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|
-- VHDL regeneration from internal nodes.
-- Copyright (C) 2002, 2003, 2004, 2005 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.
-- Re-print a tree as VHDL sources. Except for comments and parenthesis, the
-- sequence of tokens displayed is the same as the sequence of tokens in the
-- input file. If parenthesis are kept by the parser, the only differences
-- are comments and layout.
with Types; use Types;
with Simple_IO;
with Flags; use Flags;
with Name_Table;
with Str_Table;
with Std_Names; use Std_Names;
with Files_Map;
with Vhdl.Types; use Vhdl.Types;
with Vhdl.Errors; use Vhdl.Errors;
with Vhdl.Utils; use Vhdl.Utils;
with Vhdl.Std_Package;
with PSL.Priorities; use PSL.Priorities;
with PSL.Nodes; use PSL.Nodes;
with PSL.Prints;
with PSL.NFAs;
with PSL.Errors;
package body Vhdl.Prints is
-- If True, display extra parenthesis to make priority of operators
-- explicit.
Flag_Parenthesis : constant Boolean := False;
-- If set, disp after a string literal the type enclosed into brackets.
Flag_Disp_String_Literal_Type: constant Boolean := False;
-- If set, disp implicit declarations.
Flag_Implicit : constant Boolean := False;
procedure Disp_Type (Ctxt : in out Ctxt_Class; A_Type: Iir);
procedure Disp_Range (Ctxt : in out Ctxt_Class; Rng : Iir);
procedure Print (Ctxt : in out Ctxt_Class; Expr: Iir);
procedure Disp_Concurrent_Statement (Ctxt : in out Ctxt_Class; Stmt: Iir);
procedure Disp_Concurrent_Statement_Chain
(Ctxt : in out Ctxt_Class; Parent: Iir);
procedure Disp_Declaration_Chain
(Ctxt : in out Ctxt_Class; Parent : Iir);
procedure Disp_Process_Statement (Ctxt : in out Ctxt_Class; Process: Iir);
procedure Disp_Sequential_Statements
(Ctxt : in out Ctxt_Class; First : Iir);
procedure Disp_Choice (Ctxt : in out Ctxt_Class; Choice: in out Iir);
procedure Disp_Association_Chain (Ctxt : in out Ctxt_Class; Chain : Iir);
procedure Disp_Block_Configuration
(Ctxt : in out Ctxt_Class; Block: Iir_Block_Configuration);
procedure Disp_Subprogram_Declaration
(Ctxt : in out Ctxt_Class; Subprg: Iir; Implicit : Boolean := False);
procedure Disp_Binding_Indication
(Ctxt : in out Ctxt_Class; Bind : Iir);
procedure Disp_Subtype_Indication
(Ctxt : in out Ctxt_Class; Def : Iir; Full_Decl : Boolean := False);
procedure Disp_Parametered_Attribute
(Ctxt : in out Ctxt_Class; Name : Name_Id; Expr : Iir);
procedure Disp_String_Literal
(Ctxt : in out Ctxt_Class; Str : Iir; El_Type : Iir);
procedure Disp_Package_Declaration
(Ctxt : in out Ctxt_Class; Decl: Iir_Package_Declaration);
procedure Disp_Package_Instantiation_Declaration
(Ctxt : in out Ctxt_Class; Decl: Iir);
procedure Disp_Package_Body (Ctxt : in out Ctxt_Class; Decl: Iir);
procedure Disp_Attribute_Name (Ctxt : in out Ctxt_Class; Attr : Iir);
procedure Print_Property (Ctxt : in out Ctxt_Class;
Prop : PSL_Node;
Parent_Prio : Priority := Prio_Lowest);
procedure Print_Sequence (Ctxt : in out Ctxt_Class;
Seq : PSL_Node;
Parent_Prio : Priority := Prio_Lowest);
procedure Disp_Int64 (Ctxt : in out Ctxt_Class; Val: Int64);
procedure Disp_Int32 (Ctxt : in out Ctxt_Class; Val: Iir_Int32);
procedure Disp_Fp64 (Ctxt : in out Ctxt_Class; Val: Fp64);
package OOB is
procedure Put (Str : String);
procedure New_Line;
end OOB;
package body OOB is
procedure Put (Str : String) is
begin
Simple_IO.Put_Err (Str);
end Put;
procedure Put (C : Character) is
begin
Put ((1 => C));
end Put;
procedure New_Line is
begin
Put (ASCII.LF);
end New_Line;
end OOB;
procedure Disp_Token (Ctxt : in out Ctxt_Class; Tok1, Tok2 : Token_Type) is
begin
Disp_Token (Ctxt, Tok1);
Disp_Token (Ctxt, Tok2);
end Disp_Token;
procedure Disp_Ident (Ctxt : in out Ctxt_Class; Id: Name_Id) is
begin
if Name_Table.Is_Character (Id) then
Start_Lit (Ctxt, Tok_Character);
Disp_Char (Ctxt, ''');
Disp_Char (Ctxt, Name_Table.Get_Character (Id));
Disp_Char (Ctxt, ''');
Close_Lit (Ctxt);
else
Start_Lit (Ctxt, Tok_Identifier);
if Id = Null_Identifier then
Disp_Str (Ctxt, "<anonymous>");
else
Disp_Str (Ctxt, Name_Table.Image (Id));
end if;
Close_Lit (Ctxt);
end if;
end Disp_Ident;
function Or_Else (L, R : Iir) return Iir is
begin
if L /= Null_Iir then
return L;
end if;
pragma Assert (R /= Null_Iir);
return R;
end Or_Else;
-- Disp a literal from the sources (so using exactely the same characters).
procedure Disp_From_Source
(Ctxt : in out Ctxt_Class;
Loc : Location_Type; Len : Int32; Tok : Token_Type)
is
use Files_Map;
pragma Assert (Len > 0);
File : Source_File_Entry;
Pos : Source_Ptr;
Buf : File_Buffer_Acc;
begin
Location_To_File_Pos (Loc, File, Pos);
Buf := Get_File_Source (File);
Start_Lit (Ctxt, Tok);
for I in 1 .. Len loop
Disp_Char (Ctxt, Buf (Pos));
Pos := Pos + 1;
end loop;
Close_Lit (Ctxt);
end Disp_From_Source;
procedure Disp_Identifier (Ctxt : in out Ctxt_Class; Node : Iir)
is
use Name_Table;
Id : constant Name_Id := Get_Identifier (Node);
Loc : constant Location_Type := Get_Location (Node);
begin
-- Try to display the one from the sources.
if Id /= Null_Identifier
and then not Is_Character (Id)
and then Loc /= No_Location
and then Loc /= Std_Package.Std_Location
then
Disp_From_Source
(Ctxt, Loc, Int32 (Get_Name_Length (Id)), Tok_Identifier);
else
Disp_Ident (Ctxt, Id);
end if;
end Disp_Identifier;
procedure Disp_Literal_From_Source
(Ctxt : in out Ctxt_Class; Lit : Iir; Tok : Token_Type) is
begin
Disp_From_Source
(Ctxt, Get_Location (Lit), Get_Literal_Length (Lit), Tok);
end Disp_Literal_From_Source;
procedure Disp_Function_Name (Ctxt : in out Ctxt_Class; Func: Iir)
is
use Name_Table;
Id: Name_Id;
begin
Id := Get_Identifier (Func);
case Id is
when Name_Id_Operators
| Name_Word_Operators
| Name_Logical_Operators
| Name_Xnor
| Name_Shift_Operators =>
Start_Lit (Ctxt, Tok_String);
Disp_Char (Ctxt, '"');
Disp_Str (Ctxt, Image (Id));
Disp_Char (Ctxt, '"');
Close_Lit (Ctxt);
when others =>
Disp_Ident (Ctxt, Id);
end case;
end Disp_Function_Name;
-- Disp the name of DECL.
procedure Disp_Name_Of (Ctxt : in out Ctxt_Class; Decl: Iir) is
begin
case Get_Kind (Decl) is
when Iir_Kind_Component_Declaration
| Iir_Kind_Entity_Declaration
| Iir_Kind_Architecture_Body
| Iir_Kind_Configuration_Declaration
| Iir_Kind_Context_Declaration
| Iir_Kinds_Interface_Object_Declaration
| Iir_Kind_Interface_Type_Declaration
| Iir_Kind_Constant_Declaration
| Iir_Kind_Signal_Declaration
| Iir_Kind_Guard_Signal_Declaration
| Iir_Kind_Variable_Declaration
| Iir_Kind_Type_Declaration
| Iir_Kind_File_Declaration
| Iir_Kind_Subtype_Declaration
| Iir_Kind_Element_Declaration
| Iir_Kind_Record_Element_Constraint
| Iir_Kind_Package_Declaration
| Iir_Kind_Object_Alias_Declaration
| Iir_Kind_Non_Object_Alias_Declaration
| Iir_Kind_Iterator_Declaration
| Iir_Kind_Library_Declaration
| Iir_Kind_Unit_Declaration
| Iir_Kind_Nature_Declaration
| Iir_Kind_Terminal_Declaration
| Iir_Kinds_Quantity_Declaration
| Iir_Kind_Group_Template_Declaration
| Iir_Kind_Character_Literal
| Iir_Kinds_Process_Statement =>
Disp_Identifier (Ctxt, Decl);
when Iir_Kind_Anonymous_Type_Declaration =>
Start_Lit (Ctxt, Tok_Identifier);
Disp_Char (Ctxt, '<');
Disp_Str (Ctxt, Name_Table.Image (Get_Identifier (Decl)));
Disp_Char (Ctxt, '>');
Close_Lit (Ctxt);
when Iir_Kind_Function_Declaration =>
Disp_Function_Name (Ctxt, Decl);
when Iir_Kind_Procedure_Declaration =>
Disp_Identifier (Ctxt, Decl);
when Iir_Kind_Physical_Subtype_Definition
| Iir_Kind_Enumeration_Type_Definition
| Iir_Kind_Physical_Type_Definition
| Iir_Kind_Record_Type_Definition
| Iir_Kind_Protected_Type_Declaration =>
-- Used for 'end' DECL_NAME.
Disp_Identifier (Ctxt, Get_Type_Declarator (Decl));
when Iir_Kind_Component_Instantiation_Statement =>
Disp_Ident (Ctxt, Get_Label (Decl));
when Iir_Kind_Design_Unit =>
Disp_Name_Of (Ctxt, Get_Library_Unit (Decl));
when Iir_Kind_Enumeration_Literal
| Iir_Kind_Simple_Name =>
Disp_Identifier (Ctxt, Decl);
when Iir_Kind_Block_Statement
| Iir_Kind_If_Generate_Statement
| Iir_Kind_Case_Generate_Statement
| Iir_Kind_For_Generate_Statement =>
Disp_Ident (Ctxt, Get_Label (Decl));
when Iir_Kind_Package_Body =>
Disp_Identifier (Ctxt, Decl);
when Iir_Kind_Procedure_Body
| Iir_Kind_Function_Body =>
Disp_Function_Name (Ctxt, Get_Subprogram_Specification (Decl));
when Iir_Kind_Protected_Type_Body =>
Disp_Identifier (Ctxt, Decl);
when others =>
Error_Kind ("disp_name_of", Decl);
end case;
end Disp_Name_Of;
procedure Disp_Name_Attribute
(Ctxt : in out Ctxt_Class; Attr : Iir; Name : Name_Id) is
begin
Print (Ctxt, Get_Prefix (Attr));
Disp_Token (Ctxt, Tok_Tick);
Disp_Ident (Ctxt, Name);
end Disp_Name_Attribute;
procedure Disp_Range (Ctxt : in out Ctxt_Class; Rng : Iir) is
begin
case Get_Kind (Rng) is
when Iir_Kind_Range_Expression =>
declare
Origin : constant Iir := Get_Range_Origin (Rng);
begin
if Dump_Origin_Flag and then Origin /= Null_Iir then
Print (Ctxt, Origin);
else
Print (Ctxt, Or_Else (Get_Left_Limit_Expr (Rng),
Get_Left_Limit (Rng)));
if Get_Direction (Rng) = Iir_To then
Disp_Token (Ctxt, Tok_To);
else
Disp_Token (Ctxt, Tok_Downto);
end if;
Print (Ctxt, Or_Else (Get_Right_Limit_Expr (Rng),
Get_Right_Limit (Rng)));
end if;
end;
when Iir_Kind_Range_Array_Attribute =>
Disp_Parametered_Attribute (Ctxt, Name_Range, Rng);
when Iir_Kind_Reverse_Range_Array_Attribute =>
Disp_Parametered_Attribute (Ctxt, Name_Reverse_Range, Rng);
when Iir_Kind_Simple_Name
| Iir_Kind_Selected_Name
| Iir_Kind_Attribute_Name
| Iir_Kind_Parenthesis_Name =>
Print (Ctxt, Rng);
when others =>
Disp_Subtype_Indication (Ctxt, Rng);
-- Disp_Name_Of (Get_Type_Declarator (Decl));
end case;
end Disp_Range;
procedure Disp_After_End
(Ctxt : in out Ctxt_Class;
Decl : Iir; Tok1 : Token_Type; Tok2 : Token_Type := Tok_Invalid) is
begin
if Get_End_Has_Reserved_Id (Decl) then
Disp_Token (Ctxt, Tok1);
if Tok2 /= Tok_Invalid then
Disp_Token (Ctxt, Tok2);
end if;
end if;
if Get_End_Has_Identifier (Decl) then
Disp_Name_Of (Ctxt, Decl);
end if;
end Disp_After_End;
procedure Disp_End_No_Close
(Ctxt : in out Ctxt_Class;
Decl : Iir; Tok1 : Token_Type; Tok2 : Token_Type := Tok_Invalid) is
begin
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_End);
Disp_After_End (Ctxt, Decl, Tok1, Tok2);
end Disp_End_No_Close;
procedure Disp_End
(Ctxt : in out Ctxt_Class;
Decl : Iir; Tok1 : Token_Type; Tok2 : Token_Type := Tok_Invalid) is
begin
Disp_End_No_Close (Ctxt, Decl, Tok1, Tok2);
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end Disp_End;
procedure Disp_End (Ctxt : in out Ctxt_Class; Tok1 : Token_Type) is
begin
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_End);
Disp_Token (Ctxt, Tok1);
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end Disp_End;
procedure Disp_End_Label_No_Close
(Ctxt : in out Ctxt_Class; Stmt : Iir; Tok : Token_Type) is
begin
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_End);
Disp_Token (Ctxt, Tok);
if Get_End_Has_Identifier (Stmt) then
Disp_Ident (Ctxt, Get_Label (Stmt));
end if;
Disp_Token (Ctxt, Tok_Semi_Colon);
end Disp_End_Label_No_Close;
procedure Disp_End_Label
(Ctxt : in out Ctxt_Class; Stmt : Iir; Tok : Token_Type) is
begin
Disp_End_Label_No_Close (Ctxt, Stmt, Tok);
Close_Hbox (Ctxt);
end Disp_End_Label;
procedure Disp_Use_Clause (Ctxt : in out Ctxt_Class; Clause: Iir_Use_Clause)
is
Name : Iir;
begin
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Use);
Name := Clause;
loop
Print (Ctxt, Get_Selected_Name (Name));
Name := Get_Use_Clause_Chain (Name);
exit when Name = Null_Iir;
Disp_Token (Ctxt, Tok_Comma);
end loop;
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end Disp_Use_Clause;
-- Disp the resolution function (if any) of type definition DEF.
procedure Disp_Resolution_Indication
(Ctxt : in out Ctxt_Class; Subtype_Def: Iir)
is
procedure Inner (Ind : Iir) is
begin
case Get_Kind (Ind) is
when Iir_Kinds_Denoting_Name =>
Print (Ctxt, Ind);
when Iir_Kind_Array_Element_Resolution =>
declare
Res : constant Iir := Get_Resolution_Indication (Ind);
begin
Disp_Token (Ctxt, Tok_Left_Paren);
if Is_Valid (Res) then
Inner (Res);
else
Print (Ctxt, Get_Resolution_Indication
(Get_Element_Subtype_Indication (Ind)));
end if;
Disp_Token (Ctxt, Tok_Right_Paren);
end;
when others =>
Error_Kind ("disp_resolution_indication", Ind);
end case;
end Inner;
Ind : Iir;
begin
case Get_Kind (Subtype_Def) is
when Iir_Kind_Access_Subtype_Definition =>
-- No resolution indication on access subtype.
return;
when others =>
Ind := Get_Resolution_Indication (Subtype_Def);
if Ind = Null_Iir then
-- No resolution indication.
return;
end if;
end case;
if False then
declare
Type_Mark : constant Iir := Get_Denoted_Type_Mark (Subtype_Def);
begin
if Get_Kind (Type_Mark) in Iir_Kinds_Subtype_Definition
and then Get_Resolution_Indication (Type_Mark) = Ind
then
-- Resolution indication was inherited from the type_mark.
return;
end if;
end;
end if;
Inner (Ind);
end Disp_Resolution_Indication;
procedure Disp_Element_Constraint
(Ctxt : in out Ctxt_Class; Def : Iir; Type_Mark : Iir);
procedure Disp_Array_Element_Constraint
(Ctxt : in out Ctxt_Class; Def : Iir; Type_Mark : Iir)
is
Def_El : constant Iir := Get_Element_Subtype (Def);
Tm_El : constant Iir := Get_Element_Subtype (Type_Mark);
Has_Index : constant Boolean := Get_Index_Constraint_Flag (Def);
Has_Own_Element_Subtype : constant Boolean := Def_El /= Tm_El;
Indexes : Iir_Flist;
Index : Iir;
begin
if not Has_Index and not Has_Own_Element_Subtype then
return;
end if;
if Get_Constraint_State (Type_Mark) /= Fully_Constrained
and then Has_Index
then
Indexes := Get_Index_Constraint_List (Def);
if Indexes = Null_Iir_Flist then
Indexes := Get_Index_Subtype_List (Def);
end if;
Disp_Token (Ctxt, Tok_Left_Paren);
for I in Flist_First .. Flist_Last (Indexes) loop
Index := Get_Nth_Element (Indexes, I);
if I /= 0 then
Disp_Token (Ctxt, Tok_Comma);
end if;
--Print (Get_Range_Constraint (Index));
Disp_Range (Ctxt, Index);
end loop;
Disp_Token (Ctxt, Tok_Right_Paren);
end if;
if Has_Own_Element_Subtype
and then Get_Kind (Def_El) in Iir_Kinds_Composite_Type_Definition
then
Disp_Element_Constraint (Ctxt, Def_El, Tm_El);
end if;
end Disp_Array_Element_Constraint;
procedure Disp_Record_Element_Constraint
(Ctxt : in out Ctxt_Class; Def : Iir)
is
El_List : constant Iir_Flist := Get_Elements_Declaration_List (Def);
El : Iir;
Has_El : Boolean := False;
begin
for I in Flist_First .. Flist_Last (El_List) loop
El := Get_Nth_Element (El_List, I);
if Get_Kind (El) = Iir_Kind_Record_Element_Constraint
and then Get_Parent (El) = Def
then
if Has_El then
Disp_Token (Ctxt, Tok_Comma);
else
Disp_Token (Ctxt, Tok_Left_Paren);
Has_El := True;
end if;
Disp_Name_Of (Ctxt, El);
Disp_Element_Constraint (Ctxt, Get_Type (El),
Get_Base_Type (Get_Type (El)));
end if;
end loop;
if Has_El then
Disp_Token (Ctxt, Tok_Right_Paren);
end if;
end Disp_Record_Element_Constraint;
procedure Disp_Element_Constraint
(Ctxt : in out Ctxt_Class; Def : Iir; Type_Mark : Iir) is
begin
case Get_Kind (Def) is
when Iir_Kind_Record_Subtype_Definition =>
Disp_Record_Element_Constraint (Ctxt, Def);
when Iir_Kind_Array_Subtype_Definition =>
Disp_Array_Element_Constraint (Ctxt, Def, Type_Mark);
when others =>
Error_Kind ("disp_element_constraint", Def);
end case;
end Disp_Element_Constraint;
procedure Disp_Tolerance_Opt (Ctxt : in out Ctxt_Class; N : Iir)
is
Tol : constant Iir := Get_Tolerance (N);
begin
if Tol /= Null_Iir then
Disp_Token (Ctxt, Tok_Tolerance);
Print (Ctxt, Tol);
end if;
end Disp_Tolerance_Opt;
procedure Disp_Subtype_Indication
(Ctxt : in out Ctxt_Class; Def : Iir; Full_Decl : Boolean := False)
is
Type_Mark : Iir;
Base_Type : Iir;
Decl : Iir;
begin
case Get_Kind (Def) is
when Iir_Kinds_Denoting_Name
| Iir_Kind_Subtype_Attribute
| Iir_Kind_Attribute_Name =>
Print (Ctxt, Def);
return;
when others =>
null;
end case;
Decl := Get_Type_Declarator (Def);
if not Full_Decl and then Decl /= Null_Iir then
Disp_Name_Of (Ctxt, Decl);
return;
end if;
-- Resolution function name.
Disp_Resolution_Indication (Ctxt, Def);
-- type mark.
Type_Mark := Get_Subtype_Type_Mark (Def);
if Type_Mark /= Null_Iir then
Print (Ctxt, Type_Mark);
Type_Mark := Get_Type (Type_Mark);
end if;
case Get_Kind (Def) is
when Iir_Kind_Array_Subtype_Definition =>
Disp_Array_Element_Constraint
(Ctxt, Def, Or_Else (Type_Mark, Def));
when Iir_Kind_Subtype_Definition =>
declare
Rng : constant Iir := Get_Range_Constraint (Def);
begin
if Rng /= Null_Iir then
Disp_Token (Ctxt, Tok_Range);
Print (Ctxt, Get_Range_Constraint (Def));
end if;
Disp_Tolerance_Opt (Ctxt, Def);
end;
when others =>
Base_Type := Get_Base_Type (Def);
case Get_Kind (Base_Type) is
when Iir_Kind_Integer_Type_Definition
| Iir_Kind_Enumeration_Type_Definition
| Iir_Kind_Floating_Type_Definition
| Iir_Kind_Physical_Type_Definition =>
if Type_Mark = Null_Iir
or else Get_Range_Constraint (Def)
/= Get_Range_Constraint (Type_Mark)
then
if Type_Mark /= Null_Iir then
Disp_Token (Ctxt, Tok_Range);
end if;
Print (Ctxt, Get_Range_Constraint (Def));
end if;
if Get_Kind (Base_Type) = Iir_Kind_Floating_Type_Definition
then
Disp_Tolerance_Opt (Ctxt, Def);
end if;
when Iir_Kind_Access_Type_Definition =>
declare
Des_Ind : constant Iir :=
Get_Designated_Subtype_Indication (Def);
begin
if Des_Ind /= Null_Iir then
pragma Assert (Get_Kind (Des_Ind)
= Iir_Kind_Array_Subtype_Definition);
Disp_Array_Element_Constraint
(Ctxt, Des_Ind, Get_Designated_Type (Base_Type));
end if;
end;
when Iir_Kind_Array_Type_Definition =>
Disp_Array_Element_Constraint
(Ctxt, Def, Or_Else (Type_Mark, Def));
when Iir_Kind_Record_Type_Definition =>
Disp_Record_Element_Constraint (Ctxt, Def);
when others =>
Error_Kind ("disp_subtype_indication", Base_Type);
end case;
end case;
end Disp_Subtype_Indication;
procedure Disp_Enumeration_Type_Definition
(Ctxt : in out Ctxt_Class; Def: Iir_Enumeration_Type_Definition)
is
Lits : constant Iir_Flist := Get_Enumeration_Literal_List (Def);
A_Lit: Iir;
begin
Disp_Token (Ctxt, Tok_Left_Paren);
for I in Flist_First .. Flist_Last (Lits) loop
A_Lit := Get_Nth_Element (Lits, I);
if I > 0 then
Disp_Token (Ctxt, Tok_Comma);
end if;
Disp_Name_Of (Ctxt, A_Lit);
end loop;
Disp_Token (Ctxt, Tok_Right_Paren);
end Disp_Enumeration_Type_Definition;
procedure Disp_Discrete_Range
(Ctxt : in out Ctxt_Class; Iterator: Iir) is
begin
if Get_Kind (Iterator) in Iir_Kinds_Subtype_Definition then
Disp_Subtype_Indication (Ctxt, Iterator);
else
Disp_Range (Ctxt, Iterator);
end if;
end Disp_Discrete_Range;
procedure Disp_Array_Type_Definition
(Ctxt : in out Ctxt_Class; Def: Iir_Array_Type_Definition)
is
Indexes : Iir_Flist;
Index: Iir;
begin
Indexes := Get_Index_Subtype_Definition_List (Def);
if Indexes = Null_Iir_Flist then
Indexes := Get_Index_Subtype_List (Def);
end if;
Disp_Token (Ctxt, Tok_Array, Tok_Left_Paren);
for I in Flist_First .. Flist_Last (Indexes) loop
Index := Get_Nth_Element (Indexes, I);
if I /= 0 then
Disp_Token (Ctxt, Tok_Comma);
end if;
Print (Ctxt, Index);
Disp_Token (Ctxt, Tok_Range, Tok_Box);
end loop;
Disp_Token (Ctxt, Tok_Right_Paren, Tok_Of);
Disp_Subtype_Indication (Ctxt, Get_Element_Subtype_Indication (Def));
end Disp_Array_Type_Definition;
procedure Disp_Physical_Literal (Ctxt : in out Ctxt_Class; Lit: Iir)
is
Len : constant Int32 := Get_Literal_Length (Lit);
Unit : Iir;
begin
case Iir_Kinds_Physical_Literal (Get_Kind (Lit)) is
when Iir_Kind_Physical_Int_Literal =>
if Len /= 0 then
Disp_Literal_From_Source (Ctxt, Lit, Tok_Integer);
else
Disp_Int64 (Ctxt, Get_Value (Lit));
end if;
when Iir_Kind_Physical_Fp_Literal =>
if Len /= 0 then
Disp_Literal_From_Source (Ctxt, Lit, Tok_Real);
else
Disp_Fp64 (Ctxt, Get_Fp_Value (Lit));
end if;
end case;
Unit := Get_Unit_Name (Lit);
if Is_Valid (Unit) then
-- No unit in range_constraint of physical type declaration.
Print (Ctxt, Unit);
end if;
end Disp_Physical_Literal;
procedure Disp_Record_Type_Definition
(Ctxt : in out Ctxt_Class; Def: Iir_Record_Type_Definition)
is
List : constant Iir_Flist := Get_Elements_Declaration_List (Def);
El: Iir_Element_Declaration;
El_Subtype : Iir;
Reindent : Boolean;
begin
Disp_Token (Ctxt, Tok_Record);
Close_Hbox (Ctxt);
Reindent := True;
Start_Vbox (Ctxt);
for I in Flist_First .. Flist_Last (List) loop
El := Get_Nth_Element (List, I);
if Reindent then
El_Subtype := Get_Subtype_Indication (El);
Start_Hbox (Ctxt);
end if;
Disp_Identifier (Ctxt, El);
if Get_Has_Identifier_List (El) then
Disp_Token (Ctxt, Tok_Comma);
Reindent := False;
else
Disp_Token (Ctxt, Tok_Colon);
Disp_Subtype_Indication (Ctxt, Or_Else (El_Subtype,
Get_Type (El)));
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
Reindent := True;
end if;
end loop;
Close_Vbox (Ctxt);
Disp_End_No_Close (Ctxt, Def, Tok_Record);
end Disp_Record_Type_Definition;
procedure Disp_Designator_List (Ctxt : in out Ctxt_Class; List: Iir_List)
is
El : Iir;
It : List_Iterator;
Is_First : Boolean;
begin
case List is
when Null_Iir_List =>
null;
when Iir_List_All =>
Disp_Token (Ctxt, Tok_All);
when others =>
It := List_Iterate (List);
Is_First := True;
while Is_Valid (It) loop
El := Get_Element (It);
if not Is_First then
Disp_Token (Ctxt, Tok_Comma);
else
Is_First := False;
end if;
Print (Ctxt, El);
Next (It);
end loop;
end case;
end Disp_Designator_List;
procedure Disp_Array_Subtype_Definition
(Ctxt : in out Ctxt_Class; Def : Iir; El_Def : Iir)
is
Indexes : Iir_Flist;
Index : Iir;
begin
Indexes := Get_Index_Constraint_List (Def);
if Indexes = Null_Iir_Flist then
Indexes := Get_Index_Subtype_List (Def);
end if;
Disp_Token (Ctxt, Tok_Array, Tok_Left_Paren);
for I in Flist_First .. Flist_Last (Indexes) loop
Index := Get_Nth_Element (Indexes, I);
if I /= 0 then
Disp_Token (Ctxt, Tok_Comma);
end if;
Disp_Discrete_Range (Ctxt, Index);
end loop;
Disp_Token (Ctxt, Tok_Right_Paren, Tok_Of);
Disp_Subtype_Indication (Ctxt, El_Def);
end Disp_Array_Subtype_Definition;
-- Display the full definition of a type, ie the sequence that can create
-- such a type.
procedure Disp_Type_Definition (Ctxt : in out Ctxt_Class; Def: Iir) is
begin
case Get_Kind (Def) is
when Iir_Kind_Enumeration_Type_Definition =>
Disp_Enumeration_Type_Definition (Ctxt, Def);
when Iir_Kind_Array_Type_Definition =>
Disp_Array_Type_Definition (Ctxt, Def);
when Iir_Kind_Array_Subtype_Definition =>
Disp_Array_Subtype_Definition
(Ctxt, Def, Get_Element_Subtype (Get_Base_Type (Def)));
when Iir_Kind_Record_Type_Definition =>
Disp_Record_Type_Definition (Ctxt, Def);
when Iir_Kind_Access_Type_Definition =>
Disp_Token (Ctxt, Tok_Access);
Disp_Subtype_Indication
(Ctxt, Get_Designated_Subtype_Indication (Def));
when Iir_Kind_File_Type_Definition =>
Disp_Token (Ctxt, Tok_File, Tok_Of);
Disp_Subtype_Indication (Ctxt, Get_File_Type_Mark (Def));
when Iir_Kind_Protected_Type_Declaration =>
Disp_Token (Ctxt, Tok_Protected);
Close_Hbox (Ctxt);
Start_Vbox (Ctxt);
Disp_Declaration_Chain (Ctxt, Def);
Close_Vbox (Ctxt);
Disp_End_No_Close (Ctxt, Def, Tok_Protected);
when Iir_Kind_Attribute_Name
| Iir_Kind_Range_Expression
| Iir_Kind_Parenthesis_Name =>
Disp_Token (Ctxt, Tok_Range);
Print (Ctxt, Def);
when others =>
Error_Kind ("disp_type_definition", Def);
end case;
end Disp_Type_Definition;
procedure Disp_Type_Declaration
(Ctxt : in out Ctxt_Class; Decl: Iir_Type_Declaration)
is
Def : constant Iir := Get_Type_Definition (Decl);
begin
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Type);
Disp_Name_Of (Ctxt, Decl);
if Def /= Null_Iir
and then Get_Kind (Def) /= Iir_Kind_Incomplete_Type_Definition
then
Disp_Token (Ctxt, Tok_Is);
Disp_Type_Definition (Ctxt, Def);
end if;
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end Disp_Type_Declaration;
procedure Disp_Physical_Type_Definition
(Ctxt : in out Ctxt_Class; Decl : Iir)
is
Def : constant Iir := Get_Type_Definition (Decl);
St : constant Iir := Get_Subtype_Definition (Decl);
Unit : Iir_Unit_Declaration;
Rng : Iir;
begin
Disp_Token (Ctxt, Tok_Range);
Rng := Or_Else (St, Def);
Print (Ctxt, Get_Range_Constraint (Rng));
Disp_Token (Ctxt, Tok_Units);
Close_Hbox (Ctxt);
Start_Vbox (Ctxt);
Unit := Get_Unit_Chain (Def);
Start_Hbox (Ctxt);
Disp_Identifier (Ctxt, Unit);
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
Unit := Get_Chain (Unit);
while Unit /= Null_Iir loop
Start_Hbox (Ctxt);
Disp_Identifier (Ctxt, Unit);
Disp_Token (Ctxt, Tok_Equal);
Print (Ctxt, Get_Physical_Literal (Unit));
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
Unit := Get_Chain (Unit);
end loop;
Close_Vbox (Ctxt);
Disp_End_No_Close (Ctxt, Def, Tok_Units);
end Disp_Physical_Type_Definition;
procedure Disp_Anonymous_Type_Declaration
(Ctxt : in out Ctxt_Class; Decl: Iir_Anonymous_Type_Declaration)
is
Def : constant Iir := Get_Type_Definition (Decl);
begin
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Type);
Disp_Identifier (Ctxt, Decl);
Disp_Token (Ctxt, Tok_Is);
case Get_Kind (Def) is
when Iir_Kind_Array_Type_Definition =>
Disp_Array_Subtype_Definition
(Ctxt, Get_Subtype_Definition (Decl),
Get_Element_Subtype_Indication (Def));
when Iir_Kind_Array_Subtype_Definition =>
Disp_Array_Subtype_Definition
(Ctxt, Def, Get_Array_Element_Constraint (Def));
when Iir_Kind_Physical_Type_Definition =>
Disp_Physical_Type_Definition (Ctxt, Decl);
when Iir_Kind_Floating_Type_Definition
| Iir_Kind_Integer_Type_Definition =>
declare
St : constant Iir := Get_Subtype_Definition (Decl);
begin
Disp_Token (Ctxt, Tok_Range);
Print (Ctxt, Get_Range_Constraint (St));
end;
when others =>
Disp_Type_Definition (Ctxt, Def);
end case;
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end Disp_Anonymous_Type_Declaration;
procedure Disp_Subtype_Declaration
(Ctxt : in out Ctxt_Class; Decl: Iir_Subtype_Declaration)
is
Def : constant Iir := Get_Type (Decl);
begin
-- If the subtype declaration was implicit (added because of a type
-- declaration), put it as a comment.
if Def /= Null_Iir
and then
(Get_Identifier (Decl)
= Get_Identifier (Get_Type_Declarator (Get_Base_Type (Def))))
then
if Flag_Implicit then
OOB.Put ("-- ");
else
return;
end if;
end if;
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Subtype);
Disp_Name_Of (Ctxt, Decl);
Disp_Token (Ctxt, Tok_Is);
Disp_Subtype_Indication
(Ctxt, Or_Else (Get_Subtype_Indication (Decl), Get_Type (Decl)), True);
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end Disp_Subtype_Declaration;
procedure Disp_Type (Ctxt : in out Ctxt_Class; A_Type: Iir)
is
Decl: Iir;
begin
Decl := Get_Type_Declarator (A_Type);
if Decl /= Null_Iir then
Disp_Name_Of (Ctxt, Decl);
else
case Get_Kind (A_Type) is
when Iir_Kind_Enumeration_Type_Definition
| Iir_Kind_Integer_Type_Definition =>
raise Program_Error;
when Iir_Kind_Integer_Subtype_Definition
| Iir_Kind_Enumeration_Subtype_Definition
| Iir_Kind_Access_Subtype_Definition =>
Disp_Subtype_Indication (Ctxt, A_Type);
when Iir_Kind_Array_Subtype_Definition =>
Disp_Subtype_Indication (Ctxt, A_Type);
when others =>
Error_Kind ("disp_type", A_Type);
end case;
end if;
end Disp_Type;
procedure Disp_Nature_Definition (Ctxt : in out Ctxt_Class; Def : Iir) is
begin
case Get_Kind (Def) is
when Iir_Kind_Scalar_Nature_Definition =>
Disp_Subtype_Indication (Ctxt, Get_Across_Type (Def));
Disp_Token (Ctxt, Tok_Across);
Disp_Subtype_Indication (Ctxt, Get_Through_Type (Def));
Disp_Token (Ctxt, Tok_Through);
Disp_Name_Of (Ctxt, Get_Reference (Def));
Disp_Token (Ctxt, Tok_Reference);
when others =>
Error_Kind ("disp_nature_definition", Def);
end case;
end Disp_Nature_Definition;
procedure Disp_Nature_Declaration (Ctxt : in out Ctxt_Class; Decl : Iir) is
begin
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Nature);
Disp_Name_Of (Ctxt, Decl);
Disp_Token (Ctxt, Tok_Is);
Disp_Nature_Definition (Ctxt, Get_Nature (Decl));
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end Disp_Nature_Declaration;
procedure Disp_Subnature_Indication (Ctxt : in out Ctxt_Class; Ind : Iir)
is
Decl: Iir;
begin
case Get_Kind (Ind) is
when Iir_Kinds_Denoting_Name
| Iir_Kind_Subtype_Attribute
| Iir_Kind_Attribute_Name =>
Print (Ctxt, Ind);
return;
when others =>
null;
end case;
Decl := Get_Nature_Declarator (Ind);
if Decl /= Null_Iir then
Disp_Name_Of (Ctxt, Decl);
else
Error_Kind ("disp_subnature_indication", Ind);
end if;
end Disp_Subnature_Indication;
procedure Disp_Mode (Ctxt : in out Ctxt_Class; Mode: Iir_Mode) is
begin
case Mode is
when Iir_In_Mode =>
Disp_Token (Ctxt, Tok_In);
when Iir_Out_Mode =>
Disp_Token (Ctxt, Tok_Out);
when Iir_Inout_Mode =>
Disp_Token (Ctxt, Tok_Inout);
when Iir_Buffer_Mode =>
Disp_Token (Ctxt, Tok_Buffer);
when Iir_Linkage_Mode =>
Disp_Token (Ctxt, Tok_Linkage);
when Iir_Unknown_Mode =>
null;
end case;
end Disp_Mode;
procedure Disp_Signal_Kind (Ctxt : in out Ctxt_Class; Sig : Iir) is
begin
if Get_Guarded_Signal_Flag (Sig) then
case Get_Signal_Kind (Sig) is
when Iir_Register_Kind =>
Disp_Token (Ctxt, Tok_Register);
when Iir_Bus_Kind =>
Disp_Token (Ctxt, Tok_Bus);
end case;
end if;
end Disp_Signal_Kind;
procedure Disp_Interface_Class (Ctxt : in out Ctxt_Class; Inter: Iir) is
begin
if Get_Has_Class (Inter) then
case Get_Kind (Inter) is
when Iir_Kind_Interface_Signal_Declaration =>
Disp_Token (Ctxt, Tok_Signal);
when Iir_Kind_Interface_Variable_Declaration =>
Disp_Token (Ctxt, Tok_Variable);
when Iir_Kind_Interface_Constant_Declaration =>
Disp_Token (Ctxt, Tok_Constant);
when Iir_Kind_Interface_File_Declaration =>
Disp_Token (Ctxt, Tok_File);
when others =>
Error_Kind ("disp_interface_class", Inter);
end case;
end if;
end Disp_Interface_Class;
procedure Disp_Interface_Mode_And_Type
(Ctxt : in out Ctxt_Class; Inter: Iir)
is
Default: constant Iir := Get_Default_Value (Inter);
Ind : constant Iir := Get_Subtype_Indication (Inter);
begin
Disp_Token (Ctxt, Tok_Colon);
if Get_Has_Mode (Inter) then
Disp_Mode (Ctxt, Get_Mode (Inter));
end if;
if Ind = Null_Iir then
-- For implicit subprogram
Disp_Type (Ctxt, Get_Type (Inter));
else
Disp_Subtype_Indication (Ctxt, Get_Subtype_Indication (Inter));
end if;
if Get_Kind (Inter) = Iir_Kind_Interface_Signal_Declaration then
Disp_Signal_Kind (Ctxt, Inter);
end if;
if Default /= Null_Iir then
Disp_Token (Ctxt, Tok_Assign);
Print (Ctxt, Default);
end if;
end Disp_Interface_Mode_And_Type;
-- Disp interfaces, followed by END_STR (';' in general).
procedure Disp_Interface_Chain (Ctxt : in out Ctxt_Class; Chain: Iir)
is
Inter: Iir;
Next_Inter : Iir;
First_Inter : Iir;
begin
if Chain = Null_Iir then
return;
end if;
Disp_Token (Ctxt, Tok_Left_Paren);
Inter := Chain;
loop
Next_Inter := Get_Chain (Inter);
First_Inter := Inter;
case Get_Kind (Inter) is
when Iir_Kinds_Interface_Object_Declaration =>
Disp_Interface_Class (Ctxt, Inter);
Disp_Name_Of (Ctxt, Inter);
while Get_Has_Identifier_List (Inter) loop
Disp_Token (Ctxt, Tok_Comma);
Inter := Next_Inter;
Next_Inter := Get_Chain (Inter);
Disp_Name_Of (Ctxt, Inter);
end loop;
Disp_Interface_Mode_And_Type (Ctxt, First_Inter);
when Iir_Kind_Interface_Package_Declaration =>
Disp_Token (Ctxt, Tok_Package);
Disp_Identifier (Ctxt, Inter);
Disp_Token (Ctxt, Tok_Is, Tok_New);
Print (Ctxt, Get_Uninstantiated_Package_Name (Inter));
Disp_Token (Ctxt, Tok_Generic, Tok_Map);
declare
Assoc_Chain : constant Iir :=
Get_Generic_Map_Aspect_Chain (Inter);
begin
if Assoc_Chain = Null_Iir then
Disp_Token (Ctxt, Tok_Left_Paren);
Disp_Token (Ctxt, Tok_Box);
Disp_Token (Ctxt, Tok_Right_Paren);
else
Disp_Association_Chain (Ctxt, Assoc_Chain);
end if;
end;
when Iir_Kind_Interface_Type_Declaration =>
Disp_Token (Ctxt, Tok_Type);
Disp_Identifier (Ctxt, Inter);
when Iir_Kinds_Interface_Subprogram_Declaration =>
Disp_Subprogram_Declaration (Ctxt, Inter);
when others =>
Error_Kind ("disp_interface_chain", Inter);
end case;
exit when Next_Inter = Null_Iir;
Disp_Token (Ctxt, Tok_Semi_Colon);
Inter := Next_Inter;
Next_Inter := Get_Chain (Inter);
end loop;
Disp_Token (Ctxt, Tok_Right_Paren);
end Disp_Interface_Chain;
procedure Disp_Ports (Ctxt : in out Ctxt_Class; Parent : Iir)
is
Ports : constant Iir := Get_Port_Chain (Parent);
begin
if Ports /= Null_Iir then
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Port);
Disp_Interface_Chain (Ctxt, Ports);
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end if;
end Disp_Ports;
procedure Disp_Generics (Ctxt : in out Ctxt_Class; Parent : Iir)
is
Generics : constant Iir := Get_Generic_Chain (Parent);
begin
if Generics /= Null_Iir then
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Generic);
Disp_Interface_Chain (Ctxt, Generics);
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end if;
end Disp_Generics;
procedure Disp_Entity_Declaration
(Ctxt : in out Ctxt_Class; Decl: Iir_Entity_Declaration) is
begin
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Entity);
Disp_Name_Of (Ctxt, Decl);
Disp_Token (Ctxt, Tok_Is);
Close_Hbox (Ctxt);
Start_Vbox (Ctxt);
Disp_Generics (Ctxt, Decl);
Disp_Ports (Ctxt, Decl);
Disp_Declaration_Chain (Ctxt, Decl);
Close_Vbox (Ctxt);
if Get_Has_Begin (Decl) then
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Begin);
Close_Hbox (Ctxt);
end if;
if Get_Concurrent_Statement_Chain (Decl) /= Null_Iir then
Start_Vbox (Ctxt);
Disp_Concurrent_Statement_Chain (Ctxt, Decl);
Close_Vbox (Ctxt);
end if;
Disp_End (Ctxt, Decl, Tok_Entity);
end Disp_Entity_Declaration;
procedure Disp_Component_Declaration
(Ctxt : in out Ctxt_Class; Decl: Iir_Component_Declaration) is
begin
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Component);
Disp_Name_Of (Ctxt, Decl);
if Get_Has_Is (Decl) then
Disp_Token (Ctxt, Tok_Is);
end if;
Close_Hbox (Ctxt);
Start_Vbox (Ctxt);
if Get_Generic_Chain (Decl) /= Null_Iir then
Disp_Generics (Ctxt, Decl);
end if;
if Get_Port_Chain (Decl) /= Null_Iir then
Disp_Ports (Ctxt, Decl);
end if;
Close_Vbox (Ctxt);
Disp_End (Ctxt, Decl, Tok_Component);
end Disp_Component_Declaration;
procedure Disp_Concurrent_Statement_Chain
(Ctxt : in out Ctxt_Class; Parent : Iir)
is
El: Iir;
begin
El := Get_Concurrent_Statement_Chain (Parent);
while El /= Null_Iir loop
Disp_Concurrent_Statement (Ctxt, El);
El := Get_Chain (El);
end loop;
end Disp_Concurrent_Statement_Chain;
procedure Disp_Architecture_Body
(Ctxt : in out Ctxt_Class; Arch: Iir_Architecture_Body) is
begin
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Architecture);
Disp_Name_Of (Ctxt, Arch);
Disp_Token (Ctxt, Tok_Of);
Print (Ctxt, Get_Entity_Name (Arch));
Close_Hbox (Ctxt);
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Is);
Close_Hbox (Ctxt);
Start_Vbox (Ctxt);
Disp_Declaration_Chain (Ctxt, Arch);
Close_Vbox (Ctxt);
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Begin);
Close_Hbox (Ctxt);
Start_Vbox (Ctxt);
Disp_Concurrent_Statement_Chain (Ctxt, Arch);
Close_Vbox (Ctxt);
Disp_End (Ctxt, Arch, Tok_Architecture);
end Disp_Architecture_Body;
procedure Disp_Signature (Ctxt : in out Ctxt_Class; Sig : Iir)
is
Prefix : constant Iir := Get_Signature_Prefix (Sig);
List : constant Iir_Flist := Get_Type_Marks_List (Sig);
El : Iir;
begin
if Is_Valid (Prefix) then
-- Only in alias.
Print (Ctxt, Prefix);
end if;
Disp_Token (Ctxt, Tok_Left_Bracket);
if List /= Null_Iir_Flist then
for I in Flist_First .. Flist_Last (List) loop
El := Get_Nth_Element (List, I);
if I /= 0 then
Disp_Token (Ctxt, Tok_Comma);
end if;
Print (Ctxt, El);
end loop;
end if;
El := Get_Return_Type_Mark (Sig);
if El /= Null_Iir then
Disp_Token (Ctxt, Tok_Return);
Print (Ctxt, El);
end if;
Disp_Token (Ctxt, Tok_Right_Bracket);
end Disp_Signature;
procedure Disp_Object_Alias_Declaration
(Ctxt : in out Ctxt_Class; Decl: Iir_Object_Alias_Declaration)
is
St_Ind : constant Iir := Get_Subtype_Indication (Decl);
Atype : constant Iir := Get_Type (Decl);
begin
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Alias);
Disp_Function_Name (Ctxt, Decl);
if St_Ind /= Null_Iir or else Atype /= Null_Iir then
Disp_Token (Ctxt, Tok_Colon);
Disp_Subtype_Indication (Ctxt, Or_Else (St_Ind, Atype));
end if;
Disp_Token (Ctxt, Tok_Is);
Print (Ctxt, Get_Name (Decl));
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end Disp_Object_Alias_Declaration;
procedure Disp_Non_Object_Alias_Declaration
(Ctxt : in out Ctxt_Class; Decl: Iir_Non_Object_Alias_Declaration)
is
Sig : constant Iir := Get_Alias_Signature (Decl);
begin
if Get_Implicit_Alias_Flag (Decl) then
if Flag_Implicit then
OOB.Put ("-- ");
else
return;
end if;
end if;
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Alias);
Disp_Function_Name (Ctxt, Decl);
Disp_Token (Ctxt, Tok_Is);
Print (Ctxt, Get_Name (Decl));
if Sig /= Null_Iir then
Disp_Signature (Ctxt, Sig);
end if;
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end Disp_Non_Object_Alias_Declaration;
procedure Disp_File_Declaration
(Ctxt : in out Ctxt_Class; Decl: Iir_File_Declaration)
is
Next_Decl : Iir;
Expr: Iir;
begin
Disp_Token (Ctxt, Tok_File);
Disp_Name_Of (Ctxt, Decl);
Next_Decl := Decl;
while Get_Has_Identifier_List (Next_Decl) loop
Next_Decl := Get_Chain (Next_Decl);
Disp_Token (Ctxt, Tok_Comma);
Disp_Name_Of (Ctxt, Next_Decl);
end loop;
Disp_Token (Ctxt, Tok_Colon);
Disp_Subtype_Indication (Ctxt, Or_Else (Get_Subtype_Indication (Decl),
Get_Type (Decl)));
if Vhdl_Std = Vhdl_87 then
Disp_Token (Ctxt, Tok_Is);
if Get_Has_Mode (Decl) then
Disp_Mode (Ctxt, Get_Mode (Decl));
end if;
Print (Ctxt, Get_File_Logical_Name (Decl));
else
Expr := Get_File_Open_Kind (Decl);
if Expr /= Null_Iir then
Disp_Token (Ctxt, Tok_Open);
Print (Ctxt, Expr);
end if;
Expr := Get_File_Logical_Name (Decl);
if Expr /= Null_Iir then
Disp_Token (Ctxt, Tok_Is);
Print (Ctxt, Expr);
end if;
end if;
Disp_Token (Ctxt, Tok_Semi_Colon);
end Disp_File_Declaration;
procedure Disp_Quantity_Declaration (Ctxt : in out Ctxt_Class; Decl: Iir)
is
Expr : Iir;
Term : Iir;
begin
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Quantity);
Disp_Name_Of (Ctxt, Decl);
case Get_Kind (Decl) is
when Iir_Kinds_Branch_Quantity_Declaration =>
Disp_Tolerance_Opt (Ctxt, Decl);
Expr := Get_Default_Value (Decl);
if Expr /= Null_Iir then
Disp_Token (Ctxt, Tok_Assign);
Print (Ctxt, Expr);
end if;
if Get_Kind (Decl) = Iir_Kind_Across_Quantity_Declaration then
Disp_Token (Ctxt, Tok_Across);
else
Disp_Token (Ctxt, Tok_Through);
end if;
Disp_Name_Of (Ctxt, Get_Plus_Terminal (Decl));
Term := Get_Minus_Terminal (Decl);
if Term /= Null_Iir then
Disp_Token (Ctxt, Tok_To);
Disp_Name_Of (Ctxt, Term);
end if;
when Iir_Kind_Free_Quantity_Declaration =>
Disp_Token (Ctxt, Tok_Colon);
Disp_Subtype_Indication
(Ctxt, Or_Else (Get_Subtype_Indication (Decl), Get_Type (Decl)));
Expr := Get_Default_Value (Decl);
if Expr /= Null_Iir then
Disp_Token (Ctxt, Tok_Assign);
Print (Ctxt, Expr);
end if;
when others =>
raise Program_Error;
end case;
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end Disp_Quantity_Declaration;
procedure Disp_Terminal_Declaration (Ctxt : in out Ctxt_Class; Decl: Iir)
is
Ndecl : Iir;
begin
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Terminal);
Disp_Name_Of (Ctxt, Decl);
Ndecl := Decl;
while Get_Has_Identifier_List (Ndecl) loop
Disp_Token (Ctxt, Tok_Comma);
Ndecl := Get_Chain (Ndecl);
Disp_Name_Of (Ctxt, Ndecl);
end loop;
Disp_Token (Ctxt, Tok_Colon);
Disp_Subnature_Indication (Ctxt, Get_Nature (Decl));
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end Disp_Terminal_Declaration;
procedure Disp_Object_Declaration (Ctxt : in out Ctxt_Class; Decl: Iir)
is
Next_Decl : Iir;
begin
Start_Hbox (Ctxt);
case Get_Kind (Decl) is
when Iir_Kind_Variable_Declaration =>
if Get_Shared_Flag (Decl) then
Disp_Token (Ctxt, Tok_Shared);
end if;
Disp_Token (Ctxt, Tok_Variable);
when Iir_Kind_Constant_Declaration =>
Disp_Token (Ctxt, Tok_Constant);
when Iir_Kind_Signal_Declaration =>
Disp_Token (Ctxt, Tok_Signal);
when Iir_Kind_File_Declaration =>
Disp_File_Declaration (Ctxt, Decl);
Close_Hbox (Ctxt);
return;
when others =>
raise Internal_Error;
end case;
Disp_Name_Of (Ctxt, Decl);
Next_Decl := Decl;
while Get_Has_Identifier_List (Next_Decl) loop
Next_Decl := Get_Chain (Next_Decl);
Disp_Token (Ctxt, Tok_Comma);
Disp_Name_Of (Ctxt, Next_Decl);
end loop;
Disp_Token (Ctxt, Tok_Colon);
Disp_Subtype_Indication (Ctxt, Get_Subtype_Indication (Decl));
if Get_Kind (Decl) = Iir_Kind_Signal_Declaration then
Disp_Signal_Kind (Ctxt, Decl);
end if;
if Get_Default_Value (Decl) /= Null_Iir then
Disp_Token (Ctxt, Tok_Assign);
Print (Ctxt, Get_Default_Value (Decl));
end if;
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end Disp_Object_Declaration;
procedure Disp_Pure (Ctxt : in out Ctxt_Class; Subprg : Iir) is
begin
if Get_Pure_Flag (Subprg) then
Disp_Token (Ctxt, Tok_Pure);
else
Disp_Token (Ctxt, Tok_Impure);
end if;
end Disp_Pure;
procedure Disp_Subprogram_Declaration
(Ctxt : in out Ctxt_Class; Subprg: Iir; Implicit : Boolean := False)
is
Inter : Iir;
begin
if Implicit then
OOB.Put ("-- ");
end if;
case Get_Kind (Subprg) is
when Iir_Kind_Function_Declaration
| Iir_Kind_Interface_Function_Declaration =>
if Get_Has_Pure (Subprg) then
Disp_Pure (Ctxt, Subprg);
end if;
Disp_Token (Ctxt, Tok_Function);
when Iir_Kind_Procedure_Declaration
| Iir_Kind_Interface_Procedure_Declaration =>
Disp_Token (Ctxt, Tok_Procedure);
when others =>
raise Internal_Error;
end case;
Disp_Function_Name (Ctxt, Subprg);
if Get_Has_Parameter (Subprg) then
Disp_Token (Ctxt, Tok_Parameter);
end if;
Inter := Get_Interface_Declaration_Chain (Subprg);
Disp_Interface_Chain (Ctxt, Inter);
case Get_Kind (Subprg) is
when Iir_Kind_Function_Declaration
| Iir_Kind_Interface_Function_Declaration =>
Disp_Token (Ctxt, Tok_Return);
Disp_Subtype_Indication
(Ctxt, Or_Else (Get_Return_Type_Mark (Subprg),
Get_Return_Type (Subprg)));
when Iir_Kind_Procedure_Declaration
| Iir_Kind_Interface_Procedure_Declaration =>
null;
when others =>
raise Internal_Error;
end case;
end Disp_Subprogram_Declaration;
procedure Disp_Subprogram_Body (Ctxt : in out Ctxt_Class; Subprg : Iir) is
begin
Start_Vbox (Ctxt);
Disp_Declaration_Chain (Ctxt, Subprg);
Close_Vbox (Ctxt);
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Begin);
Close_Hbox (Ctxt);
Start_Vbox (Ctxt);
Disp_Sequential_Statements
(Ctxt, Get_Sequential_Statement_Chain (Subprg));
Close_Vbox (Ctxt);
if Get_Kind (Subprg) = Iir_Kind_Function_Body then
Disp_End (Ctxt, Subprg, Tok_Function);
else
Disp_End (Ctxt, Subprg, Tok_Procedure);
end if;
end Disp_Subprogram_Body;
procedure Disp_Instantiation_List
(Ctxt : in out Ctxt_Class; Insts: Iir_Flist)
is
El : Iir;
begin
case Insts is
when Iir_Flist_All =>
Disp_Token (Ctxt, Tok_All);
when Iir_Flist_Others =>
Disp_Token (Ctxt, Tok_Others);
when others =>
for I in Flist_First .. Flist_Last (Insts) loop
El := Get_Nth_Element (Insts, I);
if I /= Flist_First then
Disp_Token (Ctxt, Tok_Comma);
end if;
Print (Ctxt, El);
end loop;
end case;
end Disp_Instantiation_List;
procedure Disp_Configuration_Specification
(Ctxt : in out Ctxt_Class; Spec : Iir_Configuration_Specification) is
begin
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_For);
Disp_Instantiation_List (Ctxt, Get_Instantiation_List (Spec));
Disp_Token (Ctxt, Tok_Colon);
Print (Ctxt, Get_Component_Name (Spec));
Disp_Binding_Indication (Ctxt, Get_Binding_Indication (Spec));
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end Disp_Configuration_Specification;
procedure Disp_Disconnection_Specification
(Ctxt : in out Ctxt_Class; Dis : Iir_Disconnection_Specification) is
begin
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Disconnect);
Disp_Instantiation_List (Ctxt, Get_Signal_List (Dis));
Disp_Token (Ctxt, Tok_Colon);
Print (Ctxt, Get_Type_Mark (Dis));
Disp_Token (Ctxt, Tok_After);
Print (Ctxt, Get_Expression (Dis));
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end Disp_Disconnection_Specification;
procedure Disp_Attribute_Declaration
(Ctxt : in out Ctxt_Class; Attr : Iir_Attribute_Declaration) is
begin
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Attribute);
Disp_Identifier (Ctxt, Attr);
Disp_Token (Ctxt, Tok_Colon);
Print (Ctxt, Get_Type_Mark (Attr));
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end Disp_Attribute_Declaration;
procedure Disp_Attribute_Value (Ctxt : in out Ctxt_Class; Attr : Iir) is
begin
Disp_Name_Of (Ctxt, Get_Designated_Entity (Attr));
Disp_Token (Ctxt, Tok_Tick);
Disp_Identifier
(Ctxt, Get_Attribute_Designator (Get_Attribute_Specification (Attr)));
end Disp_Attribute_Value;
procedure Disp_Attribute_Name (Ctxt : in out Ctxt_Class; Attr : Iir)
is
Sig : constant Iir := Get_Attribute_Signature (Attr);
begin
Print (Ctxt, Get_Prefix (Attr));
if Sig /= Null_Iir then
Disp_Signature (Ctxt, Sig);
end if;
Disp_Token (Ctxt, Tok_Tick);
Disp_Ident (Ctxt, Get_Identifier (Attr));
end Disp_Attribute_Name;
procedure Disp_Entity_Kind (Ctxt : in out Ctxt_Class; Tok : Token_Type) is
begin
Disp_Token (Ctxt, Tok);
end Disp_Entity_Kind;
procedure Disp_Entity_Name_List (Ctxt : in out Ctxt_Class; List : Iir_Flist)
is
El : Iir;
begin
case List is
when Iir_Flist_All =>
Disp_Token (Ctxt, Tok_All);
when Iir_Flist_Others =>
Disp_Token (Ctxt, Tok_Others);
when others =>
for I in Flist_First .. Flist_Last (List) loop
El := Get_Nth_Element (List, I);
if I /= Flist_First then
Disp_Token (Ctxt, Tok_Comma);
end if;
Print (Ctxt, El);
end loop;
end case;
end Disp_Entity_Name_List;
procedure Disp_Attribute_Specification
(Ctxt : in out Ctxt_Class; Attr : Iir_Attribute_Specification) is
begin
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Attribute);
Disp_Identifier (Ctxt, Get_Attribute_Designator (Attr));
Disp_Token (Ctxt, Tok_Of);
Disp_Entity_Name_List (Ctxt, Get_Entity_Name_List (Attr));
Disp_Token (Ctxt, Tok_Colon);
Disp_Entity_Kind (Ctxt, Get_Entity_Class (Attr));
Disp_Token (Ctxt, Tok_Is);
Print (Ctxt, Get_Expression (Attr));
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end Disp_Attribute_Specification;
procedure Disp_Protected_Type_Body
(Ctxt : in out Ctxt_Class; Bod : Iir_Protected_Type_Body) is
begin
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Type);
Disp_Identifier (Ctxt, Bod);
Disp_Token (Ctxt, Tok_Is);
Disp_Token (Ctxt, Tok_Protected, Tok_Body);
Close_Hbox (Ctxt);
Start_Vbox (Ctxt);
Disp_Declaration_Chain (Ctxt, Bod);
Close_Vbox (Ctxt);
Disp_End (Ctxt, Bod, Tok_Protected, Tok_Body);
end Disp_Protected_Type_Body;
procedure Disp_Group_Template_Declaration
(Ctxt : in out Ctxt_Class; Decl : Iir)
is
Ent : Iir;
begin
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Group);
Disp_Identifier (Ctxt, Decl);
Disp_Token (Ctxt, Tok_Is, Tok_Left_Paren);
Ent := Get_Entity_Class_Entry_Chain (Decl);
loop
Disp_Entity_Kind (Ctxt, Get_Entity_Class (Ent));
Ent := Get_Chain (Ent);
exit when Ent = Null_Iir;
if Get_Entity_Class (Ent) = Tok_Box then
Disp_Token (Ctxt, Tok_Box);
exit;
else
Disp_Token (Ctxt, Tok_Comma);
end if;
end loop;
Disp_Token (Ctxt, Tok_Right_Paren, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end Disp_Group_Template_Declaration;
procedure Disp_Group_Declaration (Ctxt : in out Ctxt_Class; Decl : Iir)
is
List : Iir_Flist;
El : Iir;
begin
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Group);
Disp_Identifier (Ctxt, Decl);
Disp_Token (Ctxt, Tok_Colon);
Print (Ctxt, Get_Group_Template_Name (Decl));
Disp_Token (Ctxt, Tok_Left_Paren);
List := Get_Group_Constituent_List (Decl);
for I in Flist_First .. Flist_Last (List) loop
El := Get_Nth_Element (List, I);
if I /= 0 then
Disp_Token (Ctxt, Tok_Comma);
end if;
Disp_Name_Of (Ctxt, El);
end loop;
Disp_Token (Ctxt, Tok_Right_Paren, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end Disp_Group_Declaration;
procedure Print_Expr (Ctxt : in out Ctxt_Class;
N : PSL_Node;
Parent_Prio : Priority := Prio_Lowest)
is
Prio : Priority;
begin
if N = Null_PSL_Node then
OOB.Put (".");
return;
end if;
Prio := PSL.Prints.Get_Priority (N);
if Prio < Parent_Prio then
Disp_Token (Ctxt, Tok_Left_Paren);
end if;
case Get_Kind (N) is
when N_Number =>
declare
Str : constant String := Uns32'Image (Get_Value (N));
begin
Start_Lit (Ctxt, Tok_Integer);
Disp_Str (Ctxt, Str);
Close_Lit (Ctxt);
end;
when N_Name_Decl =>
Disp_Ident (Ctxt, Get_Identifier (N));
when N_HDL_Expr =>
Print (Ctxt, Vhdl_Node (PSL.Nodes.Get_HDL_Node (N)));
-- FIXME: this is true only when using the scanner.
-- Print_Expr (Node (Get_HDL_Node (N)));
when N_True =>
Start_Lit (Ctxt, Tok_Identifier);
Disp_Str (Ctxt, "TRUE");
Close_Lit (Ctxt);
when N_False =>
Start_Lit (Ctxt, Tok_Identifier);
Disp_Str (Ctxt, "FALSE");
Close_Lit (Ctxt);
when N_EOS =>
Start_Lit (Ctxt, Tok_Identifier);
Disp_Str (Ctxt, "EOS");
Close_Lit (Ctxt);
when N_Not_Bool =>
Disp_Token (Ctxt, Tok_Exclam_Mark);
Print_Expr (Ctxt, Get_Boolean (N), Prio);
when N_And_Bool =>
Print_Expr (Ctxt, Get_Left (N), Prio);
Disp_Token (Ctxt, Tok_And);
Print_Expr (Ctxt, Get_Right (N), Prio);
when N_Or_Bool =>
Print_Expr (Ctxt, Get_Left (N), Prio);
Disp_Token (Ctxt, Tok_Or);
Print_Expr (Ctxt, Get_Right (N), Prio);
when N_Imp_Bool =>
Print_Expr (Ctxt, Get_Left (N), Prio);
Disp_Token (Ctxt, Tok_Minus_Greater);
Print_Expr (Ctxt, Get_Right (N), Prio);
when others =>
PSL.Errors.Error_Kind ("print_expr", N);
end case;
if Prio < Parent_Prio then
Disp_Token (Ctxt, Tok_Right_Paren);
end if;
end Print_Expr;
procedure Print_Count (Ctxt : in out Ctxt_Class; N : PSL_Node)
is
B : PSL_Node;
begin
B := Get_Low_Bound (N);
if B = Null_PSL_Node then
return;
end if;
Print_Expr (Ctxt, B);
B := Get_High_Bound (N);
if B = Null_PSL_Node then
return;
end if;
Disp_Token (Ctxt, Tok_Colon);
Print_Expr (Ctxt, B);
end Print_Count;
procedure Print_Binary_Sequence (Ctxt : in out Ctxt_Class;
Tok : Token_Type;
N : PSL_Node;
Prio : Priority) is
begin
Print_Sequence (Ctxt, Get_Left (N), Prio);
Disp_Token (Ctxt, Tok);
Print_Sequence (Ctxt, Get_Right (N), Prio);
end Print_Binary_Sequence;
procedure Print_Repeat_Sequence
(Ctxt : in out Ctxt_Class; Tok : Token_Type; N : PSL_Node)
is
S : PSL_Node;
begin
S := Get_Sequence (N);
if S /= Null_PSL_Node then
Print_Sequence (Ctxt, S, Prio_SERE_Repeat);
end if;
Disp_Token (Ctxt, Tok);
Print_Count (Ctxt, N);
Disp_Token (Ctxt, Tok_Right_Bracket);
end Print_Repeat_Sequence;
procedure Print_Sequence (Ctxt : in out Ctxt_Class;
Seq : PSL_Node;
Parent_Prio : Priority := Prio_Lowest)
is
Prio : constant Priority := PSL.Prints.Get_Priority (Seq);
Add_Paren : constant Boolean := Prio < Parent_Prio
or else Parent_Prio <= Prio_FL_Paren;
begin
if Add_Paren then
Disp_Token (Ctxt, Tok_Left_Curly);
end if;
case Get_Kind (Seq) is
when N_Braced_SERE =>
Disp_Token (Ctxt, Tok_Left_Curly);
Print_Sequence (Ctxt, Get_SERE (Seq), Prio_Lowest);
Disp_Token (Ctxt, Tok_Right_Curly);
when N_Concat_SERE =>
Print_Binary_Sequence (Ctxt, Tok_Semi_Colon, Seq, Prio);
when N_Fusion_SERE =>
Print_Binary_Sequence (Ctxt, Tok_Colon, Seq, Prio);
when N_Within_SERE =>
Print_Binary_Sequence (Ctxt, Tok_Within, Seq, Prio);
when N_Match_And_Seq =>
Print_Binary_Sequence (Ctxt, Tok_And_And, Seq, Prio);
when N_Or_Seq =>
Print_Binary_Sequence (Ctxt, Tok_Bar, Seq, Prio);
when N_And_Seq =>
Print_Binary_Sequence (Ctxt, Tok_Ampersand, Seq, Prio);
when N_Star_Repeat_Seq =>
Print_Repeat_Sequence (Ctxt, Tok_Brack_Star, Seq);
when N_Goto_Repeat_Seq =>
Print_Repeat_Sequence (Ctxt, Tok_Brack_Arrow, Seq);
when N_Equal_Repeat_Seq =>
Print_Repeat_Sequence (Ctxt, Tok_Brack_Equal, Seq);
when N_Plus_Repeat_Seq =>
Print_Sequence (Ctxt, Get_Sequence (Seq), Prio);
Disp_Token (Ctxt, Tok_Brack_Plus_Brack);
when N_Booleans
| N_Name_Decl =>
Print_Expr (Ctxt, Seq);
when N_Sequence_Instance =>
Disp_Ident (Ctxt, Get_Identifier (Get_Declaration (Seq)));
when others =>
PSL.Errors.Error_Kind ("print_sequence", Seq);
end case;
if Add_Paren then
Disp_Token (Ctxt, Tok_Right_Curly);
end if;
end Print_Sequence;
procedure Print_Binary_Property (Ctxt : in out Ctxt_Class;
Tok : Token_Type;
N : PSL_Node;
Prio : Priority) is
begin
Print_Property (Ctxt, Get_Left (N), Prio);
Disp_Token (Ctxt, Tok);
Print_Property (Ctxt, Get_Right (N), Prio);
end Print_Binary_Property;
procedure Print_Binary_Property_SI (Ctxt : in out Ctxt_Class;
Op, Op_Em, Op_Un, Op_Em_Un : Token_Type;
N : PSL_Node;
Prio : Priority) is
begin
Print_Property (Ctxt, Get_Left (N), Prio);
if Get_Strong_Flag (N) then
if Get_Inclusive_Flag (N) then
Disp_Token (Ctxt, Op_Em_Un);
else
Disp_Token (Ctxt, Op_Em);
end if;
else
if Get_Inclusive_Flag (N) then
Disp_Token (Ctxt, Op_Un);
else
Disp_Token (Ctxt, Op);
end if;
end if;
Print_Property (Ctxt, Get_Right (N), Prio);
end Print_Binary_Property_SI;
procedure Print_Range_Property
(Ctxt : in out Ctxt_Class; Tok : Token_Type; N : PSL_Node) is
begin
Disp_Token (Ctxt, Tok);
Disp_Token (Ctxt, Tok_Left_Bracket);
Print_Count (Ctxt, N);
Disp_Token (Ctxt, Tok_Right_Bracket);
Disp_Token (Ctxt, Tok_Left_Paren);
Print_Property (Ctxt, Get_Property (N), Prio_FL_Paren);
Disp_Token (Ctxt, Tok_Right_Paren);
end Print_Range_Property;
procedure Print_Boolean_Range_Property
(Ctxt : in out Ctxt_Class; Tok : Token_Type; N : PSL_Node) is
begin
Disp_Token (Ctxt, Tok);
Disp_Token (Ctxt, Tok_Left_Paren);
Print_Expr (Ctxt, Get_Boolean (N));
Disp_Token (Ctxt, Tok_Right_Paren, Tok_Left_Bracket);
Print_Count (Ctxt, N);
Disp_Token (Ctxt, Tok_Right_Bracket, Tok_Left_Paren);
Print_Property (Ctxt, Get_Property (N), Prio_FL_Paren);
Disp_Token (Ctxt, Tok_Right_Paren);
end Print_Boolean_Range_Property;
procedure Print_Property (Ctxt : in out Ctxt_Class;
Prop : PSL_Node;
Parent_Prio : Priority := Prio_Lowest)
is
Prio : constant Priority := PSL.Prints.Get_Priority (Prop);
begin
if Prio < Parent_Prio then
Disp_Token (Ctxt, Tok_Left_Paren);
end if;
case Get_Kind (Prop) is
when N_Never =>
Disp_Token (Ctxt, Tok_Never);
Print_Property (Ctxt, Get_Property (Prop), Prio);
when N_Always =>
Disp_Token (Ctxt, Tok_Always, Tok_Left_Paren);
Print_Property (Ctxt, Get_Property (Prop), Prio);
Disp_Token (Ctxt, Tok_Right_Paren);
when N_Eventually =>
Disp_Token (Ctxt, Tok_Eventually, Tok_Left_Paren);
Print_Property (Ctxt, Get_Property (Prop), Prio);
Disp_Token (Ctxt, Tok_Right_Paren);
when N_Strong =>
Print_Property (Ctxt, Get_Property (Prop), Prio);
Disp_Token (Ctxt, Tok_Exclam_Mark);
when N_Next =>
Disp_Token (Ctxt, Tok_Next);
-- if Get_Strong_Flag (Prop) then
-- Put ('!');
-- end if;
Disp_Token (Ctxt, Tok_Left_Paren);
Print_Property (Ctxt, Get_Property (Prop), Prio);
Disp_Token (Ctxt, Tok_Right_Paren);
when N_Next_A =>
Print_Range_Property (Ctxt, Tok_Next_A, Prop);
when N_Next_E =>
Print_Range_Property (Ctxt, Tok_Next_E, Prop);
when N_Next_Event =>
Disp_Token (Ctxt, Tok_Next_Event, Tok_Left_Paren);
Print_Expr (Ctxt, Get_Boolean (Prop));
Disp_Token (Ctxt, Tok_Right_Paren, Tok_Left_Paren);
Print_Property (Ctxt, Get_Property (Prop), Prio);
Disp_Token (Ctxt, Tok_Right_Paren);
when N_Next_Event_A =>
Print_Boolean_Range_Property (Ctxt, Tok_Next_Event_A, Prop);
when N_Next_Event_E =>
Print_Boolean_Range_Property (Ctxt, Tok_Next_Event_E, Prop);
when N_Until =>
Print_Binary_Property_SI
(Ctxt,
Tok_Until, Tok_Until_Em, Tok_Until_Un, Tok_Until_Em_Un,
Prop, Prio);
when N_Abort =>
Print_Property (Ctxt, Get_Property (Prop), Prio);
Disp_Token (Ctxt, Tok_Abort);
Print_Expr (Ctxt, Get_Boolean (Prop));
when N_Before =>
Print_Binary_Property_SI
(Ctxt,
Tok_Before, Tok_Before_Em, Tok_Before_Un, Tok_Before_Em_Un,
Prop, Prio);
when N_Or_Prop =>
Print_Binary_Property (Ctxt, Tok_Or, Prop, Prio);
when N_And_Prop =>
Print_Binary_Property (Ctxt, Tok_And, Prop, Prio);
when N_Paren_Prop =>
Disp_Token (Ctxt, Tok_Left_Paren);
Print_Property (Ctxt, Get_Property (Prop), Prio);
Disp_Token (Ctxt, Tok_Right_Paren);
when N_Imp_Seq =>
Print_Property (Ctxt, Get_Sequence (Prop), Prio);
Disp_Token (Ctxt, Tok_Bar_Double_Arrow);
Print_Property (Ctxt, Get_Property (Prop), Prio);
when N_Overlap_Imp_Seq =>
Print_Property (Ctxt, Get_Sequence (Prop), Prio);
Disp_Token (Ctxt, Tok_Bar_Arrow);
Print_Property (Ctxt, Get_Property (Prop), Prio);
when N_Log_Imp_Prop =>
Print_Binary_Property (Ctxt, Tok_Minus_Greater, Prop, Prio);
when N_Booleans
| N_Name_Decl =>
Print_Expr (Ctxt, Prop);
when N_Sequences =>
Print_Sequence (Ctxt, Prop, Parent_Prio);
when N_Property_Instance =>
Disp_Ident (Ctxt, Get_Identifier (Get_Declaration (Prop)));
when N_EOS =>
Start_Lit (Ctxt, Tok_Identifier);
Disp_Str (Ctxt, "EOS");
Close_Lit (Ctxt);
when others =>
PSL.Errors.Error_Kind ("print_property", Prop);
end case;
if Prio < Parent_Prio then
Disp_Token (Ctxt, Tok_Right_Paren);
end if;
end Print_Property;
procedure Disp_Psl_Expression
(Ctxt : in out Ctxt_Class; Expr : PSL_Node) is
begin
Print_Property (Ctxt, Expr);
end Disp_Psl_Expression;
procedure Disp_Psl_Default_Clock (Ctxt : in out Ctxt_Class; Stmt : Iir) is
begin
if Vhdl_Std < Vhdl_08 then
OOB.Put ("--psl ");
end if;
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Psl_Default, Tok_Psl_Clock);
Disp_Token (Ctxt, Tok_Is);
Disp_Psl_Expression (Ctxt, Get_Psl_Boolean (Stmt));
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end Disp_Psl_Default_Clock;
procedure Disp_Psl_Declaration (Ctxt : in out Ctxt_Class; Stmt : Iir)
is
Decl : constant PSL_Node := Get_Psl_Declaration (Stmt);
begin
if Vhdl_Std < Vhdl_08 then
OOB.Put ("--psl ");
end if;
case Get_Kind (Decl) is
when N_Property_Declaration =>
Disp_Token (Ctxt, Tok_Psl_Property);
Disp_Ident (Ctxt, Get_Identifier (Decl));
Disp_Token (Ctxt, Tok_Is);
Disp_Psl_Expression (Ctxt, Get_Property (Decl));
Disp_Token (Ctxt, Tok_Semi_Colon);
when N_Sequence_Declaration =>
Disp_Token (Ctxt, Tok_Psl_Sequence);
Disp_Ident (Ctxt, Get_Identifier (Decl));
Disp_Token (Ctxt, Tok_Is);
Print_Sequence (Ctxt, Get_Sequence (Decl));
Disp_Token (Ctxt, Tok_Semi_Colon);
when N_Endpoint_Declaration =>
Disp_Token (Ctxt, Tok_Psl_Endpoint);
Disp_Ident (Ctxt, Get_Identifier (Decl));
Disp_Token (Ctxt, Tok_Is);
Print_Sequence (Ctxt, Get_Sequence (Decl));
Disp_Token (Ctxt, Tok_Semi_Colon);
Disp_PSL_NFA (Get_PSL_NFA (Stmt));
when others =>
PSL.Errors.Error_Kind ("disp_psl_declaration", Decl);
end case;
end Disp_Psl_Declaration;
procedure Disp_Declaration_Chain
(Ctxt : in out Ctxt_Class; Parent : Iir)
is
Decl: Iir;
begin
Decl := Get_Declaration_Chain (Parent);
while Decl /= Null_Iir loop
case Get_Kind (Decl) is
when Iir_Kind_Type_Declaration =>
Disp_Type_Declaration (Ctxt, Decl);
when Iir_Kind_Anonymous_Type_Declaration =>
Disp_Anonymous_Type_Declaration (Ctxt, Decl);
when Iir_Kind_Subtype_Declaration =>
Disp_Subtype_Declaration (Ctxt, Decl);
when Iir_Kind_Use_Clause =>
Disp_Use_Clause (Ctxt, Decl);
when Iir_Kind_Component_Declaration =>
Disp_Component_Declaration (Ctxt, Decl);
when Iir_Kind_File_Declaration
| Iir_Kind_Signal_Declaration
| Iir_Kind_Constant_Declaration
| Iir_Kind_Variable_Declaration =>
Disp_Object_Declaration (Ctxt, Decl);
while Get_Has_Identifier_List (Decl) loop
Decl := Get_Chain (Decl);
end loop;
when Iir_Kind_Object_Alias_Declaration =>
Disp_Object_Alias_Declaration (Ctxt, Decl);
when Iir_Kind_Terminal_Declaration =>
Disp_Terminal_Declaration (Ctxt, Decl);
while Get_Has_Identifier_List (Decl) loop
Decl := Get_Chain (Decl);
end loop;
when Iir_Kinds_Quantity_Declaration =>
Disp_Quantity_Declaration (Ctxt, Decl);
when Iir_Kind_Nature_Declaration =>
Disp_Nature_Declaration (Ctxt, Decl);
when Iir_Kind_Non_Object_Alias_Declaration =>
Disp_Non_Object_Alias_Declaration (Ctxt, Decl);
when Iir_Kind_Function_Declaration
| Iir_Kind_Procedure_Declaration =>
declare
Implicit : constant Boolean :=
Is_Implicit_Subprogram (Decl)
and then (Get_Implicit_Definition (Decl)
/= Iir_Predefined_Now_Function);
begin
if not Implicit or else Flag_Implicit then
Start_Hbox (Ctxt);
Disp_Subprogram_Declaration (Ctxt, Decl, Implicit);
if not Get_Has_Body (Decl) then
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end if;
end if;
end;
when Iir_Kind_Function_Body
| Iir_Kind_Procedure_Body =>
-- The declaration was just displayed.
Close_Hbox (Ctxt);
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Is);
Close_Hbox (Ctxt);
Disp_Subprogram_Body (Ctxt, Decl);
when Iir_Kind_Protected_Type_Body =>
Disp_Protected_Type_Body (Ctxt, Decl);
when Iir_Kind_Configuration_Specification =>
Disp_Configuration_Specification (Ctxt, Decl);
when Iir_Kind_Disconnection_Specification =>
Disp_Disconnection_Specification (Ctxt, Decl);
when Iir_Kind_Attribute_Declaration =>
Disp_Attribute_Declaration (Ctxt, Decl);
when Iir_Kind_Attribute_Specification =>
Disp_Attribute_Specification (Ctxt, Decl);
when Iir_Kind_Signal_Attribute_Declaration =>
null;
when Iir_Kind_Group_Template_Declaration =>
Disp_Group_Template_Declaration (Ctxt, Decl);
when Iir_Kind_Group_Declaration =>
Disp_Group_Declaration (Ctxt, Decl);
when Iir_Kind_Package_Declaration =>
Disp_Package_Declaration (Ctxt, Decl);
when Iir_Kind_Package_Body =>
Disp_Package_Body (Ctxt, Decl);
when Iir_Kind_Package_Instantiation_Declaration =>
Disp_Package_Instantiation_Declaration (Ctxt, Decl);
when Iir_Kind_Psl_Default_Clock =>
Disp_Psl_Default_Clock (Ctxt, Decl);
when others =>
Error_Kind ("disp_declaration_chain", Decl);
end case;
Decl := Get_Chain (Decl);
end loop;
end Disp_Declaration_Chain;
procedure Disp_Waveform
(Ctxt : in out Ctxt_Class; Chain : Iir_Waveform_Element)
is
We: Iir_Waveform_Element;
Val : Iir;
begin
if Chain = Null_Iir then
Disp_Token (Ctxt, Tok_Null);
-- Put ("null after {disconnection_time}");
return;
elsif Get_Kind (Chain) = Iir_Kind_Unaffected_Waveform then
Disp_Token (Ctxt, Tok_Unaffected);
return;
end if;
We := Chain;
while We /= Null_Iir loop
if We /= Chain then
Disp_Token (Ctxt, Tok_Comma);
end if;
Val := Get_We_Value (We);
Print (Ctxt, Val);
if Get_Time (We) /= Null_Iir then
Disp_Token (Ctxt, Tok_After);
Print (Ctxt, Get_Time (We));
end if;
We := Get_Chain (We);
end loop;
end Disp_Waveform;
procedure Disp_Delay_Mechanism (Ctxt : in out Ctxt_Class; Stmt: Iir) is
Expr: Iir;
begin
case Get_Delay_Mechanism (Stmt) is
when Iir_Transport_Delay =>
Disp_Token (Ctxt, Tok_Transport);
when Iir_Inertial_Delay =>
Expr := Get_Reject_Time_Expression (Stmt);
if Expr /= Null_Iir then
Disp_Token (Ctxt, Tok_Reject);
Print (Ctxt, Expr);
Disp_Token (Ctxt, Tok_Inertial);
end if;
end case;
end Disp_Delay_Mechanism;
procedure Disp_Label (Ctxt : in out Ctxt_Class; Stmt : Iir)
is
Label: constant Name_Id := Get_Label (Stmt);
begin
if Label /= Null_Identifier then
Disp_Identifier (Ctxt, Stmt);
Disp_Token (Ctxt, Tok_Colon);
end if;
end Disp_Label;
procedure Disp_Simple_Signal_Assignment
(Ctxt : in out Ctxt_Class; Stmt: Iir) is
begin
Start_Hbox (Ctxt);
Disp_Label (Ctxt, Stmt);
Print (Ctxt, Get_Target (Stmt));
Disp_Token (Ctxt, Tok_Less_Equal);
Disp_Delay_Mechanism (Ctxt, Stmt);
Disp_Waveform (Ctxt, Get_Waveform_Chain (Stmt));
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end Disp_Simple_Signal_Assignment;
procedure Disp_Conditional_Waveform (Ctxt : in out Ctxt_Class; Chain : Iir)
is
Cond_Wf : Iir;
Expr : Iir;
begin
Cond_Wf := Chain;
loop
Disp_Waveform (Ctxt, Get_Waveform_Chain (Cond_Wf));
Expr := Get_Condition (Cond_Wf);
if Expr /= Null_Iir then
Disp_Token (Ctxt, Tok_When);
Print (Ctxt, Expr);
end if;
Cond_Wf := Get_Chain (Cond_Wf);
exit when Cond_Wf = Null_Iir;
Disp_Token (Ctxt, Tok_Else);
end loop;
end Disp_Conditional_Waveform;
procedure Disp_Conditional_Signal_Assignment
(Ctxt : in out Ctxt_Class; Stmt: Iir) is
begin
Start_Hbox (Ctxt);
Print (Ctxt, Get_Target (Stmt));
Disp_Token (Ctxt, Tok_Less_Equal);
Disp_Delay_Mechanism (Ctxt, Stmt);
Disp_Conditional_Waveform (Ctxt, Get_Conditional_Waveform_Chain (Stmt));
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end Disp_Conditional_Signal_Assignment;
procedure Disp_Selected_Waveforms
(Ctxt : in out Ctxt_Class; Stmt : Iir)
is
Assoc_Chain : constant Iir := Get_Selected_Waveform_Chain (Stmt);
Assoc: Iir;
begin
Assoc := Assoc_Chain;
while Assoc /= Null_Iir loop
if Assoc /= Assoc_Chain then
Disp_Token (Ctxt, Tok_Comma);
end if;
Disp_Waveform (Ctxt, Get_Associated_Chain (Assoc));
Disp_Token (Ctxt, Tok_When);
Disp_Choice (Ctxt, Assoc);
end loop;
Disp_Token (Ctxt, Tok_Semi_Colon);
end Disp_Selected_Waveforms;
procedure Disp_Selected_Waveform_Assignment
(Ctxt : in out Ctxt_Class; Stmt: Iir) is
begin
Start_Hbox (Ctxt);
Disp_Label (Ctxt, Stmt);
Disp_Token (Ctxt, Tok_With);
Print (Ctxt, Get_Expression (Stmt));
Disp_Token (Ctxt, Tok_Select);
Print (Ctxt, Get_Target (Stmt));
Disp_Token (Ctxt, Tok_Less_Equal);
Disp_Delay_Mechanism (Ctxt, Stmt);
Disp_Selected_Waveforms (Ctxt, Stmt);
Close_Hbox (Ctxt);
end Disp_Selected_Waveform_Assignment;
procedure Disp_Variable_Assignment
(Ctxt : in out Ctxt_Class; Stmt: Iir) is
begin
Start_Hbox (Ctxt);
Disp_Label (Ctxt, Stmt);
Print (Ctxt, Get_Target (Stmt));
Disp_Token (Ctxt, Tok_Assign);
Print (Ctxt, Get_Expression (Stmt));
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end Disp_Variable_Assignment;
procedure Disp_Conditional_Expression
(Ctxt : in out Ctxt_Class; Exprs : Iir)
is
Expr : Iir;
Cond : Iir;
begin
Expr := Exprs;
loop
Print (Ctxt, Get_Expression (Expr));
Cond := Get_Condition (Expr);
if Cond /= Null_Iir then
Disp_Token (Ctxt, Tok_When);
Print (Ctxt, Cond);
end if;
Expr := Get_Chain (Expr);
exit when Expr = Null_Iir;
Disp_Token (Ctxt, Tok_Else);
end loop;
end Disp_Conditional_Expression;
procedure Disp_Conditional_Variable_Assignment
(Ctxt : in out Ctxt_Class; Stmt: Iir) is
begin
Start_Hbox (Ctxt);
Disp_Label (Ctxt, Stmt);
Print (Ctxt, Get_Target (Stmt));
Disp_Token (Ctxt, Tok_Assign);
Disp_Conditional_Expression (Ctxt, Get_Conditional_Expression (Stmt));
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end Disp_Conditional_Variable_Assignment;
procedure Disp_Postponed (Ctxt : in out Ctxt_Class; Stmt : Iir) is
begin
if Get_Postponed_Flag (Stmt) then
Disp_Token (Ctxt, Tok_Postponed);
end if;
end Disp_Postponed;
procedure Disp_Concurrent_Simple_Signal_Assignment
(Ctxt : in out Ctxt_Class; Stmt: Iir) is
begin
Start_Hbox (Ctxt);
Disp_Label (Ctxt, Stmt);
Disp_Postponed (Ctxt, Stmt);
Print (Ctxt, Get_Target (Stmt));
Disp_Token (Ctxt, Tok_Less_Equal);
if Get_Guard (Stmt) /= Null_Iir then
Disp_Token (Ctxt, Tok_Guarded);
end if;
Disp_Delay_Mechanism (Ctxt, Stmt);
Disp_Waveform (Ctxt, Get_Waveform_Chain (Stmt));
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end Disp_Concurrent_Simple_Signal_Assignment;
procedure Disp_Concurrent_Selected_Signal_Assignment
(Ctxt : in out Ctxt_Class; Stmt: Iir) is
begin
Start_Hbox (Ctxt);
Disp_Label (Ctxt, Stmt);
Disp_Postponed (Ctxt, Stmt);
Disp_Token (Ctxt, Tok_With);
Print (Ctxt, Get_Expression (Stmt));
Disp_Token (Ctxt, Tok_Select);
Print (Ctxt, Get_Target (Stmt));
Disp_Token (Ctxt, Tok_Less_Equal);
if Get_Guard (Stmt) /= Null_Iir then
Disp_Token (Ctxt, Tok_Guarded);
end if;
Disp_Delay_Mechanism (Ctxt, Stmt);
Disp_Selected_Waveforms (Ctxt, Stmt);
Close_Hbox (Ctxt);
end Disp_Concurrent_Selected_Signal_Assignment;
procedure Disp_Concurrent_Conditional_Signal_Assignment
(Ctxt : in out Ctxt_Class; Stmt: Iir) is
begin
Start_Hbox (Ctxt);
Disp_Label (Ctxt, Stmt);
Disp_Postponed (Ctxt, Stmt);
Print (Ctxt, Get_Target (Stmt));
Disp_Token (Ctxt, Tok_Less_Equal);
if Get_Guard (Stmt) /= Null_Iir then
Disp_Token (Ctxt, Tok_Guarded);
end if;
Disp_Delay_Mechanism (Ctxt, Stmt);
Disp_Conditional_Waveform (Ctxt, Get_Conditional_Waveform_Chain (Stmt));
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end Disp_Concurrent_Conditional_Signal_Assignment;
procedure Disp_Severity_Expression (Ctxt : in out Ctxt_Class; Stmt : Iir)
is
Expr : constant Iir := Get_Severity_Expression (Stmt);
begin
if Expr /= Null_Iir then
Disp_Token (Ctxt, Tok_Severity);
Print (Ctxt, Expr);
end if;
end Disp_Severity_Expression;
procedure Disp_Report_Expression (Ctxt : in out Ctxt_Class; Stmt : Iir)
is
Expr : constant Iir := Get_Report_Expression (Stmt);
begin
if Expr /= Null_Iir then
Disp_Token (Ctxt, Tok_Report);
Print (Ctxt, Expr);
end if;
end Disp_Report_Expression;
procedure Disp_Assertion_Statement (Ctxt : in out Ctxt_Class; Stmt: Iir) is
begin
Start_Hbox (Ctxt);
Disp_Label (Ctxt, Stmt);
if Get_Kind (Stmt) = Iir_Kind_Concurrent_Assertion_Statement then
Disp_Postponed (Ctxt, Stmt);
end if;
Disp_Token (Ctxt, Tok_Assert);
Print (Ctxt, Get_Assertion_Condition (Stmt));
Disp_Report_Expression (Ctxt, Stmt);
Disp_Severity_Expression (Ctxt, Stmt);
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end Disp_Assertion_Statement;
procedure Disp_Report_Statement (Ctxt : in out Ctxt_Class; Stmt: Iir) is
begin
Start_Hbox (Ctxt);
Disp_Label (Ctxt, Stmt);
Disp_Token (Ctxt, Tok_Report);
Print (Ctxt, Get_Report_Expression (Stmt));
Disp_Severity_Expression (Ctxt, Stmt);
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end Disp_Report_Statement;
function Get_Operator_Token (Op : Iir) return Token_Type is
begin
case Get_Kind (Op) is
when Iir_Kind_And_Operator
| Iir_Kind_Reduction_And_Operator =>
return Tok_And;
when Iir_Kind_Or_Operator
| Iir_Kind_Reduction_Or_Operator =>
return Tok_Or;
when Iir_Kind_Nand_Operator
| Iir_Kind_Reduction_Nand_Operator =>
return Tok_Nand;
when Iir_Kind_Nor_Operator
| Iir_Kind_Reduction_Nor_Operator =>
return Tok_Nor;
when Iir_Kind_Xor_Operator
| Iir_Kind_Reduction_Xor_Operator =>
return Tok_Xor;
when Iir_Kind_Xnor_Operator
| Iir_Kind_Reduction_Xnor_Operator =>
return Tok_Xnor;
when Iir_Kind_Equality_Operator =>
return Tok_Equal;
when Iir_Kind_Inequality_Operator =>
return Tok_Not_Equal;
when Iir_Kind_Less_Than_Operator =>
return Tok_Less;
when Iir_Kind_Less_Than_Or_Equal_Operator =>
return Tok_Less_Equal;
when Iir_Kind_Greater_Than_Operator =>
return Tok_Greater;
when Iir_Kind_Greater_Than_Or_Equal_Operator =>
return Tok_Greater_Equal;
when Iir_Kind_Match_Equality_Operator =>
return Tok_Match_Equal;
when Iir_Kind_Match_Inequality_Operator =>
return Tok_Match_Not_Equal;
when Iir_Kind_Match_Less_Than_Operator =>
return Tok_Match_Less;
when Iir_Kind_Match_Less_Than_Or_Equal_Operator =>
return Tok_Match_Less_Equal;
when Iir_Kind_Match_Greater_Than_Operator =>
return Tok_Match_Greater;
when Iir_Kind_Match_Greater_Than_Or_Equal_Operator =>
return Tok_Match_Greater_Equal;
when Iir_Kind_Sll_Operator =>
return Tok_Sll;
when Iir_Kind_Sla_Operator =>
return Tok_Sla;
when Iir_Kind_Srl_Operator =>
return Tok_Srl;
when Iir_Kind_Sra_Operator =>
return Tok_Sra;
when Iir_Kind_Rol_Operator =>
return Tok_Rol;
when Iir_Kind_Ror_Operator =>
return Tok_Ror;
when Iir_Kind_Addition_Operator =>
return Tok_Plus;
when Iir_Kind_Substraction_Operator =>
return Tok_Minus;
when Iir_Kind_Concatenation_Operator =>
return Tok_Ampersand;
when Iir_Kind_Multiplication_Operator =>
return Tok_Star;
when Iir_Kind_Division_Operator =>
return Tok_Slash;
when Iir_Kind_Modulus_Operator =>
return Tok_Mod;
when Iir_Kind_Remainder_Operator =>
return Tok_Rem;
when Iir_Kind_Exponentiation_Operator =>
return Tok_Double_Star;
when Iir_Kind_Not_Operator =>
return Tok_Not;
when Iir_Kind_Negation_Operator =>
return Tok_Minus;
when Iir_Kind_Identity_Operator =>
return Tok_Plus;
when Iir_Kind_Absolute_Operator =>
return Tok_Abs;
when Iir_Kind_Condition_Operator
| Iir_Kind_Implicit_Condition_Operator =>
return Tok_Condition;
when others =>
raise Internal_Error;
end case;
end Get_Operator_Token;
procedure Disp_Dyadic_Operator (Ctxt : in out Ctxt_Class; Expr: Iir) is
begin
if Flag_Parenthesis then
Disp_Token (Ctxt, Tok_Left_Paren);
end if;
Print (Ctxt, Get_Left (Expr));
Disp_Token (Ctxt, Get_Operator_Token (Expr));
Print (Ctxt, Get_Right (Expr));
if Flag_Parenthesis then
Disp_Token (Ctxt, Tok_Right_Paren);
end if;
end Disp_Dyadic_Operator;
procedure Disp_Monadic_Operator (Ctxt : in out Ctxt_Class; Expr: Iir) is
begin
if Get_Kind (Expr) = Iir_Kind_Implicit_Condition_Operator then
Print (Ctxt, Get_Operand (Expr));
return;
end if;
Disp_Token (Ctxt, Get_Operator_Token (Expr));
if Flag_Parenthesis then
Disp_Token (Ctxt, Tok_Left_Paren);
end if;
Print (Ctxt, Get_Operand (Expr));
if Flag_Parenthesis then
Disp_Token (Ctxt, Tok_Right_Paren);
end if;
end Disp_Monadic_Operator;
procedure Disp_Case_Statement
(Ctxt : in out Ctxt_Class; Stmt: Iir_Case_Statement)
is
Assoc: Iir;
Sel_Stmt : Iir;
begin
Disp_Token (Ctxt, Tok_Case);
Print (Ctxt, Get_Expression (Stmt));
Close_Hbox (Ctxt);
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Is);
Close_Hbox (Ctxt);
Start_Vbox (Ctxt);
Assoc := Get_Case_Statement_Alternative_Chain (Stmt);
while Assoc /= Null_Iir loop
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_When);
Sel_Stmt := Get_Associated_Chain (Assoc);
Disp_Choice (Ctxt, Assoc);
Disp_Token (Ctxt, Tok_Double_Arrow);
Close_Hbox (Ctxt);
Start_Vbox (Ctxt);
Disp_Sequential_Statements (Ctxt, Sel_Stmt);
Close_Vbox (Ctxt);
end loop;
Close_Vbox (Ctxt);
Disp_End_Label_No_Close (Ctxt, Stmt, Tok_Case);
end Disp_Case_Statement;
procedure Disp_Wait_Statement
(Ctxt : in out Ctxt_Class; Stmt: Iir_Wait_Statement)
is
List: Iir_List;
Expr: Iir;
begin
Start_Hbox (Ctxt);
Disp_Label (Ctxt, Stmt);
Disp_Token (Ctxt, Tok_Wait);
List := Get_Sensitivity_List (Stmt);
if List /= Null_Iir_List then
Disp_Token (Ctxt, Tok_On);
Disp_Designator_List (Ctxt, List);
end if;
Expr := Get_Condition_Clause (Stmt);
if Expr /= Null_Iir then
Disp_Token (Ctxt, Tok_Until);
Print (Ctxt, Expr);
end if;
Expr := Get_Timeout_Clause (Stmt);
if Expr /= Null_Iir then
Disp_Token (Ctxt, Tok_For);
Print (Ctxt, Expr);
end if;
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end Disp_Wait_Statement;
procedure Disp_If_Statement
(Ctxt : in out Ctxt_Class; Stmt : Iir_If_Statement)
is
Clause : Iir;
Expr : Iir;
begin
Start_Hbox (Ctxt);
Disp_Label (Ctxt, Stmt);
Disp_Token (Ctxt, Tok_If);
Clause := Stmt;
Print (Ctxt, Get_Condition (Clause));
Close_Hbox (Ctxt);
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Then);
Close_Hbox (Ctxt);
while Clause /= Null_Iir loop
Start_Vbox (Ctxt);
Disp_Sequential_Statements
(Ctxt, Get_Sequential_Statement_Chain (Clause));
Close_Vbox (Ctxt);
Clause := Get_Else_Clause (Clause);
exit when Clause = Null_Iir;
Start_Hbox (Ctxt);
Expr := Get_Condition (Clause);
if Expr /= Null_Iir then
Disp_Token (Ctxt, Tok_Elsif);
Print (Ctxt, Expr);
Close_Hbox (Ctxt);
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Then);
else
Disp_Token (Ctxt, Tok_Else);
end if;
Close_Hbox (Ctxt);
end loop;
Disp_End_Label (Ctxt, Stmt, Tok_If);
end Disp_If_Statement;
procedure Disp_Parameter_Specification
(Ctxt : in out Ctxt_Class; Iterator : Iir_Iterator_Declaration) is
begin
Disp_Identifier (Ctxt, Iterator);
Disp_Token (Ctxt, Tok_In);
Disp_Discrete_Range (Ctxt, Or_Else (Get_Discrete_Range (Iterator),
Get_Subtype_Indication (Iterator)));
end Disp_Parameter_Specification;
procedure Disp_Procedure_Call (Ctxt : in out Ctxt_Class; Stmt : Iir)
is
Call : constant Iir := Get_Procedure_Call (Stmt);
begin
Start_Hbox (Ctxt);
Disp_Label (Ctxt, Stmt);
if Get_Kind (Stmt) = Iir_Kind_Concurrent_Procedure_Call_Statement then
Disp_Postponed (Ctxt, Stmt);
end if;
Print (Ctxt, Get_Prefix (Call));
Disp_Association_Chain (Ctxt, Get_Parameter_Association_Chain (Call));
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end Disp_Procedure_Call;
procedure Disp_For_Loop_Statement (Ctxt : in out Ctxt_Class; Stmt : Iir) is
begin
Start_Hbox (Ctxt);
Disp_Label (Ctxt, Stmt);
Disp_Token (Ctxt, Tok_For);
Disp_Parameter_Specification (Ctxt, Get_Parameter_Specification (Stmt));
Disp_Token (Ctxt, Tok_Loop);
Close_Hbox (Ctxt);
Start_Vbox (Ctxt);
Disp_Sequential_Statements (Ctxt, Get_Sequential_Statement_Chain (Stmt));
Close_Vbox (Ctxt);
Disp_End_Label (Ctxt, Stmt, Tok_Loop);
end Disp_For_Loop_Statement;
procedure Disp_Sequential_Statements (Ctxt : in out Ctxt_Class; First : Iir)
is
Stmt: Iir;
begin
Stmt := First;
while Stmt /= Null_Iir loop
case Iir_Kinds_Sequential_Statement (Get_Kind (Stmt)) is
when Iir_Kind_Null_Statement =>
Start_Hbox (Ctxt);
Disp_Label (Ctxt, Stmt);
Disp_Token (Ctxt, Tok_Null, Tok_Semi_Colon);
Close_Hbox (Ctxt);
when Iir_Kind_If_Statement =>
Disp_If_Statement (Ctxt, Stmt);
when Iir_Kind_For_Loop_Statement =>
Disp_For_Loop_Statement (Ctxt, Stmt);
when Iir_Kind_While_Loop_Statement =>
Start_Hbox (Ctxt);
Disp_Label (Ctxt, Stmt);
if Get_Condition (Stmt) /= Null_Iir then
Disp_Token (Ctxt, Tok_While);
Print (Ctxt, Get_Condition (Stmt));
end if;
Close_Hbox (Ctxt);
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Loop);
Close_Hbox (Ctxt);
Start_Vbox (Ctxt);
Disp_Sequential_Statements
(Ctxt, Get_Sequential_Statement_Chain (Stmt));
Close_Vbox (Ctxt);
Disp_End_Label (Ctxt, Stmt, Tok_Loop);
when Iir_Kind_Simple_Signal_Assignment_Statement =>
Disp_Simple_Signal_Assignment (Ctxt, Stmt);
when Iir_Kind_Conditional_Signal_Assignment_Statement =>
Start_Hbox (Ctxt);
Disp_Label (Ctxt, Stmt);
Disp_Conditional_Signal_Assignment (Ctxt, Stmt);
Close_Hbox (Ctxt);
when Iir_Kind_Selected_Waveform_Assignment_Statement =>
Disp_Selected_Waveform_Assignment (Ctxt, Stmt);
when Iir_Kind_Variable_Assignment_Statement =>
Disp_Variable_Assignment (Ctxt, Stmt);
when Iir_Kind_Conditional_Variable_Assignment_Statement =>
Disp_Conditional_Variable_Assignment (Ctxt, Stmt);
when Iir_Kind_Assertion_Statement =>
Disp_Assertion_Statement (Ctxt, Stmt);
when Iir_Kind_Report_Statement =>
Disp_Report_Statement (Ctxt, Stmt);
when Iir_Kind_Return_Statement =>
Start_Hbox (Ctxt);
Disp_Label (Ctxt, Stmt);
Disp_Token (Ctxt, Tok_Return);
if Get_Expression (Stmt) /= Null_Iir then
Print (Ctxt, Get_Expression (Stmt));
end if;
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
when Iir_Kind_Case_Statement =>
Start_Hbox (Ctxt);
Disp_Label (Ctxt, Stmt);
Disp_Case_Statement (Ctxt, Stmt);
Close_Hbox (Ctxt);
when Iir_Kind_Wait_Statement =>
Disp_Wait_Statement (Ctxt, Stmt);
when Iir_Kind_Procedure_Call_Statement =>
Disp_Procedure_Call (Ctxt, Stmt);
when Iir_Kind_Exit_Statement
| Iir_Kind_Next_Statement =>
declare
Label : constant Iir := Get_Loop_Label (Stmt);
Cond : constant Iir := Get_Condition (Stmt);
begin
Start_Hbox (Ctxt);
Disp_Label (Ctxt, Stmt);
if Get_Kind (Stmt) = Iir_Kind_Exit_Statement then
Disp_Token (Ctxt, Tok_Exit);
else
Disp_Token (Ctxt, Tok_Next);
end if;
if Label /= Null_Iir then
Print (Ctxt, Label);
end if;
if Cond /= Null_Iir then
Disp_Token (Ctxt, Tok_When);
Print (Ctxt, Cond);
end if;
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end;
end case;
Stmt := Get_Chain (Stmt);
end loop;
end Disp_Sequential_Statements;
procedure Disp_Process_Statement (Ctxt : in out Ctxt_Class; Process: Iir) is
begin
Start_Hbox (Ctxt);
Disp_Label (Ctxt, Process);
Disp_Postponed (Ctxt, Process);
Disp_Token (Ctxt, Tok_Process);
if Get_Kind (Process) = Iir_Kind_Sensitized_Process_Statement then
Disp_Token (Ctxt, Tok_Left_Paren);
Disp_Designator_List (Ctxt, Get_Sensitivity_List (Process));
Disp_Token (Ctxt, Tok_Right_Paren);
end if;
if Get_Has_Is (Process) then
Disp_Token (Ctxt, Tok_Is);
end if;
Close_Hbox (Ctxt);
Start_Vbox (Ctxt);
Disp_Declaration_Chain (Ctxt, Process);
Close_Vbox (Ctxt);
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Begin);
Close_Hbox (Ctxt);
Start_Vbox (Ctxt);
Disp_Sequential_Statements
(Ctxt, Get_Sequential_Statement_Chain (Process));
Close_Vbox (Ctxt);
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_End);
if Get_End_Has_Postponed (Process) then
Disp_Token (Ctxt, Tok_Postponed);
end if;
Disp_After_End (Ctxt, Process, Tok_Process);
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end Disp_Process_Statement;
procedure Disp_Conversion (Ctxt : in out Ctxt_Class; Conv : Iir) is
begin
case Get_Kind (Conv) is
when Iir_Kind_Function_Call =>
Disp_Function_Name (Ctxt, Get_Implementation (Conv));
when Iir_Kind_Type_Conversion =>
Disp_Name_Of (Ctxt, Get_Type_Mark (Conv));
when others =>
Error_Kind ("disp_conversion", Conv);
end case;
end Disp_Conversion;
procedure Disp_Association_Chain (Ctxt : in out Ctxt_Class; Chain : Iir)
is
El: Iir;
Formal: Iir;
Need_Comma : Boolean;
Conv : Iir;
begin
if Chain = Null_Iir then
return;
end if;
Disp_Token (Ctxt, Tok_Left_Paren);
Need_Comma := False;
El := Chain;
while El /= Null_Iir loop
if Get_Kind (El) /= Iir_Kind_Association_Element_By_Individual then
if Need_Comma then
Disp_Token (Ctxt, Tok_Comma);
end if;
-- Formal part.
if Get_Kind (El) = Iir_Kind_Association_Element_By_Expression then
Conv := Get_Formal_Conversion (El);
if Conv /= Null_Iir then
Disp_Conversion (Ctxt, Conv);
Disp_Token (Ctxt, Tok_Left_Paren);
end if;
else
Conv := Null_Iir;
end if;
Formal := Get_Formal (El);
if Formal /= Null_Iir then
case Get_Kind (El) is
when Iir_Kind_Association_Element_Package
| Iir_Kind_Association_Element_Type
| Iir_Kind_Association_Element_Subprogram =>
Print (Ctxt, Formal);
when Iir_Kind_Association_Element_By_Expression
| Iir_Kind_Association_Element_By_Individual
| Iir_Kind_Association_Element_Open =>
Print (Ctxt, Formal);
when others =>
raise Internal_Error;
end case;
if Conv /= Null_Iir then
Disp_Token (Ctxt, Tok_Right_Paren);
end if;
Disp_Token (Ctxt, Tok_Double_Arrow);
end if;
case Get_Kind (El) is
when Iir_Kind_Association_Element_Open =>
Disp_Token (Ctxt, Tok_Open);
when Iir_Kind_Association_Element_Package
| Iir_Kind_Association_Element_Type
| Iir_Kind_Association_Element_Subprogram =>
Print (Ctxt, Get_Actual (El));
when others =>
Conv := Get_Actual_Conversion (El);
if Conv /= Null_Iir then
Disp_Conversion (Ctxt, Conv);
Disp_Token (Ctxt, Tok_Left_Paren);
end if;
Print (Ctxt, Get_Actual (El));
if Conv /= Null_Iir then
Disp_Token (Ctxt, Tok_Right_Paren);
end if;
end case;
Need_Comma := True;
end if;
El := Get_Chain (El);
end loop;
Disp_Token (Ctxt, Tok_Right_Paren);
end Disp_Association_Chain;
procedure Disp_Generic_Map_Aspect
(Ctxt : in out Ctxt_Class; Parent : Iir) is
begin
Disp_Token (Ctxt, Tok_Generic, Tok_Map);
Disp_Association_Chain (Ctxt, Get_Generic_Map_Aspect_Chain (Parent));
end Disp_Generic_Map_Aspect;
procedure Disp_Port_Map_Aspect (Ctxt : in out Ctxt_Class; Parent : Iir) is
begin
Disp_Token (Ctxt, Tok_Port, Tok_Map);
Disp_Association_Chain (Ctxt, Get_Port_Map_Aspect_Chain (Parent));
end Disp_Port_Map_Aspect;
procedure Disp_Entity_Aspect (Ctxt : in out Ctxt_Class; Aspect : Iir) is
Arch : Iir;
begin
case Get_Kind (Aspect) is
when Iir_Kind_Entity_Aspect_Entity =>
Disp_Token (Ctxt, Tok_Entity);
Print (Ctxt, Get_Entity_Name (Aspect));
Arch := Get_Architecture (Aspect);
if Arch /= Null_Iir then
Disp_Token (Ctxt, Tok_Left_Paren);
Disp_Name_Of (Ctxt, Arch);
Disp_Token (Ctxt, Tok_Right_Paren);
end if;
when Iir_Kind_Entity_Aspect_Configuration =>
Disp_Token (Ctxt, Tok_Configuration);
Print (Ctxt, Get_Configuration_Name (Aspect));
when Iir_Kind_Entity_Aspect_Open =>
Disp_Token (Ctxt, Tok_Open);
when others =>
Error_Kind ("disp_entity_aspect", Aspect);
end case;
end Disp_Entity_Aspect;
procedure Disp_Component_Instantiation_Statement
(Ctxt : in out Ctxt_Class; Stmt: Iir_Component_Instantiation_Statement)
is
Component: constant Iir := Get_Instantiated_Unit (Stmt);
Gen_Map : constant Iir := Get_Generic_Map_Aspect_Chain (Stmt);
Port_Map : constant Iir := Get_Port_Map_Aspect_Chain (Stmt);
begin
Start_Hbox (Ctxt);
Disp_Label (Ctxt, Stmt);
if Get_Kind (Component) in Iir_Kinds_Denoting_Name then
if Get_Has_Component (Stmt) then
Disp_Token (Ctxt, Tok_Component);
end if;
Print (Ctxt, Component);
else
Disp_Entity_Aspect (Ctxt, Component);
end if;
if Gen_Map = Null_Iir and Port_Map = Null_Iir then
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
else
Close_Hbox (Ctxt);
Start_Vbox (Ctxt);
if Gen_Map /= Null_Iir then
Start_Hbox (Ctxt);
Disp_Generic_Map_Aspect (Ctxt, Stmt);
if Port_Map = Null_Iir then
Disp_Token (Ctxt, Tok_Semi_Colon);
end if;
Close_Hbox (Ctxt);
end if;
if Port_Map /= Null_Iir then
Start_Hbox (Ctxt);
Disp_Port_Map_Aspect (Ctxt, Stmt);
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end if;
Close_Vbox (Ctxt);
end if;
end Disp_Component_Instantiation_Statement;
procedure Disp_Function_Call
(Ctxt : in out Ctxt_Class; Expr: Iir_Function_Call) is
begin
Print (Ctxt, Get_Prefix (Expr));
Disp_Association_Chain (Ctxt, Get_Parameter_Association_Chain (Expr));
end Disp_Function_Call;
procedure Disp_Indexed_Name (Ctxt : in out Ctxt_Class; Indexed: Iir)
is
List : Iir_Flist;
El: Iir;
begin
Print (Ctxt, Get_Prefix (Indexed));
Disp_Token (Ctxt, Tok_Left_Paren);
List := Get_Index_List (Indexed);
for I in Flist_First .. Flist_Last (List) loop
El := Get_Nth_Element (List, I);
if I /= 0 then
Disp_Token (Ctxt, Tok_Comma);
end if;
Print (Ctxt, El);
end loop;
Disp_Token (Ctxt, Tok_Right_Paren);
end Disp_Indexed_Name;
procedure Disp_A_Choice (Ctxt : in out Ctxt_Class; Choice : Iir) is
begin
case Iir_Kinds_Choice (Get_Kind (Choice)) is
when Iir_Kind_Choice_By_Others =>
Disp_Token (Ctxt, Tok_Others);
when Iir_Kind_Choice_By_None =>
null;
when Iir_Kind_Choice_By_Expression =>
Print (Ctxt, Get_Choice_Expression (Choice));
when Iir_Kind_Choice_By_Range =>
Disp_Range (Ctxt, Get_Choice_Range (Choice));
when Iir_Kind_Choice_By_Name =>
Disp_Name_Of (Ctxt, Get_Choice_Name (Choice));
end case;
end Disp_A_Choice;
procedure Disp_Choice (Ctxt : in out Ctxt_Class; Choice: in out Iir) is
begin
loop
Disp_A_Choice (Ctxt, Choice);
Choice := Get_Chain (Choice);
exit when Choice = Null_Iir;
exit when Get_Same_Alternative_Flag (Choice) = False;
--exit when Choice = Null_Iir;
Disp_Token (Ctxt, Tok_Bar);
end loop;
end Disp_Choice;
-- EL_TYPE is Null_Iir for record aggregates.
procedure Disp_Aggregate_1
(Ctxt : in out Ctxt_Class;
Aggr: Iir_Aggregate; Index : Positive; El_Type : Iir)
is
Assoc : Iir;
Expr : Iir;
Is_First : Boolean;
begin
Disp_Token (Ctxt, Tok_Left_Paren);
Assoc := Get_Association_Choices_Chain (Aggr);
Is_First := True;
while Assoc /= Null_Iir loop
if Is_First then
Is_First := False;
else
Disp_Token (Ctxt, Tok_Comma);
end if;
pragma Assert (not Get_Same_Alternative_Flag (Assoc));
Expr := Get_Associated_Expr (Assoc);
Disp_A_Choice (Ctxt, Assoc);
if Get_Kind (Assoc) /= Iir_Kind_Choice_By_None then
Assoc := Get_Chain (Assoc);
while Assoc /= Null_Iir
and then Get_Same_Alternative_Flag (Assoc)
loop
Disp_Token (Ctxt, Tok_Bar);
Disp_A_Choice (Ctxt, Assoc);
Assoc := Get_Chain (Assoc);
end loop;
Disp_Token (Ctxt, Tok_Double_Arrow);
else
Assoc := Get_Chain (Assoc);
end if;
if Index > 1 then
if Get_Kind (Expr) = Iir_Kind_String_Literal8 then
Disp_String_Literal (Ctxt, Expr, El_Type);
else
Disp_Aggregate_1 (Ctxt, Expr, Index - 1, El_Type);
end if;
else
Print (Ctxt, Expr);
end if;
end loop;
Disp_Token (Ctxt, Tok_Right_Paren);
end Disp_Aggregate_1;
procedure Disp_Aggregate (Ctxt : in out Ctxt_Class; Aggr: Iir_Aggregate)
is
Aggr_Type : constant Iir := Get_Type (Aggr);
Base_Type : Iir;
begin
if Aggr_Type /= Null_Iir
and then Get_Kind (Aggr_Type) in Iir_Kinds_Array_Type_Definition
then
Base_Type := Get_Base_Type (Aggr_Type);
Disp_Aggregate_1
(Ctxt, Aggr, Get_Nbr_Elements (Get_Index_Subtype_List (Base_Type)),
Get_Element_Subtype (Base_Type));
else
Disp_Aggregate_1 (Ctxt, Aggr, 1, Null_Iir);
end if;
end Disp_Aggregate;
procedure Disp_Simple_Aggregate
(Ctxt : in out Ctxt_Class; Aggr: Iir_Simple_Aggregate)
is
List : constant Iir_Flist := Get_Simple_Aggregate_List (Aggr);
El : Iir;
First : Boolean := True;
begin
Disp_Token (Ctxt, Tok_Left_Paren);
for I in Flist_First .. Flist_Last (List) loop
El := Get_Nth_Element (List, I);
if First then
First := False;
else
Disp_Token (Ctxt, Tok_Comma);
end if;
Print (Ctxt, El);
end loop;
Disp_Token (Ctxt, Tok_Right_Paren);
end Disp_Simple_Aggregate;
procedure Disp_Parametered_Attribute
(Ctxt : in out Ctxt_Class; Name : Name_Id; Expr : Iir)
is
Param : Iir;
Pfx : Iir;
begin
Pfx := Get_Prefix (Expr);
case Get_Kind (Pfx) is
when Iir_Kind_Type_Declaration
| Iir_Kind_Subtype_Declaration =>
Disp_Name_Of (Ctxt, Pfx);
when others =>
Print (Ctxt, Pfx);
end case;
Disp_Token (Ctxt, Tok_Tick);
Disp_Ident (Ctxt, Name);
Param := Get_Parameter (Expr);
if Param /= Null_Iir
and then Param /= Vhdl.Std_Package.Universal_Integer_One
then
Disp_Token (Ctxt, Tok_Left_Paren);
Print (Ctxt, Param);
Disp_Token (Ctxt, Tok_Right_Paren);
end if;
end Disp_Parametered_Attribute;
procedure Disp_Parametered_Type_Attribute
(Ctxt : in out Ctxt_Class; Name : Name_Id; Expr : Iir) is
begin
Print (Ctxt, Get_Prefix (Expr));
Disp_Token (Ctxt, Tok_Tick);
Disp_Ident (Ctxt, Name);
Disp_Token (Ctxt, Tok_Left_Paren);
Print (Ctxt, Get_Parameter (Expr));
Disp_Token (Ctxt, Tok_Right_Paren);
end Disp_Parametered_Type_Attribute;
procedure Disp_String_Literal_Raw
(Ctxt : in out Ctxt_Class; Str : Iir; El_Type : Iir)
is
Str_Id : constant String8_Id := Get_String8_Id (Str);
Len : constant Nat32 := Get_String_Length (Str);
Literal_List : Iir_Flist;
Pos : Nat8;
Lit : Iir;
Id : Name_Id;
C : Character;
begin
if Get_Bit_String_Base (Str) /= Base_None then
Start_Lit (Ctxt, Tok_Bit_String);
if Get_Has_Length (Str) then
Disp_Int32 (Ctxt, Iir_Int32 (Get_String_Length (Str)));
end if;
Disp_Char (Ctxt, 'b');
else
Start_Lit (Ctxt, Tok_String);
end if;
Disp_Char (Ctxt, '"');
if El_Type /= Null_Iir then
Literal_List :=
Get_Enumeration_Literal_List (Get_Base_Type (El_Type));
else
Literal_List := Null_Iir_Flist;
end if;
for I in 1 .. Len loop
Pos := Str_Table.Element_String8 (Str_Id, I);
if Literal_List /= Null_Iir_Flist then
Lit := Get_Nth_Element (Literal_List, Natural (Pos));
Id := Get_Identifier (Lit);
else
Id := Name_Table.Get_Identifier (Character'Val (Pos));
end if;
pragma Assert (Name_Table.Is_Character (Id));
C := Name_Table.Get_Character (Id);
if C = '"' then
Disp_Char (Ctxt, C);
end if;
Disp_Char (Ctxt, C);
end loop;
Disp_Char (Ctxt, '"');
Close_Lit (Ctxt);
end Disp_String_Literal_Raw;
procedure Disp_String_Literal
(Ctxt : in out Ctxt_Class; Str : Iir; El_Type : Iir) is
begin
if Get_Literal_Length (Str) /= 0 then
declare
Tkind : Token_Type;
begin
if Get_Bit_String_Base (Str) /= Base_None then
Tkind := Tok_Bit_String;
else
Tkind := Tok_String;
end if;
Disp_Literal_From_Source (Ctxt, Str, Tkind);
end;
else
Disp_String_Literal_Raw (Ctxt, Str, El_Type);
end if;
end Disp_String_Literal;
procedure Print (Ctxt : in out Ctxt_Class; Expr: Iir)
is
Orig : Iir;
begin
case Get_Kind (Expr) is
when Iir_Kind_Integer_Literal =>
Orig := Get_Literal_Origin (Expr);
if Dump_Origin_Flag and then Orig /= Null_Iir then
Print (Ctxt, Orig);
else
if Get_Literal_Length (Expr) /= 0 then
Disp_Literal_From_Source (Ctxt, Expr, Tok_Integer);
else
Disp_Int64 (Ctxt, Get_Value (Expr));
end if;
end if;
when Iir_Kind_Floating_Point_Literal =>
Orig := Get_Literal_Origin (Expr);
if Dump_Origin_Flag and then Orig /= Null_Iir then
Print (Ctxt, Orig);
else
if Get_Literal_Length (Expr) /= 0 then
Disp_Literal_From_Source (Ctxt, Expr, Tok_Real);
else
Disp_Fp64 (Ctxt, Get_Fp_Value (Expr));
end if;
end if;
when Iir_Kind_String_Literal8 =>
Orig := Get_Literal_Origin (Expr);
if Dump_Origin_Flag and then Orig /= Null_Iir then
Print (Ctxt, Orig);
else
declare
Expr_Type : constant Iir := Get_Type (Expr);
El_Type : Iir;
begin
if Expr_Type /= Null_Iir then
El_Type := Get_Element_Subtype (Expr_Type);
else
El_Type := Null_Iir;
end if;
Disp_String_Literal (Ctxt, Expr, El_Type);
if Flag_Disp_String_Literal_Type or Flags.List_Verbose then
OOB.Put ("[type: ");
Disp_Type (Ctxt, Expr_Type);
OOB.Put ("]");
end if;
end;
end if;
when Iir_Kind_Physical_Fp_Literal
| Iir_Kind_Physical_Int_Literal =>
Orig := Get_Literal_Origin (Expr);
if Dump_Origin_Flag and then Orig /= Null_Iir then
Print (Ctxt, Orig);
else
Disp_Physical_Literal (Ctxt, Expr);
end if;
when Iir_Kind_Enumeration_Literal =>
Orig := Get_Literal_Origin (Expr);
if Dump_Origin_Flag and then Orig /= Null_Iir then
Print (Ctxt, Orig);
else
Disp_Name_Of (Ctxt, Expr);
end if;
when Iir_Kind_Overflow_Literal =>
Orig := Get_Literal_Origin (Expr);
if Dump_Origin_Flag and then Orig /= Null_Iir then
Print (Ctxt, Orig);
else
Start_Lit (Ctxt, Tok_Integer);
Disp_Str (Ctxt, "*OVERFLOW*");
Close_Lit (Ctxt);
end if;
when Iir_Kind_Object_Alias_Declaration =>
Disp_Name_Of (Ctxt, Expr);
when Iir_Kind_Aggregate =>
Disp_Aggregate (Ctxt, Expr);
when Iir_Kind_Null_Literal =>
Disp_Token (Ctxt, Tok_Null);
when Iir_Kind_Simple_Aggregate =>
Orig := Get_Literal_Origin (Expr);
if Dump_Origin_Flag and then Orig /= Null_Iir then
Print (Ctxt, Orig);
else
Disp_Simple_Aggregate (Ctxt, Expr);
end if;
when Iir_Kind_Attribute_Value =>
Disp_Attribute_Value (Ctxt, Expr);
when Iir_Kind_Attribute_Name =>
Disp_Attribute_Name (Ctxt, Expr);
when Iir_Kind_Element_Declaration =>
Disp_Name_Of (Ctxt, Expr);
when Iir_Kind_Signal_Declaration
| Iir_Kind_Guard_Signal_Declaration
| Iir_Kind_File_Declaration
| Iir_Kind_Iterator_Declaration =>
Disp_Name_Of (Ctxt, Expr);
return;
when Iir_Kind_Reference_Name =>
declare
Name : constant Iir := Get_Referenced_Name (Expr);
begin
if Is_Valid (Name) then
Print (Ctxt, Name);
else
Print (Ctxt, Get_Named_Entity (Expr));
end if;
end;
when Iir_Kinds_Dyadic_Operator =>
Disp_Dyadic_Operator (Ctxt, Expr);
when Iir_Kinds_Monadic_Operator =>
Disp_Monadic_Operator (Ctxt, Expr);
when Iir_Kind_Function_Call =>
Disp_Function_Call (Ctxt, Expr);
when Iir_Kind_Parenthesis_Expression =>
Disp_Token (Ctxt, Tok_Left_Paren);
Print (Ctxt, Get_Expression (Expr));
Disp_Token (Ctxt, Tok_Right_Paren);
when Iir_Kind_Type_Conversion =>
Print (Ctxt, Get_Type_Mark (Expr));
Disp_Token (Ctxt, Tok_Left_Paren);
Print (Ctxt, Get_Expression (Expr));
Disp_Token (Ctxt, Tok_Right_Paren);
when Iir_Kind_Qualified_Expression =>
declare
Qexpr : constant Iir := Get_Expression (Expr);
Has_Paren : constant Boolean :=
Get_Kind (Qexpr) = Iir_Kind_Parenthesis_Expression
or else Get_Kind (Qexpr) = Iir_Kind_Aggregate;
begin
Print (Ctxt, Get_Type_Mark (Expr));
Disp_Token (Ctxt, Tok_Tick);
if not Has_Paren then
Disp_Token (Ctxt, Tok_Left_Paren);
end if;
Print (Ctxt, Qexpr);
if not Has_Paren then
Disp_Token (Ctxt, Tok_Right_Paren);
end if;
end;
when Iir_Kind_Allocator_By_Expression =>
Disp_Token (Ctxt, Tok_New);
Print (Ctxt, Get_Expression (Expr));
when Iir_Kind_Allocator_By_Subtype =>
Disp_Token (Ctxt, Tok_New);
Disp_Subtype_Indication (Ctxt, Get_Subtype_Indication (Expr));
when Iir_Kind_Indexed_Name =>
Disp_Indexed_Name (Ctxt, Expr);
when Iir_Kind_Slice_Name =>
Print (Ctxt, Get_Prefix (Expr));
Disp_Token (Ctxt, Tok_Left_Paren);
Disp_Range (Ctxt, Get_Suffix (Expr));
Disp_Token (Ctxt, Tok_Right_Paren);
when Iir_Kind_Selected_Element =>
Print (Ctxt, Get_Prefix (Expr));
Disp_Token (Ctxt, Tok_Dot);
Disp_Name_Of (Ctxt, Get_Named_Entity (Expr));
when Iir_Kind_Implicit_Dereference =>
Print (Ctxt, Get_Prefix (Expr));
when Iir_Kind_Left_Type_Attribute =>
Disp_Name_Attribute (Ctxt, Expr, Name_Left);
when Iir_Kind_Right_Type_Attribute =>
Disp_Name_Attribute (Ctxt, Expr, Name_Right);
when Iir_Kind_High_Type_Attribute =>
Disp_Name_Attribute (Ctxt, Expr, Name_High);
when Iir_Kind_Low_Type_Attribute =>
Disp_Name_Attribute (Ctxt, Expr, Name_Low);
when Iir_Kind_Ascending_Type_Attribute =>
Disp_Name_Attribute (Ctxt, Expr, Name_Ascending);
when Iir_Kind_Stable_Attribute =>
Disp_Parametered_Attribute (Ctxt, Name_Stable, Expr);
when Iir_Kind_Quiet_Attribute =>
Disp_Parametered_Attribute (Ctxt, Name_Quiet, Expr);
when Iir_Kind_Delayed_Attribute =>
Disp_Parametered_Attribute (Ctxt, Name_Delayed, Expr);
when Iir_Kind_Transaction_Attribute =>
Disp_Name_Attribute (Ctxt, Expr, Name_Transaction);
when Iir_Kind_Event_Attribute =>
Disp_Name_Attribute (Ctxt, Expr, Name_Event);
when Iir_Kind_Active_Attribute =>
Disp_Name_Attribute (Ctxt, Expr, Name_Active);
when Iir_Kind_Driving_Attribute =>
Disp_Name_Attribute (Ctxt, Expr, Name_Driving);
when Iir_Kind_Driving_Value_Attribute =>
Disp_Name_Attribute (Ctxt, Expr, Name_Driving_Value);
when Iir_Kind_Last_Value_Attribute =>
Disp_Name_Attribute (Ctxt, Expr, Name_Last_Value);
when Iir_Kind_Last_Active_Attribute =>
Disp_Name_Attribute (Ctxt, Expr, Name_Last_Active);
when Iir_Kind_Last_Event_Attribute =>
Disp_Name_Attribute (Ctxt, Expr, Name_Last_Event);
when Iir_Kind_Pos_Attribute =>
Disp_Parametered_Type_Attribute (Ctxt, Name_Pos, Expr);
when Iir_Kind_Val_Attribute =>
Disp_Parametered_Type_Attribute (Ctxt, Name_Val, Expr);
when Iir_Kind_Succ_Attribute =>
Disp_Parametered_Type_Attribute (Ctxt, Name_Succ, Expr);
when Iir_Kind_Pred_Attribute =>
Disp_Parametered_Type_Attribute (Ctxt, Name_Pred, Expr);
when Iir_Kind_Leftof_Attribute =>
Disp_Parametered_Type_Attribute (Ctxt, Name_Leftof, Expr);
when Iir_Kind_Rightof_Attribute =>
Disp_Parametered_Type_Attribute (Ctxt, Name_Rightof, Expr);
when Iir_Kind_Length_Array_Attribute =>
Disp_Parametered_Attribute (Ctxt, Name_Length, Expr);
when Iir_Kind_Range_Array_Attribute =>
Disp_Parametered_Attribute (Ctxt, Name_Range, Expr);
when Iir_Kind_Reverse_Range_Array_Attribute =>
Disp_Parametered_Attribute (Ctxt, Name_Reverse_Range, Expr);
when Iir_Kind_Left_Array_Attribute =>
Disp_Parametered_Attribute (Ctxt, Name_Left, Expr);
when Iir_Kind_Right_Array_Attribute =>
Disp_Parametered_Attribute (Ctxt, Name_Right, Expr);
when Iir_Kind_Low_Array_Attribute =>
Disp_Parametered_Attribute (Ctxt, Name_Low, Expr);
when Iir_Kind_High_Array_Attribute =>
Disp_Parametered_Attribute (Ctxt, Name_High, Expr);
when Iir_Kind_Ascending_Array_Attribute =>
Disp_Parametered_Attribute (Ctxt, Name_Ascending, Expr);
when Iir_Kind_Image_Attribute =>
Disp_Parametered_Attribute (Ctxt, Name_Image, Expr);
when Iir_Kind_Value_Attribute =>
Disp_Parametered_Attribute (Ctxt, Name_Value, Expr);
when Iir_Kind_Simple_Name_Attribute =>
Disp_Name_Attribute (Ctxt, Expr, Name_Simple_Name);
when Iir_Kind_Instance_Name_Attribute =>
Disp_Name_Attribute (Ctxt, Expr, Name_Instance_Name);
when Iir_Kind_Path_Name_Attribute =>
Disp_Name_Attribute (Ctxt, Expr, Name_Path_Name);
when Iir_Kinds_Type_And_Subtype_Definition =>
Disp_Type (Ctxt, Expr);
when Iir_Kind_Range_Expression =>
Disp_Range (Ctxt, Expr);
when Iir_Kind_Selected_By_All_Name
| Iir_Kind_Dereference =>
Print (Ctxt, Get_Prefix (Expr));
Disp_Token (Ctxt, Tok_Dot, Tok_All);
when Iir_Kind_Simple_Name
| Iir_Kind_Character_Literal =>
Disp_Identifier (Ctxt, Expr);
when Iir_Kind_Operator_Symbol =>
Disp_Function_Name (Ctxt, Expr);
when Iir_Kind_Selected_Name =>
Print (Ctxt, Get_Prefix (Expr));
Disp_Token (Ctxt, Tok_Dot);
Disp_Function_Name (Ctxt, Expr);
when Iir_Kind_Parenthesis_Name =>
Print (Ctxt, Get_Prefix (Expr));
Disp_Association_Chain (Ctxt, Get_Association_Chain (Expr));
when Iir_Kind_Base_Attribute =>
Disp_Name_Attribute (Ctxt, Expr, Name_Base);
when Iir_Kind_Subtype_Attribute =>
Disp_Name_Attribute (Ctxt, Expr, Name_Subtype);
when Iir_Kind_Type_Declaration
| Iir_Kind_Subtype_Declaration
| Iir_Kind_Unit_Declaration
| Iir_Kinds_Interface_Object_Declaration
| Iir_Kind_Variable_Declaration
| Iir_Kind_Constant_Declaration
| Iir_Kind_Function_Declaration
| Iir_Kind_Procedure_Declaration
| Iir_Kind_Terminal_Declaration
| Iir_Kind_Component_Declaration
| Iir_Kind_Group_Template_Declaration =>
Disp_Name_Of (Ctxt, Expr);
when Iir_Kind_Signature =>
Disp_Signature (Ctxt, Expr);
when Iir_Kind_Error =>
declare
Orig : constant Iir := Get_Error_Origin (Expr);
begin
if Orig /= Null_Iir then
Print (Ctxt, Orig);
else
Error_Kind ("print/error", Expr);
end if;
end;
when others =>
Error_Kind ("print", Expr);
end case;
end Print;
procedure Disp_Block_Header
(Ctxt : in out Ctxt_Class; Header : Iir_Block_Header)
is
Chain : Iir;
begin
if Header = Null_Iir then
return;
end if;
Chain := Get_Generic_Chain (Header);
if Chain /= Null_Iir then
Disp_Generics (Ctxt, Header);
Chain := Get_Generic_Map_Aspect_Chain (Header);
if Chain /= Null_Iir then
Start_Hbox (Ctxt);
Disp_Generic_Map_Aspect (Ctxt, Header);
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end if;
end if;
Chain := Get_Port_Chain (Header);
if Chain /= Null_Iir then
Disp_Ports (Ctxt, Header);
Chain := Get_Port_Map_Aspect_Chain (Header);
if Chain /= Null_Iir then
Start_Hbox (Ctxt);
Disp_Port_Map_Aspect (Ctxt, Header);
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end if;
end if;
end Disp_Block_Header;
procedure Disp_Block_Statement
(Ctxt : in out Ctxt_Class; Block: Iir_Block_Statement)
is
Sensitivity: Iir_List;
Guard : Iir_Guard_Signal_Declaration;
begin
Start_Hbox (Ctxt);
Disp_Label (Ctxt, Block);
Disp_Token (Ctxt, Tok_Block);
Guard := Get_Guard_Decl (Block);
if Guard /= Null_Iir then
Disp_Token (Ctxt, Tok_Left_Paren);
Print (Ctxt, Get_Guard_Expression (Guard));
Disp_Token (Ctxt, Tok_Right_Paren);
end if;
if Get_Has_Is (Block) then
Disp_Token (Ctxt, Tok_Is);
end if;
Close_Hbox (Ctxt);
if Flags.List_Verbose and then Guard /= Null_Iir then
Sensitivity := Get_Guard_Sensitivity_List (Guard);
if Sensitivity /= Null_Iir_List then
OOB.Put ("-- guard sensitivity list ");
Disp_Designator_List (Ctxt, Sensitivity);
end if;
end if;
Start_Vbox (Ctxt);
Disp_Block_Header (Ctxt, Get_Block_Header (Block));
Disp_Declaration_Chain (Ctxt, Block);
Close_Vbox (Ctxt);
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Begin);
Close_Hbox (Ctxt);
Start_Vbox (Ctxt);
Disp_Concurrent_Statement_Chain (Ctxt, Block);
Close_Vbox (Ctxt);
Disp_End (Ctxt, Block, Tok_Block);
end Disp_Block_Statement;
procedure Disp_Generate_Statement_Body (Ctxt : in out Ctxt_Class; Bod : Iir)
is
Has_Beg : constant Boolean := Get_Has_Begin (Bod);
Has_End : constant Boolean := Get_Has_End (Bod);
begin
Disp_Declaration_Chain (Ctxt, Bod);
if Has_Beg then
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Begin);
Close_Hbox (Ctxt);
end if;
if Has_Beg or Has_End then
Start_Vbox (Ctxt);
end if;
Disp_Concurrent_Statement_Chain (Ctxt, Bod);
if Has_Beg or Has_End then
Close_Vbox (Ctxt);
end if;
if Has_End then
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_End);
if Get_End_Has_Identifier (Bod) then
Disp_Ident (Ctxt, Get_Alternative_Label (Bod));
end if;
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end if;
end Disp_Generate_Statement_Body;
procedure Disp_For_Generate_Statement
(Ctxt : in out Ctxt_Class; Stmt : Iir) is
begin
Start_Hbox (Ctxt);
Disp_Label (Ctxt, Stmt);
Disp_Token (Ctxt, Tok_For);
Disp_Parameter_Specification (Ctxt, Get_Parameter_Specification (Stmt));
Disp_Token (Ctxt, Tok_Generate);
Close_Hbox (Ctxt);
Start_Vbox (Ctxt);
Disp_Generate_Statement_Body
(Ctxt, Get_Generate_Statement_Body (Stmt));
Close_Vbox (Ctxt);
Disp_End (Ctxt, Stmt, Tok_Generate);
end Disp_For_Generate_Statement;
procedure Disp_If_Generate_Statement (Ctxt : in out Ctxt_Class; Stmt : Iir)
is
Bod : Iir;
Clause : Iir;
Cond : Iir;
begin
Start_Hbox (Ctxt);
Disp_Label (Ctxt, Stmt);
Disp_Token (Ctxt, Tok_If);
Cond := Get_Condition (Stmt);
Clause := Stmt;
loop
Bod := Get_Generate_Statement_Body (Clause);
if Get_Has_Label (Bod) then
Disp_Ident (Ctxt, Get_Alternative_Label (Bod));
Disp_Token (Ctxt, Tok_Colon);
end if;
if Cond /= Null_Iir then
Print (Ctxt, Cond);
end if;
Disp_Token (Ctxt, Tok_Generate);
Close_Hbox (Ctxt);
Start_Vbox (Ctxt);
Disp_Generate_Statement_Body (Ctxt, Bod);
Close_Vbox (Ctxt);
Clause := Get_Generate_Else_Clause (Clause);
exit when Clause = Null_Iir;
Start_Hbox (Ctxt);
Cond := Get_Condition (Clause);
if Cond = Null_Iir then
Disp_Token (Ctxt, Tok_Else);
else
Disp_Token (Ctxt, Tok_Elsif);
end if;
end loop;
Disp_End (Ctxt, Stmt, Tok_Generate);
end Disp_If_Generate_Statement;
procedure Disp_Case_Generate_Statement
(Ctxt : in out Ctxt_Class; Stmt : Iir)
is
Bod : Iir;
Assoc : Iir;
begin
Start_Hbox (Ctxt);
Disp_Label (Ctxt, Stmt);
Disp_Token (Ctxt, Tok_Case);
Print (Ctxt, Get_Expression (Stmt));
Disp_Token (Ctxt, Tok_Generate);
Close_Hbox (Ctxt);
Start_Vbox (Ctxt);
Assoc := Get_Case_Statement_Alternative_Chain (Stmt);
while Assoc /= Null_Iir loop
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_When);
Bod := Get_Associated_Block (Assoc);
if Get_Has_Label (Bod) then
Disp_Ident (Ctxt, Get_Alternative_Label (Bod));
Disp_Token (Ctxt, Tok_Colon);
end if;
Disp_Choice (Ctxt, Assoc);
Disp_Token (Ctxt, Tok_Double_Arrow);
Close_Hbox (Ctxt);
Start_Vbox (Ctxt);
Disp_Generate_Statement_Body (Ctxt, Bod);
Close_Vbox (Ctxt);
end loop;
Close_Vbox (Ctxt);
Disp_End (Ctxt, Stmt, Tok_Generate);
end Disp_Case_Generate_Statement;
procedure Disp_PSL_NFA (Ctxt : in out Ctxt_Class; N : PSL.Nodes.NFA)
is
use PSL.NFAs;
procedure Disp_State (S : NFA_State)
is
Str : constant String := Int32'Image (Get_State_Label (S));
begin
OOB.Put (Str (2 .. Str'Last));
end Disp_State;
S : NFA_State;
E : NFA_Edge;
begin
if N /= No_NFA then
OOB.Put ("-- start: ");
Disp_State (Get_Start_State (N));
OOB.Put (", final: ");
Disp_State (Get_Final_State (N));
OOB.New_Line;
S := Get_First_State (N);
while S /= No_State loop
E := Get_First_Src_Edge (S);
while E /= No_Edge loop
OOB.Put ("-- ");
Disp_State (S);
OOB.Put (" -> ");
Disp_State (Get_Edge_Dest (E));
OOB.Put (": ");
Disp_Psl_Expression (Ctxt, Get_Edge_Expr (E));
OOB.New_Line;
E := Get_Next_Src_Edge (E);
end loop;
S := Get_Next_State (S);
end loop;
end if;
end Disp_PSL_NFA;
procedure Disp_Psl_Assert_Statement
(Ctxt : in out Ctxt_Class; Stmt : Iir) is
begin
Start_Hbox (Ctxt);
if Vhdl_Std < Vhdl_08 then
OOB.Put ("--psl ");
end if;
Disp_Label (Ctxt, Stmt);
Disp_Postponed (Ctxt, Stmt);
Disp_Token (Ctxt, Tok_Assert);
Disp_Psl_Expression (Ctxt, Get_Psl_Property (Stmt));
Disp_Report_Expression (Ctxt, Stmt);
Disp_Severity_Expression (Ctxt, Stmt);
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
Disp_PSL_NFA (Get_PSL_NFA (Stmt));
end Disp_Psl_Assert_Statement;
procedure Disp_Psl_Cover_Statement
(Ctxt : in out Ctxt_Class; Stmt : Iir) is
begin
Start_Hbox (Ctxt);
if Vhdl_Std < Vhdl_08 then
OOB.Put ("--psl ");
end if;
Disp_Label (Ctxt, Stmt);
Disp_Token (Ctxt, Tok_Psl_Cover);
Print_Sequence (Ctxt, Get_Psl_Sequence (Stmt));
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
Disp_PSL_NFA (Get_PSL_NFA (Stmt));
end Disp_Psl_Cover_Statement;
procedure Disp_Simple_Simultaneous_Statement
(Ctxt : in out Ctxt_Class; Stmt : Iir) is
begin
Start_Hbox (Ctxt);
Disp_Label (Ctxt, Stmt);
Print (Ctxt, Get_Simultaneous_Left (Stmt));
Disp_Token (Ctxt, Tok_Equal_Equal);
Print (Ctxt, Get_Simultaneous_Right (Stmt));
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end Disp_Simple_Simultaneous_Statement;
procedure Disp_Concurrent_Statement (Ctxt : in out Ctxt_Class; Stmt: Iir) is
begin
case Get_Kind (Stmt) is
when Iir_Kind_Concurrent_Simple_Signal_Assignment =>
Disp_Concurrent_Simple_Signal_Assignment (Ctxt, Stmt);
when Iir_Kind_Concurrent_Conditional_Signal_Assignment =>
Disp_Concurrent_Conditional_Signal_Assignment (Ctxt, Stmt);
when Iir_Kind_Concurrent_Selected_Signal_Assignment =>
Disp_Concurrent_Selected_Signal_Assignment (Ctxt, Stmt);
when Iir_Kind_Sensitized_Process_Statement
| Iir_Kind_Process_Statement =>
Disp_Process_Statement (Ctxt, Stmt);
when Iir_Kind_Concurrent_Assertion_Statement =>
Disp_Assertion_Statement (Ctxt, Stmt);
when Iir_Kind_Component_Instantiation_Statement =>
Disp_Component_Instantiation_Statement (Ctxt, Stmt);
when Iir_Kind_Concurrent_Procedure_Call_Statement =>
Disp_Procedure_Call (Ctxt, Stmt);
when Iir_Kind_Block_Statement =>
Disp_Block_Statement (Ctxt, Stmt);
when Iir_Kind_If_Generate_Statement =>
Disp_If_Generate_Statement (Ctxt, Stmt);
when Iir_Kind_Case_Generate_Statement =>
Disp_Case_Generate_Statement (Ctxt, Stmt);
when Iir_Kind_For_Generate_Statement =>
Disp_For_Generate_Statement (Ctxt, Stmt);
when Iir_Kind_Psl_Default_Clock =>
Disp_Psl_Default_Clock (Ctxt, Stmt);
when Iir_Kind_Psl_Declaration
| Iir_Kind_Psl_Endpoint_Declaration =>
Disp_Psl_Declaration (Ctxt, Stmt);
when Iir_Kind_Psl_Assert_Statement =>
Disp_Psl_Assert_Statement (Ctxt, Stmt);
when Iir_Kind_Psl_Cover_Statement =>
Disp_Psl_Cover_Statement (Ctxt, Stmt);
when Iir_Kind_Simple_Simultaneous_Statement =>
Disp_Simple_Simultaneous_Statement (Ctxt, Stmt);
when others =>
Error_Kind ("disp_concurrent_statement", Stmt);
end case;
end Disp_Concurrent_Statement;
procedure Disp_Package_Declaration
(Ctxt : in out Ctxt_Class; Decl: Iir_Package_Declaration)
is
Header : constant Iir := Get_Package_Header (Decl);
begin
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Package);
Disp_Identifier (Ctxt, Decl);
Disp_Token (Ctxt, Tok_Is);
Close_Hbox (Ctxt);
Start_Vbox (Ctxt);
if Header /= Null_Iir then
Disp_Generics (Ctxt, Header);
end if;
Disp_Declaration_Chain (Ctxt, Decl);
Close_Vbox (Ctxt);
Disp_End (Ctxt, Decl, Tok_Package);
end Disp_Package_Declaration;
procedure Disp_Package_Body (Ctxt : in out Ctxt_Class; Decl: Iir) is
begin
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Package, Tok_Body);
Disp_Identifier (Ctxt, Decl);
Disp_Token (Ctxt, Tok_Is);
Close_Hbox (Ctxt);
Start_Vbox (Ctxt);
Disp_Declaration_Chain (Ctxt, Decl);
Close_Vbox (Ctxt);
Disp_End (Ctxt, Decl, Tok_Package, Tok_Body);
end Disp_Package_Body;
procedure Disp_Package_Instantiation_Declaration
(Ctxt : in out Ctxt_Class; Decl: Iir) is
begin
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Package);
Disp_Identifier (Ctxt, Decl);
Disp_Token (Ctxt, Tok_Is, Tok_New);
Print (Ctxt, Get_Uninstantiated_Package_Name (Decl));
Disp_Generic_Map_Aspect (Ctxt, Decl);
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end Disp_Package_Instantiation_Declaration;
procedure Disp_Binding_Indication (Ctxt : in out Ctxt_Class; Bind : Iir)
is
El : Iir;
begin
El := Get_Entity_Aspect (Bind);
if El /= Null_Iir then
Disp_Token (Ctxt, Tok_Use);
Disp_Entity_Aspect (Ctxt, El);
end if;
El := Get_Generic_Map_Aspect_Chain (Bind);
if El /= Null_Iir then
Disp_Generic_Map_Aspect (Ctxt, Bind);
end if;
El := Get_Port_Map_Aspect_Chain (Bind);
if El /= Null_Iir then
Disp_Port_Map_Aspect (Ctxt, Bind);
end if;
end Disp_Binding_Indication;
procedure Disp_Component_Configuration
(Ctxt : in out Ctxt_Class; Conf : Iir_Component_Configuration)
is
Block : Iir_Block_Configuration;
Binding : Iir;
begin
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_For);
Disp_Instantiation_List (Ctxt, Get_Instantiation_List (Conf));
Disp_Token (Ctxt, Tok_Colon);
Print (Ctxt, Get_Component_Name (Conf));
Close_Hbox (Ctxt);
Start_Vbox (Ctxt);
Binding := Get_Binding_Indication (Conf);
if Binding /= Null_Iir then
Start_Hbox (Ctxt);
Disp_Binding_Indication (Ctxt, Binding);
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
end if;
Block := Get_Block_Configuration (Conf);
if Block /= Null_Iir then
Disp_Block_Configuration (Ctxt, Block);
end if;
Close_Vbox (Ctxt);
Disp_End (Ctxt, Tok_For);
end Disp_Component_Configuration;
procedure Disp_Configuration_Items
(Ctxt : in out Ctxt_Class; Conf : Iir_Block_Configuration)
is
El : Iir;
begin
El := Get_Configuration_Item_Chain (Conf);
while El /= Null_Iir loop
case Get_Kind (El) is
when Iir_Kind_Block_Configuration =>
Disp_Block_Configuration (Ctxt, El);
when Iir_Kind_Component_Configuration =>
Disp_Component_Configuration (Ctxt, El);
when Iir_Kind_Configuration_Specification =>
-- This may be created by canon.
Disp_Configuration_Specification (Ctxt, El);
Disp_Token (Ctxt, Tok_End, Tok_For);
Disp_Token (Ctxt, Tok_Semi_Colon);
when others =>
Error_Kind ("disp_configuration_item_list", El);
end case;
El := Get_Chain (El);
end loop;
end Disp_Configuration_Items;
procedure Disp_Block_Configuration
(Ctxt : in out Ctxt_Class; Block: Iir_Block_Configuration)
is
Spec : Iir;
begin
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_For);
Spec := Get_Block_Specification (Block);
case Get_Kind (Spec) is
when Iir_Kind_Block_Statement
| Iir_Kind_If_Generate_Statement
| Iir_Kind_For_Generate_Statement
| Iir_Kind_Architecture_Body =>
Disp_Name_Of (Ctxt, Spec);
when Iir_Kind_Indexed_Name =>
declare
Index_List : constant Iir_Flist := Get_Index_List (Spec);
begin
Disp_Name_Of (Ctxt, Get_Prefix (Spec));
Disp_Token (Ctxt, Tok_Left_Paren);
if Index_List = Iir_Flist_Others then
Disp_Token (Ctxt, Tok_Others);
else
Print (Ctxt, Get_Nth_Element (Index_List, 0));
end if;
Disp_Token (Ctxt, Tok_Right_Paren);
end;
when Iir_Kind_Slice_Name =>
Disp_Name_Of (Ctxt, Get_Prefix (Spec));
Disp_Token (Ctxt, Tok_Left_Paren);
Disp_Range (Ctxt, Get_Suffix (Spec));
Disp_Token (Ctxt, Tok_Right_Paren);
when Iir_Kind_Simple_Name
| Iir_Kind_Parenthesis_Name =>
Print (Ctxt, Spec);
when others =>
Error_Kind ("disp_block_configuration", Spec);
end case;
Close_Hbox (Ctxt);
Start_Vbox (Ctxt);
Disp_Declaration_Chain (Ctxt, Block);
Disp_Configuration_Items (Ctxt, Block);
Close_Vbox (Ctxt);
Disp_End (Ctxt, Tok_For);
end Disp_Block_Configuration;
procedure Disp_Configuration_Declaration
(Ctxt : in out Ctxt_Class; Decl: Iir_Configuration_Declaration) is
begin
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Configuration);
Disp_Name_Of (Ctxt, Decl);
Disp_Token (Ctxt, Tok_Of);
Print (Ctxt, Get_Entity_Name (Decl));
Disp_Token (Ctxt, Tok_Is);
Close_Hbox (Ctxt);
Start_Vbox (Ctxt);
Disp_Declaration_Chain (Ctxt, Decl);
Disp_Block_Configuration (Ctxt, Get_Block_Configuration (Decl));
Close_Vbox (Ctxt);
Disp_End (Ctxt, Decl, Tok_Configuration);
end Disp_Configuration_Declaration;
procedure Disp_Context_Items (Ctxt : in out Ctxt_Class; First : Iir)
is
Decl: Iir;
Next_Decl : Iir;
begin
Decl := First;
while Decl /= Null_Iir loop
Next_Decl := Get_Chain (Decl);
case Iir_Kinds_Clause (Get_Kind (Decl)) is
when Iir_Kind_Use_Clause =>
Disp_Use_Clause (Ctxt, Decl);
when Iir_Kind_Library_Clause =>
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Library);
Disp_Identifier (Ctxt, Decl);
while Get_Has_Identifier_List (Decl) loop
Decl := Next_Decl;
Next_Decl := Get_Chain (Decl);
Disp_Token (Ctxt, Tok_Comma);
Disp_Identifier (Ctxt, Decl);
end loop;
Disp_Token (Ctxt, Tok_Semi_Colon);
Close_Hbox (Ctxt);
when Iir_Kind_Context_Reference =>
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Context);
declare
Ref : Iir;
begin
Ref := Decl;
loop
Print (Ctxt, Get_Selected_Name (Ref));
Ref := Get_Context_Reference_Chain (Ref);
exit when Ref = Null_Iir;
Disp_Token (Ctxt, Tok_Comma);
end loop;
Disp_Token (Ctxt, Tok_Semi_Colon);
end;
Close_Hbox (Ctxt);
end case;
Decl := Next_Decl;
end loop;
end Disp_Context_Items;
procedure Disp_Context_Declaration (Ctxt : in out Ctxt_Class; Decl: Iir) is
begin
Start_Hbox (Ctxt);
Disp_Token (Ctxt, Tok_Context);
Disp_Name_Of (Ctxt, Decl);
Disp_Token (Ctxt, Tok_Is);
Close_Hbox (Ctxt);
Start_Vbox (Ctxt);
Disp_Context_Items (Ctxt, Get_Context_Items (Decl));
Close_Vbox (Ctxt);
Disp_End (Ctxt, Decl, Tok_Context);
end Disp_Context_Declaration;
procedure Disp_Design_Unit (Ctxt : in out Ctxt_Class; Unit: Iir_Design_Unit)
is
Decl: Iir;
begin
Disp_Context_Items (Ctxt, Get_Context_Items (Unit));
Decl := Get_Library_Unit (Unit);
case Iir_Kinds_Library_Unit (Get_Kind (Decl)) is
when Iir_Kind_Entity_Declaration =>
Disp_Entity_Declaration (Ctxt, Decl);
when Iir_Kind_Architecture_Body =>
Disp_Architecture_Body (Ctxt, Decl);
when Iir_Kind_Package_Declaration =>
Disp_Package_Declaration (Ctxt, Decl);
when Iir_Kind_Package_Body =>
Disp_Package_Body (Ctxt, Decl);
when Iir_Kind_Package_Instantiation_Declaration =>
Disp_Package_Instantiation_Declaration (Ctxt, Decl);
when Iir_Kind_Configuration_Declaration =>
Disp_Configuration_Declaration (Ctxt, Decl);
when Iir_Kind_Context_Declaration =>
Disp_Context_Declaration (Ctxt, Decl);
end case;
end Disp_Design_Unit;
procedure Disp_Vhdl (Ctxt : in out Ctxt_Class; N : Iir) is
begin
case Get_Kind (N) is
when Iir_Kind_Design_File =>
declare
Unit : Iir;
begin
Unit := Get_First_Design_Unit (N);
while Unit /= Null_Iir loop
Disp_Vhdl (Ctxt, Unit);
Unit := Get_Chain (Unit);
end loop;
end;
when Iir_Kind_Design_Unit =>
Disp_Design_Unit (Ctxt, N);
when Iir_Kind_Enumeration_Type_Definition =>
Disp_Enumeration_Type_Definition (Ctxt, N);
when Iir_Kind_Concurrent_Conditional_Signal_Assignment =>
Disp_Concurrent_Conditional_Signal_Assignment (Ctxt, N);
when Iir_Kinds_Dyadic_Operator =>
Disp_Dyadic_Operator (Ctxt, N);
when Iir_Kind_Interface_Signal_Declaration
| Iir_Kind_Signal_Declaration
| Iir_Kind_Object_Alias_Declaration =>
Disp_Name_Of (Ctxt, N);
when Iir_Kind_Enumeration_Literal =>
Disp_Identifier (Ctxt, N);
when Iir_Kind_Component_Instantiation_Statement =>
Disp_Component_Instantiation_Statement (Ctxt, N);
when Iir_Kind_Array_Type_Definition =>
Disp_Array_Type_Definition (Ctxt, N);
when Iir_Kind_Package_Declaration =>
Disp_Package_Declaration (Ctxt, N);
when Iir_Kind_Wait_Statement =>
Disp_Wait_Statement (Ctxt, N);
when Iir_Kind_Selected_Name
| Iir_Kind_Selected_Element
| Iir_Kind_Indexed_Name
| Iir_Kind_Slice_Name =>
Print (Ctxt, N);
when Iir_Kind_Psl_Cover_Statement =>
Disp_Psl_Cover_Statement (Ctxt, N);
when others =>
Error_Kind ("disp", N);
end case;
end Disp_Vhdl;
procedure Disp_Int_Trim (Ctxt : in out Ctxt_Class; Str : String) is
begin
Start_Lit (Ctxt, Tok_Integer);
if Str (Str'First) = ' ' then
Disp_Str (Ctxt, Str (Str'First + 1 .. Str'Last));
else
Disp_Str (Ctxt, Str);
end if;
Close_Lit (Ctxt);
end Disp_Int_Trim;
procedure Disp_Int64 (Ctxt : in out Ctxt_Class; Val: Int64) is
begin
Disp_Int_Trim (Ctxt, Int64'Image (Val));
end Disp_Int64;
procedure Disp_Int32 (Ctxt : in out Ctxt_Class; Val: Iir_Int32) is
begin
Disp_Int_Trim (Ctxt, Iir_Int32'Image (Val));
end Disp_Int32;
procedure Disp_Fp64 (Ctxt : in out Ctxt_Class; Val: Fp64)
is
Str: constant String := Fp64'Image (Val);
begin
Start_Lit (Ctxt, Tok_Real);
if Str (Str'First) = ' ' then
Disp_Str (Ctxt, Str (Str'First + 1 .. Str'Last));
else
Disp_Str (Ctxt, Str);
end if;
Close_Lit (Ctxt);
end Disp_Fp64;
procedure Disp_Str (Ctxt : in out Ctxt_Class; Str : String) is
begin
for I in Str'Range loop
Disp_Char (Ctxt, Str (I));
end loop;
end Disp_Str;
function Need_Space (Tok, Prev_Tok : Token_Type) return Boolean is
begin
if Prev_Tok = Tok_Newline then
return False;
elsif Prev_Tok >= Tok_First_Keyword then
-- A space after a keyword.
if Tok /= Tok_Semi_Colon
and Tok /= Tok_Dot
then
return True;
end if;
elsif Tok >= Tok_First_Keyword then
-- Space before a keyword.
if Prev_Tok /= Tok_Dot
and Prev_Tok /= Tok_Left_Paren
then
return True;
end if;
elsif (Tok = Tok_Identifier
or Tok = Tok_String)
and (Prev_Tok = Tok_Identifier
or Prev_Tok = Tok_String
or Prev_Tok = Tok_Integer
or Prev_Tok = Tok_Real)
then
-- A space is needed between 2 identifiers.
return True;
elsif Prev_Tok = Tok_Comma
or Prev_Tok = Tok_Semi_Colon
or Prev_Tok = Tok_Colon
or Prev_Tok = Tok_Assign
or Prev_Tok = Tok_Double_Arrow
or Prev_Tok in Token_Relational_Operator_Type
or Prev_Tok in Token_Adding_Operator_Type
or Prev_Tok in Token_Multiplying_Operator_Type
or Prev_Tok = Tok_Bar
then
-- Always a space after ',', ':', ':='
return True;
elsif Tok = Tok_Left_Paren then
if Prev_Tok /= Tok_Tick and Prev_Tok /= Tok_Left_Paren then
-- A space before '('.
return True;
end if;
elsif Tok = Tok_Left_Bracket
or Tok = Tok_Assign
or Tok = Tok_Double_Arrow
or Tok in Token_Relational_Operator_Type
or Tok in Token_Adding_Operator_Type
or Tok in Token_Multiplying_Operator_Type
or Tok = Tok_Bar
then
-- Always a space before '[', ':='.
return True;
end if;
return False;
end Need_Space;
package Simple_Disp_Ctxt is
type Simple_Ctxt is new Disp_Ctxt with record
Vnum : Natural;
Hnum : Natural;
Prev_Tok : Token_Type;
end record;
procedure Init (Ctxt : out Simple_Ctxt);
procedure Start_Hbox (Ctxt : in out Simple_Ctxt);
procedure Close_Hbox (Ctxt : in out Simple_Ctxt);
procedure Start_Vbox (Ctxt : in out Simple_Ctxt);
procedure Close_Vbox (Ctxt : in out Simple_Ctxt);
procedure Disp_Token (Ctxt : in out Simple_Ctxt; Tok : Token_Type);
procedure Start_Lit (Ctxt : in out Simple_Ctxt; Tok : Token_Type);
procedure Disp_Char (Ctxt : in out Simple_Ctxt; C : Character);
procedure Close_Lit (Ctxt : in out Simple_Ctxt);
private
procedure Put (Ctxt : in out Simple_Ctxt; C : Character);
end Simple_Disp_Ctxt;
package body Simple_Disp_Ctxt is
procedure Init (Ctxt : out Simple_Ctxt) is
begin
Ctxt := (Vnum => 0,
Hnum => 0,
Prev_Tok => Tok_Newline);
end Init;
procedure Put (Ctxt : in out Simple_Ctxt; C : Character)
is
pragma Unreferenced (Ctxt);
begin
Simple_IO.Put (C);
end Put;
procedure Start_Hbox (Ctxt : in out Simple_Ctxt) is
begin
if Ctxt.Hnum = 0 then
for I in 1 .. Ctxt.Vnum loop
Put (Ctxt, ' ');
Put (Ctxt, ' ');
end loop;
end if;
Ctxt.Hnum := Ctxt.Hnum + 1;
end Start_Hbox;
procedure Close_Hbox (Ctxt : in out Simple_Ctxt) is
begin
Ctxt.Hnum := Ctxt.Hnum - 1;
if Ctxt.Hnum = 0 then
Put (Ctxt, ASCII.LF);
Ctxt.Prev_Tok := Tok_Newline;
end if;
end Close_Hbox;
procedure Start_Vbox (Ctxt : in out Simple_Ctxt) is
begin
pragma Assert (Ctxt.Hnum = 0);
Ctxt.Vnum := Ctxt.Vnum + 1;
end Start_Vbox;
procedure Close_Vbox (Ctxt : in out Simple_Ctxt) is
begin
Ctxt.Vnum := Ctxt.Vnum - 1;
end Close_Vbox;
procedure Disp_Space (Ctxt : in out Simple_Ctxt; Tok : Token_Type)
is
Prev_Tok : constant Token_Type := Ctxt.Prev_Tok;
begin
if Need_Space (Tok, Prev_Tok) then
Put (Ctxt, ' ');
end if;
Ctxt.Prev_Tok := Tok;
end Disp_Space;
procedure Disp_Token (Ctxt : in out Simple_Ctxt; Tok : Token_Type) is
begin
Disp_Space (Ctxt, Tok);
Disp_Str (Ctxt, Image (Tok));
end Disp_Token;
procedure Start_Lit (Ctxt : in out Simple_Ctxt; Tok : Token_Type) is
begin
Disp_Space (Ctxt, Tok);
end Start_Lit;
procedure Disp_Char (Ctxt : in out Simple_Ctxt; C : Character) is
begin
Put (Ctxt, C);
end Disp_Char;
procedure Close_Lit (Ctxt : in out Simple_Ctxt) is
begin
null;
end Close_Lit;
end Simple_Disp_Ctxt;
procedure Disp_Vhdl (N : Iir)
is
use Simple_Disp_Ctxt;
Ctxt : Simple_Ctxt;
begin
Init (Ctxt);
Disp_Vhdl (Ctxt, N);
end Disp_Vhdl;
procedure Disp_Expression (Expr: Iir)
is
use Simple_Disp_Ctxt;
Ctxt : Simple_Ctxt;
begin
Init (Ctxt);
Print (Ctxt, Expr);
end Disp_Expression;
procedure Disp_PSL_NFA (N : PSL.Nodes.NFA)
is
use Simple_Disp_Ctxt;
Ctxt : Simple_Ctxt;
begin
Init (Ctxt);
Disp_PSL_NFA (Ctxt, N);
end Disp_PSL_NFA;
end Vhdl.Prints;
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