max(INT_MIN, x) -> x
[official-gcc.git] / gcc / ada / bindgen.adb
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1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT COMPILER COMPONENTS --
4 -- --
5 -- B I N D G E N --
6 -- --
7 -- B o d y --
8 -- --
9 -- Copyright (C) 1992-2015, Free Software Foundation, Inc. --
10 -- --
11 -- GNAT is free software; you can redistribute it and/or modify it under --
12 -- terms of the GNU General Public License as published by the Free Soft- --
13 -- ware Foundation; either version 3, or (at your option) any later ver- --
14 -- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
15 -- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
16 -- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License --
17 -- for more details. You should have received a copy of the GNU General --
18 -- Public License distributed with GNAT; see file COPYING3. If not, go to --
19 -- http://www.gnu.org/licenses for a complete copy of the license. --
20 -- --
21 -- GNAT was originally developed by the GNAT team at New York University. --
22 -- Extensive contributions were provided by Ada Core Technologies Inc. --
23 -- --
24 ------------------------------------------------------------------------------
26 with ALI; use ALI;
27 with Binde; use Binde;
28 with Casing; use Casing;
29 with Fname; use Fname;
30 with Gnatvsn; use Gnatvsn;
31 with Hostparm;
32 with Namet; use Namet;
33 with Opt; use Opt;
34 with Osint; use Osint;
35 with Osint.B; use Osint.B;
36 with Output; use Output;
37 with Rident; use Rident;
38 with Stringt; use Stringt;
39 with Table; use Table;
40 with Targparm; use Targparm;
41 with Types; use Types;
43 with System.OS_Lib; use System.OS_Lib;
44 with System.WCh_Con; use System.WCh_Con;
46 with GNAT.Heap_Sort_A; use GNAT.Heap_Sort_A;
47 with GNAT.HTable;
49 package body Bindgen is
51 Statement_Buffer : String (1 .. 1000);
52 -- Buffer used for constructing output statements
54 Last : Natural := 0;
55 -- Last location in Statement_Buffer currently set
57 With_GNARL : Boolean := False;
58 -- Flag which indicates whether the program uses the GNARL library
59 -- (presence of the unit System.OS_Interface)
61 Num_Elab_Calls : Nat := 0;
62 -- Number of generated calls to elaboration routines
64 System_Restrictions_Used : Boolean := False;
65 -- Flag indicating whether the unit System.Restrictions is in the closure
66 -- of the partition. This is set by Resolve_Binder_Options, and is used
67 -- to determine whether or not to initialize the restrictions information
68 -- in the body of the binder generated file (we do not want to do this
69 -- unconditionally, since it drags in the System.Restrictions unit
70 -- unconditionally, which is unpleasand, especially for ZFP etc.)
72 Dispatching_Domains_Used : Boolean := False;
73 -- Flag indicating whether multiprocessor dispatching domains are used in
74 -- the closure of the partition. This is set by Resolve_Binder_Options, and
75 -- is used to call the routine to disallow the creation of new dispatching
76 -- domains just before calling the main procedure from the environment
77 -- task.
79 System_Tasking_Restricted_Stages_Used : Boolean := False;
80 -- Flag indicating whether the unit System.Tasking.Restricted.Stages is in
81 -- the closure of the partition. This is set by Resolve_Binder_Options,
82 -- and it used to call a routine to active all the tasks at the end of
83 -- the elaboration when partition elaboration policy is sequential.
85 System_Interrupts_Used : Boolean := False;
86 -- Flag indicating whether the unit System.Interrups is in the closure of
87 -- the partition. This is set by Resolve_Binder_Options, and it used to
88 -- attach interrupt handlers at the end of the elaboration when partition
89 -- elaboration policy is sequential.
91 System_BB_CPU_Primitives_Multiprocessors_Used : Boolean := False;
92 -- Flag indicating whether unit System.BB.CPU_Primitives.Multiprocessors
93 -- is in the closure of the partition. This is set by procedure
94 -- Resolve_Binder_Options, and it is used to call a procedure that starts
95 -- slave processors.
97 Lib_Final_Built : Boolean := False;
98 -- Flag indicating whether the finalize_library rountine has been built
100 Bind_Env_String_Built : Boolean := False;
101 -- Flag indicating whether a bind environment string has been built
103 CodePeer_Wrapper_Name : constant String := "call_main_subprogram";
104 -- For CodePeer, introduce a wrapper subprogram which calls the
105 -- user-defined main subprogram.
107 ----------------------------------
108 -- Interface_State Pragma Table --
109 ----------------------------------
111 -- This table assembles the interface state pragma information from
112 -- all the units in the partition. Note that Bcheck has already checked
113 -- that the information is consistent across units. The entries
114 -- in this table are n/u/r/s for not set/user/runtime/system.
116 package IS_Pragma_Settings is new Table.Table (
117 Table_Component_Type => Character,
118 Table_Index_Type => Int,
119 Table_Low_Bound => 0,
120 Table_Initial => 100,
121 Table_Increment => 200,
122 Table_Name => "IS_Pragma_Settings");
124 -- This table assembles the Priority_Specific_Dispatching pragma
125 -- information from all the units in the partition. Note that Bcheck has
126 -- already checked that the information is consistent across units.
127 -- The entries in this table are the upper case first character of the
128 -- policy name, e.g. 'F' for FIFO_Within_Priorities.
130 package PSD_Pragma_Settings is new Table.Table (
131 Table_Component_Type => Character,
132 Table_Index_Type => Int,
133 Table_Low_Bound => 0,
134 Table_Initial => 100,
135 Table_Increment => 200,
136 Table_Name => "PSD_Pragma_Settings");
138 ----------------------------
139 -- Bind_Environment Table --
140 ----------------------------
142 subtype Header_Num is Int range 0 .. 36;
144 function Hash (Nam : Name_Id) return Header_Num;
146 package Bind_Environment is new GNAT.HTable.Simple_HTable
147 (Header_Num => Header_Num,
148 Element => Name_Id,
149 No_Element => No_Name,
150 Key => Name_Id,
151 Hash => Hash,
152 Equal => "=");
154 ----------------------
155 -- Run-Time Globals --
156 ----------------------
158 -- This section documents the global variables that are set from the
159 -- generated binder file.
161 -- Main_Priority : Integer;
162 -- Time_Slice_Value : Integer;
163 -- Heap_Size : Natural;
164 -- WC_Encoding : Character;
165 -- Locking_Policy : Character;
166 -- Queuing_Policy : Character;
167 -- Task_Dispatching_Policy : Character;
168 -- Priority_Specific_Dispatching : System.Address;
169 -- Num_Specific_Dispatching : Integer;
170 -- Restrictions : System.Address;
171 -- Interrupt_States : System.Address;
172 -- Num_Interrupt_States : Integer;
173 -- Unreserve_All_Interrupts : Integer;
174 -- Exception_Tracebacks : Integer;
175 -- Exception_Tracebacks_Symbolic : Integer;
176 -- Detect_Blocking : Integer;
177 -- Default_Stack_Size : Integer;
178 -- Leap_Seconds_Support : Integer;
179 -- Main_CPU : Integer;
181 -- Main_Priority is the priority value set by pragma Priority in the main
182 -- program. If no such pragma is present, the value is -1.
184 -- Time_Slice_Value is the time slice value set by pragma Time_Slice in the
185 -- main program, or by the use of a -Tnnn parameter for the binder (if both
186 -- are present, the binder value overrides). The value is in milliseconds.
187 -- A value of zero indicates that time slicing should be suppressed. If no
188 -- pragma is present, and no -T switch was used, the value is -1.
190 -- WC_Encoding shows the wide character encoding method used for the main
191 -- program. This is one of the encoding letters defined in
192 -- System.WCh_Con.WC_Encoding_Letters.
194 -- Locking_Policy is a space if no locking policy was specified for the
195 -- partition. If a locking policy was specified, the value is the upper
196 -- case first character of the locking policy name, for example, 'C' for
197 -- Ceiling_Locking.
199 -- Queuing_Policy is a space if no queuing policy was specified for the
200 -- partition. If a queuing policy was specified, the value is the upper
201 -- case first character of the queuing policy name for example, 'F' for
202 -- FIFO_Queuing.
204 -- Task_Dispatching_Policy is a space if no task dispatching policy was
205 -- specified for the partition. If a task dispatching policy was specified,
206 -- the value is the upper case first character of the policy name, e.g. 'F'
207 -- for FIFO_Within_Priorities.
209 -- Priority_Specific_Dispatching is the address of a string used to store
210 -- the task dispatching policy specified for the different priorities in
211 -- the partition. The length of this string is determined by the last
212 -- priority for which such a pragma applies (the string will be a null
213 -- string if no specific dispatching policies were used). If pragma were
214 -- present, the entries apply to the priorities in sequence from the first
215 -- priority. The value stored is the upper case first character of the
216 -- policy name, or 'F' (for FIFO_Within_Priorities) as the default value
217 -- for those priority ranges not specified.
219 -- Num_Specific_Dispatching is length of the Priority_Specific_Dispatching
220 -- string. It will be set to zero if no Priority_Specific_Dispatching
221 -- pragmas are present.
223 -- Restrictions is the address of a null-terminated string specifying the
224 -- restrictions information for the partition. The format is identical to
225 -- that of the parameter string found on R lines in ali files (see Lib.Writ
226 -- spec in lib-writ.ads for full details). The difference is that in this
227 -- context the values are the cumulative ones for the entire partition.
229 -- Interrupt_States is the address of a string used to specify the
230 -- cumulative results of Interrupt_State pragmas used in the partition.
231 -- The length of this string is determined by the last interrupt for which
232 -- such a pragma is given (the string will be a null string if no pragmas
233 -- were used). If pragma were present the entries apply to the interrupts
234 -- in sequence from the first interrupt, and are set to one of four
235 -- possible settings: 'n' for not specified, 'u' for user, 'r' for run
236 -- time, 's' for system, see description of Interrupt_State pragma for
237 -- further details.
239 -- Num_Interrupt_States is the length of the Interrupt_States string. It
240 -- will be set to zero if no Interrupt_State pragmas are present.
242 -- Unreserve_All_Interrupts is set to one if at least one unit in the
243 -- partition had a pragma Unreserve_All_Interrupts, and zero otherwise.
245 -- Exception_Tracebacks is set to one if the -Ea or -E parameter was
246 -- present in the bind and to zero otherwise. Note that on some targets
247 -- exception tracebacks are provided by default, so a value of zero for
248 -- this parameter does not necessarily mean no trace backs are available.
250 -- Exception_Tracebacks_Symbolic is set to one if the -Es parameter was
251 -- present in the bind and to zero otherwise.
253 -- Detect_Blocking indicates whether pragma Detect_Blocking is active or
254 -- not. A value of zero indicates that the pragma is not present, while a
255 -- value of 1 signals its presence in the partition.
257 -- Default_Stack_Size is the default stack size used when creating an Ada
258 -- task with no explicit Storage_Size clause.
260 -- Leap_Seconds_Support denotes whether leap seconds have been enabled or
261 -- disabled. A value of zero indicates that leap seconds are turned "off",
262 -- while a value of one signifies "on" status.
264 -- Main_CPU is the processor set by pragma CPU in the main program. If no
265 -- such pragma is present, the value is -1.
267 procedure WBI (Info : String) renames Osint.B.Write_Binder_Info;
268 -- Convenient shorthand used throughout
270 -----------------------
271 -- Local Subprograms --
272 -----------------------
274 procedure Gen_Adainit;
275 -- Generates the Adainit procedure
277 procedure Gen_Adafinal;
278 -- Generate the Adafinal procedure
280 procedure Gen_Bind_Env_String;
281 -- Generate the bind environment buffer
283 procedure Gen_CodePeer_Wrapper;
284 -- For CodePeer, generate wrapper which calls user-defined main subprogram
286 procedure Gen_Elab_Calls;
287 -- Generate sequence of elaboration calls
289 procedure Gen_Elab_Externals;
290 -- Generate sequence of external declarations for elaboration
292 procedure Gen_Elab_Order;
293 -- Generate comments showing elaboration order chosen
295 procedure Gen_Finalize_Library;
296 -- Generate a sequence of finalization calls to elaborated packages
298 procedure Gen_Main;
299 -- Generate procedure main
301 procedure Gen_Object_Files_Options;
302 -- Output comments containing a list of the full names of the object
303 -- files to be linked and the list of linker options supplied by
304 -- Linker_Options pragmas in the source.
306 procedure Gen_Output_File_Ada (Filename : String);
307 -- Generate Ada output file
309 procedure Gen_Restrictions;
310 -- Generate initialization of restrictions variable
312 procedure Gen_Versions;
313 -- Output series of definitions for unit versions
315 function Get_Ada_Main_Name return String;
316 -- This function is used for the Ada main output to compute a usable name
317 -- for the generated main program. The normal main program name is
318 -- Ada_Main, but this won't work if the user has a unit with this name.
319 -- This function tries Ada_Main first, and if there is such a clash, then
320 -- it tries Ada_Name_01, Ada_Name_02 ... Ada_Name_99 in sequence.
322 function Get_Main_Unit_Name (S : String) return String;
323 -- Return the main unit name corresponding to S by replacing '.' with '_'
325 function Get_Main_Name return String;
326 -- This function is used in the main output case to compute the correct
327 -- external main program. It is "main" by default, unless the flag
328 -- Use_Ada_Main_Program_Name_On_Target is set, in which case it is the name
329 -- of the Ada main name without the "_ada". This default can be overridden
330 -- explicitly using the -Mname binder switch.
332 function Get_WC_Encoding return Character;
333 -- Return wide character encoding method to set as WC_Encoding in output.
334 -- If -W has been used, returns the specified encoding, otherwise returns
335 -- the encoding method used for the main program source. If there is no
336 -- main program source (-z switch used), returns brackets ('b').
338 function Has_Finalizer return Boolean;
339 -- Determine whether the current unit has at least one library-level
340 -- finalizer.
342 function Lt_Linker_Option (Op1, Op2 : Natural) return Boolean;
343 -- Compare linker options, when sorting, first according to
344 -- Is_Internal_File (internal files come later) and then by
345 -- elaboration order position (latest to earliest).
347 procedure Move_Linker_Option (From : Natural; To : Natural);
348 -- Move routine for sorting linker options
350 procedure Resolve_Binder_Options;
351 -- Set the value of With_GNARL
353 procedure Set_Char (C : Character);
354 -- Set given character in Statement_Buffer at the Last + 1 position
355 -- and increment Last by one to reflect the stored character.
357 procedure Set_Int (N : Int);
358 -- Set given value in decimal in Statement_Buffer with no spaces starting
359 -- at the Last + 1 position, and updating Last past the value. A minus sign
360 -- is output for a negative value.
362 procedure Set_Boolean (B : Boolean);
363 -- Set given boolean value in Statement_Buffer at the Last + 1 position
364 -- and update Last past the value.
366 procedure Set_IS_Pragma_Table;
367 -- Initializes contents of IS_Pragma_Settings table from ALI table
369 procedure Set_Main_Program_Name;
370 -- Given the main program name in Name_Buffer (length in Name_Len) generate
371 -- the name of the routine to be used in the call. The name is generated
372 -- starting at Last + 1, and Last is updated past it.
374 procedure Set_Name_Buffer;
375 -- Set the value stored in positions 1 .. Name_Len of the Name_Buffer
377 procedure Set_PSD_Pragma_Table;
378 -- Initializes contents of PSD_Pragma_Settings table from ALI table
380 procedure Set_String (S : String);
381 -- Sets characters of given string in Statement_Buffer, starting at the
382 -- Last + 1 position, and updating last past the string value.
384 procedure Set_String_Replace (S : String);
385 -- Replaces the last S'Length characters in the Statement_Buffer with the
386 -- characters of S. The caller must ensure that these characters do in fact
387 -- exist in the Statement_Buffer.
389 procedure Set_Unit_Name;
390 -- Given a unit name in the Name_Buffer, copy it into Statement_Buffer,
391 -- starting at the Last + 1 position and update Last past the value.
392 -- Each dot (.) will be qualified into double underscores (__).
394 procedure Set_Unit_Number (U : Unit_Id);
395 -- Sets unit number (first unit is 1, leading zeroes output to line up all
396 -- output unit numbers nicely as required by the value, and by the total
397 -- number of units.
399 procedure Write_Statement_Buffer;
400 -- Write out contents of statement buffer up to Last, and reset Last to 0
402 procedure Write_Statement_Buffer (S : String);
403 -- First writes its argument (using Set_String (S)), then writes out the
404 -- contents of statement buffer up to Last, and reset Last to 0
406 procedure Write_Bind_Line (S : String);
407 -- Write S (an LF-terminated string) to the binder file (for use with
408 -- Set_Special_Output).
410 ------------------
411 -- Gen_Adafinal --
412 ------------------
414 procedure Gen_Adafinal is
415 begin
416 WBI (" procedure " & Ada_Final_Name.all & " is");
418 if Bind_Main_Program and not CodePeer_Mode then
419 WBI (" procedure s_stalib_adafinal;");
420 Set_String (" pragma Import (C, s_stalib_adafinal, ");
421 Set_String ("""system__standard_library__adafinal"");");
422 Write_Statement_Buffer;
423 end if;
425 WBI ("");
426 WBI (" procedure Runtime_Finalize;");
427 WBI (" pragma Import (C, Runtime_Finalize, " &
428 """__gnat_runtime_finalize"");");
429 WBI ("");
430 WBI (" begin");
432 if not CodePeer_Mode then
433 WBI (" if not Is_Elaborated then");
434 WBI (" return;");
435 WBI (" end if;");
436 WBI (" Is_Elaborated := False;");
437 end if;
439 WBI (" Runtime_Finalize;");
441 -- By default (real targets), finalization is done differently depending
442 -- on whether this is the main program or a library.
444 if not CodePeer_Mode then
445 if Bind_Main_Program then
446 WBI (" s_stalib_adafinal;");
447 elsif Lib_Final_Built then
448 WBI (" finalize_library;");
449 else
450 WBI (" null;");
451 end if;
453 -- Pragma Import C cannot be used on virtual targets, therefore call the
454 -- runtime finalization routine directly in CodePeer mode, where
455 -- imported functions are ignored.
457 else
458 WBI (" System.Standard_Library.Adafinal;");
459 end if;
461 WBI (" end " & Ada_Final_Name.all & ";");
462 WBI ("");
463 end Gen_Adafinal;
465 -----------------
466 -- Gen_Adainit --
467 -----------------
469 procedure Gen_Adainit is
470 Main_Priority : Int renames ALIs.Table (ALIs.First).Main_Priority;
471 Main_CPU : Int renames ALIs.Table (ALIs.First).Main_CPU;
473 begin
474 -- Declare the access-to-subprogram type used for initialization of
475 -- of __gnat_finalize_library_objects. This is declared at library
476 -- level for compatibility with the type used in System.Soft_Links.
477 -- The import of the soft link which performs library-level object
478 -- finalization does not work for CodePeer, so regular Ada is used in
479 -- that case. For restricted run-time libraries (ZFP and Ravenscar)
480 -- tasks are non-terminating, so we do not want finalization.
482 if not Suppress_Standard_Library_On_Target
483 and then not CodePeer_Mode
484 and then not Configurable_Run_Time_On_Target
485 then
486 WBI (" type No_Param_Proc is access procedure;");
487 WBI ("");
488 end if;
490 WBI (" procedure " & Ada_Init_Name.all & " is");
492 -- In CodePeer mode, simplify adainit procedure by only calling
493 -- elaboration procedures.
495 if CodePeer_Mode then
496 WBI (" begin");
498 -- When compiling for the AAMP small library, where the standard library
499 -- is no longer suppressed, we still want to exclude the setting of the
500 -- various imported globals, which aren't present for that library.
502 elsif AAMP_On_Target and then Configurable_Run_Time_On_Target then
503 WBI (" begin");
504 WBI (" null;");
506 -- If the standard library is suppressed, then the only global variables
507 -- that might be needed (by the Ravenscar profile) are the priority and
508 -- the processor for the environment task.
510 elsif Suppress_Standard_Library_On_Target then
511 if Main_Priority /= No_Main_Priority then
512 WBI (" Main_Priority : Integer;");
513 WBI (" pragma Import (C, Main_Priority," &
514 " ""__gl_main_priority"");");
515 WBI ("");
516 end if;
518 if Main_CPU /= No_Main_CPU then
519 WBI (" Main_CPU : Integer;");
520 WBI (" pragma Import (C, Main_CPU," &
521 " ""__gl_main_cpu"");");
522 WBI ("");
523 end if;
525 if System_Interrupts_Used
526 and then Partition_Elaboration_Policy_Specified = 'S'
527 then
528 WBI (" procedure Install_Restricted_Handlers_Sequential;");
529 WBI (" pragma Import (C," &
530 "Install_Restricted_Handlers_Sequential," &
531 " ""__gnat_attach_all_handlers"");");
532 WBI ("");
533 end if;
535 if System_Tasking_Restricted_Stages_Used
536 and then Partition_Elaboration_Policy_Specified = 'S'
537 then
538 WBI (" Partition_Elaboration_Policy : Character;");
539 WBI (" pragma Import (C, Partition_Elaboration_Policy," &
540 " ""__gnat_partition_elaboration_policy"");");
541 WBI ("");
542 WBI (" procedure Activate_All_Tasks_Sequential;");
543 WBI (" pragma Import (C, Activate_All_Tasks_Sequential," &
544 " ""__gnat_activate_all_tasks"");");
545 WBI ("");
546 end if;
548 if System_BB_CPU_Primitives_Multiprocessors_Used then
549 WBI (" procedure Start_Slave_CPUs;");
550 WBI (" pragma Import (C, Start_Slave_CPUs," &
551 " ""__gnat_start_slave_cpus"");");
552 end if;
554 WBI (" begin");
556 if Main_Priority /= No_Main_Priority then
557 Set_String (" Main_Priority := ");
558 Set_Int (Main_Priority);
559 Set_Char (';');
560 Write_Statement_Buffer;
561 end if;
563 if Main_CPU /= No_Main_CPU then
564 Set_String (" Main_CPU := ");
565 Set_Int (Main_CPU);
566 Set_Char (';');
567 Write_Statement_Buffer;
568 end if;
570 if System_Tasking_Restricted_Stages_Used
571 and then Partition_Elaboration_Policy_Specified = 'S'
572 then
573 Set_String (" Partition_Elaboration_Policy := '");
574 Set_Char (Partition_Elaboration_Policy_Specified);
575 Set_String ("';");
576 Write_Statement_Buffer;
577 end if;
579 if Main_Priority = No_Main_Priority
580 and then Main_CPU = No_Main_CPU
581 and then not System_Tasking_Restricted_Stages_Used
582 then
583 WBI (" null;");
584 end if;
586 -- Normal case (standard library not suppressed). Set all global values
587 -- used by the run time.
589 else
590 WBI (" Main_Priority : Integer;");
591 WBI (" pragma Import (C, Main_Priority, " &
592 """__gl_main_priority"");");
593 WBI (" Time_Slice_Value : Integer;");
594 WBI (" pragma Import (C, Time_Slice_Value, " &
595 """__gl_time_slice_val"");");
596 WBI (" WC_Encoding : Character;");
597 WBI (" pragma Import (C, WC_Encoding, ""__gl_wc_encoding"");");
598 WBI (" Locking_Policy : Character;");
599 WBI (" pragma Import (C, Locking_Policy, " &
600 """__gl_locking_policy"");");
601 WBI (" Queuing_Policy : Character;");
602 WBI (" pragma Import (C, Queuing_Policy, " &
603 """__gl_queuing_policy"");");
604 WBI (" Task_Dispatching_Policy : Character;");
605 WBI (" pragma Import (C, Task_Dispatching_Policy, " &
606 """__gl_task_dispatching_policy"");");
607 WBI (" Priority_Specific_Dispatching : System.Address;");
608 WBI (" pragma Import (C, Priority_Specific_Dispatching, " &
609 """__gl_priority_specific_dispatching"");");
610 WBI (" Num_Specific_Dispatching : Integer;");
611 WBI (" pragma Import (C, Num_Specific_Dispatching, " &
612 """__gl_num_specific_dispatching"");");
613 WBI (" Main_CPU : Integer;");
614 WBI (" pragma Import (C, Main_CPU, " &
615 """__gl_main_cpu"");");
617 WBI (" Interrupt_States : System.Address;");
618 WBI (" pragma Import (C, Interrupt_States, " &
619 """__gl_interrupt_states"");");
620 WBI (" Num_Interrupt_States : Integer;");
621 WBI (" pragma Import (C, Num_Interrupt_States, " &
622 """__gl_num_interrupt_states"");");
623 WBI (" Unreserve_All_Interrupts : Integer;");
624 WBI (" pragma Import (C, Unreserve_All_Interrupts, " &
625 """__gl_unreserve_all_interrupts"");");
627 if Exception_Tracebacks or Exception_Tracebacks_Symbolic then
628 WBI (" Exception_Tracebacks : Integer;");
629 WBI (" pragma Import (C, Exception_Tracebacks, " &
630 """__gl_exception_tracebacks"");");
632 if Exception_Tracebacks_Symbolic then
633 WBI (" Exception_Tracebacks_Symbolic : Integer;");
634 WBI (" pragma Import (C, Exception_Tracebacks_Symbolic, " &
635 """__gl_exception_tracebacks_symbolic"");");
636 end if;
637 end if;
639 WBI (" Detect_Blocking : Integer;");
640 WBI (" pragma Import (C, Detect_Blocking, " &
641 """__gl_detect_blocking"");");
642 WBI (" Default_Stack_Size : Integer;");
643 WBI (" pragma Import (C, Default_Stack_Size, " &
644 """__gl_default_stack_size"");");
645 WBI (" Leap_Seconds_Support : Integer;");
646 WBI (" pragma Import (C, Leap_Seconds_Support, " &
647 """__gl_leap_seconds_support"");");
648 WBI (" Bind_Env_Addr : System.Address;");
649 WBI (" pragma Import (C, Bind_Env_Addr, " &
650 """__gl_bind_env_addr"");");
652 -- Import entry point for elaboration time signal handler
653 -- installation, and indication of if it's been called previously.
655 WBI ("");
656 WBI (" procedure Runtime_Initialize " &
657 "(Install_Handler : Integer);");
658 WBI (" pragma Import (C, Runtime_Initialize, " &
659 """__gnat_runtime_initialize"");");
661 -- Import handlers attach procedure for sequential elaboration policy
663 if System_Interrupts_Used
664 and then Partition_Elaboration_Policy_Specified = 'S'
665 then
666 WBI (" procedure Install_Restricted_Handlers_Sequential;");
667 WBI (" pragma Import (C," &
668 "Install_Restricted_Handlers_Sequential," &
669 " ""__gnat_attach_all_handlers"");");
670 WBI ("");
671 end if;
673 -- Import task activation procedure for sequential elaboration
674 -- policy.
676 if System_Tasking_Restricted_Stages_Used
677 and then Partition_Elaboration_Policy_Specified = 'S'
678 then
679 WBI (" Partition_Elaboration_Policy : Character;");
680 WBI (" pragma Import (C, Partition_Elaboration_Policy," &
681 " ""__gnat_partition_elaboration_policy"");");
682 WBI ("");
683 WBI (" procedure Activate_All_Tasks_Sequential;");
684 WBI (" pragma Import (C, Activate_All_Tasks_Sequential," &
685 " ""__gnat_activate_all_tasks"");");
686 end if;
688 -- Import procedure to start slave cpus for bareboard runtime
690 if System_BB_CPU_Primitives_Multiprocessors_Used then
691 WBI (" procedure Start_Slave_CPUs;");
692 WBI (" pragma Import (C, Start_Slave_CPUs," &
693 " ""__gnat_start_slave_cpus"");");
694 end if;
696 -- For restricted run-time libraries (ZFP and Ravenscar)
697 -- tasks are non-terminating, so we do not want finalization.
699 if not Configurable_Run_Time_On_Target then
700 WBI ("");
701 WBI (" Finalize_Library_Objects : No_Param_Proc;");
702 WBI (" pragma Import (C, Finalize_Library_Objects, " &
703 """__gnat_finalize_library_objects"");");
704 end if;
706 -- Initialize stack limit variable of the environment task if the
707 -- stack check method is stack limit and stack check is enabled.
709 if Stack_Check_Limits_On_Target
710 and then (Stack_Check_Default_On_Target or Stack_Check_Switch_Set)
711 then
712 WBI ("");
713 WBI (" procedure Initialize_Stack_Limit;");
714 WBI (" pragma Import (C, Initialize_Stack_Limit, " &
715 """__gnat_initialize_stack_limit"");");
716 end if;
718 -- When dispatching domains are used then we need to signal it
719 -- before calling the main procedure.
721 if Dispatching_Domains_Used then
722 WBI (" procedure Freeze_Dispatching_Domains;");
723 WBI (" pragma Import");
724 WBI (" (Ada, Freeze_Dispatching_Domains, "
725 & """__gnat_freeze_dispatching_domains"");");
726 end if;
728 -- Start of processing for Adainit
730 WBI (" begin");
731 WBI (" if Is_Elaborated then");
732 WBI (" return;");
733 WBI (" end if;");
734 WBI (" Is_Elaborated := True;");
736 -- Call System.Elaboration_Allocators.Mark_Start_Of_Elaboration if
737 -- restriction No_Standard_Allocators_After_Elaboration is active.
739 if Cumulative_Restrictions.Set
740 (No_Standard_Allocators_After_Elaboration)
741 then
742 WBI (" System.Elaboration_Allocators."
743 & "Mark_Start_Of_Elaboration;");
744 end if;
746 -- Generate assignments to initialize globals
748 Set_String (" Main_Priority := ");
749 Set_Int (Main_Priority);
750 Set_Char (';');
751 Write_Statement_Buffer;
753 Set_String (" Time_Slice_Value := ");
755 if Task_Dispatching_Policy_Specified = 'F'
756 and then ALIs.Table (ALIs.First).Time_Slice_Value = -1
757 then
758 Set_Int (0);
759 else
760 Set_Int (ALIs.Table (ALIs.First).Time_Slice_Value);
761 end if;
763 Set_Char (';');
764 Write_Statement_Buffer;
766 Set_String (" WC_Encoding := '");
767 Set_Char (Get_WC_Encoding);
769 Set_String ("';");
770 Write_Statement_Buffer;
772 Set_String (" Locking_Policy := '");
773 Set_Char (Locking_Policy_Specified);
774 Set_String ("';");
775 Write_Statement_Buffer;
777 Set_String (" Queuing_Policy := '");
778 Set_Char (Queuing_Policy_Specified);
779 Set_String ("';");
780 Write_Statement_Buffer;
782 Set_String (" Task_Dispatching_Policy := '");
783 Set_Char (Task_Dispatching_Policy_Specified);
784 Set_String ("';");
785 Write_Statement_Buffer;
787 if System_Tasking_Restricted_Stages_Used
788 and then Partition_Elaboration_Policy_Specified = 'S'
789 then
790 Set_String (" Partition_Elaboration_Policy := '");
791 Set_Char (Partition_Elaboration_Policy_Specified);
792 Set_String ("';");
793 Write_Statement_Buffer;
794 end if;
796 Gen_Restrictions;
798 WBI (" Priority_Specific_Dispatching :=");
799 WBI (" Local_Priority_Specific_Dispatching'Address;");
801 Set_String (" Num_Specific_Dispatching := ");
802 Set_Int (PSD_Pragma_Settings.Last + 1);
803 Set_Char (';');
804 Write_Statement_Buffer;
806 Set_String (" Main_CPU := ");
807 Set_Int (Main_CPU);
808 Set_Char (';');
809 Write_Statement_Buffer;
811 WBI (" Interrupt_States := Local_Interrupt_States'Address;");
813 Set_String (" Num_Interrupt_States := ");
814 Set_Int (IS_Pragma_Settings.Last + 1);
815 Set_Char (';');
816 Write_Statement_Buffer;
818 Set_String (" Unreserve_All_Interrupts := ");
820 if Unreserve_All_Interrupts_Specified then
821 Set_String ("1");
822 else
823 Set_String ("0");
824 end if;
826 Set_Char (';');
827 Write_Statement_Buffer;
829 if Exception_Tracebacks or Exception_Tracebacks_Symbolic then
830 WBI (" Exception_Tracebacks := 1;");
832 if Exception_Tracebacks_Symbolic then
833 WBI (" Exception_Tracebacks_Symbolic := 1;");
834 end if;
835 end if;
837 Set_String (" Detect_Blocking := ");
839 if Detect_Blocking then
840 Set_Int (1);
841 else
842 Set_Int (0);
843 end if;
845 Set_String (";");
846 Write_Statement_Buffer;
848 Set_String (" Default_Stack_Size := ");
849 Set_Int (Default_Stack_Size);
850 Set_String (";");
851 Write_Statement_Buffer;
853 Set_String (" Leap_Seconds_Support := ");
855 if Leap_Seconds_Support then
856 Set_Int (1);
857 else
858 Set_Int (0);
859 end if;
861 Set_String (";");
862 Write_Statement_Buffer;
864 if Bind_Env_String_Built then
865 WBI (" Bind_Env_Addr := Bind_Env'Address;");
866 end if;
868 -- Generate call to Install_Handler
870 WBI ("");
871 WBI (" Runtime_Initialize (1);");
872 end if;
874 -- Generate call to set Initialize_Scalar values if active
876 if Initialize_Scalars_Used then
877 WBI ("");
878 Set_String (" System.Scalar_Values.Initialize ('");
879 Set_Char (Initialize_Scalars_Mode1);
880 Set_String ("', '");
881 Set_Char (Initialize_Scalars_Mode2);
882 Set_String ("');");
883 Write_Statement_Buffer;
884 end if;
886 -- Generate assignment of default secondary stack size if set
888 if Sec_Stack_Used and then Default_Sec_Stack_Size /= -1 then
889 WBI ("");
890 Set_String (" System.Secondary_Stack.");
891 Set_String ("Default_Secondary_Stack_Size := ");
892 Set_Int (Opt.Default_Sec_Stack_Size);
893 Set_Char (';');
894 Write_Statement_Buffer;
895 end if;
897 -- Initialize stack limit variable of the environment task if the
898 -- stack check method is stack limit and stack check is enabled.
900 if Stack_Check_Limits_On_Target
901 and then (Stack_Check_Default_On_Target or Stack_Check_Switch_Set)
902 then
903 WBI ("");
904 WBI (" Initialize_Stack_Limit;");
905 end if;
907 -- On CodePeer, the finalization of library objects is not relevant
909 if CodePeer_Mode then
910 null;
912 -- If this is the main program case, attach finalize_library to the soft
913 -- link. Do it only when not using a restricted run time, in which case
914 -- tasks are non-terminating, so we do not want library-level
915 -- finalization.
917 elsif Bind_Main_Program
918 and then not Configurable_Run_Time_On_Target
919 and then not Suppress_Standard_Library_On_Target
920 then
921 WBI ("");
923 if Lib_Final_Built then
924 Set_String (" Finalize_Library_Objects := ");
925 Set_String ("finalize_library'access;");
926 else
927 Set_String (" Finalize_Library_Objects := null;");
928 end if;
930 Write_Statement_Buffer;
931 end if;
933 -- Generate elaboration calls
935 if not CodePeer_Mode then
936 WBI ("");
937 end if;
939 Gen_Elab_Calls;
941 -- Call System.Elaboration_Allocators.Mark_Start_Of_Elaboration if
942 -- restriction No_Standard_Allocators_After_Elaboration is active.
944 if Cumulative_Restrictions.Set
945 (No_Standard_Allocators_After_Elaboration)
946 then
947 WBI (" System.Elaboration_Allocators.Mark_End_Of_Elaboration;");
948 end if;
950 -- From this point, no new dispatching domain can be created
952 if Dispatching_Domains_Used then
953 WBI (" Freeze_Dispatching_Domains;");
954 end if;
956 -- Sequential partition elaboration policy
958 if Partition_Elaboration_Policy_Specified = 'S' then
959 if System_Interrupts_Used then
960 WBI (" Install_Restricted_Handlers_Sequential;");
961 end if;
963 if System_Tasking_Restricted_Stages_Used then
964 WBI (" Activate_All_Tasks_Sequential;");
965 end if;
966 end if;
968 if System_BB_CPU_Primitives_Multiprocessors_Used then
969 WBI (" Start_Slave_CPUs;");
970 end if;
972 WBI (" end " & Ada_Init_Name.all & ";");
973 WBI ("");
974 end Gen_Adainit;
976 -------------------------
977 -- Gen_Bind_Env_String --
978 -------------------------
980 procedure Gen_Bind_Env_String is
981 KN, VN : Name_Id := No_Name;
982 Amp : Character;
984 procedure Write_Name_With_Len (Nam : Name_Id);
985 -- Write Nam as a string literal, prefixed with one
986 -- character encoding Nam's length.
988 -------------------------
989 -- Write_Name_With_Len --
990 -------------------------
992 procedure Write_Name_With_Len (Nam : Name_Id) is
993 begin
994 Get_Name_String (Nam);
996 Start_String;
997 Store_String_Char (Character'Val (Name_Len));
998 Store_String_Chars (Name_Buffer (1 .. Name_Len));
1000 Write_String_Table_Entry (End_String);
1001 end Write_Name_With_Len;
1003 -- Start of processing for Gen_Bind_Env_String
1005 begin
1006 Bind_Environment.Get_First (KN, VN);
1007 if VN = No_Name then
1008 return;
1009 end if;
1011 Set_Special_Output (Write_Bind_Line'Access);
1013 WBI (" Bind_Env : aliased constant String :=");
1014 Amp := ' ';
1015 while VN /= No_Name loop
1016 Write_Str (" " & Amp & ' ');
1017 Write_Name_With_Len (KN);
1018 Write_Str (" & ");
1019 Write_Name_With_Len (VN);
1020 Write_Eol;
1022 Bind_Environment.Get_Next (KN, VN);
1023 Amp := '&';
1024 end loop;
1025 WBI (" & ASCII.NUL;");
1027 Set_Special_Output (null);
1029 Bind_Env_String_Built := True;
1030 end Gen_Bind_Env_String;
1032 --------------------------
1033 -- Gen_CodePeer_Wrapper --
1034 --------------------------
1036 procedure Gen_CodePeer_Wrapper is
1037 Callee_Name : constant String := "Ada_Main_Program";
1039 begin
1040 if ALIs.Table (ALIs.First).Main_Program = Proc then
1041 WBI (" procedure " & CodePeer_Wrapper_Name & " is ");
1042 WBI (" begin");
1043 WBI (" " & Callee_Name & ";");
1045 else
1046 WBI (" function " & CodePeer_Wrapper_Name & " return Integer is");
1047 WBI (" begin");
1048 WBI (" return " & Callee_Name & ";");
1049 end if;
1051 WBI (" end " & CodePeer_Wrapper_Name & ";");
1052 WBI ("");
1053 end Gen_CodePeer_Wrapper;
1055 --------------------
1056 -- Gen_Elab_Calls --
1057 --------------------
1059 procedure Gen_Elab_Calls is
1060 Check_Elab_Flag : Boolean;
1062 begin
1063 -- Loop through elaboration order entries
1065 for E in Elab_Order.First .. Elab_Order.Last loop
1066 declare
1067 Unum : constant Unit_Id := Elab_Order.Table (E);
1068 U : Unit_Record renames Units.Table (Unum);
1070 Unum_Spec : Unit_Id;
1071 -- This is the unit number of the spec that corresponds to
1072 -- this entry. It is the same as Unum except when the body
1073 -- and spec are different and we are currently processing
1074 -- the body, in which case it is the spec (Unum + 1).
1076 begin
1077 if U.Utype = Is_Body then
1078 Unum_Spec := Unum + 1;
1079 else
1080 Unum_Spec := Unum;
1081 end if;
1083 -- Nothing to do if predefined unit in no run time mode
1085 if No_Run_Time_Mode and then Is_Predefined_File_Name (U.Sfile) then
1086 null;
1088 -- Likewise if this is an interface to a stand alone library
1090 elsif U.SAL_Interface then
1091 null;
1093 -- Case of no elaboration code
1095 elsif U.No_Elab
1097 -- In CodePeer mode, we special case subprogram bodies which
1098 -- are handled in the 'else' part below, and lead to a call
1099 -- to <subp>'Elab_Subp_Body.
1101 and then (not CodePeer_Mode
1103 -- Test for spec
1105 or else U.Utype = Is_Spec
1106 or else U.Utype = Is_Spec_Only
1107 or else U.Unit_Kind /= 's')
1108 then
1109 -- In the case of a body with a separate spec, where the
1110 -- separate spec has an elaboration entity defined, this is
1111 -- where we increment the elaboration entity if one exists
1113 if U.Utype = Is_Body
1114 and then Units.Table (Unum_Spec).Set_Elab_Entity
1115 and then not CodePeer_Mode
1116 then
1117 Set_String (" E");
1118 Set_Unit_Number (Unum_Spec);
1120 -- The AAMP target has no notion of shared libraries, and
1121 -- there's no possibility of reelaboration, so we treat the
1122 -- the elaboration var as a flag instead of a counter and
1123 -- simply set it.
1125 if AAMP_On_Target then
1126 Set_String (" := 1;");
1128 -- Otherwise (normal case), increment elaboration counter
1130 else
1131 Set_String (" := E");
1132 Set_Unit_Number (Unum_Spec);
1133 Set_String (" + 1;");
1134 end if;
1136 Write_Statement_Buffer;
1138 -- In the special case where the target is AAMP and the unit is
1139 -- a spec with a body, the elaboration entity is initialized
1140 -- here. This is done because it's the only way to accomplish
1141 -- initialization of such entities, as there is no mechanism
1142 -- for load time global variable initialization on AAMP.
1144 elsif AAMP_On_Target
1145 and then U.Utype = Is_Spec
1146 and then Units.Table (Unum_Spec).Set_Elab_Entity
1147 then
1148 Set_String (" E");
1149 Set_Unit_Number (Unum_Spec);
1150 Set_String (" := 0;");
1151 Write_Statement_Buffer;
1152 end if;
1154 -- Here if elaboration code is present. If binding a library
1155 -- or if there is a non-Ada main subprogram then we generate:
1157 -- if uname_E = 0 then
1158 -- uname'elab_[spec|body];
1159 -- end if;
1160 -- uname_E := uname_E + 1;
1162 -- Otherwise, elaboration routines are called unconditionally:
1164 -- uname'elab_[spec|body];
1165 -- uname_E := uname_E + 1;
1167 -- The uname_E increment is skipped if this is a separate spec,
1168 -- since it will be done when we process the body.
1170 -- In CodePeer mode, we do not generate any reference to xxx_E
1171 -- variables, only calls to 'Elab* subprograms.
1173 else
1174 -- In the special case where the target is AAMP and the unit is
1175 -- a spec with a body, the elaboration entity is initialized
1176 -- here. This is done because it's the only way to accomplish
1177 -- initialization of such entities, as there is no mechanism
1178 -- for load time global variable initialization on AAMP.
1180 if AAMP_On_Target
1181 and then U.Utype = Is_Spec
1182 and then Units.Table (Unum_Spec).Set_Elab_Entity
1183 then
1184 Set_String (" E");
1185 Set_Unit_Number (Unum_Spec);
1186 Set_String (" := 0;");
1187 Write_Statement_Buffer;
1188 end if;
1190 -- Check incompatibilities with No_Multiple_Elaboration
1192 if not CodePeer_Mode
1193 and then Cumulative_Restrictions.Set (No_Multiple_Elaboration)
1194 then
1195 -- Force_Checking_Of_Elaboration_Flags (-F) not allowed
1197 if Force_Checking_Of_Elaboration_Flags then
1198 Osint.Fail
1199 ("-F (force elaboration checks) switch not allowed "
1200 & "with restriction No_Multiple_Elaboration active");
1202 -- Interfacing of libraries not allowed
1204 elsif Interface_Library_Unit then
1205 Osint.Fail
1206 ("binding of interfaced libraries not allowed "
1207 & "with restriction No_Multiple_Elaboration active");
1209 -- Non-Ada main program not allowed
1211 elsif not Bind_Main_Program then
1212 Osint.Fail
1213 ("non-Ada main program not allowed "
1214 & "with restriction No_Multiple_Elaboration active");
1215 end if;
1216 end if;
1218 -- OK, see if we need to test elaboration flag
1220 Check_Elab_Flag :=
1221 Units.Table (Unum_Spec).Set_Elab_Entity
1222 and then not CodePeer_Mode
1223 and then (Force_Checking_Of_Elaboration_Flags
1224 or Interface_Library_Unit
1225 or not Bind_Main_Program);
1227 if Check_Elab_Flag then
1228 Set_String (" if E");
1229 Set_Unit_Number (Unum_Spec);
1230 Set_String (" = 0 then");
1231 Write_Statement_Buffer;
1232 Set_String (" ");
1233 end if;
1235 Set_String (" ");
1236 Get_Decoded_Name_String_With_Brackets (U.Uname);
1238 if Name_Buffer (Name_Len) = 's' then
1239 Name_Buffer (Name_Len - 1 .. Name_Len + 8) :=
1240 "'elab_spec";
1241 Name_Len := Name_Len + 8;
1243 -- Special case in CodePeer mode for subprogram bodies
1244 -- which correspond to CodePeer 'Elab_Subp_Body special
1245 -- init procedure.
1247 elsif U.Unit_Kind = 's' and CodePeer_Mode then
1248 Name_Buffer (Name_Len - 1 .. Name_Len + 13) :=
1249 "'elab_subp_body";
1250 Name_Len := Name_Len + 13;
1252 else
1253 Name_Buffer (Name_Len - 1 .. Name_Len + 8) :=
1254 "'elab_body";
1255 Name_Len := Name_Len + 8;
1256 end if;
1258 Set_Casing (U.Icasing);
1259 Set_Name_Buffer;
1260 Set_Char (';');
1261 Write_Statement_Buffer;
1263 if Check_Elab_Flag then
1264 WBI (" end if;");
1265 end if;
1267 if U.Utype /= Is_Spec
1268 and then not CodePeer_Mode
1269 and then Units.Table (Unum_Spec).Set_Elab_Entity
1270 then
1271 Set_String (" E");
1272 Set_Unit_Number (Unum_Spec);
1274 -- The AAMP target has no notion of shared libraries, and
1275 -- there's no possibility of reelaboration, so we treat the
1276 -- the elaboration var as a flag instead of a counter and
1277 -- simply set it.
1279 if AAMP_On_Target then
1280 Set_String (" := 1;");
1282 -- Otherwise (normal case), increment elaboration counter
1284 else
1285 Set_String (" := E");
1286 Set_Unit_Number (Unum_Spec);
1287 Set_String (" + 1;");
1288 end if;
1290 Write_Statement_Buffer;
1291 end if;
1292 end if;
1293 end;
1294 end loop;
1295 end Gen_Elab_Calls;
1297 ------------------------
1298 -- Gen_Elab_Externals --
1299 ------------------------
1301 procedure Gen_Elab_Externals is
1302 begin
1303 if CodePeer_Mode then
1304 return;
1305 end if;
1307 for E in Elab_Order.First .. Elab_Order.Last loop
1308 declare
1309 Unum : constant Unit_Id := Elab_Order.Table (E);
1310 U : Unit_Record renames Units.Table (Unum);
1312 begin
1313 -- Check for Elab_Entity to be set for this unit
1315 if U.Set_Elab_Entity
1317 -- Don't generate reference for stand alone library
1319 and then not U.SAL_Interface
1321 -- Don't generate reference for predefined file in No_Run_Time
1322 -- mode, since we don't include the object files in this case
1324 and then not
1325 (No_Run_Time_Mode
1326 and then Is_Predefined_File_Name (U.Sfile))
1327 then
1328 Set_String (" ");
1329 Set_String ("E");
1330 Set_Unit_Number (Unum);
1331 Set_String (" : Short_Integer; pragma Import (Ada, E");
1332 Set_Unit_Number (Unum);
1333 Set_String (", """);
1334 Get_Name_String (U.Uname);
1335 Set_Unit_Name;
1336 Set_String ("_E"");");
1337 Write_Statement_Buffer;
1338 end if;
1339 end;
1340 end loop;
1342 WBI ("");
1343 end Gen_Elab_Externals;
1345 --------------------
1346 -- Gen_Elab_Order --
1347 --------------------
1349 procedure Gen_Elab_Order is
1350 begin
1351 WBI (" -- BEGIN ELABORATION ORDER");
1353 for J in Elab_Order.First .. Elab_Order.Last loop
1354 Set_String (" -- ");
1355 Get_Name_String (Units.Table (Elab_Order.Table (J)).Uname);
1356 Set_Name_Buffer;
1357 Write_Statement_Buffer;
1358 end loop;
1360 WBI (" -- END ELABORATION ORDER");
1361 WBI ("");
1362 end Gen_Elab_Order;
1364 --------------------------
1365 -- Gen_Finalize_Library --
1366 --------------------------
1368 procedure Gen_Finalize_Library is
1369 Count : Int := 1;
1370 U : Unit_Record;
1371 Uspec : Unit_Record;
1372 Unum : Unit_Id;
1374 procedure Gen_Header;
1375 -- Generate the header of the finalization routine
1377 ----------------
1378 -- Gen_Header --
1379 ----------------
1381 procedure Gen_Header is
1382 begin
1383 WBI (" procedure finalize_library is");
1384 WBI (" begin");
1385 end Gen_Header;
1387 -- Start of processing for Gen_Finalize_Library
1389 begin
1390 if CodePeer_Mode then
1391 return;
1392 end if;
1394 for E in reverse Elab_Order.First .. Elab_Order.Last loop
1395 Unum := Elab_Order.Table (E);
1396 U := Units.Table (Unum);
1398 -- Dealing with package bodies is a little complicated. In such
1399 -- cases we must retrieve the package spec since it contains the
1400 -- spec of the body finalizer.
1402 if U.Utype = Is_Body then
1403 Unum := Unum + 1;
1404 Uspec := Units.Table (Unum);
1405 else
1406 Uspec := U;
1407 end if;
1409 Get_Name_String (Uspec.Uname);
1411 -- We are only interested in non-generic packages
1413 if U.Unit_Kind /= 'p' or else U.Is_Generic then
1414 null;
1416 -- That aren't an interface to a stand alone library
1418 elsif U.SAL_Interface then
1419 null;
1421 -- Case of no finalization
1423 elsif not U.Has_Finalizer then
1425 -- The only case in which we have to do something is if this
1426 -- is a body, with a separate spec, where the separate spec
1427 -- has a finalizer. In that case, this is where we decrement
1428 -- the elaboration entity.
1430 if U.Utype = Is_Body and then Uspec.Has_Finalizer then
1431 if not Lib_Final_Built then
1432 Gen_Header;
1433 Lib_Final_Built := True;
1434 end if;
1436 Set_String (" E");
1437 Set_Unit_Number (Unum);
1438 Set_String (" := E");
1439 Set_Unit_Number (Unum);
1440 Set_String (" - 1;");
1441 Write_Statement_Buffer;
1442 end if;
1444 else
1445 if not Lib_Final_Built then
1446 Gen_Header;
1447 Lib_Final_Built := True;
1448 end if;
1450 -- Generate:
1451 -- declare
1452 -- procedure F<Count>;
1454 Set_String (" declare");
1455 Write_Statement_Buffer;
1457 Set_String (" procedure F");
1458 Set_Int (Count);
1459 Set_Char (';');
1460 Write_Statement_Buffer;
1462 -- Generate:
1463 -- pragma Import (Ada, F<Count>,
1464 -- "xx__yy__finalize_[body|spec]");
1466 Set_String (" pragma Import (Ada, F");
1467 Set_Int (Count);
1468 Set_String (", """);
1470 -- Perform name construction
1472 Set_Unit_Name;
1473 Set_String ("__finalize_");
1475 -- Package spec processing
1477 if U.Utype = Is_Spec
1478 or else U.Utype = Is_Spec_Only
1479 then
1480 Set_String ("spec");
1482 -- Package body processing
1484 else
1485 Set_String ("body");
1486 end if;
1488 Set_String (""");");
1489 Write_Statement_Buffer;
1491 -- If binding a library or if there is a non-Ada main subprogram
1492 -- then we generate:
1494 -- begin
1495 -- uname_E := uname_E - 1;
1496 -- if uname_E = 0 then
1497 -- F<Count>;
1498 -- end if;
1499 -- end;
1501 -- Otherwise, finalization routines are called unconditionally:
1503 -- begin
1504 -- uname_E := uname_E - 1;
1505 -- F<Count>;
1506 -- end;
1508 -- The uname_E decrement is skipped if this is a separate spec,
1509 -- since it will be done when we process the body.
1511 WBI (" begin");
1513 if U.Utype /= Is_Spec then
1514 Set_String (" E");
1515 Set_Unit_Number (Unum);
1516 Set_String (" := E");
1517 Set_Unit_Number (Unum);
1518 Set_String (" - 1;");
1519 Write_Statement_Buffer;
1520 end if;
1522 if Interface_Library_Unit or not Bind_Main_Program then
1523 Set_String (" if E");
1524 Set_Unit_Number (Unum);
1525 Set_String (" = 0 then");
1526 Write_Statement_Buffer;
1527 Set_String (" ");
1528 end if;
1530 Set_String (" F");
1531 Set_Int (Count);
1532 Set_Char (';');
1533 Write_Statement_Buffer;
1535 if Interface_Library_Unit or not Bind_Main_Program then
1536 WBI (" end if;");
1537 end if;
1539 WBI (" end;");
1541 Count := Count + 1;
1542 end if;
1543 end loop;
1545 if Lib_Final_Built then
1547 -- It is possible that the finalization of a library-level object
1548 -- raised an exception. In that case import the actual exception
1549 -- and the routine necessary to raise it.
1551 WBI (" declare");
1552 WBI (" procedure Reraise_Library_Exception_If_Any;");
1554 Set_String (" pragma Import (Ada, ");
1555 Set_String ("Reraise_Library_Exception_If_Any, ");
1556 Set_String ("""__gnat_reraise_library_exception_if_any"");");
1557 Write_Statement_Buffer;
1559 WBI (" begin");
1560 WBI (" Reraise_Library_Exception_If_Any;");
1561 WBI (" end;");
1562 WBI (" end finalize_library;");
1563 WBI ("");
1564 end if;
1565 end Gen_Finalize_Library;
1567 --------------
1568 -- Gen_Main --
1569 --------------
1571 procedure Gen_Main is
1572 begin
1573 if not No_Main_Subprogram then
1575 -- To call the main program, we declare it using a pragma Import
1576 -- Ada with the right link name.
1578 -- It might seem more obvious to "with" the main program, and call
1579 -- it in the normal Ada manner. We do not do this for three
1580 -- reasons:
1582 -- 1. It is more efficient not to recompile the main program
1583 -- 2. We are not entitled to assume the source is accessible
1584 -- 3. We don't know what options to use to compile it
1586 -- It is really reason 3 that is most critical (indeed we used
1587 -- to generate the "with", but several regression tests failed).
1589 if ALIs.Table (ALIs.First).Main_Program = Func then
1590 WBI (" function Ada_Main_Program return Integer;");
1591 else
1592 WBI (" procedure Ada_Main_Program;");
1593 end if;
1595 Set_String (" pragma Import (Ada, Ada_Main_Program, """);
1596 Get_Name_String (Units.Table (First_Unit_Entry).Uname);
1597 Set_Main_Program_Name;
1598 Set_String (""");");
1600 Write_Statement_Buffer;
1601 WBI ("");
1603 -- For CodePeer, declare a wrapper for the user-defined main program
1605 if CodePeer_Mode then
1606 Gen_CodePeer_Wrapper;
1607 end if;
1608 end if;
1610 if Exit_Status_Supported_On_Target then
1611 Set_String (" function ");
1612 else
1613 Set_String (" procedure ");
1614 end if;
1616 Set_String (Get_Main_Name);
1618 if Command_Line_Args_On_Target then
1619 Write_Statement_Buffer;
1620 WBI (" (argc : Integer;");
1621 WBI (" argv : System.Address;");
1622 WBI (" envp : System.Address)");
1624 if Exit_Status_Supported_On_Target then
1625 WBI (" return Integer");
1626 end if;
1628 WBI (" is");
1630 else
1631 if Exit_Status_Supported_On_Target then
1632 Set_String (" return Integer is");
1633 else
1634 Set_String (" is");
1635 end if;
1637 Write_Statement_Buffer;
1638 end if;
1640 if Opt.Default_Exit_Status /= 0
1641 and then Bind_Main_Program
1642 and then not Configurable_Run_Time_Mode
1643 then
1644 WBI (" procedure Set_Exit_Status (Status : Integer);");
1645 WBI (" pragma Import (C, Set_Exit_Status, " &
1646 """__gnat_set_exit_status"");");
1647 WBI ("");
1648 end if;
1650 -- Initialize and Finalize
1652 if not CodePeer_Mode
1653 and then not Cumulative_Restrictions.Set (No_Finalization)
1654 then
1655 WBI (" procedure Initialize (Addr : System.Address);");
1656 WBI (" pragma Import (C, Initialize, ""__gnat_initialize"");");
1657 WBI ("");
1658 WBI (" procedure Finalize;");
1659 WBI (" pragma Import (C, Finalize, ""__gnat_finalize"");");
1660 end if;
1662 -- If we want to analyze the stack, we must import corresponding symbols
1664 if Dynamic_Stack_Measurement then
1665 WBI ("");
1666 WBI (" procedure Output_Results;");
1667 WBI (" pragma Import (C, Output_Results, " &
1668 """__gnat_stack_usage_output_results"");");
1670 WBI ("");
1671 WBI (" " &
1672 "procedure Initialize_Stack_Analysis (Buffer_Size : Natural);");
1673 WBI (" pragma Import (C, Initialize_Stack_Analysis, " &
1674 """__gnat_stack_usage_initialize"");");
1675 end if;
1677 -- Deal with declarations for main program case
1679 if not No_Main_Subprogram then
1680 if ALIs.Table (ALIs.First).Main_Program = Func then
1681 WBI (" Result : Integer;");
1682 WBI ("");
1683 end if;
1685 if Bind_Main_Program
1686 and not Suppress_Standard_Library_On_Target
1687 and not CodePeer_Mode
1688 then
1689 WBI (" SEH : aliased array (1 .. 2) of Integer;");
1690 WBI ("");
1691 end if;
1692 end if;
1694 -- Generate a reference to Ada_Main_Program_Name. This symbol is
1695 -- not referenced elsewhere in the generated program, but is needed
1696 -- by the debugger (that's why it is generated in the first place).
1697 -- The reference stops Ada_Main_Program_Name from being optimized
1698 -- away by smart linkers, such as the AiX linker.
1700 -- Because this variable is unused, we make this variable "aliased"
1701 -- with a pragma Volatile in order to tell the compiler to preserve
1702 -- this variable at any level of optimization.
1704 if Bind_Main_Program and not CodePeer_Mode then
1705 WBI (" Ensure_Reference : aliased System.Address := " &
1706 "Ada_Main_Program_Name'Address;");
1707 WBI (" pragma Volatile (Ensure_Reference);");
1708 WBI ("");
1709 end if;
1711 WBI (" begin");
1713 -- Acquire command line arguments if present on target
1715 if CodePeer_Mode then
1716 null;
1718 elsif Command_Line_Args_On_Target then
1719 WBI (" gnat_argc := argc;");
1720 WBI (" gnat_argv := argv;");
1721 WBI (" gnat_envp := envp;");
1722 WBI ("");
1724 -- If configurable run time and no command line args, then nothing
1725 -- needs to be done since the gnat_argc/argv/envp variables are
1726 -- suppressed in this case.
1728 elsif Configurable_Run_Time_On_Target then
1729 null;
1731 -- Otherwise set dummy values (to be filled in by some other unit?)
1733 else
1734 WBI (" gnat_argc := 0;");
1735 WBI (" gnat_argv := System.Null_Address;");
1736 WBI (" gnat_envp := System.Null_Address;");
1737 end if;
1739 if Opt.Default_Exit_Status /= 0
1740 and then Bind_Main_Program
1741 and then not Configurable_Run_Time_Mode
1742 then
1743 Set_String (" Set_Exit_Status (");
1744 Set_Int (Opt.Default_Exit_Status);
1745 Set_String (");");
1746 Write_Statement_Buffer;
1747 end if;
1749 if Dynamic_Stack_Measurement then
1750 Set_String (" Initialize_Stack_Analysis (");
1751 Set_Int (Dynamic_Stack_Measurement_Array_Size);
1752 Set_String (");");
1753 Write_Statement_Buffer;
1754 end if;
1756 if not Cumulative_Restrictions.Set (No_Finalization)
1757 and then not CodePeer_Mode
1758 then
1759 if not No_Main_Subprogram
1760 and then Bind_Main_Program
1761 and then not Suppress_Standard_Library_On_Target
1762 then
1763 WBI (" Initialize (SEH'Address);");
1764 else
1765 WBI (" Initialize (System.Null_Address);");
1766 end if;
1767 end if;
1769 WBI (" " & Ada_Init_Name.all & ";");
1771 if not No_Main_Subprogram then
1772 if CodePeer_Mode then
1773 if ALIs.Table (ALIs.First).Main_Program = Proc then
1774 WBI (" " & CodePeer_Wrapper_Name & ";");
1775 else
1776 WBI (" Result := " & CodePeer_Wrapper_Name & ";");
1777 end if;
1779 elsif ALIs.Table (ALIs.First).Main_Program = Proc then
1780 WBI (" Ada_Main_Program;");
1782 else
1783 WBI (" Result := Ada_Main_Program;");
1784 end if;
1785 end if;
1787 -- Adafinal call is skipped if no finalization
1789 if not Cumulative_Restrictions.Set (No_Finalization) then
1790 WBI (" adafinal;");
1791 end if;
1793 -- Prints the result of static stack analysis
1795 if Dynamic_Stack_Measurement then
1796 WBI (" Output_Results;");
1797 end if;
1799 -- Finalize is only called if we have a run time
1801 if not Cumulative_Restrictions.Set (No_Finalization)
1802 and then not CodePeer_Mode
1803 then
1804 WBI (" Finalize;");
1805 end if;
1807 -- Return result
1809 if Exit_Status_Supported_On_Target then
1810 if No_Main_Subprogram
1811 or else ALIs.Table (ALIs.First).Main_Program = Proc
1812 then
1813 WBI (" return (gnat_exit_status);");
1814 else
1815 WBI (" return (Result);");
1816 end if;
1817 end if;
1819 WBI (" end;");
1820 WBI ("");
1821 end Gen_Main;
1823 ------------------------------
1824 -- Gen_Object_Files_Options --
1825 ------------------------------
1827 procedure Gen_Object_Files_Options is
1828 Lgnat : Natural;
1829 -- This keeps track of the position in the sorted set of entries
1830 -- in the Linker_Options table of where the first entry from an
1831 -- internal file appears.
1833 Linker_Option_List_Started : Boolean := False;
1834 -- Set to True when "LINKER OPTION LIST" is displayed
1836 procedure Write_Linker_Option;
1837 -- Write binder info linker option
1839 -------------------------
1840 -- Write_Linker_Option --
1841 -------------------------
1843 procedure Write_Linker_Option is
1844 Start : Natural;
1845 Stop : Natural;
1847 begin
1848 -- Loop through string, breaking at null's
1850 Start := 1;
1851 while Start < Name_Len loop
1853 -- Find null ending this section
1855 Stop := Start + 1;
1856 while Name_Buffer (Stop) /= ASCII.NUL
1857 and then Stop <= Name_Len loop
1858 Stop := Stop + 1;
1859 end loop;
1861 -- Process section if non-null
1863 if Stop > Start then
1864 if Output_Linker_Option_List then
1865 if not Zero_Formatting then
1866 if not Linker_Option_List_Started then
1867 Linker_Option_List_Started := True;
1868 Write_Eol;
1869 Write_Str (" LINKER OPTION LIST");
1870 Write_Eol;
1871 Write_Eol;
1872 end if;
1874 Write_Str (" ");
1875 end if;
1877 Write_Str (Name_Buffer (Start .. Stop - 1));
1878 Write_Eol;
1879 end if;
1880 WBI (" -- " & Name_Buffer (Start .. Stop - 1));
1881 end if;
1883 Start := Stop + 1;
1884 end loop;
1885 end Write_Linker_Option;
1887 -- Start of processing for Gen_Object_Files_Options
1889 begin
1890 WBI ("-- BEGIN Object file/option list");
1892 if Object_List_Filename /= null then
1893 Set_List_File (Object_List_Filename.all);
1894 end if;
1896 for E in Elab_Order.First .. Elab_Order.Last loop
1898 -- If not spec that has an associated body, then generate a comment
1899 -- giving the name of the corresponding object file.
1901 if not Units.Table (Elab_Order.Table (E)).SAL_Interface
1902 and then Units.Table (Elab_Order.Table (E)).Utype /= Is_Spec
1903 then
1904 Get_Name_String
1905 (ALIs.Table
1906 (Units.Table (Elab_Order.Table (E)).My_ALI).Ofile_Full_Name);
1908 -- If the presence of an object file is necessary or if it exists,
1909 -- then use it.
1911 if not Hostparm.Exclude_Missing_Objects
1912 or else
1913 System.OS_Lib.Is_Regular_File (Name_Buffer (1 .. Name_Len))
1914 then
1915 WBI (" -- " & Name_Buffer (1 .. Name_Len));
1917 if Output_Object_List then
1918 Write_Str (Name_Buffer (1 .. Name_Len));
1919 Write_Eol;
1920 end if;
1921 end if;
1922 end if;
1923 end loop;
1925 if Object_List_Filename /= null then
1926 Close_List_File;
1927 end if;
1929 -- Add a "-Ldir" for each directory in the object path
1931 for J in 1 .. Nb_Dir_In_Obj_Search_Path loop
1932 declare
1933 Dir : constant String_Ptr := Dir_In_Obj_Search_Path (J);
1934 begin
1935 Name_Len := 0;
1936 Add_Str_To_Name_Buffer ("-L");
1937 Add_Str_To_Name_Buffer (Dir.all);
1938 Write_Linker_Option;
1939 end;
1940 end loop;
1942 if not (Opt.No_Run_Time_Mode or Opt.No_Stdlib) then
1943 Name_Len := 0;
1945 if Opt.Shared_Libgnat then
1946 Add_Str_To_Name_Buffer ("-shared");
1947 else
1948 Add_Str_To_Name_Buffer ("-static");
1949 end if;
1951 -- Write directly to avoid inclusion in -K output as -static and
1952 -- -shared are not usually specified linker options.
1954 WBI (" -- " & Name_Buffer (1 .. Name_Len));
1955 end if;
1957 -- Sort linker options
1959 -- This sort accomplishes two important purposes:
1961 -- a) All application files are sorted to the front, and all GNAT
1962 -- internal files are sorted to the end. This results in a well
1963 -- defined dividing line between the two sets of files, for the
1964 -- purpose of inserting certain standard library references into
1965 -- the linker arguments list.
1967 -- b) Given two different units, we sort the linker options so that
1968 -- those from a unit earlier in the elaboration order comes later
1969 -- in the list. This is a heuristic designed to create a more
1970 -- friendly order of linker options when the operations appear in
1971 -- separate units. The idea is that if unit A must be elaborated
1972 -- before unit B, then it is more likely that B references
1973 -- libraries included by A, than vice versa, so we want libraries
1974 -- included by A to come after libraries included by B.
1976 -- These two criteria are implemented by function Lt_Linker_Option. Note
1977 -- that a special case of b) is that specs are elaborated before bodies,
1978 -- so linker options from specs come after linker options for bodies,
1979 -- and again, the assumption is that libraries used by the body are more
1980 -- likely to reference libraries used by the spec, than vice versa.
1982 Sort
1983 (Linker_Options.Last,
1984 Move_Linker_Option'Access,
1985 Lt_Linker_Option'Access);
1987 -- Write user linker options, i.e. the set of linker options that come
1988 -- from all files other than GNAT internal files, Lgnat is left set to
1989 -- point to the first entry from a GNAT internal file, or past the end
1990 -- of the entries if there are no internal files.
1992 Lgnat := Linker_Options.Last + 1;
1994 for J in 1 .. Linker_Options.Last loop
1995 if not Linker_Options.Table (J).Internal_File then
1996 Get_Name_String (Linker_Options.Table (J).Name);
1997 Write_Linker_Option;
1998 else
1999 Lgnat := J;
2000 exit;
2001 end if;
2002 end loop;
2004 -- Now we insert standard linker options that must appear after the
2005 -- entries from user files, and before the entries from GNAT run-time
2006 -- files. The reason for this decision is that libraries referenced
2007 -- by internal routines may reference these standard library entries.
2009 -- Note that we do not insert anything when pragma No_Run_Time has
2010 -- been specified or when the standard libraries are not to be used,
2011 -- otherwise on some platforms, we may get duplicate symbols when
2012 -- linking (not clear if this is still the case, but it is harmless).
2014 if not (Opt.No_Run_Time_Mode or else Opt.No_Stdlib) then
2015 if With_GNARL then
2016 Name_Len := 0;
2018 if Opt.Shared_Libgnat then
2019 Add_Str_To_Name_Buffer (Shared_Lib ("gnarl"));
2020 else
2021 Add_Str_To_Name_Buffer ("-lgnarl");
2022 end if;
2024 Write_Linker_Option;
2025 end if;
2027 Name_Len := 0;
2029 if Opt.Shared_Libgnat then
2030 Add_Str_To_Name_Buffer (Shared_Lib ("gnat"));
2031 else
2032 Add_Str_To_Name_Buffer ("-lgnat");
2033 end if;
2035 Write_Linker_Option;
2036 end if;
2038 -- Write linker options from all internal files
2040 for J in Lgnat .. Linker_Options.Last loop
2041 Get_Name_String (Linker_Options.Table (J).Name);
2042 Write_Linker_Option;
2043 end loop;
2045 if Output_Linker_Option_List and then not Zero_Formatting then
2046 Write_Eol;
2047 end if;
2049 WBI ("-- END Object file/option list ");
2050 end Gen_Object_Files_Options;
2052 ---------------------
2053 -- Gen_Output_File --
2054 ---------------------
2056 procedure Gen_Output_File (Filename : String) is
2057 begin
2058 -- Acquire settings for Interrupt_State pragmas
2060 Set_IS_Pragma_Table;
2062 -- Acquire settings for Priority_Specific_Dispatching pragma
2064 Set_PSD_Pragma_Table;
2066 -- Override time slice value if -T switch is set
2068 if Time_Slice_Set then
2069 ALIs.Table (ALIs.First).Time_Slice_Value := Opt.Time_Slice_Value;
2070 end if;
2072 -- Count number of elaboration calls
2074 for E in Elab_Order.First .. Elab_Order.Last loop
2075 if Units.Table (Elab_Order.Table (E)).No_Elab then
2076 null;
2077 else
2078 Num_Elab_Calls := Num_Elab_Calls + 1;
2079 end if;
2080 end loop;
2082 -- Generate output file in appropriate language
2084 Gen_Output_File_Ada (Filename);
2085 end Gen_Output_File;
2087 -------------------------
2088 -- Gen_Output_File_Ada --
2089 -------------------------
2091 procedure Gen_Output_File_Ada (Filename : String) is
2093 Ada_Main : constant String := Get_Ada_Main_Name;
2094 -- Name to be used for generated Ada main program. See the body of
2095 -- function Get_Ada_Main_Name for details on the form of the name.
2097 Needs_Library_Finalization : constant Boolean :=
2098 not Configurable_Run_Time_On_Target and then Has_Finalizer;
2099 -- For restricted run-time libraries (ZFP and Ravenscar) tasks are
2100 -- non-terminating, so we do not want finalization.
2102 Bfiles : Name_Id;
2103 -- Name of generated bind file (spec)
2105 Bfileb : Name_Id;
2106 -- Name of generated bind file (body)
2108 begin
2109 -- Create spec first
2111 Create_Binder_Output (Filename, 's', Bfiles);
2113 -- We always compile the binder file in Ada 95 mode so that we properly
2114 -- handle use of Ada 2005 keywords as identifiers in Ada 95 mode. None
2115 -- of the Ada 2005 or Ada 2012 constructs are needed by the binder file.
2117 WBI ("pragma Ada_95;");
2118 WBI ("pragma Warnings (Off);");
2120 -- If we are operating in Restrictions (No_Exception_Handlers) mode,
2121 -- then we need to make sure that the binder program is compiled with
2122 -- the same restriction, so that no exception tables are generated.
2124 if Cumulative_Restrictions.Set (No_Exception_Handlers) then
2125 WBI ("pragma Restrictions (No_Exception_Handlers);");
2126 end if;
2128 -- Same processing for Restrictions (No_Exception_Propagation)
2130 if Cumulative_Restrictions.Set (No_Exception_Propagation) then
2131 WBI ("pragma Restrictions (No_Exception_Propagation);");
2132 end if;
2134 -- Same processing for pragma No_Run_Time
2136 if No_Run_Time_Mode then
2137 WBI ("pragma No_Run_Time;");
2138 end if;
2140 -- Generate with of System so we can reference System.Address
2142 WBI ("with System;");
2144 -- Generate with of System.Initialize_Scalars if active
2146 if Initialize_Scalars_Used then
2147 WBI ("with System.Scalar_Values;");
2148 end if;
2150 -- Generate with of System.Secondary_Stack if active
2152 if Sec_Stack_Used and then Default_Sec_Stack_Size /= -1 then
2153 WBI ("with System.Secondary_Stack;");
2154 end if;
2156 Resolve_Binder_Options;
2158 -- Generate standard with's
2160 if not Suppress_Standard_Library_On_Target then
2161 if CodePeer_Mode then
2162 WBI ("with System.Standard_Library;");
2163 end if;
2164 end if;
2166 WBI ("package " & Ada_Main & " is");
2168 -- Main program case
2170 if Bind_Main_Program then
2171 -- Generate argc/argv stuff unless suppressed
2173 if Command_Line_Args_On_Target
2174 or not Configurable_Run_Time_On_Target
2175 then
2176 WBI ("");
2177 WBI (" gnat_argc : Integer;");
2178 WBI (" gnat_argv : System.Address;");
2179 WBI (" gnat_envp : System.Address;");
2181 -- If the standard library is not suppressed, these variables
2182 -- are in the run-time data area for easy run time access.
2184 if not Suppress_Standard_Library_On_Target then
2185 WBI ("");
2186 WBI (" pragma Import (C, gnat_argc);");
2187 WBI (" pragma Import (C, gnat_argv);");
2188 WBI (" pragma Import (C, gnat_envp);");
2189 end if;
2190 end if;
2192 -- Define exit status. Again in normal mode, this is in the
2193 -- run-time library, and is initialized there, but in the
2194 -- configurable runtime case, the variable is declared and
2195 -- initialized in this file.
2197 WBI ("");
2199 if Configurable_Run_Time_Mode then
2200 if Exit_Status_Supported_On_Target then
2201 WBI (" gnat_exit_status : Integer := 0;");
2202 end if;
2204 else
2205 WBI (" gnat_exit_status : Integer;");
2206 WBI (" pragma Import (C, gnat_exit_status);");
2207 end if;
2209 -- Generate the GNAT_Version and Ada_Main_Program_Name info only for
2210 -- the main program. Otherwise, it can lead under some circumstances
2211 -- to a symbol duplication during the link (for instance when a C
2212 -- program uses two Ada libraries). Also zero terminate the string
2213 -- so that its end can be found reliably at run time.
2215 WBI ("");
2216 WBI (" GNAT_Version : constant String :=");
2217 WBI (" """ & Ver_Prefix &
2218 Gnat_Version_String &
2219 """ & ASCII.NUL;");
2220 WBI (" pragma Export (C, GNAT_Version, ""__gnat_version"");");
2222 WBI ("");
2223 Set_String (" Ada_Main_Program_Name : constant String := """);
2224 Get_Name_String (Units.Table (First_Unit_Entry).Uname);
2226 Set_Main_Program_Name;
2227 Set_String (""" & ASCII.NUL;");
2229 Write_Statement_Buffer;
2232 (" pragma Export (C, Ada_Main_Program_Name, " &
2233 """__gnat_ada_main_program_name"");");
2234 end if;
2236 WBI ("");
2237 WBI (" procedure " & Ada_Init_Name.all & ";");
2238 WBI (" pragma Export (C, " & Ada_Init_Name.all & ", """ &
2239 Ada_Init_Name.all & """);");
2241 -- If -a has been specified use pragma Linker_Constructor for the init
2242 -- procedure and pragma Linker_Destructor for the final procedure.
2244 if Use_Pragma_Linker_Constructor then
2245 WBI (" pragma Linker_Constructor (" & Ada_Init_Name.all & ");");
2246 end if;
2248 if not Cumulative_Restrictions.Set (No_Finalization) then
2249 WBI ("");
2250 WBI (" procedure " & Ada_Final_Name.all & ";");
2251 WBI (" pragma Export (C, " & Ada_Final_Name.all & ", """ &
2252 Ada_Final_Name.all & """);");
2254 if Use_Pragma_Linker_Constructor then
2255 WBI (" pragma Linker_Destructor (" & Ada_Final_Name.all & ");");
2256 end if;
2257 end if;
2259 if Bind_Main_Program then
2261 WBI ("");
2263 if Exit_Status_Supported_On_Target then
2264 Set_String (" function ");
2265 else
2266 Set_String (" procedure ");
2267 end if;
2269 Set_String (Get_Main_Name);
2271 -- Generate argument list if present
2273 if Command_Line_Args_On_Target then
2274 Write_Statement_Buffer;
2275 WBI (" (argc : Integer;");
2276 WBI (" argv : System.Address;");
2277 Set_String
2278 (" envp : System.Address)");
2280 if Exit_Status_Supported_On_Target then
2281 Write_Statement_Buffer;
2282 WBI (" return Integer;");
2283 else
2284 Write_Statement_Buffer (";");
2285 end if;
2287 else
2288 if Exit_Status_Supported_On_Target then
2289 Write_Statement_Buffer (" return Integer;");
2290 else
2291 Write_Statement_Buffer (";");
2292 end if;
2293 end if;
2295 WBI (" pragma Export (C, " & Get_Main_Name & ", """ &
2296 Get_Main_Name & """);");
2297 end if;
2299 Gen_Versions;
2300 Gen_Elab_Order;
2302 -- Spec is complete
2304 WBI ("");
2305 WBI ("end " & Ada_Main & ";");
2306 Close_Binder_Output;
2308 -- Prepare to write body
2310 Create_Binder_Output (Filename, 'b', Bfileb);
2312 -- We always compile the binder file in Ada 95 mode so that we properly
2313 -- handle use of Ada 2005 keywords as identifiers in Ada 95 mode. None
2314 -- of the Ada 2005/2012 constructs are needed by the binder file.
2316 WBI ("pragma Ada_95;");
2317 WBI ("pragma Warnings (Off);");
2319 -- Output Source_File_Name pragmas which look like
2321 -- pragma Source_File_Name (Ada_Main, Spec_File_Name => "sss");
2322 -- pragma Source_File_Name (Ada_Main, Body_File_Name => "bbb");
2324 -- where sss/bbb are the spec/body file names respectively
2326 Get_Name_String (Bfiles);
2327 Name_Buffer (Name_Len + 1 .. Name_Len + 3) := """);";
2329 WBI ("pragma Source_File_Name (" &
2330 Ada_Main &
2331 ", Spec_File_Name => """ &
2332 Name_Buffer (1 .. Name_Len + 3));
2334 Get_Name_String (Bfileb);
2335 Name_Buffer (Name_Len + 1 .. Name_Len + 3) := """);";
2337 WBI ("pragma Source_File_Name (" &
2338 Ada_Main &
2339 ", Body_File_Name => """ &
2340 Name_Buffer (1 .. Name_Len + 3));
2342 -- Generate pragma Suppress (Overflow_Check). This is needed for recent
2343 -- versions of the compiler which have overflow checks on by default.
2344 -- We do not want overflow checking enabled for the increments of the
2345 -- elaboration variables (since this can cause an unwanted reference to
2346 -- the last chance exception handler for limited run-times).
2348 WBI ("pragma Suppress (Overflow_Check);");
2350 -- Generate with of System.Restrictions to initialize
2351 -- Run_Time_Restrictions.
2353 if System_Restrictions_Used
2354 and not Suppress_Standard_Library_On_Target
2355 then
2356 WBI ("");
2357 WBI ("with System.Restrictions;");
2358 end if;
2360 -- Generate with of Ada.Exceptions if needs library finalization
2362 if Needs_Library_Finalization then
2363 WBI ("with Ada.Exceptions;");
2364 end if;
2366 -- Generate with of System.Elaboration_Allocators if the restriction
2367 -- No_Standard_Allocators_After_Elaboration was present.
2369 if Cumulative_Restrictions.Set
2370 (No_Standard_Allocators_After_Elaboration)
2371 then
2372 WBI ("with System.Elaboration_Allocators;");
2373 end if;
2375 -- Generate start of package body
2377 WBI ("");
2378 WBI ("package body " & Ada_Main & " is");
2379 WBI ("");
2381 -- Generate externals for elaboration entities
2383 Gen_Elab_Externals;
2385 if not CodePeer_Mode then
2386 if not Suppress_Standard_Library_On_Target then
2388 -- Generate Priority_Specific_Dispatching pragma string
2390 Set_String
2391 (" Local_Priority_Specific_Dispatching : " &
2392 "constant String := """);
2394 for J in 0 .. PSD_Pragma_Settings.Last loop
2395 Set_Char (PSD_Pragma_Settings.Table (J));
2396 end loop;
2398 Set_String (""";");
2399 Write_Statement_Buffer;
2401 -- Generate Interrupt_State pragma string
2403 Set_String (" Local_Interrupt_States : constant String := """);
2405 for J in 0 .. IS_Pragma_Settings.Last loop
2406 Set_Char (IS_Pragma_Settings.Table (J));
2407 end loop;
2409 Set_String (""";");
2410 Write_Statement_Buffer;
2411 WBI ("");
2412 end if;
2414 if not Suppress_Standard_Library_On_Target then
2416 -- The B.1(39) implementation advice says that the adainit
2417 -- and adafinal routines should be idempotent. Generate a flag to
2418 -- ensure that. This is not needed if we are suppressing the
2419 -- standard library since it would never be referenced.
2421 WBI (" Is_Elaborated : Boolean := False;");
2423 -- Generate bind environment string
2425 Gen_Bind_Env_String;
2426 end if;
2428 WBI ("");
2429 end if;
2431 -- Generate the adafinal routine unless there is no finalization to do
2433 if not Cumulative_Restrictions.Set (No_Finalization) then
2434 if Needs_Library_Finalization then
2435 Gen_Finalize_Library;
2436 end if;
2438 Gen_Adafinal;
2439 end if;
2441 Gen_Adainit;
2443 if Bind_Main_Program then
2444 Gen_Main;
2445 end if;
2447 -- Output object file list and the Ada body is complete
2449 Gen_Object_Files_Options;
2451 WBI ("");
2452 WBI ("end " & Ada_Main & ";");
2454 Close_Binder_Output;
2455 end Gen_Output_File_Ada;
2457 ----------------------
2458 -- Gen_Restrictions --
2459 ----------------------
2461 procedure Gen_Restrictions is
2462 Count : Integer;
2464 begin
2465 if Suppress_Standard_Library_On_Target
2466 or not System_Restrictions_Used
2467 then
2468 return;
2469 end if;
2471 WBI (" System.Restrictions.Run_Time_Restrictions :=");
2472 WBI (" (Set =>");
2473 Set_String (" (");
2475 Count := 0;
2477 for J in Cumulative_Restrictions.Set'Range loop
2478 Set_Boolean (Cumulative_Restrictions.Set (J));
2479 Set_String (", ");
2480 Count := Count + 1;
2482 if J /= Cumulative_Restrictions.Set'Last and then Count = 8 then
2483 Write_Statement_Buffer;
2484 Set_String (" ");
2485 Count := 0;
2486 end if;
2487 end loop;
2489 Set_String_Replace ("),");
2490 Write_Statement_Buffer;
2491 Set_String (" Value => (");
2493 for J in Cumulative_Restrictions.Value'Range loop
2494 Set_Int (Int (Cumulative_Restrictions.Value (J)));
2495 Set_String (", ");
2496 end loop;
2498 Set_String_Replace ("),");
2499 Write_Statement_Buffer;
2500 WBI (" Violated =>");
2501 Set_String (" (");
2502 Count := 0;
2504 for J in Cumulative_Restrictions.Violated'Range loop
2505 Set_Boolean (Cumulative_Restrictions.Violated (J));
2506 Set_String (", ");
2507 Count := Count + 1;
2509 if J /= Cumulative_Restrictions.Set'Last and then Count = 8 then
2510 Write_Statement_Buffer;
2511 Set_String (" ");
2512 Count := 0;
2513 end if;
2514 end loop;
2516 Set_String_Replace ("),");
2517 Write_Statement_Buffer;
2518 Set_String (" Count => (");
2520 for J in Cumulative_Restrictions.Count'Range loop
2521 Set_Int (Int (Cumulative_Restrictions.Count (J)));
2522 Set_String (", ");
2523 end loop;
2525 Set_String_Replace ("),");
2526 Write_Statement_Buffer;
2527 Set_String (" Unknown => (");
2529 for J in Cumulative_Restrictions.Unknown'Range loop
2530 Set_Boolean (Cumulative_Restrictions.Unknown (J));
2531 Set_String (", ");
2532 end loop;
2534 Set_String_Replace ("))");
2535 Set_String (";");
2536 Write_Statement_Buffer;
2537 end Gen_Restrictions;
2539 ------------------
2540 -- Gen_Versions --
2541 ------------------
2543 -- This routine generates lines such as:
2545 -- unnnnn : constant Integer := 16#hhhhhhhh#;
2546 -- pragma Export (C, unnnnn, unam);
2548 -- for each unit, where unam is the unit name suffixed by either B or S for
2549 -- body or spec, with dots replaced by double underscores, and hhhhhhhh is
2550 -- the version number, and nnnnn is a 5-digits serial number.
2552 procedure Gen_Versions is
2553 Ubuf : String (1 .. 6) := "u00000";
2555 procedure Increment_Ubuf;
2556 -- Little procedure to increment the serial number
2558 --------------------
2559 -- Increment_Ubuf --
2560 --------------------
2562 procedure Increment_Ubuf is
2563 begin
2564 for J in reverse Ubuf'Range loop
2565 Ubuf (J) := Character'Succ (Ubuf (J));
2566 exit when Ubuf (J) <= '9';
2567 Ubuf (J) := '0';
2568 end loop;
2569 end Increment_Ubuf;
2571 -- Start of processing for Gen_Versions
2573 begin
2574 WBI ("");
2576 WBI (" type Version_32 is mod 2 ** 32;");
2577 for U in Units.First .. Units.Last loop
2578 if not Units.Table (U).SAL_Interface
2579 and then
2580 (not Bind_For_Library or else Units.Table (U).Directly_Scanned)
2581 then
2582 Increment_Ubuf;
2583 WBI (" " & Ubuf & " : constant Version_32 := 16#" &
2584 Units.Table (U).Version & "#;");
2585 Set_String (" pragma Export (C, ");
2586 Set_String (Ubuf);
2587 Set_String (", """);
2589 Get_Name_String (Units.Table (U).Uname);
2591 for K in 1 .. Name_Len loop
2592 if Name_Buffer (K) = '.' then
2593 Set_Char ('_');
2594 Set_Char ('_');
2596 elsif Name_Buffer (K) = '%' then
2597 exit;
2599 else
2600 Set_Char (Name_Buffer (K));
2601 end if;
2602 end loop;
2604 if Name_Buffer (Name_Len) = 's' then
2605 Set_Char ('S');
2606 else
2607 Set_Char ('B');
2608 end if;
2610 Set_String (""");");
2611 Write_Statement_Buffer;
2612 end if;
2613 end loop;
2614 end Gen_Versions;
2616 ------------------------
2617 -- Get_Main_Unit_Name --
2618 ------------------------
2620 function Get_Main_Unit_Name (S : String) return String is
2621 Result : String := S;
2623 begin
2624 for J in S'Range loop
2625 if Result (J) = '.' then
2626 Result (J) := '_';
2627 end if;
2628 end loop;
2630 return Result;
2631 end Get_Main_Unit_Name;
2633 -----------------------
2634 -- Get_Ada_Main_Name --
2635 -----------------------
2637 function Get_Ada_Main_Name return String is
2638 Suffix : constant String := "_00";
2639 Name : String (1 .. Opt.Ada_Main_Name.all'Length + Suffix'Length) :=
2640 Opt.Ada_Main_Name.all & Suffix;
2641 Nlen : Natural;
2643 begin
2644 -- For CodePeer, we want reproducible names (independent of other
2645 -- mains that may or may not be present) that don't collide
2646 -- when analyzing multiple mains and which are easily recognizable
2647 -- as "ada_main" names.
2649 if CodePeer_Mode then
2650 Get_Name_String (Units.Table (First_Unit_Entry).Uname);
2651 return "ada_main_for_" &
2652 Get_Main_Unit_Name (Name_Buffer (1 .. Name_Len - 2));
2653 end if;
2655 -- This loop tries the following possibilities in order
2656 -- <Ada_Main>
2657 -- <Ada_Main>_01
2658 -- <Ada_Main>_02
2659 -- ..
2660 -- <Ada_Main>_99
2661 -- where <Ada_Main> is equal to Opt.Ada_Main_Name. By default,
2662 -- it is set to 'ada_main'.
2664 for J in 0 .. 99 loop
2665 if J = 0 then
2666 Nlen := Name'Length - Suffix'Length;
2667 else
2668 Nlen := Name'Length;
2669 Name (Name'Last) := Character'Val (J mod 10 + Character'Pos ('0'));
2670 Name (Name'Last - 1) :=
2671 Character'Val (J / 10 + Character'Pos ('0'));
2672 end if;
2674 for K in ALIs.First .. ALIs.Last loop
2675 for L in ALIs.Table (K).First_Unit .. ALIs.Table (K).Last_Unit loop
2677 -- Get unit name, removing %b or %e at end
2679 Get_Name_String (Units.Table (L).Uname);
2680 Name_Len := Name_Len - 2;
2682 if Name_Buffer (1 .. Name_Len) = Name (1 .. Nlen) then
2683 goto Continue;
2684 end if;
2685 end loop;
2686 end loop;
2688 return Name (1 .. Nlen);
2690 <<Continue>>
2691 null;
2692 end loop;
2694 -- If we fall through, just use a peculiar unlikely name
2696 return ("Qwertyuiop");
2697 end Get_Ada_Main_Name;
2699 -------------------
2700 -- Get_Main_Name --
2701 -------------------
2703 function Get_Main_Name return String is
2704 begin
2705 -- Explicit name given with -M switch
2707 if Bind_Alternate_Main_Name then
2708 return Alternate_Main_Name.all;
2710 -- Case of main program name to be used directly
2712 elsif Use_Ada_Main_Program_Name_On_Target then
2714 -- Get main program name
2716 Get_Name_String (Units.Table (First_Unit_Entry).Uname);
2718 -- If this is a child name, return only the name of the child, since
2719 -- we can't have dots in a nested program name. Note that we do not
2720 -- include the %b at the end of the unit name.
2722 for J in reverse 1 .. Name_Len - 2 loop
2723 if J = 1 or else Name_Buffer (J - 1) = '.' then
2724 return Name_Buffer (J .. Name_Len - 2);
2725 end if;
2726 end loop;
2728 raise Program_Error; -- impossible exit
2730 -- Case where "main" is to be used as default
2732 else
2733 return "main";
2734 end if;
2735 end Get_Main_Name;
2737 ---------------------
2738 -- Get_WC_Encoding --
2739 ---------------------
2741 function Get_WC_Encoding return Character is
2742 begin
2743 -- If encoding method specified by -W switch, then return it
2745 if Wide_Character_Encoding_Method_Specified then
2746 return WC_Encoding_Letters (Wide_Character_Encoding_Method);
2748 -- If no main program, and not specified, set brackets, we really have
2749 -- no better choice. If some other encoding is required when there is
2750 -- no main, it must be set explicitly using -Wx.
2752 -- Note: if the ALI file always passed the wide character encoding of
2753 -- every file, then we could use the encoding of the initial specified
2754 -- file, but this information is passed only for potential main
2755 -- programs. We could fix this sometime, but it is a very minor point
2756 -- (wide character default encoding for [Wide_[Wide_]Text_IO when there
2757 -- is no main program).
2759 elsif No_Main_Subprogram then
2760 return 'b';
2762 -- Otherwise if there is a main program, take encoding from it
2764 else
2765 return ALIs.Table (ALIs.First).WC_Encoding;
2766 end if;
2767 end Get_WC_Encoding;
2769 -------------------
2770 -- Has_Finalizer --
2771 -------------------
2773 function Has_Finalizer return Boolean is
2774 U : Unit_Record;
2775 Unum : Unit_Id;
2777 begin
2778 for E in reverse Elab_Order.First .. Elab_Order.Last loop
2779 Unum := Elab_Order.Table (E);
2780 U := Units.Table (Unum);
2782 -- We are only interested in non-generic packages
2784 if U.Unit_Kind = 'p'
2785 and then U.Has_Finalizer
2786 and then not U.Is_Generic
2787 and then not U.No_Elab
2788 then
2789 return True;
2790 end if;
2791 end loop;
2793 return False;
2794 end Has_Finalizer;
2796 ----------
2797 -- Hash --
2798 ----------
2800 function Hash (Nam : Name_Id) return Header_Num is
2801 begin
2802 return Int (Nam - Names_Low_Bound) rem Header_Num'Last;
2803 end Hash;
2805 ----------------------
2806 -- Lt_Linker_Option --
2807 ----------------------
2809 function Lt_Linker_Option (Op1, Op2 : Natural) return Boolean is
2810 begin
2811 -- Sort internal files last
2813 if Linker_Options.Table (Op1).Internal_File
2815 Linker_Options.Table (Op2).Internal_File
2816 then
2817 -- Note: following test uses False < True
2819 return Linker_Options.Table (Op1).Internal_File
2821 Linker_Options.Table (Op2).Internal_File;
2823 -- If both internal or both non-internal, sort according to the
2824 -- elaboration position. A unit that is elaborated later should come
2825 -- earlier in the linker options list.
2827 else
2828 return Units.Table (Linker_Options.Table (Op1).Unit).Elab_Position
2830 Units.Table (Linker_Options.Table (Op2).Unit).Elab_Position;
2832 end if;
2833 end Lt_Linker_Option;
2835 ------------------------
2836 -- Move_Linker_Option --
2837 ------------------------
2839 procedure Move_Linker_Option (From : Natural; To : Natural) is
2840 begin
2841 Linker_Options.Table (To) := Linker_Options.Table (From);
2842 end Move_Linker_Option;
2844 ----------------------------
2845 -- Resolve_Binder_Options --
2846 ----------------------------
2848 procedure Resolve_Binder_Options is
2850 procedure Check_Package (Var : in out Boolean; Name : String);
2851 -- Set Var to true iff the current identifier in Namet is Name. Do
2852 -- nothing if it doesn't match. This procedure is just a helper to
2853 -- avoid explicitly dealing with length.
2855 -------------------
2856 -- Check_Package --
2857 -------------------
2859 procedure Check_Package (Var : in out Boolean; Name : String) is
2860 begin
2861 if Name_Len = Name'Length
2862 and then Name_Buffer (1 .. Name_Len) = Name
2863 then
2864 Var := True;
2865 end if;
2866 end Check_Package;
2868 -- Start of processing for Resolve_Binder_Options
2870 begin
2871 for E in Elab_Order.First .. Elab_Order.Last loop
2872 Get_Name_String (Units.Table (Elab_Order.Table (E)).Uname);
2874 -- This is not a perfect approach, but is the current protocol
2875 -- between the run-time and the binder to indicate that tasking is
2876 -- used: System.OS_Interface should always be used by any tasking
2877 -- application.
2879 Check_Package (With_GNARL, "system.os_interface%s");
2881 -- Ditto for the use of restricted tasking
2883 Check_Package
2884 (System_Tasking_Restricted_Stages_Used,
2885 "system.tasking.restricted.stages%s");
2887 -- Ditto for the use of interrupts
2889 Check_Package (System_Interrupts_Used, "system.interrupts%s");
2891 -- Ditto for the use of dispatching domains
2893 Check_Package
2894 (Dispatching_Domains_Used,
2895 "system.multiprocessors.dispatching_domains%s");
2897 -- Ditto for the use of restrictions
2899 Check_Package (System_Restrictions_Used, "system.restrictions%s");
2901 -- Ditto for use of an SMP bareboard runtime
2903 Check_Package (System_BB_CPU_Primitives_Multiprocessors_Used,
2904 "system.bb.cpu_primitives.multiprocessors%s");
2906 end loop;
2907 end Resolve_Binder_Options;
2909 ------------------
2910 -- Set_Bind_Env --
2911 ------------------
2913 procedure Set_Bind_Env (Key, Value : String) is
2914 begin
2915 -- The lengths of Key and Value are stored as single bytes
2917 if Key'Length > 255 then
2918 Osint.Fail ("bind environment key """ & Key & """ too long");
2919 end if;
2921 if Value'Length > 255 then
2922 Osint.Fail ("bind environment value """ & Value & """ too long");
2923 end if;
2925 Bind_Environment.Set (Name_Find (Key), Name_Find (Value));
2926 end Set_Bind_Env;
2928 -----------------
2929 -- Set_Boolean --
2930 -----------------
2932 procedure Set_Boolean (B : Boolean) is
2933 True_Str : constant String := "True";
2934 False_Str : constant String := "False";
2935 begin
2936 if B then
2937 Statement_Buffer (Last + 1 .. Last + True_Str'Length) := True_Str;
2938 Last := Last + True_Str'Length;
2939 else
2940 Statement_Buffer (Last + 1 .. Last + False_Str'Length) := False_Str;
2941 Last := Last + False_Str'Length;
2942 end if;
2943 end Set_Boolean;
2945 --------------
2946 -- Set_Char --
2947 --------------
2949 procedure Set_Char (C : Character) is
2950 begin
2951 Last := Last + 1;
2952 Statement_Buffer (Last) := C;
2953 end Set_Char;
2955 -------------
2956 -- Set_Int --
2957 -------------
2959 procedure Set_Int (N : Int) is
2960 begin
2961 if N < 0 then
2962 Set_String ("-");
2963 Set_Int (-N);
2965 else
2966 if N > 9 then
2967 Set_Int (N / 10);
2968 end if;
2970 Last := Last + 1;
2971 Statement_Buffer (Last) :=
2972 Character'Val (N mod 10 + Character'Pos ('0'));
2973 end if;
2974 end Set_Int;
2976 -------------------------
2977 -- Set_IS_Pragma_Table --
2978 -------------------------
2980 procedure Set_IS_Pragma_Table is
2981 begin
2982 for F in ALIs.First .. ALIs.Last loop
2983 for K in ALIs.Table (F).First_Interrupt_State ..
2984 ALIs.Table (F).Last_Interrupt_State
2985 loop
2986 declare
2987 Inum : constant Int :=
2988 Interrupt_States.Table (K).Interrupt_Id;
2989 Stat : constant Character :=
2990 Interrupt_States.Table (K).Interrupt_State;
2992 begin
2993 while IS_Pragma_Settings.Last < Inum loop
2994 IS_Pragma_Settings.Append ('n');
2995 end loop;
2997 IS_Pragma_Settings.Table (Inum) := Stat;
2998 end;
2999 end loop;
3000 end loop;
3001 end Set_IS_Pragma_Table;
3003 ---------------------------
3004 -- Set_Main_Program_Name --
3005 ---------------------------
3007 procedure Set_Main_Program_Name is
3008 begin
3009 -- Note that name has %b on the end which we ignore
3011 -- First we output the initial _ada_ since we know that the main
3012 -- program is a library level subprogram.
3014 Set_String ("_ada_");
3016 -- Copy name, changing dots to double underscores
3018 for J in 1 .. Name_Len - 2 loop
3019 if Name_Buffer (J) = '.' then
3020 Set_String ("__");
3021 else
3022 Set_Char (Name_Buffer (J));
3023 end if;
3024 end loop;
3025 end Set_Main_Program_Name;
3027 ---------------------
3028 -- Set_Name_Buffer --
3029 ---------------------
3031 procedure Set_Name_Buffer is
3032 begin
3033 for J in 1 .. Name_Len loop
3034 Set_Char (Name_Buffer (J));
3035 end loop;
3036 end Set_Name_Buffer;
3038 -------------------------
3039 -- Set_PSD_Pragma_Table --
3040 -------------------------
3042 procedure Set_PSD_Pragma_Table is
3043 begin
3044 for F in ALIs.First .. ALIs.Last loop
3045 for K in ALIs.Table (F).First_Specific_Dispatching ..
3046 ALIs.Table (F).Last_Specific_Dispatching
3047 loop
3048 declare
3049 DTK : Specific_Dispatching_Record
3050 renames Specific_Dispatching.Table (K);
3052 begin
3053 while PSD_Pragma_Settings.Last < DTK.Last_Priority loop
3054 PSD_Pragma_Settings.Append ('F');
3055 end loop;
3057 for Prio in DTK.First_Priority .. DTK.Last_Priority loop
3058 PSD_Pragma_Settings.Table (Prio) := DTK.Dispatching_Policy;
3059 end loop;
3060 end;
3061 end loop;
3062 end loop;
3063 end Set_PSD_Pragma_Table;
3065 ----------------
3066 -- Set_String --
3067 ----------------
3069 procedure Set_String (S : String) is
3070 begin
3071 Statement_Buffer (Last + 1 .. Last + S'Length) := S;
3072 Last := Last + S'Length;
3073 end Set_String;
3075 ------------------------
3076 -- Set_String_Replace --
3077 ------------------------
3079 procedure Set_String_Replace (S : String) is
3080 begin
3081 Statement_Buffer (Last - S'Length + 1 .. Last) := S;
3082 end Set_String_Replace;
3084 -------------------
3085 -- Set_Unit_Name --
3086 -------------------
3088 procedure Set_Unit_Name is
3089 begin
3090 for J in 1 .. Name_Len - 2 loop
3091 if Name_Buffer (J) = '.' then
3092 Set_String ("__");
3093 else
3094 Set_Char (Name_Buffer (J));
3095 end if;
3096 end loop;
3097 end Set_Unit_Name;
3099 ---------------------
3100 -- Set_Unit_Number --
3101 ---------------------
3103 procedure Set_Unit_Number (U : Unit_Id) is
3104 Num_Units : constant Nat := Nat (Units.Last) - Nat (Unit_Id'First);
3105 Unum : constant Nat := Nat (U) - Nat (Unit_Id'First);
3107 begin
3108 if Num_Units >= 10 and then Unum < 10 then
3109 Set_Char ('0');
3110 end if;
3112 if Num_Units >= 100 and then Unum < 100 then
3113 Set_Char ('0');
3114 end if;
3116 Set_Int (Unum);
3117 end Set_Unit_Number;
3119 ---------------------
3120 -- Write_Bind_Line --
3121 ---------------------
3123 procedure Write_Bind_Line (S : String) is
3124 begin
3125 -- Need to strip trailing LF from S
3127 WBI (S (S'First .. S'Last - 1));
3128 end Write_Bind_Line;
3130 ----------------------------
3131 -- Write_Statement_Buffer --
3132 ----------------------------
3134 procedure Write_Statement_Buffer is
3135 begin
3136 WBI (Statement_Buffer (1 .. Last));
3137 Last := 0;
3138 end Write_Statement_Buffer;
3140 procedure Write_Statement_Buffer (S : String) is
3141 begin
3142 Set_String (S);
3143 Write_Statement_Buffer;
3144 end Write_Statement_Buffer;
3146 end Bindgen;