end;
339 end loop;
340 end Expansion;
342 ---------------------
343 -- Current_Section --
344 ---------------------
346 function Current_Section
347 (Parser : Opt_Parser := Command_Line_Parser) return String
349 begin
350 if Parser.Current_Section = 1 then
351 return "";
352 end if;
354 for Index in reverse 1 .. Integer'Min (Parser.Current_Argument - 1,
355 Parser.Section'Last)
356 loop
357 if Parser.Section (Index) = 0 then
358 return Argument (Parser, Index);
359 end if;
360 end loop;
362 return "";
363 end Current_Section;
365 -----------------
366 -- Full_Switch --
367 -----------------
369 function Full_Switch
370 (Parser : Opt_Parser := Command_Line_Parser) return String
372 begin
373 if Parser.The_Switch.Extra = ASCII.NUL then
374 return Argument (Parser, Parser.The_Switch.Arg_Num)
375 (Parser.The_Switch.First .. Parser.The_Switch.Last);
376 else
377 return Parser.The_Switch.Extra
378 & Argument (Parser, Parser.The_Switch.Arg_Num)
379 (Parser.The_Switch.First .. Parser.The_Switch.Last);
380 end if;
381 end Full_Switch;
383 ------------------
384 -- Get_Argument --
385 ------------------
387 function Get_Argument
388 (Do_Expansion : Boolean := False;
389 Parser : Opt_Parser := Command_Line_Parser) return String
391 begin
392 if Parser.In_Expansion then
393 declare
394 S : constant String := Expansion (Parser.Expansion_It);
395 begin
396 if S'Length /= 0 then
397 return S;
398 else
399 Parser.In_Expansion := False;
400 end if;
401 end;
402 end if;
404 if Parser.Current_Argument > Parser.Arg_Count then
406 -- If this is the first time this function is called
408 if Parser.Current_Index = 1 then
409 Parser.Current_Argument := 1;
410 while Parser.Current_Argument <= Parser.Arg_Count
411 and then Parser.Section (Parser.Current_Argument) /=
412 Parser.Current_Section
413 loop
414 Parser.Current_Argument := Parser.Current_Argument + 1;
415 end loop;
417 else
418 return String'(1 .. 0 => ' ');
419 end if;
421 elsif Parser.Section (Parser.Current_Argument) = 0 then
422 while Parser.Current_Argument <= Parser.Arg_Count
423 and then Parser.Section (Parser.Current_Argument) /=
424 Parser.Current_Section
425 loop
426 Parser.Current_Argument := Parser.Current_Argument + 1;
427 end loop;
428 end if;
430 Parser.Current_Index := Integer'Last;
432 while Parser.Current_Argument <= Parser.Arg_Count
433 and then Parser.Is_Switch (Parser.Current_Argument)
434 loop
435 Parser.Current_Argument := Parser.Current_Argument + 1;
436 end loop;
438 if Parser.Current_Argument > Parser.Arg_Count then
439 return String'(1 .. 0 => ' ');
440 elsif Parser.Section (Parser.Current_Argument) = 0 then
441 return Get_Argument (Do_Expansion);
442 end if;
444 Parser.Current_Argument := Parser.Current_Argument + 1;
446 -- Could it be a file name with wild cards to expand?
448 if Do_Expansion then
449 declare
450 Arg : constant String :=
451 Argument (Parser, Parser.Current_Argument - 1);
452 begin
453 for Index in Arg'Range loop
454 if Arg (Index) = '*'
455 or else Arg (Index) = '?'
456 or else Arg (Index) = '['
457 then
458 Parser.In_Expansion := True;
459 Start_Expansion (Parser.Expansion_It, Arg);
460 return Get_Argument (Do_Expansion, Parser);
461 end if;
462 end loop;
463 end;
464 end if;
466 return Argument (Parser, Parser.Current_Argument - 1);
467 end Get_Argument;
469 ----------------------
470 -- Decompose_Switch --
471 ----------------------
473 procedure Decompose_Switch
474 (Switch : String;
475 Parameter_Type : out Switch_Parameter_Type;
476 Switch_Last : out Integer)
478 begin
479 if Switch = "" then
480 Parameter_Type := Parameter_None;
481 Switch_Last := Switch'Last;
482 return;
483 end if;
485 case Switch (Switch'Last) is
486 when ':' =>
487 Parameter_Type := Parameter_With_Optional_Space;
488 Switch_Last := Switch'Last - 1;
489 when '=' =>
490 Parameter_Type := Parameter_With_Space_Or_Equal;
491 Switch_Last := Switch'Last - 1;
492 when '!' =>
493 Parameter_Type := Parameter_No_Space;
494 Switch_Last := Switch'Last - 1;
495 when '?' =>
496 Parameter_Type := Parameter_Optional;
497 Switch_Last := Switch'Last - 1;
498 when others =>
499 Parameter_Type := Parameter_None;
500 Switch_Last := Switch'Last;
501 end case;
502 end Decompose_Switch;
504 ----------------------------------
505 -- Find_Longest_Matching_Switch --
506 ----------------------------------
508 procedure Find_Longest_Matching_Switch
509 (Switches : String;
510 Arg : String;
511 Index_In_Switches : out Integer;
512 Switch_Length : out Integer;
513 Param : out Switch_Parameter_Type)
515 Index : Natural;
516 Length : Natural := 1;
517 Last : Natural;
518 P : Switch_Parameter_Type;
520 begin
521 Index_In_Switches := 0;
522 Switch_Length := 0;
524 -- Remove all leading spaces first to make sure that Index points
525 -- at the start of the first switch.
527 Index := Switches'First;
528 while Index <= Switches'Last and then Switches (Index) = ' ' loop
529 Index := Index + 1;
530 end loop;
532 while Index <= Switches'Last loop
534 -- Search the length of the parameter at this position in Switches
536 Length := Index;
537 while Length <= Switches'Last
538 and then Switches (Length) /= ' '
539 loop
540 Length := Length + 1;
541 end loop;
543 -- Length now marks the separator after the current switch. Last will
544 -- mark the last character of the name of the switch.
546 if Length = Index + 1 then
547 P := Parameter_None;
548 Last := Index;
549 else
550 Decompose_Switch (Switches (Index .. Length - 1), P, Last);
551 end if;
553 -- If it is the one we searched, it may be a candidate
555 if Arg'First + Last - Index <= Arg'Last
556 and then Switches (Index .. Last) =
557 Arg (Arg'First .. Arg'First + Last - Index)
558 and then Last - Index + 1 > Switch_Length
559 then
560 Param := P;
561 Index_In_Switches := Index;
562 Switch_Length := Last - Index + 1;
563 end if;
565 -- Look for the next switch in Switches
567 while Index <= Switches'Last
568 and then Switches (Index) /= ' '
569 loop
570 Index := Index + 1;
571 end loop;
573 Index := Index + 1;
574 end loop;
575 end Find_Longest_Matching_Switch;
577 ------------
578 -- Getopt --
579 ------------
581 function Getopt
582 (Switches : String;
583 Concatenate : Boolean := True;
584 Parser : Opt_Parser := Command_Line_Parser) return Character
586 Dummy : Boolean;
588 begin
589 <<Restart>>
591 -- If we have finished parsing the current command line item (there
592 -- might be multiple switches in a single item), then go to the next
593 -- element.
595 if Parser.Current_Argument > Parser.Arg_Count
596 or else (Parser.Current_Index >
597 Argument (Parser, Parser.Current_Argument)'Last
598 and then not Goto_Next_Argument_In_Section (Parser))
599 then
600 return ASCII.NUL;
601 end if;
603 -- By default, the switch will not have a parameter
605 Parser.The_Parameter :=
606 (Integer'Last, Integer'Last, Integer'Last - 1, ASCII.NUL);
607 Parser.The_Separator := ASCII.NUL;
609 declare
610 Arg : constant String :=
611 Argument (Parser, Parser.Current_Argument);
612 Index_Switches : Natural := 0;
613 Max_Length : Natural := 0;
614 End_Index : Natural;
615 Param : Switch_Parameter_Type;
616 begin
617 -- If we are on a new item, test if this might be a switch
619 if Parser.Current_Index = Arg'First then
620 if Arg (Arg'First) /= Parser.Switch_Character then
622 -- If it isn't a switch, return it immediately. We also know it
623 -- isn't the parameter to a previous switch, since that has
624 -- already been handled.
626 if Switches (Switches'First) = '*' then
627 Set_Parameter
628 (Parser.The_Switch,
629 Arg_Num => Parser.Current_Argument,
630 First => Arg'First,
631 Last => Arg'Last);
632 Parser.Is_Switch (Parser.Current_Argument) := True;
633 Dummy := Goto_Next_Argument_In_Section (Parser);
634 return '*';
635 end if;
637 if Parser.Stop_At_First then
638 Parser.Current_Argument := Positive'Last;
639 return ASCII.NUL;
641 elsif not Goto_Next_Argument_In_Section (Parser) then
642 return ASCII.NUL;
644 else
645 -- Recurse to get the next switch on the command line
647 goto Restart;
648 end if;
649 end if;
651 -- We are on the first character of a new command line argument,
652 -- which starts with Switch_Character. Further analysis is needed.
654 Parser.Current_Index := Parser.Current_Index + 1;
655 Parser.Is_Switch (Parser.Current_Argument) := True;
656 end if;
658 Find_Longest_Matching_Switch
659 (Switches => Switches,
660 Arg => Arg (Parser.Current_Index .. Arg'Last),
661 Index_In_Switches => Index_Switches,
662 Switch_Length => Max_Length,
663 Param => Param);
665 -- If switch is not accepted, it is either invalid or is returned
666 -- in the context of '*'.
668 if Index_Switches = 0 then
670 -- Find the current switch that we did not recognize. This is in
671 -- fact difficult because Getopt does not know explicitly about
672 -- short and long switches. Ideally, we would want the following
673 -- behavior:
675 -- * for short switches, with Concatenate:
676 -- if -a is not recognized, and the command line has -daf
677 -- we should report the invalid switch as "-a".
679 -- * for short switches, wihtout Concatenate:
680 -- we should report the invalid switch as "-daf".
682 -- * for long switches:
683 -- if the commadn line is "--long" we should report --long
684 -- as unrecongized.
686 -- Unfortunately, the fact that long switches start with a
687 -- duplicate switch character is just a convention (so we could
688 -- have a long switch "-long" for instance). We'll still rely on
689 -- this convention here to try and get as helpful an error message
690 -- as possible.
692 -- Long switch case (starting with double switch character)
694 if Arg (Arg'First + 1) = Parser.Switch_Character then
695 End_Index := Arg'Last;
697 -- Short switch case
699 else
700 End_Index :=
701 (if Concatenate then Parser.Current_Index else Arg'Last);
702 end if;
704 if Switches (Switches'First) = '*' then
706 -- Always prepend the switch character, so that users know
707 -- that this comes from a switch on the command line. This
708 -- is especially important when Concatenate is False, since
709 -- otherwise the current argument first character is lost.
711 if Parser.Section (Parser.Current_Argument) = 0 then
713 -- A section transition should not be returned to the user
715 Dummy := Goto_Next_Argument_In_Section (Parser);
716 goto Restart;
718 else
719 Set_Parameter
720 (Parser.The_Switch,
721 Arg_Num => Parser.Current_Argument,
722 First => Parser.Current_Index,
723 Last => Arg'Last,
724 Extra => Parser.Switch_Character);
725 Parser.Is_Switch (Parser.Current_Argument) := True;
726 Dummy := Goto_Next_Argument_In_Section (Parser);
727 return '*';
728 end if;
729 end if;
731 if Parser.Current_Index = Arg'First then
732 Set_Parameter
733 (Parser.The_Switch,
734 Arg_Num => Parser.Current_Argument,
735 First => Parser.Current_Index,
736 Last => End_Index);
737 else
738 Set_Parameter
739 (Parser.The_Switch,
740 Arg_Num => Parser.Current_Argument,
741 First => Parser.Current_Index,
742 Last => End_Index,
743 Extra => Parser.Switch_Character);
744 end if;
746 Parser.Current_Index := End_Index + 1;
748 raise Invalid_Switch;
749 end if;
751 End_Index := Parser.Current_Index + Max_Length - 1;
752 Set_Parameter
753 (Parser.The_Switch,
754 Arg_Num => Parser.Current_Argument,
755 First => Parser.Current_Index,
756 Last => End_Index);
758 case Param is
759 when Parameter_With_Optional_Space =>
760 if End_Index < Arg'Last then
761 Set_Parameter
762 (Parser.The_Parameter,
763 Arg_Num => Parser.Current_Argument,
764 First => End_Index + 1,
765 Last => Arg'Last);
766 Dummy := Goto_Next_Argument_In_Section (Parser);
768 elsif Parser.Current_Argument < Parser.Arg_Count
769 and then Parser.Section (Parser.Current_Argument + 1) /= 0
770 then
771 Parser.Current_Argument := Parser.Current_Argument + 1;
772 Parser.The_Separator := ' ';
773 Set_Parameter
774 (Parser.The_Parameter,
775 Arg_Num => Parser.Current_Argument,
776 First => Argument (Parser, Parser.Current_Argument)'First,
777 Last => Argument (Parser, Parser.Current_Argument)'Last);
778 Parser.Is_Switch (Parser.Current_Argument) := True;
779 Dummy := Goto_Next_Argument_In_Section (Parser);
781 else
782 Parser.Current_Index := End_Index + 1;
783 raise Invalid_Parameter;
784 end if;
786 when Parameter_With_Space_Or_Equal =>
788 -- If the switch is of the form <switch>=xxx
790 if End_Index < Arg'Last then
791 if Arg (End_Index + 1) = '='
792 and then End_Index + 1 < Arg'Last
793 then
794 Parser.The_Separator := '=';
795 Set_Parameter
796 (Parser.The_Parameter,
797 Arg_Num => Parser.Current_Argument,
798 First => End_Index + 2,
799 Last => Arg'Last);
800 Dummy := Goto_Next_Argument_In_Section (Parser);
802 else
803 Parser.Current_Index := End_Index + 1;
804 raise Invalid_Parameter;
805 end if;
807 -- Case of switch of the form <switch> xxx
809 elsif Parser.Current_Argument < Parser.Arg_Count
810 and then Parser.Section (Parser.Current_Argument + 1) /= 0
811 then
812 Parser.Current_Argument := Parser.Current_Argument + 1;
813 Parser.The_Separator := ' ';
814 Set_Parameter
815 (Parser.The_Parameter,
816 Arg_Num => Parser.Current_Argument,
817 First => Argument (Parser, Parser.Current_Argument)'First,
818 Last => Argument (Parser, Parser.Current_Argument)'Last);
819 Parser.Is_Switch (Parser.Current_Argument) := True;
820 Dummy := Goto_Next_Argument_In_Section (Parser);
822 else
823 Parser.Current_Index := End_Index + 1;
824 raise Invalid_Parameter;
825 end if;
827 when Parameter_No_Space =>
828 if End_Index < Arg'Last then
829 Set_Parameter
830 (Parser.The_Parameter,
831 Arg_Num => Parser.Current_Argument,
832 First => End_Index + 1,
833 Last => Arg'Last);
834 Dummy := Goto_Next_Argument_In_Section (Parser);
836 else
837 Parser.Current_Index := End_Index + 1;
838 raise Invalid_Parameter;
839 end if;
841 when Parameter_Optional =>
842 if End_Index < Arg'Last then
843 Set_Parameter
844 (Parser.The_Parameter,
845 Arg_Num => Parser.Current_Argument,
846 First => End_Index + 1,
847 Last => Arg'Last);
848 end if;
850 Dummy := Goto_Next_Argument_In_Section (Parser);
852 when Parameter_None =>
853 if Concatenate or else End_Index = Arg'Last then
854 Parser.Current_Index := End_Index + 1;
856 else
857 -- If Concatenate is False and the full argument is not
858 -- recognized as a switch, this is an invalid switch.
860 if Switches (Switches'First) = '*' then
861 Set_Parameter
862 (Parser.The_Switch,
863 Arg_Num => Parser.Current_Argument,
864 First => Arg'First,
865 Last => Arg'Last);
866 Parser.Is_Switch (Parser.Current_Argument) := True;
867 Dummy := Goto_Next_Argument_In_Section (Parser);
868 return '*';
869 end if;
871 Set_Parameter
872 (Parser.The_Switch,
873 Arg_Num => Parser.Current_Argument,
874 First => Parser.Current_Index,
875 Last => Arg'Last,
876 Extra => Parser.Switch_Character);
877 Parser.Current_Index := Arg'Last + 1;
878 raise Invalid_Switch;
879 end if;
880 end case;
882 return Switches (Index_Switches);
883 end;
884 end Getopt;
886 -----------------------------------
887 -- Goto_Next_Argument_In_Section --
888 -----------------------------------
890 function Goto_Next_Argument_In_Section
891 (Parser : Opt_Parser) return Boolean
893 begin
894 Parser.Current_Argument := Parser.Current_Argument + 1;
896 if Parser.Current_Argument > Parser.Arg_Count
897 or else Parser.Section (Parser.Current_Argument) = 0
898 then
899 loop
900 Parser.Current_Argument := Parser.Current_Argument + 1;
902 if Parser.Current_Argument > Parser.Arg_Count then
903 Parser.Current_Index := 1;
904 return False;
905 end if;
907 exit when Parser.Section (Parser.Current_Argument) =
908 Parser.Current_Section;
909 end loop;
910 end if;
912 Parser.Current_Index :=
913 Argument (Parser, Parser.Current_Argument)'First;
915 return True;
916 end Goto_Next_Argument_In_Section;
918 ------------------
919 -- Goto_Section --
920 ------------------
922 procedure Goto_Section
923 (Name : String := "";
924 Parser : Opt_Parser := Command_Line_Parser)
926 Index : Integer;
928 begin
929 Parser.In_Expansion := False;
931 if Name = "" then
932 Parser.Current_Argument := 1;
933 Parser.Current_Index := 1;
934 Parser.Current_Section := 1;
935 return;
936 end if;
938 Index := 1;
939 while Index <= Parser.Arg_Count loop
940 if Parser.Section (Index) = 0
941 and then Argument (Parser, Index) = Parser.Switch_Character & Name
942 then
943 Parser.Current_Argument := Index + 1;
944 Parser.Current_Index := 1;
946 if Parser.Current_Argument <= Parser.Arg_Count then
947 Parser.Current_Section :=
948 Parser.Section (Parser.Current_Argument);
949 end if;
951 -- Exit from loop if we have the start of another section
953 if Index = Parser.Section'Last
954 or else Parser.Section (Index + 1) /= 0
955 then
956 return;
957 end if;
958 end if;
960 Index := Index + 1;
961 end loop;
963 Parser.Current_Argument := Positive'Last;
964 Parser.Current_Index := 2; -- so that Get_Argument returns nothing
965 end Goto_Section;
967 ----------------------------
968 -- Initialize_Option_Scan --
969 ----------------------------
971 procedure Initialize_Option_Scan
972 (Switch_Char : Character := '-';
973 Stop_At_First_Non_Switch : Boolean := False;
974 Section_Delimiters : String := "")
976 begin
977 Internal_Initialize_Option_Scan
978 (Parser => Command_Line_Parser,
979 Switch_Char => Switch_Char,
980 Stop_At_First_Non_Switch => Stop_At_First_Non_Switch,
981 Section_Delimiters => Section_Delimiters);
982 end Initialize_Option_Scan;
984 ----------------------------
985 -- Initialize_Option_Scan --
986 ----------------------------
988 procedure Initialize_Option_Scan
989 (Parser : out Opt_Parser;
990 Command_Line : GNAT.OS_Lib.Argument_List_Access;
991 Switch_Char : Character := '-';
992 Stop_At_First_Non_Switch : Boolean := False;
993 Section_Delimiters : String := "")
995 begin
996 Free (Parser);
998 if Command_Line = null then
999 Parser := new Opt_Parser_Data (CL.Argument_Count);
1000 Internal_Initialize_Option_Scan
1001 (Parser => Parser,
1002 Switch_Char => Switch_Char,
1003 Stop_At_First_Non_Switch => Stop_At_First_Non_Switch,
1004 Section_Delimiters => Section_Delimiters);
1005 else
1006 Parser := new Opt_Parser_Data (Command_Line'Length);
1007 Parser.Arguments := Command_Line;
1008 Internal_Initialize_Option_Scan
1009 (Parser => Parser,
1010 Switch_Char => Switch_Char,
1011 Stop_At_First_Non_Switch => Stop_At_First_Non_Switch,
1012 Section_Delimiters => Section_Delimiters);
1013 end if;
1014 end Initialize_Option_Scan;
1016 -------------------------------------
1017 -- Internal_Initialize_Option_Scan --
1018 -------------------------------------
1020 procedure Internal_Initialize_Option_Scan
1021 (Parser : Opt_Parser;
1022 Switch_Char : Character;
1023 Stop_At_First_Non_Switch : Boolean;
1024 Section_Delimiters : String)
1026 Section_Num : Section_Number;
1027 Section_Index : Integer;
1028 Last : Integer;
1029 Delimiter_Found : Boolean;
1031 Discard : Boolean;
1032 pragma Warnings (Off, Discard);
1034 begin
1035 Parser.Current_Argument := 0;
1036 Parser.Current_Index := 0;
1037 Parser.In_Expansion := False;
1038 Parser.Switch_Character := Switch_Char;
1039 Parser.Stop_At_First := Stop_At_First_Non_Switch;
1040 Parser.Section := (others => 1);
1042 -- If we are using sections, we have to preprocess the command line to
1043 -- delimit them. A section can be repeated, so we just give each item
1044 -- on the command line a section number
1046 Section_Num := 1;
1047 Section_Index := Section_Delimiters'First;
1048 while Section_Index <= Section_Delimiters'Last loop
1049 Last := Section_Index;
1050 while Last <= Section_Delimiters'Last
1051 and then Section_Delimiters (Last) /= ' '
1052 loop
1053 Last := Last + 1;
1054 end loop;
1056 Delimiter_Found := False;
1057 Section_Num := Section_Num + 1;
1059 for Index in 1 .. Parser.Arg_Count loop
1060 if Argument (Parser, Index)(1) = Parser.Switch_Character
1061 and then
1062 Argument (Parser, Index) = Parser.Switch_Character &
1063 Section_Delimiters
1064 (Section_Index .. Last - 1)
1065 then
1066 Parser.Section (Index) := 0;
1067 Delimiter_Found := True;
1069 elsif Parser.Section (Index) = 0 then
1071 -- A previous section delimiter
1073 Delimiter_Found := False;
1075 elsif Delimiter_Found then
1076 Parser.Section (Index) := Section_Num;
1077 end if;
1078 end loop;
1080 Section_Index := Last + 1;
1081 while Section_Index <= Section_Delimiters'Last
1082 and then Section_Delimiters (Section_Index) = ' '
1083 loop
1084 Section_Index := Section_Index + 1;
1085 end loop;
1086 end loop;
1088 Discard := Goto_Next_Argument_In_Section (Parser);
1089 end Internal_Initialize_Option_Scan;
1091 ---------------
1092 -- Parameter --
1093 ---------------
1095 function Parameter
1096 (Parser : Opt_Parser := Command_Line_Parser) return String
1098 begin
1099 if Parser.The_Parameter.First > Parser.The_Parameter.Last then
1100 return String'(1 .. 0 => ' ');
1101 else
1102 return Argument (Parser, Parser.The_Parameter.Arg_Num)
1103 (Parser.The_Parameter.First .. Parser.The_Parameter.Last);
1104 end if;
1105 end Parameter;
1107 ---------------
1108 -- Separator --
1109 ---------------
1111 function Separator
1112 (Parser : Opt_Parser := Command_Line_Parser) return Character
1114 begin
1115 return Parser.The_Separator;
1116 end Separator;
1118 -------------------
1119 -- Set_Parameter --
1120 -------------------
1122 procedure Set_Parameter
1123 (Variable : out Parameter_Type;
1124 Arg_Num : Positive;
1125 First : Positive;
1126 Last : Positive;
1127 Extra : Character := ASCII.NUL)
1129 begin
1130 Variable.Arg_Num := Arg_Num;
1131 Variable.First := First;
1132 Variable.Last := Last;
1133 Variable.Extra := Extra;
1134 end Set_Parameter;
1136 ---------------------
1137 -- Start_Expansion --
1138 ---------------------
1140 procedure Start_Expansion
1141 (Iterator : out Expansion_Iterator;
1142 Pattern : String;
1143 Directory : String := "";
1144 Basic_Regexp : Boolean := True)
1146 Directory_Separator : Character;
1147 pragma Import (C, Directory_Separator, "__gnat_dir_separator");
1149 First : Positive := Pattern'First;
1150 Pat : String := Pattern;
1152 begin
1153 Canonical_Case_File_Name (Pat);
1154 Iterator.Current_Depth := 1;
1156 -- If Directory is unspecified, use the current directory ("./" or ".\")
1158 if Directory = "" then
1159 Iterator.Dir_Name (1 .. 2) := "." & Directory_Separator;
1160 Iterator.Start := 3;
1162 else
1163 Iterator.Dir_Name (1 .. Directory'Length) := Directory;
1164 Iterator.Start := Directory'Length + 1;
1165 Canonical_Case_File_Name (Iterator.Dir_Name (1 .. Directory'Length));
1167 -- Make sure that the last character is a directory separator
1169 if Directory (Directory'Last) /= Directory_Separator then
1170 Iterator.Dir_Name (Iterator.Start) := Directory_Separator;
1171 Iterator.Start := Iterator.Start + 1;
1172 end if;
1173 end if;
1175 Iterator.Levels (1).Name_Last := Iterator.Start - 1;
1177 -- Open the initial Directory, at depth 1
1179 GNAT.Directory_Operations.Open
1180 (Iterator.Levels (1).Dir, Iterator.Dir_Name (1 .. Iterator.Start - 1));
1182 -- If in the current directory and the pattern starts with "./" or ".\",
1183 -- drop the "./" or ".\" from the pattern.
1185 if Directory = "" and then Pat'Length > 2
1186 and then Pat (Pat'First) = '.'
1187 and then Pat (Pat'First + 1) = Directory_Separator
1188 then
1189 First := Pat'First + 2;
1190 end if;
1192 Iterator.Regexp :=
1193 GNAT.Regexp.Compile (Pat (First .. Pat'Last), Basic_Regexp, True);
1195 Iterator.Maximum_Depth := 1;
1197 -- Maximum_Depth is equal to 1 plus the number of directory separators
1198 -- in the pattern.
1200 for Index in First .. Pat'Last loop
1201 if Pat (Index) = Directory_Separator then
1202 Iterator.Maximum_Depth := Iterator.Maximum_Depth + 1;
1203 exit when Iterator.Maximum_Depth = Max_Depth;
1204 end if;
1205 end loop;
1206 end Start_Expansion;
1208 ----------
1209 -- Free --
1210 ----------
1212 procedure Free (Parser : in out Opt_Parser) is
1213 procedure Unchecked_Free is new
1214 Ada.Unchecked_Deallocation (Opt_Parser_Data, Opt_Parser);
1215 begin
1216 if Parser /= null and then Parser /= Command_Line_Parser then
1217 Free (Parser.Arguments);
1218 Unchecked_Free (Parser);
1219 end if;
1220 end Free;
1222 ------------------
1223 -- Define_Alias --
1224 ------------------
1226 procedure Define_Alias
1227 (Config : in out Command_Line_Configuration;
1228 Switch : String;
1229 Expanded : String;
1230 Section : String := "")
1232 Def : Alias_Definition;
1234 begin
1235 if Config = null then
1236 Config := new Command_Line_Configuration_Record;
1237 end if;
1239 Def.Alias := new String'(Switch);
1240 Def.Expansion := new String'(Expanded);
1241 Def.Section := new String'(Section);
1242 Add (Config.Aliases, Def);
1243 end Define_Alias;
1245 -------------------
1246 -- Define_Prefix --
1247 -------------------
1249 procedure Define_Prefix
1250 (Config : in out Command_Line_Configuration;
1251 Prefix : String)
1253 begin
1254 if Config = null then
1255 Config := new Command_Line_Configuration_Record;
1256 end if;
1258 Add (Config.Prefixes, new String'(Prefix));
1259 end Define_Prefix;
1261 ---------
1262 -- Add --
1263 ---------
1265 procedure Add
1266 (Config : in out Command_Line_Configuration;
1267 Switch : Switch_Definition)
1269 procedure Unchecked_Free is new Ada.Unchecked_Deallocation
1270 (Switch_Definitions, Switch_Definitions_List);
1272 Tmp : Switch_Definitions_List;
1274 begin
1275 if Config = null then
1276 Config := new Command_Line_Configuration_Record;
1277 end if;
1279 Tmp := Config.Switches;
1281 if Tmp = null then
1282 Config.Switches := new Switch_Definitions (1 .. 1);
1283 else
1284 Config.Switches := new Switch_Definitions (1 .. Tmp'Length + 1);
1285 Config.Switches (1 .. Tmp'Length) := Tmp.all;
1286 Unchecked_Free (Tmp);
1287 end if;
1289 if Switch.Switch /= null and then Switch.Switch.all = "*" then
1290 Config.Star_Switch := True;
1291 end if;
1293 Config.Switches (Config.Switches'Last) := Switch;
1294 end Add;
1296 ---------
1297 -- Add --
1298 ---------
1300 procedure Add
1301 (Def : in out Alias_Definitions_List;
1302 Alias : Alias_Definition)
1304 procedure Unchecked_Free is new
1305 Ada.Unchecked_Deallocation
1306 (Alias_Definitions, Alias_Definitions_List);
1308 Tmp : Alias_Definitions_List := Def;
1310 begin
1311 if Tmp = null then
1312 Def := new Alias_Definitions (1 .. 1);
1313 else
1314 Def := new Alias_Definitions (1 .. Tmp'Length + 1);
1315 Def (1 .. Tmp'Length) := Tmp.all;
1316 Unchecked_Free (Tmp);
1317 end if;
1319 Def (Def'Last) := Alias;
1320 end Add;
1322 ---------------------------
1323 -- Initialize_Switch_Def --
1324 ---------------------------
1326 procedure Initialize_Switch_Def
1327 (Def : out Switch_Definition;
1328 Switch : String := "";
1329 Long_Switch : String := "";
1330 Help : String := "";
1331 Section : String := "";
1332 Argument : String := "ARG")
1334 P1, P2 : Switch_Parameter_Type := Parameter_None;
1335 Last1, Last2 : Integer;
1337 begin
1338 if Switch /= "" then
1339 Def.Switch := new String'(Switch);
1340 Decompose_Switch (Switch, P1, Last1);
1341 end if;
1343 if Long_Switch /= "" then
1344 Def.Long_Switch := new String'(Long_Switch);
1345 Decompose_Switch (Long_Switch, P2, Last2);
1346 end if;
1348 if Switch /= "" and then Long_Switch /= "" then
1349 if (P1 = Parameter_None and then P2 /= P1)
1350 or else (P2 = Parameter_None and then P1 /= P2)
1351 or else (P1 = Parameter_Optional and then P2 /= P1)
1352 or else (P2 = Parameter_Optional and then P2 /= P1)
1353 then
1354 raise Invalid_Switch
1355 with "Inconsistent parameter types for "
1356 & Switch & " and " & Long_Switch;
1357 end if;
1358 end if;
1360 if Section /= "" then
1361 Def.Section := new String'(Section);
1362 end if;
1364 if Argument /= "ARG" then
1365 Def.Argument := new String'(Argument);
1366 end if;
1368 if Help /= "" then
1369 Def.Help := new String'(Help);
1370 end if;
1371 end Initialize_Switch_Def;
1373 -------------------
1374 -- Define_Switch --
1375 -------------------
1377 procedure Define_Switch
1378 (Config : in out Command_Line_Configuration;
1379 Switch : String := "";
1380 Long_Switch : String := "";
1381 Help : String := "";
1382 Section : String := "";
1383 Argument : String := "ARG")
1385 Def : Switch_Definition;
1386 begin
1387 if Switch /= "" or else Long_Switch /= "" then
1388 Initialize_Switch_Def
1389 (Def, Switch, Long_Switch, Help, Section, Argument);
1390 Add (Config, Def);
1391 end if;
1392 end Define_Switch;
1394 -------------------
1395 -- Define_Switch --
1396 -------------------
1398 procedure Define_Switch
1399 (Config : in out Command_Line_Configuration;
1400 Output : access Boolean;
1401 Switch : String := "";
1402 Long_Switch : String := "";
1403 Help : String := "";
1404 Section : String := "";
1405 Value : Boolean := True)
1407 Def : Switch_Definition (Switch_Boolean);
1408 begin
1409 if Switch /= "" or else Long_Switch /= "" then
1410 Initialize_Switch_Def (Def, Switch, Long_Switch, Help, Section);
1411 Def.Boolean_Output := Output.all'Unchecked_Access;
1412 Def.Boolean_Value := Value;
1413 Add (Config, Def);
1414 end if;
1415 end Define_Switch;
1417 -------------------
1418 -- Define_Switch --
1419 -------------------
1421 procedure Define_Switch
1422 (Config : in out Command_Line_Configuration;
1423 Output : access Integer;
1424 Switch : String := "";
1425 Long_Switch : String := "";
1426 Help : String := "";
1427 Section : String := "";
1428 Initial : Integer := 0;
1429 Default : Integer := 1;
1430 Argument : String := "ARG")
1432 Def : Switch_Definition (Switch_Integer);
1433 begin
1434 if Switch /= "" or else Long_Switch /= "" then
1435 Initialize_Switch_Def
1436 (Def, Switch, Long_Switch, Help, Section, Argument);
1437 Def.Integer_Output := Output.all'Unchecked_Access;
1438 Def.Integer_Default := Default;
1439 Def.Integer_Initial := Initial;
1440 Add (Config, Def);
1441 end if;
1442 end Define_Switch;
1444 -------------------
1445 -- Define_Switch --
1446 -------------------
1448 procedure Define_Switch
1449 (Config : in out Command_Line_Configuration;
1450 Output : access GNAT.Strings.String_Access;
1451 Switch : String := "";
1452 Long_Switch : String := "";
1453 Help : String := "";
1454 Section : String := "";
1455 Argument : String := "ARG")
1457 Def : Switch_Definition (Switch_String);
1458 begin
1459 if Switch /= "" or else Long_Switch /= "" then
1460 Initialize_Switch_Def
1461 (Def, Switch, Long_Switch, Help, Section, Argument);
1462 Def.String_Output := Output.all'Unchecked_Access;
1463 Add (Config, Def);
1464 end if;
1465 end Define_Switch;
1467 --------------------
1468 -- Define_Section --
1469 --------------------
1471 procedure Define_Section
1472 (Config : in out Command_Line_Configuration;
1473 Section : String)
1475 begin
1476 if Config = null then
1477 Config := new Command_Line_Configuration_Record;
1478 end if;
1480 Add (Config.Sections, new String'(Section));
1481 end Define_Section;
1483 --------------------
1484 -- Foreach_Switch --
1485 --------------------
1487 procedure Foreach_Switch
1488 (Config : Command_Line_Configuration;
1489 Section : String)
1491 begin
1492 if Config /= null and then Config.Switches /= null then
1493 for J in Config.Switches'Range loop
1494 if (Section = "" and then Config.Switches (J).Section = null)
1495 or else
1496 (Config.Switches (J).Section /= null
1497 and then Config.Switches (J).Section.all = Section)
1498 then
1499 exit when Config.Switches (J).Switch /= null
1500 and then not Callback (Config.Switches (J).Switch.all, J);
1502 exit when Config.Switches (J).Long_Switch /= null
1503 and then
1504 not Callback (Config.Switches (J).Long_Switch.all, J);
1505 end if;
1506 end loop;
1507 end if;
1508 end Foreach_Switch;
1510 ------------------
1511 -- Get_Switches --
1512 ------------------
1514 function Get_Switches
1515 (Config : Command_Line_Configuration;
1516 Switch_Char : Character := '-';
1517 Section : String := "") return String
1519 Ret : Ada.Strings.Unbounded.Unbounded_String;
1520 use Ada.Strings.Unbounded;
1522 function Add_Switch (S : String; Index : Integer) return Boolean;
1523 -- Add a switch to Ret
1525 ----------------
1526 -- Add_Switch --
1527 ----------------
1529 function Add_Switch (S : String; Index : Integer) return Boolean is
1530 pragma Unreferenced (Index);
1531 begin
1532 if S = "*" then
1533 Ret := "*" & Ret; -- Always first
1534 elsif S (S'First) = Switch_Char then
1535 Append (Ret, " " & S (S'First + 1 .. S'Last));
1536 else
1537 Append (Ret, " " & S);
1538 end if;
1540 return True;
1541 end Add_Switch;
1543 Tmp : Boolean;
1544 pragma Unreferenced (Tmp);
1546 procedure Foreach is new Foreach_Switch (Add_Switch);
1548 -- Start of processing for Get_Switches
1550 begin
1551 if Config = null then
1552 return "";
1553 end if;
1555 Foreach (Config, Section => Section);
1557 -- Add relevant aliases
1559 if Config.Aliases /= null then
1560 for A in Config.Aliases'Range loop
1561 if Config.Aliases (A).Section.all = Section then
1562 Tmp := Add_Switch (Config.Aliases (A).Alias.all, -1);
1563 end if;
1564 end loop;
1565 end if;
1567 return To_String (Ret);
1568 end Get_Switches;
1570 ------------------------
1571 -- Section_Delimiters --
1572 ------------------------
1574 function Section_Delimiters
1575 (Config : Command_Line_Configuration) return String
1577 use Ada.Strings.Unbounded;
1578 Result : Unbounded_String;
1580 begin
1581 if Config /= null and then Config.Sections /= null then
1582 for S in Config.Sections'Range loop
1583 Append (Result, " " & Config.Sections (S).all);
1584 end loop;
1585 end if;
1587 return To_String (Result);
1588 end Section_Delimiters;
1590 -----------------------
1591 -- Set_Configuration --
1592 -----------------------
1594 procedure Set_Configuration
1595 (Cmd : in out Command_Line;
1596 Config : Command_Line_Configuration)
1598 begin
1599 Cmd.Config := Config;
1600 end Set_Configuration;
1602 -----------------------
1603 -- Get_Configuration --
1604 -----------------------
1606 function Get_Configuration
1607 (Cmd : Command_Line) return Command_Line_Configuration
1609 begin
1610 return Cmd.Config;
1611 end Get_Configuration;
1613 ----------------------
1614 -- Set_Command_Line --
1615 ----------------------
1617 procedure Set_Command_Line
1618 (Cmd : in out Command_Line;
1619 Switches : String;
1620 Getopt_Description : String := "";
1621 Switch_Char : Character := '-')
1623 Tmp : Argument_List_Access;
1624 Parser : Opt_Parser;
1625 S : Character;
1626 Section : String_Access := null;
1628 function Real_Full_Switch
1629 (S : Character;
1630 Parser : Opt_Parser) return String;
1631 -- Ensure that the returned switch value contains the Switch_Char prefix
1632 -- if needed.
1634 ----------------------
1635 -- Real_Full_Switch --
1636 ----------------------
1638 function Real_Full_Switch
1639 (S : Character;
1640 Parser : Opt_Parser) return String
1642 begin
1643 if S = '*' then
1644 return Full_Switch (Parser);
1645 else
1646 return Switch_Char & Full_Switch (Parser);
1647 end if;
1648 end Real_Full_Switch;
1650 -- Start of processing for Set_Command_Line
1652 begin
1653 Free (Cmd.Expanded);
1654 Free (Cmd.Params);
1656 if Switches /= "" then
1657 Tmp := Argument_String_To_List (Switches);
1658 Initialize_Option_Scan (Parser, Tmp, Switch_Char);
1660 loop
1661 begin
1662 if Cmd.Config /= null then
1664 -- Do not use Getopt_Description in this case. Otherwise,
1665 -- if we have defined a prefix -gnaty, and two switches
1666 -- -gnatya and -gnatyL!, we would have a different behavior
1667 -- depending on the order of switches:
1669 -- -gnatyL1a => -gnatyL with argument "1a"
1670 -- -gnatyaL1 => -gnatya and -gnatyL with argument "1"
1672 -- This is because the call to Getopt below knows nothing
1673 -- about prefixes, and in the first case finds a valid
1674 -- switch with arguments, so returns it without analyzing
1675 -- the argument. In the second case, the switch matches "*",
1676 -- and is then decomposed below.
1678 -- Note: When a Command_Line object is associated with a
1679 -- Command_Line_Config (which is mostly the case for tools
1680 -- that let users choose the command line before spawning
1681 -- other tools, for instance IDEs), the configuration of
1682 -- the switches must be taken from the Command_Line_Config.
1684 S := Getopt (Switches => "* " & Get_Switches (Cmd.Config),
1685 Concatenate => False,
1686 Parser => Parser);
1688 else
1689 S := Getopt (Switches => "* " & Getopt_Description,
1690 Concatenate => False,
1691 Parser => Parser);
1692 end if;
1694 exit when S = ASCII.NUL;
1696 declare
1697 Sw : constant String := Real_Full_Switch (S, Parser);
1698 Is_Section : Boolean := False;
1700 begin
1701 if Cmd.Config /= null
1702 and then Cmd.Config.Sections /= null
1703 then
1704 Section_Search :
1705 for S in Cmd.Config.Sections'Range loop
1706 if Sw = Cmd.Config.Sections (S).all then
1707 Section := Cmd.Config.Sections (S);
1708 Is_Section := True;
1710 exit Section_Search;
1711 end if;
1712 end loop Section_Search;
1713 end if;
1715 if not Is_Section then
1716 if Section = null then
1717 Add_Switch (Cmd, Sw, Parameter (Parser));
1718 else
1719 Add_Switch
1720 (Cmd, Sw, Parameter (Parser),
1721 Section => Section.all);
1722 end if;
1723 end if;
1724 end;
1726 exception
1727 when Invalid_Parameter =>
1729 -- Add it with no parameter, if that's the way the user
1730 -- wants it.
1732 -- Specify the separator in all cases, as the switch might
1733 -- need to be unaliased, and the alias might contain
1734 -- switches with parameters.
1736 if Section = null then
1737 Add_Switch
1738 (Cmd, Switch_Char & Full_Switch (Parser));
1739 else
1740 Add_Switch
1741 (Cmd, Switch_Char & Full_Switch (Parser),
1742 Section => Section.all);
1743 end if;
1744 end;
1745 end loop;
1747 Free (Parser);
1748 end if;
1749 end Set_Command_Line;
1751 ----------------
1752 -- Looking_At --
1753 ----------------
1755 function Looking_At
1756 (Type_Str : String;
1757 Index : Natural;
1758 Substring : String) return Boolean
1760 begin
1761 return Index + Substring'Length - 1 <= Type_Str'Last
1762 and then Type_Str (Index .. Index + Substring'Length - 1) = Substring;
1763 end Looking_At;
1765 ------------------------
1766 -- Can_Have_Parameter --
1767 ------------------------
1769 function Can_Have_Parameter (S : String) return Boolean is
1770 begin
1771 if S'Length <= 1 then
1772 return False;
1773 end if;
1775 case S (S'Last) is
1776 when '!' | ':' | '?' | '=' =>
1777 return True;
1778 when others =>
1779 return False;
1780 end case;
1781 end Can_Have_Parameter;
1783 -----------------------
1784 -- Require_Parameter --
1785 -----------------------
1787 function Require_Parameter (S : String) return Boolean is
1788 begin
1789 if S'Length <= 1 then
1790 return False;
1791 end if;
1793 case S (S'Last) is
1794 when '!' | ':' | '=' =>
1795 return True;
1796 when others =>
1797 return False;
1798 end case;
1799 end Require_Parameter;
1801 -------------------
1802 -- Actual_Switch --
1803 -------------------
1805 function Actual_Switch (S : String) return String is
1806 begin
1807 if S'Length <= 1 then
1808 return S;
1809 end if;
1811 case S (S'Last) is
1812 when '!' | ':' | '?' | '=' =>
1813 return S (S'First .. S'Last - 1);
1814 when others =>
1815 return S;
1816 end case;
1817 end Actual_Switch;
1819 ----------------------------
1820 -- For_Each_Simple_Switch --
1821 ----------------------------
1823 procedure For_Each_Simple_Switch
1824 (Config : Command_Line_Configuration;
1825 Section : String;
1826 Switch : String;
1827 Parameter : String := "";
1828 Unalias : Boolean := True)
1830 function Group_Analysis
1831 (Prefix : String;
1832 Group : String) return Boolean;
1833 -- Perform the analysis of a group of switches
1835 Found_In_Config : Boolean := False;
1836 function Is_In_Config
1837 (Config_Switch : String; Index : Integer) return Boolean;
1838 -- If Switch is the same as Config_Switch, run the callback and sets
1839 -- Found_In_Config to True.
1841 function Starts_With
1842 (Config_Switch : String; Index : Integer) return Boolean;
1843 -- if Switch starts with Config_Switch, sets Found_In_Config to True.
1844 -- The return value is for the Foreach_Switch iterator.
1846 --------------------
1847 -- Group_Analysis --
1848 --------------------
1850 function Group_Analysis
1851 (Prefix : String;
1852 Group : String) return Boolean
1854 Idx : Natural;
1855 Found : Boolean;
1857 function Analyze_Simple_Switch
1858 (Switch : String; Index : Integer) return Boolean;
1859 -- "Switches" is one of the switch definitions passed to the
1860 -- configuration, not one of the switches found on the command line.
1862 ---------------------------
1863 -- Analyze_Simple_Switch --
1864 ---------------------------
1866 function Analyze_Simple_Switch
1867 (Switch : String; Index : Integer) return Boolean
1869 pragma Unreferenced (Index);
1871 Full : constant String := Prefix & Group (Idx .. Group'Last);
1873 Sw : constant String := Actual_Switch (Switch);
1874 -- Switches definition minus argument definition
1876 Last : Natural;
1877 Param : Natural;
1879 begin
1880 -- Verify that sw starts with Prefix
1882 if Looking_At (Sw, Sw'First, Prefix)
1884 -- Verify that the group starts with sw
1886 and then Looking_At (Full, Full'First, Sw)
1887 then
1888 Last := Idx + Sw'Length - Prefix'Length - 1;
1889 Param := Last + 1;
1891 if Can_Have_Parameter (Switch) then
1893 -- Include potential parameter to the recursive call. Only
1894 -- numbers are allowed.
1896 while Last < Group'Last
1897 and then Group (Last + 1) in '0' .. '9'
1898 loop
1899 Last := Last + 1;
1900 end loop;
1901 end if;
1903 if not Require_Parameter (Switch) or else Last >= Param then
1904 if Idx = Group'First
1905 and then Last = Group'Last
1906 and then Last < Param
1907 then
1908 -- The group only concerns a single switch. Do not
1909 -- perform recursive call.
1911 -- Note that we still perform a recursive call if
1912 -- a parameter is detected in the switch, as this
1913 -- is a way to correctly identify such a parameter
1914 -- in aliases.
1916 return False;
1917 end if;
1919 Found := True;
1921 -- Recursive call, using the detected parameter if any
1923 if Last >= Param then
1924 For_Each_Simple_Switch
1925 (Config,
1926 Section,
1927 Prefix & Group (Idx .. Param - 1),
1928 Group (Param .. Last));
1930 else
1931 For_Each_Simple_Switch
1932 (Config, Section, Prefix & Group (Idx .. Last), "");
1933 end if;
1935 Idx := Last + 1;
1936 return False;
1937 end if;
1938 end if;
1940 return True;
1941 end Analyze_Simple_Switch;
1943 procedure Foreach is new Foreach_Switch (Analyze_Simple_Switch);
1945 -- Start of processing for Group_Analysis
1947 begin
1948 Idx := Group'First;
1949 while Idx <= Group'Last loop
1950 Found := False;
1951 Foreach (Config, Section);
1953 if not Found then
1954 For_Each_Simple_Switch
1955 (Config, Section, Prefix & Group (Idx), "");
1956 Idx := Idx + 1;
1957 end if;
1958 end loop;
1960 return True;
1961 end Group_Analysis;
1963 ------------------
1964 -- Is_In_Config --
1965 ------------------
1967 function Is_In_Config
1968 (Config_Switch : String; Index : Integer) return Boolean
1970 Last : Natural;
1971 P : Switch_Parameter_Type;
1973 begin
1974 Decompose_Switch (Config_Switch, P, Last);
1976 if Config_Switch (Config_Switch'First .. Last) = Switch then
1977 case P is
1978 when Parameter_None =>
1979 if Parameter = "" then
1980 Callback (Switch, "", "", Index => Index);
1981 Found_In_Config := True;
1982 return False;
1983 end if;
1985 when Parameter_With_Optional_Space =>
1986 Callback (Switch, " ", Parameter, Index => Index);
1987 Found_In_Config := True;
1988 return False;
1990 when Parameter_With_Space_Or_Equal =>
1991 Callback (Switch, "=", Parameter, Index => Index);
1992 Found_In_Config := True;
1993 return False;
1995 when Parameter_No_Space =>
1996 Callback (Switch, "", Parameter, Index);
1997 Found_In_Config := True;
1998 return False;
2000 when Parameter_Optional =>
2001 Callback (Switch, "", Parameter, Index);
2002 Found_In_Config := True;
2003 return False;
2004 end case;
2005 end if;
2007 return True;
2008 end Is_In_Config;
2010 -----------------
2011 -- Starts_With --
2012 -----------------
2014 function Starts_With
2015 (Config_Switch : String; Index : Integer) return Boolean
2017 Last : Natural;
2018 Param : Natural;
2019 P : Switch_Parameter_Type;
2021 begin
2022 -- This function is called when we believe the parameter was
2023 -- specified as part of the switch, instead of separately. Thus we
2024 -- look in the config to find all possible switches.
2026 Decompose_Switch (Config_Switch, P, Last);
2028 if Looking_At
2029 (Switch, Switch'First,
2030 Config_Switch (Config_Switch'First .. Last))
2031 then
2032 -- Set first char of Param, and last char of Switch
2034 Param := Switch'First + Last;
2035 Last := Switch'First + Last - Config_Switch'First;
2037 case P is
2039 -- None is already handled in Is_In_Config
2041 when Parameter_None =>
2042 null;
2044 when Parameter_With_Space_Or_Equal =>
2045 if Param <= Switch'Last
2046 and then
2047 (Switch (Param) = ' ' or else Switch (Param) = '=')
2048 then
2049 Callback (Switch (Switch'First .. Last),
2050 "=", Switch (Param + 1 .. Switch'Last), Index);
2051 Found_In_Config := True;
2052 return False;
2053 end if;
2055 when Parameter_With_Optional_Space =>
2056 if Param <= Switch'Last and then Switch (Param) = ' ' then
2057 Param := Param + 1;
2058 end if;
2060 Callback (Switch (Switch'First .. Last),
2061 " ", Switch (Param .. Switch'Last), Index);
2062 Found_In_Config := True;
2063 return False;
2065 when Parameter_No_Space | Parameter_Optional =>
2066 Callback (Switch (Switch'First .. Last),
2067 "", Switch (Param .. Switch'Last), Index);
2068 Found_In_Config := True;
2069 return False;
2070 end case;
2071 end if;
2072 return True;
2073 end Starts_With;
2075 procedure Foreach_In_Config is new Foreach_Switch (Is_In_Config);
2076 procedure Foreach_Starts_With is new Foreach_Switch (Starts_With);
2078 -- Start of processing for For_Each_Simple_Switch
2080 begin
2081 -- First determine if the switch corresponds to one belonging to the
2082 -- configuration. If so, run callback and exit.
2084 -- ??? Is this necessary. On simple tests, we seem to have the same
2085 -- results with or without this call.
2087 Foreach_In_Config (Config, Section);
2089 if Found_In_Config then
2090 return;
2091 end if;
2093 -- If adding a switch that can in fact be expanded through aliases,
2094 -- add separately each of its expansions.
2096 -- This takes care of expansions like "-T" -> "-gnatwrs", where the
2097 -- alias and its expansion do not have the same prefix. Given the order
2098 -- in which we do things here, the expansion of the alias will itself
2099 -- be checked for a common prefix and split into simple switches.
2101 if Unalias
2102 and then Config /= null
2103 and then Config.Aliases /= null
2104 then
2105 for A in Config.Aliases'Range loop
2106 if Config.Aliases (A).Section.all = Section
2107 and then Config.Aliases (A).Alias.all = Switch
2108 and then Parameter = ""
2109 then
2110 For_Each_Simple_Switch
2111 (Config, Section, Config.Aliases (A).Expansion.all, "");
2112 return;
2113 end if;
2114 end loop;
2115 end if;
2117 -- If adding a switch grouping several switches, add each of the simple
2118 -- switches instead.
2120 if Config /= null and then Config.Prefixes /= null then
2121 for P in Config.Prefixes'Range loop
2122 if Switch'Length > Config.Prefixes (P)'Length + 1
2123 and then
2124 Looking_At (Switch, Switch'First, Config.Prefixes (P).all)
2125 then
2126 -- Alias expansion will be done recursively
2128 if Config.Switches = null then
2129 for S in Switch'First + Config.Prefixes (P)'Length
2130 .. Switch'Last
2131 loop
2132 For_Each_Simple_Switch
2133 (Config, Section,
2134 Config.Prefixes (P).all & Switch (S), "");
2135 end loop;
2137 return;
2139 elsif Group_Analysis
2140 (Config.Prefixes (P).all,
2141 Switch
2142 (Switch'First + Config.Prefixes (P)'Length .. Switch'Last))
2143 then
2144 -- Recursive calls already done on each switch of the group:
2145 -- Return without executing Callback.
2147 return;
2148 end if;
2149 end if;
2150 end loop;
2151 end if;
2153 -- Test if added switch is a known switch with parameter attached
2154 -- instead of being specified separately
2156 if Parameter = ""
2157 and then Config /= null
2158 and then Config.Switches /= null
2159 then
2160 Found_In_Config := False;
2161 Foreach_Starts_With (Config, Section);
2163 if Found_In_Config then
2164 return;
2165 end if;
2166 end if;
2168 -- The switch is invalid in the config, but we still want to report it.
2169 -- The config could, for instance, include "*" to specify it accepts
2170 -- all switches.
2172 Callback (Switch, " ", Parameter, Index => -1);
2173 end For_Each_Simple_Switch;
2175 ----------------
2176 -- Add_Switch --
2177 ----------------
2179 procedure Add_Switch
2180 (Cmd : in out Command_Line;
2181 Switch : String;
2182 Parameter : String := "";
2183 Separator : Character := ASCII.NUL;
2184 Section : String := "";
2185 Add_Before : Boolean := False)
2187 Success : Boolean;
2188 pragma Unreferenced (Success);
2189 begin
2190 Add_Switch (Cmd, Switch, Parameter, Separator,
2191 Section, Add_Before, Success);
2192 end Add_Switch;
2194 ----------------
2195 -- Add_Switch --
2196 ----------------
2198 procedure Add_Switch
2199 (Cmd : in out Command_Line;
2200 Switch : String;
2201 Parameter : String := "";
2202 Separator : Character := ASCII.NUL;
2203 Section : String := "";
2204 Add_Before : Boolean := False;
2205 Success : out Boolean)
2207 procedure Add_Simple_Switch
2208 (Simple : String;
2209 Sepa : String;
2210 Param : String;
2211 Index : Integer);
2212 -- Add a new switch that has had all its aliases expanded, and switches
2213 -- ungrouped. We know there are no more aliases in Switches.
2215 -----------------------
2216 -- Add_Simple_Switch --
2217 -----------------------
2219 procedure Add_Simple_Switch
2220 (Simple : String;
2221 Sepa : String;
2222 Param : String;
2223 Index : Integer)
2225 Sep : Character;
2227 begin
2228 if Index = -1
2229 and then Cmd.Config /= null
2230 and then not Cmd.Config.Star_Switch
2231 then
2232 raise Invalid_Switch
2233 with "Invalid switch " & Simple;
2234 end if;
2236 if Separator /= ASCII.NUL then
2237 Sep := Separator;
2239 elsif Sepa = "" then
2240 Sep := ASCII.NUL;
2241 else
2242 Sep := Sepa (Sepa'First);
2243 end if;
2245 if Cmd.Expanded = null then
2246 Cmd.Expanded := new Argument_List'(1 .. 1 => new String'(Simple));
2248 if Param /= "" then
2249 Cmd.Params :=
2250 new Argument_List'(1 .. 1 => new String'(Sep & Param));
2251 else
2252 Cmd.Params := new Argument_List'(1 .. 1 => null);
2253 end if;
2255 if Section = "" then
2256 Cmd.Sections := new Argument_List'(1 .. 1 => null);
2257 else
2258 Cmd.Sections :=
2259 new Argument_List'(1 .. 1 => new String'(Section));
2260 end if;
2262 else
2263 -- Do we already have this switch?
2265 for C in Cmd.Expanded'Range loop
2266 if Cmd.Expanded (C).all = Simple
2267 and then
2268 ((Cmd.Params (C) = null and then Param = "")
2269 or else
2270 (Cmd.Params (C) /= null
2271 and then Cmd.Params (C).all = Sep & Param))
2272 and then
2273 ((Cmd.Sections (C) = null and then Section = "")
2274 or else
2275 (Cmd.Sections (C) /= null
2276 and then Cmd.Sections (C).all = Section))
2277 then
2278 return;
2279 end if;
2280 end loop;
2282 -- Inserting at least one switch
2284 Success := True;
2285 Add (Cmd.Expanded, new String'(Simple), Add_Before);
2287 if Param /= "" then
2289 (Cmd.Params,
2290 new String'(Sep & Param),
2291 Add_Before);
2292 else
2294 (Cmd.Params,
2295 null,
2296 Add_Before);
2297 end if;
2299 if Section = "" then
2301 (Cmd.Sections,
2302 null,
2303 Add_Before);
2304 else
2306 (Cmd.Sections,
2307 new String'(Section),
2308 Add_Before);
2309 end if;
2310 end if;
2311 end Add_Simple_Switch;
2313 procedure Add_Simple_Switches is
2314 new For_Each_Simple_Switch (Add_Simple_Switch);
2316 -- Local Variables
2318 Section_Valid : Boolean := False;
2320 -- Start of processing for Add_Switch
2322 begin
2323 if Section /= "" and then Cmd.Config /= null then
2324 for S in Cmd.Config.Sections'Range loop
2325 if Section = Cmd.Config.Sections (S).all then
2326 Section_Valid := True;
2327 exit;
2328 end if;
2329 end loop;
2331 if not Section_Valid then
2332 raise Invalid_Section;
2333 end if;
2334 end if;
2336 Success := False;
2337 Add_Simple_Switches (Cmd.Config, Section, Switch, Parameter);
2338 Free (Cmd.Coalesce);
2339 end Add_Switch;
2341 ------------
2342 -- Remove --
2343 ------------
2345 procedure Remove (Line : in out Argument_List_Access; Index : Integer) is
2346 Tmp : Argument_List_Access := Line;
2348 begin
2349 Line := new Argument_List (Tmp'First .. Tmp'Last - 1);
2351 if Index /= Tmp'First then
2352 Line (Tmp'First .. Index - 1) := Tmp (Tmp'First .. Index - 1);
2353 end if;
2355 Free (Tmp (Index));
2357 if Index /= Tmp'Last then
2358 Line (Index .. Tmp'Last - 1) := Tmp (Index + 1 .. Tmp'Last);
2359 end if;
2361 Unchecked_Free (Tmp);
2362 end Remove;
2364 ---------
2365 -- Add --
2366 ---------
2368 procedure Add
2369 (Line : in out Argument_List_Access;
2370 Str : String_Access;
2371 Before : Boolean := False)
2373 Tmp : Argument_List_Access := Line;
2375 begin
2376 if Tmp /= null then
2377 Line := new Argument_List (Tmp'First .. Tmp'Last + 1);
2379 if Before then
2380 Line (Tmp'First) := Str;
2381 Line (Tmp'First + 1 .. Tmp'Last + 1) := Tmp.all;
2382 else
2383 Line (Tmp'Range) := Tmp.all;
2384 Line (Tmp'Last + 1) := Str;
2385 end if;
2387 Unchecked_Free (Tmp);
2389 else
2390 Line := new Argument_List'(1 .. 1 => Str);
2391 end if;
2392 end Add;
2394 -------------------
2395 -- Remove_Switch --
2396 -------------------
2398 procedure Remove_Switch
2399 (Cmd : in out Command_Line;
2400 Switch : String;
2401 Remove_All : Boolean := False;
2402 Has_Parameter : Boolean := False;
2403 Section : String := "")
2405 Success : Boolean;
2406 pragma Unreferenced (Success);
2407 begin
2408 Remove_Switch (Cmd, Switch, Remove_All, Has_Parameter, Section, Success);
2409 end Remove_Switch;
2411 -------------------
2412 -- Remove_Switch --
2413 -------------------
2415 procedure Remove_Switch
2416 (Cmd : in out Command_Line;
2417 Switch : String;
2418 Remove_All : Boolean := False;
2419 Has_Parameter : Boolean := False;
2420 Section : String := "";
2421 Success : out Boolean)
2423 procedure Remove_Simple_Switch
2424 (Simple, Separator, Param : String; Index : Integer);
2425 -- Removes a simple switch, with no aliasing or grouping
2427 --------------------------
2428 -- Remove_Simple_Switch --
2429 --------------------------
2431 procedure Remove_Simple_Switch
2432 (Simple, Separator, Param : String; Index : Integer)
2434 C : Integer;
2435 pragma Unreferenced (Param, Separator, Index);
2437 begin
2438 if Cmd.Expanded /= null then
2439 C := Cmd.Expanded'First;
2440 while C <= Cmd.Expanded'Last loop
2441 if Cmd.Expanded (C).all = Simple
2442 and then
2443 (Remove_All
2444 or else (Cmd.Sections (C) = null
2445 and then Section = "")
2446 or else (Cmd.Sections (C) /= null
2447 and then Section = Cmd.Sections (C).all))
2448 and then (not Has_Parameter or else Cmd.Params (C) /= null)
2449 then
2450 Remove (Cmd.Expanded, C);
2451 Remove (Cmd.Params, C);
2452 Remove (Cmd.Sections, C);
2453 Success := True;
2455 if not Remove_All then
2456 return;
2457 end if;
2459 else
2460 C := C + 1;
2461 end if;
2462 end loop;
2463 end if;
2464 end Remove_Simple_Switch;
2466 procedure Remove_Simple_Switches is
2467 new For_Each_Simple_Switch (Remove_Simple_Switch);
2469 -- Start of processing for Remove_Switch
2471 begin
2472 Success := False;
2473 Remove_Simple_Switches
2474 (Cmd.Config, Section, Switch, "", Unalias => not Has_Parameter);
2475 Free (Cmd.Coalesce);
2476 end Remove_Switch;
2478 -------------------
2479 -- Remove_Switch --
2480 -------------------
2482 procedure Remove_Switch
2483 (Cmd : in out Command_Line;
2484 Switch : String;
2485 Parameter : String;
2486 Section : String := "")
2488 procedure Remove_Simple_Switch
2489 (Simple, Separator, Param : String; Index : Integer);
2490 -- Removes a simple switch, with no aliasing or grouping
2492 --------------------------
2493 -- Remove_Simple_Switch --
2494 --------------------------
2496 procedure Remove_Simple_Switch
2497 (Simple, Separator, Param : String; Index : Integer)
2499 pragma Unreferenced (Separator, Index);
2500 C : Integer;
2502 begin
2503 if Cmd.Expanded /= null then
2504 C := Cmd.Expanded'First;
2505 while C <= Cmd.Expanded'Last loop
2506 if Cmd.Expanded (C).all = Simple
2507 and then
2508 ((Cmd.Sections (C) = null
2509 and then Section = "")
2510 or else
2511 (Cmd.Sections (C) /= null
2512 and then Section = Cmd.Sections (C).all))
2513 and then
2514 ((Cmd.Params (C) = null and then Param = "")
2515 or else
2516 (Cmd.Params (C) /= null
2518 -- Ignore the separator stored in Parameter
2520 and then
2521 Cmd.Params (C) (Cmd.Params (C)'First + 1
2522 .. Cmd.Params (C)'Last) = Param))
2523 then
2524 Remove (Cmd.Expanded, C);
2525 Remove (Cmd.Params, C);
2526 Remove (Cmd.Sections, C);
2528 -- The switch is necessarily unique by construction of
2529 -- Add_Switch.
2531 return;
2533 else
2534 C := C + 1;
2535 end if;
2536 end loop;
2537 end if;
2538 end Remove_Simple_Switch;
2540 procedure Remove_Simple_Switches is
2541 new For_Each_Simple_Switch (Remove_Simple_Switch);
2543 -- Start of processing for Remove_Switch
2545 begin
2546 Remove_Simple_Switches (Cmd.Config, Section, Switch, Parameter);
2547 Free (Cmd.Coalesce);
2548 end Remove_Switch;
2550 --------------------
2551 -- Group_Switches --
2552 --------------------
2554 procedure Group_Switches
2555 (Cmd : Command_Line;
2556 Result : Argument_List_Access;
2557 Sections : Argument_List_Access;
2558 Params : Argument_List_Access)
2560 function Compatible_Parameter (Param : String_Access) return Boolean;
2561 -- True when the parameter can be part of a group
2563 --------------------------
2564 -- Compatible_Parameter --
2565 --------------------------
2567 function Compatible_Parameter (Param : String_Access) return Boolean is
2568 begin
2569 -- No parameter OK
2571 if Param = null then
2572 return True;
2574 -- We need parameters without separators
2576 elsif Param (Param'First) /= ASCII.NUL then
2577 return False;
2579 -- Parameters must be all digits
2581 else
2582 for J in Param'First + 1 .. Param'Last loop
2583 if Param (J) not in '0' .. '9' then
2584 return False;
2585 end if;
2586 end loop;
2588 return True;
2589 end if;
2590 end Compatible_Parameter;
2592 -- Local declarations
2594 Group : Ada.Strings.Unbounded.Unbounded_String;
2595 First : Natural;
2596 use type Ada.Strings.Unbounded.Unbounded_String;
2598 -- Start of processing for Group_Switches
2600 begin
2601 if Cmd.Config = null or else Cmd.Config.Prefixes = null then
2602 return;
2603 end if;
2605 for P in Cmd.Config.Prefixes'Range loop
2606 Group := Ada.Strings.Unbounded.Null_Unbounded_String;
2607 First := 0;
2609 for C in Result'Range loop
2610 if Result (C) /= null
2611 and then Compatible_Parameter (Params (C))
2612 and then Looking_At
2613 (Result (C).all,
2614 Result (C)'First,
2615 Cmd.Config.Prefixes (P).all)
2616 then
2617 -- If we are still in the same section, group the switches
2619 if First = 0
2620 or else
2621 (Sections (C) = null
2622 and then Sections (First) = null)
2623 or else
2624 (Sections (C) /= null
2625 and then Sections (First) /= null
2626 and then Sections (C).all = Sections (First).all)
2627 then
2628 Group :=
2629 Group &
2630 Result (C)
2631 (Result (C)'First + Cmd.Config.Prefixes (P)'Length ..
2632 Result (C)'Last);
2634 if Params (C) /= null then
2635 Group :=
2636 Group &
2637 Params (C) (Params (C)'First + 1 .. Params (C)'Last);
2638 Free (Params (C));
2639 end if;
2641 if First = 0 then
2642 First := C;
2643 end if;
2645 Free (Result (C));
2647 -- We changed section: we put the grouped switches to the first
2648 -- place, on continue with the new section.
2650 else
2651 Result (First) :=
2652 new String'
2653 (Cmd.Config.Prefixes (P).all &
2654 Ada.Strings.Unbounded.To_String (Group));
2655 Group :=
2656 Ada.Strings.Unbounded.To_Unbounded_String
2657 (Result (C)
2658 (Result (C)'First + Cmd.Config.Prefixes (P)'Length ..
2659 Result (C)'Last));
2660 First := C;
2661 end if;
2662 end if;
2663 end loop;
2665 if First > 0 then
2666 Result (First) :=
2667 new String'
2668 (Cmd.Config.Prefixes (P).all &
2669 Ada.Strings.Unbounded.To_String (Group));
2670 end if;
2671 end loop;
2672 end Group_Switches;
2674 --------------------
2675 -- Alias_Switches --
2676 --------------------
2678 procedure Alias_Switches
2679 (Cmd : Command_Line;
2680 Result : Argument_List_Access;
2681 Params : Argument_List_Access)
2683 Found : Boolean;
2684 First : Natural;
2686 procedure Check_Cb (Switch, Separator, Param : String; Index : Integer);
2687 -- Checks whether the command line contains [Switch]. Sets the global
2688 -- variable [Found] appropriately. This is called for each simple switch
2689 -- that make up an alias, to know whether the alias should be applied.
2691 procedure Remove_Cb (Switch, Separator, Param : String; Index : Integer);
2692 -- Remove the simple switch [Switch] from the command line, since it is
2693 -- part of a simpler alias
2695 --------------
2696 -- Check_Cb --
2697 --------------
2699 procedure Check_Cb
2700 (Switch, Separator, Param : String; Index : Integer)
2702 pragma Unreferenced (Separator, Index);
2704 begin
2705 if Found then
2706 for E in Result'Range loop
2707 if Result (E) /= null
2708 and then
2709 (Params (E) = null
2710 or else Params (E) (Params (E)'First + 1 ..
2711 Params (E)'Last) = Param)
2712 and then Result (E).all = Switch
2713 then
2714 return;
2715 end if;
2716 end loop;
2718 Found := False;
2719 end if;
2720 end Check_Cb;
2722 ---------------
2723 -- Remove_Cb --
2724 ---------------
2726 procedure Remove_Cb (Switch, Separator, Param : String; Index : Integer)
2728 pragma Unreferenced (Separator, Index);
2730 begin
2731 for E in Result'Range loop
2732 if Result (E) /= null
2733 and then
2734 (Params (E) = null
2735 or else Params (E) (Params (E)'First + 1
2736 .. Params (E)'Last) = Param)
2737 and then Result (E).all = Switch
2738 then
2739 if First > E then
2740 First := E;
2741 end if;
2743 Free (Result (E));
2744 Free (Params (E));
2745 return;
2746 end if;
2747 end loop;
2748 end Remove_Cb;
2750 procedure Check_All is new For_Each_Simple_Switch (Check_Cb);
2751 procedure Remove_All is new For_Each_Simple_Switch (Remove_Cb);
2753 -- Start of processing for Alias_Switches
2755 begin
2756 if Cmd.Config = null or else Cmd.Config.Aliases = null then
2757 return;
2758 end if;
2760 for A in Cmd.Config.Aliases'Range loop
2762 -- Compute the various simple switches that make up the alias. We
2763 -- split the expansion into as many simple switches as possible, and
2764 -- then check whether the expanded command line has all of them.
2766 Found := True;
2767 Check_All (Cmd.Config,
2768 Switch => Cmd.Config.Aliases (A).Expansion.all,
2769 Section => Cmd.Config.Aliases (A).Section.all);
2771 if Found then
2772 First := Integer'Last;
2773 Remove_All (Cmd.Config,
2774 Switch => Cmd.Config.Aliases (A).Expansion.all,
2775 Section => Cmd.Config.Aliases (A).Section.all);
2776 Result (First) := new String'(Cmd.Config.Aliases (A).Alias.all);
2777 end if;
2778 end loop;
2779 end Alias_Switches;
2781 -------------------
2782 -- Sort_Sections --
2783 -------------------
2785 procedure Sort_Sections
2786 (Line : GNAT.OS_Lib.Argument_List_Access;
2787 Sections : GNAT.OS_Lib.Argument_List_Access;
2788 Params : GNAT.OS_Lib.Argument_List_Access)
2790 Sections_List : Argument_List_Access :=
2791 new Argument_List'(1 .. 1 => null);
2792 Found : Boolean;
2793 Old_Line : constant Argument_List := Line.all;
2794 Old_Sections : constant Argument_List := Sections.all;
2795 Old_Params : constant Argument_List := Params.all;
2796 Index : Natural;
2798 begin
2799 if Line = null then
2800 return;
2801 end if;
2803 -- First construct a list of all sections
2805 for E in Line'Range loop
2806 if Sections (E) /= null then
2807 Found := False;
2808 for S in Sections_List'Range loop
2809 if (Sections_List (S) = null and then Sections (E) = null)
2810 or else
2811 (Sections_List (S) /= null
2812 and then Sections (E) /= null
2813 and then Sections_List (S).all = Sections (E).all)
2814 then
2815 Found := True;
2816 exit;
2817 end if;
2818 end loop;
2820 if not Found then
2821 Add (Sections_List, Sections (E));
2822 end if;
2823 end if;
2824 end loop;
2826 Index := Line'First;
2828 for S in Sections_List'Range loop
2829 for E in Old_Line'Range loop
2830 if (Sections_List (S) = null and then Old_Sections (E) = null)
2831 or else
2832 (Sections_List (S) /= null
2833 and then Old_Sections (E) /= null
2834 and then Sections_List (S).all = Old_Sections (E).all)
2835 then
2836 Line (Index) := Old_Line (E);
2837 Sections (Index) := Old_Sections (E);
2838 Params (Index) := Old_Params (E);
2839 Index := Index + 1;
2840 end if;
2841 end loop;
2842 end loop;
2844 Unchecked_Free (Sections_List);
2845 end Sort_Sections;
2847 -----------
2848 -- Start --
2849 -----------
2851 procedure Start
2852 (Cmd : in out Command_Line;
2853 Iter : in out Command_Line_Iterator;
2854 Expanded : Boolean := False)
2856 begin
2857 if Cmd.Expanded = null then
2858 Iter.List := null;
2859 return;
2860 end if;
2862 -- Reorder the expanded line so that sections are grouped
2864 Sort_Sections (Cmd.Expanded, Cmd.Sections, Cmd.Params);
2866 -- Coalesce the switches as much as possible
2868 if not Expanded
2869 and then Cmd.Coalesce = null
2870 then
2871 Cmd.Coalesce := new Argument_List (Cmd.Expanded'Range);
2872 for E in Cmd.Expanded'Range loop
2873 Cmd.Coalesce (E) := new String'(Cmd.Expanded (E).all);
2874 end loop;
2876 Free (Cmd.Coalesce_Sections);
2877 Cmd.Coalesce_Sections := new Argument_List (Cmd.Sections'Range);
2878 for E in Cmd.Sections'Range loop
2879 Cmd.Coalesce_Sections (E) :=
2880 (if Cmd.Sections (E) = null then null
2881 else new String'(Cmd.Sections (E).all));
2882 end loop;
2884 Free (Cmd.Coalesce_Params);
2885 Cmd.Coalesce_Params := new Argument_List (Cmd.Params'Range);
2886 for E in Cmd.Params'Range loop
2887 Cmd.Coalesce_Params (E) :=
2888 (if Cmd.Params (E) = null then null
2889 else new String'(Cmd.Params (E).all));
2890 end loop;
2892 -- Not a clone, since we will not modify the parameters anyway
2894 Alias_Switches (Cmd, Cmd.Coalesce, Cmd.Coalesce_Params);
2895 Group_Switches
2896 (Cmd, Cmd.Coalesce, Cmd.Coalesce_Sections, Cmd.Coalesce_Params);
2897 end if;
2899 if Expanded then
2900 Iter.List := Cmd.Expanded;
2901 Iter.Params := Cmd.Params;
2902 Iter.Sections := Cmd.Sections;
2903 else
2904 Iter.List := Cmd.Coalesce;
2905 Iter.Params := Cmd.Coalesce_Params;
2906 Iter.Sections := Cmd.Coalesce_Sections;
2907 end if;
2909 if Iter.List = null then
2910 Iter.Current := Integer'Last;
2911 else
2912 Iter.Current := Iter.List'First - 1;
2913 Next (Iter);
2914 end if;
2915 end Start;
2917 --------------------
2918 -- Current_Switch --
2919 --------------------
2921 function Current_Switch (Iter : Command_Line_Iterator) return String is
2922 begin
2923 return Iter.List (Iter.Current).all;
2924 end Current_Switch;
2926 --------------------
2927 -- Is_New_Section --
2928 --------------------
2930 function Is_New_Section (Iter : Command_Line_Iterator) return Boolean is
2931 Section : constant String := Current_Section (Iter);
2933 begin
2934 if Iter.Sections = null then
2935 return False;
2937 elsif Iter.Current = Iter.Sections'First
2938 or else Iter.Sections (Iter.Current - 1) = null
2939 then
2940 return Section /= "";
2942 else
2943 return Section /= Iter.Sections (Iter.Current - 1).all;
2944 end if;
2945 end Is_New_Section;
2947 ---------------------
2948 -- Current_Section --
2949 ---------------------
2951 function Current_Section (Iter : Command_Line_Iterator) return String is
2952 begin
2953 if Iter.Sections = null
2954 or else Iter.Current > Iter.Sections'Last
2955 or else Iter.Sections (Iter.Current) = null
2956 then
2957 return "";
2958 end if;
2960 return Iter.Sections (Iter.Current).all;
2961 end Current_Section;
2963 -----------------------
2964 -- Current_Separator --
2965 -----------------------
2967 function Current_Separator (Iter : Command_Line_Iterator) return String is
2968 begin
2969 if Iter.Params = null
2970 or else Iter.Current > Iter.Params'Last
2971 or else Iter.Params (Iter.Current) = null
2972 then
2973 return "";
2975 else
2976 declare
2977 Sep : constant Character :=
2978 Iter.Params (Iter.Current) (Iter.Params (Iter.Current)'First);
2979 begin
2980 if Sep = ASCII.NUL then
2981 return "";
2982 else
2983 return "" & Sep;
2984 end if;
2985 end;
2986 end if;
2987 end Current_Separator;
2989 -----------------------
2990 -- Current_Parameter --
2991 -----------------------
2993 function Current_Parameter (Iter : Command_Line_Iterator) return String is
2994 begin
2995 if Iter.Params = null
2996 or else Iter.Current > Iter.Params'Last
2997 or else Iter.Params (Iter.Current) = null
2998 then
2999 return "";
3001 else
3002 -- Return result, skipping separator
3004 declare
3005 P : constant String := Iter.Params (Iter.Current).all;
3006 begin
3007 return P (P'First + 1 .. P'Last);
3008 end;
3009 end if;
3010 end Current_Parameter;
3012 --------------
3013 -- Has_More --
3014 --------------
3016 function Has_More (Iter : Command_Line_Iterator) return Boolean is
3017 begin
3018 return Iter.List /= null and then Iter.Current <= Iter.List'Last;
3019 end Has_More;
3021 ----------
3022 -- Next --
3023 ----------
3025 procedure Next (Iter : in out Command_Line_Iterator) is
3026 begin
3027 Iter.Current := Iter.Current + 1;
3028 while Iter.Current <= Iter.List'Last
3029 and then Iter.List (Iter.Current) = null
3030 loop
3031 Iter.Current := Iter.Current + 1;
3032 end loop;
3033 end Next;
3035 ----------
3036 -- Free --
3037 ----------
3039 procedure Free (Config : in out Command_Line_Configuration) is
3040 procedure Unchecked_Free is new
3041 Ada.Unchecked_Deallocation
3042 (Switch_Definitions, Switch_Definitions_List);
3044 procedure Unchecked_Free is new
3045 Ada.Unchecked_Deallocation
3046 (Alias_Definitions, Alias_Definitions_List);
3048 begin
3049 if Config /= null then
3050 Free (Config.Prefixes);
3051 Free (Config.Sections);
3052 Free (Config.Usage);
3053 Free (Config.Help);
3054 Free (Config.Help_Msg);
3056 if Config.Aliases /= null then
3057 for A in Config.Aliases'Range loop
3058 Free (Config.Aliases (A).Alias);
3059 Free (Config.Aliases (A).Expansion);
3060 Free (Config.Aliases (A).Section);
3061 end loop;
3063 Unchecked_Free (Config.Aliases);
3064 end if;
3066 if Config.Switches /= null then
3067 for S in Config.Switches'Range loop
3068 Free (Config.Switches (S).Switch);
3069 Free (Config.Switches (S).Long_Switch);
3070 Free (Config.Switches (S).Help);
3071 Free (Config.Switches (S).Section);
3072 end loop;
3074 Unchecked_Free (Config.Switches);
3075 end if;
3077 Unchecked_Free (Config);
3078 end if;
3079 end Free;
3081 ----------
3082 -- Free --
3083 ----------
3085 procedure Free (Cmd : in out Command_Line) is
3086 begin
3087 Free (Cmd.Expanded);
3088 Free (Cmd.Coalesce);
3089 Free (Cmd.Coalesce_Sections);
3090 Free (Cmd.Coalesce_Params);
3091 Free (Cmd.Params);
3092 Free (Cmd.Sections);
3093 end Free;
3095 ---------------
3096 -- Set_Usage --
3097 ---------------
3099 procedure Set_Usage
3100 (Config : in out Command_Line_Configuration;
3101 Usage : String := "[switches] [arguments]";
3102 Help : String := "";
3103 Help_Msg : String := "")
3105 begin
3106 if Config = null then
3107 Config := new Command_Line_Configuration_Record;
3108 end if;
3110 Free (Config.Usage);
3111 Free (Config.Help);
3112 Free (Config.Help_Msg);
3114 Config.Usage := new String'(Usage);
3115 Config.Help := new String'(Help);
3116 Config.Help_Msg := new String'(Help_Msg);
3117 end Set_Usage;
3119 ------------------
3120 -- Display_Help --
3121 ------------------
3123 procedure Display_Help (Config : Command_Line_Configuration) is
3124 function Switch_Name
3125 (Def : Switch_Definition;
3126 Section : String) return String;
3127 -- Return the "-short, --long=ARG" string for Def.
3128 -- Returns "" if the switch is not in the section.
3130 function Param_Name
3131 (P : Switch_Parameter_Type;
3132 Name : String := "ARG") return String;
3133 -- Return the display for a switch parameter
3135 procedure Display_Section_Help (Section : String);
3136 -- Display the help for a specific section ("" is the default section)
3138 --------------------------
3139 -- Display_Section_Help --
3140 --------------------------
3142 procedure Display_Section_Help (Section : String) is
3143 Max_Len : Natural := 0;
3145 begin
3146 -- ??? Special display for "*"
3148 New_Line;
3150 if Section /= "" then
3151 Put_Line ("Switches after " & Section);
3152 end if;
3154 -- Compute size of the switches column
3156 for S in Config.Switches'Range loop
3157 Max_Len := Natural'Max
3158 (Max_Len, Switch_Name (Config.Switches (S), Section)'Length);
3159 end loop;
3161 if Config.Aliases /= null then
3162 for A in Config.Aliases'Range loop
3163 if Config.Aliases (A).Section.all = Section then
3164 Max_Len := Natural'Max
3165 (Max_Len, Config.Aliases (A).Alias'Length);
3166 end if;
3167 end loop;
3168 end if;
3170 -- Display the switches
3172 for S in Config.Switches'Range loop
3173 declare
3174 N : constant String :=
3175 Switch_Name (Config.Switches (S), Section);
3177 begin
3178 if N /= "" then
3179 Put (" ");
3180 Put (N);
3181 Put ((1 .. Max_Len - N'Length + 1 => ' '));
3183 if Config.Switches (S).Help /= null then
3184 Put (Config.Switches (S).Help.all);
3185 end if;
3187 New_Line;
3188 end if;
3189 end;
3190 end loop;
3192 -- Display the aliases
3194 if Config.Aliases /= null then
3195 for A in Config.Aliases'Range loop
3196 if Config.Aliases (A).Section.all = Section then
3197 Put (" ");
3198 Put (Config.Aliases (A).Alias.all);
3199 Put ((1 .. Max_Len - Config.Aliases (A).Alias'Length + 1
3200 => ' '));
3201 Put ("Equivalent to " & Config.Aliases (A).Expansion.all);
3202 New_Line;
3203 end if;
3204 end loop;
3205 end if;
3206 end Display_Section_Help;
3208 ----------------
3209 -- Param_Name --
3210 ----------------
3212 function Param_Name
3213 (P : Switch_Parameter_Type;
3214 Name : String := "ARG") return String
3216 begin
3217 case P is
3218 when Parameter_None =>
3219 return "";
3221 when Parameter_With_Optional_Space =>
3222 return " " & To_Upper (Name);
3224 when Parameter_With_Space_Or_Equal =>
3225 return "=" & To_Upper (Name);
3227 when Parameter_No_Space =>
3228 return To_Upper (Name);
3230 when Parameter_Optional =>
3231 return '[' & To_Upper (Name) & ']';
3232 end case;
3233 end Param_Name;
3235 -----------------
3236 -- Switch_Name --
3237 -----------------
3239 function Switch_Name
3240 (Def : Switch_Definition;
3241 Section : String) return String
3243 use Ada.Strings.Unbounded;
3244 Result : Unbounded_String;
3245 P1, P2 : Switch_Parameter_Type;
3246 Last1, Last2 : Integer := 0;
3248 begin
3249 if (Section = "" and then Def.Section = null)
3250 or else (Def.Section /= null and then Def.Section.all = Section)
3251 then
3252 if Def.Switch /= null and then Def.Switch.all = "*" then
3253 return "[any switch]";
3254 end if;
3256 if Def.Switch /= null then
3257 Decompose_Switch (Def.Switch.all, P1, Last1);
3258 Append (Result, Def.Switch (Def.Switch'First .. Last1));
3260 if Def.Long_Switch /= null then
3261 Decompose_Switch (Def.Long_Switch.all, P2, Last2);
3262 Append (Result, ", "
3263 & Def.Long_Switch (Def.Long_Switch'First .. Last2));
3265 if Def.Argument = null then
3266 Append (Result, Param_Name (P2, "ARG"));
3267 else
3268 Append (Result, Param_Name (P2, Def.Argument.all));
3269 end if;
3271 else
3272 if Def.Argument = null then
3273 Append (Result, Param_Name (P1, "ARG"));
3274 else
3275 Append (Result, Param_Name (P1, Def.Argument.all));
3276 end if;
3277 end if;
3279 -- Def.Switch is null (Long_Switch must be non-null)
3281 else
3282 Decompose_Switch (Def.Long_Switch.all, P2, Last2);
3283 Append (Result,
3284 Def.Long_Switch (Def.Long_Switch'First .. Last2));
3286 if Def.Argument = null then
3287 Append (Result, Param_Name (P2, "ARG"));
3288 else
3289 Append (Result, Param_Name (P2, Def.Argument.all));
3290 end if;
3291 end if;
3292 end if;
3294 return To_String (Result);
3295 end Switch_Name;
3297 -- Start of processing for Display_Help
3299 begin
3300 if Config = null then
3301 return;
3302 end if;
3304 if Config.Help /= null and then Config.Help.all /= "" then
3305 Put_Line (Config.Help.all);
3306 end if;
3308 if Config.Usage /= null then
3309 Put_Line ("Usage: "
3310 & Base_Name
3311 (Ada.Command_Line.Command_Name) & " " & Config.Usage.all);
3312 else
3313 Put_Line ("Usage: " & Base_Name (Ada.Command_Line.Command_Name)
3314 & " [switches] [arguments]");
3315 end if;
3317 if Config.Help_Msg /= null and then Config.Help_Msg.all /= "" then
3318 Put_Line (Config.Help_Msg.all);
3320 else
3321 Display_Section_Help ("");
3323 if Config.Sections /= null and then Config.Switches /= null then
3324 for S in Config.Sections'Range loop
3325 Display_Section_Help (Config.Sections (S).all);
3326 end loop;
3327 end if;
3328 end if;
3329 end Display_Help;
3331 ------------
3332 -- Getopt --
3333 ------------
3335 procedure Getopt
3336 (Config : Command_Line_Configuration;
3337 Callback : Switch_Handler := null;
3338 Parser : Opt_Parser := Command_Line_Parser;
3339 Concatenate : Boolean := True)
3341 Getopt_Switches : String_Access;
3342 C : Character := ASCII.NUL;
3344 Empty_Name : aliased constant String := "";
3345 Current_Section : Integer := -1;
3346 Section_Name : not null access constant String := Empty_Name'Access;
3348 procedure Simple_Callback
3349 (Simple_Switch : String;
3350 Separator : String;
3351 Parameter : String;
3352 Index : Integer);
3353 -- Needs comments ???
3355 procedure Do_Callback (Switch, Parameter : String; Index : Integer);
3357 -----------------
3358 -- Do_Callback --
3359 -----------------
3361 procedure Do_Callback (Switch, Parameter : String; Index : Integer) is
3362 begin
3363 -- Do automatic handling when possible
3365 if Index /= -1 then
3366 case Config.Switches (Index).Typ is
3367 when Switch_Untyped =>
3368 null; -- no automatic handling
3370 when Switch_Boolean =>
3371 Config.Switches (Index).Boolean_Output.all :=
3372 Config.Switches (Index).Boolean_Value;
3373 return;
3375 when Switch_Integer =>
3376 begin
3377 if Parameter = "" then
3378 Config.Switches (Index).Integer_Output.all :=
3379 Config.Switches (Index).Integer_Default;
3380 else
3381 Config.Switches (Index).Integer_Output.all :=
3382 Integer'Value (Parameter);
3383 end if;
3385 exception
3386 when Constraint_Error =>
3387 raise Invalid_Parameter
3388 with "Expected integer parameter for '"
3389 & Switch & "'";
3390 end;
3392 return;
3394 when Switch_String =>
3395 Free (Config.Switches (Index).String_Output.all);
3396 Config.Switches (Index).String_Output.all :=
3397 new String'(Parameter);
3398 return;
3400 end case;
3401 end if;
3403 -- Otherwise calls the user callback if one was defined
3405 if Callback /= null then
3406 Callback (Switch => Switch,
3407 Parameter => Parameter,
3408 Section => Section_Name.all);
3409 end if;
3410 end Do_Callback;
3412 procedure For_Each_Simple
3413 is new For_Each_Simple_Switch (Simple_Callback);
3415 ---------------------
3416 -- Simple_Callback --
3417 ---------------------
3419 procedure Simple_Callback
3420 (Simple_Switch : String;
3421 Separator : String;
3422 Parameter : String;
3423 Index : Integer)
3425 pragma Unreferenced (Separator);
3426 begin
3427 Do_Callback (Switch => Simple_Switch,
3428 Parameter => Parameter,
3429 Index => Index);
3430 end Simple_Callback;
3432 -- Start of processing for Getopt
3434 begin
3435 -- Initialize sections
3437 if Config.Sections = null then
3438 Config.Sections := new Argument_List'(1 .. 0 => null);
3439 end if;
3441 Internal_Initialize_Option_Scan
3442 (Parser => Parser,
3443 Switch_Char => Parser.Switch_Character,
3444 Stop_At_First_Non_Switch => Parser.Stop_At_First,
3445 Section_Delimiters => Section_Delimiters (Config));
3447 Getopt_Switches := new String'
3448 (Get_Switches (Config, Parser.Switch_Character, Section_Name.all)
3449 & " h -help");
3451 -- Initialize output values for automatically handled switches
3453 for S in Config.Switches'Range loop
3454 case Config.Switches (S).Typ is
3455 when Switch_Untyped =>
3456 null; -- Nothing to do
3458 when Switch_Boolean =>
3459 Config.Switches (S).Boolean_Output.all :=
3460 not Config.Switches (S).Boolean_Value;
3462 when Switch_Integer =>
3463 Config.Switches (S).Integer_Output.all :=
3464 Config.Switches (S).Integer_Initial;
3466 when Switch_String =>
3467 if Config.Switches (S).String_Output.all = null then
3468 Config.Switches (S).String_Output.all := new String'("");
3469 end if;
3470 end case;
3471 end loop;
3473 -- For all sections, and all switches within those sections
3475 loop
3476 C := Getopt (Switches => Getopt_Switches.all,
3477 Concatenate => Concatenate,
3478 Parser => Parser);
3480 if C = '*' then
3481 -- Full_Switch already includes the leading '-'
3483 Do_Callback (Switch => Full_Switch (Parser),
3484 Parameter => Parameter (Parser),
3485 Index => -1);
3487 elsif C /= ASCII.NUL then
3488 if Full_Switch (Parser) = "h"
3489 or else
3490 Full_Switch (Parser) = "-help"
3491 then
3492 Display_Help (Config);
3493 raise Exit_From_Command_Line;
3494 end if;
3496 -- Do switch expansion if needed
3498 For_Each_Simple
3499 (Config,
3500 Section => Section_Name.all,
3501 Switch => Parser.Switch_Character & Full_Switch (Parser),
3502 Parameter => Parameter (Parser));
3504 else
3505 if Current_Section = -1 then
3506 Current_Section := Config.Sections'First;
3507 else
3508 Current_Section := Current_Section + 1;
3509 end if;
3511 exit when Current_Section > Config.Sections'Last;
3513 Section_Name := Config.Sections (Current_Section);
3514 Goto_Section (Section_Name.all, Parser);
3516 Free (Getopt_Switches);
3517 Getopt_Switches := new String'
3518 (Get_Switches
3519 (Config, Parser.Switch_Character, Section_Name.all));
3520 end if;
3521 end loop;
3523 Free (Getopt_Switches);
3525 exception
3526 when Invalid_Switch =>
3527 Free (Getopt_Switches);
3529 -- Message inspired by "ls" on Unix
3531 Put_Line (Standard_Error,
3532 Base_Name (Ada.Command_Line.Command_Name)
3533 & ": unrecognized option '"
3534 & Full_Switch (Parser)
3535 & "'");
3536 Try_Help;
3538 raise;
3540 when others =>
3541 Free (Getopt_Switches);
3542 raise;
3543 end Getopt;
3545 -----------
3546 -- Build --
3547 -----------
3549 procedure Build
3550 (Line : in out Command_Line;
3551 Args : out GNAT.OS_Lib.Argument_List_Access;
3552 Expanded : Boolean := False;
3553 Switch_Char : Character := '-')
3555 Iter : Command_Line_Iterator;
3556 Count : Natural := 0;
3558 begin
3559 Start (Line, Iter, Expanded => Expanded);
3560 while Has_More (Iter) loop
3561 if Is_New_Section (Iter) then
3562 Count := Count + 1;
3563 end if;
3565 Count := Count + 1;
3566 Next (Iter);
3567 end loop;
3569 Args := new Argument_List (1 .. Count);
3570 Count := Args'First;
3572 Start (Line, Iter, Expanded => Expanded);
3573 while Has_More (Iter) loop
3574 if Is_New_Section (Iter) then
3575 Args (Count) := new String'(Switch_Char & Current_Section (Iter));
3576 Count := Count + 1;
3577 end if;
3579 Args (Count) := new String'(Current_Switch (Iter)
3580 & Current_Separator (Iter)
3581 & Current_Parameter (Iter));
3582 Count := Count + 1;
3583 Next (Iter);
3584 end loop;
3585 end Build;
3587 --------------
3588 -- Try_Help --
3589 --------------
3591 -- Note: Any change to the message displayed should also be done in
3592 -- gnatbind.adb that does not use this interface.
3594 procedure Try_Help is
3595 begin
3596 Put_Line
3597 (Standard_Error,
3598 "try """ & Base_Name (Ada.Command_Line.Command_Name)
3599 & " --help"" for more information.");
3600 end Try_Help;
3602 end GNAT.Command_Line;