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1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT COMPILER COMPONENTS --
4 -- --
5 -- S E M _ C A S E --
6 -- --
7 -- B o d y --
8 -- --
9 -- Copyright (C) 1996-2012, 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 ------------------------------------------------------------------------------
56 -- Represent one choice bounds entry with Lo and Hi values, Node points
57 -- to the choice node itself.
60 -- Table type used to sort the choices present in a case statement, array
61 -- aggregate or record variant. The actual entries are stored in 1 .. Last,
62 -- but we have a 0 entry for convenience in sorting.
64 -----------------------
65 -- Local Subprograms --
66 -----------------------
68 procedure Check_Choices
74 -- This is the procedure which verifies that a set of case alternatives
75 -- or record variant choices has no duplicates, and covers the range
76 -- specified by Bounds_Type. Choice_Table contains the discrete choices
77 -- to check. These must start at position 1.
78 --
79 -- Furthermore Choice_Table (0) must exist. This element is used by
80 -- the sorting algorithm as a temporary. Others_Present is a flag
81 -- indicating whether or not an Others choice is present. Finally
82 -- Msg_Sloc gives the source location of the construct containing the
83 -- choices in the Choice_Table.
84 --
85 -- Bounds_Type is the type whose range must be covered by the alternatives
86 --
87 -- Subtyp is the subtype of the expression. If its bounds are non-static
88 -- the alternatives must cover its base type.
91 -- Given a Pos value of enumeration type Ctype, returns the name
92 -- ID of an appropriate string to be used in error message output.
94 procedure Expand_Others_Choice
98 -- The case table is the table generated by a call to Analyze_Choices
99 -- (with just 1 .. Last_Choice entries present). Others_Choice is a
100 -- pointer to the N_Others_Choice node (this routine is only called if
101 -- an others choice is present), and Choice_Type is the discrete type
102 -- of the bounds. The effect of this call is to analyze the cases and
103 -- determine the set of values covered by others. This choice list is
104 -- set in the Others_Discrete_Choices field of the N_Others_Choice node.
106 -------------------
107 -- Check_Choices --
108 -------------------
110 procedure Check_Choices
116 is
118 -- Called when we find a non-static bound, requiring the base type to
119 -- be covered. Provides where possible a helpful explanation of why the
120 -- bounds are non-static, since this is not always obvious.
123 -- Comparison routine for comparing Choice_Table entries. Use the lower
124 -- bound of each Choice as the key.
127 -- Move routine for sorting the Choice_Table
135 -- Issue an error message indicating that there are missing choices,
136 -- followed by the image of the missing choices themselves which lie
137 -- between Value1 and Value2 inclusive.
139 ---------------
140 -- Issue_Msg --
141 ---------------
144 begin
149 begin
154 begin
161 begin
162 -- AI05-0188 : within an instance the non-others choices do not
163 -- have to belong to the actual subtype.
169 -- In some situations, we call this with a null range, and
170 -- obviously we don't want to complain in this case!
176 -- Case of only one value that is missing
182 else
187 -- More than one choice value, so print range of values
189 else
194 else
202 ---------------
203 -- Lt_Choice --
204 ---------------
207 begin
208 return
210 <
214 -----------------
215 -- Move_Choice --
216 -----------------
219 begin
223 ------------------------------
224 -- Explain_Non_Static_Bound --
225 ------------------------------
230 begin
233 else
239 -- If the case is a variant part, the expression is given by
240 -- the discriminant itself, and the bounds are the culprits.
243 Error_Msg_NE
247 -- If this is a case statement, the expression may be
248 -- non-static or else the subtype may be at fault.
251 Error_Msg_NE
255 else
256 Error_Msg_N
261 -- Otherwise the expression is not static, even if the bounds of the
262 -- type are, or else there are missing alternatives. If both, the
263 -- additional information may be redundant but harmless.
266 Error_Msg_N
272 -- Variables local to Check_Choices
284 -- Start of processing for Check_Choices
286 begin
287 -- Choice_Table must start at 0 which is an unused location used
288 -- by the sorting algorithm. However the first valid position for
289 -- a discrete choice is 1.
310 -- If values are missing outside of the subtype, add explanation.
311 -- No additional message if only one value is missing.
314 Explain_Non_Static_Bound;
325 -- Find first previous choice that overlaps
337 else
355 Explain_Non_Static_Bound;
360 ------------------
361 -- Choice_Image --
362 ------------------
369 begin
370 -- For character, or wide [wide] character. If 7-bit ASCII graphic
371 -- range, then build and return appropriate character literal name
381 -- For user defined enumeration type, find enum/char literal
383 else
390 -- If enumeration literal, just return its value
395 -- For character literal, get the name and use it if it is
396 -- for a 7-bit ASCII graphic character in 16#20#..16#7E#.
398 else
404 then
410 -- If we fall through, we have a character literal which is not in
411 -- the 7-bit ASCII graphic set. For such cases, we construct the
412 -- name "type'val(nnn)" where type is the choice type, and nnn is
413 -- the pos value passed as an argument to Choice_Image.
424 --------------------------
425 -- Expand_Others_Choice --
426 --------------------------
428 procedure Expand_Others_Choice
432 is
443 -- Builds a node representing the missing choices given by the
444 -- Value1 and Value2. A N_Range node is built if there is more than
445 -- one literal value missing. Otherwise a single N_Integer_Literal,
446 -- N_Identifier or N_Character_Literal is built depending on what
447 -- Choice_Type is.
450 -- Returns the Node_Id for the enumeration literal corresponding to the
451 -- position given by Value within the enumeration type Choice_Type.
453 ------------------
454 -- Build_Choice --
455 ------------------
461 begin
462 -- If there is only one choice value missing between Value1 and
463 -- Value2, build an integer or enumeration literal to represent it.
469 else
473 -- Otherwise is more that one choice value that is missing between
474 -- Value1 and Value2, therefore build a N_Range node of either
475 -- integer or enumeration literals.
477 else
483 Lit_Node :=
488 else
489 Lit_Node :=
499 ------------
500 -- Lit_Of --
501 ------------
506 begin
507 -- In the case where the literal is of type Character, there needs
508 -- to be some special handling since there is no explicit chain
509 -- of literals to search. Instead, a N_Character_Literal node
510 -- is created with the appropriate Char_Code and Chars fields.
521 -- Otherwise, iterate through the literals list of Choice_Type
522 -- "Value" number of times until the desired literal is reached
523 -- and then return an occurrence of it.
525 else
535 -- Start of processing for Expand_Others_Choice
537 begin
540 -- Special case: only an others case is present. The others case
541 -- covers the full range of the type.
545 else
553 -- Establish the bound values for the choice depending upon whether the
554 -- type of the case statement is static or not.
559 else
568 -- Build the node for any missing choices that are smaller than any
569 -- explicit choices given in the case.
575 -- Build the nodes representing any missing choices that lie between
576 -- the explicit ones given in the case.
589 -- Build the node for any missing choices that are greater than any
590 -- explicit choices given in the case.
598 -- Warn on null others list if warning option set
600 if Warn_On_Redundant_Constructs
603 then
609 -----------
610 -- No_OP --
611 -----------
615 begin
619 --------------------------------
620 -- Generic_Choices_Processing --
621 --------------------------------
625 -- The following type is used to gather the entries for the choice
626 -- table, so that we can then allocate the right length.
638 ---------------------
639 -- Analyze_Choices --
640 ---------------------
642 procedure Analyze_Choices
647 is
651 -- This is where we post error messages for bounds out of range
654 -- Gather list of choices
657 -- Number of entries in Choice_List
660 -- The actual type against which the discrete choices are resolved.
661 -- Note that this type is always the base type not the subtype of the
662 -- ruling expression, index or discriminant.
665 -- The type from which are derived the bounds of the values covered
666 -- by the discrete choices (see 3.8.1 (4)). If a discrete choice
667 -- specifies a value outside of these bounds we have an error.
671 -- The actual bounds of the above type
674 -- The expected type of each choice. Equal to Choice_Type, except if
675 -- the expression is universal, in which case the choices can be of
676 -- any integer type.
679 -- A case statement alternative or a variant in a record type
680 -- declaration.
684 -- The node kind of the current Choice
687 -- Set to True to delete the current choice
690 -- Remember others choice if it is present (empty otherwise)
693 -- Checks the validity of the bounds of a choice. When the bounds
694 -- are static and no error occurred the bounds are collected for
695 -- later entry into the choices table so that they can be sorted
696 -- later on.
698 -----------
699 -- Check --
700 -----------
706 begin
707 -- First check if an error was already detected on either bounds
712 -- Do not insert non static choices in the table to be sorted
715 or else
717 then
721 -- Ignore range which raise constraint error
725 then
729 -- AI05-0188 : Within an instance the non-others choices do not
730 -- have to belong to the actual subtype.
735 -- Otherwise we have an OK static choice
737 else
741 -- Do not insert null ranges in the choices table
749 -- Check for low bound out of range
753 -- If the choice is an entity name, then it is a type, and we
754 -- want to post the message on the reference to this entity.
755 -- Otherwise post it on the lower bound of the range.
759 else
763 -- Specialize message for integer/enum type
768 else
774 -- Check for high bound out of range
778 -- If the choice is an entity name, then it is a type, and we
779 -- want to post the message on the reference to this entity.
780 -- Otherwise post it on the upper bound of the range.
784 else
788 -- Specialize message for integer/enum type
793 else
799 -- Collect bounds in the list
801 -- Note: we still store the bounds, even if they are out of range,
802 -- since this may prevent unnecessary cascaded errors for values
803 -- that are covered by such an excessive range.
805 Choice_List :=
807 Num_Choices := Num_Choices + 1;
808 end Check;
810 -- Start of processing for Analyze_Choices
812 begin
813 Raises_CE := False;
814 Others_Present := False;
816 -- If Subtyp is not a static subtype Ada 95 requires then we use the
817 -- bounds of its base type to determine the values covered by the
818 -- discrete choices.
820 -- In Ada 2012, if the subtype has a non-static predicate the full
821 -- range of the base type must be covered as well.
823 if Is_OK_Static_Subtype (Subtyp) then
824 if not Has_Predicates (Subtyp)
825 or else Present (Static_Predicate (Subtyp))
826 then
827 Bounds_Type := Subtyp;
828 else
829 Bounds_Type := Choice_Type;
830 end if;
832 else
833 Bounds_Type := Choice_Type;
834 end if;
836 -- Obtain static bounds of type, unless this is a generic formal
837 -- discrete type for which all choices will be non-static.
839 if not Is_Generic_Type (Root_Type (Bounds_Type))
840 or else Ekind (Bounds_Type) /= E_Enumeration_Type
841 then
842 Bounds_Lo := Expr_Value (Type_Low_Bound (Bounds_Type));
843 Bounds_Hi := Expr_Value (Type_High_Bound (Bounds_Type));
844 end if;
846 if Choice_Type = Universal_Integer then
847 Expected_Type := Any_Integer;
848 else
849 Expected_Type := Choice_Type;
850 end if;
852 -- Now loop through the case alternatives or record variants
854 Alt := First (Get_Alternatives (N));
855 while Present (Alt) loop
857 -- If pragma, just analyze it
859 if Nkind (Alt) = N_Pragma then
860 Analyze (Alt);
862 -- Otherwise check each choice against its base type
864 else
865 Choice := First (Get_Choices (Alt));
866 while Present (Choice) loop
867 Delete_Choice := False;
868 Analyze (Choice);
869 Kind := Nkind (Choice);
871 -- Choice is a Range
873 if Kind = N_Range
874 or else (Kind = N_Attribute_Reference
875 and then Attribute_Name (Choice) = Name_Range)
876 then
877 Resolve (Choice, Expected_Type);
878 Check (Choice, Low_Bound (Choice), High_Bound (Choice));
880 -- Choice is a subtype name
882 elsif Is_Entity_Name (Choice)
883 and then Is_Type (Entity (Choice))
884 then
885 if not Covers (Expected_Type, Etype (Choice)) then
886 Wrong_Type (Choice, Choice_Type);
888 else
889 E := Entity (Choice);
891 -- Case of predicated subtype
893 if Has_Predicates (E) then
895 -- Use of non-static predicate is an error
897 if not Is_Discrete_Type (E)
898 or else No (Static_Predicate (E))
899 then
900 Bad_Predicated_Subtype_Use
901 ("cannot use subtype& with non-static "
902 & "predicate as case alternative", Choice, E);
904 -- Static predicate case
906 else
907 declare
908 Copy : constant List_Id := Empty_List;
909 P : Node_Id;
910 C : Node_Id;
912 begin
913 -- Loop through entries in predicate list,
914 -- converting to choices. Note that if the
915 -- list is empty, corresponding to a False
916 -- predicate, then no choices are inserted.
918 P := First (Static_Predicate (E));
919 while Present (P) loop
920 C := New_Copy (P);
921 Set_Sloc (C, Sloc (Choice));
922 Append_To (Copy, C);
923 Next (P);
924 end loop;
926 Insert_List_After (Choice, Copy);
927 Delete_Choice := True;
928 end;
929 end if;
931 -- Not predicated subtype case
933 elsif not Is_Static_Subtype (E) then
934 Process_Non_Static_Choice (Choice);
935 else
936 Check
937 (Choice, Type_Low_Bound (E), Type_High_Bound (E));
938 end if;
939 end if;
941 -- Choice is a subtype indication
943 elsif Kind = N_Subtype_Indication then
944 Resolve_Discrete_Subtype_Indication
945 (Choice, Expected_Type);
947 -- Here for other than predicated subtype case
949 if Etype (Choice) /= Any_Type then
950 declare
951 C : constant Node_Id := Constraint (Choice);
952 R : constant Node_Id := Range_Expression (C);
953 L : constant Node_Id := Low_Bound (R);
954 H : constant Node_Id := High_Bound (R);
956 begin
957 E := Entity (Subtype_Mark (Choice));
959 if not Is_Static_Subtype (E) then
960 Process_Non_Static_Choice (Choice);
962 else
963 if Is_OK_Static_Expression (L)
964 and then Is_OK_Static_Expression (H)
965 then
966 if Expr_Value (L) > Expr_Value (H) then
967 Process_Empty_Choice (Choice);
968 else
969 if Is_Out_Of_Range (L, E) then
970 Apply_Compile_Time_Constraint_Error
971 (L, "static value out of range",
972 CE_Range_Check_Failed);
973 end if;
975 if Is_Out_Of_Range (H, E) then
976 Apply_Compile_Time_Constraint_Error
977 (H, "static value out of range",
978 CE_Range_Check_Failed);
979 end if;
980 end if;
981 end if;
983 Check (Choice, L, H);
984 end if;
985 end;
986 end if;
988 -- The others choice is only allowed for the last
989 -- alternative and as its only choice.
991 elsif Kind = N_Others_Choice then
992 if not (Choice = First (Get_Choices (Alt))
993 and then Choice = Last (Get_Choices (Alt))
994 and then Alt = Last (Get_Alternatives (N)))
995 then
996 Error_Msg_N
997 ("the choice OTHERS must appear alone and last",
998 Choice);
999 return;
1000 end if;
1002 Others_Present := True;
1003 Others_Choice := Choice;
1005 -- Only other possibility is an expression
1007 else
1008 Resolve (Choice, Expected_Type);
1009 Check (Choice, Choice, Choice);
1010 end if;
1012 -- Move to next choice, deleting the current one if the
1013 -- flag requesting this deletion is set True.
1015 declare
1016 C : constant Node_Id := Choice;
1017 begin
1018 Next (Choice);
1020 if Delete_Choice then
1021 Remove (C);
1022 end if;
1023 end;
1024 end loop;
1026 Process_Associated_Node (Alt);
1027 end if;
1029 Next (Alt);
1030 end loop;
1032 -- Now we can create the Choice_Table, since we know how long
1033 -- it needs to be so we can allocate exactly the right length.
1035 declare
1036 Choice_Table : Choice_Table_Type (0 .. Num_Choices);
1038 begin
1039 -- Now copy the items we collected in the linked list into this
1040 -- newly allocated table (leave entry 0 unused for sorting).
1042 declare
1043 T : Link_Ptr;
1044 begin
1045 for J in 1 .. Num_Choices loop
1046 T := Choice_List;
1047 Choice_List := T.Nxt;
1048 Choice_Table (J) := T.Val;
1049 Free (T);
1050 end loop;
1051 end;
1053 Check_Choices
1054 (Choice_Table,
1055 Bounds_Type,
1056 Subtyp,
1057 Others_Present or else (Choice_Type = Universal_Integer),
1058 N);
1060 -- If no others choice we are all done, otherwise we have one more
1061 -- step, which is to set the Others_Discrete_Choices field of the
1062 -- others choice (to contain all otherwise unspecified choices).
1063 -- Skip this if CE is known to be raised.
1065 if Others_Present and not Raises_CE then
1066 Expand_Others_Choice
1067 (Case_Table => Choice_Table,
1068 Others_Choice => Others_Choice,
1069 Choice_Type => Bounds_Type);
1070 end if;
1071 end;
1072 end Analyze_Choices;
1074 end Generic_Choices_Processing;
1076 end Sem_Case;