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------------------------------------------------------------------------------ -- -- -- GNAT COMPILER COMPONENTS -- -- -- -- E X P _ T S S -- -- -- -- B o d y -- -- -- -- Copyright (C) 1992-2009, 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 Atree; use Atree; with Einfo; use Einfo; with Elists; use Elists; with Exp_Util; use Exp_Util; with Nlists; use Nlists; with Lib; use Lib; with Restrict; use Restrict; with Rident; use Rident; with Sem_Aux; use Sem_Aux; with Sem_Util; use Sem_Util; with Sinfo; use Sinfo; package body Exp_Tss is -------------------- -- Base_Init_Proc -- -------------------- function Base_Init_Proc (Typ : Entity_Id; Ref : Entity_Id := Empty) return Entity_Id is Full_Type : E; Proc : Entity_Id; begin pragma Assert (Is_Type (Typ)); if Is_Private_Type (Typ) then Full_Type := Underlying_Type (Base_Type (Typ)); else Full_Type := Typ; end if; if No (Full_Type) then return Empty; elsif Is_Concurrent_Type (Full_Type) and then Present (Corresponding_Record_Type (Base_Type (Full_Type))) then -- The initialization routine to be called is that of the base type -- of the corresponding record type, which may itself be a subtype -- and possibly an itype. return Init_Proc (Base_Type (Corresponding_Record_Type (Base_Type (Full_Type))), Ref); else Proc := Init_Proc (Base_Type (Full_Type), Ref); if No (Proc) and then Is_Composite_Type (Full_Type) and then Is_Derived_Type (Full_Type) then return Init_Proc (Root_Type (Full_Type), Ref); else return Proc; end if; end if; end Base_Init_Proc; -------------- -- Copy_TSS -- -------------- -- Note: internally this routine is also used to initially set up -- a TSS entry for a new type (case of being called from Set_TSS) procedure Copy_TSS (TSS : Entity_Id; Typ : Entity_Id) is FN : Node_Id; begin Ensure_Freeze_Node (Typ); FN := Freeze_Node (Typ); if No (TSS_Elist (FN)) then Set_TSS_Elist (FN, New_Elmt_List); end if; -- We prepend here, so that a second call overrides the first, it -- is not clear that this is required, but it seems reasonable. Prepend_Elmt (TSS, TSS_Elist (FN)); end Copy_TSS; ------------------------ -- Find_Inherited_TSS -- ------------------------ function Find_Inherited_TSS (Typ : Entity_Id; Nam : TSS_Name_Type) return Entity_Id is Btyp : Entity_Id := Typ; Proc : Entity_Id; begin loop Btyp := Base_Type (Btyp); Proc := TSS (Btyp, Nam); exit when Present (Proc) or else not Is_Derived_Type (Btyp); -- If Typ is a derived type, it may inherit attributes from some -- ancestor. Btyp := Etype (Btyp); end loop; if No (Proc) then -- If nothing else, use the TSS of the root type Proc := TSS (Base_Type (Underlying_Type (Typ)), Nam); end if; return Proc; end Find_Inherited_TSS; ----------------------- -- Get_TSS_Name_Type -- ----------------------- function Get_TSS_Name (E : Entity_Id) return TSS_Name_Type is C1 : Character; C2 : Character; Nm : TSS_Name_Type; begin Get_Last_Two_Chars (Chars (E), C1, C2); if C1 in 'A' .. 'Z' and then C2 in 'A' .. 'Z' then Nm := (C1, C2); for J in TSS_Names'Range loop if Nm = TSS_Names (J) then return Nm; end if; end loop; end if; return TSS_Null; end Get_TSS_Name; --------------------------------- -- Has_Non_Null_Base_Init_Proc -- --------------------------------- -- Note: if a base Init_Proc is present, and No_Default_Initialization is -- present, then we must avoid testing for a null init proc, since there -- is no init proc present in this case. function Has_Non_Null_Base_Init_Proc (Typ : Entity_Id) return Boolean is BIP : constant Entity_Id := Base_Init_Proc (Typ); begin return Present (BIP) and then (Restriction_Active (No_Default_Initialization) or else not Is_Null_Init_Proc (BIP)); end Has_Non_Null_Base_Init_Proc; --------------- -- Init_Proc -- --------------- function Init_Proc (Typ : Entity_Id; Ref : Entity_Id := Empty) return Entity_Id is FN : constant Node_Id := Freeze_Node (Typ); Elmt : Elmt_Id; E1 : Entity_Id; E2 : Entity_Id; begin if No (FN) then return Empty; elsif No (TSS_Elist (FN)) then return Empty; elsif No (Ref) then Elmt := First_Elmt (TSS_Elist (FN)); while Present (Elmt) loop if Is_Init_Proc (Node (Elmt)) then if not Is_CPP_Class (Typ) then return Node (Elmt); -- For CPP classes, we are looking for the default constructor, -- and so we must skip any non-default constructor. elsif No (Next (First (Parameter_Specifications (Parent (Node (Elmt)))))) then return Node (Elmt); end if; end if; Next_Elmt (Elmt); end loop; -- Non-default constructors are currently supported only in the context -- of interfacing with C++. else pragma Assert (Is_CPP_Class (Typ)); -- Use the referenced function to locate the init_proc matching -- the C++ constructor. Elmt := First_Elmt (TSS_Elist (FN)); while Present (Elmt) loop if Is_Init_Proc (Node (Elmt)) then E1 := Next_Formal (First_Formal (Node (Elmt))); E2 := First_Formal (Ref); while Present (E1) and then Present (E2) loop if Chars (E1) /= Chars (E2) or else Ekind (E1) /= Ekind (E2) then exit; elsif Ekind (Etype (E1)) /= E_Anonymous_Access_Type and then Ekind (Etype (E2)) /= E_Anonymous_Access_Type and then Etype (E1) /= Etype (E2) then exit; elsif Ekind (Etype (E1)) = E_Anonymous_Access_Type and then Ekind (Etype (E2)) = E_Anonymous_Access_Type and then Directly_Designated_Type (Etype (E1)) /= Directly_Designated_Type (Etype (E2)) then exit; end if; E1 := Next_Formal (E1); E2 := Next_Formal (E2); end loop; if No (E1) and then No (E2) then return Node (Elmt); end if; end if; Next_Elmt (Elmt); end loop; end if; return Empty; end Init_Proc; ------------------ -- Is_Init_Proc -- ------------------ function Is_Init_Proc (E : Entity_Id) return Boolean is C1 : Character; C2 : Character; begin Get_Last_Two_Chars (Chars (E), C1, C2); return C1 = TSS_Init_Proc (1) and then C2 = TSS_Init_Proc (2); end Is_Init_Proc; ------------ -- Is_TSS -- ------------ function Is_TSS (E : Entity_Id; Nam : TSS_Name_Type) return Boolean is C1 : Character; C2 : Character; begin Get_Last_Two_Chars (Chars (E), C1, C2); return C1 = Nam (1) and then C2 = Nam (2); end Is_TSS; function Is_TSS (N : Name_Id; Nam : TSS_Name_Type) return Boolean is C1 : Character; C2 : Character; begin Get_Last_Two_Chars (N, C1, C2); return C1 = Nam (1) and then C2 = Nam (2); end Is_TSS; ------------------------- -- Make_Init_Proc_Name -- ------------------------- function Make_Init_Proc_Name (Typ : Entity_Id) return Name_Id is begin return Make_TSS_Name (Typ, TSS_Init_Proc); end Make_Init_Proc_Name; ------------------- -- Make_TSS_Name -- ------------------- function Make_TSS_Name (Typ : Entity_Id; Nam : TSS_Name_Type) return Name_Id is begin Get_Name_String (Chars (Typ)); Add_Char_To_Name_Buffer (Nam (1)); Add_Char_To_Name_Buffer (Nam (2)); return Name_Find; end Make_TSS_Name; ------------------------- -- Make_TSS_Name_Local -- ------------------------- function Make_TSS_Name_Local (Typ : Entity_Id; Nam : TSS_Name_Type) return Name_Id is begin Get_Name_String (Chars (Typ)); Add_Char_To_Name_Buffer ('_'); Add_Nat_To_Name_Buffer (Increment_Serial_Number); Add_Char_To_Name_Buffer (Nam (1)); Add_Char_To_Name_Buffer (Nam (2)); return Name_Find; end Make_TSS_Name_Local; -------------- -- Same_TSS -- -------------- function Same_TSS (E1, E2 : Entity_Id) return Boolean is E1C1 : Character; E1C2 : Character; E2C1 : Character; E2C2 : Character; begin Get_Last_Two_Chars (Chars (E1), E1C1, E1C2); Get_Last_Two_Chars (Chars (E2), E2C1, E2C2); return E1C1 = E2C1 and then E1C2 = E2C2 and then E1C1 in 'A' .. 'Z' and then E1C2 in 'A' .. 'Z'; end Same_TSS; ------------------- -- Set_Init_Proc -- ------------------- procedure Set_Init_Proc (Typ : Entity_Id; Init : Entity_Id) is begin Set_TSS (Typ, Init); end Set_Init_Proc; ------------- -- Set_TSS -- ------------- procedure Set_TSS (Typ : Entity_Id; TSS : Entity_Id) is begin -- Make sure body of subprogram is frozen -- Skip this for Init_Proc with No_Default_Initialization, since the -- Init proc is a dummy void entity in this case to be ignored. if Is_Init_Proc (TSS) and then Restriction_Active (No_Default_Initialization) then null; -- Skip this if not in the same code unit (since it means we are using -- an already existing TSS in another unit) elsif not In_Same_Code_Unit (Typ, TSS) then null; -- Otherwise make sure body is frozen else Append_Freeze_Action (Typ, Unit_Declaration_Node (TSS)); end if; -- Set TSS entry Copy_TSS (TSS, Typ); end Set_TSS; --------- -- TSS -- --------- function TSS (Typ : Entity_Id; Nam : TSS_Name_Type) return Entity_Id is FN : constant Node_Id := Freeze_Node (Typ); Elmt : Elmt_Id; Subp : Entity_Id; begin if No (FN) then return Empty; elsif No (TSS_Elist (FN)) then return Empty; else Elmt := First_Elmt (TSS_Elist (FN)); while Present (Elmt) loop if Is_TSS (Node (Elmt), Nam) then Subp := Node (Elmt); -- For stream subprograms, the TSS entity may be a renaming- -- as-body of an already generated entity. Use that one rather -- the one introduced by the renaming, which is an artifact of -- current stream handling. if Nkind (Parent (Parent (Subp))) = N_Subprogram_Renaming_Declaration and then Present (Corresponding_Spec (Parent (Parent (Subp)))) then return Corresponding_Spec (Parent (Parent (Subp))); else return Subp; end if; else Next_Elmt (Elmt); end if; end loop; end if; return Empty; end TSS; function TSS (Typ : Entity_Id; Nam : Name_Id) return Entity_Id is FN : constant Node_Id := Freeze_Node (Typ); Elmt : Elmt_Id; Subp : Entity_Id; begin if No (FN) then return Empty; elsif No (TSS_Elist (FN)) then return Empty; else Elmt := First_Elmt (TSS_Elist (FN)); while Present (Elmt) loop if Chars (Node (Elmt)) = Nam then Subp := Node (Elmt); -- For stream subprograms, the TSS entity may be a renaming- -- as-body of an already generated entity. Use that one rather -- the one introduced by the renaming, which is an artifact of -- current stream handling. if Nkind (Parent (Parent (Subp))) = N_Subprogram_Renaming_Declaration and then Present (Corresponding_Spec (Parent (Parent (Subp)))) then return Corresponding_Spec (Parent (Parent (Subp))); else return Subp; end if; else Next_Elmt (Elmt); end if; end loop; end if; return Empty; end TSS; end Exp_Tss;
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