| blob | 8002fef8bc97cc583d283745ff2b2ab1682a9275 |
1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT COMPILER COMPONENTS --
4 -- --
5 -- E X P _ I N T R --
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 ------------------------------------------------------------------------------
65 -----------------------
66 -- Local Subprograms --
67 -----------------------
70 -- Expand a call to an intrinsic arithmetic operator when the operand
71 -- types or sizes are not identical.
74 -- Expand a call to the intrinsic Is_Negative function
77 -- Expand a call to an instantiation of Generic_Dispatching_Constructor
78 -- into a dispatching call to the actual subprogram associated with the
79 -- Constructor formal subprogram, passing it the Parameters actual of
80 -- the call to the instantiation and dispatching based on call's Tag
81 -- parameter.
84 -- Expand a call to Exception_Information/Message/Name. The first
85 -- parameter, N, is the node for the function call, and Ent is the
86 -- entity for the corresponding routine in the Ada.Exceptions package.
89 -- Expand a call to Import_Address/Longest_Integer/Value. The parameter
90 -- N is the node for the function call.
93 -- Expand an intrinsic shift operation, N and E are from the call to
94 -- Expand_Intrinsic_Call (call node and subprogram spec entity) and
95 -- K is the kind for the shift node
98 -- Expand a call to an instantiation of Unchecked_Conversion into a node
99 -- N_Unchecked_Type_Conversion.
102 -- Expand a call to an instantiation of Unchecked_Deallocation into a node
103 -- N_Free_Statement and appropriate context.
107 -- Expand a call to corresponding function, declared in an instance of
108 -- System.Address_To_Access_Conversions.
111 -- Rewrite the node by the appropriate string or positive constant.
112 -- Nam can be one of the following:
113 -- Name_File - expand string name of source file
114 -- Name_Line - expand integer line number
115 -- Name_Source_Location - expand string of form file:line
116 -- Name_Enclosing_Entity - expand string name of enclosing entity
117 -- Name_Compilation_Date - expand string with compilation date
118 -- Name_Compilation_Time - expand string with compilation time
121 -- Recursive procedure to construct string for qualified name of enclosing
122 -- program unit. The qualification stops at an enclosing scope has no
123 -- source name (block or loop). If entity is a subprogram instance, skip
124 -- enclosing wrapper package. The name is appended to the current contents
125 -- of Name_Buffer, incrementing Name_Len.
127 ---------------------
128 -- Add_Source_Info --
129 ---------------------
136 -- Save current Name_Buffer contents
138 begin
141 -- Line
149 Get_Decoded_Name_String
157 -- Skip enclosing blocks to reach enclosing unit
165 -- Ent now points to the relevant defining entity
170 declare
183 begin
184 -- Reformat ISO date into MMM DD YYYY (__DATE__) format
202 -- Prepend original Name_Buffer contents
210 ---------------------------------
211 -- Expand_Binary_Operator_Call --
212 ---------------------------------
222 -- Maximum of operand sizes
224 begin
225 -- Nothing to do if the operands have the same modular type
229 then
233 -- Use Unsigned_32 for sizes of 32 or below, else Unsigned_64
237 else
241 -- Copy operator node, and reset type and entity fields, for
242 -- subsequent reanalysis.
258 -- Convert operands to large enough intermediate type
265 -- Analyze and resolve result formed by conversion to target type
271 -----------------------------------------
272 -- Expand_Dispatching_Constructor_Call --
273 -----------------------------------------
275 -- Transform a call to an instantiation of Generic_Dispatching_Constructor
276 -- of the form:
278 -- GDC_Instance (The_Tag, Parameters'Access)
280 -- to a class-wide conversion of a dispatching call to the actual
281 -- associated with the formal subprogram Construct, designating The_Tag
282 -- as the controlling tag of the call:
284 -- T'Class (Construct'Actual (Params)) -- Controlling tag is The_Tag
286 -- which will eventually be expanded to the following:
288 -- T'Class (The_Tag.all (Construct'Actual'Index).all (Params))
290 -- A class-wide membership test is also generated, preceding the call, to
291 -- ensure that the controlling tag denotes a type in T'Class.
305 begin
306 -- Remove side effects from tag argument early, before rewriting
307 -- the dispatching constructor call, as Remove_Side_Effects relies
308 -- on Tag_Arg's Parent link properly attached to the tree (once the
309 -- call is rewritten, the Parent is inconsistent as it points to the
310 -- rewritten node, which is not the syntactic parent of the Tag_Arg
311 -- anymore).
315 -- The subprogram is the third actual in the instantiation, and is
316 -- retrieved from the corresponding renaming declaration. However,
317 -- freeze nodes may appear before, so we retrieve the declaration
318 -- with an explicit loop.
330 -- If the result type is not known to be a parent of Tag_Arg then we
331 -- need to locate the tag of the secondary dispatch table.
335 and then Tagged_Type_Expansion
336 then
337 -- Obtain the reference to the Ada.Tags service before generating
338 -- the Object_Declaration node to ensure that if this service is
339 -- not available in the runtime then we generate a clear error.
341 declare
345 begin
348 -- The tag is the first entry in the dispatch table of the
349 -- return type of the constructor.
351 Iface_Tag :=
354 Object_Definition =>
356 Expression =>
361 New_Occurrence_Of
364 Loc))));
370 -- Create the call to the actual Constructor function
372 Cnstr_Call :=
377 -- Establish its controlling tag from the tag passed to the instance
378 -- The tag may be given by a function call, in which case a temporary
379 -- should be generated now, to prevent out-of-order insertions during
380 -- the expansion of that call when stack-checking is enabled.
385 else
390 -- Rewrite and analyze the call to the instance as a class-wide
391 -- conversion of the call to the actual constructor.
396 -- Do not generate a run-time check on the built object if tag
397 -- checks are suppressed for the result type or VM_Target /= No_VM
400 or else not Tagged_Type_Expansion
401 then
404 -- Generate a class-wide membership test to ensure that the call's tag
405 -- argument denotes a type within the class. We must keep separate the
406 -- case in which the Result_Type of the constructor function is a tagged
407 -- type from the case in which it is an abstract interface because the
408 -- run-time subprogram required to check these cases differ (and have
409 -- one difference in their parameters profile).
411 -- Call CW_Membership if the Result_Type is a tagged type to look for
412 -- the tag in the table of ancestor tags.
415 declare
419 begin
422 Typ_Tag_Node =>
423 New_Occurrence_Of (
431 Condition =>
433 Then_Statements =>
438 -- Call IW_Membership test if the Result_Type is an abstract interface
439 -- to look for the tag in the table of interface tags.
441 else
444 Condition =>
453 New_Occurrence_Of (
456 Then_Statements =>
457 New_List (
463 ---------------------------
464 -- Expand_Exception_Call --
465 ---------------------------
467 -- If the function call is not within an exception handler, then the call
468 -- is replaced by a null string. Otherwise the appropriate routine in
469 -- Ada.Exceptions is called passing the choice parameter specification
470 -- from the enclosing handler. If the enclosing handler lacks a choice
471 -- parameter, then one is supplied.
478 begin
479 -- Climb up parents to see if we are in exception handler
482 loop
483 -- Case of not in exception handler, replace by null string
491 -- Case of in exception handler
495 -- Handler cannot be used for a local raise, and furthermore, this
496 -- is a violation of the No_Exception_Propagation restriction.
501 -- If no choice parameter present, then put one there. Note that
502 -- we do not need to put it on the entity chain, since no one will
503 -- be referencing it by normal visibility methods.
520 -- Keep climbing
522 else
530 ------------------------
531 -- Expand_Import_Call --
532 ------------------------
534 -- The function call must have a static string as its argument. We create
535 -- a dummy variable which uses this string as the external name in an
536 -- Import pragma. The result is then obtained as the address of this
537 -- dummy variable, converted to the appropriate target type.
545 begin
549 Object_Definition =>
574 ---------------------------
575 -- Expand_Intrinsic_Call --
576 ---------------------------
581 begin
582 -- If an external name is specified for the intrinsic, it is handled
583 -- by the back-end: leave the call node unchanged for now.
589 -- If the intrinsic subprogram is generic, gets its original name
593 then
595 else
618 Name_Import_Largest_Value,
619 Name_Import_Value)
620 then
654 Name_Line,
655 Name_Source_Location,
656 Name_Enclosing_Entity,
657 Name_Compilation_Date,
658 Name_Compilation_Time)
659 then
662 -- If we have a renaming, expand the call to the original operation,
663 -- which must itself be intrinsic, since renaming requires matching
664 -- conventions and this has already been checked.
672 -- The only other case is where an external name was specified, since
673 -- this is the only way that an otherwise unrecognized name could
674 -- escape the checking in Sem_Prag. Nothing needs to be done in such
675 -- a case, since we pass such a call to the back end unchanged.
677 else
682 ------------------------
683 -- Expand_Is_Negative --
684 ------------------------
690 begin
692 -- We replace the function call by the following expression
694 -- if Opnd < 0.0 then
695 -- True
696 -- else
697 -- if Opnd > 0.0 then
698 -- False;
699 -- else
700 -- Float_Unsigned!(Float (Opnd)) /= 0
701 -- end if;
702 -- end if;
722 Left_Opnd =>
723 Unchecked_Convert_To
725 Convert_To
728 Right_Opnd =>
734 ------------------
735 -- Expand_Shift --
736 ------------------
738 -- This procedure is used to convert a call to a shift function to the
739 -- corresponding operator node. This conversion is not done by the usual
740 -- circuit for converting calls to operator functions (e.g. "+"(1,2)) to
741 -- operator nodes, because shifts are not predefined operators.
743 -- As a result, whenever a shift is used in the source program, it will
744 -- remain as a call until converted by this routine to the operator node
745 -- form which the back end is expecting to see.
747 -- Note: it is possible for the expander to generate shift operator nodes
748 -- directly, which will be analyzed in the normal manner by calling Analyze
749 -- and Resolve. Such shift operator nodes will not be seen by Expand_Shift.
761 begin
770 then
776 -- Note that we don't call Analyze and Resolve on this node, because
777 -- it already got analyzed and resolved when it was a function call.
783 -- However, we do call the expander, so that the expansion for
784 -- rotates and shift_right_arithmetic happens if Modify_Tree_For_C
785 -- is set.
791 else
792 -- If the context type is not the type of the operator, it is an
793 -- inherited operator for a derived type. Wrap the node in a
794 -- conversion so that it is type-consistent for possible further
795 -- expansion (e.g. within a lock-free protected type).
801 -- Analyze and resolve result formed by conversion to target type
807 ------------------------
808 -- Expand_Source_Info --
809 ------------------------
815 begin
816 -- Integer cases
824 -- String cases
826 else
831 Get_Decoded_Name_String
839 -- Skip enclosing blocks to reach enclosing unit
848 -- Ent now points to the relevant defining entity
853 declare
866 begin
867 -- Reformat ISO date into MMM DD YYYY (__DATE__) format
894 ---------------------------
895 -- Expand_Unc_Conversion --
896 ---------------------------
904 begin
905 -- Rewrite as unchecked conversion node. Note that we must convert
906 -- the operand to the formal type of the input parameter of the
907 -- function, so that the resulting N_Unchecked_Type_Conversion
908 -- call indicates the correct types for Gigi.
910 -- Right now, we only do this if a scalar type is involved. It is
911 -- not clear if it is needed in other cases. If we do attempt to
912 -- do the conversion unconditionally, it crashes 3411-018. To be
913 -- investigated further ???
924 -- The instantiation of Unchecked_Conversion creates a wrapper package,
925 -- and the target type is declared as a subtype of the actual. Recover
926 -- the actual, which is the subtype indic. in the subtype declaration
927 -- for the target type. This is semantically correct, and avoids
928 -- anomalies with access subtypes. For entities, leave type as is.
930 -- We do the analysis here, because we do not want the compiler
931 -- to try to optimize or otherwise reorganize the unchecked
932 -- conversion node.
943 Ttyp :=
945 else
958 -----------------------------
959 -- Expand_Unc_Deallocation --
960 -----------------------------
962 -- Generate the following Code :
964 -- if Arg /= null then
965 -- <Finalize_Call> (.., T'Class(Arg.all), ..); -- for controlled types
966 -- Free (Arg);
967 -- Arg := Null;
968 -- end if;
970 -- For a task, we also generate a call to Free_Task to ensure that the
971 -- task itself is freed if it is terminated, ditto for a simple protected
972 -- object, with a call to Finalize_Protection. For composite types that
973 -- have tasks or simple protected objects as components, we traverse the
974 -- structures to find and terminate those components.
997 -- This captures whether we know the argument to be non-null so that
998 -- we can avoid the test. The reason that we need to capture this is
999 -- that we analyze some generated statements before properly attaching
1000 -- them to the tree, and that can disturb current value settings.
1003 -- This variable captures an unused dummy internal entity, see the
1004 -- comment associated with its use.
1006 begin
1007 -- Nothing to do if we know the argument is null
1013 -- Processing for pointer to controlled type
1016 Deref :=
1020 -- If the type is tagged, then we must force dispatching on the
1021 -- finalization call because the designated type may not be the
1022 -- actual type of the object.
1026 then
1031 -- Set type of result, to force a conversion when needed (see
1032 -- exp_ch7, Convert_View), given that Deep_Finalize may be
1033 -- inherited from the parent type, and we need the type of the
1034 -- expression to see whether the conversion is in fact needed.
1039 -- The finalization call is expanded wrapped in a block to catch any
1040 -- possible exception. If an exception does occur, then Program_Error
1041 -- must be raised following the freeing of the object and its removal
1042 -- from the finalization collection's list. We set a flag to record
1043 -- that an exception was raised, and save its occurrence for use in
1044 -- the later raise.
1045 --
1046 -- Generate:
1047 -- Abort : constant Boolean :=
1048 -- Exception_Occurrence (Get_Current_Excep.all.all) =
1049 -- Standard'Abort_Signal'Identity;
1050 -- <or>
1051 -- Abort : constant Boolean := False; -- no abort
1053 -- E : Exception_Occurrence;
1054 -- Raised : Boolean := False;
1055 --
1056 -- begin
1057 -- [Deep_]Finalize (Obj);
1058 -- exception
1059 -- when others =>
1060 -- Raised := True;
1061 -- Save_Occurrence (E, Get_Current_Excep.all.all);
1062 -- end;
1068 Handled_Statement_Sequence =>
1075 -- For .NET/JVM, detach the object from the containing finalization
1076 -- collection before finalizing it.
1083 -- If aborts are allowed, then the finalization code must be
1084 -- protected by an abort defer/undefer pair.
1089 declare
1092 begin
1093 Blk :=
1095 Handled_Statement_Sequence =>
1100 -- Present the Abort_Undefer_Direct function to the backend so
1101 -- that it can inline the call to the function.
1110 else
1111 -- Generate a dummy entity to ensure that the internal symbols are
1112 -- in sync when a unit is compiled with and without aborts.
1119 -- For a task type, call Free_Task before freeing the ATCB
1123 -- We used to detect the case of Abort followed by a Free here,
1124 -- because the Free wouldn't actually free if it happens before
1125 -- the aborted task actually terminates. The warning was removed,
1126 -- because Free now works properly (the task will be freed once
1127 -- it terminates).
1129 Append_To
1132 -- For composite types that contain tasks, recurse over the structure
1133 -- to build the selectors for the task subcomponents.
1144 -- Same for simple protected types. Eventually call Finalize_Protection
1145 -- before freeing the PO for each protected component.
1159 -- Normal processing for non-controlled types. The argument to free is
1160 -- a renaming rather than a constant to ensure that the original context
1161 -- is always set to null after the deallocation takes place.
1168 -- Attach to tree before analysis of generated subtypes below
1172 -- Deal with storage pool
1176 -- Freeing the secondary stack is meaningless
1181 -- If the pool object is of a simple storage pool type, then attempt
1182 -- to locate the type's Deallocate procedure, if any, and set the
1183 -- free operation's procedure to call. If the type doesn't have a
1184 -- Deallocate (which is allowed), then the actual will simply be set
1185 -- to null.
1189 then
1190 declare
1193 begin
1199 then
1202 else
1208 -- Case of a class-wide pool type: make a dispatching call to
1209 -- Deallocate through the class-wide Deallocate_Any.
1214 -- Case of a specific pool type: make a statically bound call
1216 else
1224 -- For all cases of a Deallocate call, the back-end needs to be able
1225 -- to compute the size of the object being freed. This may require
1226 -- some adjustments for objects of dynamic size.
1227 --
1228 -- If the type is class wide, we generate an implicit type with the
1229 -- right dynamic size, so that the deallocate call gets the right
1230 -- size parameter computed by GIGI. Same for an access to
1231 -- unconstrained packed array.
1234 or else
1238 then
1239 declare
1246 begin
1247 -- Perform minor decoration as it is needed by the side effect
1248 -- removal mechanism.
1257 else
1265 -- Force freezing at the point of the dereference. For the
1266 -- class wide case, this avoids having the subtype frozen
1267 -- before the equivalent type.
1277 -- Ada 2005 (AI-251): In case of abstract interface type we must
1278 -- displace the pointer to reference the base of the object to
1279 -- deallocate its memory, unless we're targetting a VM, in which case
1280 -- no special processing is required.
1282 -- Generate:
1283 -- free (Base_Address (Obj_Ptr))
1286 and then Tagged_Type_Expansion
1287 then
1295 -- Generate:
1296 -- free (Obj_Ptr)
1298 else
1302 -- Only remaining step is to set result to null, or generate a raise of
1303 -- Constraint_Error if the target object is "not null".
1310 else
1311 declare
1313 begin
1322 -- Generate a test of whether any earlier finalization raised an
1323 -- exception, and in that case raise Program_Error with the previous
1324 -- exception occurrence.
1326 -- Generate:
1327 -- if Raised and then not Abort then
1328 -- raise Program_Error; -- for .NET and
1329 -- -- restricted RTS
1330 -- <or>
1331 -- Raise_From_Controlled_Operation (E); -- all other cases
1332 -- end if;
1338 -- If we know the argument is non-null, then make a block statement
1339 -- that contains the required statements, no need for a test.
1342 Gen_Code :=
1344 Handled_Statement_Sequence =>
1348 -- If the argument may be null, wrap the statements inside an IF that
1349 -- does an explicit test to exclude the null case.
1351 else
1352 Gen_Code :=
1354 Condition =>
1361 -- Rewrite the call
1366 -- If we generated a block with an At_End_Proc, expand the exception
1367 -- handler. We need to wait until after everything else is analyzed.
1370 Expand_At_End_Handler
1375 -----------------------
1376 -- Expand_To_Address --
1377 -----------------------
1384 begin
1403 -----------------------
1404 -- Expand_To_Pointer --
1405 -----------------------
1410 begin
1415 -----------------------
1416 -- Write_Entity_Name --
1417 -----------------------
1422 -- Inner recursive routine, keep outer routine non-recursive to ease
1423 -- debugging when we get strange results from this routine.
1425 -----------------------------
1426 -- Write_Entity_Name_Inner --
1427 -----------------------------
1430 begin
1431 -- If entity has an internal name, skip by it, and print its scope.
1432 -- Note that Is_Internal_Name destroys Name_Buffer, hence the save
1433 -- and restore since we depend on its current contents. Note that
1434 -- we strip a final R from the name before the test, this is needed
1435 -- for some cases of instantiations.
1437 declare
1442 begin
1460 -- Just print entity name if its scope is at the outer level
1465 -- If scope comes from source, write scope and entity
1471 -- If in wrapper package skip past it
1477 -- Otherwise nothing to output (happens in unnamed block statements)
1479 else
1483 -- Output the name
1485 declare
1489 begin
1492 -- Remove trailing upper case letters from the name (useful for
1493 -- dealing with some cases of internal names generated in the case
1494 -- of references from within a generic.
1498 loop
1502 -- Adjust casing appropriately (gets name from source if possible)
1506 -- Append to original entry value of Name_Buffer
1515 -- Start of processing for Write_Entity_Name
1517 begin