From 3ddfabe34fbcf04822c794f1dc8e1740811ad016 Mon Sep 17 00:00:00 2001 From: Arnaud Charlet Date: Mon, 20 Jun 2016 14:22:09 +0200 Subject: [PATCH] [multiple changes] 2016-06-16 Hristian Kirtchev * atree.ads, atree.adb (Elist29): New routine. (Set_Elist29): New routine. * atree.h New definition for Elist29. * einfo.adb Subprograms_For_Type is now an Elist rather than a node. Has_Invariants is now a synthesized attribute and does not require a flag. Has_Own_Invariants is now Flag232. Has_Inherited_Invariants is Flag291. Is_Partial_Invariant_Procedure is Flag292. (Default_Init_Cond_Procedure): Reimplemented. (Has_Inherited_Invariants): New routine. (Has_Invariants): Reimplemented. (Has_Own_Invariants): New routine. (Invariant_Procedure): Reimplemented. (Is_Partial_Invariant_Procedure): New routine. (Partial_Invariant_Procedure): Reimplemented. (Predicate_Function): Reimplemented. (Predicate_Function_M): Reimplemented. (Set_Default_Init_Cond_Procedure): Reimplemented. (Set_Has_Inherited_Invariants): New routine. (Set_Has_Invariants): Removed. (Set_Has_Own_Invariants): New routine. (Set_Invariant_Procedure): Reimplemented. (Set_Is_Partial_Invariant_Procedure): New routine. (Set_Partial_Invariant_Procedure): Reimplemented. (Set_Predicate_Function): Reimplemented. (Set_Predicate_Function_M): Reimplemented. (Set_Subprograms_For_Type): Reimplemented. (Subprograms_For_Type): Reimplemented. (Write_Entity_Flags): Output Flag232 and Flag291. * einfo.ads Add new attributes Has_Inherited_Invariants Has_Own_Invariants Is_Partial_Invariant_Procedure Partial_Invariant_Procedure Change the documentation of attributes Has_Inheritable_Invariants Has_Invariants Invariant_Procedure Is_Invariant_Procedure Subprograms_For_Type (Has_Inherited_Invariants): New routine along with pragma Inline. (Has_Own_Invariants): New routine along with pragma Inline. (Is_Partial_Invariant_Procedure): New routine along with pragma Inline. (Partial_Invariant_Procedure): New routine. (Set_Has_Inherited_Invariants): New routine along with pragma Inline. (Set_Has_Invariants): Removed along with pragma Inline. (Set_Has_Own_Invariants): New routine along with pragma Inline. (Set_Is_Partial_Invariant_Procedure): New routine along with pragma Inline. (Set_Partial_Invariant_Procedure): New routine. (Set_Subprograms_For_Type): Update the signature. (Subprograms_For_Type): Update the signature. * exp_ch3.adb Remove with and use clauses for Sem_Ch13. (Build_Array_Invariant_Proc): Removed. (Build_Record_Invariant_Proc): Removed. (Freeze_Type): Build the body of the invariant procedure. (Insert_Component_Invariant_Checks): Removed. * exp_ch7.adb Add with and use clauses for Sem_Ch6, Sem_Ch13, and Stringt. (Build_Invariant_Procedure_Body): New routine. (Build_Invariant_Procedure_Declaration): New routine. * exp_ch7.ads (Build_Invariant_Procedure_Body): New routine. (Build_Invariant_Procedure_Declaration): New routine. * exp_ch9.adb (Build_Corresponding_Record): Do not propagate attributes related to invariants to the corresponding record when building the corresponding record. This is done by Build_Invariant_Procedure_Declaration. * exp_util.adb (Make_Invariant_Call): Reimplemented. * freeze.adb (Freeze_Array_Type): An array type requires an invariant procedure when its component type has invariants. (Freeze_Record_Type): A record type requires an invariant procedure when at least one of its components has an invariant. * sem_ch3.adb (Analyze_Private_Extension_Declaration): Inherit invariant-related attributes. (Analyze_Subtype_Declaration): Inherit invariant-related attributes. (Build_Derived_Record_Type): Inherit invariant-related attributes. (Check_Duplicate_Aspects): Reimplemented. (Get_Partial_View_Aspect): New routine. (Process_Full_View): Inherit invariant-related attributes. Reimplement the check on hidden inheritance of class-wide invariants. (Remove_Default_Init_Cond_Procedure): Reimplemented. * sem_ch6.adb (Analyze_Subprogram_Specification): Do not modify the controlling type for an invariant procedure declaration or body. (Is_Invariant_Procedure_Or_Body): New routine. * sem_ch7.adb (Analyze_Package_Specification): Build the partial invariant body in order to preanalyze and resolve all invariants of a private type at the end of the visible declarations. Build the full invariant body in order to preanalyze and resolve all invariants of a private type's full view at the end of the private declarations. (Preserve_Full_Attributes): Inherit invariant-related attributes. * sem_ch9.adb (Analyze_Protected_Type_Declaration): Ensure that aspects are analyzed with the proper view when the protected type is a completion of a private type. Inherit invariant-related attributes. (Analyze_Task_Type_Declaration): Ensure that aspects are analyzed with the proper view when the task type is a completion of a private type. Inherit invariant-related attributes. * sem_ch13.adb Remove with and use clauses for Stringt. (Build_Invariant_Procedure_Declaration): Removed. (Build_Invariant_Procedure): Removed. (Freeze_Entity_Checks): Do not build the body of the invariant procedure here. The body is built when the type is frozen in Freeze_Type. (Inherit_Aspects_At_Freeze_Point): Do not inherit any attributes related to invariants here because this leads to erroneous inheritance. (Replace_Node): Rename to Replace_Type_Ref. * sem_ch13.ads (Build_Invariant_Procedure_Declaration): Removed. (Build_Invariant_Procedure): Removed. * sem_prag.adb Add with and use clauses for Exp_Ch7. (Analyze_Pragma): Reimplement the analysis of pragma Invariant. * sem_res.adb (Resolve_Actuals): Emit a specialized error when the context is an invariant. * sem_util.adb (Get_Views): New routine. (Incomplete_Or_Partial_View): Consider generic packages when examining declarations. (Inspect_Decls): Consider full type declarations because they may denote a derivation from a private type. (Propagate_Invariant_Attributes): New routine. * sem_util.ads (Get_Views): New routine. (Propagate_Invariant_Attributes): New routine. 2016-06-16 Arnaud Charlet * pprint.adb (Expression_Image): Add better handling of UCs, we don't want to strip them all for clarity. From-SVN: r237596 --- gcc/ada/ChangeLog | 128 ++++ gcc/ada/atree.adb | 17 + gcc/ada/atree.ads | 8 +- gcc/ada/atree.h | 3 +- gcc/ada/einfo.adb | 411 ++++++++---- gcc/ada/einfo.ads | 140 ++-- gcc/ada/exp_ch3.adb | 515 +------------- gcc/ada/exp_ch7.adb | 1515 ++++++++++++++++++++++++++++++++++++++++++ gcc/ada/exp_ch7.ads | 19 +- gcc/ada/exp_ch9.adb | 6 - gcc/ada/exp_util.adb | 25 +- gcc/ada/freeze.adb | 41 +- gcc/ada/pprint.adb | 19 +- gcc/ada/sem_ch13.adb | 663 +----------------- gcc/ada/sem_ch13.ads | 21 +- gcc/ada/sem_ch3.adb | 342 +++++----- gcc/ada/sem_ch6.adb | 50 +- gcc/ada/sem_ch7.adb | 114 ++-- gcc/ada/sem_ch9.adb | 43 +- gcc/ada/sem_prag.adb | 111 ++-- gcc/ada/sem_res.adb | 21 +- gcc/ada/sem_util.adb | 155 ++++- gcc/ada/sem_util.ads | 20 + 23 files changed, 2750 insertions(+), 1637 deletions(-) diff --git a/gcc/ada/ChangeLog b/gcc/ada/ChangeLog index 65ae82f30eb..9845111ed2b 100644 --- a/gcc/ada/ChangeLog +++ b/gcc/ada/ChangeLog @@ -1,3 +1,131 @@ +2016-06-16 Hristian Kirtchev + + * atree.ads, atree.adb (Elist29): New routine. + (Set_Elist29): New routine. + * atree.h New definition for Elist29. + * einfo.adb Subprograms_For_Type is now an Elist rather than + a node. Has_Invariants is now a synthesized attribute + and does not require a flag. Has_Own_Invariants + is now Flag232. Has_Inherited_Invariants is + Flag291. Is_Partial_Invariant_Procedure is Flag292. + (Default_Init_Cond_Procedure): Reimplemented. + (Has_Inherited_Invariants): New routine. + (Has_Invariants): Reimplemented. + (Has_Own_Invariants): New routine. + (Invariant_Procedure): Reimplemented. + (Is_Partial_Invariant_Procedure): New routine. + (Partial_Invariant_Procedure): Reimplemented. + (Predicate_Function): Reimplemented. + (Predicate_Function_M): Reimplemented. + (Set_Default_Init_Cond_Procedure): Reimplemented. + (Set_Has_Inherited_Invariants): New routine. + (Set_Has_Invariants): Removed. + (Set_Has_Own_Invariants): New routine. + (Set_Invariant_Procedure): Reimplemented. + (Set_Is_Partial_Invariant_Procedure): New routine. + (Set_Partial_Invariant_Procedure): Reimplemented. + (Set_Predicate_Function): Reimplemented. + (Set_Predicate_Function_M): Reimplemented. + (Set_Subprograms_For_Type): Reimplemented. + (Subprograms_For_Type): Reimplemented. + (Write_Entity_Flags): Output Flag232 and Flag291. + * einfo.ads Add new attributes Has_Inherited_Invariants + Has_Own_Invariants Is_Partial_Invariant_Procedure + Partial_Invariant_Procedure Change the documentation + of attributes Has_Inheritable_Invariants Has_Invariants + Invariant_Procedure Is_Invariant_Procedure Subprograms_For_Type + (Has_Inherited_Invariants): New routine along with pragma Inline. + (Has_Own_Invariants): New routine along with pragma Inline. + (Is_Partial_Invariant_Procedure): New routine along with pragma Inline. + (Partial_Invariant_Procedure): New routine. + (Set_Has_Inherited_Invariants): New routine along with pragma Inline. + (Set_Has_Invariants): Removed along with pragma Inline. + (Set_Has_Own_Invariants): New routine along with pragma Inline. + (Set_Is_Partial_Invariant_Procedure): New routine + along with pragma Inline. + (Set_Partial_Invariant_Procedure): New routine. + (Set_Subprograms_For_Type): Update the signature. + (Subprograms_For_Type): Update the signature. + * exp_ch3.adb Remove with and use clauses for Sem_Ch13. + (Build_Array_Invariant_Proc): Removed. + (Build_Record_Invariant_Proc): Removed. + (Freeze_Type): Build the body of the invariant procedure. + (Insert_Component_Invariant_Checks): Removed. + * exp_ch7.adb Add with and use clauses for Sem_Ch6, Sem_Ch13, + and Stringt. + (Build_Invariant_Procedure_Body): New routine. + (Build_Invariant_Procedure_Declaration): New routine. + * exp_ch7.ads (Build_Invariant_Procedure_Body): New routine. + (Build_Invariant_Procedure_Declaration): New routine. + * exp_ch9.adb (Build_Corresponding_Record): Do not propagate + attributes related to invariants to the corresponding record + when building the corresponding record. This is done by + Build_Invariant_Procedure_Declaration. + * exp_util.adb (Make_Invariant_Call): Reimplemented. + * freeze.adb (Freeze_Array_Type): An array type requires an + invariant procedure when its component type has invariants. + (Freeze_Record_Type): A record type requires an invariant + procedure when at least one of its components has an invariant. + * sem_ch3.adb (Analyze_Private_Extension_Declaration): Inherit + invariant-related attributes. + (Analyze_Subtype_Declaration): + Inherit invariant-related attributes. + (Build_Derived_Record_Type): Inherit invariant-related attributes. + (Check_Duplicate_Aspects): Reimplemented. + (Get_Partial_View_Aspect): New routine. + (Process_Full_View): Inherit invariant-related attributes. Reimplement + the check on hidden inheritance of class-wide invariants. + (Remove_Default_Init_Cond_Procedure): Reimplemented. + * sem_ch6.adb (Analyze_Subprogram_Specification): Do not modify + the controlling type for an invariant procedure declaration + or body. + (Is_Invariant_Procedure_Or_Body): New routine. + * sem_ch7.adb (Analyze_Package_Specification): Build the partial + invariant body in order to preanalyze and resolve all invariants + of a private type at the end of the visible declarations. Build + the full invariant body in order to preanalyze and resolve + all invariants of a private type's full view at the end of + the private declarations. + (Preserve_Full_Attributes): Inherit invariant-related attributes. + * sem_ch9.adb (Analyze_Protected_Type_Declaration): Ensure that + aspects are analyzed with the proper view when the protected type + is a completion of a private type. Inherit invariant-related attributes. + (Analyze_Task_Type_Declaration): Ensure that + aspects are analyzed with the proper view when the task type + is a completion of a private type. Inherit invariant-related + attributes. + * sem_ch13.adb Remove with and use clauses for Stringt. + (Build_Invariant_Procedure_Declaration): Removed. + (Build_Invariant_Procedure): Removed. + (Freeze_Entity_Checks): Do not build the body of the invariant + procedure here. + The body is built when the type is frozen in Freeze_Type. + (Inherit_Aspects_At_Freeze_Point): Do not inherit any attributes + related to invariants here because this leads to erroneous + inheritance. + (Replace_Node): Rename to Replace_Type_Ref. + * sem_ch13.ads (Build_Invariant_Procedure_Declaration): Removed. + (Build_Invariant_Procedure): Removed. + * sem_prag.adb Add with and use clauses for Exp_Ch7. + (Analyze_Pragma): Reimplement the analysis of pragma Invariant. + * sem_res.adb (Resolve_Actuals): Emit a specialized error when + the context is an invariant. + * sem_util.adb (Get_Views): New routine. + (Incomplete_Or_Partial_View): Consider generic packages when + examining declarations. + (Inspect_Decls): Consider full type + declarations because they may denote a derivation from a + private type. + (Propagate_Invariant_Attributes): New routine. + * sem_util.ads (Get_Views): New routine. + (Propagate_Invariant_Attributes): New routine. + +2016-06-16 Arnaud Charlet + + * pprint.adb (Expression_Image): Add better handling of UCs, + we don't want to strip them all for clarity. + + 2016-06-20 Kyrylo Tkachov * exp_util.adb (Safe_Unchecked_Type_Conversion): Use "alignment" diff --git a/gcc/ada/atree.adb b/gcc/ada/atree.adb index a0849d253d0..87ef79fdeec 100644 --- a/gcc/ada/atree.adb +++ b/gcc/ada/atree.adb @@ -3317,6 +3317,17 @@ package body Atree is end if; end Elist26; + function Elist29 (N : Node_Id) return Elist_Id is + pragma Assert (Nkind (N) in N_Entity); + Value : constant Union_Id := Nodes.Table (N + 4).Field11; + begin + if Value = 0 then + return No_Elist; + else + return Elist_Id (Value); + end if; + end Elist29; + function Elist36 (N : Node_Id) return Elist_Id is pragma Assert (Nkind (N) in N_Entity); Value : constant Union_Id := Nodes.Table (N + 6).Field6; @@ -6109,6 +6120,12 @@ package body Atree is Nodes.Table (N + 4).Field8 := Union_Id (Val); end Set_Elist26; + procedure Set_Elist29 (N : Node_Id; Val : Elist_Id) is + begin + pragma Assert (Nkind (N) in N_Entity); + Nodes.Table (N + 4).Field11 := Union_Id (Val); + end Set_Elist29; + procedure Set_Elist36 (N : Node_Id; Val : Elist_Id) is begin pragma Assert (Nkind (N) in N_Entity); diff --git a/gcc/ada/atree.ads b/gcc/ada/atree.ads index d94217d2322..2d911b23b7f 100644 --- a/gcc/ada/atree.ads +++ b/gcc/ada/atree.ads @@ -6,7 +6,7 @@ -- -- -- S p e c -- -- -- --- Copyright (C) 1992-2015, Free Software Foundation, Inc. -- +-- Copyright (C) 1992-2016, Free Software Foundation, Inc. -- -- -- -- GNAT is free software; you can redistribute it and/or modify it under -- -- terms of the GNU General Public License as published by the Free Soft- -- @@ -1473,6 +1473,9 @@ package Atree is function Elist26 (N : Node_Id) return Elist_Id; pragma Inline (Elist26); + function Elist29 (N : Node_Id) return Elist_Id; + pragma Inline (Elist29); + function Elist36 (N : Node_Id) return Elist_Id; pragma Inline (Elist36); @@ -2836,6 +2839,9 @@ package Atree is procedure Set_Elist26 (N : Node_Id; Val : Elist_Id); pragma Inline (Set_Elist26); + procedure Set_Elist29 (N : Node_Id; Val : Elist_Id); + pragma Inline (Set_Elist29); + procedure Set_Elist36 (N : Node_Id; Val : Elist_Id); pragma Inline (Set_Elist36); diff --git a/gcc/ada/atree.h b/gcc/ada/atree.h index a2159c83777..e09f7e2c9fe 100644 --- a/gcc/ada/atree.h +++ b/gcc/ada/atree.h @@ -6,7 +6,7 @@ * * * C Header File * * * - * Copyright (C) 1992-2015, Free Software Foundation, Inc. * + * Copyright (C) 1992-2016, Free Software Foundation, Inc. * * * * GNAT is free software; you can redistribute it and/or modify it under * * terms of the GNU General Public License as published by the Free Soft- * @@ -526,6 +526,7 @@ extern Node_Id Current_Error_Node; #define Elist24(N) Field24 (N) #define Elist25(N) Field25 (N) #define Elist26(N) Field26 (N) +#define Elist29(N) Field29 (N) #define Elist36(N) Field36 (N) #define Name1(N) Field1 (N) diff --git a/gcc/ada/einfo.adb b/gcc/ada/einfo.adb index d0d230215f6..6fa9f9a4fdb 100644 --- a/gcc/ada/einfo.adb +++ b/gcc/ada/einfo.adb @@ -245,7 +245,7 @@ package body Einfo is -- Underlying_Record_View Node28 -- BIP_Initialization_Call Node29 - -- Subprograms_For_Type Node29 + -- Subprograms_For_Type Elist29 -- Anonymous_Object Node30 -- Corresponding_Equality Node30 @@ -539,7 +539,7 @@ package body Einfo is -- Has_Pragma_Inline_Always Flag230 -- Renamed_In_Spec Flag231 - -- Has_Invariants Flag232 + -- Has_Own_Invariants Flag232 -- Has_Pragma_Unmodified Flag233 -- Is_Dispatch_Table_Entity Flag234 -- Is_Trivial_Subprogram Flag235 @@ -603,10 +603,11 @@ package body Einfo is -- Predicates_Ignored Flag288 -- Has_Timing_Event Flag289 - -- (unused) Flag290 + -- (unused) Flag290 -- ??? flag breaks einfo.h + + -- Has_Inherited_Invariants Flag291 + -- Is_Partial_Invariant_Procedure Flag292 - -- (unused) Flag291 - -- (unused) Flag292 -- (unused) Flag293 -- (unused) Flag294 -- (unused) Flag295 @@ -614,8 +615,8 @@ package body Einfo is -- (unused) Flag297 -- (unused) Flag298 -- (unused) Flag299 - -- (unused) Flag300 + -- (unused) Flag301 -- (unused) Flag302 -- (unused) Flag303 @@ -1610,18 +1611,18 @@ package body Einfo is return Flag133 (Base_Type (Id)); end Has_Inherited_Default_Init_Cond; + function Has_Inherited_Invariants (Id : E) return B is + begin + pragma Assert (Is_Type (Id)); + return Flag291 (Id); + end Has_Inherited_Invariants; + function Has_Initial_Value (Id : E) return B is begin pragma Assert (Ekind (Id) = E_Variable or else Is_Formal (Id)); return Flag219 (Id); end Has_Initial_Value; - function Has_Invariants (Id : E) return B is - begin - pragma Assert (Is_Type (Id)); - return Flag232 (Id); - end Has_Invariants; - function Has_Loop_Entry_Attributes (Id : E) return B is begin pragma Assert (Ekind (Id) = E_Loop); @@ -1675,6 +1676,12 @@ package body Einfo is return Flag110 (Id); end Has_Out_Or_In_Out_Parameter; + function Has_Own_Invariants (Id : E) return B is + begin + pragma Assert (Is_Type (Id)); + return Flag232 (Id); + end Has_Own_Invariants; + function Has_Per_Object_Constraint (Id : E) return B is begin return Flag154 (Id); @@ -2388,6 +2395,12 @@ package body Einfo is return Flag215 (Base_Type (Id)); end Is_Param_Block_Component_Type; + function Is_Partial_Invariant_Procedure (Id : E) return B is + begin + pragma Assert (Ekind_In (Id, E_Function, E_Procedure)); + return Flag292 (Id); + end Is_Partial_Invariant_Procedure; + function Is_Potentially_Use_Visible (Id : E) return B is begin pragma Assert (Nkind (Id) in N_Entity); @@ -3314,10 +3327,10 @@ package body Einfo is return Node18 (Id); end String_Literal_Low_Bound; - function Subprograms_For_Type (Id : E) return E is + function Subprograms_For_Type (Id : E) return L is begin - pragma Assert (Is_Type (Id) or else Is_Subprogram (Id)); - return Node29 (Id); + pragma Assert (Is_Type (Id)); + return Elist29 (Id); end Subprograms_For_Type; function Subps_Index (Id : E) return U is @@ -4596,18 +4609,18 @@ package body Einfo is Set_Flag133 (Base_Type (Id), V); end Set_Has_Inherited_Default_Init_Cond; + procedure Set_Has_Inherited_Invariants (Id : E; V : B := True) is + begin + pragma Assert (Is_Type (Id)); + Set_Flag291 (Id, V); + end Set_Has_Inherited_Invariants; + procedure Set_Has_Initial_Value (Id : E; V : B := True) is begin pragma Assert (Ekind_In (Id, E_Variable, E_Out_Parameter)); Set_Flag219 (Id, V); end Set_Has_Initial_Value; - procedure Set_Has_Invariants (Id : E; V : B := True) is - begin - pragma Assert (Is_Type (Id)); - Set_Flag232 (Id, V); - end Set_Has_Invariants; - procedure Set_Has_Loop_Entry_Attributes (Id : E; V : B := True) is begin pragma Assert (Ekind (Id) = E_Loop); @@ -4662,6 +4675,12 @@ package body Einfo is Set_Flag110 (Id, V); end Set_Has_Out_Or_In_Out_Parameter; + procedure Set_Has_Own_Invariants (Id : E; V : B := True) is + begin + pragma Assert (Is_Type (Id)); + Set_Flag232 (Id, V); + end Set_Has_Own_Invariants; + procedure Set_Has_Per_Object_Constraint (Id : E; V : B := True) is begin Set_Flag154 (Id, V); @@ -5442,6 +5461,12 @@ package body Einfo is Set_Flag215 (Id, V); end Set_Is_Param_Block_Component_Type; + procedure Set_Is_Partial_Invariant_Procedure (Id : E; V : B := True) is + begin + pragma Assert (Ekind (Id) = E_Procedure); + Set_Flag292 (Id, V); + end Set_Is_Partial_Invariant_Procedure; + procedure Set_Is_Potentially_Use_Visible (Id : E; V : B := True) is begin pragma Assert (Nkind (Id) in N_Entity); @@ -5450,7 +5475,7 @@ package body Einfo is procedure Set_Is_Predicate_Function (Id : E; V : B := True) is begin - pragma Assert (Ekind_In (Id, E_Function, E_Procedure)); + pragma Assert (Ekind (Id) = E_Function); Set_Flag255 (Id, V); end Set_Is_Predicate_Function; @@ -6404,10 +6429,10 @@ package body Einfo is Set_Node18 (Id, V); end Set_String_Literal_Low_Bound; - procedure Set_Subprograms_For_Type (Id : E; V : E) is + procedure Set_Subprograms_For_Type (Id : E; V : L) is begin - pragma Assert (Is_Type (Id) or else Is_Subprogram (Id)); - Set_Node29 (Id, V); + pragma Assert (Is_Type (Id)); + Set_Elist29 (Id, V); end Set_Subprograms_For_Type; procedure Set_Subps_Index (Id : E; V : U) is @@ -6945,22 +6970,30 @@ package body Einfo is --------------------------------- function Default_Init_Cond_Procedure (Id : E) return E is - Subp_Id : Entity_Id; + Subp_Elmt : Elmt_Id; + Subp_Id : Entity_Id; + Subps : Elist_Id; begin pragma Assert (Is_Type (Id) and then (Has_Default_Init_Cond (Id) - or Has_Inherited_Default_Init_Cond (Id))); + or else Has_Inherited_Default_Init_Cond (Id))); - Subp_Id := Subprograms_For_Type (Base_Type (Id)); - while Present (Subp_Id) loop - if Is_Default_Init_Cond_Procedure (Subp_Id) then - return Subp_Id; - end if; + Subps := Subprograms_For_Type (Base_Type (Id)); - Subp_Id := Subprograms_For_Type (Subp_Id); - end loop; + if Present (Subps) then + Subp_Elmt := First_Elmt (Subps); + while Present (Subp_Elmt) loop + Subp_Id := Node (Subp_Elmt); + + if Is_Default_Init_Cond_Procedure (Subp_Id) then + return Subp_Id; + end if; + + Next_Elmt (Subp_Elmt); + end loop; + end if; return Empty; end Default_Init_Cond_Procedure; @@ -7370,6 +7403,15 @@ package body Einfo is return False; end Has_Interrupt_Handler; + -------------------- + -- Has_Invariants -- + -------------------- + + function Has_Invariants (Id : E) return B is + begin + return Has_Own_Invariants (Id) or else Has_Inherited_Invariants (Id); + end Has_Invariants; + -------------------------- -- Has_Non_Limited_View -- -------------------------- @@ -7533,26 +7575,29 @@ package body Einfo is ------------------------- function Invariant_Procedure (Id : E) return E is - S : Entity_Id; + Subp_Elmt : Elmt_Id; + Subp_Id : Entity_Id; + Subps : Elist_Id; begin - pragma Assert (Is_Type (Id) and then Has_Invariants (Id)); + pragma Assert (Is_Type (Id)); - if No (Subprograms_For_Type (Id)) then - return Empty; + Subps := Subprograms_For_Type (Id); - else - S := Subprograms_For_Type (Id); - while Present (S) loop - if Is_Invariant_Procedure (S) then - return S; - else - S := Subprograms_For_Type (S); + if Present (Subps) then + Subp_Elmt := First_Elmt (Subps); + while Present (Subp_Elmt) loop + Subp_Id := Node (Subp_Elmt); + + if Is_Invariant_Procedure (Subp_Id) then + return Subp_Id; end if; - end loop; - return Empty; + Next_Elmt (Subp_Elmt); + end loop; end if; + + return Empty; end Invariant_Procedure; ---------------------- @@ -8261,46 +8306,81 @@ package body Einfo is return Ekind (Id); end Parameter_Mode; + --------------------------------- + -- Partial_Invariant_Procedure -- + --------------------------------- + + function Partial_Invariant_Procedure (Id : E) return E is + Subp_Elmt : Elmt_Id; + Subp_Id : Entity_Id; + Subps : Elist_Id; + + begin + pragma Assert (Is_Type (Id)); + + Subps := Subprograms_For_Type (Id); + + if Present (Subps) then + Subp_Elmt := First_Elmt (Subps); + while Present (Subp_Elmt) loop + Subp_Id := Node (Subp_Elmt); + + if Is_Partial_Invariant_Procedure (Subp_Id) then + return Subp_Id; + end if; + + Next_Elmt (Subp_Elmt); + end loop; + end if; + + return Empty; + end Partial_Invariant_Procedure; + ------------------------ -- Predicate_Function -- ------------------------ function Predicate_Function (Id : E) return E is - S : Entity_Id; - T : Entity_Id; + Subp_Elmt : Elmt_Id; + Subp_Id : Entity_Id; + Subps : Elist_Id; + Typ : Entity_Id; begin pragma Assert (Is_Type (Id)); - -- If type is private and has a completion, predicate may be defined - -- on the full view. + -- If type is private and has a completion, predicate may be defined on + -- the full view. if Is_Private_Type (Id) and then (not Has_Predicates (Id) or else No (Subprograms_For_Type (Id))) and then Present (Full_View (Id)) then - T := Full_View (Id); + Typ := Full_View (Id); else - T := Id; + Typ := Id; end if; - if No (Subprograms_For_Type (T)) then - return Empty; + Subps := Subprograms_For_Type (Typ); - else - S := Subprograms_For_Type (T); - while Present (S) loop - if Is_Predicate_Function (S) then - return S; - else - S := Subprograms_For_Type (S); + if Present (Subps) then + Subp_Elmt := First_Elmt (Subps); + while Present (Subp_Elmt) loop + Subp_Id := Node (Subp_Elmt); + + if Ekind (Subp_Id) = E_Function + and then Is_Predicate_Function (Subp_Id) + then + return Subp_Id; end if; - end loop; - return Empty; + Next_Elmt (Subp_Elmt); + end loop; end if; + + return Empty; end Predicate_Function; -------------------------- @@ -8308,36 +8388,46 @@ package body Einfo is -------------------------- function Predicate_Function_M (Id : E) return E is - S : Entity_Id; - T : Entity_Id; + Subp_Elmt : Elmt_Id; + Subp_Id : Entity_Id; + Subps : Elist_Id; + Typ : Entity_Id; begin pragma Assert (Is_Type (Id)); - -- If type is private and has a completion, predicate may be defined - -- on the full view. + -- If type is private and has a completion, predicate may be defined on + -- the full view. + + if Is_Private_Type (Id) + and then + (not Has_Predicates (Id) or else No (Subprograms_For_Type (Id))) + and then Present (Full_View (Id)) + then + Typ := Full_View (Id); - if Is_Private_Type (Id) and then Present (Full_View (Id)) then - T := Full_View (Id); else - T := Id; + Typ := Id; end if; - if No (Subprograms_For_Type (T)) then - return Empty; + Subps := Subprograms_For_Type (Typ); - else - S := Subprograms_For_Type (T); - while Present (S) loop - if Is_Predicate_Function_M (S) then - return S; - else - S := Subprograms_For_Type (S); + if Present (Subps) then + Subp_Elmt := First_Elmt (Subps); + while Present (Subp_Elmt) loop + Subp_Id := Node (Subp_Elmt); + + if Ekind (Subp_Id) = E_Function + and then Is_Predicate_Function_M (Subp_Id) + then + return Subp_Id; end if; - end loop; - return Empty; + Next_Elmt (Subp_Elmt); + end loop; end if; + + return Empty; end Predicate_Function_M; ------------------------- @@ -8563,8 +8653,10 @@ package body Einfo is ------------------------------------- procedure Set_Default_Init_Cond_Procedure (Id : E; V : E) is - Base_Typ : Entity_Id; - Subp_Id : Entity_Id; + Base_Typ : Entity_Id; + Subp_Elmt : Elmt_Id; + Subp_Id : Entity_Id; + Subps : Elist_Id; begin -- Once set, this attribute cannot be reset @@ -8577,21 +8669,29 @@ package body Einfo is pragma Assert (Is_Type (Id) and then (Has_Default_Init_Cond (Id) - or Has_Inherited_Default_Init_Cond (Id))); + or else Has_Inherited_Default_Init_Cond (Id))); + Base_Typ := Base_Type (Id); + Subps := Subprograms_For_Type (Base_Typ); + + if No (Subps) then + Subps := New_Elmt_List; + Set_Subprograms_For_Type (Base_Typ, Subps); + end if; - Subp_Id := Subprograms_For_Type (Base_Typ); - Set_Subprograms_For_Type (Base_Typ, V); - Set_Subprograms_For_Type (V, Subp_Id); + Subp_Elmt := First_Elmt (Subps); + Prepend_Elmt (V, Subps); - -- Check for a duplicate procedure + -- Check for a duplicate default initial condition procedure + + while Present (Subp_Elmt) loop + Subp_Id := Node (Subp_Elmt); - while Present (Subp_Id) loop if Is_Default_Init_Cond_Procedure (Subp_Id) then raise Program_Error; end if; - Subp_Id := Subprograms_For_Type (Subp_Id); + Next_Elmt (Subp_Elmt); end loop; end Set_Default_Init_Cond_Procedure; @@ -8600,46 +8700,105 @@ package body Einfo is ----------------------------- procedure Set_Invariant_Procedure (Id : E; V : E) is - S : Entity_Id; + Subp_Elmt : Elmt_Id; + Subp_Id : Entity_Id; + Subps : Elist_Id; begin - pragma Assert (Is_Type (Id) and then Has_Invariants (Id)); + pragma Assert (Is_Type (Id)); - S := Subprograms_For_Type (Id); - Set_Subprograms_For_Type (Id, V); - Set_Subprograms_For_Type (V, S); + Subps := Subprograms_For_Type (Id); + + if No (Subps) then + Subps := New_Elmt_List; + Set_Subprograms_For_Type (Id, Subps); + end if; - -- Check for duplicate entry + Subp_Elmt := First_Elmt (Subps); + Prepend_Elmt (V, Subps); - while Present (S) loop - if Is_Invariant_Procedure (S) then + -- Check for a duplicate invariant procedure + + while Present (Subp_Elmt) loop + Subp_Id := Node (Subp_Elmt); + + if Is_Invariant_Procedure (Subp_Id) then raise Program_Error; - else - S := Subprograms_For_Type (S); end if; + + Next_Elmt (Subp_Elmt); end loop; end Set_Invariant_Procedure; + ------------------------------------- + -- Set_Partial_Invariant_Procedure -- + ------------------------------------- + + procedure Set_Partial_Invariant_Procedure (Id : E; V : E) is + Subp_Elmt : Elmt_Id; + Subp_Id : Entity_Id; + Subps : Elist_Id; + + begin + pragma Assert (Is_Type (Id)); + + Subps := Subprograms_For_Type (Id); + + if No (Subps) then + Subps := New_Elmt_List; + Set_Subprograms_For_Type (Id, Subps); + end if; + + Subp_Elmt := First_Elmt (Subps); + Prepend_Elmt (V, Subps); + + -- Check for a duplicate partial invariant procedure + + while Present (Subp_Elmt) loop + Subp_Id := Node (Subp_Elmt); + + if Is_Partial_Invariant_Procedure (Subp_Id) then + raise Program_Error; + end if; + + Next_Elmt (Subp_Elmt); + end loop; + end Set_Partial_Invariant_Procedure; + ---------------------------- -- Set_Predicate_Function -- ---------------------------- procedure Set_Predicate_Function (Id : E; V : E) is - S : Entity_Id; + Subp_Elmt : Elmt_Id; + Subp_Id : Entity_Id; + Subps : Elist_Id; begin pragma Assert (Is_Type (Id) and then Has_Predicates (Id)); - S := Subprograms_For_Type (Id); - Set_Subprograms_For_Type (Id, V); - Set_Subprograms_For_Type (V, S); + Subps := Subprograms_For_Type (Id); + + if No (Subps) then + Subps := New_Elmt_List; + Set_Subprograms_For_Type (Id, Subps); + end if; - while Present (S) loop - if Is_Predicate_Function (S) then + Subp_Elmt := First_Elmt (Subps); + Prepend_Elmt (V, Subps); + + -- Check for a duplicate predication function + + while Present (Subp_Elmt) loop + Subp_Id := Node (Subp_Elmt); + + if Ekind (Subp_Id) = E_Function + and then Is_Predicate_Function (Subp_Id) + then raise Program_Error; - else - S := Subprograms_For_Type (S); end if; + + Next_Elmt (Subp_Elmt); end loop; end Set_Predicate_Function; @@ -8648,23 +8807,35 @@ package body Einfo is ------------------------------ procedure Set_Predicate_Function_M (Id : E; V : E) is - S : Entity_Id; + Subp_Elmt : Elmt_Id; + Subp_Id : Entity_Id; + Subps : Elist_Id; begin pragma Assert (Is_Type (Id) and then Has_Predicates (Id)); - S := Subprograms_For_Type (Id); - Set_Subprograms_For_Type (Id, V); - Set_Subprograms_For_Type (V, S); + Subps := Subprograms_For_Type (Id); + + if No (Subps) then + Subps := New_Elmt_List; + Set_Subprograms_For_Type (Id, Subps); + end if; + + Subp_Elmt := First_Elmt (Subps); + Prepend_Elmt (V, Subps); - -- Check for duplicates + -- Check for a duplicate predication function - while Present (S) loop - if Is_Predicate_Function_M (S) then + while Present (Subp_Elmt) loop + Subp_Id := Node (Subp_Elmt); + + if Ekind (Subp_Id) = E_Function + and then Is_Predicate_Function_M (Subp_Id) + then raise Program_Error; - else - S := Subprograms_For_Type (S); end if; + + Next_Elmt (Subp_Elmt); end loop; end Set_Predicate_Function_M; @@ -8952,8 +9123,8 @@ package body Einfo is W ("Has_Independent_Components", Flag34 (Id)); W ("Has_Inheritable_Invariants", Flag248 (Id)); W ("Has_Inherited_Default_Init_Cond", Flag133 (Id)); + W ("Has_Inherited_Invariants", Flag291 (Id)); W ("Has_Initial_Value", Flag219 (Id)); - W ("Has_Invariants", Flag232 (Id)); W ("Has_Loop_Entry_Attributes", Flag260 (Id)); W ("Has_Machine_Radix_Clause", Flag83 (Id)); W ("Has_Master_Entity", Flag21 (Id)); @@ -8963,6 +9134,7 @@ package body Einfo is W ("Has_Non_Standard_Rep", Flag75 (Id)); W ("Has_Out_Or_In_Out_Parameter", Flag110 (Id)); W ("Has_Object_Size_Clause", Flag172 (Id)); + W ("Has_Own_Invariants", Flag232 (Id)); W ("Has_Per_Object_Constraint", Flag154 (Id)); W ("Has_Pragma_Controlled", Flag27 (Id)); W ("Has_Pragma_Elaborate_Body", Flag150 (Id)); @@ -9086,6 +9258,7 @@ package body Einfo is W ("Is_Packed", Flag51 (Id)); W ("Is_Packed_Array_Impl_Type", Flag138 (Id)); W ("Is_Param_Block_Component_Type", Flag215 (Id)); + W ("Is_Partial_Invariant_Procedure", Flag292 (Id)); W ("Is_Potentially_Use_Visible", Flag9 (Id)); W ("Is_Predicate_Function", Flag255 (Id)); W ("Is_Predicate_Function_M", Flag256 (Id)); diff --git a/gcc/ada/einfo.ads b/gcc/ada/einfo.ads index a8212984c05..148e2dc433d 100644 --- a/gcc/ada/einfo.ads +++ b/gcc/ada/einfo.ads @@ -1698,19 +1698,22 @@ package Einfo is -- usual manner. -- Has_Inheritable_Invariants (Flag248) --- Defined in all type entities. Set in private types from which one --- or more Invariant'Class aspects will be inherited if a another type is --- derived from the type (i.e. those types which have an Invariant'Class --- aspect, or which inherit one or more Invariant'Class aspects). Also --- set in the corresponding full types. Note that it might be the full --- type which has inheritable invariants, and in this case the flag will --- also be set in the private type. +-- Defined in all type entities. Set on private types and interface types +-- which define at least one class-wide invariant. Such invariants must +-- be inherited by derived types. The flag is also set on the full view +-- of a private type for completeness. -- Has_Inherited_Default_Init_Cond (Flag133) [base type only] -- Defined in all type entities. Set when a derived type inherits pragma -- Default_Initial_Condition from its parent type. This flag is mutually -- exclusive with flag Has_Default_Init_Cond. +-- Has_Inherited_Invariants (Flag291) +-- Defined in all type entities. Set on private extensions and derived +-- types which inherit at least on class-wide invariant from a parent or +-- an interface type. The flag is also set on the full view of a private +-- extension for completeness. + -- Has_Initial_Value (Flag219) -- Defined in entities for variables and out parameters. Set if there -- is an explicit initial value expression in the declaration of the @@ -1725,15 +1728,10 @@ package Einfo is -- definition contains at least one procedure to which a pragma -- Interrupt_Handler applies. --- Has_Invariants (Flag232) --- Defined in all type entities and in subprogram entities. Set in --- private types if an Invariant or Invariant'Class aspect applies to the --- type, or if the type inherits one or more Invariant'Class aspects. --- Also set in the corresponding full type. Note: if this flag is set --- True, then usually the Invariant_Procedure attribute is set once the --- type is frozen, however this may not be true in some error situations. --- Note that it might be the full type which has inheritable invariants, --- and then the flag will also be set in the private type. +-- Has_Invariants (synthesized) +-- Defined in all type entities. True if the type defines at least one +-- invariant of its own or inherits at least one class-wide invariant +-- from a parent type or an interface. -- Has_Loop_Entry_Attributes (Flag260) -- Defined in E_Loop entities. Set when the loop is subject to at least @@ -1809,6 +1807,11 @@ package Einfo is -- families. Set if they have at least one OUT or IN OUT parameter -- (allowed for functions only in Ada 2012). +-- Has_Own_Invariants (Flag232) +-- Defined in all type entities. Set on any type which defines at least +-- one invariant of its own. The flag is also set on the full view of a +-- private extension or a private type for completeness. + -- Has_Per_Object_Constraint (Flag154) -- Defined in E_Component entities. Set if the subtype of the component -- has a per object constraint. Per object constraints result from the @@ -2189,15 +2192,18 @@ package Einfo is -- ancestors (Ada 2005: AI-251). -- Invariant_Procedure (synthesized) --- Defined in types and subtypes. Set for private types if one or more --- Invariant, or Invariant'Class, or inherited Invariant'Class aspects --- apply to the type. Points to the entity for a procedure which checks --- the invariant. This invariant procedure takes a single argument of the --- given type, and returns if the invariant holds, or raises exception --- Assertion_Error with an appropriate message if it does not hold. This --- attribute is defined but always empty for private subtypes. This --- attribute is also set for the corresponding full type. --- +-- Defined in types and subtypes. Set for private types and their full +-- views if one or more [class-wide] invariants apply to the type, or +-- when the type inherits class-wide invariants from a parent type or +-- an interface, or when the type is an array and its component type is +-- subject to an invariant, or when the type is record and contains a +-- component subject to an invariant (property is recursive). Points to +-- to the entity for a procedure which checks all these invariants. The +-- invariant procedure takes a single argument of the given type, and +-- returns if the invariant holds, or raises exception Assertion_Error +-- with an appropriate message if it does not hold. This attribute is +-- defined but always Empty for private subtypes. + -- Note: the reason this is marked as a synthesized attribute is that the -- way this is stored is as an element of the Subprograms_For_Type field. @@ -2267,7 +2273,7 @@ package Einfo is -- applies to both the partial view and the full view. -- Is_Base_Type (synthesized) --- Applies to type and subtype entities. True if entity is a base type +-- Applies to type and subtype entities. True if entity is a base type. -- Is_Bit_Packed_Array (Flag122) [implementation base type only] -- Defined in all entities. This flag is set for a packed array type that @@ -2325,9 +2331,9 @@ package Einfo is -- which are not Completely_Hidden (e.g. discriminants of a root type). -- Is_Composite_Type (synthesized) --- Applies to all entities, true for all composite types and --- subtypes. Either Is_Composite_Type or Is_Elementary_Type (but --- not both) is true of any type. +-- Applies to all entities, true for all composite types and subtypes. +-- Either Is_Composite_Type or Is_Elementary_Type (but not both) is true +-- of any type. -- Is_Concurrent_Record_Type (Flag20) -- Defined in record types and subtypes. Set if the type was created @@ -2686,7 +2692,9 @@ package Einfo is -- Is_Invariant_Procedure (Flag257) -- Defined in functions and procedures. Set for a generated invariant --- procedure to identify it easily. +-- procedure which verifies the invariants of both the partial and full +-- views of a private type or private extension as well as any inherited +-- class-wide invariants from parent types or interfaces. -- Is_Itype (Flag91) -- Defined in all entities. Set to indicate that a type is an Itype, @@ -2912,6 +2920,11 @@ package Einfo is -- component of the parameter block record type generated by the compiler -- for an entry or a select statement. Read by CodePeer. +-- Is_Partial_Invariant_Procedure (Flag292) +-- Defined in functions and procedures. Set for a generated invariant +-- procedure which verifies the invariants of the partial view of a +-- private type or private extension. + -- Is_Potentially_Use_Visible (Flag9) -- Defined in all entities. Set if entity is potentially use visible, -- i.e. it is defined in a package that appears in a currently active @@ -3738,6 +3751,18 @@ package Einfo is -- of a single protected/task type, the references are examined as they -- must appear only within the type defintion and the corresponding body. +-- Partial_Invariant_Procedure (synthesized) +-- Defined in types and subtypes. Set for private types when one or more +-- [class-wide] type invariants apply to them. Points to the entity for a +-- procedure which checks the invariant. This invariant procedure takes a +-- single argument of the given type, and returns if the invariant holds, +-- or raises exception Assertion_Error with an appropriate message if it +-- does not hold. This attribute is defined but always Empty for private +-- subtypes. This attribute is also set for the corresponding full type. +-- +-- Note: the reason this is marked as a synthesized attribute is that the +-- way this is stored is as an element of the Subprograms_For_Type field. + -- Partial_View_Has_Unknown_Discr (Flag280) -- Present in all types. Set to Indicate that the partial view of a type -- has unknown discriminants. A default initialization of an object of @@ -4263,15 +4288,14 @@ package Einfo is -- the low bound of the applicable index constraint if there is one, -- or a copy of the low bound of the index base type if not. --- Subprograms_For_Type (Node29) --- Defined in all type and subprogram entities. This is used to hold --- a list of subprogram entities for subprograms associated with the --- type, linked through the Subprograms_For_Type field of the subprogram --- entity. Basically this is a way of multiplexing the single field to --- hold more than one entity (since we ran out of space in some type --- entities). This is currently used for Invariant_Procedure and also --- for Predicate_Function, and clients will always use the latter two --- names to access entries in this list. +-- Subprograms_For_Type (Elist29) +-- Defined in all types. The list may contain the entities of the default +-- initial condition procedure, invariant procedure, and the two versions +-- of the predicate function. +-- +-- Historical note: This attribute used to be a direct linked list of +-- entities rather than an Elist. The Elist allows greater flexibility +-- in inheritance of subprograms between views of the same type. -- Subps_Index (Uint24) -- Present in subprogram entries. Set if the subprogram contains nested @@ -5471,7 +5495,7 @@ package Einfo is -- Pending_Access_Types (Elist15) -- Related_Expression (Node24) -- Current_Use_Clause (Node27) - -- Subprograms_For_Type (Node29) + -- Subprograms_For_Type (Elist29) -- Derived_Type_Link (Node31) -- No_Tagged_Streams_Pragma (Node32) -- Linker_Section_Pragma (Node33) @@ -5495,11 +5519,12 @@ package Einfo is -- Has_Discriminants (Flag5) -- Has_Dynamic_Predicate_Aspect (Flag258) -- Has_Independent_Components (Flag34) (base type only) - -- Has_Inheritable_Invariants (Flag248) + -- Has_Inheritable_Invariants (Flag248) (base type only) -- Has_Inherited_Default_Init_Cond (Flag133) (base type only) - -- Has_Invariants (Flag232) + -- Has_Inherited_Invariants (Flag291) (base type only) -- Has_Non_Standard_Rep (Flag75) (base type only) -- Has_Object_Size_Clause (Flag172) + -- Has_Own_Invariants (Flag232) (base type only) -- Has_Pragma_Preelab_Init (Flag221) -- Has_Pragma_Unreferenced_Objects (Flag212) -- Has_Predicates (Flag250) @@ -5553,11 +5578,13 @@ package Einfo is -- Alignment_Clause (synth) -- Base_Type (synth) -- Default_Init_Cond_Procedure (synth) + -- Has_Invariants (synth) -- Implementation_Base_Type (synth) -- Invariant_Procedure (synth) -- Is_Access_Protected_Subprogram_Type (synth) -- Is_Atomic_Or_VFA (synth) -- Is_Controlled_Active (synth) + -- Partial_Invariant_Procedure (synth) -- Predicate_Function (synth) -- Predicate_Function_M (synth) -- Root_Type (synth) @@ -5921,7 +5948,6 @@ package Einfo is -- Overridden_Operation (Node26) -- Wrapped_Entity (Node27) (non-generic case only) -- Extra_Formals (Node28) - -- Subprograms_For_Type (Node29) -- Corresponding_Equality (Node30) (implicit /= only) -- Thunk_Entity (Node31) (thunk case only) -- Corresponding_Procedure (Node32) (generate C code only) @@ -5942,7 +5968,6 @@ package Einfo is -- Has_Completion (Flag26) -- Has_Controlling_Result (Flag98) -- Has_Expanded_Contract (Flag240) (non-generic case only) - -- Has_Invariants (Flag232) -- Has_Master_Entity (Flag21) -- Has_Missing_Return (Flag142) -- Has_Nested_Block_With_Handler (Flag101) @@ -5952,6 +5977,7 @@ package Einfo is -- Is_Abstract_Subprogram (Flag19) (non-generic case only) -- Is_Called (Flag102) (non-generic case only) -- Is_Constructor (Flag76) + -- Is_Default_Init_Cond_Procedure (Flag132) (non-generic case only) -- Is_Discrim_SO_Function (Flag176) -- Is_Discriminant_Check_Function (Flag264) -- Is_Eliminated (Flag124) @@ -5962,6 +5988,7 @@ package Einfo is -- Is_Intrinsic_Subprogram (Flag64) -- Is_Invariant_Procedure (Flag257) (non-generic case only) -- Is_Machine_Code_Subprogram (Flag137) (non-generic case only) + -- Is_Partial_Invariant_Procedure (Flag292) (non-generic case only) -- Is_Predicate_Function (Flag255) (non-generic case only) -- Is_Predicate_Function_M (Flag256) (non-generic case only) -- Is_Primitive (Flag218) @@ -6094,13 +6121,11 @@ package Einfo is -- Last_Entity (Node20) -- Subps_Index (Uint24) -- Overridden_Operation (Node26) - -- Subprograms_For_Type (Node29) -- Linker_Section_Pragma (Node33) -- Contract (Node34) -- Import_Pragma (Node35) -- SPARK_Pragma (Node40) -- Default_Expressions_Processed (Flag108) - -- Has_Invariants (Flag232) -- Has_Nested_Subprogram (Flag282) -- Is_Intrinsic_Subprogram (Flag64) -- Is_Machine_Code_Subprogram (Flag137) @@ -6254,7 +6279,6 @@ package Einfo is -- Discard_Names (Flag88) -- Has_Completion (Flag26) -- Has_Expanded_Contract (Flag240) (non-generic case only) - -- Has_Invariants (Flag232) -- Has_Master_Entity (Flag21) -- Has_Nested_Block_With_Handler (Flag101) -- Has_Nested_Subprogram (Flag282) @@ -6273,6 +6297,7 @@ package Einfo is -- Is_Invariant_Procedure (Flag257) (non-generic case only) -- Is_Machine_Code_Subprogram (Flag137) (non-generic case only) -- Is_Null_Init_Proc (Flag178) + -- Is_Partial_Invariant_Procedure (Flag292) (non-generic case only) -- Is_Predicate_Function (Flag255) (non-generic case only) -- Is_Predicate_Function_M (Flag256) (non-generic case only) -- Is_Primitive (Flag218) @@ -6918,6 +6943,7 @@ package Einfo is function Has_Independent_Components (Id : E) return B; function Has_Inheritable_Invariants (Id : E) return B; function Has_Inherited_Default_Init_Cond (Id : E) return B; + function Has_Inherited_Invariants (Id : E) return B; function Has_Initial_Value (Id : E) return B; function Has_Interrupt_Handler (Id : E) return B; function Has_Invariants (Id : E) return B; @@ -6930,6 +6956,7 @@ package Einfo is function Has_Non_Standard_Rep (Id : E) return B; function Has_Object_Size_Clause (Id : E) return B; function Has_Out_Or_In_Out_Parameter (Id : E) return B; + function Has_Own_Invariants (Id : E) return B; function Has_Per_Object_Constraint (Id : E) return B; function Has_Pragma_Controlled (Id : E) return B; function Has_Pragma_Elaborate_Body (Id : E) return B; @@ -7058,6 +7085,7 @@ package Einfo is function Is_Packed_Array_Impl_Type (Id : E) return B; function Is_Potentially_Use_Visible (Id : E) return B; function Is_Param_Block_Component_Type (Id : E) return B; + function Is_Partial_Invariant_Procedure (Id : E) return B; function Is_Predicate_Function (Id : E) return B; function Is_Predicate_Function_M (Id : E) return B; function Is_Preelaborated (Id : E) return B; @@ -7208,7 +7236,7 @@ package Einfo is function Strict_Alignment (Id : E) return B; function String_Literal_Length (Id : E) return U; function String_Literal_Low_Bound (Id : E) return N; - function Subprograms_For_Type (Id : E) return E; + function Subprograms_For_Type (Id : E) return L; function Subps_Index (Id : E) return U; function Suppress_Elaboration_Warnings (Id : E) return B; function Suppress_Initialization (Id : E) return B; @@ -7589,8 +7617,8 @@ package Einfo is procedure Set_Has_Independent_Components (Id : E; V : B := True); procedure Set_Has_Inheritable_Invariants (Id : E; V : B := True); procedure Set_Has_Inherited_Default_Init_Cond (Id : E; V : B := True); + procedure Set_Has_Inherited_Invariants (Id : E; V : B := True); procedure Set_Has_Initial_Value (Id : E; V : B := True); - procedure Set_Has_Invariants (Id : E; V : B := True); procedure Set_Has_Loop_Entry_Attributes (Id : E; V : B := True); procedure Set_Has_Machine_Radix_Clause (Id : E; V : B := True); procedure Set_Has_Master_Entity (Id : E; V : B := True); @@ -7600,6 +7628,7 @@ package Einfo is procedure Set_Has_Non_Standard_Rep (Id : E; V : B := True); procedure Set_Has_Object_Size_Clause (Id : E; V : B := True); procedure Set_Has_Out_Or_In_Out_Parameter (Id : E; V : B := True); + procedure Set_Has_Own_Invariants (Id : E; V : B := True); procedure Set_Has_Per_Object_Constraint (Id : E; V : B := True); procedure Set_Has_Pragma_Controlled (Id : E; V : B := True); procedure Set_Has_Pragma_Elaborate_Body (Id : E; V : B := True); @@ -7732,6 +7761,7 @@ package Einfo is procedure Set_Is_Packed (Id : E; V : B := True); procedure Set_Is_Packed_Array_Impl_Type (Id : E; V : B := True); procedure Set_Is_Param_Block_Component_Type (Id : E; V : B := True); + procedure Set_Is_Partial_Invariant_Procedure (Id : E; V : B := True); procedure Set_Is_Potentially_Use_Visible (Id : E; V : B := True); procedure Set_Is_Predicate_Function (Id : E; V : B := True); procedure Set_Is_Predicate_Function_M (Id : E; V : B := True); @@ -7882,7 +7912,7 @@ package Einfo is procedure Set_Strict_Alignment (Id : E; V : B := True); procedure Set_String_Literal_Length (Id : E; V : U); procedure Set_String_Literal_Low_Bound (Id : E; V : N); - procedure Set_Subprograms_For_Type (Id : E; V : E); + procedure Set_Subprograms_For_Type (Id : E; V : L); procedure Set_Subps_Index (Id : E; V : U); procedure Set_Suppress_Elaboration_Warnings (Id : E; V : B := True); procedure Set_Suppress_Initialization (Id : E; V : B := True); @@ -7911,11 +7941,13 @@ package Einfo is function Default_Init_Cond_Procedure (Id : E) return E; function Invariant_Procedure (Id : E) return E; + function Partial_Invariant_Procedure (Id : E) return E; function Predicate_Function (Id : E) return E; function Predicate_Function_M (Id : E) return E; procedure Set_Default_Init_Cond_Procedure (Id : E; V : E); procedure Set_Invariant_Procedure (Id : E; V : E); + procedure Set_Partial_Invariant_Procedure (Id : E; V : E); procedure Set_Predicate_Function (Id : E; V : E); procedure Set_Predicate_Function_M (Id : E; V : E); @@ -8374,8 +8406,8 @@ package Einfo is pragma Inline (Has_Independent_Components); pragma Inline (Has_Inheritable_Invariants); pragma Inline (Has_Inherited_Default_Init_Cond); + pragma Inline (Has_Inherited_Invariants); pragma Inline (Has_Initial_Value); - pragma Inline (Has_Invariants); pragma Inline (Has_Loop_Entry_Attributes); pragma Inline (Has_Machine_Radix_Clause); pragma Inline (Has_Master_Entity); @@ -8385,6 +8417,7 @@ package Einfo is pragma Inline (Has_Non_Standard_Rep); pragma Inline (Has_Object_Size_Clause); pragma Inline (Has_Out_Or_In_Out_Parameter); + pragma Inline (Has_Own_Invariants); pragma Inline (Has_Per_Object_Constraint); pragma Inline (Has_Pragma_Controlled); pragma Inline (Has_Pragma_Elaborate_Body); @@ -8550,6 +8583,7 @@ package Einfo is pragma Inline (Is_Packed); pragma Inline (Is_Packed_Array_Impl_Type); pragma Inline (Is_Param_Block_Component_Type); + pragma Inline (Is_Partial_Invariant_Procedure); pragma Inline (Is_Potentially_Use_Visible); pragma Inline (Is_Predicate_Function); pragma Inline (Is_Predicate_Function_M); @@ -8884,8 +8918,8 @@ package Einfo is pragma Inline (Set_Has_Independent_Components); pragma Inline (Set_Has_Inheritable_Invariants); pragma Inline (Set_Has_Inherited_Default_Init_Cond); + pragma Inline (Set_Has_Inherited_Invariants); pragma Inline (Set_Has_Initial_Value); - pragma Inline (Set_Has_Invariants); pragma Inline (Set_Has_Loop_Entry_Attributes); pragma Inline (Set_Has_Machine_Radix_Clause); pragma Inline (Set_Has_Master_Entity); @@ -8895,6 +8929,7 @@ package Einfo is pragma Inline (Set_Has_Non_Standard_Rep); pragma Inline (Set_Has_Object_Size_Clause); pragma Inline (Set_Has_Out_Or_In_Out_Parameter); + pragma Inline (Set_Has_Own_Invariants); pragma Inline (Set_Has_Per_Object_Constraint); pragma Inline (Set_Has_Pragma_Controlled); pragma Inline (Set_Has_Pragma_Elaborate_Body); @@ -9026,6 +9061,7 @@ package Einfo is pragma Inline (Set_Is_Packed); pragma Inline (Set_Is_Packed_Array_Impl_Type); pragma Inline (Set_Is_Param_Block_Component_Type); + pragma Inline (Set_Is_Partial_Invariant_Procedure); pragma Inline (Set_Is_Potentially_Use_Visible); pragma Inline (Set_Is_Predicate_Function); pragma Inline (Set_Is_Predicate_Function_M); diff --git a/gcc/ada/exp_ch3.adb b/gcc/ada/exp_ch3.adb index d3b21a8b72d..923eca373a7 100644 --- a/gcc/ada/exp_ch3.adb +++ b/gcc/ada/exp_ch3.adb @@ -59,7 +59,6 @@ with Sem_Cat; use Sem_Cat; with Sem_Ch3; use Sem_Ch3; with Sem_Ch6; use Sem_Ch6; with Sem_Ch8; use Sem_Ch8; -with Sem_Ch13; use Sem_Ch13; with Sem_Disp; use Sem_Disp; with Sem_Eval; use Sem_Eval; with Sem_Mech; use Sem_Mech; @@ -92,22 +91,6 @@ package body Exp_Ch3 is -- used for attachment of any actions required in its construction. -- It also supplies the source location used for the procedure. - function Build_Array_Invariant_Proc - (A_Type : Entity_Id; - Nod : Node_Id) return Node_Id; - -- If the component of type of array type has invariants, build procedure - -- that checks invariant on all components of the array. Ada 2012 specifies - -- that an invariant on some type T must be applied to in-out parameters - -- and return values that include a part of type T. If the array type has - -- an otherwise specified invariant, the component check procedure is - -- called from within the user-specified invariant. Otherwise this becomes - -- the invariant procedure for the array type. - - function Build_Record_Invariant_Proc - (R_Type : Entity_Id; - Nod : Node_Id) return Node_Id; - -- Ditto for record types. - function Build_Discriminant_Formals (Rec_Id : Entity_Id; Use_Dl : Boolean) return List_Id; @@ -200,14 +183,6 @@ package body Exp_Ch3 is -- Treat user-defined stream operations as renaming_as_body if the -- subprogram they rename is not frozen when the type is frozen. - procedure Insert_Component_Invariant_Checks - (N : Node_Id; - Typ : Entity_Id; - Proc : Node_Id); - -- If a composite type has invariants and also has components with defined - -- invariants. the component invariant procedure is inserted into the user- - -- defined invariant procedure and added to the checks to be performed. - procedure Initialization_Warning (E : Entity_Id); -- If static elaboration of the package is requested, indicate -- when a type does meet the conditions for static initialization. If @@ -794,138 +769,6 @@ package body Exp_Ch3 is end if; end Build_Array_Init_Proc; - -------------------------------- - -- Build_Array_Invariant_Proc -- - -------------------------------- - - function Build_Array_Invariant_Proc - (A_Type : Entity_Id; - Nod : Node_Id) return Node_Id - is - Loc : constant Source_Ptr := Sloc (Nod); - - Object_Name : constant Name_Id := New_Internal_Name ('I'); - -- Name for argument of invariant procedure - - Object_Entity : constant Node_Id := - Make_Defining_Identifier (Loc, Object_Name); - -- The procedure declaration entity for the argument - - Body_Stmts : List_Id; - Index_List : List_Id; - Proc_Id : Entity_Id; - Proc_Body : Node_Id; - - function Build_Component_Invariant_Call return Node_Id; - -- Create one statement to verify invariant on one array component, - -- designated by a full set of indexes. - - function Check_One_Dimension (N : Int) return List_Id; - -- Create loop to check on one dimension of the array. The single - -- statement in the loop body checks the inner dimensions if any, or - -- else a single component. This procedure is called recursively, with - -- N being the dimension to be initialized. A call with N greater than - -- the number of dimensions generates the component initialization - -- and terminates the recursion. - - ------------------------------------ - -- Build_Component_Invariant_Call -- - ------------------------------------ - - function Build_Component_Invariant_Call return Node_Id is - Comp : Node_Id; - begin - Comp := - Make_Indexed_Component (Loc, - Prefix => New_Occurrence_Of (Object_Entity, Loc), - Expressions => Index_List); - return - Make_Procedure_Call_Statement (Loc, - Name => - New_Occurrence_Of - (Invariant_Procedure (Component_Type (A_Type)), Loc), - Parameter_Associations => New_List (Comp)); - end Build_Component_Invariant_Call; - - ------------------------- - -- Check_One_Dimension -- - ------------------------- - - function Check_One_Dimension (N : Int) return List_Id is - Index : Entity_Id; - - begin - -- If all dimensions dealt with, we simply check invariant of the - -- component. - - if N > Number_Dimensions (A_Type) then - return New_List (Build_Component_Invariant_Call); - - -- Else generate one loop and recurse - - else - Index := - Make_Defining_Identifier (Loc, New_External_Name ('J', N)); - - Append (New_Occurrence_Of (Index, Loc), Index_List); - - return New_List ( - Make_Implicit_Loop_Statement (Nod, - Identifier => Empty, - Iteration_Scheme => - Make_Iteration_Scheme (Loc, - Loop_Parameter_Specification => - Make_Loop_Parameter_Specification (Loc, - Defining_Identifier => Index, - Discrete_Subtype_Definition => - Make_Attribute_Reference (Loc, - Prefix => - New_Occurrence_Of (Object_Entity, Loc), - Attribute_Name => Name_Range, - Expressions => New_List ( - Make_Integer_Literal (Loc, N))))), - Statements => Check_One_Dimension (N + 1))); - end if; - end Check_One_Dimension; - - -- Start of processing for Build_Array_Invariant_Proc - - begin - Index_List := New_List; - - Proc_Id := - Make_Defining_Identifier (Loc, - Chars => New_External_Name (Chars (A_Type), "CInvariant")); - - Body_Stmts := Check_One_Dimension (1); - - Proc_Body := - Make_Subprogram_Body (Loc, - Specification => - Make_Procedure_Specification (Loc, - Defining_Unit_Name => Proc_Id, - Parameter_Specifications => New_List ( - Make_Parameter_Specification (Loc, - Defining_Identifier => Object_Entity, - Parameter_Type => New_Occurrence_Of (A_Type, Loc)))), - - Declarations => Empty_List, - Handled_Statement_Sequence => - Make_Handled_Sequence_Of_Statements (Loc, - Statements => Body_Stmts)); - - Set_Ekind (Proc_Id, E_Procedure); - Set_Is_Public (Proc_Id, Is_Public (A_Type)); - Set_Is_Internal (Proc_Id); - Set_Has_Completion (Proc_Id); - - if not Debug_Generated_Code then - Set_Debug_Info_Off (Proc_Id); - end if; - - return Proc_Body; - end Build_Array_Invariant_Proc; - -------------------------------- -- Build_Discr_Checking_Funcs -- -------------------------------- @@ -3671,242 +3514,6 @@ package body Exp_Ch3 is end if; end Build_Record_Init_Proc; - -------------------------------- - -- Build_Record_Invariant_Proc -- - -------------------------------- - - function Build_Record_Invariant_Proc - (R_Type : Entity_Id; - Nod : Node_Id) return Node_Id - is - Loc : constant Source_Ptr := Sloc (Nod); - - Object_Name : constant Name_Id := New_Internal_Name ('I'); - -- Name for argument of invariant procedure - - Object_Entity : constant Node_Id := - Make_Defining_Identifier (Loc, Object_Name); - -- The procedure declaration entity for the argument - - Invariant_Found : Boolean; - -- Set if any component needs an invariant check. - - Proc_Id : Entity_Id; - Proc_Body : Node_Id; - Stmts : List_Id; - Type_Def : Node_Id; - - function Build_Invariant_Checks (Comp_List : Node_Id) return List_Id; - -- Recursive procedure that generates a list of checks for components - -- that need it, and recurses through variant parts when present. - - function Build_Component_Invariant_Call - (Comp : Entity_Id) return Node_Id; - -- Build call to invariant procedure for a record component - - ------------------------------------ - -- Build_Component_Invariant_Call -- - ------------------------------------ - - function Build_Component_Invariant_Call - (Comp : Entity_Id) return Node_Id - is - Call : Node_Id; - Proc : Entity_Id; - Sel_Comp : Node_Id; - Typ : Entity_Id; - - begin - Typ := Etype (Comp); - - Sel_Comp := - Make_Selected_Component (Loc, - Prefix => New_Occurrence_Of (Object_Entity, Loc), - Selector_Name => New_Occurrence_Of (Comp, Loc)); - - if Is_Access_Type (Typ) then - - -- If the access component designates a type with an invariant, - -- the check applies to the designated object. The access type - -- itself may have an invariant, in which case it applies to the - -- access value directly. - - -- Note: we are assuming that invariants will not occur on both - -- the access type and the type that it designates. This is not - -- really justified but it is hard to imagine that this case will - -- ever cause trouble ??? - - if not (Has_Invariants (Typ)) then - Sel_Comp := Make_Explicit_Dereference (Loc, Sel_Comp); - Typ := Designated_Type (Typ); - end if; - end if; - - -- The aspect is type-specific, so retrieve it from the base type - - Proc := Invariant_Procedure (Base_Type (Typ)); - - if Has_Null_Body (Proc) then - return Make_Null_Statement (Loc); - end if; - - Invariant_Found := True; - Call := - Make_Procedure_Call_Statement (Loc, - Name => New_Occurrence_Of (Proc, Loc), - Parameter_Associations => New_List (Sel_Comp)); - - if Is_Access_Type (Etype (Comp)) then - Call := - Make_If_Statement (Loc, - Condition => - Make_Op_Ne (Loc, - Left_Opnd => Make_Null (Loc), - Right_Opnd => - Make_Selected_Component (Loc, - Prefix => - New_Occurrence_Of (Object_Entity, Loc), - Selector_Name => New_Occurrence_Of (Comp, Loc))), - Then_Statements => New_List (Call)); - end if; - - return Call; - end Build_Component_Invariant_Call; - - ---------------------------- - -- Build_Invariant_Checks -- - ---------------------------- - - function Build_Invariant_Checks (Comp_List : Node_Id) return List_Id is - Decl : Node_Id; - Id : Entity_Id; - Stmts : List_Id; - - begin - Stmts := New_List; - Decl := First_Non_Pragma (Component_Items (Comp_List)); - while Present (Decl) loop - if Nkind (Decl) = N_Component_Declaration then - Id := Defining_Identifier (Decl); - - if Has_Invariants (Etype (Id)) - and then In_Open_Scopes (Scope (R_Type)) - then - if Has_Unchecked_Union (R_Type) then - Error_Msg_NE - ("invariants cannot be checked on components of " - & "unchecked_union type&?", Decl, R_Type); - return Empty_List; - - else - Append_To (Stmts, Build_Component_Invariant_Call (Id)); - end if; - - elsif Is_Access_Type (Etype (Id)) - and then not Is_Access_Constant (Etype (Id)) - and then Has_Invariants (Designated_Type (Etype (Id))) - and then In_Open_Scopes (Scope (Designated_Type (Etype (Id)))) - then - Append_To (Stmts, Build_Component_Invariant_Call (Id)); - end if; - end if; - - Next (Decl); - end loop; - - if Present (Variant_Part (Comp_List)) then - declare - Variant_Alts : constant List_Id := New_List; - Var_Loc : Source_Ptr; - Variant : Node_Id; - Variant_Stmts : List_Id; - - begin - Variant := - First_Non_Pragma (Variants (Variant_Part (Comp_List))); - while Present (Variant) loop - Variant_Stmts := - Build_Invariant_Checks (Component_List (Variant)); - Var_Loc := Sloc (Variant); - Append_To (Variant_Alts, - Make_Case_Statement_Alternative (Var_Loc, - Discrete_Choices => - New_Copy_List (Discrete_Choices (Variant)), - Statements => Variant_Stmts)); - - Next_Non_Pragma (Variant); - end loop; - - -- The expression in the case statement is the reference to - -- the discriminant of the target object. - - Append_To (Stmts, - Make_Case_Statement (Var_Loc, - Expression => - Make_Selected_Component (Var_Loc, - Prefix => New_Occurrence_Of (Object_Entity, Var_Loc), - Selector_Name => New_Occurrence_Of - (Entity - (Name (Variant_Part (Comp_List))), Var_Loc)), - Alternatives => Variant_Alts)); - end; - end if; - - return Stmts; - end Build_Invariant_Checks; - - -- Start of processing for Build_Record_Invariant_Proc - - begin - Invariant_Found := False; - Type_Def := Type_Definition (Parent (R_Type)); - - if Nkind (Type_Def) = N_Record_Definition - and then not Null_Present (Type_Def) - then - Stmts := Build_Invariant_Checks (Component_List (Type_Def)); - else - return Empty; - end if; - - if not Invariant_Found then - return Empty; - end if; - - -- The name of the invariant procedure reflects the fact that the - -- checks correspond to invariants on the component types. The - -- record type itself may have invariants that will create a separate - -- procedure whose name carries the Invariant suffix. - - Proc_Id := - Make_Defining_Identifier (Loc, - Chars => New_External_Name (Chars (R_Type), "CInvariant")); - - Proc_Body := - Make_Subprogram_Body (Loc, - Specification => - Make_Procedure_Specification (Loc, - Defining_Unit_Name => Proc_Id, - Parameter_Specifications => New_List ( - Make_Parameter_Specification (Loc, - Defining_Identifier => Object_Entity, - Parameter_Type => New_Occurrence_Of (R_Type, Loc)))), - - Declarations => Empty_List, - Handled_Statement_Sequence => - Make_Handled_Sequence_Of_Statements (Loc, - Statements => Stmts)); - - Set_Ekind (Proc_Id, E_Procedure); - Set_Is_Public (Proc_Id, Is_Public (R_Type)); - Set_Is_Internal (Proc_Id); - Set_Has_Completion (Proc_Id); - - return Proc_Body; - -- Insert_After (Nod, Proc_Body); - -- Analyze (Proc_Body); - end Build_Record_Invariant_Proc; - ---------------------------- -- Build_Slice_Assignment -- ---------------------------- @@ -4680,21 +4287,6 @@ package body Exp_Ch3 is Build_Array_Init_Proc (Base, N); end if; - if Has_Invariants (Component_Type (Base)) - and then Typ = Base - and then In_Open_Scopes (Scope (Component_Type (Base))) - then - -- Generate component invariant checking procedure. This is only - -- relevant if the array type is within the scope of the component - -- type. Otherwise an array object can only be built using the public - -- subprograms for the component type, and calls to those will have - -- invariant checks. The invariant procedure is only generated for - -- a base type, not a subtype. - - Insert_Component_Invariant_Checks - (N, Base, Build_Array_Invariant_Proc (Base, N)); - end if; - Ghost_Mode := Save_Ghost_Mode; end Expand_Freeze_Array_Type; @@ -5551,24 +5143,6 @@ package body Exp_Ch3 is end; end if; - -- Check whether individual components have a defined invariant, and add - -- the corresponding component invariant checks. - - -- Do not create an invariant procedure for some internally generated - -- subtypes, in particular those created for objects of a class-wide - -- type. Such types may have components to which invariant apply, but - -- the corresponding checks will be applied when an object of the parent - -- type is constructed. - - -- Such objects will show up in a class-wide postcondition, and the - -- invariant will be checked, if necessary, upon return from the - -- enclosing subprogram. - - if not Is_Class_Wide_Equivalent_Type (Typ) then - Insert_Component_Invariant_Checks - (N, Typ, Build_Record_Invariant_Proc (Typ, N)); - end if; - Ghost_Mode := Save_Ghost_Mode; end Expand_Freeze_Record_Type; @@ -7476,11 +7050,11 @@ package body Exp_Ch3 is elsif Ekind_In (Def_Id, E_Access_Type, E_General_Access_Type) then declare - Loc : constant Source_Ptr := Sloc (N); - Desig_Type : constant Entity_Id := Designated_Type (Def_Id); - Pool_Object : Entity_Id; + Loc : constant Source_Ptr := Sloc (N); + Desig_Type : constant Entity_Id := Designated_Type (Def_Id); Freeze_Action_Typ : Entity_Id; + Pool_Object : Entity_Id; begin -- Case 1 @@ -7500,8 +7074,8 @@ package body Exp_Ch3 is elsif Has_Storage_Size_Clause (Def_Id) then declare - DT_Size : Node_Id; DT_Align : Node_Id; + DT_Size : Node_Id; begin -- For unconstrained composite types we give a size of zero @@ -7746,6 +7320,16 @@ package body Exp_Ch3 is Process_Pending_Access_Types (Def_Id); Freeze_Stream_Operations (N, Def_Id); + -- Generate the [spec and] body of the invariant procedure tasked with + -- the runtime verification of all invariants that pertain to the type. + -- This includes invariants on the partial and full view, inherited + -- class-wide invariants from parent types or interfaces, and invariants + -- on array elements or record components. + + if Has_Invariants (Def_Id) then + Build_Invariant_Procedure_Body (Def_Id); + end if; + Ghost_Mode := Save_Ghost_Mode; return Result; @@ -8164,77 +7748,6 @@ package body Exp_Ch3 is return Is_RTU (S1, System) or else Is_RTU (S1, Ada); end In_Runtime; - --------------------------------------- - -- Insert_Component_Invariant_Checks -- - --------------------------------------- - - procedure Insert_Component_Invariant_Checks - (N : Node_Id; - Typ : Entity_Id; - Proc : Node_Id) - is - Loc : constant Source_Ptr := Sloc (Typ); - Proc_Id : Entity_Id; - - begin - if Present (Proc) then - Proc_Id := Defining_Entity (Proc); - - if not Has_Invariants (Typ) then - Set_Has_Invariants (Typ); - Set_Is_Invariant_Procedure (Proc_Id); - Set_Invariant_Procedure (Typ, Proc_Id); - Insert_After (N, Proc); - Analyze (Proc); - - else - - -- Find already created invariant subprogram, insert body of - -- component invariant proc in its body, and add call after - -- other checks. - - declare - Bod : Node_Id; - Inv_Id : constant Entity_Id := Invariant_Procedure (Typ); - Call : constant Node_Id := - Make_Procedure_Call_Statement (Sloc (N), - Name => New_Occurrence_Of (Proc_Id, Loc), - Parameter_Associations => - New_List - (New_Occurrence_Of (First_Formal (Inv_Id), Loc))); - - begin - -- The invariant body has not been analyzed yet, so we do a - -- sequential search forward, and retrieve it by name. - - Bod := Next (N); - while Present (Bod) loop - exit when Nkind (Bod) = N_Subprogram_Body - and then Chars (Defining_Entity (Bod)) = Chars (Inv_Id); - Next (Bod); - end loop; - - -- If the body is not found, it is the case of an invariant - -- appearing on a full declaration in a private part, in - -- which case the type has been frozen but the invariant - -- procedure for the composite type not created yet. Create - -- body now. - - if No (Bod) then - Build_Invariant_Procedure (Typ, Parent (Current_Scope)); - Bod := Unit_Declaration_Node - (Corresponding_Body (Unit_Declaration_Node (Inv_Id))); - end if; - - Append_To (Declarations (Bod), Proc); - Append_To (Statements (Handled_Statement_Sequence (Bod)), Call); - Analyze (Proc); - Analyze (Call); - end; - end if; - end if; - end Insert_Component_Invariant_Checks; - ---------------------------- -- Initialization_Warning -- ---------------------------- diff --git a/gcc/ada/exp_ch7.adb b/gcc/ada/exp_ch7.adb index d6c17372385..0e6dc4591c2 100644 --- a/gcc/ada/exp_ch7.adb +++ b/gcc/ada/exp_ch7.adb @@ -55,12 +55,15 @@ with Sinfo; use Sinfo; with Sem; use Sem; with Sem_Aux; use Sem_Aux; with Sem_Ch3; use Sem_Ch3; +with Sem_Ch6; use Sem_Ch6; with Sem_Ch7; use Sem_Ch7; with Sem_Ch8; use Sem_Ch8; +with Sem_Ch13; use Sem_Ch13; with Sem_Res; use Sem_Res; with Sem_Util; use Sem_Util; with Snames; use Snames; with Stand; use Stand; +with Stringt; use Stringt; with Tbuild; use Tbuild; with Ttypes; use Ttypes; with Uintp; use Uintp; @@ -3438,6 +3441,1518 @@ package body Exp_Ch7 is Expand_At_End_Handler (HSS, Empty); end Build_Finalizer_Call; + ------------------------------------ + -- Build_Invariant_Procedure_Body -- + ------------------------------------ + + procedure Build_Invariant_Procedure_Body + (Typ : Entity_Id; + Partial_Invariant : Boolean := False) + is + Loc : constant Source_Ptr := Sloc (Typ); + + Pragmas_Seen : Elist_Id := No_Elist; + -- This list contains all invariant pragmas processed so far. The list + -- is used to avoid generating redundant invariant checks. + + Produced_Check : Boolean := False; + -- This flag tracks whether the type has produced at least one invariant + -- check. The flag is used as a sanity check at the end of the routine. + + -- NOTE: most of the routines in Build_Invariant_Procedure_Body are + -- intentionally unnested to avoid deep indentation of code. + + -- NOTE: all Add_xxx_Invariants routines are reactive. In other words + -- they emit checks, loops (for arrays) and case statements (for record + -- variant parts) only when there are invariants to verify. This keeps + -- the body of the invariant procedure free from useless code. + + procedure Add_Array_Component_Invariants + (T : Entity_Id; + Obj_Id : Entity_Id; + Checks : in out List_Id); + -- Generate an invariant check for each component of array type T. + -- Obj_Id denotes the entity of the _object formal parameter of the + -- invariant procedure. All created checks are added to list Checks. + + procedure Add_Interface_Invariants + (T : Entity_Id; + Obj_Id : Entity_Id; + Checks : in out List_Id); + -- Generate an invariant check for each inherited class-wide invariant + -- coming from all interfaces implemented by type T. Obj_Id denotes the + -- entity of the _object formal parameter of the invariant procedure. + -- All created checks are added to list Checks. + + procedure Add_Parent_Invariants + (T : Entity_Id; + Obj_Id : Entity_Id; + Checks : in out List_Id); + -- Generate an invariant check for each inherited class-wide invariant + -- coming from all parent types of type T. Obj_Id denotes the entity of + -- the _object formal parameter of the invariant procedure. All created + -- checks are added to list Checks. + + procedure Add_Record_Component_Invariants + (T : Entity_Id; + Obj_Id : Entity_Id; + Checks : in out List_Id); + -- Generate an invariant check for each component of record type T. + -- Obj_Id denotes the entity of the _object formal parameter of the + -- invariant procedure. All created checks are added to list Checks. + + procedure Add_Type_Invariants + (Priv_Typ : Entity_Id; + Full_Typ : Entity_Id; + CRec_Typ : Entity_Id; + Obj_Id : Entity_Id; + Checks : in out List_Id; + Inherit : Boolean := False; + Priv_Item : Node_Id := Empty); + -- Generate an invariant check for each invariant found in one of the + -- following types (if available): + -- + -- Priv_Typ - the partial view of a type + -- Full_Typ - the full view of a type + -- CRec_Typ - the corresponding record of a protected or a task type + -- + -- Obj_Id denotes the entity of the _object formal parameter of the + -- invariant procedure. All created checks are added to list Checks. + -- Flag Inherit should be set when generating invariant checks for + -- inherited class-wide invariants. Priv_Item denotes the first rep + -- item of the private type. + + procedure Create_Append (L : in out List_Id; N : Node_Id); + -- Append arbitrary node N to list L. If there is no list, create one. + + function Is_Untagged_Private_Derivation + (Priv_Typ : Entity_Id; + Full_Typ : Entity_Id) return Boolean; + -- Determine whether private type Priv_Typ and its full view Full_Typ + -- represent an untagged derivation from a private parent. + + ------------------------------------ + -- Add_Array_Component_Invariants -- + ------------------------------------ + + procedure Add_Array_Component_Invariants + (T : Entity_Id; + Obj_Id : Entity_Id; + Checks : in out List_Id) + is + Comp_Typ : constant Entity_Id := Component_Type (T); + Dims : constant Pos := Number_Dimensions (T); + + procedure Process_Array_Component + (Indices : List_Id; + Comp_Checks : in out List_Id); + -- Generate an invariant check for an array component identified by + -- the indices in list Indices. All created checks are added to list + -- Comp_Checks. + + procedure Process_One_Dimension + (Dim : Pos; + Indices : List_Id; + Dim_Checks : in out List_Id); + -- Generate a loop over the Nth dimension Dim of an array type. List + -- Indices contains all array indices for the dimension. All created + -- checks are added to list Dim_Checks. + + ----------------------------- + -- Process_Array_Component -- + ----------------------------- + + procedure Process_Array_Component + (Indices : List_Id; + Comp_Checks : in out List_Id) + is + Proc_Id : Entity_Id; + + begin + if Has_Invariants (Comp_Typ) then + Proc_Id := Invariant_Procedure (Base_Type (Comp_Typ)); + + -- The component type should have an invariant procedure if it + -- has invariants of its own or inherits class-wide invariants + -- from parent or interface types. + + pragma Assert (Present (Proc_Id)); + + -- Generate: + -- Invariant (_object ()); + + -- Note that the invariant procedure may have a null body if + -- assertions are disabled or Assertion_Polity Ignore is in + -- effect. + + if not Has_Null_Body (Proc_Id) then + Create_Append (Comp_Checks, + Make_Procedure_Call_Statement (Loc, + Name => + New_Occurrence_Of (Proc_Id, Loc), + Parameter_Associations => New_List ( + Make_Indexed_Component (Loc, + Prefix => New_Occurrence_Of (Obj_Id, Loc), + Expressions => New_Copy_List (Indices))))); + end if; + + Produced_Check := True; + end if; + + -- In a rare case the designated type of an access component may + -- have an invariant. In this case verify the dereference of the + -- component. + + if Is_Access_Type (Comp_Typ) + and then Has_Invariants (Designated_Type (Comp_Typ)) + then + Proc_Id := + Invariant_Procedure (Base_Type (Designated_Type (Comp_Typ))); + + -- The designated type should have an invariant procedure if it + -- has invariants of its own or inherits class-wide invariants + -- from parent or interface types. + + pragma Assert (Present (Proc_Id)); + + -- Generate: + -- if _object () /= null then + -- Invariant (_object ().all); + -- end if; + + -- Note that the invariant procedure may have a null body if + -- assertions are disabled or Assertion_Polity Ignore is in + -- effect. + + if not Has_Null_Body (Proc_Id) then + Create_Append (Comp_Checks, + Make_If_Statement (Loc, + Condition => + Make_Op_Ne (Loc, + Left_Opnd => + Make_Indexed_Component (Loc, + Prefix => New_Occurrence_Of (Obj_Id, Loc), + Expressions => New_Copy_List (Indices)), + Right_Opnd => Make_Null (Loc)), + + Then_Statements => New_List ( + Make_Procedure_Call_Statement (Loc, + Name => + New_Occurrence_Of (Proc_Id, Loc), + + Parameter_Associations => New_List ( + Make_Explicit_Dereference (Loc, + Prefix => + Make_Indexed_Component (Loc, + Prefix => + New_Occurrence_Of (Obj_Id, Loc), + Expressions => + New_Copy_List (Indices)))))))); + end if; + + Produced_Check := True; + end if; + end Process_Array_Component; + + --------------------------- + -- Process_One_Dimension -- + --------------------------- + + procedure Process_One_Dimension + (Dim : Pos; + Indices : List_Id; + Dim_Checks : in out List_Id) + is + Comp_Checks : List_Id := No_List; + Index : Entity_Id; + + begin + -- Generate the invariant checks for the array component after all + -- dimensions have produced their respective loops. + + if Dim > Dims then + Process_Array_Component + (Indices => Indices, + Comp_Checks => Dim_Checks); + + -- Otherwise create a loop for the current dimension + + else + -- Create a new loop variable for each dimension + + Index := + Make_Defining_Identifier (Loc, + Chars => New_External_Name ('I', Dim)); + Append_To (Indices, New_Occurrence_Of (Index, Loc)); + + Process_One_Dimension + (Dim => Dim + 1, + Indices => Indices, + Dim_Checks => Comp_Checks); + + -- Generate: + -- for I in _object'Range () loop + -- + -- end loop; + + -- Note that the invariant procedure may have a null body if + -- assertions are disabled or Assertion_Polity Ignore is in + -- effect. + + if Present (Comp_Checks) then + Create_Append (Dim_Checks, + Make_Implicit_Loop_Statement (T, + Identifier => Empty, + Iteration_Scheme => + Make_Iteration_Scheme (Loc, + Loop_Parameter_Specification => + Make_Loop_Parameter_Specification (Loc, + Defining_Identifier => Index, + Discrete_Subtype_Definition => + Make_Attribute_Reference (Loc, + Prefix => + New_Occurrence_Of (Obj_Id, Loc), + Attribute_Name => Name_Range, + Expressions => New_List ( + Make_Integer_Literal (Loc, Dim))))), + + Statements => Comp_Checks)); + end if; + end if; + end Process_One_Dimension; + + -- Start of processing for Add_Array_Component_Invariants + + begin + Process_One_Dimension + (Dim => 1, + Indices => New_List, + Dim_Checks => Checks); + end Add_Array_Component_Invariants; + + ------------------------------ + -- Add_Interface_Invariants -- + ------------------------------ + + procedure Add_Interface_Invariants + (T : Entity_Id; + Obj_Id : Entity_Id; + Checks : in out List_Id) + is + Iface_Elmt : Elmt_Id; + Ifaces : Elist_Id; + + begin + if Is_Tagged_Type (T) then + Collect_Interfaces (T, Ifaces); + + -- Process the class-wide invariants of all implemented interfaces + + Iface_Elmt := First_Elmt (Ifaces); + while Present (Iface_Elmt) loop + Add_Type_Invariants + (Priv_Typ => Empty, + Full_Typ => Node (Iface_Elmt), + CRec_Typ => Empty, + Obj_Id => Obj_Id, + Checks => Checks, + Inherit => True); + + Next_Elmt (Iface_Elmt); + end loop; + end if; + end Add_Interface_Invariants; + + --------------------------- + -- Add_Parent_Invariants -- + --------------------------- + + procedure Add_Parent_Invariants + (T : Entity_Id; + Obj_Id : Entity_Id; + Checks : in out List_Id) + is + Dummy_1 : Entity_Id; + Dummy_2 : Entity_Id; + + Curr_Typ : Entity_Id; + -- The entity of the current type being examined + + Full_Typ : Entity_Id; + -- The full view of Par_Typ + + Par_Typ : Entity_Id; + -- The entity of the parent type + + Priv_Typ : Entity_Id; + -- The partial view of Par_Typ + + begin + -- Climb the parent type chain + + Curr_Typ := T; + loop + -- Do not consider subtypes as they inherit the invariants from + -- their base types. + + Par_Typ := Base_Type (Etype (Curr_Typ)); + + -- Stop the climb once the root of the parent chain is reached + + exit when Curr_Typ = Par_Typ; + + -- Process the class-wide invariants of the parent type + + Get_Views (Par_Typ, Priv_Typ, Full_Typ, Dummy_1, Dummy_2); + + Add_Type_Invariants + (Priv_Typ => Priv_Typ, + Full_Typ => Full_Typ, + CRec_Typ => Empty, + Obj_Id => Obj_Id, + Checks => Checks, + Inherit => True); + + Curr_Typ := Par_Typ; + end loop; + end Add_Parent_Invariants; + + ------------------------------------- + -- Add_Record_Component_Invariants -- + ------------------------------------- + + procedure Add_Record_Component_Invariants + (T : Entity_Id; + Obj_Id : Entity_Id; + Checks : in out List_Id) + is + procedure Process_Component_List + (Comp_List : Node_Id; + CL_Checks : in out List_Id); + -- Generate invariant checks for all record components found in + -- component list Comp_List, including variant parts. All created + -- checks are added to list CL_Checks. + + procedure Process_Record_Component + (Comp_Id : Entity_Id; + Comp_Checks : in out List_Id); + -- Generate an invariant check for a record component identified by + -- Comp_Id. All created checks are added to list Comp_Checks. + + ---------------------------- + -- Process_Component_List -- + ---------------------------- + + procedure Process_Component_List + (Comp_List : Node_Id; + CL_Checks : in out List_Id) + is + Comp : Node_Id; + Var : Node_Id; + Var_Alts : List_Id := No_List; + Var_Checks : List_Id := No_List; + Var_Stmts : List_Id; + + Produced_Variant_Check : Boolean := False; + -- This flag tracks whether the component has produced at least + -- one invariant check. + + begin + -- Traverse the component items + + Comp := First (Component_Items (Comp_List)); + while Present (Comp) loop + if Nkind (Comp) = N_Component_Declaration then + + -- Generate the component invariant check + + Process_Record_Component + (Comp_Id => Defining_Entity (Comp), + Comp_Checks => CL_Checks); + end if; + + Next (Comp); + end loop; + + -- Traverse the variant part + + if Present (Variant_Part (Comp_List)) then + Var := First (Variants (Variant_Part (Comp_List))); + while Present (Var) loop + Var_Checks := No_List; + + -- Generate invariant checks for all components and variant + -- parts that qualify. + + Process_Component_List + (Comp_List => Component_List (Var), + CL_Checks => Var_Checks); + + -- The components of the current variant produced at least + -- one invariant check. + + if Present (Var_Checks) then + Var_Stmts := Var_Checks; + Produced_Variant_Check := True; + + -- Otherwise there are either no components with invariants, + -- assertions are disabled, or Assertion_Policy Ignore is in + -- effect. + + else + Var_Stmts := New_List (Make_Null_Statement (Loc)); + end if; + + Create_Append (Var_Alts, + Make_Case_Statement_Alternative (Loc, + Discrete_Choices => + New_Copy_List (Discrete_Choices (Var)), + Statements => Var_Stmts)); + + Next (Var); + end loop; + + -- Create a case statement which verifies the invariant checks + -- of a particular component list depending on the discriminant + -- values only when there is at least one real invariant check. + + if Produced_Variant_Check then + Create_Append (CL_Checks, + Make_Case_Statement (Loc, + Expression => + Make_Selected_Component (Loc, + Prefix => New_Occurrence_Of (Obj_Id, Loc), + Selector_Name => + New_Occurrence_Of + (Entity (Name (Variant_Part (Comp_List))), Loc)), + Alternatives => Var_Alts)); + end if; + end if; + end Process_Component_List; + + ------------------------------ + -- Process_Record_Component -- + ------------------------------ + + procedure Process_Record_Component + (Comp_Id : Entity_Id; + Comp_Checks : in out List_Id) + is + Comp_Typ : constant Entity_Id := Etype (Comp_Id); + Proc_Id : Entity_Id; + + Produced_Component_Check : Boolean := False; + -- This flag tracks whether the component has produced at least + -- one invariant check. + + begin + -- Nothing to do for internal component _parent. Note that it is + -- not desirable to check whether the component comes from source + -- because protected type components are relocated to an internal + -- corresponding record, but still need processing. + + if Chars (Comp_Id) = Name_uParent then + return; + end if; + + -- Verify the invariant of the component. Note that an access + -- type may have an invariant when it acts as the full view of a + -- private type and the invariant appears on the partial view. In + -- this case verify the access value itself. + + if Has_Invariants (Comp_Typ) then + Proc_Id := Invariant_Procedure (Base_Type (Comp_Typ)); + + -- The component type should have an invariant procedure if it + -- has invariants of its own or inherits class-wide invariants + -- from parent or interface types. + + pragma Assert (Present (Proc_Id)); + + -- Generate: + -- Invariant (T (_object).); + + -- Note that the invariant procedure may have a null body if + -- assertions are disabled or Assertion_Polity Ignore is in + -- effect. + + if not Has_Null_Body (Proc_Id) then + Create_Append (Comp_Checks, + Make_Procedure_Call_Statement (Loc, + Name => + New_Occurrence_Of (Proc_Id, Loc), + Parameter_Associations => New_List ( + Make_Selected_Component (Loc, + Prefix => + Unchecked_Convert_To + (T, New_Occurrence_Of (Obj_Id, Loc)), + Selector_Name => + New_Occurrence_Of (Comp_Id, Loc))))); + end if; + + Produced_Check := True; + Produced_Component_Check := True; + end if; + + -- In a rare case the designated type of an access component may + -- have a invariant. In this case verify the dereference of the + -- component. + + if Is_Access_Type (Comp_Typ) + and then Has_Invariants (Designated_Type (Comp_Typ)) + then + Proc_Id := + Invariant_Procedure (Base_Type (Designated_Type (Comp_Typ))); + + -- The designated type should have an invariant procedure if it + -- has invariants of its own or inherits class-wide invariants + -- from parent or interface types. + + pragma Assert (Present (Proc_Id)); + + -- Generate: + -- if T (_object). /= null then + -- Invariant (T (_object)..all); + -- end if; + + -- Note that the invariant procedure may have a null body if + -- assertions are disabled or Assertion_Polity Ignore is in + -- effect. + + if not Has_Null_Body (Proc_Id) then + Create_Append (Comp_Checks, + Make_If_Statement (Loc, + Condition => + Make_Op_Ne (Loc, + Left_Opnd => + Make_Selected_Component (Loc, + Prefix => + Unchecked_Convert_To + (T, New_Occurrence_Of (Obj_Id, Loc)), + Selector_Name => + New_Occurrence_Of (Comp_Id, Loc)), + Right_Opnd => Make_Null (Loc)), + + Then_Statements => New_List ( + Make_Procedure_Call_Statement (Loc, + Name => + New_Occurrence_Of (Proc_Id, Loc), + + Parameter_Associations => New_List ( + Make_Explicit_Dereference (Loc, + Prefix => + Make_Selected_Component (Loc, + Prefix => + Unchecked_Convert_To + (T, New_Occurrence_Of (Obj_Id, Loc)), + Selector_Name => + New_Occurrence_Of (Comp_Id, Loc)))))))); + end if; + + Produced_Check := True; + Produced_Component_Check := True; + end if; + + if Produced_Component_Check and then Has_Unchecked_Union (T) then + Error_Msg_NE + ("invariants cannot be checked on components of " + & "unchecked_union type &?", Comp_Id, T); + end if; + end Process_Record_Component; + + -- Local variables + + Comps : Node_Id; + Def : Node_Id; + + -- Start of processing for Add_Record_Component_Invariants + + begin + -- An untagged derived type inherits the components of its parent + -- type. In order to avoid creating redundant invariant checks, do + -- not process the components now. Instead wait until the ultimate + -- parent of the untagged derivation chain is reached. + + if not Is_Untagged_Derivation (T) then + Def := Type_Definition (Parent (T)); + + if Nkind (Def) = N_Derived_Type_Definition then + Def := Record_Extension_Part (Def); + end if; + + pragma Assert (Nkind (Def) = N_Record_Definition); + Comps := Component_List (Def); + + if Present (Comps) then + Process_Component_List + (Comp_List => Comps, + CL_Checks => Checks); + end if; + end if; + end Add_Record_Component_Invariants; + + ------------------------- + -- Add_Type_Invariants -- + ------------------------- + + procedure Add_Type_Invariants + (Priv_Typ : Entity_Id; + Full_Typ : Entity_Id; + CRec_Typ : Entity_Id; + Obj_Id : Entity_Id; + Checks : in out List_Id; + Inherit : Boolean := False; + Priv_Item : Node_Id := Empty) + is + procedure Add_Invariant (Prag : Node_Id); + -- Create a runtime check to verify the invariant exression of pragma + -- Prag. All generated code is added to list Checks. + + procedure Process_Type (T : Entity_Id; Stop_Item : Node_Id := Empty); + -- Generate invariant checks for type T by inspecting the rep item + -- chain of the type. Stop_Item denotes a rep item which once seen + -- will stop the inspection. + + ------------------- + -- Add_Invariant -- + ------------------- + + procedure Add_Invariant (Prag : Node_Id) is + Rep_Typ : Entity_Id; + -- The replacement type used in the substitution of the current + -- instance of a type with the _object formal parameter. + + procedure Replace_Type_Ref (N : Node_Id); + -- Substitute the occurrence of a type name denoted by N with a + -- reference to the _object formal parameter. + + ---------------------- + -- Replace_Type_Ref -- + ---------------------- + + procedure Replace_Type_Ref (N : Node_Id) is + Nloc : constant Source_Ptr := Sloc (N); + Ref : Node_Id; + + begin + -- Decorate the reference to Ref_Typ even though it may be + -- rewritten further down. This is done for two reasons: + + -- 1) ASIS has all necessary semantic information in the + -- original tree. + + -- 2) Routines which examine properties of the Original_Node + -- have some semantic information. + + if Nkind (N) = N_Identifier then + Set_Entity (N, Rep_Typ); + Set_Etype (N, Rep_Typ); + + elsif Nkind (N) = N_Selected_Component then + Analyze (Prefix (N)); + Set_Entity (Selector_Name (N), Rep_Typ); + Set_Etype (Selector_Name (N), Rep_Typ); + end if; + + -- Do not alter the tree for ASIS. As a result all references + -- to Ref_Typ remain as is, but they have sufficent semantic + -- information. + + if not ASIS_Mode then + + -- Perform the following substitution: + + -- Ref_Typ --> _object + + Ref := Make_Identifier (Nloc, Chars (Obj_Id)); + Set_Entity (Ref, Obj_Id); + Set_Etype (Ref, Rep_Typ); + + -- When the pragma denotes a class-wide invariant, perform + -- the following substitution: + + -- Rep_Typ --> Rep_Typ'Class (_object) + + if Class_Present (Prag) then + Ref := + Make_Type_Conversion (Nloc, + Subtype_Mark => + Make_Attribute_Reference (Nloc, + Prefix => + New_Occurrence_Of (Rep_Typ, Nloc), + Attribute_Name => Name_Class), + Expression => Ref); + end if; + + Rewrite (N, Ref); + Set_Comes_From_Source (N, True); + end if; + end Replace_Type_Ref; + + procedure Replace_Type_Refs is + new Replace_Type_References_Generic (Replace_Type_Ref); + + -- Local variables + + Asp : constant Node_Id := Corresponding_Aspect (Prag); + Nam : constant Name_Id := Original_Aspect_Pragma_Name (Prag); + Ploc : constant Source_Ptr := Sloc (Prag); + + Arg1 : Node_Id; + Arg2 : Node_Id; + Arg3 : Node_Id; + ASIS_Expr : Node_Id; + Assoc : List_Id; + Expr : Node_Id; + Str : String_Id; + + -- Start of processing for Add_Invariant + + begin + -- Nothing to do if the pragma was already processed + + if Contains (Pragmas_Seen, Prag) then + return; + end if; + + -- Extract the arguments of the invariant pragma + + Arg1 := First (Pragma_Argument_Associations (Prag)); + Arg2 := Next (Arg1); + Arg3 := Next (Arg2); + + Arg1 := Get_Pragma_Arg (Arg1); + Arg2 := Get_Pragma_Arg (Arg2); + + -- The pragma applies to the partial view + + if Present (Priv_Typ) and then Entity (Arg1) = Priv_Typ then + Rep_Typ := Priv_Typ; + + -- The pragma applies to the full view + + elsif Present (Full_Typ) and then Entity (Arg1) = Full_Typ then + Rep_Typ := Full_Typ; + + -- Otherwise the pragma applies to a parent type in which case it + -- will be processed at a later stage by Add_Parent_Invariants or + -- Add_Interface_Invariants. + + else + return; + end if; + + -- Nothing to do when the caller requests the processing of all + -- inherited class-wide invariants, but the pragma does not fall + -- in this category. + + if Inherit and then not Class_Present (Prag) then + return; + end if; + + Expr := New_Copy_Tree (Arg2); + + -- Substitute all references to type Rep_Typ with references to + -- the _object formal parameter. + + Replace_Type_Refs (Expr, Rep_Typ); + + -- Additional processing for non-class-wide invariants + + if not Inherit then + + -- Preanalyze the invariant expression to detect errors and at + -- the same time capture the visibility of the proper package + -- part. + + -- Historical note: the old implementation of invariants used + -- node N as the parent, but a package specification as parent + -- of an expression is bizarre. + + Set_Parent (Expr, Parent (Arg2)); + Preanalyze_Assert_Expression (Expr, Any_Boolean); + + -- If the pragma comes from an aspect specification, replace + -- the saved expression because all type references must be + -- substituted for the call to Preanalyze_Spec_Expression in + -- Check_Aspect_At_xxx routines. + + if Present (Asp) then + Set_Entity (Identifier (Asp), New_Copy_Tree (Expr)); + end if; + + -- Analyze the original invariant expression for ASIS + + if ASIS_Mode then + ASIS_Expr := Empty; + + if Comes_From_Source (Prag) then + ASIS_Expr := Arg2; + elsif Present (Asp) then + ASIS_Expr := Expression (Asp); + end if; + + if Present (ASIS_Expr) then + Replace_Type_Refs (ASIS_Expr, Rep_Typ); + Preanalyze_Assert_Expression (ASIS_Expr, Any_Boolean); + end if; + end if; + + -- A class-wide invariant may be inherited in a separate unit, + -- where the corresponding expression cannot be resolved by + -- visibility, because it refers to a local function. Propagate + -- semantic information to the original representation item, to + -- be used when an invariant procedure for a derived type is + -- constructed. + + -- ??? Unclear how to handle class-wide invariants that are not + -- function calls. + + if Class_Present (Prag) + and then Nkind (Expr) = N_Function_Call + and then Nkind (Arg2) = N_Indexed_Component + then + Rewrite (Arg2, + Make_Function_Call (Ploc, + Name => + New_Occurrence_Of (Entity (Name (Expr)), Ploc), + Parameter_Associations => Expressions (Arg2))); + end if; + end if; + + -- The invariant is ignored, nothing left to do + + if Is_Ignored (Prag) then + null; + + -- Otherwise the invariant is checked. Build a Check pragma to + -- verify the expression at runtime. + + else + Assoc := New_List ( + Make_Pragma_Argument_Association (Ploc, + Expression => Make_Identifier (Ploc, Nam)), + Make_Pragma_Argument_Association (Ploc, + Expression => Expr)); + + -- Handle the String argument (if any) + + if Present (Arg3) then + Str := Strval (Get_Pragma_Arg (Arg3)); + + -- When inheriting an invariant, modify the message from + -- "failed invariant" to "failed inherited invariant". + + if Inherit then + String_To_Name_Buffer (Str); + + if Name_Buffer (1 .. 16) = "failed invariant" then + Insert_Str_In_Name_Buffer ("inherited ", 8); + Str := String_From_Name_Buffer; + end if; + end if; + + Append_To (Assoc, + Make_Pragma_Argument_Association (Ploc, + Expression => Make_String_Literal (Ploc, Str))); + end if; + + -- Generate: + -- pragma Check (, , ); + + Create_Append (Checks, + Make_Pragma (Ploc, + Pragma_Identifier => + Make_Identifier (Ploc, Name_Check), + Pragma_Argument_Associations => Assoc)); + end if; + + -- Output an info message when inheriting an invariant and the + -- listing option is enabled. + + if Inherit and Opt.List_Inherited_Aspects then + Error_Msg_Sloc := Sloc (Prag); + Error_Msg_N + ("info: & inherits `Invariant''Class` aspect from #?L?", Typ); + end if; + + -- Add the pragma to the list of processed pragmas + + Append_New_Elmt (Prag, Pragmas_Seen); + Produced_Check := True; + end Add_Invariant; + + ------------------ + -- Process_Type -- + ------------------ + + procedure Process_Type + (T : Entity_Id; + Stop_Item : Node_Id := Empty) + is + Rep_Item : Node_Id; + + begin + Rep_Item := First_Rep_Item (T); + while Present (Rep_Item) loop + if Nkind (Rep_Item) = N_Pragma + and then Pragma_Name (Rep_Item) = Name_Invariant + then + -- Stop the traversal of the rep item chain once a specific + -- item is encountered. + + if Present (Stop_Item) and then Rep_Item = Stop_Item then + exit; + + -- Otherwise generate an invariant check + + else + Add_Invariant (Rep_Item); + end if; + end if; + + Next_Rep_Item (Rep_Item); + end loop; + end Process_Type; + + -- Start of processing for Add_Type_Invariants + + begin + -- Process the invariants of the partial view + + if Present (Priv_Typ) then + Process_Type (Priv_Typ); + end if; + + -- Process the invariants of the full view + + if Present (Full_Typ) then + Process_Type (Full_Typ, Stop_Item => Priv_Item); + + -- Process the elements of an array type + + if Is_Array_Type (Full_Typ) then + Add_Array_Component_Invariants (Full_Typ, Obj_Id, Checks); + + -- Process the components of a record type + + elsif Ekind (Full_Typ) = E_Record_Type then + Add_Record_Component_Invariants (Full_Typ, Obj_Id, Checks); + end if; + end if; + + -- Process the components of a corresponding record type + + if Present (CRec_Typ) then + Add_Record_Component_Invariants (CRec_Typ, Obj_Id, Checks); + end if; + end Add_Type_Invariants; + + ------------------- + -- Create_Append -- + ------------------- + + procedure Create_Append (L : in out List_Id; N : Node_Id) is + begin + if No (L) then + L := New_List; + end if; + + Append_To (L, N); + end Create_Append; + + ------------------------------------ + -- Is_Untagged_Private_Derivation -- + ------------------------------------ + + function Is_Untagged_Private_Derivation + (Priv_Typ : Entity_Id; + Full_Typ : Entity_Id) return Boolean + is + begin + return + Present (Priv_Typ) + and then Is_Untagged_Derivation (Priv_Typ) + and then Is_Private_Type (Etype (Priv_Typ)) + and then Present (Full_Typ) + and then Is_Itype (Full_Typ); + end Is_Untagged_Private_Derivation; + + -- Local variables + + Save_Ghost_Mode : constant Ghost_Mode_Type := Ghost_Mode; + + Dummy : Entity_Id; + Priv_Item : Node_Id; + Proc_Body : Node_Id; + Proc_Body_Id : Entity_Id; + Proc_Decl : Node_Id; + Proc_Id : Entity_Id; + Stmts : List_Id := No_List; + + CRec_Typ : Entity_Id; + -- The corresponding record type of Full_Typ + + Full_Proc : Entity_Id; + -- The entity of the "full" invariant procedure + + Full_Typ : Entity_Id; + -- The full view of the working type + + Freeze_Typ : Entity_Id; + -- The freeze type whose freeze node carries the invariant procedure + -- body. This is either the partial or the full view of the working + -- type. + + Obj_Id : Entity_Id; + -- The _object formal parameter of the invariant procedure + + Part_Proc : Entity_Id; + -- The entity of the "partial" invariant procedure + + Priv_Typ : Entity_Id; + -- The partial view of the working type + + Work_Typ : Entity_Id; + -- The working type + + -- Start of processing for Build_Invariant_Procedure_Body + + begin + Work_Typ := Typ; + + -- The input type denotes the implementation base type of a constrained + -- array type. Work with the first subtype as all invariant pragmas are + -- on its rep item chain. + + if Ekind (Work_Typ) = E_Array_Type and then Is_Itype (Work_Typ) then + Work_Typ := First_Subtype (Work_Typ); + + -- The input type denotes the corresponding record type of a protected + -- or task type. Work with the concurrent type because the corresponding + -- record type may not be visible to clients of the type. + + elsif Ekind (Work_Typ) = E_Record_Type + and then Is_Concurrent_Record_Type (Work_Typ) + then + Work_Typ := Corresponding_Concurrent_Type (Work_Typ); + end if; + + -- The type must either have invariants of its own, inherit class-wide + -- invariants from parent types or interfaces, or be an array or record + -- type whose components have invariants. + + pragma Assert (Has_Invariants (Work_Typ)); + + -- Nothing to do for interface types as their class-wide invariants are + -- inherited by implementing types. + + if Is_Interface (Work_Typ) then + return; + end if; + + -- Obtain both views of the type + + Get_Views (Work_Typ, Priv_Typ, Full_Typ, Dummy, CRec_Typ); + + -- The caller requests a body for the partial invariant procedure + + if Partial_Invariant then + Full_Proc := Invariant_Procedure (Work_Typ); + Proc_Id := Partial_Invariant_Procedure (Work_Typ); + + -- The "full" invariant procedure body was already created + + if Present (Full_Proc) + and then Present + (Corresponding_Body (Unit_Declaration_Node (Full_Proc))) + then + -- This scenario happens only when the type is an untagged + -- derivation from a private parent and the underlying full + -- view was processed before the partial view. + + pragma Assert + (Is_Untagged_Private_Derivation (Priv_Typ, Full_Typ)); + + -- Nothing to do because the processing of the underlying full + -- view already checked the invariants of the partial view. + + return; + end if; + + -- Create a declaration for the "partial" invariant procedure if it + -- is not available. + + if No (Proc_Id) then + Build_Invariant_Procedure_Declaration + (Typ => Work_Typ, + Partial_Invariant => True); + + Proc_Id := Partial_Invariant_Procedure (Work_Typ); + end if; + + -- The caller requests a body for the "full" invariant procedure + + else + Proc_Id := Invariant_Procedure (Work_Typ); + Part_Proc := Partial_Invariant_Procedure (Work_Typ); + + -- Create a declaration for the "full" invariant procedure if it is + -- not available. + + if No (Proc_Id) then + Build_Invariant_Procedure_Declaration (Work_Typ); + Proc_Id := Invariant_Procedure (Work_Typ); + end if; + end if; + + -- At this point there should be an invariant procedure declaration + + pragma Assert (Present (Proc_Id)); + Proc_Decl := Unit_Declaration_Node (Proc_Id); + + -- Nothing to do if the invariant procedure already has a body + + if Present (Corresponding_Body (Proc_Decl)) then + return; + end if; + + -- The working type may be subject to pragma Ghost. Set the mode now to + -- ensure that the invariant procedure is properly marked as Ghost. + + Set_Ghost_Mode_From_Entity (Work_Typ); + + Obj_Id := First_Formal (Proc_Id); + + -- The "partial" invariant procedure verifies the invariants of the + -- partial view only. + + if Partial_Invariant then + pragma Assert (Present (Priv_Typ)); + Freeze_Typ := Priv_Typ; + + -- Emulate the environment of the invariant procedure by installing + -- its scope and formal parameters. Note that this is not need, but + -- having the scope of the invariant procedure installed helps with + -- the detection of invariant-related errors. + + Push_Scope (Proc_Id); + Install_Formals (Proc_Id); + + Add_Type_Invariants + (Priv_Typ => Priv_Typ, + Full_Typ => Empty, + CRec_Typ => Empty, + Obj_Id => Obj_Id, + Checks => Stmts); + + End_Scope; + + -- Otherwise the "full" invariant procedure verifies the invariants of + -- the full view, all array or record components, as well as class-wide + -- invariants inherited from parent types or interfaces. In addition, it + -- indirectly verifies the invariants of the partial view by calling the + -- "partial" invariant procedure. + + else + pragma Assert (Present (Full_Typ)); + Freeze_Typ := Full_Typ; + + -- Check the invariants of the partial view by calling the "partial" + -- invariant procedure. Generate: + + -- Partial_Invariant (_object); + + if Present (Part_Proc) then + Create_Append (Stmts, + Make_Procedure_Call_Statement (Loc, + Name => New_Occurrence_Of (Part_Proc, Loc), + Parameter_Associations => New_List ( + New_Occurrence_Of (Obj_Id, Loc)))); + + Produced_Check := True; + end if; + + Priv_Item := Empty; + + -- Derived subtypes do not have a partial view + + if Present (Priv_Typ) then + + -- The processing of the "full" invariant procedure intentionally + -- skips the partial view because a) this may result in changes of + -- visibility and b) lead to duplicate checks. However, when the + -- full view is the underlying full view of an untagged derived + -- type whose parent type is private, partial invariants appear on + -- the rep item chain of the partial view only. + + -- package Pack_1 is + -- type Root ... is private; + -- private + -- + -- end Pack_1; + + -- with Pack_1; + -- package Pack_2 is + -- type Child is new Pack_1.Root with Type_Invariant => ...; + -- + -- end Pack_2; + + -- As a result, the processing of the full view must also consider + -- all invariants of the partial view. + + if Is_Untagged_Private_Derivation (Priv_Typ, Full_Typ) then + null; + + -- Otherwise the invariants of the partial view are ignored + + else + -- Note that the rep item chain is shared between the partial + -- and full views of a type. To avoid processing the invariants + -- of the partial view, signal the logic to stop when the first + -- rep item of the partial view has been reached. + + Priv_Item := First_Rep_Item (Priv_Typ); + + -- Ignore the invariants of the partial view by eliminating the + -- view. + + Priv_Typ := Empty; + end if; + end if; + + -- Process the invariants of the full view and in certain cases those + -- of the partial view. This also handles any invariants on array or + -- record components. + + Add_Type_Invariants + (Priv_Typ => Priv_Typ, + Full_Typ => Full_Typ, + CRec_Typ => CRec_Typ, + Obj_Id => Obj_Id, + Checks => Stmts, + Priv_Item => Priv_Item); + + -- Process the inherited class-wide invariants of all parent types. + -- This also handles any invariants on record components. + + Add_Parent_Invariants (Full_Typ, Obj_Id, Stmts); + + -- Process the inherited class-wide invariants of all implemented + -- interface types. + + Add_Interface_Invariants (Full_Typ, Obj_Id, Stmts); + end if; + + -- At this point there should be at least one invariant check. If this + -- is not the case, then the invariant-related flags were not properly + -- set, or there is a missing invariant procedure on one of the array + -- or record components. + + pragma Assert (Produced_Check); + + -- Account for the case where assertions are disabled or all invariant + -- checks are subject to Assertion_Policy Ignore. Produce a completing + -- empty body. + + if No (Stmts) then + Stmts := New_List (Make_Null_Statement (Loc)); + end if; + + Proc_Body := + Make_Subprogram_Body (Loc, + Specification => + Copy_Subprogram_Spec (Parent (Proc_Id)), + Declarations => Empty_List, + Handled_Statement_Sequence => + Make_Handled_Sequence_Of_Statements (Loc, + Statements => Stmts)); + Proc_Body_Id := Defining_Entity (Proc_Body); + + -- Link both spec and body to avoid generating duplicates + + Set_Corresponding_Body (Proc_Decl, Proc_Body_Id); + Set_Corresponding_Spec (Proc_Body, Proc_Id); + + Append_Freeze_Action (Freeze_Typ, Proc_Body); + Ghost_Mode := Save_Ghost_Mode; + end Build_Invariant_Procedure_Body; + + ------------------------------------------- + -- Build_Invariant_Procedure_Declaration -- + ------------------------------------------- + + procedure Build_Invariant_Procedure_Declaration + (Typ : Entity_Id; + Partial_Invariant : Boolean := False) + is + Loc : constant Source_Ptr := Sloc (Typ); + + Save_Ghost_Mode : constant Ghost_Mode_Type := Ghost_Mode; + + Proc_Id : Entity_Id; + Typ_Decl : Node_Id; + + CRec_Typ : Entity_Id; + -- The corresponding record type of Full_Typ + + Full_Base : Entity_Id; + -- The base type of Full_Typ + + Full_Typ : Entity_Id; + -- The full view of working type + + Obj_Id : Entity_Id; + -- The _object formal parameter of the invariant procedure + + Priv_Typ : Entity_Id; + -- The partial view of working type + + Work_Typ : Entity_Id; + -- The working type + + begin + Work_Typ := Typ; + + -- The input type denotes the implementation base type of a constrained + -- array type. Work with the first subtype as all invariant pragmas are + -- on its rep item chain. + + if Ekind (Work_Typ) = E_Array_Type and then Is_Itype (Work_Typ) then + Work_Typ := First_Subtype (Work_Typ); + + -- The input denotes the corresponding record type of a protected or a + -- task type. Work with the concurrent type because the corresponding + -- record type may not be visible to clients of the type. + + elsif Ekind (Work_Typ) = E_Record_Type + and then Is_Concurrent_Record_Type (Work_Typ) + then + Work_Typ := Corresponding_Concurrent_Type (Work_Typ); + end if; + + -- The type must either have invariants of its own, inherit class-wide + -- invariants from parent or interface types, or be an array or record + -- type whose components have invariants. + + pragma Assert (Has_Invariants (Work_Typ)); + + -- Nothing to do for interface types as their class-wide invariants are + -- inherited by implementing types. + + if Is_Interface (Work_Typ) then + return; + + -- Nothing to do if the type already has a "partial" invariant procedure + + elsif Partial_Invariant then + if Present (Partial_Invariant_Procedure (Work_Typ)) then + return; + end if; + + -- Nothing to do if the type already has a "full" invariant procedure + + elsif Present (Invariant_Procedure (Work_Typ)) then + return; + end if; + + -- The working type may be subject to pragma Ghost. Set the mode now to + -- ensure that the invariant procedure is properly marked as Ghost. + + Set_Ghost_Mode_From_Entity (Work_Typ); + + -- The caller requests the declaration of the "partial" invariant + -- procedure. + + if Partial_Invariant then + Proc_Id := + Make_Defining_Identifier (Loc, + Chars => + New_External_Name (Chars (Work_Typ), "Partial_Invariant")); + + Set_Ekind (Proc_Id, E_Procedure); + Set_Is_Partial_Invariant_Procedure (Proc_Id); + Set_Partial_Invariant_Procedure (Work_Typ, Proc_Id); + + -- Otherwise the caller requests the declaration of the "full" invariant + -- procedure. + + else + Proc_Id := + Make_Defining_Identifier (Loc, + Chars => New_External_Name (Chars (Work_Typ), "Invariant")); + + Set_Ekind (Proc_Id, E_Procedure); + Set_Is_Invariant_Procedure (Proc_Id); + Set_Invariant_Procedure (Work_Typ, Proc_Id); + end if; + + -- The invariant procedure requires debug info when the invariants are + -- subject to Source Coverage Obligations. + + if Opt.Generate_SCO then + Set_Needs_Debug_Info (Proc_Id); + end if; + + -- Mark the invariant procedure explicitly as Ghost because it does not + -- come from source. + + if Ghost_Mode > None then + Set_Is_Ghost_Entity (Proc_Id); + end if; + + -- Obtain all views of the input type + + Get_Views (Work_Typ, Priv_Typ, Full_Typ, Full_Base, CRec_Typ); + + -- Associate the invariant procedure with all views + + Propagate_Invariant_Attributes (Priv_Typ, From_Typ => Work_Typ); + Propagate_Invariant_Attributes (Full_Typ, From_Typ => Work_Typ); + Propagate_Invariant_Attributes (Full_Base, From_Typ => Work_Typ); + Propagate_Invariant_Attributes (CRec_Typ, From_Typ => Work_Typ); + + -- The declaration of the invariant procedure is inserted after the + -- declaration of the partial view as this allows for proper external + -- visibility. + + if Present (Priv_Typ) then + Typ_Decl := Declaration_Node (Priv_Typ); + + -- Derived types with the full view as parent do not have a partial + -- view. Insert the invariant procedure after the derived type. + + else + Typ_Decl := Declaration_Node (Full_Typ); + end if; + + -- The type should have a declarative node + + pragma Assert (Present (Typ_Decl)); + + -- Create the formal parameter which emulates the variable-like behavior + -- of the current type instance. + + Obj_Id := Make_Defining_Identifier (Loc, Chars => Name_uObject); + Set_Ekind (Obj_Id, E_In_Parameter); + + -- Generate: + -- procedure [Partial_]Invariant (_object : ); + + Insert_After_And_Analyze (Typ_Decl, + Make_Subprogram_Declaration (Loc, + Specification => + Make_Procedure_Specification (Loc, + Defining_Unit_Name => Proc_Id, + Parameter_Specifications => New_List ( + Make_Parameter_Specification (Loc, + Defining_Identifier => Obj_Id, + Parameter_Type => + New_Occurrence_Of (Work_Typ, Loc)))))); + + Ghost_Mode := Save_Ghost_Mode; + end Build_Invariant_Procedure_Declaration; + --------------------- -- Build_Late_Proc -- --------------------- diff --git a/gcc/ada/exp_ch7.ads b/gcc/ada/exp_ch7.ads index b12af836f63..ed654164d1e 100644 --- a/gcc/ada/exp_ch7.ads +++ b/gcc/ada/exp_ch7.ads @@ -118,9 +118,24 @@ package Exp_Ch7 is -- finalization master must be analyzed. Insertion_Node is the insertion -- point before which the master is to be inserted. + procedure Build_Invariant_Procedure_Body + (Typ : Entity_Id; + Partial_Invariant : Boolean := False); + -- Create the body of the procedure which verifies the invariants of type + -- Typ at runtime. Flag Partial_Invariant should be set when Typ denotes a + -- private type, otherwise it is assumed that Typ denotes the full view of + -- a private type. + + procedure Build_Invariant_Procedure_Declaration + (Typ : Entity_Id; + Partial_Invariant : Boolean := False); + -- Create the declaration of the procedure which verifies the invariants of + -- type Typ at runtime. Flag Partial_Invariant should be set when building + -- the invariant procedure for a private type. + procedure Build_Late_Proc (Typ : Entity_Id; Nam : Name_Id); - -- Build one controlling procedure when a late body overrides one of - -- the controlling operations. + -- Build one controlling procedure when a late body overrides one of the + -- controlling operations. procedure Build_Object_Declarations (Data : out Finalization_Exception_Data; diff --git a/gcc/ada/exp_ch9.adb b/gcc/ada/exp_ch9.adb index 9f4563106b1..34f2150b37d 100644 --- a/gcc/ada/exp_ch9.adb +++ b/gcc/ada/exp_ch9.adb @@ -1526,12 +1526,6 @@ package body Exp_Ch9 is Set_Stored_Constraint (Rec_Ent, No_Elist); Cdecls := New_List; - -- Propagate type invariants to the corresponding record type - - Set_Has_Invariants (Rec_Ent, Has_Invariants (Ctyp)); - Set_Has_Inheritable_Invariants (Rec_Ent, - Has_Inheritable_Invariants (Ctyp)); - -- Use discriminals to create list of discriminants for record, and -- create new discriminals for use in default expressions, etc. It is -- worth noting that a task discriminant gives rise to 5 entities; diff --git a/gcc/ada/exp_util.adb b/gcc/ada/exp_util.adb index bed9ac1641d..a0ec3256649 100644 --- a/gcc/ada/exp_util.adb +++ b/gcc/ada/exp_util.adb @@ -6405,30 +6405,19 @@ package body Exp_Util is ------------------------- function Make_Invariant_Call (Expr : Node_Id) return Node_Id is - Loc : constant Source_Ptr := Sloc (Expr); - Typ : Entity_Id; + Loc : constant Source_Ptr := Sloc (Expr); + Typ : constant Entity_Id := Base_Type (Etype (Expr)); + Proc_Id : Entity_Id; begin - Typ := Etype (Expr); + pragma Assert (Has_Invariants (Typ)); - -- Subtypes may be subject to invariants coming from their respective - -- base types. The subtype may be fully or partially private. - - if Ekind_In (Typ, E_Array_Subtype, - E_Private_Subtype, - E_Record_Subtype, - E_Record_Subtype_With_Private) - then - Typ := Base_Type (Typ); - end if; - - pragma Assert - (Has_Invariants (Typ) and then Present (Invariant_Procedure (Typ))); + Proc_Id := Invariant_Procedure (Typ); + pragma Assert (Present (Proc_Id)); return Make_Procedure_Call_Statement (Loc, - Name => - New_Occurrence_Of (Invariant_Procedure (Typ), Loc), + Name => New_Occurrence_Of (Proc_Id, Loc), Parameter_Associations => New_List (Relocate_Node (Expr))); end Make_Invariant_Call; diff --git a/gcc/ada/freeze.adb b/gcc/ada/freeze.adb index 046fd1516a8..a0277c84b1d 100644 --- a/gcc/ada/freeze.adb +++ b/gcc/ada/freeze.adb @@ -2290,6 +2290,25 @@ package body Freeze is Set_Has_Unchecked_Union (Arr); end if; + -- The array type requires its own invariant procedure in order to + -- verify the component invariant over all elements. + + if Has_Invariants (Component_Type (Arr)) + or else + (Is_Access_Type (Component_Type (Arr)) + and then Has_Invariants + (Designated_Type (Component_Type (Arr)))) + then + Set_Has_Own_Invariants (Arr); + + -- The array type is an implementation base type. Propagate the + -- same property to the first subtype. + + if Is_Itype (Arr) then + Set_Has_Own_Invariants (First_Subtype (Arr)); + end if; + end if; + -- Warn for pragma Pack overriding foreign convention if Has_Foreign_Convention (Ctyp) @@ -4165,7 +4184,8 @@ package body Freeze is Freeze_And_Append (Corresponding_Remote_Type (Rec), N, Result); end if; - -- Check for controlled components and unchecked unions. + -- Check for controlled components, unchecked unions, and type + -- invariants. Comp := First_Component (Rec); while Present (Comp) loop @@ -4194,6 +4214,22 @@ package body Freeze is Set_Has_Unchecked_Union (Rec); end if; + -- The record type requires its own invariant procedure in + -- order to verify the invariant of each individual component. + -- Do not consider internal components such as _parent because + -- parent class-wide invariants are always inherited. + + if Comes_From_Source (Comp) + and then + (Has_Invariants (Etype (Comp)) + or else + (Is_Access_Type (Etype (Comp)) + and then Has_Invariants + (Designated_Type (Etype (Comp))))) + then + Set_Has_Own_Invariants (Rec); + end if; + -- Scan component declaration for likely misuses of current -- instance, either in a constraint or a default expression. @@ -5224,8 +5260,7 @@ package body Freeze is and then not Is_Tagged_Type (E) then Error_Msg_NE - ("Type_Invariant''Class cannot be specified for &", - Prag, E); + ("Type_Invariant''Class cannot be specified for &", Prag, E); Error_Msg_N ("\can only be specified for a tagged type", Prag); end if; diff --git a/gcc/ada/pprint.adb b/gcc/ada/pprint.adb index cc0bfe5f970..1319f87f6fe 100644 --- a/gcc/ada/pprint.adb +++ b/gcc/ada/pprint.adb @@ -6,7 +6,7 @@ -- -- -- B o d y -- -- -- --- Copyright (C) 2008-2015, Free Software Foundation, Inc. -- +-- Copyright (C) 2008-2016, Free Software Foundation, Inc. -- -- -- -- GNAT is free software; you can redistribute it and/or modify it under -- -- terms of the GNU General Public License as published by the Free Soft- -- @@ -542,13 +542,28 @@ package body Pprint is when N_Parameter_Association => return Expr_Name (Explicit_Actual_Parameter (Expr)); - when N_Type_Conversion | N_Unchecked_Type_Conversion => + when N_Type_Conversion => -- Most conversions are not very interesting (used inside -- expanded checks to convert to larger ranges), so skip them. return Expr_Name (Expression (Expr)); + when N_Unchecked_Type_Conversion => + + -- Only keep the type conversion in complex cases + + if not Is_Scalar_Type (Etype (Expr)) + or else not Is_Scalar_Type (Etype (Expression (Expr))) + or else Is_Modular_Integer_Type (Etype (Expr)) + /= Is_Modular_Integer_Type (Etype (Expression (Expr))) + then + return Expr_Name (Subtype_Mark (Expr)) & + "(" & Expr_Name (Expression (Expr)) & ")"; + else + return Expr_Name (Expression (Expr)); + end if; + when N_Indexed_Component => if Take_Prefix then return diff --git a/gcc/ada/sem_ch13.adb b/gcc/ada/sem_ch13.adb index 28ccf5666b5..3e1ddb48a94 100644 --- a/gcc/ada/sem_ch13.adb +++ b/gcc/ada/sem_ch13.adb @@ -62,7 +62,6 @@ with Sinput; use Sinput; with Snames; use Snames; with Stand; use Stand; with Sinfo; use Sinfo; -with Stringt; use Stringt; with Targparm; use Targparm; with Ttypes; use Ttypes; with Tbuild; use Tbuild; @@ -8080,576 +8079,6 @@ package body Sem_Ch13 is return Prag; end Build_Export_Import_Pragma; - ------------------------------------------- - -- Build_Invariant_Procedure_Declaration -- - ------------------------------------------- - - function Build_Invariant_Procedure_Declaration - (Typ : Entity_Id) return Node_Id - is - Loc : constant Source_Ptr := Sloc (Typ); - Decl : Node_Id; - Obj_Id : Entity_Id; - SId : Entity_Id; - - Save_Ghost_Mode : constant Ghost_Mode_Type := Ghost_Mode; - - begin - -- Check for duplicate definitions - - if Has_Invariants (Typ) and then Present (Invariant_Procedure (Typ)) then - return Empty; - end if; - - -- The related type may be subject to pragma Ghost. Set the mode now to - -- ensure that the invariant procedure is properly marked as Ghost. - - Set_Ghost_Mode_From_Entity (Typ); - - SId := - Make_Defining_Identifier (Loc, - Chars => New_External_Name (Chars (Typ), "Invariant")); - Set_Has_Invariants (Typ); - Set_Ekind (SId, E_Procedure); - Set_Etype (SId, Standard_Void_Type); - Set_Is_Invariant_Procedure (SId); - Set_Invariant_Procedure (Typ, SId); - - -- Source Coverage Obligations might be attached to the invariant - -- expression this procedure evaluates, and we need debug info to be - -- able to assess the coverage achieved by evaluations. - - if Opt.Generate_SCO then - Set_Needs_Debug_Info (SId); - end if; - - -- Mark the invariant procedure explicitly as Ghost because it does not - -- come from source. - - if Ghost_Mode > None then - Set_Is_Ghost_Entity (SId); - end if; - - Obj_Id := Make_Defining_Identifier (Loc, New_Internal_Name ('I')); - Set_Etype (Obj_Id, Typ); - - Decl := - Make_Subprogram_Declaration (Loc, - Make_Procedure_Specification (Loc, - Defining_Unit_Name => SId, - Parameter_Specifications => New_List ( - Make_Parameter_Specification (Loc, - Defining_Identifier => Obj_Id, - Parameter_Type => New_Occurrence_Of (Typ, Loc))))); - - Ghost_Mode := Save_Ghost_Mode; - - return Decl; - end Build_Invariant_Procedure_Declaration; - - ------------------------------- - -- Build_Invariant_Procedure -- - ------------------------------- - - -- The procedure that is constructed here has the form - - -- procedure typInvariant (Ixxx : typ) is - -- begin - -- pragma Check (Invariant, exp, "failed invariant from xxx"); - -- pragma Check (Invariant, exp, "failed invariant from xxx"); - -- ... - -- pragma Check (Invariant, exp, "failed inherited invariant from xxx"); - -- ... - -- end typInvariant; - - procedure Build_Invariant_Procedure (Typ : Entity_Id; N : Node_Id) is - procedure Add_Invariants - (T : Entity_Id; - Obj_Id : Entity_Id; - Stmts : in out List_Id; - Inherit : Boolean); - -- Appends statements to Stmts for any invariants in the rep item chain - -- of the given type. If Inherit is False, then we only process entries - -- on the chain for the type Typ. If Inherit is True, then we ignore any - -- Invariant aspects, but we process all Invariant'Class aspects, adding - -- "inherited" to the exception message and generating an informational - -- message about the inheritance of an invariant. - - -------------------- - -- Add_Invariants -- - -------------------- - - procedure Add_Invariants - (T : Entity_Id; - Obj_Id : Entity_Id; - Stmts : in out List_Id; - Inherit : Boolean) - is - procedure Add_Invariant (Prag : Node_Id); - -- Create a runtime check to verify the exression of invariant pragma - -- Prag. All generated code is added to list Stmts. - - ------------------- - -- Add_Invariant -- - ------------------- - - procedure Add_Invariant (Prag : Node_Id) is - procedure Replace_Type_Reference (N : Node_Id); - -- Replace a single occurrence N of the subtype name with a - -- reference to the formal of the predicate function. N can be an - -- identifier referencing the subtype, or a selected component, - -- representing an appropriately qualified occurrence of the - -- subtype name. - - procedure Replace_Type_References is - new Replace_Type_References_Generic (Replace_Type_Reference); - -- Traverse an expression replacing all occurrences of the subtype - -- name with appropriate references to the formal of the predicate - -- function. Note that we must ensure that the type and entity - -- information is properly set in the replacement node, since we - -- will do a Preanalyze call of this expression without proper - -- visibility of the procedure argument. - - ---------------------------- - -- Replace_Type_Reference -- - ---------------------------- - - -- Note: See comments in Add_Predicates.Replace_Type_Reference - -- regarding handling of Sloc and Comes_From_Source. - - procedure Replace_Type_Reference (N : Node_Id) is - Nloc : constant Source_Ptr := Sloc (N); - - begin - -- Add semantic information to node to be rewritten, for ASIS - -- navigation needs. - - if Nkind (N) = N_Identifier then - Set_Entity (N, T); - Set_Etype (N, T); - - elsif Nkind (N) = N_Selected_Component then - Analyze (Prefix (N)); - Set_Entity (Selector_Name (N), T); - Set_Etype (Selector_Name (N), T); - end if; - - -- Invariant'Class, replace with T'Class (obj) - - if Class_Present (Prag) then - - -- In ASIS mode, an inherited item is already analyzed, - -- and the replacement has been done, so do not repeat - -- the transformation to prevent a malformed tree. - - if ASIS_Mode - and then Nkind (Parent (N)) = N_Attribute_Reference - and then Attribute_Name (Parent (N)) = Name_Class - then - null; - - else - Rewrite (N, - Make_Type_Conversion (Nloc, - Subtype_Mark => - Make_Attribute_Reference (Nloc, - Prefix => New_Occurrence_Of (T, Nloc), - Attribute_Name => Name_Class), - Expression => - Make_Identifier (Nloc, Chars (Obj_Id)))); - - Set_Entity (Expression (N), Obj_Id); - Set_Etype (Expression (N), Typ); - end if; - - -- Invariant, replace with obj - - else - Rewrite (N, Make_Identifier (Nloc, Chars (Obj_Id))); - Set_Entity (N, Obj_Id); - Set_Etype (N, Typ); - end if; - - Set_Comes_From_Source (N, True); - end Replace_Type_Reference; - - -- Local variables - - Asp : constant Node_Id := Corresponding_Aspect (Prag); - Nam : constant Name_Id := Original_Aspect_Pragma_Name (Prag); - Ploc : constant Source_Ptr := Sloc (Prag); - Arg1 : Node_Id; - Arg2 : Node_Id; - Arg3 : Node_Id; - Assoc : List_Id; - Expr : Node_Id; - Str : String_Id; - - -- Start of processing for Add_Invariant - - begin - -- Extract the arguments of the invariant pragma - - Arg1 := First (Pragma_Argument_Associations (Prag)); - Arg2 := Next (Arg1); - Arg3 := Next (Arg2); - - Arg1 := Get_Pragma_Arg (Arg1); - Arg2 := Get_Pragma_Arg (Arg2); - - -- The caller requests processing of all Invariant'Class pragmas, - -- but the current pragma does not fall in this category. Return - -- as there is nothing left to do. - - if Inherit then - if not Class_Present (Prag) then - return; - end if; - - -- Otherwise the pragma must apply to the current type - - elsif Entity (Arg1) /= T then - return; - end if; - - Expr := New_Copy_Tree (Arg2); - - -- Replace all occurrences of the type's name with references to - -- the formal parameter of the invariant procedure. - - Replace_Type_References (Expr, T); - - -- If the invariant pragma comes from an aspect, replace the saved - -- expression because we need the subtype references replaced for - -- the calls to Preanalyze_Spec_Expression in Check_Aspect_At_xxx - -- routines. This is not done for interited class-wide invariants - -- because the original pragma of the parent type must remain - -- unchanged. - - if not Inherit and then Present (Asp) then - Set_Entity (Identifier (Asp), New_Copy_Tree (Expr)); - end if; - - -- Preanalyze the invariant expression to capture the visibility - -- of the proper package part. In general the expression is not - -- fully analyzed until the body of the invariant procedure is - -- analyzed at the end of the private part, but that yields the - -- wrong visibility. - - -- Historical note: we used to set N as the parent, but a package - -- specification as the parent of an expression is bizarre. - - Set_Parent (Expr, Parent (Arg2)); - Preanalyze_Assert_Expression (Expr, Any_Boolean); - - -- Both modifications performed below are not done for inherited - -- class-wide invariants because the origial aspect/pragma of the - -- parent type must remain unchanged. - - if not Inherit then - - -- A class-wide invariant may be inherited in a separate unit, - -- where the corresponding expression cannot be resolved by - -- visibility, because it refers to a local function. Propagate - -- semantic information to the original representation item, to - -- be used when an invariant procedure for a derived type is - -- constructed. - - -- ??? Unclear how to handle class-wide invariants that are not - -- function calls. - - if Class_Present (Prag) - and then Nkind (Expr) = N_Function_Call - and then Nkind (Arg2) = N_Indexed_Component - then - Rewrite (Arg2, - Make_Function_Call (Ploc, - Name => - New_Occurrence_Of (Entity (Name (Expr)), Ploc), - Parameter_Associations => Expressions (Arg2))); - end if; - - -- In ASIS mode, even if assertions are not enabled, we must - -- analyze the original expression in the aspect specification - -- because it is part of the original tree. - - if ASIS_Mode and then Present (Asp) then - declare - Asp_Expr : constant Node_Id := Expression (Asp); - - begin - Replace_Type_References (Asp_Expr, T); - Preanalyze_Assert_Expression (Asp_Expr, Any_Boolean); - end; - end if; - end if; - - -- An ignored invariant must not generate a runtime check. Add a - -- null statement to ensure that the invariant procedure does get - -- a completing body. - - if No (Stmts) then - Stmts := Empty_List; - end if; - - if Is_Ignored (Prag) then - Append_To (Stmts, Make_Null_Statement (Ploc)); - - -- Otherwise the invariant is checked. Build a Check pragma to - -- verify the expression at runtime. - - else - Assoc := New_List ( - Make_Pragma_Argument_Association (Ploc, - Expression => Make_Identifier (Ploc, Nam)), - Make_Pragma_Argument_Association (Ploc, - Expression => Expr)); - - -- Handle the String argument (if any) - - if Present (Arg3) then - Str := Strval (Get_Pragma_Arg (Arg3)); - - -- When inheriting an invariant, modify the message from - -- "failed invariant" to "failed inherited invariant". - - if Inherit then - String_To_Name_Buffer (Str); - - if Name_Buffer (1 .. 16) = "failed invariant" then - Insert_Str_In_Name_Buffer ("inherited ", 8); - Str := String_From_Name_Buffer; - end if; - end if; - - Append_To (Assoc, - Make_Pragma_Argument_Association (Ploc, - Expression => Make_String_Literal (Ploc, Str))); - end if; - - -- Generate: - -- pragma Check (Nam, Expr, Str); - - Append_To (Stmts, - Make_Pragma (Ploc, - Pragma_Identifier => - Make_Identifier (Ploc, Name_Check), - Pragma_Argument_Associations => Assoc)); - end if; - - -- Output an info message when inheriting an invariant and the - -- listing option is enabled. - - if Inherit and Opt.List_Inherited_Aspects then - Error_Msg_Sloc := Sloc (Prag); - Error_Msg_N - ("info: & inherits `Invariant''Class` aspect from #?L?", Typ); - end if; - end Add_Invariant; - - -- Local variables - - Ritem : Node_Id; - - -- Start of processing for Add_Invariants - - begin - Ritem := First_Rep_Item (T); - while Present (Ritem) loop - if Nkind (Ritem) = N_Pragma - and then Pragma_Name (Ritem) = Name_Invariant - then - Add_Invariant (Ritem); - end if; - - Next_Rep_Item (Ritem); - end loop; - end Add_Invariants; - - -- Local variables - - Loc : constant Source_Ptr := Sloc (Typ); - Priv_Decls : constant List_Id := Private_Declarations (N); - Vis_Decls : constant List_Id := Visible_Declarations (N); - - Save_Ghost_Mode : constant Ghost_Mode_Type := Ghost_Mode; - - PBody : Node_Id; - PDecl : Node_Id; - SId : Entity_Id; - Spec : Node_Id; - Stmts : List_Id; - - Obj_Id : Node_Id; - -- The entity of the formal for the procedure - - -- Start of processing for Build_Invariant_Procedure - - begin - -- The related type may be subject to pragma Ghost. Set the mode now to - -- ensure that the invariant procedure is properly marked as Ghost. - - Set_Ghost_Mode_From_Entity (Typ); - - Stmts := No_List; - PDecl := Empty; - PBody := Empty; - SId := Empty; - - -- If the aspect specification exists for some view of the type, the - -- declaration for the procedure has been created. - - if Has_Invariants (Typ) then - SId := Invariant_Procedure (Typ); - end if; - - -- If the body is already present, nothing to do. This will occur when - -- the type is already frozen, which is the case when the invariant - -- appears in a private part, and the freezing takes place before the - -- final pass over full declarations. - - -- See Exp_Ch3.Insert_Component_Invariant_Checks for details. - - if Present (SId) then - PDecl := Unit_Declaration_Node (SId); - - if Present (PDecl) - and then Nkind (PDecl) = N_Subprogram_Declaration - and then Present (Corresponding_Body (PDecl)) - then - Ghost_Mode := Save_Ghost_Mode; - return; - end if; - - else - PDecl := Build_Invariant_Procedure_Declaration (Typ); - end if; - - -- Recover formal of procedure, for use in the calls to invariant - -- functions (including inherited ones). - - Obj_Id := - Defining_Identifier - (First (Parameter_Specifications (Specification (PDecl)))); - - -- Add invariants for the current type - - Add_Invariants - (T => Typ, - Obj_Id => Obj_Id, - Stmts => Stmts, - Inherit => False); - - -- Add invariants for parent types - - declare - Current_Typ : Entity_Id; - Parent_Typ : Entity_Id; - - begin - Current_Typ := Typ; - loop - Parent_Typ := Etype (Current_Typ); - - if Is_Private_Type (Parent_Typ) - and then Present (Full_View (Base_Type (Parent_Typ))) - then - Parent_Typ := Full_View (Base_Type (Parent_Typ)); - end if; - - exit when Parent_Typ = Current_Typ; - - Current_Typ := Parent_Typ; - Add_Invariants - (T => Current_Typ, - Obj_Id => Obj_Id, - Stmts => Stmts, - Inherit => True); - end loop; - end; - - -- Add invariants of progenitors - - if Is_Tagged_Type (Typ) and then not Is_Interface (Typ) then - declare - Ifaces_List : Elist_Id; - AI : Elmt_Id; - Iface : Entity_Id; - - begin - Collect_Interfaces (Typ, Ifaces_List); - - AI := First_Elmt (Ifaces_List); - while Present (AI) loop - Iface := Node (AI); - - if not Is_Ancestor (Iface, Typ, Use_Full_View => True) then - Add_Invariants - (T => Iface, - Obj_Id => Obj_Id, - Stmts => Stmts, - Inherit => True); - end if; - - Next_Elmt (AI); - end loop; - end; - end if; - - -- Build the procedure if we generated at least one Check pragma - - if Stmts /= No_List then - Spec := Copy_Separate_Tree (Specification (PDecl)); - - PBody := - Make_Subprogram_Body (Loc, - Specification => Spec, - Declarations => Empty_List, - Handled_Statement_Sequence => - Make_Handled_Sequence_Of_Statements (Loc, - Statements => Stmts)); - - -- The processing of an invariant pragma immediately generates the - -- invariant procedure spec, inserts it into the tree, and analyzes - -- it. If the spec has not been analyzed, then the invariant pragma - -- is being inherited and requires manual insertion and analysis. - - if not Analyzed (PDecl) then - Append_To (Vis_Decls, PDecl); - Analyze (PDecl); - end if; - - -- The invariant procedure body is inserted at the end of the private - -- declarations. - - if Present (Priv_Decls) then - Append_To (Priv_Decls, PBody); - - -- If the invariant appears on the full view of a private type, - -- then the analysis of the private part is already completed. - -- Manually analyze the new body in this case, otherwise wait - -- for the analysis of the private declarations to process the - -- body. - - if In_Private_Part (Current_Scope) then - Analyze (PBody); - end if; - - -- Otherwise there are no private declarations. This is either an - -- error or the related type is a private extension, in which case - -- it does not need a completion in a private part. Insert the body - -- at the end of the visible declarations and analyze immediately - -- because the related type is about to be frozen. - - else - Append_To (Vis_Decls, PBody); - Analyze (PBody); - end if; - end if; - - Ghost_Mode := Save_Ghost_Mode; - end Build_Invariant_Procedure; - ------------------------------- -- Build_Predicate_Functions -- ------------------------------- @@ -11159,9 +10588,7 @@ package body Sem_Ch13 is end if; end Hide_Non_Overridden_Subprograms; - --------------------- - -- Local variables -- - --------------------- + -- Local variables E : constant Entity_Id := Entity (N); @@ -11324,14 +10751,14 @@ package body Sem_Ch13 is Inside_Freezing_Actions := Inside_Freezing_Actions - 1; - -- If we have a type with predicates, build predicate function. This - -- is not needed in the generic case, and is not needed within TSS - -- subprograms and other predefined primitives. + -- If we have a type with predicates, build predicate function. This is + -- not needed in the generic case, nor within TSS subprograms and other + -- predefined primitives. - if Non_Generic_Case - and then Is_Type (E) - and then Has_Predicates (E) + if Is_Type (E) + and then Non_Generic_Case and then not Within_Internal_Subprogram + and then Has_Predicates (E) then Build_Predicate_Functions (E, N); end if; @@ -11830,30 +11257,6 @@ package body Sem_Ch13 is Set_Discard_Names (Typ); end if; - -- Invariants - - if not Has_Rep_Item (Typ, Name_Invariant, False) - and then Has_Rep_Item (Typ, Name_Invariant) - and then Is_Pragma_Or_Corr_Pragma_Present_In_Rep_Item - (Get_Rep_Item (Typ, Name_Invariant)) - then - Set_Has_Invariants (Typ); - - if Class_Present (Get_Rep_Item (Typ, Name_Invariant)) then - Set_Has_Inheritable_Invariants (Typ); - end if; - - -- If we have a subtype with invariants, whose base type does not have - -- invariants, copy these invariants to the base type. This happens for - -- the case of implicit base types created for scalar and array types. - - elsif Has_Invariants (Typ) - and then not Has_Invariants (Base_Type (Typ)) - then - Set_Has_Invariants (Base_Type (Typ)); - Set_Invariant_Procedure (Base_Type (Typ), Invariant_Procedure (Typ)); - end if; - -- Volatile if not Has_Rep_Item (Typ, Name_Volatile, False) @@ -12636,7 +12039,7 @@ package body Sem_Ch13 is if Has_Discriminants (E) then Push_Scope (E); - -- Make discriminants visible for type declarations and protected + -- Make the discriminants visible for type declarations and protected -- type declarations, not for subtype declarations (RM 13.1.1 (12/3)) if Nkind (Parent (E)) /= N_Subtype_Declaration then @@ -12891,18 +12294,15 @@ package body Sem_Ch13 is procedure Replace_Type_References_Generic (N : Node_Id; T : Entity_Id) is TName : constant Name_Id := Chars (T); - function Replace_Node (N : Node_Id) return Traverse_Result; + function Replace_Type_Ref (N : Node_Id) return Traverse_Result; -- Processes a single node in the traversal procedure below, checking -- if node N should be replaced, and if so, doing the replacement. - procedure Replace_Type_Refs is new Traverse_Proc (Replace_Node); - -- This instantiation provides the body of Replace_Type_References - - ------------------ - -- Replace_Node -- - ------------------ + ---------------------- + -- Replace_Type_Ref -- + ---------------------- - function Replace_Node (N : Node_Id) return Traverse_Result is + function Replace_Type_Ref (N : Node_Id) return Traverse_Result is S : Entity_Id; P : Node_Id; @@ -12911,10 +12311,10 @@ package body Sem_Ch13 is if Nkind (N) = N_Identifier then - -- If not the type name, check whether it is a reference to - -- some other type, which must be frozen before the predicate - -- function is analyzed, i.e. before the freeze node of the - -- type to which the predicate applies. + -- If not the type name, check whether it is a reference to some + -- other type, which must be frozen before the predicate function + -- is analyzed, i.e. before the freeze node of the type to which + -- the predicate applies. if Chars (N) /= TName then if Present (Current_Entity (N)) @@ -12932,13 +12332,13 @@ package body Sem_Ch13 is return Skip; end if; - -- Case of selected component (which is what a qualification - -- looks like in the unanalyzed tree, which is what we have. + -- Case of selected component (which is what a qualification looks + -- like in the unanalyzed tree, which is what we have. elsif Nkind (N) = N_Selected_Component then - -- If selector name is not our type, keeping going (we might - -- still have an occurrence of the type in the prefix). + -- If selector name is not our type, keeping going (we might still + -- have an occurrence of the type in the prefix). if Nkind (Selector_Name (N)) /= N_Identifier or else Chars (Selector_Name (N)) /= TName @@ -12959,8 +12359,8 @@ package body Sem_Ch13 is return OK; end if; - -- Do replace if prefix is an identifier matching the - -- scope that we are currently looking at. + -- Do replace if prefix is an identifier matching the scope + -- that we are currently looking at. if Nkind (P) = N_Identifier and then Chars (P) = Chars (S) @@ -12969,9 +12369,9 @@ package body Sem_Ch13 is return Skip; end if; - -- Go check scope above us if prefix is itself of the - -- form of a selected component, whose selector matches - -- the scope we are currently looking at. + -- Go check scope above us if prefix is itself of the form + -- of a selected component, whose selector matches the scope + -- we are currently looking at. if Nkind (P) = N_Selected_Component and then Nkind (Selector_Name (P)) = N_Identifier @@ -12995,7 +12395,9 @@ package body Sem_Ch13 is else return OK; end if; - end Replace_Node; + end Replace_Type_Ref; + + procedure Replace_Type_Refs is new Traverse_Proc (Replace_Type_Ref); begin Replace_Type_Refs (N); @@ -13057,17 +12459,18 @@ package body Sem_Ch13 is Expr := Expression (ASN); case A_Id is + -- For now we only deal with aspects that do not generate -- subprograms, or that may mention current instances of -- types. These will require special handling (???TBD). when Aspect_Predicate | Aspect_Predicate_Failure | - Aspect_Invariant => + Aspect_Invariant => null; - when Aspect_Static_Predicate | - Aspect_Dynamic_Predicate => + when Aspect_Dynamic_Predicate | + Aspect_Static_Predicate => -- Build predicate function specification and preanalyze -- expression after type replacement. diff --git a/gcc/ada/sem_ch13.ads b/gcc/ada/sem_ch13.ads index 8ae92941099..e3ee2117f35 100644 --- a/gcc/ada/sem_ch13.ads +++ b/gcc/ada/sem_ch13.ads @@ -6,7 +6,7 @@ -- -- -- S p e c -- -- -- --- Copyright (C) 1992-2015, Free Software Foundation, Inc. -- +-- Copyright (C) 1992-2016, Free Software Foundation, Inc. -- -- -- -- GNAT is free software; you can redistribute it and/or modify it under -- -- terms of the GNU General Public License as published by the Free Soft- -- @@ -53,25 +53,6 @@ package Sem_Ch13 is -- order is specified and there is at least one component clause. Adjusts -- component positions according to either Ada 95 or Ada 2005 (AI-133). - function Build_Invariant_Procedure_Declaration - (Typ : Entity_Id) return Node_Id; - -- If a type declaration has a specified invariant aspect, build the - -- declaration for the procedure at once, so that calls to it can be - -- generated before the body of the invariant procedure is built. This - -- is needed in the presence of public expression functions that return - -- the type in question. - - procedure Build_Invariant_Procedure (Typ : Entity_Id; N : Node_Id); - -- Typ is a private type with invariants (indicated by Has_Invariants being - -- set for Typ, indicating the presence of pragma Invariant entries on the - -- rep chain, note that Invariant aspects have already been converted to - -- pragma Invariant), then this procedure builds the spec and body for the - -- corresponding Invariant procedure, inserting them at appropriate points - -- in the package specification N. Invariant_Procedure is set for Typ. Note - -- that this procedure is called at the end of processing the declarations - -- in the visible part (i.e. the right point for visibility analysis of - -- the invariant expression). - procedure Check_Record_Representation_Clause (N : Node_Id); -- This procedure completes the analysis of a record representation clause -- N. It is called at freeze time after adjustment of component clause bit diff --git a/gcc/ada/sem_ch3.adb b/gcc/ada/sem_ch3.adb index 6a72f2839e1..9fe05eb9511 100644 --- a/gcc/ada/sem_ch3.adb +++ b/gcc/ada/sem_ch3.adb @@ -4475,6 +4475,8 @@ package body Sem_Ch3 is procedure Analyze_Private_Extension_Declaration (N : Node_Id) is Indic : constant Node_Id := Subtype_Indication (N); T : constant Entity_Id := Defining_Identifier (N); + Iface : Entity_Id; + Iface_Elmt : Elmt_Id; Parent_Base : Entity_Id; Parent_Type : Entity_Id; @@ -4540,8 +4542,8 @@ package body Sem_Ch3 is elsif Is_Concurrent_Type (Parent_Type) then Error_Msg_N - ("parent type of a private extension cannot be " - & "a synchronized tagged type (RM 3.9.1 (3/1))", N); + ("parent type of a private extension cannot be a synchronized " + & "tagged type (RM 3.9.1 (3/1))", N); Set_Etype (T, Any_Type); Set_Ekind (T, E_Limited_Private_Type); @@ -4562,7 +4564,6 @@ package body Sem_Ch3 is if (not Is_Package_Or_Generic_Package (Current_Scope) and then Nkind (Parent (N)) /= N_Generic_Subprogram_Declaration) or else In_Private_Part (Current_Scope) - then Error_Msg_N ("invalid context for private extension", N); end if; @@ -4589,13 +4590,26 @@ package body Sem_Ch3 is Build_Derived_Record_Type (N, Parent_Type, T); - -- Propagate inherited invariant information. The new type has - -- invariants, if the parent type has inheritable invariants, - -- and these invariants can in turn be inherited. + -- A private extension inherits any class-wide invariants coming from a + -- parent type or an interface. Note that the invariant procedure of the + -- parent type should not be inherited because the private extension may + -- define invariants of its own. if Has_Inheritable_Invariants (Parent_Type) then - Set_Has_Inheritable_Invariants (T); - Set_Has_Invariants (T); + Set_Has_Inherited_Invariants (T); + + elsif Present (Interfaces (T)) then + Iface_Elmt := First_Elmt (Interfaces (T)); + while Present (Iface_Elmt) loop + Iface := Node (Iface_Elmt); + + if Has_Inheritable_Invariants (Iface) then + Set_Has_Inherited_Invariants (T); + exit; + end if; + + Next_Elmt (Iface_Elmt); + end loop; end if; -- Ada 2005 (AI-443): Synchronized private extension or a rewritten @@ -4617,33 +4631,29 @@ package body Sem_Ch3 is (not Is_Interface (Parent_Type) or else not Is_Synchronized_Interface (Parent_Type)) then - Error_Msg_NE ("parent type of & must be tagged limited " & - "or synchronized", N, T); + Error_Msg_NE + ("parent type of & must be tagged limited or synchronized", + N, T); end if; -- The progenitors (if any) must be limited or synchronized -- interfaces. if Present (Interfaces (T)) then - declare - Iface : Entity_Id; - Iface_Elmt : Elmt_Id; - - begin - Iface_Elmt := First_Elmt (Interfaces (T)); - while Present (Iface_Elmt) loop - Iface := Node (Iface_Elmt); + Iface_Elmt := First_Elmt (Interfaces (T)); + while Present (Iface_Elmt) loop + Iface := Node (Iface_Elmt); - if not Is_Limited_Interface (Iface) - and then not Is_Synchronized_Interface (Iface) - then - Error_Msg_NE ("progenitor & must be limited " & - "or synchronized", N, Iface); - end if; + if not Is_Limited_Interface (Iface) + and then not Is_Synchronized_Interface (Iface) + then + Error_Msg_NE + ("progenitor & must be limited or synchronized", + N, Iface); + end if; - Next_Elmt (Iface_Elmt); - end loop; - end; + Next_Elmt (Iface_Elmt); + end loop; end if; -- Regular derived extension, the parent must be a limited or @@ -5154,10 +5164,9 @@ package body Sem_Ch3 is if Has_Predicates (T) and then Present (Predicate_Function (T)) - - and then - ((In_Instance and then not Comes_From_Source (N)) - or else No (Aspect_Specifications (N))) + and then + ((In_Instance and then not Comes_From_Source (N)) + or else No (Aspect_Specifications (N))) then Set_Subprograms_For_Type (Id, Subprograms_For_Type (T)); @@ -5167,6 +5176,11 @@ package body Sem_Ch3 is end if; end if; + -- Propagate invariant-related attributes from the base type to the + -- subtype. + + Propagate_Invariant_Attributes (Id, From_Typ => Base_Type (T)); + -- Remaining processing depends on characteristics of base type T := Etype (Id); @@ -5228,9 +5242,9 @@ package body Sem_Ch3 is if Nkind (Subtype_Indication (N)) = N_Subtype_Indication then if Is_Scalar_Type (Etype (Id)) - and then Scalar_Range (Id) /= - Scalar_Range (Etype (Subtype_Mark - (Subtype_Indication (N)))) + and then Scalar_Range (Id) /= + Scalar_Range + (Etype (Subtype_Mark (Subtype_Indication (N)))) then Apply_Range_Check (Scalar_Range (Id), @@ -5301,14 +5315,6 @@ package body Sem_Ch3 is end if; end if; - -- A type invariant applies to any subtype in its scope, in particular - -- to a generic actual. - - if Has_Invariants (T) and then In_Open_Scopes (Scope (T)) then - Set_Has_Invariants (Id); - Set_Invariant_Procedure (Id, Invariant_Procedure (T)); - end if; - Set_Optimize_Alignment_Flags (Id); Check_Eliminated (Id); @@ -5633,16 +5639,20 @@ package body Sem_Ch3 is -- Complete setup of implicit base type - Set_First_Index (Implicit_Base, First_Index (T)); - Set_Component_Type (Implicit_Base, Element_Type); + Set_Component_Size (Implicit_Base, Uint_0); + Set_Component_Type (Implicit_Base, Element_Type); + Set_Finalize_Storage_Only + (Implicit_Base, + Finalize_Storage_Only (Element_Type)); + Set_First_Index (Implicit_Base, First_Index (T)); + Set_Has_Controlled_Component + (Implicit_Base, + Has_Controlled_Component (Element_Type) + or else Is_Controlled_Active (Element_Type)); + Set_Packed_Array_Impl_Type + (Implicit_Base, Empty); + Propagate_Concurrent_Flags (Implicit_Base, Element_Type); - Set_Component_Size (Implicit_Base, Uint_0); - Set_Packed_Array_Impl_Type (Implicit_Base, Empty); - Set_Has_Controlled_Component (Implicit_Base, - Has_Controlled_Component (Element_Type) - or else Is_Controlled_Active (Element_Type)); - Set_Finalize_Storage_Only (Implicit_Base, - Finalize_Storage_Only (Element_Type)); -- Inherit the "ghostness" from the constrained array type @@ -8786,31 +8796,35 @@ package body Sem_Ch3 is end; end if; - -- Propagate inherited invariant information of parents - -- and progenitors + -- A derived type inherits any class-wide invariants coming + -- from a parent type or an interface. Note that the invariant + -- procedure of the parent type should not be inherited because + -- the derived type may define invariants of its own. if Ada_Version >= Ada_2012 and then not Is_Interface (Derived_Type) then - if Has_Inheritable_Invariants (Parent_Type) then - Set_Has_Invariants (Derived_Type); - Set_Has_Inheritable_Invariants (Derived_Type); + if Has_Inherited_Invariants (Parent_Type) + or else Has_Inheritable_Invariants (Parent_Type) + then + Set_Has_Inherited_Invariants (Derived_Type); elsif not Is_Empty_Elmt_List (Ifaces_List) then declare - AI : Elmt_Id; + Iface : Entity_Id; + Iface_Elmt : Elmt_Id; begin - AI := First_Elmt (Ifaces_List); - while Present (AI) loop - if Has_Inheritable_Invariants (Node (AI)) then - Set_Has_Invariants (Derived_Type); - Set_Has_Inheritable_Invariants (Derived_Type); + Iface_Elmt := First_Elmt (Ifaces_List); + while Present (Iface_Elmt) loop + Iface := Node (Iface_Elmt); + if Has_Inheritable_Invariants (Iface) then + Set_Has_Inherited_Invariants (Derived_Type); exit; end if; - Next_Elmt (AI); + Next_Elmt (Iface_Elmt); end loop; end; end if; @@ -16427,63 +16441,93 @@ package body Sem_Ch3 is function Find_Type_Name (N : Node_Id) return Entity_Id is Id : constant Entity_Id := Defining_Identifier (N); - Prev : Entity_Id; New_Id : Entity_Id; + Prev : Entity_Id; Prev_Par : Node_Id; procedure Check_Duplicate_Aspects; -- Check that aspects specified in a completion have not been specified - -- already in the partial view. Type_Invariant and others can be - -- specified on either view but never on both. + -- already in the partial view. procedure Tag_Mismatch; - -- Diagnose a tagged partial view whose full view is untagged. - -- We post the message on the full view, with a reference to - -- the previous partial view. The partial view can be private - -- or incomplete, and these are handled in a different manner, - -- so we determine the position of the error message from the - -- respective slocs of both. + -- Diagnose a tagged partial view whose full view is untagged. We post + -- the message on the full view, with a reference to the previous + -- partial view. The partial view can be private or incomplete, and + -- these are handled in a different manner, so we determine the position + -- of the error message from the respective slocs of both. ----------------------------- -- Check_Duplicate_Aspects -- ----------------------------- procedure Check_Duplicate_Aspects is - Prev_Aspects : constant List_Id := Aspect_Specifications (Prev_Par); - Full_Aspects : constant List_Id := Aspect_Specifications (N); - F_Spec, P_Spec : Node_Id; + function Get_Partial_View_Aspect (Asp : Node_Id) return Node_Id; + -- Return the corresponding aspect of the partial view which matches + -- the aspect id of Asp. Return Empty is no such aspect exists. + + ----------------------------- + -- Get_Partial_View_Aspect -- + ----------------------------- + + function Get_Partial_View_Aspect (Asp : Node_Id) return Node_Id is + Asp_Id : constant Aspect_Id := Get_Aspect_Id (Asp); + Prev_Asps : constant List_Id := Aspect_Specifications (Prev_Par); + Prev_Asp : Node_Id; + + begin + if Present (Prev_Asps) then + Prev_Asp := First (Prev_Asps); + while Present (Prev_Asp) loop + if Get_Aspect_Id (Prev_Asp) = Asp_Id then + return Prev_Asp; + end if; + + Next (Prev_Asp); + end loop; + end if; + + return Empty; + end Get_Partial_View_Aspect; + + -- Local variables + + Full_Asps : constant List_Id := Aspect_Specifications (N); + Full_Asp : Node_Id; + Part_Asp : Node_Id; + + -- Start of processing for Check_Duplicate_Aspects begin - if Present (Full_Aspects) then - F_Spec := First (Full_Aspects); - while Present (F_Spec) loop - if Present (Prev_Aspects) then - P_Spec := First (Prev_Aspects); - while Present (P_Spec) loop - if Chars (Identifier (P_Spec)) = - Chars (Identifier (F_Spec)) - then - Error_Msg_N - ("aspect already specified in private declaration", - F_Spec); - Remove (F_Spec); - return; - end if; + if Present (Full_Asps) then + Full_Asp := First (Full_Asps); + while Present (Full_Asp) loop + Part_Asp := Get_Partial_View_Aspect (Full_Asp); - Next (P_Spec); - end loop; + -- An aspect and its class-wide counterpart are two distinct + -- aspects and may apply to both views of an entity. + + if Present (Part_Asp) + and then Class_Present (Part_Asp) = Class_Present (Full_Asp) + then + Error_Msg_N + ("aspect already specified in private declaration", + Full_Asp); + + Remove (Full_Asp); + return; end if; if Has_Discriminants (Prev) and then not Has_Unknown_Discriminants (Prev) - and then Chars (Identifier (F_Spec)) = - Name_Implicit_Dereference + and then Get_Aspect_Id (Full_Asp) = + Aspect_Implicit_Dereference then - Error_Msg_N ("cannot specify aspect " & - "if partial view has known discriminants", F_Spec); + Error_Msg_N + ("cannot specify aspect if partial view has known " + & "discriminants", Full_Asp); end if; - Next (F_Spec); + Next (Full_Asp); end loop; end if; end Check_Duplicate_Aspects; @@ -19573,8 +19617,8 @@ package body Sem_Ch3 is and then not Is_Ancestor (Base_Type (Priv_Parent), Full_Parent) then Error_Msg_N - ("parent of full type must descend from parent" - & " of private extension", Full_Indic); + ("parent of full type must descend from parent of private " + & "extension", Full_Indic); -- First check a formal restriction, and then proceed with checking -- Ada rules. Since the formal restriction is not a serious error, we @@ -19628,9 +19672,9 @@ package body Sem_Ch3 is while Present (Priv_Discr) and then Present (Full_Discr) loop if Original_Record_Component (Priv_Discr) = Original_Record_Component (Full_Discr) - or else - Corresponding_Discriminant (Priv_Discr) = - Corresponding_Discriminant (Full_Discr) + or else + Corresponding_Discriminant (Priv_Discr) = + Corresponding_Discriminant (Full_Discr) then null; else @@ -19643,8 +19687,8 @@ package body Sem_Ch3 is if Present (Priv_Discr) or else Present (Full_Discr) then Error_Msg_N - ("full view must inherit discriminants of the parent" - & " type used in the private extension", Full_Indic); + ("full view must inherit discriminants of the parent " + & "type used in the private extension", Full_Indic); elsif Priv_Constr and then not Full_Constr then Error_Msg_N @@ -19662,13 +19706,13 @@ package body Sem_Ch3 is -- known or unknown discriminants, then the full type -- declaration shall define a definite subtype. - elsif not Has_Unknown_Discriminants (Priv_T) + elsif not Has_Unknown_Discriminants (Priv_T) and then not Has_Discriminants (Priv_T) and then not Is_Constrained (Full_T) then Error_Msg_N - ("full view must define a constrained type if partial view" - & " has no discriminants", Full_T); + ("full view must define a constrained type if partial view " + & "has no discriminants", Full_T); end if; -- ??????? Do we implement the following properly ????? @@ -20095,42 +20139,33 @@ package body Sem_Ch3 is Mark_Full_View_As_Ghost (Priv_T, Full_T); end if; - -- Propagate invariants to full type + -- Propagate invariant-related attributes from the private view to the + -- full view and its base type. - if Has_Invariants (Priv_T) then - Set_Has_Invariants (Full_T); - Set_Invariant_Procedure (Full_T, Invariant_Procedure (Priv_T)); - end if; - - if Has_Inheritable_Invariants (Priv_T) then - Set_Has_Inheritable_Invariants (Full_T); - end if; + Propagate_Invariant_Attributes (Full_T, From_Typ => Priv_T); + Propagate_Invariant_Attributes (Base_Type (Full_T), From_Typ => Priv_T); - -- Check hidden inheritance of class-wide type invariants + -- AI12-0041: Detect an attempt to inherit a class-wide type invariant + -- in the full view without advertising the inheritance in the partial + -- view. This can only occur when the partial view has no parent type + -- and the full view has an interface as a parent. Any other scenarios + -- are illegal because implemented interfaces must match between the + -- two views. - if Ada_Version >= Ada_2012 - and then not Has_Inheritable_Invariants (Full_T) - and then In_Private_Part (Current_Scope) - and then Has_Interfaces (Full_T) - then + if Is_Tagged_Type (Priv_T) and then Is_Tagged_Type (Full_T) then declare - Ifaces : Elist_Id; - AI : Elmt_Id; + Full_Par : constant Entity_Id := Etype (Full_T); + Priv_Par : constant Entity_Id := Etype (Priv_T); begin - Collect_Interfaces (Full_T, Ifaces, Exclude_Parents => True); - - AI := First_Elmt (Ifaces); - while Present (AI) loop - if Has_Inheritable_Invariants (Node (AI)) then - Error_Msg_N - ("hidden inheritance of class-wide type invariants " & - "not allowed", N); - exit; - end if; - - Next_Elmt (AI); - end loop; + if not Is_Interface (Priv_Par) + and then Is_Interface (Full_Par) + and then Has_Inheritable_Invariants (Full_Par) + then + Error_Msg_N + ("hidden inheritance of class-wide type invariants not " + & "allowed", N); + end if; end; end if; @@ -20952,34 +20987,31 @@ package body Sem_Ch3 is Private_To_Full_View : Boolean := False) is procedure Remove_Default_Init_Cond_Procedure (Typ : Entity_Id); - -- Remove the default initial procedure (if any) from the rep chain of - -- type Typ. + -- Remove the default initial condition procedure (if any) from the + -- Subprograms_For_Type chain of type Typ. ---------------------------------------- -- Remove_Default_Init_Cond_Procedure -- ---------------------------------------- procedure Remove_Default_Init_Cond_Procedure (Typ : Entity_Id) is - Found : Boolean := False; - Prev : Entity_Id; - Subp : Entity_Id; + Subps : constant Elist_Id := Subprograms_For_Type (Typ); + Subp_Elmt : Elmt_Id; + Subp_Id : Entity_Id; begin - Prev := Typ; - Subp := Subprograms_For_Type (Typ); - while Present (Subp) loop - if Is_Default_Init_Cond_Procedure (Subp) then - Found := True; - exit; - end if; + if Present (Subps) then + Subp_Elmt := First_Elmt (Subps); + while Present (Subp_Elmt) loop + Subp_Id := Node (Subp_Elmt); - Prev := Subp; - Subp := Subprograms_For_Type (Subp); - end loop; + if Is_Default_Init_Cond_Procedure (Subp_Id) then + Remove_Elmt (Subps, Subp_Elmt); + exit; + end if; - if Found then - Set_Subprograms_For_Type (Prev, Subprograms_For_Type (Subp)); - Set_Subprograms_For_Type (Subp, Empty); + Next_Elmt (Subp_Elmt); + end loop; end if; end Remove_Default_Init_Cond_Procedure; diff --git a/gcc/ada/sem_ch6.adb b/gcc/ada/sem_ch6.adb index 4f7efc30ff1..ce5f55663be 100644 --- a/gcc/ada/sem_ch6.adb +++ b/gcc/ada/sem_ch6.adb @@ -4428,6 +4428,34 @@ package body Sem_Ch6 is -- both subprogram bodies and subprogram declarations (specs). function Analyze_Subprogram_Specification (N : Node_Id) return Entity_Id is + function Is_Invariant_Procedure_Or_Body (E : Entity_Id) return Boolean; + -- Determine whether entity E denotes the spec or body of an invariant + -- procedure. + + ------------------------------------ + -- Is_Invariant_Procedure_Or_Body -- + ------------------------------------ + + function Is_Invariant_Procedure_Or_Body (E : Entity_Id) return Boolean is + Decl : constant Node_Id := Unit_Declaration_Node (E); + Spec : Entity_Id; + + begin + if Nkind (Decl) = N_Subprogram_Body then + Spec := Corresponding_Spec (Decl); + else + Spec := E; + end if; + + return + Present (Spec) + and then Ekind (Spec) = E_Procedure + and then (Is_Partial_Invariant_Procedure (Spec) + or else Is_Invariant_Procedure (Spec)); + end Is_Invariant_Procedure_Or_Body; + + -- Local variables + Designator : constant Entity_Id := Defining_Entity (N); Formals : constant List_Id := Parameter_Specifications (N); @@ -4487,7 +4515,27 @@ package body Sem_Ch6 is -- Same processing for an access parameter whose designated type is -- derived from a synchronized interface. - if Ada_Version >= Ada_2005 then + -- This modification is not done for invariant procedures because + -- the corresponding record may not necessarely be visible when the + -- concurrent type acts as the full view of a private type. + + -- package Pack is + -- type Prot is private with Type_Invariant => ...; + -- procedure ConcInvariant (Obj : Prot); + -- private + -- protected type Prot is ...; + -- type Concurrent_Record_Prot is record ...; + -- procedure ConcInvariant (Obj : Prot) is + -- ... + -- end ConcInvariant; + -- end Pack; + + -- In the example above, both the spec and body of the invariant + -- procedure must utilize the private type as the controlling type. + + if Ada_Version >= Ada_2005 + and then not Is_Invariant_Procedure_Or_Body (Designator) + then declare Formal : Entity_Id; Formal_Typ : Entity_Id; diff --git a/gcc/ada/sem_ch7.adb b/gcc/ada/sem_ch7.adb index 0c235f624db..01a5edbbc3a 100644 --- a/gcc/ada/sem_ch7.adb +++ b/gcc/ada/sem_ch7.adb @@ -35,6 +35,7 @@ with Debug; use Debug; with Einfo; use Einfo; with Elists; use Elists; with Errout; use Errout; +with Exp_Ch7; use Exp_Ch7; with Exp_Disp; use Exp_Disp; with Exp_Dist; use Exp_Dist; with Exp_Dbug; use Exp_Dbug; @@ -1457,15 +1458,17 @@ package body Sem_Ch7 is Inherit_Default_Init_Cond_Procedure (E); end if; - -- If invariants are present, build the invariant procedure for a - -- private type, but not any of its subtypes or interface types. + -- Preanalyze and resolve the invariants of a private type at the + -- end of the visible declarations to catch potential errors. Note + -- that inherited class-wide invariants are not considered because + -- they have already been resolved. - if Has_Invariants (E) then - if Ekind (E) = E_Private_Subtype then - null; - else - Build_Invariant_Procedure (E, N); - end if; + if Ekind_In (E, E_Limited_Private_Type, + E_Private_Type, + E_Record_Type_With_Private) + and then Has_Own_Invariants (E) + then + Build_Invariant_Procedure_Body (E, Partial_Invariant => True); end if; end if; @@ -1473,7 +1476,7 @@ package body Sem_Ch7 is end loop; if Is_Remote_Call_Interface (Id) - and then Nkind (Parent (Parent (N))) = N_Compilation_Unit + and then Nkind (Parent (Parent (N))) = N_Compilation_Unit then Validate_RCI_Declarations (Id); end if; @@ -1544,7 +1547,6 @@ package body Sem_Ch7 is if Is_Compilation_Unit (Id) then Install_Private_With_Clauses (Id); else - -- The current compilation unit may include private with_clauses, -- which are visible in the private part of the current nested -- package, and have to be installed now. This is not done for @@ -1636,48 +1638,18 @@ package body Sem_Ch7 is ("full view of & does not have preelaborable initialization", E); end if; - -- An invariant may appear on a full view of a type + -- Preanalyze and resolve the invariants of a private type's full + -- view at the end of the private declarations in case freezing did + -- not take place either due to errors or because the context is a + -- generic unit. if Is_Type (E) + and then not Is_Private_Type (E) and then Has_Private_Declaration (E) - and then Nkind (Parent (E)) = N_Full_Type_Declaration + and then Has_Invariants (E) + and then Serious_Errors_Detected > 0 then - declare - IP_Built : Boolean := False; - - begin - if Has_Aspects (Parent (E)) then - declare - ASN : Node_Id; - - begin - ASN := First (Aspect_Specifications (Parent (E))); - while Present (ASN) loop - if Nam_In (Chars (Identifier (ASN)), - Name_Invariant, - Name_Type_Invariant) - then - Build_Invariant_Procedure (E, N); - IP_Built := True; - exit; - end if; - - Next (ASN); - end loop; - end; - end if; - - -- Invariants may have been inherited from progenitors - - if not IP_Built - and then Has_Interfaces (E) - and then Has_Inheritable_Invariants (E) - and then not Is_Interface (E) - and then not Is_Class_Wide_Type (E) - then - Build_Invariant_Procedure (E, N); - end if; - end; + Build_Invariant_Procedure_Body (E); end if; Next_Entity (E); @@ -2543,7 +2515,7 @@ package body Sem_Ch7 is Priv_Elmt : Elmt_Id; Priv_Sub : Entity_Id; - procedure Preserve_Full_Attributes (Priv, Full : Entity_Id); + procedure Preserve_Full_Attributes (Priv : Entity_Id; Full : Entity_Id); -- Copy to the private declaration the attributes of the full view that -- need to be available for the partial view also. @@ -2554,12 +2526,16 @@ package body Sem_Ch7 is -- Preserve_Full_Attributes -- ------------------------------ - procedure Preserve_Full_Attributes (Priv, Full : Entity_Id) is - Priv_Is_Base_Type : constant Boolean := Is_Base_Type (Priv); + procedure Preserve_Full_Attributes + (Priv : Entity_Id; + Full : Entity_Id) + is + Full_Base : constant Entity_Id := Base_Type (Full); + Priv_Is_Base_Type : constant Boolean := Is_Base_Type (Priv); begin - Set_Size_Info (Priv, (Full)); - Set_RM_Size (Priv, RM_Size (Full)); + Set_Size_Info (Priv, Full); + Set_RM_Size (Priv, RM_Size (Full)); Set_Size_Known_At_Compile_Time (Priv, Size_Known_At_Compile_Time (Full)); Set_Is_Volatile (Priv, Is_Volatile (Full)); @@ -2581,26 +2557,30 @@ package body Sem_Ch7 is end if; if Priv_Is_Base_Type then - Set_Is_Controlled (Priv, Is_Controlled (Base_Type (Full))); + Set_Is_Controlled (Priv, Is_Controlled (Full_Base)); Set_Finalize_Storage_Only - (Priv, Finalize_Storage_Only - (Base_Type (Full))); - Propagate_Concurrent_Flags - (Priv, Base_Type (Full)); + (Priv, Finalize_Storage_Only (Full_Base)); Set_Has_Controlled_Component - (Priv, Has_Controlled_Component - (Base_Type (Full))); + (Priv, Has_Controlled_Component (Full_Base)); + + Propagate_Concurrent_Flags (Priv, Base_Type (Full)); end if; Set_Freeze_Node (Priv, Freeze_Node (Full)); - -- Propagate information of type invariants, which may be specified - -- for the full view. + -- Propagate invariant-related attributes from the base type of the + -- full view to the full view and vice versa. This may seem strange, + -- but is necessary depending on which type triggered the generation + -- of the invariant procedure body. As a result, both the full view + -- and its base type carry the same invariant-related information. - if Has_Invariants (Full) and not Has_Invariants (Priv) then - Set_Has_Invariants (Priv); - Set_Subprograms_For_Type (Priv, Subprograms_For_Type (Full)); - end if; + Propagate_Invariant_Attributes (Full, From_Typ => Full_Base); + Propagate_Invariant_Attributes (Full_Base, From_Typ => Full); + + -- Propagate invariant-related attributes from the full view to the + -- private view. + + Propagate_Invariant_Attributes (Priv, From_Typ => Full); if Is_Tagged_Type (Priv) and then Is_Tagged_Type (Full) @@ -2943,7 +2923,7 @@ package body Sem_Ch7 is if Is_Overloadable (Subp) and then Is_Primitive (Subp) then Error_Msg_NE ("type& must be completed in the private part", - Parent (Subp), Id); + Parent (Subp), Id); -- The result type of an access-to-function type cannot be a -- Taft-amendment type, unless the version is Ada 2012 or diff --git a/gcc/ada/sem_ch9.adb b/gcc/ada/sem_ch9.adb index ac14ba39f0a..39e8dc174ea 100644 --- a/gcc/ada/sem_ch9.adb +++ b/gcc/ada/sem_ch9.adb @@ -2037,11 +2037,21 @@ package body Sem_Ch9 is Set_Is_Constrained (T, not Has_Discriminants (T)); - -- If aspects are present, analyze them now. They can make references - -- to the discriminants of the type, but not to any components. + -- If aspects are present, analyze them now. They can make references to + -- the discriminants of the type, but not to any components. if Has_Aspects (N) then - Analyze_Aspect_Specifications (N, Def_Id); + + -- The protected type is the full view of a private type. Analyze the + -- aspects with the entity of the private type to ensure that after + -- both views are exchanged, the aspect are actually associated with + -- the full view. + + if T /= Def_Id and then Is_Private_Type (Def_Id) then + Analyze_Aspect_Specifications (N, T); + else + Analyze_Aspect_Specifications (N, Def_Id); + end if; end if; Analyze (Protected_Definition (N)); @@ -2194,6 +2204,11 @@ package body Sem_Ch9 is Set_Must_Have_Preelab_Init (T); end if; + -- Propagate invariant-related attributes from the private type to + -- the protected type. + + Propagate_Invariant_Attributes (T, From_Typ => Def_Id); + -- Create corresponding record now, because some private dependents -- may be subtypes of the partial view. @@ -3071,7 +3086,17 @@ package body Sem_Ch9 is Set_Is_Constrained (T, not Has_Discriminants (T)); if Has_Aspects (N) then - Analyze_Aspect_Specifications (N, Def_Id); + + -- The task type is the full view of a private type. Analyze the + -- aspects with the entity of the private type to ensure that after + -- both views are exchanged, the aspect are actually associated with + -- the full view. + + if T /= Def_Id and then Is_Private_Type (Def_Id) then + Analyze_Aspect_Specifications (N, T); + else + Analyze_Aspect_Specifications (N, Def_Id); + end if; end if; if Present (Task_Definition (N)) then @@ -3102,9 +3127,8 @@ package body Sem_Ch9 is -- Case of a completion of a private declaration - if T /= Def_Id - and then Is_Private_Type (Def_Id) - then + if T /= Def_Id and then Is_Private_Type (Def_Id) then + -- Deal with preelaborable initialization. Note that this processing -- is done by Process_Full_View, but as can be seen below, in this -- case the call to Process_Full_View is skipped if any serious @@ -3114,6 +3138,11 @@ package body Sem_Ch9 is Set_Must_Have_Preelab_Init (T); end if; + -- Propagate invariant-related attributes from the private type to + -- task type. + + Propagate_Invariant_Attributes (T, From_Typ => Def_Id); + -- Create corresponding record now, because some private dependents -- may be subtypes of the partial view. diff --git a/gcc/ada/sem_prag.adb b/gcc/ada/sem_prag.adb index 51f2e83822a..6c7539bb494 100644 --- a/gcc/ada/sem_prag.adb +++ b/gcc/ada/sem_prag.adb @@ -39,6 +39,7 @@ with Debug; use Debug; with Einfo; use Einfo; with Elists; use Elists; with Errout; use Errout; +with Exp_Ch7; use Exp_Ch7; with Exp_Dist; use Exp_Dist; with Exp_Util; use Exp_Util; with Freeze; use Freeze; @@ -16503,7 +16504,19 @@ package body Sem_Prag is when Pragma_Invariant => Invariant : declare Discard : Boolean; Typ : Entity_Id; - Type_Id : Node_Id; + Typ_Arg : Node_Id; + + CRec_Typ : Entity_Id; + -- The corresponding record type of Full_Typ + + Full_Base : Entity_Id; + -- The base type of Full_Typ + + Full_Typ : Entity_Id; + -- The full view of Typ + + Priv_Typ : Entity_Id; + -- The partial view of Typ begin GNAT_Pragma; @@ -16519,14 +16532,16 @@ package body Sem_Prag is Check_Arg_Is_Local_Name (Arg1); - Type_Id := Get_Pragma_Arg (Arg1); - Find_Type (Type_Id); - Typ := Entity (Type_Id); + Typ_Arg := Get_Pragma_Arg (Arg1); + Find_Type (Typ_Arg); + Typ := Entity (Typ_Arg); + + -- Nothing to do of the related type is erroneous in some way if Typ = Any_Type then return; - -- Invariants allowed in interface types (RM 7.3.2(3/3)) + -- AI12-0041: Invariants are allowed in interface types elsif Is_Interface (Typ) then null; @@ -16536,64 +16551,86 @@ package body Sem_Prag is -- a class-wide invariant can only appear on a private declaration -- or private extension, not a completion. - elsif Ekind_In (Typ, E_Private_Type, - E_Record_Type_With_Private, - E_Limited_Private_Type) + -- A [class-wide] invariant may be associated a [limited] private + -- type or a private extension. + + elsif Ekind_In (Typ, E_Limited_Private_Type, + E_Private_Type, + E_Record_Type_With_Private) then null; - elsif In_Private_Part (Current_Scope) - and then Has_Private_Declaration (Typ) + -- A non-class-wide invariant may be associated with the full view + -- of a [limited] private type or a private extension. + + elsif Has_Private_Declaration (Typ) and then not Class_Present (N) then null; - elsif In_Private_Part (Current_Scope) then + -- A class-wide invariant may appear on the partial view only + + elsif Class_Present (N) then Error_Pragma_Arg - ("pragma% only allowed for private type declared in " - & "visible part", Arg1); + ("pragma % only allowed for private type", Arg1); + return; + + -- A regular invariant may appear on both views else Error_Pragma_Arg - ("pragma% only allowed for private type", Arg1); + ("pragma % only allowed for private type or corresponding " + & "full view", Arg1); + return; end if; - -- A pragma that applies to a Ghost entity becomes Ghost for the - -- purposes of legality checks and removal of ignored Ghost code. - - Mark_Pragma_As_Ghost (N, Typ); - - -- Not allowed for abstract type in the non-class case (it is - -- allowed to use Invariant'Class for abstract types). + -- An invariant associated with an abstract type (this includes + -- interfaces) must be class-wide. if Is_Abstract_Type (Typ) and then not Class_Present (N) then Error_Pragma_Arg - ("pragma% not allowed for abstract type", Arg1); + ("pragma % not allowed for abstract type", Arg1); + return; end if; - -- Link the pragma on to the rep item chain, for processing when - -- the type is frozen. + -- A pragma that applies to a Ghost entity becomes Ghost for the + -- purposes of legality checks and removal of ignored Ghost code. - Discard := Rep_Item_Too_Late (Typ, N, FOnly => True); + Mark_Pragma_As_Ghost (N, Typ); - -- Note that the type has at least one invariant, and also that - -- it has inheritable invariants if we have Invariant'Class - -- or Type_Invariant'Class. Build the corresponding invariant - -- procedure declaration, so that calls to it can be generated - -- before the body is built (e.g. within an expression function). + -- The pragma defines a type-specific invariant, the type is said + -- to have invariants of its "own". - -- Interface types have no invariant procedure; their invariants - -- are propagated to the build invariant procedure of all the - -- types covering the interface type. + Set_Has_Own_Invariants (Typ); - if not Is_Interface (Typ) then - Insert_After_And_Analyze - (N, Build_Invariant_Procedure_Declaration (Typ)); - end if; + -- If the invariant is class-wide, then it can be inherited by + -- derived or interface implementing types. The type is said to + -- have "inheritable" invariants. if Class_Present (N) then Set_Has_Inheritable_Invariants (Typ); end if; + + Get_Views (Typ, Priv_Typ, Full_Typ, Full_Base, CRec_Typ); + + -- Propagate invariant-related attributes to all views of the type + -- and any additional types that may have been created. + + Propagate_Invariant_Attributes (Priv_Typ, From_Typ => Typ); + Propagate_Invariant_Attributes (Full_Typ, From_Typ => Typ); + Propagate_Invariant_Attributes (Full_Base, From_Typ => Typ); + Propagate_Invariant_Attributes (CRec_Typ, From_Typ => Typ); + + -- Chain the pragma on to the rep item chain, for processing when + -- the type is frozen. + + Discard := Rep_Item_Too_Late (Typ, N, FOnly => True); + + -- Create the declaration of the invariant procedure which will + -- verify the invariant at run-time. Note that interfaces do not + -- carry such a declaration. + + Build_Invariant_Procedure_Declaration (Typ); end Invariant; ---------------- diff --git a/gcc/ada/sem_res.adb b/gcc/ada/sem_res.adb index d010045b003..f6fb056d192 100644 --- a/gcc/ada/sem_res.adb +++ b/gcc/ada/sem_res.adb @@ -4223,14 +4223,19 @@ package body Sem_Res is then Error_Msg_NE ("actual for& must be a variable", A, F); - if Is_Subprogram (Current_Scope) - and then - (Is_Invariant_Procedure (Current_Scope) - or else Is_Predicate_Function (Current_Scope)) - then - Error_Msg_N - ("function used in predicate cannot " - & "modify its argument", F); + if Is_Subprogram (Current_Scope) then + if Is_Invariant_Procedure (Current_Scope) + or else Is_Partial_Invariant_Procedure (Current_Scope) + then + Error_Msg_N + ("function used in invariant cannot modify its " + & "argument", F); + + elsif Is_Predicate_Function (Current_Scope) then + Error_Msg_N + ("function used in predicate cannot modify its " + & "argument", F); + end if; end if; end if; diff --git a/gcc/ada/sem_util.adb b/gcc/ada/sem_util.adb index 936b814f96b..1dd35e4884f 100644 --- a/gcc/ada/sem_util.adb +++ b/gcc/ada/sem_util.adb @@ -8622,6 +8622,76 @@ package body Sem_Util is return Empty; end Get_User_Defined_Eq; + --------------- + -- Get_Views -- + --------------- + + procedure Get_Views + (Typ : Entity_Id; + Priv_Typ : out Entity_Id; + Full_Typ : out Entity_Id; + Full_Base : out Entity_Id; + CRec_Typ : out Entity_Id) + is + begin + -- Assume that none of the views can be recovered + + Priv_Typ := Empty; + Full_Typ := Empty; + Full_Base := Empty; + CRec_Typ := Empty; + + -- The input type is private + + if Is_Private_Type (Typ) then + Priv_Typ := Typ; + Full_Typ := Full_View (Priv_Typ); + + if Present (Full_Typ) then + Full_Base := Base_Type (Full_Typ); + + if Ekind_In (Full_Typ, E_Protected_Type, E_Task_Type) then + CRec_Typ := Corresponding_Record_Type (Full_Typ); + end if; + end if; + + -- The input type is the corresponding record type of a protected or a + -- task type. + + elsif Ekind (Typ) = E_Record_Type + and then Is_Concurrent_Record_Type (Typ) + then + CRec_Typ := Typ; + Full_Typ := Corresponding_Concurrent_Type (CRec_Typ); + Full_Base := Base_Type (Full_Typ); + Priv_Typ := Incomplete_Or_Partial_View (Full_Typ); + + -- Otherwise the input type could be the full view of a private type + + else + Full_Typ := Typ; + Full_Base := Base_Type (Full_Typ); + + if Ekind_In (Full_Typ, E_Protected_Type, E_Task_Type) then + CRec_Typ := Corresponding_Record_Type (Full_Typ); + end if; + + -- The type is the full view of a private type, obtain the partial + -- view. + + if Has_Private_Declaration (Full_Typ) + and then not Is_Private_Type (Full_Typ) + then + Priv_Typ := Incomplete_Or_Partial_View (Full_Typ); + + -- The full view of a private type should always have a partial + -- view. + + pragma Assert (Present (Priv_Typ)); + end if; + end if; + end Get_Views; + ----------------------- -- Has_Access_Values -- ----------------------- @@ -10988,20 +11058,31 @@ package body Sem_Util is while Present (Decl) loop Match := Empty; + -- The partial view of a Taft-amendment type is an incomplete + -- type. + if Taft then if Nkind (Decl) = N_Incomplete_Type_Declaration then Match := Defining_Identifier (Decl); end if; - else - if Nkind_In (Decl, N_Private_Extension_Declaration, + -- Otherwise look for a private type whose full view matches the + -- input type. Note that this checks full_type_declaration nodes + -- to account for derivations from a private type where the type + -- declaration hold the partial view and the full view is an + -- itype. + + elsif Nkind_In (Decl, N_Full_Type_Declaration, + N_Private_Extension_Declaration, N_Private_Type_Declaration) - then - Match := Defining_Identifier (Decl); - end if; + then + Match := Defining_Identifier (Decl); end if; + -- Guard against unanalyzed entities + if Present (Match) + and then Is_Type (Match) and then Present (Full_View (Match)) and then Full_View (Match) = Id then @@ -11040,7 +11121,9 @@ package body Sem_Util is Pkg_Decl : Node_Id := Pkg; begin - if Present (Pkg) and then Ekind (Pkg) = E_Package then + if Present (Pkg) + and then Ekind_In (Pkg, E_Generic_Package, E_Package) + then while Nkind (Pkg_Decl) /= N_Package_Specification loop Pkg_Decl := Parent (Pkg_Decl); end loop; @@ -18519,13 +18602,71 @@ package body Sem_Util is Set_Sloc (Endl, Loc); end Process_End_Label; + ------------------------------------ + -- Propagate_Invariant_Attributes -- + ------------------------------------ + + procedure Propagate_Invariant_Attributes + (Typ : Entity_Id; + From_Typ : Entity_Id) + is + Full_IP : Entity_Id; + Part_IP : Entity_Id; + + begin + if Present (Typ) and then Present (From_Typ) then + pragma Assert (Is_Type (Typ) and then Is_Type (From_Typ)); + + -- Nothing to do if both the source and the destination denote the + -- same type. + + if From_Typ = Typ then + return; + end if; + + Full_IP := Invariant_Procedure (From_Typ); + Part_IP := Partial_Invariant_Procedure (From_Typ); + + -- The setting of the attributes is intentionally conservative. This + -- prevents accidental clobbering of enabled attributes. + + if Has_Inheritable_Invariants (From_Typ) + and then not Has_Inheritable_Invariants (Typ) + then + Set_Has_Inheritable_Invariants (Typ, True); + end if; + + if Has_Inherited_Invariants (From_Typ) + and then not Has_Inherited_Invariants (Typ) + then + Set_Has_Inherited_Invariants (Typ, True); + end if; + + if Has_Own_Invariants (From_Typ) + and then not Has_Own_Invariants (Typ) + then + Set_Has_Own_Invariants (Typ, True); + end if; + + if Present (Full_IP) and then No (Invariant_Procedure (Typ)) then + Set_Invariant_Procedure (Typ, Full_IP); + end if; + + if Present (Part_IP) and then No (Partial_Invariant_Procedure (Typ)) + then + Set_Partial_Invariant_Procedure (Typ, Part_IP); + end if; + end if; + end Propagate_Invariant_Attributes; + -------------------------------- -- Propagate_Concurrent_Flags -- -------------------------------- procedure Propagate_Concurrent_Flags (Typ : Entity_Id; - Comp_Typ : Entity_Id) is + Comp_Typ : Entity_Id) + is begin if Has_Task (Comp_Typ) then Set_Has_Task (Typ); diff --git a/gcc/ada/sem_util.ads b/gcc/ada/sem_util.ads index 503c5eb96e5..d0bb92d9b48 100644 --- a/gcc/ada/sem_util.ads +++ b/gcc/ada/sem_util.ads @@ -1005,6 +1005,20 @@ package Sem_Util is -- For a type entity, return the entity of the primitive equality function -- for the type if it exists, otherwise return Empty. + procedure Get_Views + (Typ : Entity_Id; + Priv_Typ : out Entity_Id; + Full_Typ : out Entity_Id; + Full_Base : out Entity_Id; + CRec_Typ : out Entity_Id); + -- Obtain the partial and full view of type Typ and in addition any extra + -- types the full view may have. The return entities are as follows: + -- + -- Priv_Typ - the partial view (a private type) + -- Full_Typ - the full view + -- Full_Base - the base type of the full view + -- CRec_Typ - the corresponding record type of the full view + function Has_Access_Values (T : Entity_Id) return Boolean; -- Returns true if type or subtype T is an access type, or has a component -- (at any recursive level) that is an access type. This is a conservative @@ -2022,6 +2036,12 @@ package Sem_Util is -- parameter Ent gives the entity to which the End_Label refers, -- and to which cross-references are to be generated. + procedure Propagate_Invariant_Attributes + (Typ : Entity_Id; + From_Typ : Entity_Id); + -- Inherit all invariant-related attributes form type From_Typ. Typ is the + -- destination type. + procedure Propagate_Concurrent_Flags (Typ : Entity_Id; Comp_Typ : Entity_Id); -- 2.30.2