i386-protos.h (x86_emit_floatuns): Declare.
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1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT RUN-TIME COMPONENTS --
4 -- --
5 -- A D A . E X C E P T I O N S --
6 -- --
7 -- S p e c --
8 -- --
9 -- --
10 -- Copyright (C) 1992-2002 Free Software Foundation, Inc. --
11 -- --
12 -- This specification is derived from the Ada Reference Manual for use with --
13 -- GNAT. The copyright notice above, and the license provisions that follow --
14 -- apply solely to the contents of the part following the private keyword. --
15 -- --
16 -- GNAT is free software; you can redistribute it and/or modify it under --
17 -- terms of the GNU General Public License as published by the Free Soft- --
18 -- ware Foundation; either version 2, or (at your option) any later ver- --
19 -- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
20 -- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
21 -- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License --
22 -- for more details. You should have received a copy of the GNU General --
23 -- Public License distributed with GNAT; see file COPYING. If not, write --
24 -- to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, --
25 -- MA 02111-1307, USA. --
26 -- --
27 -- As a special exception, if other files instantiate generics from this --
28 -- unit, or you link this unit with other files to produce an executable, --
29 -- this unit does not by itself cause the resulting executable to be --
30 -- covered by the GNU General Public License. This exception does not --
31 -- however invalidate any other reasons why the executable file might be --
32 -- covered by the GNU Public License. --
33 -- --
34 -- GNAT was originally developed by the GNAT team at New York University. --
35 -- Extensive contributions were provided by Ada Core Technologies Inc. --
36 -- --
37 ------------------------------------------------------------------------------
39 pragma Polling (Off);
40 -- We must turn polling off for this unit, because otherwise we get
41 -- elaboration circularities with ourself.
43 with System;
44 with System.Standard_Library;
46 package Ada.Exceptions is
48 type Exception_Id is private;
49 Null_Id : constant Exception_Id;
51 type Exception_Occurrence is limited private;
52 type Exception_Occurrence_Access is access all Exception_Occurrence;
54 Null_Occurrence : constant Exception_Occurrence;
56 function Exception_Name (X : Exception_Occurrence) return String;
57 -- Same as Exception_Name (Exception_Identity (X))
59 function Exception_Name (Id : Exception_Id) return String;
61 procedure Raise_Exception (E : Exception_Id; Message : String := "");
62 -- Note: it would be really nice to give a pragma No_Return for this
63 -- procedure, but it would be wrong, since Raise_Exception does return
64 -- if given the null exception. However we do special case the name in
65 -- the test in the compiler for issuing a warning for a missing return
66 -- after this call. Program_Error seems reasonable enough in such a case.
67 -- See also the routine Raise_Exception_Always in the private part.
69 function Exception_Message (X : Exception_Occurrence) return String;
71 procedure Reraise_Occurrence (X : Exception_Occurrence);
72 -- Note: it would be really nice to give a pragma No_Return for this
73 -- procedure, but it would be wrong, since Reraise_Occurrence does return
74 -- if the argument is the null exception occurrence. See also procedure
75 -- Reraise_Occurrence_Always in the private part of this package.
77 function Exception_Identity (X : Exception_Occurrence) return Exception_Id;
79 function Exception_Information (X : Exception_Occurrence) return String;
80 -- The format of the exception information is as follows:
82 -- exception name (as in Exception_Name)
83 -- message (or a null line if no message)
84 -- PID=nnnn
85 -- 0xyyyyyyyy 0xyyyyyyyy ...
87 -- The lines are separated by a ASCII.LF character
88 -- The nnnn is the partition Id given as decimal digits.
89 -- The 0x... line represents traceback program counter locations,
90 -- in order with the first one being the exception location.
92 -- Note on ordering: the compiler uses the Save_Occurrence procedure, but
93 -- not the function from Rtsfind, so it is important that the procedure
94 -- come first, since Rtsfind finds the first matching entity.
96 procedure Save_Occurrence
97 (Target : out Exception_Occurrence;
98 Source : Exception_Occurrence);
100 function Save_Occurrence
101 (Source : Exception_Occurrence)
102 return Exception_Occurrence_Access;
104 private
105 package SSL renames System.Standard_Library;
107 subtype EOA is Exception_Occurrence_Access;
109 Exception_Msg_Max_Length : constant := 200;
111 ------------------
112 -- Exception_Id --
113 ------------------
115 subtype Code_Loc is System.Address;
116 -- Code location used in building exception tables and for call
117 -- addresses when propagating an exception (also traceback table)
118 -- Values of this type are created by using Label'Address or
119 -- extracted from machine states using Get_Code_Loc.
121 Null_Loc : constant Code_Loc := System.Null_Address;
122 -- Null code location, used to flag outer level frame
124 type Exception_Id is new SSL.Exception_Data_Ptr;
126 function EId_To_String (X : Exception_Id) return String;
127 function String_To_EId (S : String) return Exception_Id;
128 pragma Stream_Convert (Exception_Id, String_To_EId, EId_To_String);
129 -- Functions for implementing Exception_Id stream attributes
131 Null_Id : constant Exception_Id := null;
133 -------------------------
134 -- Private Subprograms --
135 -------------------------
137 function Current_Target_Exception return Exception_Occurrence;
138 pragma Export
139 (Ada, Current_Target_Exception,
140 "__gnat_current_target_exception");
141 -- This routine should return the current raised exception on targets
142 -- which have built-in exception handling such as the Java Virtual
143 -- Machine. For other targets this routine is simply ignored. Currently,
144 -- only JGNAT uses this. See 4jexcept.ads for details. The pragma Export
145 -- allows this routine to be accessed elsewhere in the run-time, even
146 -- though it is in the private part of this package (it is not allowed
147 -- to be in the visible part, since this is set by the reference manual).
149 function Exception_Name_Simple (X : Exception_Occurrence) return String;
150 -- Like Exception_Name, but returns the simple non-qualified name of
151 -- the exception. This is used to implement the Exception_Name function
152 -- in Current_Exceptions (the DEC compatible unit). It is called from
153 -- the compiler generated code (using Rtsfind, which does not respect
154 -- the private barrier, so we can place this function in the private
155 -- part where the compiler can find it, but the spec is unchanged.)
157 procedure Raise_Exception_Always (E : Exception_Id; Message : String := "");
158 pragma No_Return (Raise_Exception_Always);
159 pragma Export (Ada, Raise_Exception_Always, "__gnat_raise_exception");
160 -- This differs from Raise_Exception only in that the caller has determined
161 -- that for sure the parameter E is not null, and that therefore the call
162 -- to this procedure cannot return. The expander converts Raise_Exception
163 -- calls to Raise_Exception_Always if it can determine this is the case.
164 -- The Export allows this routine to be accessed from Pure units.
166 procedure Raise_No_Msg (E : Exception_Id);
167 pragma No_Return (Raise_No_Msg);
168 -- Raises an exception with no message with given exception id value.
169 -- Abort is deferred before the raise call.
171 procedure Raise_From_Signal_Handler
172 (E : Exception_Id;
173 M : SSL.Big_String_Ptr);
174 pragma Export
175 (Ada, Raise_From_Signal_Handler,
176 "ada__exceptions__raise_from_signal_handler");
177 pragma No_Return (Raise_From_Signal_Handler);
178 -- This routine is used to raise an exception from a signal handler.
179 -- The signal handler has already stored the machine state (i.e. the
180 -- state that corresponds to the location at which the signal was
181 -- raised). E is the Exception_Id specifying what exception is being
182 -- raised, and M is a pointer to a null-terminated string which is the
183 -- message to be raised. Note that this routine never returns, so it is
184 -- permissible to simply jump to this routine, rather than call it. This
185 -- may be appropriate for systems where the right way to get out of a
186 -- signal handler is to alter the PC value in the machine state or in
187 -- some other way ask the operating system to return here rather than
188 -- to the original location.
190 procedure Raise_With_C_Msg
191 (E : Exception_Id;
192 M : SSL.Big_String_Ptr);
193 pragma Export (Ada, Raise_With_C_Msg, "ada__exceptions__raise_with_c_msg");
194 pragma No_Return (Raise_With_C_Msg);
195 -- Raises an exception with with given exception id value and message.
196 -- M is a null terminated string with the message to be raised. Abort
197 -- is deferred before the raise call.
199 procedure Reraise_Occurrence_Always (X : Exception_Occurrence);
200 pragma No_Return (Reraise_Occurrence_Always);
201 -- This differs from Raise_Occurrence only in that the caller guarantees
202 -- that for sure the parameter X is not the null occurrence, and that
203 -- therefore this procedure cannot return. The expander uses this routine
204 -- in the translation of a raise statement with no parameter (reraise).
206 procedure Reraise_Occurrence_No_Defer (X : Exception_Occurrence);
207 pragma No_Return (Reraise_Occurrence_No_Defer);
208 -- Exactly like Reraise_Occurrence, except that abort is not deferred
209 -- before the call and the parameter X is known not to be the null
210 -- occurrence. This is used in generated code when it is known
211 -- that abort is already deferred.
213 procedure SDP_Table_Build
214 (SDP_Addresses : System.Address;
215 SDP_Count : Natural;
216 Elab_Addresses : System.Address;
217 Elab_Addr_Count : Natural);
218 pragma Export (C, SDP_Table_Build, "__gnat_SDP_Table_Build");
219 -- This is the routine that is called to build and sort the list of
220 -- subprogram descriptor pointers. In the normal case it is called
221 -- once at the start of execution, but it can also be called as part
222 -- of the explicit initialization routine (adainit) when there is no
223 -- Ada main program. In particular, in the case where multiple Ada
224 -- libraries are present, this routine can be called more than once
225 -- for each library, in which case it augments the previously set
226 -- table with the new entries specified by the parameters.
228 -- SDP_Addresses Address of the start of the list of addresses of
229 -- __gnat_unit_name__SDP values constructed for each
230 -- unit, (see System.Exceptions).
232 -- SDP_Count Number of entries in SDP_Addresses
234 -- Elab_Addresses Address of the start of a list of addresses of
235 -- generated Ada elaboration routines, as well as
236 -- one extra entry for the generated main program.
237 -- These are used to generate the dummy SDP's that
238 -- mark the outer scope.
240 -- Elab_Addr_Count Number of entries in Elab_Addresses
242 procedure Break_Start;
243 pragma Export (C, Break_Start, "__gnat_break_start");
244 -- This is a dummy procedure that is called at the start of execution.
245 -- Its sole purpose is to provide a well defined point for the placement
246 -- of a main program breakpoint. We put the routine in Ada.Exceptions so
247 -- that the standard mechanism of always stepping up from breakpoints
248 -- within Ada.Exceptions leaves us sitting in the main program.
250 -----------------------
251 -- Polling Interface --
252 -----------------------
254 -- The GNAT compiler has an option to generate polling calls to the Poll
255 -- routine in this package. Specifying the -gnatP option for a compilation
256 -- causes a call to Ada.Exceptions.Poll to be generated on every subprogram
257 -- entry and on every iteration of a loop, thus avoiding the possibility of
258 -- a case of unbounded time between calls.
260 -- This polling interface may be used for instrumentation or debugging
261 -- purposes (e.g. implementing watchpoints in software or in the debugger).
263 -- In the GNAT technology itself, this interface is used to implement
264 -- immediate aynschronous transfer of control and immediate abort on
265 -- targets which do not provide for one thread interrupting another.
267 -- Note: this used to be in a separate unit called System.Poll, but that
268 -- caused horrible circular elaboration problems between System.Poll and
269 -- Ada.Exceptions. One way of solving such circularities is unification!
271 procedure Poll;
272 -- Check for asynchronous abort. Note that we do not inline the body.
273 -- This makes the interface more useful for debugging purposes.
275 --------------------------
276 -- Exception_Occurrence --
277 --------------------------
279 Max_Tracebacks : constant := 50;
280 -- Maximum number of trace backs stored in exception occurrence
282 type Tracebacks_Array is array (1 .. Max_Tracebacks) of Code_Loc;
283 -- Traceback array stored in exception occurrence
285 type Exception_Occurrence is record
286 Id : Exception_Id;
287 -- Exception_Identity for this exception occurrence
288 -- WARNING System.System.Finalization_Implementation.Finalize_List
289 -- relies on the fact that this field is always first in the exception
290 -- occurrence
292 Msg_Length : Natural := 0;
293 -- Length of message (zero = no message)
295 Msg : String (1 .. Exception_Msg_Max_Length);
296 -- Characters of message
298 Cleanup_Flag : Boolean;
299 -- The cleanup flag is normally False, it is set True for an exception
300 -- occurrence passed to a cleanup routine, and will still be set True
301 -- when the cleanup routine does a Reraise_Occurrence call using this
302 -- exception occurrence. This is used to avoid recording a bogus trace
303 -- back entry from this reraise call.
305 Exception_Raised : Boolean := False;
306 -- Set to true to indicate that this exception occurrence has actually
307 -- been raised. When an exception occurrence is first created, this is
308 -- set to False, then when it is processed by Raise_Current_Exception,
309 -- it is set to True. If Raise_Current_Exception is used to raise an
310 -- exception for which this flag is already True, then it knows that
311 -- it is dealing with the reraise case (which is useful to distinguish
312 -- for exception tracing purposes).
314 Pid : Natural;
315 -- Partition_Id for partition raising exception
317 Num_Tracebacks : Natural range 0 .. Max_Tracebacks := 0;
318 -- Number of traceback entries stored
320 Tracebacks : Tracebacks_Array;
321 -- Stored tracebacks (in Tracebacks (1 .. Num_Tracebacks))
322 end record;
324 function "=" (Left, Right : Exception_Occurrence) return Boolean
325 is abstract;
326 -- Don't allow comparison on exception occurrences, we should not need
327 -- this, and it would not work right, because of the Msg and Tracebacks
328 -- fields which have unused entries not copied by Save_Occurrence.
330 function EO_To_String (X : Exception_Occurrence) return String;
331 function String_To_EO (S : String) return Exception_Occurrence;
332 pragma Stream_Convert (Exception_Occurrence, String_To_EO, EO_To_String);
333 -- Functions for implementing Exception_Occurrence stream attributes
335 Null_Occurrence : constant Exception_Occurrence := (
336 Id => Null_Id,
337 Msg_Length => 0,
338 Msg => (others => ' '),
339 Cleanup_Flag => False,
340 Exception_Raised => False,
341 Pid => 0,
342 Num_Tracebacks => 0,
343 Tracebacks => (others => Null_Loc));
345 end Ada.Exceptions;