URL
https://opencores.org/ocsvn/openrisc/openrisc/trunk
Subversion Repositories openrisc
[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [gcc/] [ada/] [aspects.ads] - Rev 801
Go to most recent revision | Compare with Previous | Blame | View Log
------------------------------------------------------------------------------ -- -- -- GNAT COMPILER COMPONENTS -- -- -- -- A S P E C T S -- -- -- -- S p e c -- -- -- -- 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. -- -- -- ------------------------------------------------------------------------------ -- This package defines the aspects that are recognized by GNAT in aspect -- specifications. It also contains the subprograms for storing/retrieving -- aspect specifications from the tree. The semantic processing for aspect -- specifications is found in Sem_Ch13.Analyze_Aspect_Specifications. with Namet; use Namet; with Snames; use Snames; with Types; use Types; package Aspects is -- Type defining recognized aspects type Aspect_Id is (No_Aspect, -- Dummy entry for no aspect Aspect_Address, Aspect_Alignment, Aspect_Attach_Handler, Aspect_Bit_Order, Aspect_Component_Size, Aspect_Constant_Indexing, Aspect_CPU, Aspect_Default_Component_Value, Aspect_Default_Iterator, Aspect_Default_Value, Aspect_Dimension, -- GNAT Aspect_Dimension_System, -- GNAT Aspect_Dispatching_Domain, Aspect_Dynamic_Predicate, Aspect_External_Tag, Aspect_Implicit_Dereference, Aspect_Input, Aspect_Interrupt_Priority, Aspect_Invariant, Aspect_Iterator_Element, Aspect_Machine_Radix, Aspect_Object_Size, -- GNAT Aspect_Output, Aspect_Post, Aspect_Postcondition, Aspect_Pre, Aspect_Precondition, Aspect_Predicate, -- GNAT Aspect_Priority, Aspect_Read, Aspect_Simple_Storage_Pool, -- GNAT Aspect_Size, Aspect_Small, Aspect_Static_Predicate, Aspect_Storage_Pool, Aspect_Storage_Size, Aspect_Stream_Size, Aspect_Suppress, Aspect_Synchronization, Aspect_Test_Case, -- GNAT Aspect_Type_Invariant, Aspect_Unsuppress, Aspect_Value_Size, -- GNAT Aspect_Variable_Indexing, Aspect_Warnings, Aspect_Write, -- The following aspects correspond to library unit pragmas Aspect_All_Calls_Remote, Aspect_Compiler_Unit, -- GNAT Aspect_Elaborate_Body, Aspect_Preelaborate, Aspect_Preelaborate_05, -- GNAT Aspect_Pure, Aspect_Pure_05, -- GNAT Aspect_Pure_12, -- GNAT Aspect_Remote_Call_Interface, Aspect_Remote_Types, Aspect_Shared_Passive, Aspect_Universal_Data, -- GNAT -- Remaining aspects have a static boolean value that turns the aspect -- on or off. They all correspond to pragmas, but are only converted to -- the pragmas where the value is True. A value of False normally means -- that the aspect is ignored, except in the case of derived types where -- the aspect value is inherited from the parent, in which case, we do -- not allow False if we inherit a True value from the parent. Aspect_Ada_2005, -- GNAT Aspect_Ada_2012, -- GNAT Aspect_Asynchronous, Aspect_Atomic, Aspect_Atomic_Components, Aspect_Discard_Names, Aspect_Favor_Top_Level, -- GNAT Aspect_Independent, Aspect_Independent_Components, Aspect_Inline, Aspect_Inline_Always, -- GNAT Aspect_Interrupt_Handler, Aspect_No_Return, Aspect_Pack, Aspect_Persistent_BSS, -- GNAT Aspect_Preelaborable_Initialization, Aspect_Pure_Function, -- GNAT Aspect_Remote_Access_Type, -- GNAT Aspect_Shared, -- GNAT (equivalent to Atomic) Aspect_Simple_Storage_Pool_Type, -- GNAT Aspect_Suppress_Debug_Info, -- GNAT Aspect_Unchecked_Union, Aspect_Universal_Aliasing, -- GNAT Aspect_Unmodified, -- GNAT Aspect_Unreferenced, -- GNAT Aspect_Unreferenced_Objects, -- GNAT Aspect_Volatile, Aspect_Volatile_Components); -- The following array indicates aspects that accept 'Class Class_Aspect_OK : constant array (Aspect_Id) of Boolean := (Aspect_Invariant => True, Aspect_Pre => True, Aspect_Predicate => True, Aspect_Post => True, others => False); -- The following array indicates aspects that a subtype inherits from -- its base type. True means that the subtype inherits the aspect from -- its base type. False means it is not inherited. Base_Aspect : constant array (Aspect_Id) of Boolean := (Aspect_Atomic => True, Aspect_Atomic_Components => True, Aspect_Discard_Names => True, Aspect_Independent_Components => True, Aspect_Iterator_Element => True, Aspect_Constant_Indexing => True, Aspect_Default_Iterator => True, Aspect_Type_Invariant => True, Aspect_Unchecked_Union => True, Aspect_Variable_Indexing => True, Aspect_Volatile => True, others => False); -- The following array identifies all implementation defined aspects Impl_Defined_Aspects : constant array (Aspect_Id) of Boolean := (Aspect_Ada_2005 => True, Aspect_Ada_2012 => True, Aspect_Compiler_Unit => True, Aspect_Dimension => True, Aspect_Dimension_System => True, Aspect_Favor_Top_Level => True, Aspect_Inline_Always => True, Aspect_Object_Size => True, Aspect_Persistent_BSS => True, Aspect_Predicate => True, Aspect_Preelaborate_05 => True, Aspect_Pure_05 => True, Aspect_Pure_12 => True, Aspect_Pure_Function => True, Aspect_Remote_Access_Type => True, Aspect_Shared => True, Aspect_Simple_Storage_Pool => True, Aspect_Simple_Storage_Pool_Type => True, Aspect_Suppress_Debug_Info => True, Aspect_Test_Case => True, Aspect_Universal_Data => True, Aspect_Universal_Aliasing => True, Aspect_Unmodified => True, Aspect_Unreferenced => True, Aspect_Unreferenced_Objects => True, Aspect_Value_Size => True, others => False); -- The following array indicates aspects for which multiple occurrences of -- the same aspect attached to the same declaration are allowed. No_Duplicates_Allowed : constant array (Aspect_Id) of Boolean := (Aspect_Test_Case => False, others => True); -- The following array indicates type aspects that are inherited and apply -- to the class-wide type as well. Inherited_Aspect : constant array (Aspect_Id) of Boolean := (Aspect_Constant_Indexing => True, Aspect_Default_Iterator => True, Aspect_Implicit_Dereference => True, Aspect_Iterator_Element => True, Aspect_Remote_Types => True, Aspect_Variable_Indexing => True, others => False); -- The following subtype defines aspects corresponding to library unit -- pragmas, these can only validly appear as aspects for library units, -- and result in a corresponding pragma being inserted immediately after -- the occurrence of the aspect. subtype Library_Unit_Aspects is Aspect_Id range Aspect_All_Calls_Remote .. Aspect_Universal_Data; -- The following subtype defines aspects accepting an optional static -- boolean parameter indicating if the aspect should be active or -- cancelling. If the parameter is missing the effective value is True, -- enabling the aspect. If the parameter is present it must be a static -- expression of type Standard.Boolean. If the value is True, then the -- aspect is enabled. If it is False, the aspect is disabled. subtype Boolean_Aspects is Aspect_Id range Aspect_Ada_2005 .. Aspect_Id'Last; subtype Pre_Post_Aspects is Aspect_Id range Aspect_Post .. Aspect_Precondition; -- The following type is used for indicating allowed expression forms type Aspect_Expression is (Optional, -- Optional boolean expression Expression, -- Required expression Name); -- Required name -- The following array indicates what argument type is required Aspect_Argument : constant array (Aspect_Id) of Aspect_Expression := (No_Aspect => Optional, Aspect_Address => Expression, Aspect_Alignment => Expression, Aspect_Attach_Handler => Expression, Aspect_Bit_Order => Expression, Aspect_Component_Size => Expression, Aspect_Constant_Indexing => Name, Aspect_CPU => Expression, Aspect_Default_Component_Value => Expression, Aspect_Default_Iterator => Name, Aspect_Default_Value => Expression, Aspect_Dimension => Expression, Aspect_Dimension_System => Expression, Aspect_Dispatching_Domain => Expression, Aspect_Dynamic_Predicate => Expression, Aspect_External_Tag => Expression, Aspect_Implicit_Dereference => Name, Aspect_Input => Name, Aspect_Interrupt_Priority => Expression, Aspect_Invariant => Expression, Aspect_Iterator_Element => Name, Aspect_Machine_Radix => Expression, Aspect_Object_Size => Expression, Aspect_Output => Name, Aspect_Post => Expression, Aspect_Postcondition => Expression, Aspect_Pre => Expression, Aspect_Precondition => Expression, Aspect_Predicate => Expression, Aspect_Priority => Expression, Aspect_Read => Name, Aspect_Simple_Storage_Pool => Name, Aspect_Size => Expression, Aspect_Small => Expression, Aspect_Static_Predicate => Expression, Aspect_Storage_Pool => Name, Aspect_Storage_Size => Expression, Aspect_Stream_Size => Expression, Aspect_Suppress => Name, Aspect_Synchronization => Name, Aspect_Test_Case => Expression, Aspect_Type_Invariant => Expression, Aspect_Unsuppress => Name, Aspect_Value_Size => Expression, Aspect_Variable_Indexing => Name, Aspect_Warnings => Name, Aspect_Write => Name, Library_Unit_Aspects => Optional, Boolean_Aspects => Optional); ----------------------------------------- -- Table Linking Names and Aspect_Id's -- ----------------------------------------- -- Table linking aspect names and id's Aspect_Names : constant array (Aspect_Id) of Name_Id := ( No_Aspect => No_Name, Aspect_Ada_2005 => Name_Ada_2005, Aspect_Ada_2012 => Name_Ada_2012, Aspect_Address => Name_Address, Aspect_Alignment => Name_Alignment, Aspect_All_Calls_Remote => Name_All_Calls_Remote, Aspect_Asynchronous => Name_Asynchronous, Aspect_Atomic => Name_Atomic, Aspect_Atomic_Components => Name_Atomic_Components, Aspect_Attach_Handler => Name_Attach_Handler, Aspect_Bit_Order => Name_Bit_Order, Aspect_Compiler_Unit => Name_Compiler_Unit, Aspect_Component_Size => Name_Component_Size, Aspect_Constant_Indexing => Name_Constant_Indexing, Aspect_CPU => Name_CPU, Aspect_Default_Iterator => Name_Default_Iterator, Aspect_Default_Value => Name_Default_Value, Aspect_Default_Component_Value => Name_Default_Component_Value, Aspect_Dimension => Name_Dimension, Aspect_Dimension_System => Name_Dimension_System, Aspect_Discard_Names => Name_Discard_Names, Aspect_Dispatching_Domain => Name_Dispatching_Domain, Aspect_Dynamic_Predicate => Name_Dynamic_Predicate, Aspect_Elaborate_Body => Name_Elaborate_Body, Aspect_External_Tag => Name_External_Tag, Aspect_Favor_Top_Level => Name_Favor_Top_Level, Aspect_Implicit_Dereference => Name_Implicit_Dereference, Aspect_Independent => Name_Independent, Aspect_Independent_Components => Name_Independent_Components, Aspect_Inline => Name_Inline, Aspect_Inline_Always => Name_Inline_Always, Aspect_Input => Name_Input, Aspect_Interrupt_Handler => Name_Interrupt_Handler, Aspect_Interrupt_Priority => Name_Interrupt_Priority, Aspect_Invariant => Name_Invariant, Aspect_Iterator_Element => Name_Iterator_Element, Aspect_Machine_Radix => Name_Machine_Radix, Aspect_No_Return => Name_No_Return, Aspect_Object_Size => Name_Object_Size, Aspect_Output => Name_Output, Aspect_Pack => Name_Pack, Aspect_Persistent_BSS => Name_Persistent_BSS, Aspect_Post => Name_Post, Aspect_Postcondition => Name_Postcondition, Aspect_Pre => Name_Pre, Aspect_Precondition => Name_Precondition, Aspect_Predicate => Name_Predicate, Aspect_Preelaborable_Initialization => Name_Preelaborable_Initialization, Aspect_Preelaborate => Name_Preelaborate, Aspect_Preelaborate_05 => Name_Preelaborate_05, Aspect_Priority => Name_Priority, Aspect_Pure => Name_Pure, Aspect_Pure_05 => Name_Pure_05, Aspect_Pure_12 => Name_Pure_12, Aspect_Pure_Function => Name_Pure_Function, Aspect_Read => Name_Read, Aspect_Remote_Access_Type => Name_Remote_Access_Type, Aspect_Remote_Call_Interface => Name_Remote_Call_Interface, Aspect_Remote_Types => Name_Remote_Types, Aspect_Shared => Name_Shared, Aspect_Shared_Passive => Name_Shared_Passive, Aspect_Simple_Storage_Pool => Name_Simple_Storage_Pool, Aspect_Simple_Storage_Pool_Type => Name_Simple_Storage_Pool_Type, Aspect_Size => Name_Size, Aspect_Small => Name_Small, Aspect_Static_Predicate => Name_Static_Predicate, Aspect_Storage_Pool => Name_Storage_Pool, Aspect_Storage_Size => Name_Storage_Size, Aspect_Stream_Size => Name_Stream_Size, Aspect_Suppress => Name_Suppress, Aspect_Suppress_Debug_Info => Name_Suppress_Debug_Info, Aspect_Synchronization => Name_Synchronization, Aspect_Test_Case => Name_Test_Case, Aspect_Type_Invariant => Name_Type_Invariant, Aspect_Unchecked_Union => Name_Unchecked_Union, Aspect_Universal_Aliasing => Name_Universal_Aliasing, Aspect_Universal_Data => Name_Universal_Data, Aspect_Unmodified => Name_Unmodified, Aspect_Unreferenced => Name_Unreferenced, Aspect_Unreferenced_Objects => Name_Unreferenced_Objects, Aspect_Unsuppress => Name_Unsuppress, Aspect_Value_Size => Name_Value_Size, Aspect_Variable_Indexing => Name_Variable_Indexing, Aspect_Volatile => Name_Volatile, Aspect_Volatile_Components => Name_Volatile_Components, Aspect_Warnings => Name_Warnings, Aspect_Write => Name_Write); function Get_Aspect_Id (Name : Name_Id) return Aspect_Id; pragma Inline (Get_Aspect_Id); -- Given a name Nam, returns the corresponding aspect id value. If the name -- does not match any aspect, then No_Aspect is returned as the result. --------------------------------------------------- -- Handling of Aspect Specifications in the Tree -- --------------------------------------------------- -- Several kinds of declaration node permit aspect specifications in Ada -- 2012 mode. If there was room in all the corresponding declaration nodes, -- we could just have a field Aspect_Specifications pointing to a list of -- nodes for the aspects (N_Aspect_Specification nodes). But there isn't -- room, so we adopt a different approach. -- The following subprograms provide access to a specialized interface -- implemented internally with a hash table in the body, that provides -- access to aspect specifications. function Permits_Aspect_Specifications (N : Node_Id) return Boolean; -- Returns True if the node N is a declaration node that permits aspect -- specifications in the grammar. It is possible for other nodes to have -- aspect specifications as a result of Rewrite or Replace calls. function Aspect_Specifications (N : Node_Id) return List_Id; -- Given a node N, returns the list of N_Aspect_Specification nodes that -- are attached to this declaration node. If the node is in the class of -- declaration nodes that permit aspect specifications, as defined by the -- predicate above, and if their Has_Aspects flag is set to True, then this -- will always be a non-empty list. If this flag is set to False, then -- No_List is returned. Normally, the only nodes that have Has_Aspects set -- True are the nodes for which Permits_Aspect_Specifications would return -- True (i.e. the declaration nodes defined in the RM as permitting the -- presence of Aspect_Specifications). However, it is possible for the -- flag Has_Aspects to be set on other nodes as a result of Rewrite and -- Replace calls, and this function may be used to retrieve the aspect -- specifications for the original rewritten node in such cases. procedure Set_Aspect_Specifications (N : Node_Id; L : List_Id); -- The node N must be in the class of declaration nodes that permit aspect -- specifications and the Has_Aspects flag must be False on entry. L must -- be a non-empty list of N_Aspect_Specification nodes. This procedure sets -- the Has_Aspects flag to True, and makes an entry that can be retrieved -- by a subsequent Aspect_Specifications call. It is an error to call this -- procedure with a node that does not permit aspect specifications, or a -- node that has its Has_Aspects flag set True on entry, or with L being an -- empty list or No_List. function Find_Aspect (Ent : Entity_Id; A : Aspect_Id) return Node_Id; -- Find value of a given aspect from aspect list of entity procedure Move_Aspects (From : Node_Id; To : Node_Id); -- Moves aspects from 'From' node to 'To' node. Has_Aspects (To) must be -- False on entry. If Has_Aspects (From) is False, the call has no effect. -- Otherwise the aspects are moved and on return Has_Aspects (To) is True, -- and Has_Aspects (From) is False. function Same_Aspect (A1 : Aspect_Id; A2 : Aspect_Id) return Boolean; -- Returns True if A1 and A2 are (essentially) the same aspect. This is not -- a simple equality test because e.g. Post and Postcondition are the same. -- This is used for detecting duplicate aspects. procedure Tree_Write; -- Writes contents of Aspect_Specifications hash table to the tree file procedure Tree_Read; -- Reads contents of Aspect_Specifications hash table from the tree file end Aspects;
Go to most recent revision | Compare with Previous | Blame | View Log