-- Nodes recognizer for ieee.numeric_std and ieee.numeric_bit. -- Copyright (C) 2016 Tristan Gingold -- -- GHDL is free software; you can redistribute it and/or modify it under -- the terms of the GNU General Public License as published by the Free -- Software Foundation; either version 2, or (at your option) any later -- version. -- -- GHDL is distributed in the hope that it will be useful, but WITHOUT 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 -- along with GHDL; see the file COPYING. If not, write to the Free -- Software Foundation, 59 Temple Place - Suite 330, Boston, MA -- 02111-1307, USA. with Types; use Types; with Vhdl.Std_Package; with Std_Names; use Std_Names; with Vhdl.Errors; use Vhdl.Errors; with Vhdl.Ieee.Std_Logic_1164; package body Vhdl.Ieee.Numeric is type Pkg_Kind is (Pkg_Std, Pkg_Bit); type Sign_Kind is (Type_Signed, Type_Unsigned, Type_Log, Type_Slv, Type_Suv); subtype Sign_Num_Kind is Sign_Kind range Type_Signed .. Type_Unsigned; type Arg_Kind is (Arg_Vect, Arg_Scal); type Args_Kind is (Arg_Vect_Vect, Arg_Vect_Scal, Arg_Scal_Vect, Arg_Vect_Log, Arg_Log_Vect); type Binary_Pattern_Type is array (Pkg_Kind, Sign_Num_Kind, Args_Kind) of Iir_Predefined_Functions; type Unary_Pattern_Type is array (Pkg_Kind, Sign_Num_Kind) of Iir_Predefined_Functions; type Shift_Pattern_Type is array (Type_Signed .. Type_Unsigned) of Iir_Predefined_Functions; Add_Patterns : constant Binary_Pattern_Type := (Pkg_Std => (Type_Unsigned => (Arg_Vect_Vect => Iir_Predefined_Ieee_Numeric_Std_Add_Uns_Uns, Arg_Vect_Scal => Iir_Predefined_Ieee_Numeric_Std_Add_Uns_Nat, Arg_Scal_Vect => Iir_Predefined_Ieee_Numeric_Std_Add_Nat_Uns, Arg_Vect_Log => Iir_Predefined_Ieee_Numeric_Std_Add_Uns_Log, Arg_Log_Vect => Iir_Predefined_Ieee_Numeric_Std_Add_Log_Uns), Type_Signed => (Arg_Vect_Vect => Iir_Predefined_Ieee_Numeric_Std_Add_Sgn_Sgn, Arg_Vect_Scal => Iir_Predefined_Ieee_Numeric_Std_Add_Sgn_Int, Arg_Scal_Vect => Iir_Predefined_Ieee_Numeric_Std_Add_Int_Sgn, Arg_Vect_Log => Iir_Predefined_None, Arg_Log_Vect => Iir_Predefined_None)), Pkg_Bit => (others => (others => Iir_Predefined_None))); Sub_Patterns : constant Binary_Pattern_Type := (Pkg_Std => (Type_Unsigned => (Arg_Vect_Vect => Iir_Predefined_Ieee_Numeric_Std_Sub_Uns_Uns, Arg_Vect_Scal => Iir_Predefined_Ieee_Numeric_Std_Sub_Uns_Nat, Arg_Scal_Vect => Iir_Predefined_Ieee_Numeric_Std_Sub_Nat_Uns, Arg_Vect_Log => Iir_Predefined_None, Arg_Log_Vect => Iir_Predefined_None), Type_Signed => (Arg_Vect_Vect => Iir_Predefined_Ieee_Numeric_Std_Sub_Sgn_Sgn, Arg_Vect_Scal => Iir_Predefined_Ieee_Numeric_Std_Sub_Sgn_Int, Arg_Scal_Vect => Iir_Predefined_Ieee_Numeric_Std_Sub_Int_Sgn, Arg_Vect_Log => Iir_Predefined_None, Arg_Log_Vect => Iir_Predefined_None)), Pkg_Bit => (others => (others => Iir_Predefined_None))); Mul_Patterns : constant Binary_Pattern_Type := (Pkg_Std => (Type_Unsigned => (Arg_Vect_Vect => Iir_Predefined_Ieee_Numeric_Std_Mul_Uns_Uns, Arg_Vect_Scal => Iir_Predefined_Ieee_Numeric_Std_Mul_Uns_Nat, Arg_Scal_Vect => Iir_Predefined_Ieee_Numeric_Std_Mul_Nat_Uns, Arg_Vect_Log => Iir_Predefined_None, Arg_Log_Vect => Iir_Predefined_None), Type_Signed => (Arg_Vect_Vect => Iir_Predefined_Ieee_Numeric_Std_Mul_Sgn_Sgn, Arg_Vect_Scal => Iir_Predefined_Ieee_Numeric_Std_Mul_Sgn_Int, Arg_Scal_Vect => Iir_Predefined_Ieee_Numeric_Std_Mul_Int_Sgn, Arg_Vect_Log => Iir_Predefined_None, Arg_Log_Vect => Iir_Predefined_None)), Pkg_Bit => (others => (others => Iir_Predefined_None))); Div_Patterns : constant Binary_Pattern_Type := (Pkg_Std => (Type_Unsigned => (Arg_Vect_Vect => Iir_Predefined_Ieee_Numeric_Std_Div_Uns_Uns, Arg_Vect_Scal => Iir_Predefined_Ieee_Numeric_Std_Div_Uns_Nat, Arg_Scal_Vect => Iir_Predefined_Ieee_Numeric_Std_Div_Nat_Uns, Arg_Vect_Log => Iir_Predefined_None, Arg_Log_Vect => Iir_Predefined_None), Type_Signed => (Arg_Vect_Vect => Iir_Predefined_Ieee_Numeric_Std_Div_Sgn_Sgn, Arg_Vect_Scal => Iir_Predefined_Ieee_Numeric_Std_Div_Sgn_Int, Arg_Scal_Vect => Iir_Predefined_Ieee_Numeric_Std_Div_Int_Sgn, Arg_Vect_Log => Iir_Predefined_None, Arg_Log_Vect => Iir_Predefined_None)), Pkg_Bit => (others => (others => Iir_Predefined_None))); Eq_Patterns : constant Binary_Pattern_Type := (Pkg_Std => (Type_Unsigned => (Arg_Vect_Vect => Iir_Predefined_Ieee_Numeric_Std_Eq_Uns_Uns, Arg_Vect_Scal => Iir_Predefined_Ieee_Numeric_Std_Eq_Uns_Nat, Arg_Scal_Vect => Iir_Predefined_Ieee_Numeric_Std_Eq_Nat_Uns, Arg_Vect_Log => Iir_Predefined_None, Arg_Log_Vect => Iir_Predefined_None), Type_Signed => (Arg_Vect_Vect => Iir_Predefined_Ieee_Numeric_Std_Eq_Sgn_Sgn, Arg_Vect_Scal => Iir_Predefined_Ieee_Numeric_Std_Eq_Sgn_Int, Arg_Scal_Vect => Iir_Predefined_Ieee_Numeric_Std_Eq_Int_Sgn, Arg_Vect_Log => Iir_Predefined_None, Arg_Log_Vect => Iir_Predefined_None)), Pkg_Bit => (others => (others => Iir_Predefined_None))); Ne_Patterns : constant Binary_Pattern_Type := (Pkg_Std => (Type_Unsigned => (Arg_Vect_Vect => Iir_Predefined_Ieee_Numeric_Std_Ne_Uns_Uns, Arg_Vect_Scal => Iir_Predefined_Ieee_Numeric_Std_Ne_Uns_Nat, Arg_Scal_Vect => Iir_Predefined_Ieee_Numeric_Std_Ne_Nat_Uns, Arg_Vect_Log => Iir_Predefined_None, Arg_Log_Vect => Iir_Predefined_None), Type_Signed => (Arg_Vect_Vect => Iir_Predefined_Ieee_Numeric_Std_Ne_Sgn_Sgn, Arg_Vect_Scal => Iir_Predefined_Ieee_Numeric_Std_Ne_Sgn_Int, Arg_Scal_Vect => Iir_Predefined_Ieee_Numeric_Std_Ne_Int_Sgn, Arg_Vect_Log => Iir_Predefined_None, Arg_Log_Vect => Iir_Predefined_None)), Pkg_Bit => (others => (others => Iir_Predefined_None))); Lt_Patterns : constant Binary_Pattern_Type := (Pkg_Std => (Type_Unsigned => (Arg_Vect_Vect => Iir_Predefined_Ieee_Numeric_Std_Lt_Uns_Uns, Arg_Vect_Scal => Iir_Predefined_Ieee_Numeric_Std_Lt_Uns_Nat, Arg_Scal_Vect => Iir_Predefined_Ieee_Numeric_Std_Lt_Nat_Uns, Arg_Vect_Log => Iir_Predefined_None, Arg_Log_Vect => Iir_Predefined_None), Type_Signed => (Arg_Vect_Vect => Iir_Predefined_Ieee_Numeric_Std_Lt_Sgn_Sgn, Arg_Vect_Scal => Iir_Predefined_Ieee_Numeric_Std_Lt_Sgn_Int, Arg_Scal_Vect => Iir_Predefined_Ieee_Numeric_Std_Lt_Int_Sgn, Arg_Vect_Log => Iir_Predefined_None, Arg_Log_Vect => Iir_Predefined_None)), Pkg_Bit => (others => (others => Iir_Predefined_None))); Le_Patterns : constant Binary_Pattern_Type := (Pkg_Std => (Type_Unsigned => (Arg_Vect_Vect => Iir_Predefined_Ieee_Numeric_Std_Le_Uns_Uns, Arg_Vect_Scal => Iir_Predefined_Ieee_Numeric_Std_Le_Uns_Nat, Arg_Scal_Vect => Iir_Predefined_Ieee_Numeric_Std_Le_Nat_Uns, Arg_Vect_Log => Iir_Predefined_None, Arg_Log_Vect => Iir_Predefined_None), Type_Signed => (Arg_Vect_Vect => Iir_Predefined_Ieee_Numeric_Std_Le_Sgn_Sgn, Arg_Vect_Scal => Iir_Predefined_Ieee_Numeric_Std_Le_Sgn_Int, Arg_Scal_Vect => Iir_Predefined_Ieee_Numeric_Std_Le_Int_Sgn, Arg_Vect_Log => Iir_Predefined_None, Arg_Log_Vect => Iir_Predefined_None)), Pkg_Bit => (others => (others => Iir_Predefined_None))); Gt_Patterns : constant Binary_Pattern_Type := (Pkg_Std => (Type_Unsigned => (Arg_Vect_Vect => Iir_Predefined_Ieee_Numeric_Std_Gt_Uns_Uns, Arg_Vect_Scal => Iir_Predefined_Ieee_Numeric_Std_Gt_Uns_Nat, Arg_Scal_Vect => Iir_Predefined_Ieee_Numeric_Std_Gt_Nat_Uns, Arg_Vect_Log => Iir_Predefined_None, Arg_Log_Vect => Iir_Predefined_None), Type_Signed => (Arg_Vect_Vect => Iir_Predefined_Ieee_Numeric_Std_Gt_Sgn_Sgn, Arg_Vect_Scal => Iir_Predefined_Ieee_Numeric_Std_Gt_Sgn_Int, Arg_Scal_Vect => Iir_Predefined_Ieee_Numeric_Std_Gt_Int_Sgn, Arg_Vect_Log => Iir_Predefined_None, Arg_Log_Vect => Iir_Predefined_None)), Pkg_Bit => (others => (others => Iir_Predefined_None))); Ge_Patterns : constant Binary_Pattern_Type := (Pkg_Std => (Type_Unsigned => (Arg_Vect_Vect => Iir_Predefined_Ieee_Numeric_Std_Ge_Uns_Uns, Arg_Vect_Scal => Iir_Predefined_Ieee_Numeric_Std_Ge_Uns_Nat, Arg_Scal_Vect => Iir_Predefined_Ieee_Numeric_Std_Ge_Nat_Uns, Arg_Vect_Log => Iir_Predefined_None, Arg_Log_Vect => Iir_Predefined_None), Type_Signed => (Arg_Vect_Vect => Iir_Predefined_Ieee_Numeric_Std_Ge_Sgn_Sgn, Arg_Vect_Scal => Iir_Predefined_Ieee_Numeric_Std_Ge_Sgn_Int, Arg_Scal_Vect => Iir_Predefined_Ieee_Numeric_Std_Ge_Int_Sgn, Arg_Vect_Log => Iir_Predefined_None, Arg_Log_Vect => Iir_Predefined_None)), Pkg_Bit => (others => (others => Iir_Predefined_None))); Neg_Patterns : constant Unary_Pattern_Type := (Pkg_Std => (Type_Unsigned => Iir_Predefined_Ieee_Numeric_Std_Neg_Uns, Type_Signed => Iir_Predefined_Ieee_Numeric_Std_Neg_Sgn), Pkg_Bit => (others => Iir_Predefined_None)); Not_Patterns : constant Unary_Pattern_Type := (Pkg_Std => (Type_Unsigned => Iir_Predefined_Ieee_Numeric_Std_Not_Uns, Type_Signed => Iir_Predefined_Ieee_Numeric_Std_Not_Sgn), Pkg_Bit => (others => Iir_Predefined_None)); And_Patterns : constant Binary_Pattern_Type := (Pkg_Std => (Type_Unsigned => (Arg_Vect_Vect => Iir_Predefined_Ieee_Numeric_Std_And_Uns_Uns, others => Iir_Predefined_None), Type_Signed => (Arg_Vect_Vect => Iir_Predefined_Ieee_Numeric_Std_And_Sgn_Sgn, others => Iir_Predefined_None)), Pkg_Bit => (others => (others => Iir_Predefined_None))); Or_Patterns : constant Binary_Pattern_Type := (Pkg_Std => (Type_Unsigned => (Arg_Vect_Vect => Iir_Predefined_Ieee_Numeric_Std_Or_Uns_Uns, others => Iir_Predefined_None), Type_Signed => (Arg_Vect_Vect => Iir_Predefined_Ieee_Numeric_Std_Or_Sgn_Sgn, others => Iir_Predefined_None)), Pkg_Bit => (others => (others => Iir_Predefined_None))); Nand_Patterns : constant Binary_Pattern_Type := (Pkg_Std => (Type_Unsigned => (Arg_Vect_Vect => Iir_Predefined_Ieee_Numeric_Std_Nand_Uns_Uns, others => Iir_Predefined_None), Type_Signed => (Arg_Vect_Vect => Iir_Predefined_Ieee_Numeric_Std_Nand_Sgn_Sgn, others => Iir_Predefined_None)), Pkg_Bit => (others => (others => Iir_Predefined_None))); Nor_Patterns : constant Binary_Pattern_Type := (Pkg_Std => (Type_Unsigned => (Arg_Vect_Vect => Iir_Predefined_Ieee_Numeric_Std_Nor_Uns_Uns, others => Iir_Predefined_None), Type_Signed => (Arg_Vect_Vect => Iir_Predefined_Ieee_Numeric_Std_Nor_Sgn_Sgn, others => Iir_Predefined_None)), Pkg_Bit => (others => (others => Iir_Predefined_None))); Xor_Patterns : constant Binary_Pattern_Type := (Pkg_Std => (Type_Unsigned => (Arg_Vect_Vect => Iir_Predefined_Ieee_Numeric_Std_Xor_Uns_Uns, others => Iir_Predefined_None), Type_Signed => (Arg_Vect_Vect => Iir_Predefined_Ieee_Numeric_Std_Xor_Sgn_Sgn, others => Iir_Predefined_None)), Pkg_Bit => (others => (others => Iir_Predefined_None))); Xnor_Patterns : constant Binary_Pattern_Type := (Pkg_Std => (Type_Unsigned => (Arg_Vect_Vect => Iir_Predefined_Ieee_Numeric_Std_Xnor_Uns_Uns, others => Iir_Predefined_None), Type_Signed => (Arg_Vect_Vect => Iir_Predefined_Ieee_Numeric_Std_Xnor_Sgn_Sgn, others => Iir_Predefined_None)), Pkg_Bit => (others => (others => Iir_Predefined_None))); Shl_Patterns : constant Shift_Pattern_Type := (Type_Signed => Iir_Predefined_Ieee_Numeric_Std_Shl_Sgn_Nat, Type_Unsigned => Iir_Predefined_Ieee_Numeric_Std_Shl_Uns_Nat); Shr_Patterns : constant Shift_Pattern_Type := (Type_Signed => Iir_Predefined_Ieee_Numeric_Std_Shr_Sgn_Nat, Type_Unsigned => Iir_Predefined_Ieee_Numeric_Std_Shr_Uns_Nat); Rol_Patterns : constant Shift_Pattern_Type := (Type_Signed => Iir_Predefined_Ieee_Numeric_Std_Rol_Sgn_Nat, Type_Unsigned => Iir_Predefined_Ieee_Numeric_Std_Rol_Uns_Nat); Ror_Patterns : constant Shift_Pattern_Type := (Type_Signed => Iir_Predefined_Ieee_Numeric_Std_Ror_Sgn_Nat, Type_Unsigned => Iir_Predefined_Ieee_Numeric_Std_Ror_Uns_Nat); Error : exception; procedure Extract_Declarations (Pkg_Decl : Iir_Package_Declaration; Pkg : Pkg_Kind; Unsigned_Type : out Iir; Signed_Type : out Iir) is procedure Classify_Arg (Arg : Iir; Sign : out Sign_Kind; Kind : out Arg_Kind) is Arg_Type : constant Iir := Get_Type (Arg); begin if Arg_Type = Signed_Type then Sign := Type_Signed; Kind := Arg_Vect; elsif Arg_Type = Unsigned_Type then Sign := Type_Unsigned; Kind := Arg_Vect; elsif Arg_Type = Vhdl.Std_Package.Integer_Subtype_Definition then Sign := Type_Signed; Kind := Arg_Scal; elsif Arg_Type = Vhdl.Std_Package.Natural_Subtype_Definition then Sign := Type_Unsigned; Kind := Arg_Scal; elsif Arg_Type = Ieee.Std_Logic_1164.Std_Ulogic_Type then Sign := Type_Log; Kind := Arg_Scal; elsif Arg_Type = Ieee.Std_Logic_1164.Std_Ulogic_Vector_Type then Sign := Type_Suv; Kind := Arg_Vect; elsif Arg_Type = Ieee.Std_Logic_1164.Std_Logic_Type then Sign := Type_Log; Kind := Arg_Scal; elsif Arg_Type = Ieee.Std_Logic_1164.Std_Logic_Vector_Type then Sign := Type_Slv; Kind := Arg_Vect; else raise Error; end if; end Classify_Arg; Decl : Iir; Def : Iir; Arg1, Arg2 : Iir; Arg1_Sign, Arg2_Sign : Sign_Kind; Arg1_Kind, Arg2_Kind : Arg_Kind; procedure Handle_Binary (Pats : Binary_Pattern_Type) is Kind : Args_Kind; Sign : Sign_Kind; begin if Arg1_Sign = Arg2_Sign then Sign := Arg1_Sign; case Arg1_Kind is when Arg_Vect => case Arg2_Kind is when Arg_Vect => Kind := Arg_Vect_Vect; when Arg_Scal => Kind := Arg_Vect_Scal; end case; when Arg_Scal => case Arg2_Kind is when Arg_Vect => Kind := Arg_Scal_Vect; when Arg_Scal => raise Error; end case; end case; elsif Arg1_Kind = Arg_Vect and Arg2_Sign = Type_Log then Sign := Arg1_Sign; Kind := Arg_Vect_Log; elsif Arg1_Sign = Type_Log and Arg2_Kind = Arg_Vect then Sign := Arg2_Sign; Kind := Arg_Log_Vect; else raise Error; end if; Set_Implicit_Definition (Decl, Pats (Pkg, Sign, Kind)); end Handle_Binary; procedure Handle_Unary (Pats : Unary_Pattern_Type) is begin Set_Implicit_Definition (Decl, Pats (Pkg, Arg1_Sign)); end Handle_Unary; procedure Handle_To_Unsigned is begin if Arg1_Kind = Arg_Scal and Arg1_Sign = Type_Unsigned then if Arg2_Kind = Arg_Scal and Arg2_Sign = Type_Unsigned then Set_Implicit_Definition (Decl, Iir_Predefined_Ieee_Numeric_Std_Touns_Nat_Nat_Uns); elsif Arg2_Kind = Arg_Vect and Arg2_Sign = Type_Unsigned then Set_Implicit_Definition (Decl, Iir_Predefined_Ieee_Numeric_Std_Touns_Nat_Uns_Uns); else raise Error; end if; else raise Error; end if; end Handle_To_Unsigned; procedure Handle_To_Signed is begin if Arg1_Kind = Arg_Scal and Arg1_Sign = Type_Signed then if Arg2_Kind = Arg_Scal and Arg2_Sign = Type_Unsigned then Set_Implicit_Definition (Decl, Iir_Predefined_Ieee_Numeric_Std_Tosgn_Int_Nat_Sgn); elsif Arg2_Kind = Arg_Vect and Arg2_Sign = Type_Signed then Set_Implicit_Definition (Decl, Iir_Predefined_Ieee_Numeric_Std_Tosgn_Int_Sgn_Sgn); else raise Error; end if; else raise Error; end if; end Handle_To_Signed; procedure Handle_To_Integer is begin if Arg1_Kind = Arg_Vect and Arg1_Sign = Type_Unsigned then Set_Implicit_Definition (Decl, Iir_Predefined_Ieee_Numeric_Std_Toint_Uns_Nat); elsif Arg1_Kind = Arg_Vect and Arg1_Sign = Type_Signed then Set_Implicit_Definition (Decl, Iir_Predefined_Ieee_Numeric_Std_Toint_Sgn_Int); else raise Error; end if; end Handle_To_Integer; procedure Handle_Resize is begin if Arg2_Kind = Arg_Scal and Arg2_Sign = Type_Unsigned then if Arg1_Kind = Arg_Vect and Arg1_Sign = Type_Unsigned then Set_Implicit_Definition (Decl, Iir_Predefined_Ieee_Numeric_Std_Resize_Uns_Nat); elsif Arg1_Kind = Arg_Vect and Arg1_Sign = Type_Signed then Set_Implicit_Definition (Decl, Iir_Predefined_Ieee_Numeric_Std_Resize_Sgn_Nat); else raise Error; end if; elsif Arg2_Kind = Arg_Vect then if Arg1_Kind = Arg_Vect and Arg1_Sign = Type_Unsigned and Arg2_Sign = Type_Unsigned then Set_Implicit_Definition (Decl, Iir_Predefined_Ieee_Numeric_Std_Resize_Uns_Uns); elsif Arg1_Kind = Arg_Vect and Arg1_Sign = Type_Signed and Arg2_Sign = Type_Signed then Set_Implicit_Definition (Decl, Iir_Predefined_Ieee_Numeric_Std_Resize_Sgn_Sgn); else raise Error; end if; else raise Error; end if; end Handle_Resize; procedure Handle_Std_Match is Predefined : Iir_Predefined_Functions; begin if Arg1_Kind /= Arg2_Kind or else Arg1_Sign /= Arg2_Sign then raise Error; end if; if Arg1_Kind = Arg_Scal and Arg1_Sign = Type_Log then Predefined := Iir_Predefined_Ieee_Numeric_Std_Match_Log; elsif Arg1_Kind = Arg_Vect then case Arg1_Sign is when Type_Unsigned => Predefined := Iir_Predefined_Ieee_Numeric_Std_Match_Uns; when Type_Signed => Predefined := Iir_Predefined_Ieee_Numeric_Std_Match_Sgn; when Type_Suv => Predefined := Iir_Predefined_Ieee_Numeric_Std_Match_Suv; when Type_Slv => Predefined := Iir_Predefined_Ieee_Numeric_Std_Match_Slv; when Type_Log => raise Error; end case; else raise Error; end if; Set_Implicit_Definition (Decl, Predefined); end Handle_Std_Match; procedure Handle_Shift (Pats : Shift_Pattern_Type) is Res : Iir_Predefined_Functions; begin if Arg1_Kind = Arg_Vect and then Arg2_Kind = Arg_Scal and then Arg2_Sign = Type_Unsigned then case Arg1_Sign is when Type_Signed | Type_Unsigned => Res := Pats (Arg1_Sign); when others => Res := Iir_Predefined_None; end case; Set_Implicit_Definition (Decl, Res); end if; end Handle_Shift; begin Decl := Get_Declaration_Chain (Pkg_Decl); -- Skip a potential copyright constant. if Decl /= Null_Iir and then Get_Kind (Decl) = Iir_Kind_Constant_Declaration and then (Get_Base_Type (Get_Type (Decl)) = Vhdl.Std_Package.String_Type_Definition) then Decl := Get_Chain (Decl); end if; -- The first declaration should be type Unsigned or Unresolved_Unsigned if not (Decl /= Null_Iir and then Get_Kind (Decl) = Iir_Kind_Type_Declaration and then (Get_Identifier (Decl) = Name_Unsigned or else Get_Identifier (Decl) = Name_Unresolved_Unsigned)) then raise Error; end if; Def := Get_Type_Definition (Decl); if Get_Kind (Def) /= Iir_Kind_Array_Type_Definition then raise Error; end if; Unsigned_Type := Def; -- The second declaration should be type Signed. Decl := Get_Chain (Decl); Decl := Skip_Implicit (Decl); if not (Decl /= Null_Iir and then Get_Kind (Decl) = Iir_Kind_Type_Declaration and then (Get_Identifier (Decl) = Name_Signed or else Get_Identifier (Decl) = Name_Unresolved_Signed)) then raise Error; end if; Def := Get_Type_Definition (Decl); if Get_Kind (Def) /= Iir_Kind_Array_Type_Definition then raise Error; end if; Signed_Type := Def; -- For vhdl 2008, skip subtypes Decl := Get_Chain (Decl); Decl := Skip_Implicit (Decl); while Is_Valid (Decl) loop exit when Get_Kind (Decl) /= Iir_Kind_Subtype_Declaration; Decl := Get_Chain (Decl); end loop; -- Handle functions. while Is_Valid (Decl) loop case Get_Kind (Decl) is when Iir_Kind_Function_Declaration => Arg1 := Get_Interface_Declaration_Chain (Decl); if Is_Null (Arg1) then raise Error; end if; Classify_Arg (Arg1, Arg1_Sign, Arg1_Kind); Arg2 := Get_Chain (Arg1); if Is_Valid (Arg2) then -- Dyadic function. Classify_Arg (Arg2, Arg2_Sign, Arg2_Kind); case Get_Identifier (Decl) is when Name_Op_Plus => Handle_Binary (Add_Patterns); when Name_Op_Minus => Handle_Binary (Sub_Patterns); when Name_Op_Mul => Handle_Binary (Mul_Patterns); when Name_Op_Div => Handle_Binary (Div_Patterns); when Name_Op_Equality => Handle_Binary (Eq_Patterns); when Name_Op_Inequality => Handle_Binary (Ne_Patterns); when Name_Op_Less => Handle_Binary (Lt_Patterns); when Name_Op_Less_Equal => Handle_Binary (Le_Patterns); when Name_Op_Greater => Handle_Binary (Gt_Patterns); when Name_Op_Greater_Equal => Handle_Binary (Ge_Patterns); when Name_And => Handle_Binary (And_Patterns); when Name_Or => Handle_Binary (Or_Patterns); when Name_Nand => Handle_Binary (Nand_Patterns); when Name_Nor => Handle_Binary (Nor_Patterns); when Name_Xor => Handle_Binary (Xor_Patterns); when Name_Xnor => Handle_Binary (Xnor_Patterns); when Name_To_Bstring | Name_To_Ostring | Name_To_Hstring => null; when Name_To_Unsigned => Handle_To_Unsigned; when Name_To_Signed => Handle_To_Signed; when Name_Resize => Handle_Resize; when Name_Std_Match => Handle_Std_Match; when Name_Shift_Left => Handle_Shift (Shl_Patterns); when Name_Shift_Right => Handle_Shift (Shr_Patterns); when Name_Rotate_Left => Handle_Shift (Rol_Patterns); when Name_Rotate_Right => Handle_Shift (Ror_Patterns); when others => null; end case; else -- Monadic function. case Get_Identifier (Decl) is when Name_Op_Minus => Handle_Unary (Neg_Patterns); when Name_Not => Handle_Unary (Not_Patterns); when Name_To_Integer => Handle_To_Integer; when others => null; end case; end if; when Iir_Kind_Non_Object_Alias_Declaration | Iir_Kind_Procedure_Declaration => null; when others => raise Error; end case; Decl := Get_Chain (Decl); end loop; end Extract_Declarations; procedure Extract_Std_Declarations (Pkg : Iir_Package_Declaration) is begin Numeric_Std_Pkg := Pkg; Extract_Declarations (Pkg, Pkg_Std, Numeric_Std_Unsigned_Type, Numeric_Std_Signed_Type); exception when Error => Error_Msg_Sem (+Pkg, "package ieee.numeric_std is ill-formed"); Numeric_Std_Pkg := Null_Iir; Numeric_Std_Unsigned_Type := Null_Iir; Numeric_Std_Signed_Type := Null_Iir; end Extract_Std_Declarations; end Vhdl.Ieee.Numeric;