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------------------------------------------------------------------------------ -- -- -- GNAT COMPILER COMPONENTS -- -- -- -- A S P E C T S -- -- -- -- B o d y -- -- -- -- Copyright (C) 2010-2012, 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- -- -- ware Foundation; either version 3, or (at your option) any later ver- -- -- sion. GNAT is distributed in the hope that it will be useful, but WITH- -- -- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY -- -- or FITNESS FOR A PARTICULAR PURPOSE. -- -- -- -- As a special exception under Section 7 of GPL version 3, you are granted -- -- additional permissions described in the GCC Runtime Library Exception, -- -- version 3.1, as published by the Free Software Foundation. -- -- -- -- You should have received a copy of the GNU General Public License and -- -- a copy of the GCC Runtime Library Exception along with this program; -- -- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see -- -- <http://www.gnu.org/licenses/>. -- -- -- -- GNAT was originally developed by the GNAT team at New York University. -- -- Extensive contributions were provided by Ada Core Technologies Inc. -- -- -- ------------------------------------------------------------------------------ with Atree; use Atree; with Einfo; use Einfo; with Nlists; use Nlists; with Sinfo; use Sinfo; with Tree_IO; use Tree_IO; with GNAT.HTable; use GNAT.HTable; package body Aspects is procedure Set_Aspect_Specifications_No_Check (N : Node_Id; L : List_Id); -- Same as Set_Aspect_Specifications, but does not contain the assertion -- that checks that N does not already have aspect specifications. This -- subprogram is supposed to be used as a part of Tree_Read. When reading -- tree, first read nodes with their basic properties (as Atree.Tree_Read), -- this includes reading the Has_Aspects flag for each node, then we reed -- all the list tables and only after that we call Tree_Read for Aspects. -- That is, when reading the tree, the list of aspects is attached to the -- node that already has Has_Aspects flag set ON. ------------------------------------------ -- Hash Table for Aspect Specifications -- ------------------------------------------ type AS_Hash_Range is range 0 .. 510; -- Size of hash table headers function AS_Hash (F : Node_Id) return AS_Hash_Range; -- Hash function for hash table function AS_Hash (F : Node_Id) return AS_Hash_Range is begin return AS_Hash_Range (F mod 511); end AS_Hash; package Aspect_Specifications_Hash_Table is new GNAT.HTable.Simple_HTable (Header_Num => AS_Hash_Range, Element => List_Id, No_Element => No_List, Key => Node_Id, Hash => AS_Hash, Equal => "="); ------------------------------------- -- Hash Table for Aspect Id Values -- ------------------------------------- type AI_Hash_Range is range 0 .. 112; -- Size of hash table headers function AI_Hash (F : Name_Id) return AI_Hash_Range; -- Hash function for hash table function AI_Hash (F : Name_Id) return AI_Hash_Range is begin return AI_Hash_Range (F mod 113); end AI_Hash; package Aspect_Id_Hash_Table is new GNAT.HTable.Simple_HTable (Header_Num => AI_Hash_Range, Element => Aspect_Id, No_Element => No_Aspect, Key => Name_Id, Hash => AI_Hash, Equal => "="); --------------------------- -- Aspect_Specifications -- --------------------------- function Aspect_Specifications (N : Node_Id) return List_Id is begin if Has_Aspects (N) then return Aspect_Specifications_Hash_Table.Get (N); else return No_List; end if; end Aspect_Specifications; ------------------- -- Get_Aspect_Id -- ------------------- function Get_Aspect_Id (Name : Name_Id) return Aspect_Id is begin return Aspect_Id_Hash_Table.Get (Name); end Get_Aspect_Id; ----------------- -- Find_Aspect -- ----------------- function Find_Aspect (Ent : Entity_Id; A : Aspect_Id) return Node_Id is Ritem : Node_Id; Typ : Entity_Id; begin -- If the aspect is an inherited one and the entity is a class-wide -- type, use the aspect of the specific type. If the type is a base -- aspect, examine the rep. items of the base type. if Is_Type (Ent) then if Base_Aspect (A) then Typ := Base_Type (Ent); else Typ := Ent; end if; if Is_Class_Wide_Type (Typ) and then Inherited_Aspect (A) then Ritem := First_Rep_Item (Etype (Typ)); else Ritem := First_Rep_Item (Typ); end if; else Ritem := First_Rep_Item (Ent); end if; while Present (Ritem) loop if Nkind (Ritem) = N_Aspect_Specification and then Get_Aspect_Id (Chars (Identifier (Ritem))) = A then if A = Aspect_Default_Iterator then return Expression (Aspect_Rep_Item (Ritem)); else return Expression (Ritem); end if; end if; Next_Rep_Item (Ritem); end loop; return Empty; end Find_Aspect; ------------------ -- Move_Aspects -- ------------------ procedure Move_Aspects (From : Node_Id; To : Node_Id) is pragma Assert (not Has_Aspects (To)); begin if Has_Aspects (From) then Set_Aspect_Specifications (To, Aspect_Specifications (From)); Aspect_Specifications_Hash_Table.Remove (From); Set_Has_Aspects (From, False); end if; end Move_Aspects; ----------------------------------- -- Permits_Aspect_Specifications -- ----------------------------------- Has_Aspect_Specifications_Flag : constant array (Node_Kind) of Boolean := (N_Abstract_Subprogram_Declaration => True, N_Component_Declaration => True, N_Entry_Declaration => True, N_Exception_Declaration => True, N_Exception_Renaming_Declaration => True, N_Expression_Function => True, N_Formal_Abstract_Subprogram_Declaration => True, N_Formal_Concrete_Subprogram_Declaration => True, N_Formal_Object_Declaration => True, N_Formal_Package_Declaration => True, N_Formal_Type_Declaration => True, N_Full_Type_Declaration => True, N_Function_Instantiation => True, N_Generic_Package_Declaration => True, N_Generic_Renaming_Declaration => True, N_Generic_Subprogram_Declaration => True, N_Object_Declaration => True, N_Object_Renaming_Declaration => True, N_Package_Declaration => True, N_Package_Instantiation => True, N_Package_Specification => True, N_Package_Renaming_Declaration => True, N_Private_Extension_Declaration => True, N_Private_Type_Declaration => True, N_Procedure_Instantiation => True, N_Protected_Body => True, N_Protected_Type_Declaration => True, N_Single_Protected_Declaration => True, N_Single_Task_Declaration => True, N_Subprogram_Body => True, N_Subprogram_Declaration => True, N_Subprogram_Renaming_Declaration => True, N_Subtype_Declaration => True, N_Task_Body => True, N_Task_Type_Declaration => True, others => False); function Permits_Aspect_Specifications (N : Node_Id) return Boolean is begin return Has_Aspect_Specifications_Flag (Nkind (N)); end Permits_Aspect_Specifications; ----------------- -- Same_Aspect -- ----------------- -- Table used for Same_Aspect, maps aspect to canonical aspect Canonical_Aspect : constant array (Aspect_Id) of Aspect_Id := (No_Aspect => No_Aspect, Aspect_Ada_2005 => Aspect_Ada_2005, Aspect_Ada_2012 => Aspect_Ada_2005, Aspect_Address => Aspect_Address, Aspect_Alignment => Aspect_Alignment, Aspect_Asynchronous => Aspect_Asynchronous, Aspect_Atomic => Aspect_Atomic, Aspect_Atomic_Components => Aspect_Atomic_Components, Aspect_Attach_Handler => Aspect_Attach_Handler, Aspect_Bit_Order => Aspect_Bit_Order, Aspect_Component_Size => Aspect_Component_Size, Aspect_Constant_Indexing => Aspect_Constant_Indexing, Aspect_CPU => Aspect_CPU, Aspect_Default_Component_Value => Aspect_Default_Component_Value, Aspect_Default_Iterator => Aspect_Default_Iterator, Aspect_Default_Value => Aspect_Default_Value, Aspect_Dimension => Aspect_Dimension, Aspect_Dimension_System => Aspect_Dimension_System, Aspect_Discard_Names => Aspect_Discard_Names, Aspect_Dispatching_Domain => Aspect_Dispatching_Domain, Aspect_Dynamic_Predicate => Aspect_Predicate, Aspect_External_Tag => Aspect_External_Tag, Aspect_Favor_Top_Level => Aspect_Favor_Top_Level, Aspect_Implicit_Dereference => Aspect_Implicit_Dereference, Aspect_Independent => Aspect_Independent, Aspect_Independent_Components => Aspect_Independent_Components, Aspect_Inline => Aspect_Inline, Aspect_Inline_Always => Aspect_Inline, Aspect_Interrupt_Handler => Aspect_Interrupt_Handler, Aspect_Interrupt_Priority => Aspect_Interrupt_Priority, Aspect_Iterator_Element => Aspect_Iterator_Element, Aspect_All_Calls_Remote => Aspect_All_Calls_Remote, Aspect_Compiler_Unit => Aspect_Compiler_Unit, Aspect_Elaborate_Body => Aspect_Elaborate_Body, Aspect_Preelaborate => Aspect_Preelaborate, Aspect_Preelaborate_05 => Aspect_Preelaborate_05, Aspect_Pure => Aspect_Pure, Aspect_Pure_05 => Aspect_Pure_05, Aspect_Pure_12 => Aspect_Pure_12, Aspect_Remote_Call_Interface => Aspect_Remote_Call_Interface, Aspect_Remote_Types => Aspect_Remote_Types, Aspect_Shared_Passive => Aspect_Shared_Passive, Aspect_Universal_Data => Aspect_Universal_Data, Aspect_Input => Aspect_Input, Aspect_Invariant => Aspect_Invariant, Aspect_Machine_Radix => Aspect_Machine_Radix, Aspect_No_Return => Aspect_No_Return, Aspect_Object_Size => Aspect_Object_Size, Aspect_Output => Aspect_Output, Aspect_Pack => Aspect_Pack, Aspect_Persistent_BSS => Aspect_Persistent_BSS, Aspect_Post => Aspect_Post, Aspect_Postcondition => Aspect_Post, Aspect_Pre => Aspect_Pre, Aspect_Precondition => Aspect_Pre, Aspect_Predicate => Aspect_Predicate, Aspect_Preelaborable_Initialization => Aspect_Preelaborable_Initialization, Aspect_Priority => Aspect_Priority, Aspect_Pure_Function => Aspect_Pure_Function, Aspect_Remote_Access_Type => Aspect_Remote_Access_Type, Aspect_Read => Aspect_Read, Aspect_Shared => Aspect_Atomic, Aspect_Simple_Storage_Pool => Aspect_Simple_Storage_Pool, Aspect_Simple_Storage_Pool_Type => Aspect_Simple_Storage_Pool_Type, Aspect_Size => Aspect_Size, Aspect_Small => Aspect_Small, Aspect_Static_Predicate => Aspect_Predicate, Aspect_Storage_Pool => Aspect_Storage_Pool, Aspect_Storage_Size => Aspect_Storage_Size, Aspect_Stream_Size => Aspect_Stream_Size, Aspect_Suppress => Aspect_Suppress, Aspect_Suppress_Debug_Info => Aspect_Suppress_Debug_Info, Aspect_Synchronization => Aspect_Synchronization, Aspect_Test_Case => Aspect_Test_Case, Aspect_Type_Invariant => Aspect_Invariant, Aspect_Unchecked_Union => Aspect_Unchecked_Union, Aspect_Universal_Aliasing => Aspect_Universal_Aliasing, Aspect_Unmodified => Aspect_Unmodified, Aspect_Unreferenced => Aspect_Unreferenced, Aspect_Unreferenced_Objects => Aspect_Unreferenced_Objects, Aspect_Unsuppress => Aspect_Unsuppress, Aspect_Variable_Indexing => Aspect_Variable_Indexing, Aspect_Value_Size => Aspect_Value_Size, Aspect_Volatile => Aspect_Volatile, Aspect_Volatile_Components => Aspect_Volatile_Components, Aspect_Warnings => Aspect_Warnings, Aspect_Write => Aspect_Write); function Same_Aspect (A1 : Aspect_Id; A2 : Aspect_Id) return Boolean is begin return Canonical_Aspect (A1) = Canonical_Aspect (A2); end Same_Aspect; ------------------------------- -- Set_Aspect_Specifications -- ------------------------------- procedure Set_Aspect_Specifications (N : Node_Id; L : List_Id) is begin pragma Assert (Permits_Aspect_Specifications (N)); pragma Assert (not Has_Aspects (N)); pragma Assert (L /= No_List); Set_Has_Aspects (N); Set_Parent (L, N); Aspect_Specifications_Hash_Table.Set (N, L); end Set_Aspect_Specifications; ---------------------------------------- -- Set_Aspect_Specifications_No_Check -- ---------------------------------------- procedure Set_Aspect_Specifications_No_Check (N : Node_Id; L : List_Id) is begin pragma Assert (Permits_Aspect_Specifications (N)); pragma Assert (L /= No_List); Set_Has_Aspects (N); Set_Parent (L, N); Aspect_Specifications_Hash_Table.Set (N, L); end Set_Aspect_Specifications_No_Check; --------------- -- Tree_Read -- --------------- procedure Tree_Read is Node : Node_Id; List : List_Id; begin loop Tree_Read_Int (Int (Node)); Tree_Read_Int (Int (List)); exit when List = No_List; Set_Aspect_Specifications_No_Check (Node, List); end loop; end Tree_Read; ---------------- -- Tree_Write -- ---------------- procedure Tree_Write is Node : Node_Id := Empty; List : List_Id; begin Aspect_Specifications_Hash_Table.Get_First (Node, List); loop Tree_Write_Int (Int (Node)); Tree_Write_Int (Int (List)); exit when List = No_List; Aspect_Specifications_Hash_Table.Get_Next (Node, List); end loop; end Tree_Write; -- Package initialization sets up Aspect Id hash table begin for J in Aspect_Id loop Aspect_Id_Hash_Table.Set (Aspect_Names (J), J); end loop; end Aspects;
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