------------------------------------------------------------------------------ -- -- -- GNAT COMPILER COMPONENTS -- -- -- -- E I N F O . U T I L S -- -- -- -- S p e c -- -- -- -- Copyright (C) 2020-2022, 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. See the GNU General Public License -- -- for more details. You should have received a copy of the GNU General -- -- Public License distributed with GNAT; see file COPYING3. If not, go to -- -- http://www.gnu.org/licenses for a complete copy of the license. -- -- -- -- GNAT was originally developed by the GNAT team at New York University. -- -- Extensive contributions were provided by Ada Core Technologies Inc. -- -- -- ------------------------------------------------------------------------------ with Einfo.Entities; use Einfo.Entities; with Sinfo.Nodes; use Sinfo.Nodes; package Einfo.Utils is ------------------------------------------- -- Aliases/Renamings of Renamed_Or_Alias -- ------------------------------------------- -- See the comment in einfo.ads, "Renaming and Aliasing", which is somewhat -- incorrect. Each of the following calls [Set_]Renamed_Or_Alias. Alias and -- Renamed_Entity are fields of nonobject Entity_Ids, and the value of the -- field is Entity_Id. Alias is only for callable entities and subprogram -- types. We sometimes call Set_Renamed_Entity and then expect Alias to -- return the value set. Renamed_Object is a field of Entity_Ids that are -- objects, and it returns an expression, because you can rename things -- like "X.all(J).Y". Renamings of entries and subprograms can also be -- expressions, but those use different mechanisms; the fields here are not -- used. function Alias (N : Entity_Id) return Entity_Id; procedure Set_Alias (N : Entity_Id; Val : Entity_Id); function Renamed_Entity (N : Entity_Id) return Entity_Id; procedure Set_Renamed_Entity (N : Entity_Id; Val : Entity_Id); function Renamed_Object (N : Entity_Id) return Node_Id; procedure Set_Renamed_Object (N : Entity_Id; Val : Node_Id); function Renamed_Entity_Or_Object (N : Entity_Id) return Node_Id; -- This getter is used when we don't know statically whether we want to -- call Renamed_Entity or Renamed_Object. procedure Set_Renamed_Object_Of_Possibly_Void (N : Entity_Id; Val : Node_Id); -- Set_Renamed_Object doesn't allow Void; this is used in the rare cases -- where we set the field of an entity that might be Void. It might be a -- good idea to get rid of calls to this. pragma Inline (Alias); pragma Inline (Set_Alias); pragma Inline (Renamed_Entity); pragma Inline (Set_Renamed_Entity); pragma Inline (Renamed_Object); pragma Inline (Set_Renamed_Object); pragma Inline (Renamed_Entity_Or_Object); pragma Inline (Set_Renamed_Object_Of_Possibly_Void); ------------------- -- Type Synonyms -- ------------------- -- The following type synonyms are used to tidy up the function and -- procedure declarations that follow. Note that E and N have predicates -- ensuring the correct kind; we use Entity_Id or Node_Id when the -- predicates can't be satisfied. subtype B is Boolean; subtype C is Component_Alignment_Kind; subtype E is N_Entity_Id; subtype F is Float_Rep_Kind; subtype M is Mechanism_Type; subtype N is Node_Id with Predicate => N /= Empty and then N not in E; subtype U is Uint; subtype R is Ureal; subtype L is Elist_Id; subtype S is List_Id; ------------------------------- -- Classification Attributes -- ------------------------------- -- These functions provide a convenient functional notation for testing -- whether an Ekind value belongs to a specified kind, for example the -- function Is_Elementary_Type tests if its argument is in Elementary_Kind. -- In some cases, the test is of an entity attribute (e.g. in the case of -- Is_Generic_Type where the Ekind does not provide the needed -- information). function Is_Access_Object_Type (Id : E) return B; function Is_Access_Type (Id : E) return B; function Is_Access_Protected_Subprogram_Type (Id : E) return B; function Is_Access_Subprogram_Type (Id : E) return B; function Is_Aggregate_Type (Id : E) return B; function Is_Anonymous_Access_Type (Id : E) return B; function Is_Array_Type (Id : E) return B; function Is_Assignable (Id : E) return B; function Is_Class_Wide_Type (Id : E) return B; function Is_Composite_Type (Id : E) return B; function Is_Concurrent_Body (Id : E) return B; function Is_Concurrent_Type (Id : E) return B; function Is_Decimal_Fixed_Point_Type (Id : E) return B; function Is_Digits_Type (Id : E) return B; function Is_Discrete_Or_Fixed_Point_Type (Id : E) return B; function Is_Discrete_Type (Id : E) return B; function Is_Elementary_Type (Id : E) return B; function Is_Entry (Id : E) return B; function Is_Enumeration_Type (Id : E) return B; function Is_Fixed_Point_Type (Id : E) return B; function Is_Floating_Point_Type (Id : E) return B; function Is_Formal (Id : E) return B; function Is_Formal_Object (Id : E) return B; function Is_Generic_Subprogram (Id : E) return B; function Is_Generic_Unit (Id : E) return B; function Is_Ghost_Entity (Id : E) return B; function Is_Incomplete_Or_Private_Type (Id : E) return B; function Is_Incomplete_Type (Id : E) return B; function Is_Integer_Type (Id : E) return B; function Is_Modular_Integer_Type (Id : E) return B; function Is_Named_Access_Type (Id : E) return B; function Is_Named_Number (Id : E) return B; function Is_Numeric_Type (Id : E) return B; function Is_Object (Id : E) return B; function Is_Ordinary_Fixed_Point_Type (Id : E) return B; function Is_Overloadable (Id : E) return B; function Is_Private_Type (Id : E) return B; function Is_Protected_Type (Id : E) return B; function Is_Real_Type (Id : E) return B; function Is_Record_Type (Id : E) return B; function Is_Scalar_Type (Id : E) return B; function Is_Signed_Integer_Type (Id : E) return B; function Is_Subprogram (Id : E) return B; function Is_Subprogram_Or_Entry (Id : E) return B; function Is_Subprogram_Or_Generic_Subprogram (Id : E) return B; function Is_Task_Type (Id : E) return B; function Is_Type (Id : E) return B; pragma Inline (Is_Access_Object_Type); pragma Inline (Is_Access_Type); pragma Inline (Is_Access_Protected_Subprogram_Type); pragma Inline (Is_Access_Subprogram_Type); pragma Inline (Is_Aggregate_Type); pragma Inline (Is_Anonymous_Access_Type); pragma Inline (Is_Array_Type); pragma Inline (Is_Assignable); pragma Inline (Is_Class_Wide_Type); pragma Inline (Is_Composite_Type); pragma Inline (Is_Concurrent_Body); pragma Inline (Is_Concurrent_Type); pragma Inline (Is_Decimal_Fixed_Point_Type); pragma Inline (Is_Digits_Type); pragma Inline (Is_Discrete_Type); pragma Inline (Is_Elementary_Type); pragma Inline (Is_Entry); pragma Inline (Is_Enumeration_Type); pragma Inline (Is_Fixed_Point_Type); pragma Inline (Is_Floating_Point_Type); pragma Inline (Is_Formal); pragma Inline (Is_Formal_Object); pragma Inline (Is_Generic_Subprogram); pragma Inline (Is_Generic_Unit); pragma Inline (Is_Ghost_Entity); pragma Inline (Is_Incomplete_Or_Private_Type); pragma Inline (Is_Incomplete_Type); pragma Inline (Is_Integer_Type); pragma Inline (Is_Modular_Integer_Type); pragma Inline (Is_Named_Access_Type); pragma Inline (Is_Named_Number); pragma Inline (Is_Numeric_Type); pragma Inline (Is_Object); pragma Inline (Is_Ordinary_Fixed_Point_Type); pragma Inline (Is_Overloadable); pragma Inline (Is_Private_Type); pragma Inline (Is_Protected_Type); pragma Inline (Is_Real_Type); pragma Inline (Is_Record_Type); pragma Inline (Is_Scalar_Type); pragma Inline (Is_Signed_Integer_Type); pragma Inline (Is_Subprogram); pragma Inline (Is_Subprogram_Or_Entry); pragma Inline (Is_Subprogram_Or_Generic_Subprogram); pragma Inline (Is_Task_Type); pragma Inline (Is_Type); ------------------------------------- -- Synthesized Attribute Functions -- ------------------------------------- -- The functions in this section synthesize attributes from the tree, -- so they do not correspond to defined fields in the entity itself. function Address_Clause (Id : E) return Node_Id; function Aft_Value (Id : E) return U; function Alignment_Clause (Id : E) return Node_Id; function Base_Type (Id : E) return E; function Declaration_Node (Id : E) return Node_Id; function Designated_Type (Id : E) return E; function Entry_Index_Type (Id : E) return E; function First_Component (Id : E) return Entity_Id; function First_Component_Or_Discriminant (Id : E) return Entity_Id; function First_Formal (Id : E) return Entity_Id; function First_Formal_With_Extras (Id : E) return Entity_Id; function Float_Rep (N : Entity_Id) return F with Inline, Pre => N in E_Void_Id | Float_Kind_Id; procedure Set_Float_Rep (Ignore_N : Entity_Id; Ignore_Val : F) with Inline, Pre => Ignore_N in E_Void_Id | Float_Kind_Id; function Has_Attach_Handler (Id : E) return B; function Has_DIC (Id : E) return B; function Has_Entries (Id : E) return B; function Has_Foreign_Convention (Id : E) return B; function Has_Interrupt_Handler (Id : E) return B; function Has_Invariants (Id : E) return B; function Has_Limited_View (Id : E) return B; function Has_Non_Limited_View (Id : E) return B; function Has_Non_Null_Abstract_State (Id : E) return B; function Has_Non_Null_Visible_Refinement (Id : E) return B; function Has_Null_Abstract_State (Id : E) return B; function Has_Null_Visible_Refinement (Id : E) return B; function Implementation_Base_Type (Id : E) return E; function Is_Base_Type (Id : E) return B; -- Note that Is_Base_Type returns True for nontypes function Is_Boolean_Type (Id : E) return B; function Is_Constant_Object (Id : E) return B; function Is_Controlled (Id : E) return B; function Is_Discriminal (Id : E) return B; function Is_Dynamic_Scope (Id : E) return B; function Is_Elaboration_Target (Id : E) return B; function Is_External_State (Id : E) return B; function Is_Finalizer (Id : E) return B; function Is_Full_Access (Id : E) return B; function Is_Null_State (Id : E) return B; function Is_Package_Or_Generic_Package (Id : E) return B; function Is_Packed_Array (Id : E) return B; function Is_Prival (Id : E) return B; function Is_Protected_Component (Id : E) return B; function Is_Protected_Interface (Id : E) return B; function Is_Protected_Record_Type (Id : E) return B; function Is_Relaxed_Initialization_State (Id : E) return B; function Is_Standard_Character_Type (Id : E) return B; function Is_Standard_String_Type (Id : E) return B; function Is_String_Type (Id : E) return B; function Is_Synchronized_Interface (Id : E) return B; function Is_Synchronized_State (Id : E) return B; function Is_Task_Interface (Id : E) return B; function Is_Task_Record_Type (Id : E) return B; function Is_Wrapper_Package (Id : E) return B; function Last_Formal (Id : E) return Entity_Id; function Machine_Emax_Value (Id : E) return U; function Machine_Emin_Value (Id : E) return U; function Machine_Mantissa_Value (Id : E) return U; function Machine_Radix_Value (Id : E) return U; function Model_Emin_Value (Id : E) return U; function Model_Epsilon_Value (Id : E) return R; function Model_Mantissa_Value (Id : E) return U; function Model_Small_Value (Id : E) return R; function Next_Component (Id : E) return Entity_Id; function Next_Component_Or_Discriminant (Id : E) return Entity_Id; function Next_Discriminant (Id : E) return Entity_Id; function Next_Formal (Id : E) return Entity_Id; function Next_Formal_With_Extras (Id : E) return Entity_Id; function Next_Index (Id : N) return Node_Id; function Next_Literal (Id : E) return Entity_Id; function Next_Stored_Discriminant (Id : E) return Entity_Id; function Number_Dimensions (Id : E) return Pos; function Number_Entries (Id : E) return Nat; function Number_Formals (Id : E) return Pos; function Object_Size_Clause (Id : E) return Node_Id; function Parameter_Mode (Id : E) return Formal_Kind; function Partial_Refinement_Constituents (Id : E) return L; function Primitive_Operations (Id : E) return L; function Root_Type (Id : E) return E; function Safe_Emax_Value (Id : E) return U; function Safe_First_Value (Id : E) return R; function Safe_Last_Value (Id : E) return R; function Size_Clause (Id : E) return Node_Id; function Stream_Size_Clause (Id : E) return N; function Type_High_Bound (Id : E) return N; function Type_Low_Bound (Id : E) return N; function Underlying_Type (Id : E) return Entity_Id; function Scope_Depth (Id : E) return U; function Scope_Depth_Set (Id : E) return B; function Scope_Depth_Default_0 (Id : E) return U; -- In rare cases, the Scope_Depth_Value (queried by Scope_Depth) is -- not correctly set before querying it; this may be used instead of -- Scope_Depth in such cases. It returns Uint_0 if the Scope_Depth_Value -- has not been set. See documentation in Einfo. pragma Inline (Address_Clause); pragma Inline (Alignment_Clause); pragma Inline (Base_Type); pragma Inline (Has_Foreign_Convention); pragma Inline (Has_Non_Limited_View); pragma Inline (Is_Base_Type); pragma Inline (Is_Boolean_Type); pragma Inline (Is_Constant_Object); pragma Inline (Is_Controlled); pragma Inline (Is_Discriminal); pragma Inline (Is_Finalizer); pragma Inline (Is_Full_Access); pragma Inline (Is_Null_State); pragma Inline (Is_Package_Or_Generic_Package); pragma Inline (Is_Packed_Array); pragma Inline (Is_Prival); pragma Inline (Is_Protected_Component); pragma Inline (Is_Protected_Record_Type); pragma Inline (Is_String_Type); pragma Inline (Is_Task_Record_Type); pragma Inline (Is_Wrapper_Package); pragma Inline (Scope_Depth); pragma Inline (Scope_Depth_Set); pragma Inline (Size_Clause); pragma Inline (Stream_Size_Clause); pragma Inline (Type_High_Bound); pragma Inline (Type_Low_Bound); ------------------------------------------ -- Type Representation Attribute Fields -- ------------------------------------------ function Known_Alignment (E : Entity_Id) return B with Inline; procedure Reinit_Alignment (Id : E) with Inline; procedure Copy_Alignment (To, From : E); function Known_Component_Bit_Offset (E : Entity_Id) return B with Inline; function Known_Static_Component_Bit_Offset (E : Entity_Id) return B with Inline; function Known_Component_Size (E : Entity_Id) return B with Inline; function Known_Static_Component_Size (E : Entity_Id) return B with Inline; function Known_Esize (E : Entity_Id) return B with Inline; function Known_Static_Esize (E : Entity_Id) return B with Inline; procedure Reinit_Esize (Id : E) with Inline; procedure Copy_Esize (To, From : E); function Known_Normalized_First_Bit (E : Entity_Id) return B with Inline; function Known_Static_Normalized_First_Bit (E : Entity_Id) return B with Inline; function Known_Normalized_Position (E : Entity_Id) return B with Inline; function Known_Static_Normalized_Position (E : Entity_Id) return B with Inline; function Known_RM_Size (E : Entity_Id) return B with Inline; function Known_Static_RM_Size (E : Entity_Id) return B with Inline; procedure Reinit_RM_Size (Id : E) with Inline; procedure Copy_RM_Size (To, From : E); -- NOTE: "known" here does not mean "known at compile time". It means that -- the compiler has computed the value of the field (either by default, or -- by noting some representation clauses), and the field has not been -- reinitialized. -- -- We document the Esize functions here; the others above are analogous: -- -- Known_Esize: True if Set_Esize has been called without a subsequent -- Reinit_Esize. -- -- Known_Static_Esize: True if Known_Esize and the Esize is known at -- compile time. (We're not using "static" in the Ada RM sense here. We -- are using it to mean "known at compile time".) -- -- Reinit_Esize: Set the Esize field to its initial unknown state. -- -- Copy_Esize: Copies the Esize from From to To; Known_Esize (From) may -- be False, in which case Known_Esize (To) becomes False. -- -- Esize: This is the normal automatically-generated getter for Esize, -- declared elsewhere. Returns No_Uint if not Known_Esize. -- -- Set_Esize: This is the normal automatically-generated setter for -- Esize. After a call to this, Known_Esize is True. It is an error -- to call this with a No_Uint value. -- -- Normally, we call Set_Esize first, and then query Esize (and similarly -- for other fields). However in some cases, we need to check Known_Esize -- before calling Esize, because the code is written in such a way that we -- don't know whether Set_Esize has already been called. -- -- In two cases, Known_Static_Esize and Known_Static_RM_Size, there is one -- more consideration, which is that we always return False for generic -- types. Within a template, the size can look Known_Static, because of the -- fake size values we put in template types, but they are not really -- Known_Static and anyone testing if they are Known_Static within the -- template should get False as a result to prevent incorrect assumptions. --------------------------------------------------------- -- Procedures for setting multiple of the above fields -- --------------------------------------------------------- procedure Reinit_Component_Location (Id : E); -- Initializes all fields describing the location of a component -- (Normalized_Position, Component_Bit_Offset, Normalized_First_Bit, -- Esize) to all be Unknown. procedure Init_Size (Id : E; V : Int); -- Initialize both the Esize and RM_Size fields of E to V procedure Reinit_Size_Align (Id : E); -- This procedure initializes both size fields and the alignment -- field to all be Unknown. procedure Reinit_Object_Size_Align (Id : E); -- Same as Reinit_Size_Align except RM_Size field (which is only for types) -- is unaffected. --------------------------------------------------- -- Access to Subprograms in Subprograms_For_Type -- --------------------------------------------------- -- Now that we have variable-sized nodes, it might be possible to replace -- the following with regular fields, and get rid of the flags used to mark -- these kinds of subprograms. function Is_Partial_DIC_Procedure (Id : E) return B; function DIC_Procedure (Id : E) return Entity_Id; function Partial_DIC_Procedure (Id : E) return Entity_Id; function Invariant_Procedure (Id : E) return Entity_Id; function Partial_Invariant_Procedure (Id : E) return Entity_Id; function Predicate_Function (Id : E) return Entity_Id; procedure Set_DIC_Procedure (Id : E; V : E); procedure Set_Partial_DIC_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); --------------- -- Iterators -- --------------- -- The call to Next_xxx (obj) is equivalent to obj := Next_xxx (obj) -- We define the set of Proc_Next_xxx routines simply for the purposes -- of inlining them without necessarily inlining the function. procedure Proc_Next_Component (N : in out Node_Id); procedure Proc_Next_Component_Or_Discriminant (N : in out Node_Id); procedure Proc_Next_Discriminant (N : in out Node_Id); procedure Proc_Next_Formal (N : in out Node_Id); procedure Proc_Next_Formal_With_Extras (N : in out Node_Id); procedure Proc_Next_Index (N : in out Node_Id); procedure Proc_Next_Inlined_Subprogram (N : in out Node_Id); procedure Proc_Next_Literal (N : in out Node_Id); procedure Proc_Next_Stored_Discriminant (N : in out Node_Id); pragma Inline (Proc_Next_Component); pragma Inline (Proc_Next_Component_Or_Discriminant); pragma Inline (Proc_Next_Discriminant); pragma Inline (Proc_Next_Formal); pragma Inline (Proc_Next_Formal_With_Extras); pragma Inline (Proc_Next_Index); pragma Inline (Proc_Next_Inlined_Subprogram); pragma Inline (Proc_Next_Literal); pragma Inline (Proc_Next_Stored_Discriminant); procedure Next_Component (N : in out Node_Id) renames Proc_Next_Component; procedure Next_Component_Or_Discriminant (N : in out Node_Id) renames Proc_Next_Component_Or_Discriminant; procedure Next_Discriminant (N : in out Node_Id) renames Proc_Next_Discriminant; procedure Next_Formal (N : in out Node_Id) renames Proc_Next_Formal; procedure Next_Formal_With_Extras (N : in out Node_Id) renames Proc_Next_Formal_With_Extras; procedure Next_Index (N : in out Node_Id) renames Proc_Next_Index; procedure Next_Inlined_Subprogram (N : in out Node_Id) renames Proc_Next_Inlined_Subprogram; procedure Next_Literal (N : in out Node_Id) renames Proc_Next_Literal; procedure Next_Stored_Discriminant (N : in out Node_Id) renames Proc_Next_Stored_Discriminant; --------------------------- -- Testing Warning Flags -- --------------------------- -- These routines are to be used rather than testing flags Warnings_Off, -- Has_Pragma_Unmodified, Has_Pragma_Unreferenced. They deal with setting -- the flags Warnings_Off_Used[_Unmodified|Unreferenced] for later access. function Has_Warnings_Off (E : Entity_Id) return Boolean; -- If Warnings_Off is set on E, then returns True and also sets the flag -- Warnings_Off_Used on E. If Warnings_Off is not set on E, returns False -- and has no side effect. function Has_Unmodified (E : Entity_Id) return Boolean; -- If flag Has_Pragma_Unmodified is set on E, returns True with no side -- effects. Otherwise if Warnings_Off is set on E, returns True and also -- sets the flag Warnings_Off_Used_Unmodified on E. If neither of the flags -- Warnings_Off nor Has_Pragma_Unmodified is set, returns False with no -- side effects. function Has_Unreferenced (E : Entity_Id) return Boolean; -- If flag Has_Pragma_Unreferenced is set on E, returns True with no side -- effects. Otherwise if Warnings_Off is set on E, returns True and also -- sets the flag Warnings_Off_Used_Unreferenced on E. If neither of the -- flags Warnings_Off nor Has_Pragma_Unreferenced is set, returns False -- with no side effects. ---------------------------------------------- -- Subprograms for Accessing Rep Item Chain -- ---------------------------------------------- -- The First_Rep_Item field of every entity points to a linked list (linked -- through Next_Rep_Item) of representation pragmas, attribute definition -- clauses, representation clauses, and aspect specifications that apply to -- the item. Note that in the case of types, it is assumed that any such -- rep items for a base type also apply to all subtypes. This is achieved -- by having the chain for subtypes link onto the chain for the base type, -- so that new entries for the subtype are added at the start of the chain. -- -- Note: aspect specification nodes are linked only when evaluation of the -- expression is deferred to the freeze point. For further details see -- Sem_Ch13.Analyze_Aspect_Specifications. function Get_Attribute_Definition_Clause (E : Entity_Id; Id : Attribute_Id) return Node_Id; -- Searches the Rep_Item chain for a given entity E, for an instance of an -- attribute definition clause with the given attribute Id. If found, the -- value returned is the N_Attribute_Definition_Clause node, otherwise -- Empty is returned. -- WARNING: There is a matching C declaration of this subprogram in fe.h function Get_Pragma (E : Entity_Id; Id : Pragma_Id) return Node_Id; -- Searches the Rep_Item chain of entity E, for an instance of a pragma -- with the given pragma Id. If found, the value returned is the N_Pragma -- node, otherwise Empty is returned. The following contract pragmas that -- appear in N_Contract nodes are also handled by this routine: -- Abstract_State -- Async_Readers -- Async_Writers -- Attach_Handler -- Constant_After_Elaboration -- Contract_Cases -- Depends -- Effective_Reads -- Effective_Writes -- Global -- Initial_Condition -- Initializes -- Interrupt_Handler -- No_Caching -- Part_Of -- Precondition -- Postcondition -- Refined_Depends -- Refined_Global -- Refined_Post -- Refined_State -- Subprogram_Variant -- Test_Case -- Volatile_Function function Get_Class_Wide_Pragma (E : Entity_Id; Id : Pragma_Id) return Node_Id; -- Examine Rep_Item chain to locate a classwide pre- or postcondition of a -- primitive operation. Returns Empty if not present. function Get_Record_Representation_Clause (E : Entity_Id) return Node_Id; -- Searches the Rep_Item chain for a given entity E, for a record -- representation clause, and if found, returns it. Returns Empty -- if no such clause is found. function Present_In_Rep_Item (E : Entity_Id; N : Node_Id) return Boolean; -- Return True if N is present in the Rep_Item chain for a given entity E procedure Record_Rep_Item (E : Entity_Id; N : Node_Id); -- N is the node for a representation pragma, representation clause, an -- attribute definition clause, or an aspect specification that applies to -- entity E. This procedure links the node N onto the Rep_Item chain for -- entity E. Note that it is an error to call this procedure with E being -- overloadable, and N being a pragma that applies to multiple overloadable -- entities (Convention, Interface, Inline, Inline_Always, Import, Export, -- External). This is not allowed even in the case where the entity is not -- overloaded, since we can't rely on it being present in the overloaded -- case, it is not useful to have it present in the non-overloaded case. ------------------------------- -- Miscellaneous Subprograms -- ------------------------------- procedure Append_Entity (Id : Entity_Id; Scop : Entity_Id); -- Add an entity to the list of entities declared in the scope Scop function Get_Full_View (T : Entity_Id) return Entity_Id; -- If T is an incomplete type and the full declaration has been seen, or -- is the name of a class_wide type whose root is incomplete, return the -- corresponding full declaration, else return T itself. function Is_Entity_Name (N : Node_Id) return Boolean; -- Test if the node N is the name of an entity (i.e. is an identifier, -- expanded name, or an attribute reference that returns an entity). -- WARNING: There is a matching C declaration of this subprogram in fe.h procedure Link_Entities (First, Second : Entity_Id); -- Link entities First and Second in one entity chain. -- -- NOTE: No updates are done to the First_Entity and Last_Entity fields -- of the scope. procedure Remove_Entity (Id : Entity_Id); -- Remove entity Id from the entity chain of its scope function Subtype_Kind (K : Entity_Kind) return Entity_Kind; -- Given an entity_kind K this function returns the entity_kind -- corresponding to subtype kind of the type represented by K. For -- example if K is E_Signed_Integer_Type then E_Signed_Integer_Subtype -- is returned. If K is already a subtype kind it itself is returned. An -- internal error is generated if no such correspondence exists for K. procedure Unlink_Next_Entity (Id : Entity_Id); -- Unchain entity Id's forward link within the entity chain of its scope function Is_Volatile (Id : E) return B; procedure Set_Is_Volatile (Id : E; V : B := True); -- Call [Set_]Is_Volatile_Type/Is_Volatile_Object as appropriate for the -- Ekind of Id. function Convention (N : Entity_Id) return Convention_Id renames Basic_Convention; procedure Set_Convention (E : Entity_Id; Val : Convention_Id); -- Same as Set_Basic_Convention, but with an extra check for access types. -- In particular, if E is an access-to-subprogram type, and Val is a -- foreign convention, then we set Can_Use_Internal_Rep to False on E. -- Also, if the Etype of E is set and is an anonymous access type with -- no convention set, this anonymous type inherits the convention of E. pragma Inline (Is_Entity_Name); ---------------------------------- -- Debugging Output Subprograms -- ---------------------------------- procedure Write_Entity_Info (Id : Entity_Id; Prefix : String); -- A debugging procedure to write out information about an entity end Einfo.Utils;