diff --git a/gcc/ada/sem_ch5.adb b/gcc/ada/sem_ch5.adb index 5df476b5a68..abc3d8231b1 100644 --- a/gcc/ada/sem_ch5.adb +++ b/gcc/ada/sem_ch5.adb @@ -250,7 +250,8 @@ package body Sem_Ch5 is -- Start of processing for Analyze_Assignment begin - Mark_Static_Coextensions (Rhs); + Mark_Coextensions (N, Rhs); + Analyze (Rhs); Analyze (Lhs); @@ -579,10 +580,10 @@ package body Sem_Ch5 is and then Can_Never_Be_Null (T1) and then not Assignment_OK (Lhs) then - if Nkind (Rhs) = N_Null then + if Known_Null (Rhs) then Apply_Compile_Time_Constraint_Error (N => Rhs, - Msg => "(Ada 2005) NULL not allowed in null-excluding objects?", + Msg => "(Ada 2005) null not allowed in null-excluding objects?", Reason => CE_Null_Not_Allowed); return; @@ -640,11 +641,9 @@ package body Sem_Ch5 is and then Comes_From_Source (N) - -- Where the entity is the same on both sides + -- Where the object is the same on both sides - and then Is_Entity_Name (Lhs) - and then Is_Entity_Name (Original_Node (Rhs)) - and then Entity (Lhs) = Entity (Original_Node (Rhs)) + and then Same_Object (Lhs, Original_Node (Rhs)) -- But exclude the case where the right side was an operation -- that got rewritten (e.g. JUNK + K, where K was known to be @@ -654,8 +653,13 @@ package body Sem_Ch5 is and then Nkind (Original_Node (Rhs)) not in N_Op then - Error_Msg_NE - ("?useless assignment of & to itself", N, Entity (Lhs)); + if Nkind (Lhs) in N_Has_Entity then + Error_Msg_NE + ("?useless assignment of & to itself!", N, Entity (Lhs)); + else + Error_Msg_N + ("?useless assignment of object to itself!", N); + end if; end if; -- Check for non-allowed composite assignment @@ -1071,7 +1075,6 @@ package body Sem_Ch5 is begin Alt := First (Alternatives (N)); - while Present (Alt) loop if Alt /= Chosen then Remove_Warning_Messages (Statements (Alt)); @@ -1341,7 +1344,6 @@ package body Sem_Ch5 is if Present (Elsif_Parts (N)) then E := First (Elsif_Parts (N)); - while Present (E) loop Remove_Warning_Messages (Then_Statements (E)); Next (E); @@ -2035,7 +2037,7 @@ package body Sem_Ch5 is -- the Ada RM annoyingly requires a useless return here! if Nkind (Original_Node (N)) /= N_Raise_Statement - or else Nkind (Nxt) /= N_Return_Statement + or else Nkind (Nxt) /= N_Simple_Return_Statement then -- The rather strange shenanigans with the warning message -- here reflects the fact that Kill_Dead_Code is very good @@ -2077,7 +2079,7 @@ package body Sem_Ch5 is -- Now issue the warning - Error_Msg ("?unreachable code", Error_Loc); + Error_Msg ("?unreachable code!", Error_Loc); end if; -- If the unconditional transfer of control instruction is diff --git a/gcc/ada/sem_util.adb b/gcc/ada/sem_util.adb index 2e618024bd8..04fe93c4ae1 100644 --- a/gcc/ada/sem_util.adb +++ b/gcc/ada/sem_util.adb @@ -37,7 +37,6 @@ with Freeze; use Freeze; with Lib; use Lib; with Lib.Xref; use Lib.Xref; with Nlists; use Nlists; -with Nmake; use Nmake; with Output; use Output; with Opt; use Opt; with Rtsfind; use Rtsfind; @@ -63,6 +62,8 @@ with Uname; use Uname; package body Sem_Util is + use Nmake; + ----------------------- -- Local Subprograms -- ----------------------- @@ -94,7 +95,13 @@ package body Sem_Util is begin if Is_Concurrent_Type (Typ) then - Nod := Parent (Typ); + + -- If we are dealing with a synchronized subtype, go to the base + -- type, whose declaration has the interface list. + + -- Shouldn't this be Declaration_Node??? + + Nod := Parent (Base_Type (Typ)); elsif Ekind (Typ) = E_Record_Type_With_Private then if Nkind (Parent (Typ)) = N_Full_Type_Declaration then @@ -245,7 +252,9 @@ package body Sem_Util is (T : Entity_Id; N : Node_Or_Entity_Id) return Node_Id is - Loc : constant Source_Ptr := Sloc (N); + Loc : Source_Ptr; + -- Normally Sloc (N), but may point to corresponding body in some cases + Constraints : List_Id; Decl : Node_Id; Discr : Entity_Id; @@ -256,8 +265,28 @@ package body Sem_Util is Obj : Node_Id; begin + Loc := Sloc (N); + if Nkind (N) = N_Defining_Identifier then Obj := New_Reference_To (N, Loc); + + -- If this is a formal parameter of a subprogram declaration, and + -- we are compiling the body, we want the declaration for the + -- actual subtype to carry the source position of the body, to + -- prevent anomalies in gdb when stepping through the code. + + if Is_Formal (N) then + declare + Decl : constant Node_Id := Unit_Declaration_Node (Scope (N)); + begin + if Nkind (Decl) = N_Subprogram_Declaration + and then Present (Corresponding_Body (Decl)) + then + Loc := Sloc (Corresponding_Body (Decl)); + end if; + end; + end if; + else Obj := N; end if; @@ -1082,7 +1111,8 @@ package body Sem_Util is procedure Collect_Abstract_Interfaces (T : Entity_Id; Ifaces_List : out Elist_Id; - Exclude_Parent_Interfaces : Boolean := False) + Exclude_Parent_Interfaces : Boolean := False; + Use_Full_View : Boolean := True) is procedure Add_Interface (Iface : Entity_Id); -- Add the interface it if is not already in the list @@ -1121,20 +1151,34 @@ package body Sem_Util is ------------- procedure Collect (Typ : Entity_Id) is - Iface_List : constant List_Id := Abstract_Interface_List (Typ); Ancestor : Entity_Id; + Full_T : Entity_Id; + Iface_List : List_Id; Id : Node_Id; Iface : Entity_Id; begin + Full_T := Typ; + + -- Handle private types + + if Use_Full_View + and then Is_Private_Type (Typ) + and then Present (Full_View (Typ)) + then + Full_T := Full_View (Typ); + end if; + + Iface_List := Abstract_Interface_List (Full_T); + -- Include the ancestor if we are generating the whole list of -- abstract interfaces. -- In concurrent types the ancestor interface (if any) is the -- first element of the list of interface types. - if Is_Concurrent_Type (Typ) - or else Is_Concurrent_Record_Type (Typ) + if Is_Concurrent_Type (Full_T) + or else Is_Concurrent_Record_Type (Full_T) then if Is_Non_Empty_List (Iface_List) then Ancestor := Etype (First (Iface_List)); @@ -1145,7 +1189,7 @@ package body Sem_Util is end if; end if; - elsif Etype (Typ) /= Typ + elsif Etype (Full_T) /= Typ -- Protect the frontend against wrong sources. For example: @@ -1158,9 +1202,9 @@ package body Sem_Util is -- type C is new B with null record; -- end P; - and then Etype (Typ) /= T + and then Etype (Full_T) /= T then - Ancestor := Etype (Typ); + Ancestor := Etype (Full_T); Collect (Ancestor); if Is_Interface (Ancestor) @@ -1179,8 +1223,8 @@ package body Sem_Util is -- first element of the list of interface types and we have -- already processed them while climbing to the root type. - if Is_Concurrent_Type (Typ) - or else Is_Concurrent_Record_Type (Typ) + if Is_Concurrent_Type (Full_T) + or else Is_Concurrent_Record_Type (Full_T) then Next (Id); end if; @@ -1303,6 +1347,94 @@ package body Sem_Util is Collect (Tagged_Type); end Collect_Interface_Components; + ----------------------------- + -- Collect_Interfaces_Info -- + ----------------------------- + + procedure Collect_Interfaces_Info + (T : Entity_Id; + Ifaces_List : out Elist_Id; + Components_List : out Elist_Id; + Tags_List : out Elist_Id) + is + Comps_List : Elist_Id; + Comp_Elmt : Elmt_Id; + Comp_Iface : Entity_Id; + Iface_Elmt : Elmt_Id; + Iface : Entity_Id; + + function Search_Tag (Iface : Entity_Id) return Entity_Id; + -- Search for the secondary tag associated with the interface type + -- Iface that is implemented by T. + + ---------------- + -- Search_Tag -- + ---------------- + + function Search_Tag (Iface : Entity_Id) return Entity_Id is + ADT : Elmt_Id; + + begin + ADT := Next_Elmt (First_Elmt (Access_Disp_Table (T))); + while Present (ADT) + and then Ekind (Node (ADT)) = E_Constant + and then Related_Interface (Node (ADT)) /= Iface + loop + Next_Elmt (ADT); + end loop; + + pragma Assert (Ekind (Node (ADT)) = E_Constant); + return Node (ADT); + end Search_Tag; + + -- Start of processing for Collect_Interfaces_Info + + begin + Collect_Abstract_Interfaces (T, Ifaces_List); + Collect_Interface_Components (T, Comps_List); + + -- Search for the record component and tag associated with each + -- interface type of T. + + Components_List := New_Elmt_List; + Tags_List := New_Elmt_List; + + Iface_Elmt := First_Elmt (Ifaces_List); + while Present (Iface_Elmt) loop + Iface := Node (Iface_Elmt); + + -- Associate the primary tag component and the primary dispatch table + -- with all the interfaces that are parents of T + + if Is_Parent (Iface, T) then + Append_Elmt (First_Tag_Component (T), Components_List); + Append_Elmt (Node (First_Elmt (Access_Disp_Table (T))), Tags_List); + + -- Otherwise search for the tag component and secondary dispatch + -- table of Iface + + else + Comp_Elmt := First_Elmt (Comps_List); + while Present (Comp_Elmt) loop + Comp_Iface := Related_Interface (Node (Comp_Elmt)); + + if Comp_Iface = Iface + or else Is_Parent (Iface, Comp_Iface) + then + Append_Elmt (Node (Comp_Elmt), Components_List); + Append_Elmt (Search_Tag (Comp_Iface), Tags_List); + exit; + end if; + + Next_Elmt (Comp_Elmt); + end loop; + pragma Assert (Present (Comp_Elmt)); + end if; + + Next_Elmt (Iface_Elmt); + end loop; + end Collect_Interfaces_Info; + ---------------------------------- -- Collect_Primitive_Operations -- ---------------------------------- @@ -1449,6 +1581,8 @@ package body Sem_Util is Warn : Boolean := False) return Node_Id is Msgc : String (1 .. Msg'Length + 2); + -- Copy of message, with room for possible ? and ! at end + Msgl : Natural; Wmsg : Boolean; P : Node_Id; @@ -1471,11 +1605,8 @@ package body Sem_Util is Eloc := Sloc (N); end if; - -- Make all such messages unconditional - Msgc (1 .. Msg'Length) := Msg; - Msgc (Msg'Length + 1) := '!'; - Msgl := Msg'Length + 1; + Msgl := Msg'Length; -- Message is a warning, even in Ada 95 case @@ -1499,9 +1630,15 @@ package body Sem_Util is Wmsg := True; -- Otherwise we have a real error message (Ada 95 static case) + -- and we make this an unconditional message. Note that in the + -- warning case we do not make the message unconditional, it seems + -- quite reasonable to delete messages like this (about exceptions + -- that will be raised) in dead code. else Wmsg := False; + Msgl := Msgl + 1; + Msgc (Msgl) := '!'; end if; -- Should we generate a warning? The answer is not quite yes. The @@ -2549,7 +2686,7 @@ package body Sem_Util is (Def_Id : Entity_Id; First_Hom : Entity_Id; Ifaces_List : Elist_Id; - In_Scope : Boolean := True) return Entity_Id + In_Scope : Boolean) return Entity_Id is Candidate : Entity_Id := Empty; Hom : Entity_Id := Empty; @@ -2823,7 +2960,7 @@ package body Sem_Util is -- After examining all candidates for overriding, we are left with -- the best match which is a mode incompatible interface routine. - -- Do not emit an error of the Expander is active since this error + -- Do not emit an error if the Expander is active since this error -- will be detected later on after all concurrent types are expanded -- and all wrappers are built. This check is meant for spec-only -- compilations. @@ -2833,23 +2970,26 @@ package body Sem_Util is then Iface_Typ := Find_Parameter_Type (Parent (First_Formal (Candidate))); - -- Def_Id is primitive of a protected type, the candidate is - -- primitive of a limited or synchronized interface. + -- Def_Id is primitive of a protected type, declared inside the type, + -- and the candidate is primitive of a limited or synchronized + -- interface. - if Is_Protected_Type (Tag_Typ) + if In_Scope + and then Is_Protected_Type (Tag_Typ) and then (Is_Limited_Interface (Iface_Typ) or else Is_Protected_Interface (Iface_Typ) or else Is_Synchronized_Interface (Iface_Typ) or else Is_Task_Interface (Iface_Typ)) then + -- Must reword this message, comma before to in -gnatj mode ??? + Error_Msg_NE ("first formal of & must be of mode `OUT`, `IN OUT` or " & "access-to-variable", Tag_Typ, Candidate); - Error_Msg_N ("\to be overridden by protected procedure or entry " & - "(`R`M 9.4(11))", Tag_Typ); + "(RM 9.4(11.9/2))", Tag_Typ); end if; end if; @@ -3630,7 +3770,10 @@ package body Sem_Util is -- Has_Abstract_Interfaces -- ----------------------------- - function Has_Abstract_Interfaces (Tagged_Type : Entity_Id) return Boolean is + function Has_Abstract_Interfaces + (Tagged_Type : Entity_Id; + Use_Full_View : Boolean := True) return Boolean + is Typ : Entity_Id; begin @@ -3645,19 +3788,22 @@ package body Sem_Util is return True; end if; + Typ := Tagged_Type; + -- Handle private types - if Present (Full_View (Tagged_Type)) then + if Use_Full_View + and then Present (Full_View (Tagged_Type)) + then Typ := Full_View (Tagged_Type); - else - Typ := Tagged_Type; end if; loop if Is_Interface (Typ) - or else (Present (Abstract_Interfaces (Typ)) - and then - not Is_Empty_Elmt_List (Abstract_Interfaces (Typ))) + or else + (Is_Record_Type (Typ) + and then Present (Abstract_Interfaces (Typ)) + and then not Is_Empty_Elmt_List (Abstract_Interfaces (Typ))) then return True; end if; @@ -4276,7 +4422,7 @@ package body Sem_Util is -- Or if expression obeys rules for preelaboration. For -- now we approximate this by testing if the default -- expression is a static expression or if it is an - -- access attribute reference. + -- access attribute reference, or the literal null. -- This is an approximation, it is probably incomplete??? @@ -4292,6 +4438,9 @@ package body Sem_Util is then null; + elsif Nkind (Exp) = N_Null then + null; + else Has_PE := False; exit; @@ -5020,7 +5169,7 @@ package body Sem_Util is -- Anonymous access discriminants carry a list of all nested -- controlled coextensions. - and then not Is_Coextension (N) + and then not Is_Dynamic_Coextension (N) and then not Is_Static_Coextension (N); end Is_Coextension_Root; @@ -5361,7 +5510,7 @@ package body Sem_Util is Indx_Typ := Full_View (Indx_Typ); end if; - if No (Indx_Typ) then + if No (Indx_Typ) or else Etype (Indx_Typ) = Any_Type then return False; else Lbd := Type_Low_Bound (Indx_Typ); @@ -5449,6 +5598,14 @@ package body Sem_Util is and then (No (Parent (Ent)) or else No (Expression (Parent (Ent)))) and then not Is_Fully_Initialized_Type (Etype (Ent)) + + -- Special VM case for uTag component, which needs to be + -- defined in this case, but is never initialized as VMs + -- are using other dispatching mechanisms. Ignore this + -- uninitialized case. + + and then (VM_Target = No_VM + or else Chars (Ent) /= Name_uTag) then return False; end if; @@ -5593,10 +5750,10 @@ package body Sem_Util is function Is_Library_Level_Entity (E : Entity_Id) return Boolean is begin - -- The following is a small optimization, and it also handles - -- properly discriminals, which in task bodies might appear in - -- expressions before the corresponding procedure has been - -- created, and which therefore do not have an assigned scope. + -- The following is a small optimization, and it also properly handles + -- discriminals, which in task bodies might appear in expressions before + -- the corresponding procedure has been created, and which therefore do + -- not have an assigned scope. if Ekind (E) in Formal_Kind then return False; @@ -5640,7 +5797,7 @@ package body Sem_Util is function Is_Object_Reference (N : Node_Id) return Boolean is begin if Is_Entity_Name (N) then - return Is_Object (Entity (N)); + return Present (Entity (N)) and then Is_Object (Entity (N)); else case Nkind (N) is @@ -6233,6 +6390,31 @@ package body Sem_Util is or else Nkind (N) = N_Procedure_Call_Statement; end Is_Statement; + --------------------------------- + -- Is_Synchronized_Tagged_Type -- + --------------------------------- + + function Is_Synchronized_Tagged_Type (E : Entity_Id) return Boolean is + Kind : constant Entity_Kind := Ekind (Base_Type (E)); + + begin + -- A task or protected type derived from an interface is a tagged type. + -- Such a tagged type is called a synchronized tagged type, as are + -- synchronized interfaces and private extensions whose declaration + -- includes the reserved word synchronized. + + return (Is_Tagged_Type (E) + and then (Kind = E_Task_Type + or else Kind = E_Protected_Type)) + or else + (Is_Interface (E) + and then Is_Synchronized_Interface (E)) + or else + (Ekind (E) = E_Record_Type_With_Private + and then (Synchronized_Present (Parent (E)) + or else Is_Synchronized_Interface (Etype (E)))); + end Is_Synchronized_Tagged_Type; + ----------------- -- Is_Transfer -- ----------------- @@ -6241,7 +6423,7 @@ package body Sem_Util is Kind : constant Node_Kind := Nkind (N); begin - if Kind = N_Return_Statement + if Kind = N_Simple_Return_Statement or else Kind = N_Extended_Return_Statement or else @@ -6384,12 +6566,19 @@ package body Sem_Util is -- variable, even though the original node may not be (since it could -- be a constant of the access type). + -- In Ada 2005 we have a further case to consider: the prefix may be + -- a function call given in prefix notation. The original node appears + -- to be a selected component, but we need to examine the call. + elsif Nkind (N) = N_Explicit_Dereference and then Nkind (Orig_Node) /= N_Explicit_Dereference and then Present (Etype (Orig_Node)) and then Is_Access_Type (Etype (Orig_Node)) then - return Is_Variable_Prefix (Original_Node (Prefix (N))); + return Is_Variable_Prefix (Original_Node (Prefix (N))) + or else + (Nkind (Orig_Node) = N_Function_Call + and then not Is_Access_Constant (Etype (Prefix (N)))); -- A function call is never a variable @@ -6398,7 +6587,9 @@ package body Sem_Util is -- All remaining checks use the original node - elsif Is_Entity_Name (Orig_Node) then + elsif Is_Entity_Name (Orig_Node) + and then Present (Entity (Orig_Node)) + then declare E : constant Entity_Id := Entity (Orig_Node); K : constant Entity_Kind := Ekind (E); @@ -6782,7 +6973,7 @@ package body Sem_Util is when N_Attribute_Reference => return N = Prefix (P) - and then Name_Modifies_Prefix (Attribute_Name (P)); + and then Name_Implies_Lvalue_Prefix (Attribute_Name (P)); when N_Expanded_Name | N_Explicit_Dereference | @@ -6897,13 +7088,15 @@ package body Sem_Util is end case; end May_Be_Lvalue; - ------------------------------ - -- Mark_Static_Coextensions -- - ------------------------------ + ----------------------- + -- Mark_Coextensions -- + ----------------------- + + procedure Mark_Coextensions (Context_Nod : Node_Id; Root_Nod : Node_Id) is + Is_Dynamic : Boolean := False; - procedure Mark_Static_Coextensions (Root_Node : Node_Id) is function Mark_Allocator (N : Node_Id) return Traverse_Result; - -- Recognize an allocator node and label it as a static coextension + -- Recognize an allocator node and label it as a dynamic coextension -------------------- -- Mark_Allocator -- @@ -6912,7 +7105,11 @@ package body Sem_Util is function Mark_Allocator (N : Node_Id) return Traverse_Result is begin if Nkind (N) = N_Allocator then - Set_Is_Static_Coextension (N); + if Is_Dynamic then + Set_Is_Dynamic_Coextension (N); + else + Set_Is_Static_Coextension (N); + end if; end if; return OK; @@ -6920,16 +7117,26 @@ package body Sem_Util is procedure Mark_Allocators is new Traverse_Proc (Mark_Allocator); - -- Start of processing for Mark_Static_Coextensions + -- Start of processing Mark_Coextensions begin - -- Do not mark allocators that stem from an initial allocator because - -- these will never be static. + case Nkind (Context_Nod) is + when N_Assignment_Statement | + N_Simple_Return_Statement => + Is_Dynamic := Nkind (Expression (Context_Nod)) = N_Allocator; - if Nkind (Root_Node) /= N_Allocator then - Mark_Allocators (Root_Node); - end if; - end Mark_Static_Coextensions; + when N_Object_Declaration => + Is_Dynamic := Nkind (Root_Nod) = N_Allocator; + + -- This routine should not be called for constructs which may not + -- contain coextensions. + + when others => + raise Program_Error; + end case; + + Mark_Allocators (Root_Nod); + end Mark_Coextensions; ---------------------- -- Needs_One_Actual -- @@ -7082,7 +7289,7 @@ package body Sem_Util is Success : out Boolean) is Actuals : constant List_Id := Parameter_Associations (N); - Actual : Node_Id := Empty; + Actual : Node_Id := Empty; Formal : Entity_Id; Last : Node_Id := Empty; First_Named : Node_Id := Empty; @@ -8089,26 +8296,30 @@ package body Sem_Util is Cond : Boolean := False) return Boolean is begin - -- The only entities for which we track constant values are variables, - -- which are not renamings, out parameters and in out parameters, so - -- check if we have this case. + -- The only entities for which we track constant values are variables + -- which are not renamings, constants, out parameters, and in out + -- parameters, so check if we have this case. + + -- Note: it may seem odd to track constant values for constants, but in + -- fact this routine is used for other purposes than simply capturing + -- the value. In particular, the setting of Known[_Non]_Null. if (Ekind (Ent) = E_Variable and then No (Renamed_Object (Ent))) - or else - Ekind (Ent) = E_Out_Parameter - or else - Ekind (Ent) = E_In_Out_Parameter + or else + Ekind (Ent) = E_Constant + or else + Ekind (Ent) = E_Out_Parameter + or else + Ekind (Ent) = E_In_Out_Parameter then null; - -- For conditionals, we also allow constants, loop parameters and all - -- formals, including in parameters. + -- For conditionals, we also allow loop parameters and all formals, + -- including in parameters. elsif Cond and then - (Ekind (Ent) = E_Constant - or else - Ekind (Ent) = E_Loop_Parameter + (Ekind (Ent) = E_Loop_Parameter or else Ekind (Ent) = E_In_Parameter) then @@ -8122,10 +8333,9 @@ package body Sem_Util is return False; end if; - -- Skip volatile and aliased variables, since funny things might - -- be going on in these cases which we cannot necessarily track. - -- Also skip any variable for which an address clause is given, - -- or whose address is taken + -- Skip if volatile or aliased, since funny things might be going on in + -- these cases which we cannot necessarily track. Also skip any variable + -- for which an address clause is given, or whose address is taken. if Treat_As_Volatile (Ent) or else Is_Aliased (Ent) @@ -8135,9 +8345,9 @@ package body Sem_Util is return False; end if; - -- OK, all above conditions are met. We also require that the scope - -- of the reference be the same as the scope of the entity, not - -- counting packages and blocks and loops. + -- OK, all above conditions are met. We also require that the scope of + -- the reference be the same as the scope of the entity, not counting + -- packages and blocks and loops. declare E_Scope : constant Entity_Id := Scope (Ent); @@ -8227,6 +8437,84 @@ package body Sem_Util is end if; end Same_Name; + ----------------- + -- Same_Object -- + ----------------- + + function Same_Object (Node1, Node2 : Node_Id) return Boolean is + N1 : constant Node_Id := Original_Node (Node1); + N2 : constant Node_Id := Original_Node (Node2); + -- We do the tests on original nodes, since we are most interested + -- in the original source, not any expansion that got in the way. + + K1 : constant Node_Kind := Nkind (N1); + K2 : constant Node_Kind := Nkind (N2); + + begin + -- First case, both are entities with same entity + + if K1 in N_Has_Entity + and then K2 in N_Has_Entity + and then Present (Entity (N1)) + and then Present (Entity (N2)) + and then (Ekind (Entity (N1)) = E_Variable + or else + Ekind (Entity (N1)) = E_Constant) + and then Entity (N1) = Entity (N2) + then + return True; + + -- Second case, selected component with same selector, same record + + elsif K1 = N_Selected_Component + and then K2 = N_Selected_Component + and then Chars (Selector_Name (N1)) = Chars (Selector_Name (N2)) + then + return Same_Object (Prefix (N1), Prefix (N2)); + + -- Third case, indexed component with same subscripts, same array + + elsif K1 = N_Indexed_Component + and then K2 = N_Indexed_Component + and then Same_Object (Prefix (N1), Prefix (N2)) + then + declare + E1, E2 : Node_Id; + begin + E1 := First (Expressions (N1)); + E2 := First (Expressions (N2)); + while Present (E1) loop + if not Same_Value (E1, E2) then + return False; + else + Next (E1); + Next (E2); + end if; + end loop; + + return True; + end; + + -- Fourth case, slice of same array with same bounds + + elsif K1 = N_Slice + and then K2 = N_Slice + and then Nkind (Discrete_Range (N1)) = N_Range + and then Nkind (Discrete_Range (N2)) = N_Range + and then Same_Value (Low_Bound (Discrete_Range (N1)), + Low_Bound (Discrete_Range (N2))) + and then Same_Value (High_Bound (Discrete_Range (N1)), + High_Bound (Discrete_Range (N2))) + then + return Same_Name (Prefix (N1), Prefix (N2)); + + -- All other cases, not clearly the same object + + else + return False; + end if; + end Same_Object; + --------------- -- Same_Type -- --------------- @@ -8251,6 +8539,24 @@ package body Sem_Util is end if; end Same_Type; + ---------------- + -- Same_Value -- + ---------------- + + function Same_Value (Node1, Node2 : Node_Id) return Boolean is + begin + if Compile_Time_Known_Value (Node1) + and then Compile_Time_Known_Value (Node2) + and then Expr_Value (Node1) = Expr_Value (Node2) + then + return True; + elsif Same_Object (Node1, Node2) then + return True; + else + return False; + end if; + end Same_Value; + ------------------------ -- Scope_Is_Transient -- ------------------------ @@ -8886,7 +9192,6 @@ package body Sem_Util is -- There is no simple way to insure that it is consistent ??? elsif In_Instance then - if Etype (Etype (Expr)) = Etype (Expected_Type) and then (Has_Private_Declaration (Expected_Type) @@ -8924,6 +9229,29 @@ package body Sem_Util is Error_Msg_N ("result must be general access type!", Expr); Error_Msg_NE ("add ALL to }!", Expr, Expec_Type); + -- Another special check, if the expected type is an integer type, + -- but the expression is of type System.Address, and the parent is + -- an addition or subtraction operation whose left operand is the + -- expression in question and whose right operand is of an integral + -- type, then this is an attempt at address arithmetic, so give + -- appropriate message. + + elsif Is_Integer_Type (Expec_Type) + and then Is_RTE (Found_Type, RE_Address) + and then (Nkind (Parent (Expr)) = N_Op_Add + or else + Nkind (Parent (Expr)) = N_Op_Subtract) + and then Expr = Left_Opnd (Parent (Expr)) + and then Is_Integer_Type (Etype (Right_Opnd (Parent (Expr)))) + then + Error_Msg_N + ("address arithmetic not predefined in package System", + Parent (Expr)); + Error_Msg_N + ("\possible missing with/use of System.Storage_Elements", + Parent (Expr)); + return; + -- If the expected type is an anonymous access type, as for access -- parameters and discriminants, the error is on the designated types. diff --git a/gcc/ada/sem_util.ads b/gcc/ada/sem_util.ads index 0a891326e51..42cd17ddb6f 100644 --- a/gcc/ada/sem_util.ads +++ b/gcc/ada/sem_util.ads @@ -28,6 +28,7 @@ with Einfo; use Einfo; with Namet; use Namet; +with Nmake; with Types; use Types; with Uintp; use Uintp; with Urealp; use Urealp; @@ -147,10 +148,13 @@ package Sem_Util is procedure Collect_Abstract_Interfaces (T : Entity_Id; Ifaces_List : out Elist_Id; - Exclude_Parent_Interfaces : Boolean := False); + Exclude_Parent_Interfaces : Boolean := False; + Use_Full_View : Boolean := True); -- Ada 2005 (AI-251): Collect whole list of abstract interfaces that are -- directly or indirectly implemented by T. Exclude_Parent_Interfaces is -- used to avoid addition of inherited interfaces to the generated list. + -- Use_Full_View is used to collect the interfaces using the full-view + -- (if available). procedure Collect_Interface_Components (Tagged_Type : Entity_Id; @@ -158,6 +162,17 @@ package Sem_Util is -- Ada 2005 (AI-251): Collect all the tag components associated with the -- secondary dispatch tables of a tagged type. + procedure Collect_Interfaces_Info + (T : Entity_Id; + Ifaces_List : out Elist_Id; + Components_List : out Elist_Id; + Tags_List : out Elist_Id); + -- Ada 2005 (AI-251): Collect all the interfaces associated with T plus + -- the record component and tag associated with each of these interfaces. + -- On exit Ifaces_List, Components_List and Tags_List have the same number + -- of elements, and elements at the same position on these tables provide + -- information on the same interface type. + function Collect_Primitive_Operations (T : Entity_Id) return Elist_Id; -- Called upon type derivation and extension. We scan the declarative -- part in which the type appears, and collect subprograms that have @@ -282,7 +297,7 @@ package Sem_Util is (Def_Id : Entity_Id; First_Hom : Entity_Id; Ifaces_List : Elist_Id; - In_Scope : Boolean := True) return Entity_Id; + In_Scope : Boolean) return Entity_Id; -- Determine whether entry or subprogram Def_Id overrides a primitive -- operation that belongs to one of the interfaces in Ifaces_List. A -- specific homonym chain can be specified by setting First_Hom. Flag @@ -443,8 +458,12 @@ package Sem_Util is -- Result of Has_Compatible_Alignment test, description found below. Note -- that the values are arranged in increasing order of problematicness. - function Has_Abstract_Interfaces (Tagged_Type : Entity_Id) return Boolean; - -- Returns true if Tagged_Type implements some abstract interface + function Has_Abstract_Interfaces + (Tagged_Type : Entity_Id; + Use_Full_View : Boolean := True) return Boolean; + -- Returns true if Tagged_Type implements some abstract interface. In case + -- private types the argument Use_Full_View controls if the check is done + -- using its full view (if available). function Has_Compatible_Alignment (Obj : Entity_Id; @@ -689,6 +708,9 @@ package Sem_Util is -- the N_Statement_Other_Than_Procedure_Call subtype from Sinfo). -- Note that a label is *not* a statement, and will return False. + function Is_Synchronized_Tagged_Type (E : Entity_Id) return Boolean; + -- Returns True if E is a synchronized tagged type (AARM 3.9.4 (6/2)) + function Is_Transfer (N : Node_Id) return Boolean; -- Returns True if the node N is a statement which is known to cause -- an unconditional transfer of control at runtime, i.e. the following @@ -723,17 +745,16 @@ package Sem_Util is procedure Kill_Current_Values; -- This procedure is called to clear all constant indications from all -- entities in the current scope and in any parent scopes if the current - -- scope is a block or a package (and that recursion continues to the - -- top scope that is not a block or a package). This is used when the - -- sequential flow-of-control assumption is violated (occurence of a - -- label, head of a loop, or start of an exception handler). The effect - -- of the call is to clear the Constant_Value field (but we do not need - -- to clear the Is_True_Constant flag, since that only gets reset if - -- there really is an assignment somewhere in the entity scope). This - -- procedure also calls Kill_All_Checks, since this is a special case - -- of needing to forget saved values. This procedure also clears any - -- Is_Known_Non_Null flags in variables, constants or parameters - -- since these are also not known to be valid. + -- scope is a block or a package (and that recursion continues to the top + -- scope that is not a block or a package). This is used when the + -- sequential flow-of-control assumption is violated (occurence of a label, + -- head of a loop, or start of an exception handler). The effect of the + -- call is to clear the Constant_Value field (but we do not need to clear + -- the Is_True_Constant flag, since that only gets reset if there really is + -- an assignment somewhere in the entity scope). This procedure also calls + -- Kill_All_Checks, since this is a special case of needing to forget saved + -- values. This procedure also clears Is_Known_Non_Null flags in variables, + -- constants or parameters since these are also not known to be valid. procedure Kill_Current_Values (Ent : Entity_Id); -- This performs the same processing as described above for the form with @@ -753,10 +774,27 @@ package Sem_Util is -- direction. Cases which may possibly be assignments but are not known to -- be may return True from May_Be_Lvalue, but False from this function. - procedure Mark_Static_Coextensions (Root_Node : Node_Id); - -- Perform a tree traversal starting from Root_Node while marking every - -- allocator as a static coextension. Cleanup for this action is performed - -- in Resolve_Allocator. + function Make_Simple_Return_Statement + (Sloc : Source_Ptr; + Expression : Node_Id := Empty) return Node_Id + renames Nmake.Make_Return_Statement; + -- See Sinfo. We rename Make_Return_Statement to the correct Ada 2005 + -- terminology here. Clients should use Make_Simple_Return_Statement. + + Make_Return_Statement : constant := -2 ** 33; + -- Attempt to prevent accidental uses of Make_Return_Statement. If this + -- and the one in Nmake are both potentially use-visible, it will cause + -- a compilation error. Note that type and value are irrelevant. + + N_Return_Statement : constant := -2**33; + -- Attempt to prevent accidental uses of N_Return_Statement; similar to + -- Make_Return_Statement above. + + procedure Mark_Coextensions (Context_Nod : Node_Id; Root_Nod : Node_Id); + -- Given a node which designates the context of analysis and an origin in + -- the tree, traverse from Root_Nod and mark all allocators as either + -- dynamic or static depending on Context_Nod. Any erroneous marking is + -- cleaned up during resolution. function May_Be_Lvalue (N : Node_Id) return Boolean; -- Determines if N could be an lvalue (e.g. an assignment left hand side). @@ -911,7 +949,15 @@ package Sem_Util is -- capture actual value information, but we can capture conditional tests. function Same_Name (N1, N2 : Node_Id) return Boolean; - -- Determine if two (possibly expanded) names are the same name + -- Determine if two (possibly expanded) names are the same name. This is + -- a purely syntactic test, and N1 and N2 need not be analyzed. + + function Same_Object (Node1, Node2 : Node_Id) return Boolean; + -- Determine if Node1 and Node2 are known to designate the same object. + -- This is a semantic test and both nodesmust be fully analyzed. A result + -- of True is decisively correct. A result of False does not necessarily + -- mean that different objects are designated, just that this could not + -- be reliably determined at compile time. function Same_Type (T1, T2 : Entity_Id) return Boolean; -- Determines if T1 and T2 represent exactly the same type. Two types @@ -922,6 +968,13 @@ package Sem_Util is -- False is indecisive (e.g. the compiler may not be able to tell that -- two constraints are identical). + function Same_Value (Node1, Node2 : Node_Id) return Boolean; + -- Determines if Node1 and Node2 are known to be the same value, which is + -- true if they are both compile time known values and have the same value, + -- or if they are the same object (in the sense of function Same_Object). + -- A result of False does not necessarily mean they have different values, + -- just that it is not possible to determine they have the same value. + function Scope_Within_Or_Same (Scope1, Scope2 : Entity_Id) return Boolean; -- Determines if the entity Scope1 is the same as Scope2, or if it is -- inside it, where both entities represent scopes. Note that scopes @@ -967,7 +1020,7 @@ package Sem_Util is -- value from T2 to T1. It does NOT copy the RM_Size field, which must be -- separately set if this is required to be copied also. - function Scope_Is_Transient return Boolean; + function Scope_Is_Transient return Boolean; -- True if the current scope is transient function Static_Integer (N : Node_Id) return Uint;