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|
-- Canonicalization pass
-- Copyright (C) 2002, 2003, 2004, 2005, 2008 Tristan Gingold
--
-- GHDL is free software; you can redistribute it and/or modify it under
-- the terms of the GNU General Public License as published by the Free
-- Software Foundation; either version 2, or (at your option) any later
-- version.
--
-- GHDL is distributed in the hope that it will be useful, but WITHOUT ANY
-- WARRANTY; without even the implied warranty of MERCHANTABILITY or
-- FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
-- for more details.
--
-- You should have received a copy of the GNU General Public License
-- along with GHDL; see the file COPYING. If not, write to the Free
-- Software Foundation, 59 Temple Place - Suite 330, Boston, MA
-- 02111-1307, USA.
with Errorout; use Errorout;
with Iirs_Utils; use Iirs_Utils;
with Types; use Types;
with Flags; use Flags;
with Name_Table;
with Sem;
with Sem_Inst;
with Sem_Specs;
with Iir_Chains; use Iir_Chains;
with PSL.Nodes;
with PSL.Rewrites;
with PSL.Build;
with PSL.NFAs;
with PSL.NFAs.Utils;
with Canon_PSL;
package body Canon is
Canon_Flag_Set_Assoc_Formals : constant Boolean := False;
-- Canonicalize the chain of declarations in Declaration_Chain of
-- DECL_PARENT. PARENT must be the parent of the current statements chain,
-- or NULL_IIR if DECL_PARENT has no corresponding current statments.
procedure Canon_Declarations (Top : Iir_Design_Unit;
Decl_Parent : Iir;
Parent : Iir);
function Canon_Declaration (Top : Iir_Design_Unit;
Decl : Iir;
Parent : Iir;
Decl_Parent : Iir)
return Iir;
procedure Canon_Concurrent_Stmts (Top : Iir_Design_Unit; Parent : Iir);
-- Canonicalize an association list.
-- If ASSOCIATION_LIST is not null, then it is re-ordored and returned.
-- If ASSOCIATION_LIST is null then:
-- if INTERFACE_LIST is null then returns null.
-- if INTERFACE_LIST is not null, a default list is created.
function Canon_Association_Chain
(Interface_Chain: Iir; Association_Chain: Iir; Loc : Iir)
return Iir;
-- Like Canon_Association_Chain but recurse on actuals.
function Canon_Association_Chain_And_Actuals
(Interface_Chain: Iir; Association_Chain: Iir; Loc : Iir)
return Iir;
-- Like Canon_Subprogram_Call, but recurse on actuals.
procedure Canon_Subprogram_Call_And_Actuals (Call : Iir);
-- Canonicalize block configuration CONF.
-- TOP is used to added dependences to the design unit which CONF
-- belongs to.
procedure Canon_Block_Configuration (Top : Iir_Design_Unit;
Conf : Iir_Block_Configuration);
procedure Canon_Subtype_Indication (Def : Iir);
procedure Canon_Subtype_Indication_If_Anonymous (Def : Iir);
function Canon_Conditional_Signal_Assignment
(Conc_Stmt : Iir; Proc : Iir; Parent : Iir) return Iir;
procedure Canon_Conditional_Signal_Assignment_Expression (Stmt : Iir);
procedure Canon_Extract_Sensitivity_Aggregate
(Aggr : Iir;
Sensitivity_List : Iir_List;
Is_Target : Boolean;
Aggr_Type : Iir;
Dim : Natural)
is
Assoc : Iir;
begin
Assoc := Get_Association_Choices_Chain (Aggr);
if Get_Nbr_Elements (Get_Index_Subtype_List (Aggr_Type)) = Dim then
while Assoc /= Null_Iir loop
Canon_Extract_Sensitivity
(Get_Associated_Expr (Assoc), Sensitivity_List, Is_Target);
Assoc := Get_Chain (Assoc);
end loop;
else
while Assoc /= Null_Iir loop
Canon_Extract_Sensitivity_Aggregate
(Get_Associated_Expr (Assoc), Sensitivity_List,
Is_Target, Aggr_Type, Dim + 1);
Assoc := Get_Chain (Assoc);
end loop;
end if;
end Canon_Extract_Sensitivity_Aggregate;
procedure Canon_Extract_Sensitivity
(Expr: Iir; Sensitivity_List: Iir_List; Is_Target: Boolean := False)
is
El : Iir;
begin
if Get_Expr_Staticness (Expr) /= None then
return;
end if;
case Get_Kind (Expr) is
when Iir_Kind_Slice_Name =>
if not Is_Target and then
Get_Name_Staticness (Expr) >= Globally
then
if Is_Signal_Object (Expr) then
Add_Element (Sensitivity_List, Expr);
end if;
else
declare
Suff : Iir;
begin
Canon_Extract_Sensitivity
(Get_Prefix (Expr), Sensitivity_List, Is_Target);
Suff := Get_Suffix (Expr);
if Get_Kind (Suff)
not in Iir_Kinds_Scalar_Type_And_Subtype_Definition
then
Canon_Extract_Sensitivity
(Suff, Sensitivity_List, False);
end if;
end;
end if;
when Iir_Kind_Selected_Element =>
if not Is_Target and then
Get_Name_Staticness (Expr) >= Globally
then
if Is_Signal_Object (Expr) then
Add_Element (Sensitivity_List, Expr);
end if;
else
Canon_Extract_Sensitivity (Get_Prefix (Expr),
Sensitivity_List,
Is_Target);
end if;
when Iir_Kind_Indexed_Name =>
if not Is_Target
and then Get_Name_Staticness (Expr) >= Globally
then
if Is_Signal_Object (Expr) then
Add_Element (Sensitivity_List, Expr);
end if;
else
Canon_Extract_Sensitivity (Get_Prefix (Expr),
Sensitivity_List,
Is_Target);
declare
Flist : constant Iir_Flist := Get_Index_List (Expr);
El : Iir;
begin
for I in Flist_First .. Flist_Last (Flist) loop
El := Get_Nth_Element (Flist, I);
Canon_Extract_Sensitivity (El, Sensitivity_List, False);
end loop;
end;
end if;
when Iir_Kind_Function_Call =>
El := Get_Parameter_Association_Chain (Expr);
while El /= Null_Iir loop
case Get_Kind (El) is
when Iir_Kind_Association_Element_By_Expression =>
Canon_Extract_Sensitivity
(Get_Actual (El), Sensitivity_List, False);
when Iir_Kind_Association_Element_Open =>
null;
when others =>
Error_Kind ("canon_extract_sensitivity(call)", El);
end case;
El := Get_Chain (El);
end loop;
when Iir_Kind_Qualified_Expression
| Iir_Kind_Type_Conversion
| Iir_Kind_Allocator_By_Expression
| Iir_Kind_Parenthesis_Expression =>
Canon_Extract_Sensitivity
(Get_Expression (Expr), Sensitivity_List, False);
when Iir_Kind_Allocator_By_Subtype =>
null;
when Iir_Kinds_Monadic_Operator =>
Canon_Extract_Sensitivity
(Get_Operand (Expr), Sensitivity_List, False);
when Iir_Kinds_Dyadic_Operator =>
Canon_Extract_Sensitivity
(Get_Left (Expr), Sensitivity_List, False);
Canon_Extract_Sensitivity
(Get_Right (Expr), Sensitivity_List, False);
when Iir_Kind_Range_Expression =>
Canon_Extract_Sensitivity
(Get_Left_Limit (Expr), Sensitivity_List, False);
Canon_Extract_Sensitivity
(Get_Right_Limit (Expr), Sensitivity_List, False);
when Iir_Kinds_Type_Attribute =>
null;
when Iir_Kinds_Signal_Value_Attribute =>
-- LRM 8.1
-- An attribute name: [...]; otherwise, apply this rule to the
-- prefix of the attribute name.
Canon_Extract_Sensitivity
(Get_Prefix (Expr), Sensitivity_List, False);
when Iir_Kind_Interface_Signal_Declaration
| Iir_Kind_Signal_Declaration
| Iir_Kind_Guard_Signal_Declaration
| Iir_Kinds_Signal_Attribute =>
-- LRM 8.1
-- A simple name that denotes a signal, add the longuest static
-- prefix of the name to the sensitivity set;
--
-- An attribute name: if the designator denotes a signal
-- attribute, add the longuest static prefix of the name of the
-- implicit signal denoted by the attribute name to the
-- sensitivity set; [...]
if not Is_Target then
Add_Element (Sensitivity_List, Expr);
end if;
when Iir_Kind_Psl_Endpoint_Declaration =>
declare
List : constant Iir_List := Get_PSL_Clock_Sensitivity (Expr);
It : List_Iterator;
begin
It := List_Iterate (List);
while Is_Valid (It) loop
Add_Element (Sensitivity_List, Get_Element (It));
Next (It);
end loop;
end;
when Iir_Kind_Object_Alias_Declaration =>
Canon_Extract_Sensitivity
(Get_Name (Expr), Sensitivity_List, Is_Target);
when Iir_Kind_Constant_Declaration
| Iir_Kind_Interface_Constant_Declaration
| Iir_Kind_Iterator_Declaration
| Iir_Kind_Variable_Declaration
| Iir_Kind_Interface_Variable_Declaration
| Iir_Kind_File_Declaration =>
null;
when Iir_Kinds_Array_Attribute =>
-- was Iir_Kind_Left_Array_Attribute
-- ditto Right, Low, High, Length
-- add Ascending, Range and Reverse_Range...
null;
--Canon_Extract_Sensitivity
-- (Get_Prefix (Expr), Sensitivity_List, Is_Target);
when Iir_Kind_Value_Attribute
| Iir_Kind_Image_Attribute
| Iir_Kinds_Scalar_Type_Attribute =>
Canon_Extract_Sensitivity
(Get_Parameter (Expr), Sensitivity_List, Is_Target);
when Iir_Kind_Aggregate =>
declare
Aggr_Type : Iir;
begin
Aggr_Type := Get_Base_Type (Get_Type (Expr));
case Get_Kind (Aggr_Type) is
when Iir_Kind_Array_Type_Definition =>
Canon_Extract_Sensitivity_Aggregate
(Expr, Sensitivity_List, Is_Target, Aggr_Type, 1);
when Iir_Kind_Record_Type_Definition =>
El := Get_Association_Choices_Chain (Expr);
while El /= Null_Iir loop
Canon_Extract_Sensitivity
(Get_Associated_Expr (El), Sensitivity_List,
Is_Target);
El := Get_Chain (El);
end loop;
when others =>
Error_Kind ("canon_extract_sensitivity(aggr)", Aggr_Type);
end case;
end;
when Iir_Kind_Simple_Name
| Iir_Kind_Selected_Name =>
Canon_Extract_Sensitivity
(Get_Named_Entity (Expr), Sensitivity_List, Is_Target);
when others =>
Error_Kind ("canon_extract_sensitivity", Expr);
end case;
end Canon_Extract_Sensitivity;
procedure Canon_Extract_Sensitivity_If_Not_Null
(Expr: Iir; Sensitivity_List: Iir_List; Is_Target: Boolean := False) is
begin
if Expr /= Null_Iir then
Canon_Extract_Sensitivity (Expr, Sensitivity_List, Is_Target);
end if;
end Canon_Extract_Sensitivity_If_Not_Null;
procedure Canon_Extract_Sensitivity_Procedure_Call
(Sensitivity_List : Iir_List; Call : Iir)
is
Assoc : Iir;
Inter : Iir;
begin
Assoc := Get_Parameter_Association_Chain (Call);
Inter := Get_Interface_Declaration_Chain (Get_Implementation (Call));
while Assoc /= Null_Iir loop
if (Get_Kind (Assoc) = Iir_Kind_Association_Element_By_Expression)
and then (Get_Mode (Get_Association_Interface (Assoc, Inter))
/= Iir_Out_Mode)
then
Canon_Extract_Sensitivity (Get_Actual (Assoc), Sensitivity_List);
end if;
Next_Association_Interface (Assoc, Inter);
end loop;
end Canon_Extract_Sensitivity_Procedure_Call;
procedure Canon_Extract_Sensitivity_Waveform (Chain : Iir; List : Iir_List)
is
We: Iir_Waveform_Element;
begin
We := Chain;
while We /= Null_Iir loop
Canon_Extract_Sensitivity (Get_We_Value (We), List);
Canon_Extract_Sensitivity_If_Not_Null (Get_Time (We), List);
We := Get_Chain (We);
end loop;
end Canon_Extract_Sensitivity_Waveform;
procedure Canon_Extract_Sequential_Statement_Chain_Sensitivity
(Chain : Iir; List : Iir_List)
is
Stmt : Iir;
begin
Stmt := Chain;
while Stmt /= Null_Iir loop
case Get_Kind (Stmt) is
when Iir_Kind_Assertion_Statement =>
-- LRM08 11.3
-- * For each assertion, report, next, exit or return
-- statement, apply the rule of 10.2 to each expression
-- in the statement, and construct the union of the
-- resulting sets.
Canon_Extract_Sensitivity
(Get_Assertion_Condition (Stmt), List);
Canon_Extract_Sensitivity_If_Not_Null
(Get_Severity_Expression (Stmt), List);
Canon_Extract_Sensitivity_If_Not_Null
(Get_Report_Expression (Stmt), List);
when Iir_Kind_Report_Statement =>
-- LRM08 11.3
-- See assertion_statement case.
Canon_Extract_Sensitivity_If_Not_Null
(Get_Severity_Expression (Stmt), List);
Canon_Extract_Sensitivity
(Get_Report_Expression (Stmt), List);
when Iir_Kind_Next_Statement
| Iir_Kind_Exit_Statement =>
-- LRM08 11.3
-- See assertion_statement case.
Canon_Extract_Sensitivity_If_Not_Null
(Get_Condition (Stmt), List);
when Iir_Kind_Return_Statement =>
-- LRM08 11.3
-- See assertion_statement case.
Canon_Extract_Sensitivity_If_Not_Null
(Get_Expression (Stmt), List);
when Iir_Kind_Variable_Assignment_Statement =>
-- LRM08 11.3
-- * For each assignment statement, apply the rule of 10.2 to
-- each expression occuring in the assignment, including any
-- expressions occuring in the index names or slice names in
-- the target, and construct the union of the resulting sets.
Canon_Extract_Sensitivity (Get_Target (Stmt), List, True);
Canon_Extract_Sensitivity (Get_Expression (Stmt), List, False);
when Iir_Kind_Simple_Signal_Assignment_Statement =>
-- LRM08 11.3
-- See variable assignment statement case.
Canon_Extract_Sensitivity (Get_Target (Stmt), List, True);
Canon_Extract_Sensitivity_If_Not_Null
(Get_Reject_Time_Expression (Stmt), List);
Canon_Extract_Sensitivity_Waveform
(Get_Waveform_Chain (Stmt), List);
when Iir_Kind_Conditional_Signal_Assignment_Statement =>
Canon_Extract_Sensitivity (Get_Target (Stmt), List, True);
Canon_Extract_Sensitivity_If_Not_Null
(Get_Reject_Time_Expression (Stmt), List);
declare
Cwe : Iir;
begin
Cwe := Get_Conditional_Waveform_Chain (Stmt);
while Cwe /= Null_Iir loop
Canon_Extract_Sensitivity_If_Not_Null
(Get_Condition (Cwe), List);
Canon_Extract_Sensitivity_Waveform
(Get_Waveform_Chain (Cwe), List);
Cwe := Get_Chain (Cwe);
end loop;
end;
when Iir_Kind_If_Statement =>
-- LRM08 11.3
-- * For each if statement, apply the rule of 10.2 to the
-- condition and apply this rule recursively to each
-- sequence of statements within the if statement, and
-- construct the union of the resuling sets.
declare
El1 : Iir := Stmt;
Cond : Iir;
begin
loop
Cond := Get_Condition (El1);
if Cond /= Null_Iir then
Canon_Extract_Sensitivity (Cond, List);
end if;
Canon_Extract_Sequential_Statement_Chain_Sensitivity
(Get_Sequential_Statement_Chain (El1), List);
El1 := Get_Else_Clause (El1);
exit when El1 = Null_Iir;
end loop;
end;
when Iir_Kind_Case_Statement =>
-- LRM08 11.3
-- * For each case statement, apply the rule of 10.2 to the
-- expression and apply this rule recursively to each
-- sequence of statements within the case statement, and
-- construct the union of the resulting sets.
Canon_Extract_Sensitivity (Get_Expression (Stmt), List);
declare
Choice: Iir;
begin
Choice := Get_Case_Statement_Alternative_Chain (Stmt);
while Choice /= Null_Iir loop
Canon_Extract_Sequential_Statement_Chain_Sensitivity
(Get_Associated_Chain (Choice), List);
Choice := Get_Chain (Choice);
end loop;
end;
when Iir_Kind_While_Loop_Statement =>
-- LRM08 11.3
-- * For each loop statement, apply the rule of 10.2 to each
-- expression in the iteration scheme, if present, and apply
-- this rule recursively to the sequence of statements within
-- the loop statement, and construct the union of the
-- resulting sets.
Canon_Extract_Sensitivity_If_Not_Null
(Get_Condition (Stmt), List);
Canon_Extract_Sequential_Statement_Chain_Sensitivity
(Get_Sequential_Statement_Chain (Stmt), List);
when Iir_Kind_For_Loop_Statement =>
-- LRM08 11.3
-- See loop statement case.
declare
It : constant Iir := Get_Parameter_Specification (Stmt);
It_Type : constant Iir := Get_Type (It);
Rng : constant Iir := Get_Range_Constraint (It_Type);
begin
if Get_Kind (Rng) = Iir_Kind_Range_Expression then
Canon_Extract_Sensitivity (Rng, List);
end if;
end;
Canon_Extract_Sequential_Statement_Chain_Sensitivity
(Get_Sequential_Statement_Chain (Stmt), List);
when Iir_Kind_Null_Statement =>
-- LRM08 11.3
-- ?
null;
when Iir_Kind_Procedure_Call_Statement =>
-- LRM08 11.3
-- * For each procedure call statement, apply the rule of 10.2
-- to each actual designator (other than OPEN) associated
-- with each formal parameter of mode IN or INOUT, and
-- construct the union of the resulting sets.
Canon_Extract_Sensitivity_Procedure_Call
(List, Get_Procedure_Call (Stmt));
when others =>
Error_Kind
("canon_extract_sequential_statement_chain_sensitivity",
Stmt);
end case;
Stmt := Get_Chain (Stmt);
end loop;
end Canon_Extract_Sequential_Statement_Chain_Sensitivity;
procedure Canon_Extract_Sensitivity_From_Callees
(Callees_List : Iir_List; Sensitivity_List : Iir_List)
is
Callee : Iir;
It : List_Iterator;
Bod : Iir;
begin
-- LRM08 11.3
-- Moreover, for each subprogram for which the process is a parent
-- (see 4.3), the sensitivity list includes members of the set
-- constructed by apply the preceding rule to the statements of the
-- subprogram, but excluding the members that denote formal signal
-- parameters or members of formal signal parameters of the subprogram
-- or any of its parents.
if Callees_List = Null_Iir_List then
return;
end if;
It := List_Iterate (Callees_List);
while Is_Valid (It) loop
Callee := Get_Element (It);
if not Get_Seen_Flag (Callee) then
Set_Seen_Flag (Callee, True);
case Get_All_Sensitized_State (Callee) is
when Read_Signal =>
Bod := Get_Subprogram_Body (Callee);
-- Extract sensitivity from signals read in the body.
-- FIXME: what about signals read during in declarations ?
Canon_Extract_Sequential_Statement_Chain_Sensitivity
(Get_Sequential_Statement_Chain (Bod), Sensitivity_List);
-- Extract sensitivity from subprograms called.
Canon_Extract_Sensitivity_From_Callees
(Get_Callees_List (Bod), Sensitivity_List);
when No_Signal =>
null;
when Unknown | Invalid_Signal =>
raise Internal_Error;
end case;
end if;
Next (It);
end loop;
end Canon_Extract_Sensitivity_From_Callees;
function Canon_Extract_Process_Sensitivity
(Proc : Iir_Sensitized_Process_Statement)
return Iir_List
is
Res : Iir_List;
begin
Res := Create_Iir_List;
-- Signals read by statements.
-- FIXME: justify why signals read in declarations don't care.
Canon_Extract_Sequential_Statement_Chain_Sensitivity
(Get_Sequential_Statement_Chain (Proc), Res);
-- Signals read indirectly by subprograms called.
Canon_Extract_Sensitivity_From_Callees (Get_Callees_List (Proc), Res);
Set_Seen_Flag (Proc, True);
Clear_Seen_Flag (Proc);
return Res;
end Canon_Extract_Process_Sensitivity;
-- function Make_Aggregate (Array_Type : Iir_Array_Type_Definition; El : Iir)
-- return Iir_Aggregate
-- is
-- Res : Iir_Aggregate;
-- Choice : Iir;
-- begin
-- Res := Create_Iir (Iir_Kind_Aggregate);
-- Location_Copy (Res, El);
-- Choice := Create_Iir (Iir_Kind_Association_Choice_By_None);
-- Set_Associated (Choice, El);
-- Append_Element (Get_Association_Choices_List (Res), Choice);
-- -- will call sem_aggregate
-- return Sem_Expr.Sem_Expression (Res, Array_Type);
-- end Make_Aggregate;
-- procedure Canon_Concatenation_Operator (Expr : Iir)
-- is
-- Array_Type : Iir_Array_Type_Definition;
-- El_Type : Iir;
-- Left, Right : Iir;
-- Func_List : Iir_Implicit_Functions_List;
-- Func : Iir_Implicit_Function_Declaration;
-- begin
-- Array_Type := Get_Type (Expr);
-- El_Type := Get_Base_Type (Get_Element_Subtype (Array_Type));
-- Left := Get_Left (Expr);
-- if Get_Type (Left) = El_Type then
-- Set_Left (Expr, Make_Aggregate (Array_Type, Left));
-- end if;
-- Right := Get_Right (Expr);
-- if Get_Type (Right) = El_Type then
-- Set_Right (Expr, Make_Aggregate (Array_Type, Right));
-- end if;
-- -- FIXME: must convert the implementation.
-- -- Use implicit declaration list from the array_type ?
-- Func_List := Get_Implicit_Functions_List
-- (Get_Type_Declarator (Array_Type));
-- for I in Natural loop
-- Func := Get_Nth_Element (Func_List, I);
-- if Get_Implicit_Definition (Func)
-- = Iir_Predefined_Array_Array_Concat
-- then
-- Set_Implementation (Expr, Func);
-- exit;
-- end if;
-- end loop;
-- end Canon_Concatenation_Operator;
procedure Canon_Aggregate_Expression (Expr: Iir)
is
Assoc : Iir;
begin
Assoc := Get_Association_Choices_Chain (Expr);
while Assoc /= Null_Iir loop
case Get_Kind (Assoc) is
when Iir_Kind_Choice_By_Others
| Iir_Kind_Choice_By_None
| Iir_Kind_Choice_By_Name =>
null;
when Iir_Kind_Choice_By_Expression =>
Canon_Expression (Get_Choice_Expression (Assoc));
when Iir_Kind_Choice_By_Range =>
declare
Choice : constant Iir := Get_Choice_Range (Assoc);
begin
if Get_Kind (Choice) = Iir_Kind_Range_Expression then
Canon_Expression (Choice);
end if;
end;
when others =>
Error_Kind ("canon_aggregate_expression", Assoc);
end case;
Canon_Expression (Get_Associated_Expr (Assoc));
Assoc := Get_Chain (Assoc);
end loop;
end Canon_Aggregate_Expression;
-- canon on expressions, mainly for function calls.
procedure Canon_Expression (Expr: Iir) is
begin
if Expr = Null_Iir then
return;
end if;
case Get_Kind (Expr) is
when Iir_Kind_Range_Expression =>
Canon_Expression (Get_Left_Limit (Expr));
Canon_Expression (Get_Right_Limit (Expr));
when Iir_Kind_Slice_Name =>
declare
Suffix : Iir;
begin
Suffix := Strip_Denoting_Name (Get_Suffix (Expr));
if Get_Kind (Suffix) /= Iir_Kind_Subtype_Declaration then
Canon_Expression (Suffix);
end if;
Canon_Expression (Get_Prefix (Expr));
end;
when Iir_Kind_Indexed_Name =>
Canon_Expression (Get_Prefix (Expr));
declare
Flist : constant Iir_Flist := Get_Index_List (Expr);
El : Iir;
begin
for I in Flist_First .. Flist_Last (Flist) loop
El := Get_Nth_Element (Flist, I);
Canon_Expression (El);
end loop;
end;
when Iir_Kind_Selected_Element =>
Canon_Expression (Get_Prefix (Expr));
when Iir_Kind_Dereference
| Iir_Kind_Implicit_Dereference =>
Canon_Expression (Get_Prefix (Expr));
when Iir_Kinds_Denoting_Name =>
Canon_Expression (Get_Named_Entity (Expr));
when Iir_Kinds_Monadic_Operator =>
Canon_Expression (Get_Operand (Expr));
when Iir_Kinds_Dyadic_Operator =>
Canon_Expression (Get_Left (Expr));
Canon_Expression (Get_Right (Expr));
if Get_Kind (Expr) = Iir_Kind_Concatenation_Operator
and then Canon_Concatenation
and then Is_Implicit_Subprogram (Get_Implementation (Expr))
then
--Canon_Concatenation_Operator (Expr);
raise Internal_Error;
end if;
when Iir_Kind_Function_Call =>
Canon_Subprogram_Call_And_Actuals (Expr);
-- FIXME:
-- should canon concatenation.
when Iir_Kind_Parenthesis_Expression =>
Canon_Expression (Get_Expression (Expr));
when Iir_Kind_Type_Conversion
| Iir_Kind_Qualified_Expression =>
Canon_Expression (Get_Expression (Expr));
when Iir_Kind_Aggregate =>
Canon_Aggregate_Expression (Expr);
when Iir_Kind_Allocator_By_Expression =>
Canon_Expression (Get_Expression (Expr));
when Iir_Kind_Allocator_By_Subtype =>
declare
Ind : constant Iir := Get_Subtype_Indication (Expr);
begin
if Get_Kind (Ind) = Iir_Kind_Array_Subtype_Definition then
Canon_Subtype_Indication (Ind);
end if;
end;
when Iir_Kinds_Literal
| Iir_Kind_Simple_Aggregate
| Iir_Kind_Unit_Declaration =>
null;
when Iir_Kinds_Array_Attribute =>
-- No need to canon parameter, since it is a locally static
-- expression.
declare
Prefix : constant Iir := Get_Prefix (Expr);
begin
if Get_Kind (Prefix) in Iir_Kinds_Denoting_Name
and then (Get_Kind (Get_Named_Entity (Prefix))
in Iir_Kinds_Type_Declaration)
then
-- No canon for types.
null;
else
Canon_Expression (Prefix);
end if;
end;
when Iir_Kinds_Type_Attribute =>
null;
when Iir_Kind_Stable_Attribute
| Iir_Kind_Quiet_Attribute
| Iir_Kind_Delayed_Attribute
| Iir_Kind_Transaction_Attribute =>
-- FIXME: add the default parameter ?
Canon_Expression (Get_Prefix (Expr));
when Iir_Kind_Event_Attribute
| Iir_Kind_Last_Value_Attribute
| Iir_Kind_Active_Attribute
| Iir_Kind_Last_Event_Attribute
| Iir_Kind_Last_Active_Attribute
| Iir_Kind_Driving_Attribute
| Iir_Kind_Driving_Value_Attribute =>
Canon_Expression (Get_Prefix (Expr));
when Iir_Kinds_Scalar_Type_Attribute
| Iir_Kind_Image_Attribute
| Iir_Kind_Value_Attribute =>
Canon_Expression (Get_Parameter (Expr));
when Iir_Kind_Simple_Name_Attribute
| Iir_Kind_Path_Name_Attribute
| Iir_Kind_Instance_Name_Attribute =>
null;
when Iir_Kind_Interface_Signal_Declaration
| Iir_Kind_Signal_Declaration
| Iir_Kind_Guard_Signal_Declaration
| Iir_Kind_Constant_Declaration
| Iir_Kind_Interface_Constant_Declaration
| Iir_Kind_Iterator_Declaration
| Iir_Kind_Variable_Declaration
| Iir_Kind_Interface_Variable_Declaration
| Iir_Kind_File_Declaration
| Iir_Kind_Interface_File_Declaration
| Iir_Kind_Object_Alias_Declaration =>
null;
when Iir_Kind_Enumeration_Literal
| Iir_Kind_Overflow_Literal =>
null;
when Iir_Kind_Element_Declaration =>
null;
when Iir_Kind_Attribute_Value
| Iir_Kind_Attribute_Name =>
null;
when others =>
Error_Kind ("canon_expression", Expr);
null;
end case;
end Canon_Expression;
procedure Canon_Expression_If_Valid (Expr : Iir) is
begin
if Is_Valid (Expr) then
Canon_Expression (Expr);
end if;
end Canon_Expression_If_Valid;
procedure Canon_PSL_Expression (Expr : PSL_Node)
is
use PSL.Nodes;
begin
case Get_Kind (Expr) is
when N_HDL_Expr =>
Canon_Expression (Get_HDL_Node (Expr));
when N_True | N_EOS =>
null;
when N_Not_Bool =>
Canon_PSL_Expression (Get_Boolean (Expr));
when N_And_Bool
| N_Or_Bool =>
Canon_PSL_Expression (Get_Left (Expr));
Canon_PSL_Expression (Get_Right (Expr));
when others =>
Error_Kind ("canon_psl_expression", Expr);
end case;
end Canon_PSL_Expression;
procedure Canon_Discrete_Range (Rng : Iir) is
begin
case Get_Kind (Rng) is
when Iir_Kind_Integer_Subtype_Definition
| Iir_Kind_Enumeration_Subtype_Definition =>
Canon_Expression (Get_Range_Constraint (Rng));
when Iir_Kind_Enumeration_Type_Definition =>
null;
when others =>
Error_Kind ("canon_discrete_range", Rng);
end case;
end Canon_Discrete_Range;
-- Extract sensitivity of WAVEFORM.
procedure Extract_Waveform_Sensitivity
(Waveform : Iir; Sensitivity_List: Iir_List)
is
We : Iir_Waveform_Element;
begin
We := Waveform;
while We /= Null_Iir loop
Canon_Extract_Sensitivity
(Get_We_Value (We), Sensitivity_List, False);
We := Get_Chain (We);
end loop;
end Extract_Waveform_Sensitivity;
-- Canon expression of WAVEFORM.
procedure Canon_Waveform_Expression (Waveform : Iir)
is
We : Iir_Waveform_Element;
begin
if Get_Kind (Waveform) = Iir_Kind_Unaffected_Waveform then
pragma Assert (Get_Chain (Waveform) = Null_Iir);
return;
end if;
We := Waveform;
while We /= Null_Iir loop
Canon_Expression (Get_We_Value (We));
if Get_Time (We) /= Null_Iir then
Canon_Expression (Get_Time (We));
end if;
We := Get_Chain (We);
end loop;
end Canon_Waveform_Expression;
-- Names associations by position,
-- reorder associations by name,
-- create omitted association,
function Canon_Association_Chain
(Interface_Chain : Iir; Association_Chain : Iir; Loc : Iir)
return Iir
is
-- The canon list of association.
N_Chain, Last : Iir;
Inter : Iir;
Assoc_El, Prev_Assoc_El, Next_Assoc_El : Iir;
Formal : Iir;
Assoc_Chain : Iir;
Found : Boolean;
begin
if not Canon_Flag_Associations then
return Association_Chain;
end if;
-- No argument, so return now.
if Interface_Chain = Null_Iir then
pragma Assert (Association_Chain = Null_Iir);
return Null_Iir;
end if;
Sub_Chain_Init (N_Chain, Last);
Assoc_Chain := Association_Chain;
-- Reorder the list of association in the interface order.
-- Add missing associations.
Inter := Interface_Chain;
while Inter /= Null_Iir loop
-- Search associations with INTERFACE.
Found := False;
Assoc_El := Assoc_Chain;
Prev_Assoc_El := Null_Iir;
while Assoc_El /= Null_Iir loop
Next_Assoc_El := Get_Chain (Assoc_El);
Formal := Get_Formal (Assoc_El);
if Formal = Null_Iir then
Formal := Inter;
if Canon_Flag_Set_Assoc_Formals then
Set_Formal (Assoc_El, Inter);
end if;
else
Formal := Get_Interface_Of_Formal (Formal);
end if;
if Formal = Inter then
-- Remove ASSOC_EL from ASSOC_CHAIN
if Prev_Assoc_El /= Null_Iir then
Set_Chain (Prev_Assoc_El, Next_Assoc_El);
else
Assoc_Chain := Next_Assoc_El;
end if;
-- Append ASSOC_EL in N_CHAIN.
Set_Chain (Assoc_El, Null_Iir);
Sub_Chain_Append (N_Chain, Last, Assoc_El);
case Get_Kind (Assoc_El) is
when Iir_Kind_Association_Element_Open =>
goto Done;
when Iir_Kind_Association_Element_By_Expression =>
if Get_Whole_Association_Flag (Assoc_El) then
goto Done;
end if;
when Iir_Kind_Association_Element_By_Individual =>
Found := True;
when Iir_Kind_Association_Element_Package
| Iir_Kind_Association_Element_Type
| Iir_Kind_Association_Element_Subprogram =>
goto Done;
when others =>
Error_Kind ("canon_association_chain", Assoc_El);
end case;
elsif Found then
-- No more associations.
goto Done;
else
Prev_Assoc_El := Assoc_El;
end if;
Assoc_El := Next_Assoc_El;
end loop;
if Found then
goto Done;
end if;
-- No association, use default expr.
Assoc_El := Create_Iir (Iir_Kind_Association_Element_Open);
Set_Artificial_Flag (Assoc_El, True);
Set_Whole_Association_Flag (Assoc_El, True);
Location_Copy (Assoc_El, Loc);
if Canon_Flag_Set_Assoc_Formals then
Set_Formal (Assoc_El, Inter);
end if;
Sub_Chain_Append (N_Chain, Last, Assoc_El);
<< Done >> null;
Inter := Get_Chain (Inter);
end loop;
pragma Assert (Assoc_Chain = Null_Iir);
return N_Chain;
end Canon_Association_Chain;
procedure Canon_Association_Chain_Actuals (Association_Chain : Iir)
is
Assoc_El : Iir;
begin
-- Canon actuals.
Assoc_El := Association_Chain;
while Assoc_El /= Null_Iir loop
if Get_Kind (Assoc_El) = Iir_Kind_Association_Element_By_Expression
then
Canon_Expression (Get_Actual (Assoc_El));
end if;
Assoc_El := Get_Chain (Assoc_El);
end loop;
end Canon_Association_Chain_Actuals;
function Canon_Association_Chain_And_Actuals
(Interface_Chain: Iir; Association_Chain: Iir; Loc : Iir)
return Iir
is
Res : Iir;
begin
Res := Canon_Association_Chain (Interface_Chain, Association_Chain, Loc);
if Canon_Flag_Expressions then
Canon_Association_Chain_Actuals (Res);
end if;
return Res;
end Canon_Association_Chain_And_Actuals;
procedure Canon_Subprogram_Call (Call : Iir)
is
Imp : constant Iir := Get_Implementation (Call);
Inter_Chain : constant Iir := Get_Interface_Declaration_Chain (Imp);
Assoc_Chain : Iir;
begin
Assoc_Chain := Get_Parameter_Association_Chain (Call);
Assoc_Chain := Canon_Association_Chain (Inter_Chain, Assoc_Chain, Call);
Set_Parameter_Association_Chain (Call, Assoc_Chain);
end Canon_Subprogram_Call;
procedure Canon_Subprogram_Call_And_Actuals (Call : Iir) is
begin
Canon_Subprogram_Call (Call);
if Canon_Flag_Expressions then
Canon_Association_Chain_Actuals
(Get_Parameter_Association_Chain (Call));
end if;
end Canon_Subprogram_Call_And_Actuals;
-- Create a default association list for INTERFACE_LIST.
-- The default is a list of interfaces associated with open.
function Canon_Default_Association_Chain (Interface_Chain : Iir)
return Iir
is
Res : Iir;
Last : Iir;
Assoc, El : Iir;
begin
if not Canon_Flag_Associations then
return Null_Iir;
end if;
El := Interface_Chain;
Sub_Chain_Init (Res, Last);
while El /= Null_Iir loop
Assoc := Create_Iir (Iir_Kind_Association_Element_Open);
Set_Whole_Association_Flag (Assoc, True);
Set_Artificial_Flag (Assoc, True);
if Canon_Flag_Set_Assoc_Formals then
Set_Formal (Assoc, El);
end if;
Location_Copy (Assoc, El);
Sub_Chain_Append (Res, Last, Assoc);
El := Get_Chain (El);
end loop;
return Res;
end Canon_Default_Association_Chain;
function Canon_Conditional_Variable_Assignment_Statement (Stmt : Iir)
return Iir
is
Target : constant Iir := Get_Target (Stmt);
Cond_Expr : Iir;
Expr : Iir;
Asgn : Iir;
Res : Iir;
El, N_El : Iir;
begin
Cond_Expr := Get_Conditional_Expression (Stmt);
Res := Create_Iir (Iir_Kind_If_Statement);
Set_Label (Res, Get_Label (Stmt));
Set_Suspend_Flag (Res, False);
El := Res;
loop
-- Fill if/elsif statement.
Set_Parent (El, Get_Parent (Stmt));
Location_Copy (El, Cond_Expr);
Set_Condition (El, Get_Condition (Cond_Expr));
-- Create simple variable assignment.
Asgn := Create_Iir (Iir_Kind_Variable_Assignment_Statement);
Location_Copy (Asgn, Cond_Expr);
Set_Parent (Asgn, Res);
Set_Target (Asgn, Target);
Expr := Get_Expression (Cond_Expr);
if Canon_Flag_Expressions then
Canon_Expression (Expr);
end if;
Set_Expression (Asgn, Expr);
Set_Sequential_Statement_Chain (El, Asgn);
-- Next condition.
Cond_Expr := Get_Chain (Cond_Expr);
exit when Cond_Expr = Null_Iir;
N_El := Create_Iir (Iir_Kind_Elsif);
Set_Else_Clause (El, N_El);
El := N_El;
end loop;
return Res;
end Canon_Conditional_Variable_Assignment_Statement;
function Canon_Conditional_Signal_Assignment_Statement (Stmt : Iir)
return Iir is
begin
return Canon_Conditional_Signal_Assignment
(Stmt, Null_Iir, Get_Parent (Stmt));
end Canon_Conditional_Signal_Assignment_Statement;
-- Inner loop if any; used to canonicalize exit/next statement.
Cur_Loop : Iir;
function Canon_Sequential_Stmts (First : Iir) return Iir
is
Stmt: Iir;
N_Stmt : Iir;
Res, Last : Iir;
begin
Sub_Chain_Init (Res, Last);
Stmt := First;
while Stmt /= Null_Iir loop
-- Keep the same statement by default.
N_Stmt := Stmt;
case Get_Kind (Stmt) is
when Iir_Kind_If_Statement =>
declare
Cond: Iir;
Clause: Iir;
Stmts : Iir;
begin
Clause := Stmt;
while Clause /= Null_Iir loop
Cond := Get_Condition (Clause);
Canon_Expression_If_Valid (Cond);
Stmts := Get_Sequential_Statement_Chain (Clause);
Stmts := Canon_Sequential_Stmts (Stmts);
Set_Sequential_Statement_Chain (Clause, Stmts);
Clause := Get_Else_Clause (Clause);
end loop;
end;
when Iir_Kind_Simple_Signal_Assignment_Statement =>
Canon_Expression (Get_Target (Stmt));
Canon_Waveform_Expression (Get_Waveform_Chain (Stmt));
when Iir_Kind_Conditional_Signal_Assignment_Statement =>
Canon_Conditional_Signal_Assignment_Expression (Stmt);
N_Stmt := Canon_Conditional_Signal_Assignment_Statement (Stmt);
when Iir_Kind_Variable_Assignment_Statement =>
Canon_Expression (Get_Target (Stmt));
Canon_Expression (Get_Expression (Stmt));
when Iir_Kind_Conditional_Variable_Assignment_Statement =>
N_Stmt :=
Canon_Conditional_Variable_Assignment_Statement (Stmt);
when Iir_Kind_Wait_Statement =>
declare
List : Iir_List;
Expr : Iir;
begin
Canon_Expression_If_Valid (Get_Timeout_Clause (Stmt));
Expr := Get_Condition_Clause (Stmt);
Canon_Expression_If_Valid (Expr);
List := Get_Sensitivity_List (Stmt);
if List = Null_Iir_List and then Expr /= Null_Iir then
List := Create_Iir_List;
Canon_Extract_Sensitivity (Expr, List, False);
Set_Sensitivity_List (Stmt, List);
end if;
end;
when Iir_Kind_Case_Statement =>
Canon_Expression (Get_Expression (Stmt));
declare
Choice: Iir;
Stmts : Iir;
begin
Choice := Get_Case_Statement_Alternative_Chain (Stmt);
while Choice /= Null_Iir loop
-- FIXME: canon choice expr.
Stmts := Get_Associated_Chain (Choice);
Stmts := Canon_Sequential_Stmts (Stmts);
Set_Associated_Chain (Choice, Stmts);
Choice := Get_Chain (Choice);
end loop;
end;
when Iir_Kind_Assertion_Statement
| Iir_Kind_Report_Statement =>
if Get_Kind (Stmt) = Iir_Kind_Assertion_Statement then
Canon_Expression (Get_Assertion_Condition (Stmt));
end if;
Canon_Expression_If_Valid (Get_Report_Expression (Stmt));
Canon_Expression_If_Valid (Get_Severity_Expression (Stmt));
when Iir_Kind_For_Loop_Statement =>
declare
Prev_Loop : constant Iir := Cur_Loop;
Stmts : Iir;
begin
-- FIXME: decl.
Cur_Loop := Stmt;
if Canon_Flag_Expressions then
Canon_Discrete_Range
(Get_Type (Get_Parameter_Specification (Stmt)));
end if;
Stmts := Get_Sequential_Statement_Chain (Stmt);
Stmts := Canon_Sequential_Stmts (Stmts);
Set_Sequential_Statement_Chain (Stmt, Stmts);
Cur_Loop := Prev_Loop;
end;
when Iir_Kind_While_Loop_Statement =>
declare
Stmts : Iir;
Prev_Loop : Iir;
begin
Canon_Expression_If_Valid (Get_Condition (Stmt));
Prev_Loop := Cur_Loop;
Cur_Loop := Stmt;
Stmts := Get_Sequential_Statement_Chain (Stmt);
Stmts := Canon_Sequential_Stmts (Stmts);
Set_Sequential_Statement_Chain (Stmt, Stmts);
Cur_Loop := Prev_Loop;
end;
when Iir_Kind_Next_Statement
| Iir_Kind_Exit_Statement =>
declare
Loop_Label : Iir;
begin
Canon_Expression_If_Valid (Get_Condition (Stmt));
Loop_Label := Get_Loop_Label (Stmt);
if Loop_Label = Null_Iir then
Set_Loop_Label (Stmt, Build_Simple_Name (Cur_Loop, Stmt));
end if;
end;
when Iir_Kind_Procedure_Call_Statement =>
Canon_Subprogram_Call_And_Actuals (Get_Procedure_Call (Stmt));
when Iir_Kind_Null_Statement =>
null;
when Iir_Kind_Return_Statement =>
Canon_Expression (Get_Expression (Stmt));
when others =>
Error_Kind ("canon_sequential_stmts", Stmt);
end case;
Sub_Chain_Append (Res, Last, N_Stmt);
Stmt := Get_Chain (Stmt);
end loop;
return Res;
end Canon_Sequential_Stmts;
-- Create a statement transform from concurrent_signal_assignment
-- statement STMT (either selected or conditional).
-- waveform transformation is not done.
-- PROC is the process created.
-- PARENT is the place where signal assignment must be placed. This may
-- be PROC, or an 'if' statement if the assignment is guarded.
-- See LRM93 9.5
procedure Canon_Concurrent_Signal_Assignment
(Stmt: Iir;
Proc: out Iir_Sensitized_Process_Statement;
Chain : out Iir)
is
If_Stmt: Iir;
Sensitivity_List : Iir_List;
begin
Proc := Create_Iir (Iir_Kind_Sensitized_Process_Statement);
Location_Copy (Proc, Stmt);
Set_Parent (Proc, Get_Parent (Stmt));
Sensitivity_List := Create_Iir_List;
Set_Sensitivity_List (Proc, Sensitivity_List);
Set_Is_Ref (Proc, True);
Set_Process_Origin (Proc, Stmt);
-- LRM93 9.5
-- 1. If a label appears on the concurrent signal assignment, then the
-- same label appears on the process statement.
Set_Label (Proc, Get_Label (Stmt));
-- LRM93 9.5
-- 2. The equivalent process statement is a postponed process if and
-- only if the current signal assignment statement includes the
-- reserved word POSTPONED.
Set_Postponed_Flag (Proc, Get_Postponed_Flag (Proc));
Canon_Extract_Sensitivity (Get_Target (Stmt), Sensitivity_List, True);
if Get_Guard (Stmt) /= Null_Iir then
-- LRM93 9.1
-- If the option guarded appears in the concurrent signal assignment
-- statement, then the concurrent signal assignment is called a
-- guarded assignment.
-- If the concurrent signal assignement statement is a guarded
-- assignment and the target of the concurrent signal assignment is
-- a guarded target, then the statement transform is as follow:
-- if GUARD then
-- signal_transform
-- else
-- disconnect_statements
-- end if;
-- Otherwise, if the concurrent signal assignment statement is a
-- guarded assignement, but the target if the concurrent signal
-- assignment is not a guarded target, the then statement transform
-- is as follows:
-- if GUARD then signal_transform end if;
If_Stmt := Create_Iir (Iir_Kind_If_Statement);
Set_Parent (If_Stmt, Proc);
Set_Sequential_Statement_Chain (Proc, If_Stmt);
Location_Copy (If_Stmt, Stmt);
Canon_Extract_Sensitivity (Get_Guard (Stmt), Sensitivity_List, False);
Set_Condition (If_Stmt, Get_Guard (Stmt));
Set_Is_Ref (If_Stmt, True);
Chain := If_Stmt;
declare
Target : Iir;
Else_Clause : Iir_Elsif;
Dis_Stmt : Iir_Signal_Assignment_Statement;
begin
Target := Get_Target (Stmt);
if Get_Guarded_Target_State (Stmt) = True then
-- The target is a guarded target.
-- create the disconnection statement.
Else_Clause := Create_Iir (Iir_Kind_Elsif);
Location_Copy (Else_Clause, Stmt);
Set_Else_Clause (If_Stmt, Else_Clause);
Dis_Stmt :=
Create_Iir (Iir_Kind_Simple_Signal_Assignment_Statement);
Location_Copy (Dis_Stmt, Stmt);
Set_Parent (Dis_Stmt, If_Stmt);
Set_Target (Dis_Stmt, Target);
Set_Is_Ref (Dis_Stmt, True);
Set_Sequential_Statement_Chain (Else_Clause, Dis_Stmt);
-- XX
Set_Waveform_Chain (Dis_Stmt, Null_Iir);
end if;
end;
else
-- LRM93 9.1
-- Finally, if the concurrent signal assignment statement is not a
-- guarded assignment, and the traget of the concurrent signal
-- assignment is not a guarded target, then the statement transform
-- is as follows:
-- signal_transform
Chain := Proc;
end if;
end Canon_Concurrent_Signal_Assignment;
function Canon_Concurrent_Procedure_Call (Conc_Stmt : Iir)
return Iir_Sensitized_Process_Statement
is
Call : constant Iir_Procedure_Call := Get_Procedure_Call (Conc_Stmt);
Imp : constant Iir := Get_Implementation (Call);
Proc : Iir_Sensitized_Process_Statement;
Call_Stmt : Iir_Procedure_Call_Statement;
Wait_Stmt : Iir_Wait_Statement;
Sensitivity_List : Iir_List;
Is_Sensitized : Boolean;
begin
-- Optimization: the process is a sensitized process only if the
-- procedure is known not to have wait statement. This is possible only
-- when generating code at once for the whole design, otherwise this
-- may create discrepencies in translate structures due to states.
Is_Sensitized :=
(Get_Wait_State (Imp) = False) and Flags.Flag_Whole_Analyze;
-- LRM93 9.3
-- The equivalent process statement has also no sensitivity list, an
-- empty declarative part, and a statement part that consists of a
-- procedure call statement followed by a wait statement.
if Is_Sensitized then
Proc := Create_Iir (Iir_Kind_Sensitized_Process_Statement);
else
Proc := Create_Iir (Iir_Kind_Process_Statement);
end if;
Location_Copy (Proc, Conc_Stmt);
Set_Parent (Proc, Get_Parent (Conc_Stmt));
Set_Process_Origin (Proc, Conc_Stmt);
Set_Procedure_Call (Conc_Stmt, Null_Iir);
-- LRM93 9.3
-- The equivalent process statement has a label if and only if the
-- concurrent procedure call statement has a label; if the equivalent
-- process statement has a label, it is the same as that of the
-- concurrent procedure call statement.
Set_Label (Proc, Get_Label (Conc_Stmt));
-- LRM93 9.3
-- The equivalent process statement is a postponed process if and only
-- if the concurrent procedure call statement includes the reserved
-- word POSTPONED.
Set_Postponed_Flag (Proc, Get_Postponed_Flag (Conc_Stmt));
Call_Stmt := Create_Iir (Iir_Kind_Procedure_Call_Statement);
Set_Sequential_Statement_Chain (Proc, Call_Stmt);
Location_Copy (Call_Stmt, Conc_Stmt);
Set_Parent (Call_Stmt, Proc);
Set_Procedure_Call (Call_Stmt, Call);
-- LRM93 9.3
-- If there exists a name that denotes a signal in the actual part of
-- any association element in the concurrent procedure call statement,
-- and that actual is associated with a formal parameter of mode IN or
-- INOUT, then the equivalent process statement includes a final wait
-- statement with a sensitivity clause that is constructed by taking
-- the union of the sets constructed by applying th rule of Section 8.1
-- to each actual part associated with a formal parameter.
Sensitivity_List := Create_Iir_List;
Canon_Extract_Sensitivity_Procedure_Call (Sensitivity_List, Call);
if Is_Sensitized then
Set_Sensitivity_List (Proc, Sensitivity_List);
Set_Is_Ref (Proc, True);
else
Wait_Stmt := Create_Iir (Iir_Kind_Wait_Statement);
Location_Copy (Wait_Stmt, Conc_Stmt);
Set_Parent (Wait_Stmt, Proc);
Set_Sensitivity_List (Wait_Stmt, Sensitivity_List);
Set_Is_Ref (Wait_Stmt, True);
Set_Chain (Call_Stmt, Wait_Stmt);
end if;
return Proc;
end Canon_Concurrent_Procedure_Call;
-- Return a statement from a waveform.
function Canon_Wave_Transform (Orig_Stmt : Iir;
Waveform_Chain : Iir_Waveform_Element;
Proc : Iir;
Is_First : Boolean)
return Iir
is
Stmt : Iir;
Sensitivity_List : Iir_List;
begin
if Get_Kind (Waveform_Chain) = Iir_Kind_Unaffected_Waveform then
-- LRM 9.5.1 Conditionnal Signal Assignment
-- If the waveform is of the form:
-- UNAFFECTED
-- then the wave transform in the corresponding process statement
-- is of the form:
-- NULL;
-- In this example, the final NULL causes the driver to be unchanged,
-- rather than disconnected.
-- (This is the null statement not a null waveform element).
Stmt := Create_Iir (Iir_Kind_Null_Statement);
else
-- LRM 9.5.1 Conditionnal Signal Assignment
-- If the waveform is of the form:
-- waveform_element1, waveform_element1, ..., waveform_elementN
-- then the wave transform in the corresponding process statement is
-- of the form:
-- target <= [ delay_mechanism ] waveform_element1,
-- waveform_element2, ..., waveform_elementN;
Stmt := Create_Iir (Iir_Kind_Simple_Signal_Assignment_Statement);
Set_Target (Stmt, Get_Target (Orig_Stmt));
if not Is_First then
Set_Is_Ref (Stmt, True);
end if;
if Proc /= Null_Iir then
Sensitivity_List := Get_Sensitivity_List (Proc);
Extract_Waveform_Sensitivity (Waveform_Chain, Sensitivity_List);
end if;
Set_Waveform_Chain (Stmt, Waveform_Chain);
Set_Delay_Mechanism (Stmt, Get_Delay_Mechanism (Orig_Stmt));
Set_Reject_Time_Expression
(Stmt, Get_Reject_Time_Expression (Orig_Stmt));
Set_Reject_Time_Expression (Orig_Stmt, Null_Iir);
end if;
Location_Copy (Stmt, Orig_Stmt);
return Stmt;
end Canon_Wave_Transform;
-- Create signal_transform for a concurrent simple signal assignment.
procedure Canon_Concurrent_Simple_Signal_Assignment
(Conc_Stmt : Iir; Proc : Iir; Parent : Iir)
is
Stmt : Iir;
begin
Stmt := Canon_Wave_Transform
(Conc_Stmt, Get_Waveform_Chain (Conc_Stmt), Proc, True);
Set_Waveform_Chain (Conc_Stmt, Null_Iir);
Set_Target (Conc_Stmt, Null_Iir);
Set_Parent (Stmt, Parent);
Set_Sequential_Statement_Chain (Parent, Stmt);
end Canon_Concurrent_Simple_Signal_Assignment;
procedure Canon_Conditional_Signal_Assignment_Expression (Stmt : Iir)
is
Cond_Wf : Iir_Conditional_Waveform;
begin
Cond_Wf := Get_Conditional_Waveform_Chain (Stmt);
while Cond_Wf /= Null_Iir loop
Canon_Expression_If_Valid (Get_Condition (Cond_Wf));
Canon_Waveform_Expression (Get_Waveform_Chain (Cond_Wf));
Cond_Wf := Get_Chain (Cond_Wf);
end loop;
end Canon_Conditional_Signal_Assignment_Expression;
-- Create signal_transform for a concurrent conditional signal assignment.
function Canon_Conditional_Signal_Assignment
(Conc_Stmt : Iir; Proc : Iir; Parent : Iir) return Iir
is
Expr : Iir;
Stmt : Iir;
Res1 : Iir;
Last_Res : Iir;
Wf : Iir;
Cond_Wf : Iir_Conditional_Waveform;
Cond_Wf_Chain : Iir_Conditional_Waveform;
begin
Cond_Wf_Chain := Get_Conditional_Waveform_Chain (Conc_Stmt);
Stmt := Null_Iir;
Cond_Wf := Cond_Wf_Chain;
Last_Res := Null_Iir;
while Cond_Wf /= Null_Iir loop
Expr := Get_Condition (Cond_Wf);
-- Canon waveform.
Wf := Get_Waveform_Chain (Cond_Wf);
Wf := Canon_Wave_Transform
(Conc_Stmt, Wf, Proc, False); -- Cond_Wf = Cond_Wf_Chain);
if Expr = Null_Iir and Cond_Wf = Cond_Wf_Chain then
-- A conditional assignment that is in fact a simple one. Usual
-- case for concurrent signal assignment in vhdl 93.
pragma Assert (Get_Chain (Cond_Wf) = Null_Iir);
Set_Parent (Wf, Parent);
Res1 := Wf;
Stmt := Res1;
else
-- A real conditional signal assignment.
-- Canon condition (if any).
if Expr /= Null_Iir then
if Proc /= Null_Iir then
Canon_Extract_Sensitivity
(Expr, Get_Sensitivity_List (Proc), False);
end if;
end if;
if Stmt = Null_Iir then
Res1 := Create_Iir (Iir_Kind_If_Statement);
Set_Parent (Res1, Parent);
Stmt := Res1;
else
Res1 := Create_Iir (Iir_Kind_Elsif);
Set_Else_Clause (Last_Res, Res1);
end if;
Location_Copy (Res1, Cond_Wf);
Set_Condition (Res1, Expr);
Set_Sequential_Statement_Chain (Res1, Wf);
Set_Parent (Wf, Stmt);
Last_Res := Res1;
end if;
Set_Condition (Cond_Wf, Null_Iir);
Set_Waveform_Chain (Cond_Wf, Null_Iir);
Cond_Wf := Get_Chain (Cond_Wf);
end loop;
return Stmt;
end Canon_Conditional_Signal_Assignment;
-- Create signal_transform for a concurrent conditional signal assignment.
procedure Canon_Concurrent_Conditional_Signal_Assignment
(Conc_Stmt : Iir; Proc : Iir; Parent : Iir)
is
Stmt : Iir;
begin
Stmt := Canon_Conditional_Signal_Assignment (Conc_Stmt, Proc, Parent);
Set_Sequential_Statement_Chain (Parent, Stmt);
end Canon_Concurrent_Conditional_Signal_Assignment;
procedure Canon_Selected_Signal_Assignment_Expression (Stmt : Iir)
is
Selected_Waveform : Iir;
Waveform : Iir;
begin
Canon_Expression (Get_Expression (Stmt));
Selected_Waveform := Get_Selected_Waveform_Chain (Stmt);
while Selected_Waveform /= Null_Iir loop
Waveform := Get_Associated_Chain (Selected_Waveform);
if Waveform /= Null_Iir then
Canon_Waveform_Expression (Waveform);
end if;
Selected_Waveform := Get_Chain (Selected_Waveform);
end loop;
end Canon_Selected_Signal_Assignment_Expression;
procedure Canon_Concurrent_Selected_Signal_Assignment
(Conc_Stmt : Iir; Proc : Iir; Parent : Iir)
is
Sensitivity_List : constant Iir_List := Get_Sensitivity_List (Proc);
Expr : constant Iir := Get_Expression (Conc_Stmt);
Selected_Waveform_Chain : constant Iir :=
Get_Selected_Waveform_Chain (Conc_Stmt);
Target : constant Iir := Get_Target (Conc_Stmt);
Reject_Time : constant Iir := Get_Reject_Time_Expression (Conc_Stmt);
Selected_Waveform : Iir;
Case_Stmt: Iir_Case_Statement;
Stmt : Iir;
Waveform : Iir;
begin
Canon_Extract_Sensitivity (Expr, Sensitivity_List, False);
if Vhdl_Std < Vhdl_08 then
Case_Stmt := Create_Iir (Iir_Kind_Case_Statement);
Set_Parent (Case_Stmt, Parent);
Set_Sequential_Statement_Chain (Parent, Case_Stmt);
Location_Copy (Case_Stmt, Conc_Stmt);
Set_Expression (Case_Stmt, Expr);
Set_Case_Statement_Alternative_Chain
(Case_Stmt, Selected_Waveform_Chain);
Selected_Waveform := Selected_Waveform_Chain;
while Selected_Waveform /= Null_Iir loop
Set_Parent (Selected_Waveform, Case_Stmt);
Waveform := Get_Associated_Chain (Selected_Waveform);
if Waveform /= Null_Iir then
Stmt := Canon_Wave_Transform
(Conc_Stmt, Waveform, Proc,
Selected_Waveform = Selected_Waveform_Chain);
Set_Parent (Stmt, Case_Stmt);
Set_Associated_Chain (Selected_Waveform, Stmt);
end if;
Selected_Waveform := Get_Chain (Selected_Waveform);
end loop;
else
Stmt := Create_Iir (Iir_Kind_Selected_Waveform_Assignment_Statement);
Set_Parent (Stmt, Parent);
Set_Sequential_Statement_Chain (Parent, Stmt);
Location_Copy (Stmt, Conc_Stmt);
Set_Expression (Stmt, Expr);
Set_Target (Stmt, Target);
Set_Delay_Mechanism (Stmt, Get_Delay_Mechanism (Conc_Stmt));
Set_Reject_Time_Expression (Stmt, Reject_Time);
Set_Selected_Waveform_Chain (Stmt, Selected_Waveform_Chain);
Set_Selected_Waveform_Chain (Conc_Stmt, Null_Iir);
Selected_Waveform := Selected_Waveform_Chain;
while Selected_Waveform /= Null_Iir loop
Waveform := Get_Associated_Chain (Selected_Waveform);
Set_Parent (Selected_Waveform, Stmt);
if Waveform /= Null_Iir then
Extract_Waveform_Sensitivity (Waveform, Sensitivity_List);
end if;
Selected_Waveform := Get_Chain (Selected_Waveform);
end loop;
end if;
-- Transfer ownership.
Set_Expression (Conc_Stmt, Null_Iir);
Set_Target (Conc_Stmt, Null_Iir);
Set_Selected_Waveform_Chain (Conc_Stmt, Null_Iir);
Set_Reject_Time_Expression (Conc_Stmt, Null_Iir);
end Canon_Concurrent_Selected_Signal_Assignment;
procedure Canon_Generate_Statement_Body
(Top : Iir_Design_Unit; Bod : Iir) is
begin
Canon_Declarations (Top, Bod, Bod);
Canon_Concurrent_Stmts (Top, Bod);
end Canon_Generate_Statement_Body;
-- Return TRUE iff NFA has an edge with an EOS.
-- If so, we need to create a finalizer.
function Psl_Need_Finalizer (Nfa : PSL_NFA) return Boolean
is
use PSL.NFAs;
S : NFA_State;
E : NFA_Edge;
begin
S := Get_Final_State (Nfa);
E := Get_First_Dest_Edge (S);
while E /= No_Edge loop
if PSL.NFAs.Utils.Has_EOS (Get_Edge_Expr (E)) then
return True;
end if;
E := Get_Next_Dest_Edge (E);
end loop;
return False;
end Psl_Need_Finalizer;
-- Size the NFA and extract clock sensitivity.
procedure Canon_Psl_Clocked_NFA (Stmt : Iir)
is
use PSL.Nodes;
Fa : constant PSL_NFA := Get_PSL_NFA (Stmt);
Num : Natural;
List : Iir_List;
begin
PSL.NFAs.Labelize_States (Fa, Num);
Set_PSL_Nbr_States (Stmt, Int32 (Num));
Set_PSL_EOS_Flag (Stmt, Psl_Need_Finalizer (Fa));
List := Create_Iir_List;
Canon_PSL.Canon_Extract_Sensitivity (Get_PSL_Clock (Stmt), List);
Set_PSL_Clock_Sensitivity (Stmt, List);
end Canon_Psl_Clocked_NFA;
procedure Canon_Psl_Directive (Stmt : Iir) is
begin
Canon_Psl_Clocked_NFA (Stmt);
if Canon_Flag_Expressions then
Canon_PSL_Expression (Get_PSL_Clock (Stmt));
Canon_Expression (Get_Severity_Expression (Stmt));
Canon_Expression (Get_Report_Expression (Stmt));
end if;
end Canon_Psl_Directive;
procedure Canon_If_Case_Generate_Statement_Body
(Bod : Iir; Alt_Num : in out Natural; Top : Iir_Design_Unit) is
begin
if Canon_Flag_Add_Labels
and then Get_Alternative_Label (Bod) = Null_Identifier
then
declare
Str : String := Natural'Image (Alt_Num);
begin
-- Note: the label starts with a capitalized
-- letter, to avoid any clash with user's
-- identifiers.
Str (1) := 'B';
Set_Alternative_Label (Bod, Name_Table.Get_Identifier (Str));
end;
end if;
Canon_Generate_Statement_Body (Top, Bod);
Alt_Num := Alt_Num + 1;
end Canon_If_Case_Generate_Statement_Body;
function Canon_Concurrent_Assertion_Statement (Stmt : Iir) return Iir
is
Proc : Iir;
Asrt : Iir;
Expr : Iir;
Sensitivity_List : Iir_List;
begin
-- Create a new entry.
Proc := Create_Iir (Iir_Kind_Sensitized_Process_Statement);
Location_Copy (Proc, Stmt);
Set_Parent (Proc, Get_Parent (Stmt));
Set_Process_Origin (Proc, Stmt);
-- LRM93 9.4
-- The equivalent process statement has a label if and only if the
-- current assertion statement has a label; if the equivalent process
-- statement has a label; it is the same as that of the concurrent
-- assertion statement.
Set_Label (Proc, Get_Label (Stmt));
-- LRM93 9.4
-- The equivalent process statement is a postponed process if and only
-- if the current assertion statement includes the reserved word
-- POSTPONED.
Set_Postponed_Flag (Proc, Get_Postponed_Flag (Stmt));
Asrt := Create_Iir (Iir_Kind_Assertion_Statement);
Set_Sequential_Statement_Chain (Proc, Asrt);
Set_Parent (Asrt, Proc);
Location_Copy (Asrt, Stmt);
Sensitivity_List := Create_Iir_List;
Set_Sensitivity_List (Proc, Sensitivity_List);
Set_Is_Ref (Proc, True);
-- Expand the expression, fill the sensitivity list,
Expr := Get_Assertion_Condition (Stmt);
Canon_Extract_Sensitivity (Expr, Sensitivity_List, False);
Set_Assertion_Condition (Asrt, Expr);
Set_Assertion_Condition (Stmt, Null_Iir);
Expr := Get_Report_Expression (Stmt);
Set_Report_Expression (Asrt, Expr);
Set_Report_Expression (Stmt, Null_Iir);
Expr := Get_Severity_Expression (Stmt);
Set_Severity_Expression (Asrt, Expr);
Set_Severity_Expression (Stmt, Null_Iir);
return Proc;
end Canon_Concurrent_Assertion_Statement;
procedure Canon_Concurrent_Stmts (Top : Iir_Design_Unit; Parent : Iir)
is
-- Current element in the chain of concurrent statements.
El: Iir;
-- Previous element or NULL_IIR if EL is the first element.
-- This is used to make Replace_Stmt efficient.
Prev_El : Iir;
-- Replace in the chain EL by N_STMT.
procedure Replace_Stmt (N_Stmt : Iir) is
begin
if Prev_El = Null_Iir then
Set_Concurrent_Statement_Chain (Parent, N_Stmt);
else
Set_Chain (Prev_El, N_Stmt);
end if;
Set_Chain (N_Stmt, Get_Chain (El));
end Replace_Stmt;
Proc: Iir;
Sub_Chain : Iir;
Expr: Iir;
Proc_Num : Natural := 0;
begin
Prev_El := Null_Iir;
El := Get_Concurrent_Statement_Chain (Parent);
while El /= Null_Iir loop
-- Add a label if required.
if Canon_Flag_Add_Labels then
case Get_Kind (El) is
when Iir_Kind_Psl_Declaration
| Iir_Kind_Psl_Endpoint_Declaration =>
null;
when others =>
if Get_Label (El) = Null_Identifier then
declare
Str : String := Natural'Image (Proc_Num);
begin
-- Note: the label starts with a capitalized letter,
-- to avoid any clash with user's identifiers.
Str (1) := 'P';
Set_Label (El, Name_Table.Get_Identifier (Str));
end;
Proc_Num := Proc_Num + 1;
end if;
end case;
end if;
case Get_Kind (El) is
when Iir_Kind_Concurrent_Simple_Signal_Assignment =>
if Canon_Flag_Expressions then
Canon_Expression (Get_Target (El));
Canon_Waveform_Expression (Get_Waveform_Chain (El));
end if;
if Canon_Flag_Concurrent_Stmts then
Canon_Concurrent_Signal_Assignment (El, Proc, Sub_Chain);
Canon_Concurrent_Simple_Signal_Assignment
(El, Proc, Sub_Chain);
Replace_Stmt (Proc);
El := Proc;
end if;
when Iir_Kind_Concurrent_Conditional_Signal_Assignment =>
if Canon_Flag_Expressions then
Canon_Expression (Get_Target (El));
Canon_Conditional_Signal_Assignment_Expression (El);
end if;
if Canon_Flag_Concurrent_Stmts then
Canon_Concurrent_Signal_Assignment (El, Proc, Sub_Chain);
Canon_Concurrent_Conditional_Signal_Assignment
(El, Proc, Sub_Chain);
Replace_Stmt (Proc);
El := Proc;
end if;
when Iir_Kind_Concurrent_Selected_Signal_Assignment =>
if Canon_Flag_Expressions then
Canon_Expression (Get_Target (El));
Canon_Selected_Signal_Assignment_Expression (El);
end if;
if Canon_Flag_Concurrent_Stmts then
Canon_Concurrent_Signal_Assignment (El, Proc, Sub_Chain);
Canon_Concurrent_Selected_Signal_Assignment
(El, Proc, Sub_Chain);
Replace_Stmt (Proc);
El := Proc;
end if;
when Iir_Kind_Concurrent_Assertion_Statement =>
if Canon_Flag_Expressions then
Canon_Expression (Get_Assertion_Condition (El));
Canon_Expression_If_Valid (Get_Report_Expression (El));
Canon_Expression_If_Valid (Get_Severity_Expression (El));
end if;
if Canon_Flag_Concurrent_Stmts then
Proc := Canon_Concurrent_Assertion_Statement (El);
Replace_Stmt (Proc);
El := Proc;
end if;
when Iir_Kind_Concurrent_Procedure_Call_Statement =>
declare
Call : constant Iir_Procedure_Call :=
Get_Procedure_Call (El);
Imp : constant Iir := Get_Implementation (Call);
Assoc_Chain : Iir;
begin
Assoc_Chain := Canon_Association_Chain_And_Actuals
(Get_Interface_Declaration_Chain (Imp),
Get_Parameter_Association_Chain (Call),
Call);
Set_Parameter_Association_Chain (Call, Assoc_Chain);
end;
if Canon_Flag_Concurrent_Stmts then
Proc := Canon_Concurrent_Procedure_Call (El);
Replace_Stmt (Proc);
El := Proc;
end if;
when Iir_Kind_Sensitized_Process_Statement
| Iir_Kind_Process_Statement =>
Canon_Declarations (Top, El, Null_Iir);
if Canon_Flag_Sequentials_Stmts then
declare
Stmts : Iir;
begin
Stmts := Get_Sequential_Statement_Chain (El);
Stmts := Canon_Sequential_Stmts (Stmts);
Set_Sequential_Statement_Chain (El, Stmts);
end;
end if;
if Canon_Flag_All_Sensitivity
and then Canon_Flag_Sequentials_Stmts
and then Get_Kind (El) = Iir_Kind_Sensitized_Process_Statement
and then Get_Sensitivity_List (El) = Iir_List_All
then
Set_Sensitivity_List
(El, Canon_Extract_Process_Sensitivity (El));
end if;
when Iir_Kind_Component_Instantiation_Statement =>
declare
Inst : Iir;
Assoc_Chain : Iir;
begin
Inst := Get_Instantiated_Unit (El);
Inst := Get_Entity_From_Entity_Aspect (Inst);
Assoc_Chain := Canon_Association_Chain_And_Actuals
(Get_Generic_Chain (Inst),
Get_Generic_Map_Aspect_Chain (El),
El);
Set_Generic_Map_Aspect_Chain (El, Assoc_Chain);
Assoc_Chain := Canon_Association_Chain_And_Actuals
(Get_Port_Chain (Inst),
Get_Port_Map_Aspect_Chain (El),
El);
Set_Port_Map_Aspect_Chain (El, Assoc_Chain);
end;
when Iir_Kind_Block_Statement =>
declare
Header : Iir_Block_Header;
Chain : Iir;
Guard : Iir_Guard_Signal_Declaration;
begin
Guard := Get_Guard_Decl (El);
if Guard /= Null_Iir then
Expr := Get_Guard_Expression (Guard);
Set_Guard_Sensitivity_List (Guard, Create_Iir_List);
Canon_Extract_Sensitivity
(Expr, Get_Guard_Sensitivity_List (Guard), False);
if Canon_Flag_Expressions then
Canon_Expression (Expr);
end if;
end if;
Header := Get_Block_Header (El);
if Header /= Null_Iir then
-- Generics.
Chain := Get_Generic_Map_Aspect_Chain (Header);
if Chain /= Null_Iir then
Chain := Canon_Association_Chain_And_Actuals
(Get_Generic_Chain (Header), Chain, Chain);
else
Chain := Canon_Default_Association_Chain
(Get_Generic_Chain (Header));
end if;
Set_Generic_Map_Aspect_Chain (Header, Chain);
-- Ports.
Chain := Get_Port_Map_Aspect_Chain (Header);
if Chain /= Null_Iir then
Chain := Canon_Association_Chain_And_Actuals
(Get_Port_Chain (Header), Chain, Chain);
else
Chain := Canon_Default_Association_Chain
(Get_Port_Chain (Header));
end if;
Set_Port_Map_Aspect_Chain (Header, Chain);
end if;
Canon_Declarations (Top, El, El);
Canon_Concurrent_Stmts (Top, El);
end;
when Iir_Kind_If_Generate_Statement =>
declare
Clause : Iir;
Alt_Num : Natural;
begin
Clause := El;
Alt_Num := 1;
while Clause /= Null_Iir loop
if Canon_Flag_Expressions then
Canon_Expression_If_Valid (Get_Condition (El));
end if;
Canon_If_Case_Generate_Statement_Body
(Get_Generate_Statement_Body (Clause), Alt_Num, Top);
Clause := Get_Generate_Else_Clause (Clause);
end loop;
end;
when Iir_Kind_Case_Generate_Statement =>
declare
Alt : Iir;
Alt_Num : Natural;
begin
Alt_Num := 1;
if Canon_Flag_Expressions then
Canon_Expression (Get_Expression (El));
end if;
Alt := Get_Case_Statement_Alternative_Chain (El);
while Alt /= Null_Iir loop
if not Get_Same_Alternative_Flag (Alt) then
Canon_If_Case_Generate_Statement_Body
(Get_Associated_Block (Alt), Alt_Num, Top);
end if;
Alt := Get_Chain (Alt);
end loop;
end;
when Iir_Kind_For_Generate_Statement =>
declare
Decl : constant Iir := Get_Parameter_Specification (El);
New_Decl : Iir;
begin
New_Decl := Canon_Declaration
(Top, Decl, Null_Iir, Null_Iir);
pragma Assert (New_Decl = Decl);
Canon_Generate_Statement_Body
(Top, Get_Generate_Statement_Body (El));
end;
when Iir_Kind_Psl_Assert_Statement =>
declare
use PSL.Nodes;
Prop : PSL_Node;
Fa : PSL_NFA;
begin
Prop := Get_Psl_Property (El);
Prop := PSL.Rewrites.Rewrite_Property (Prop);
Set_Psl_Property (El, Prop);
-- Generate the NFA.
Fa := PSL.Build.Build_FA (Prop);
Set_PSL_NFA (El, Fa);
Canon_Psl_Directive (El);
end;
when Iir_Kind_Psl_Cover_Statement =>
declare
use PSL.Nodes;
Seq : PSL_Node;
Fa : PSL_NFA;
begin
Seq := Get_Psl_Sequence (El);
Seq := PSL.Rewrites.Rewrite_SERE (Seq);
Set_Psl_Sequence (El, Seq);
-- Generate the NFA.
Fa := PSL.Build.Build_SERE_FA (Seq);
Set_PSL_NFA (El, Fa);
Canon_Psl_Directive (El);
end;
when Iir_Kind_Psl_Default_Clock =>
null;
when Iir_Kind_Psl_Declaration =>
declare
use PSL.Nodes;
Decl : constant PSL_Node := Get_Psl_Declaration (El);
Prop : PSL_Node;
Fa : PSL_NFA;
begin
case Get_Kind (Decl) is
when N_Property_Declaration =>
Prop := Get_Property (Decl);
Prop := PSL.Rewrites.Rewrite_Property (Prop);
Set_Property (Decl, Prop);
if Get_Parameter_List (Decl) = Null_Node then
-- Generate the NFA.
Fa := PSL.Build.Build_FA (Prop);
Set_PSL_NFA (El, Fa);
end if;
when N_Sequence_Declaration
| N_Endpoint_Declaration =>
Prop := Get_Sequence (Decl);
Prop := PSL.Rewrites.Rewrite_SERE (Prop);
Set_Sequence (Decl, Prop);
when others =>
Error_Kind ("canon psl_declaration", Decl);
end case;
end;
when Iir_Kind_Psl_Endpoint_Declaration =>
declare
use PSL.Nodes;
Decl : constant PSL_Node := Get_Psl_Declaration (El);
Seq : PSL_Node;
Fa : PSL_NFA;
begin
pragma Assert (Get_Parameter_List (Decl) = Null_Node);
Seq := Get_Sequence (Decl);
Seq := PSL.Rewrites.Rewrite_SERE (Seq);
Set_Sequence (Decl, Seq);
-- Generate the NFA.
Fa := PSL.Build.Build_SERE_FA (Seq);
Set_PSL_NFA (El, Fa);
Canon_Psl_Clocked_NFA (El);
end;
when Iir_Kind_Simple_Simultaneous_Statement =>
if Canon_Flag_Expressions then
Canon_Expression (Get_Simultaneous_Left (El));
Canon_Expression (Get_Simultaneous_Right (El));
end if;
when others =>
Error_Kind ("canon_concurrent_stmts", El);
end case;
Prev_El := El;
El := Get_Chain (El);
end loop;
end Canon_Concurrent_Stmts;
-- procedure Canon_Binding_Indication
-- (Component: Iir; Binding : Iir_Binding_Indication)
-- is
-- List : Iir_Association_List;
-- begin
-- if Binding = Null_Iir then
-- return;
-- end if;
-- List := Get_Generic_Map_Aspect_List (Binding);
-- List := Canon_Association_List (Get_Generic_List (Component), List);
-- Set_Generic_Map_Aspect_List (Binding, List);
-- List := Get_Port_Map_Aspect_List (Binding);
-- List := Canon_Association_List (Get_Port_List (Component), List);
-- Set_Port_Map_Aspect_List (Binding, List);
-- end Canon_Binding_Indication;
procedure Add_Binding_Indication_Dependence (Top : Iir_Design_Unit;
Binding : Iir)
is
Aspect : Iir;
begin
if Binding = Null_Iir then
return;
end if;
Aspect := Get_Entity_Aspect (Binding);
if Aspect = Null_Iir then
return;
end if;
case Get_Kind (Aspect) is
when Iir_Kind_Entity_Aspect_Entity =>
if Get_Architecture (Aspect) /= Null_Iir then
Add_Dependence (Top, Aspect);
else
Add_Dependence (Top, Get_Design_Unit (Get_Entity (Aspect)));
end if;
when Iir_Kind_Entity_Aspect_Configuration =>
Add_Dependence (Top, Get_Design_Unit (Get_Configuration (Aspect)));
when Iir_Kind_Entity_Aspect_Open =>
null;
when others =>
Error_Kind ("add_binding_indication_dependence", Aspect);
end case;
end Add_Binding_Indication_Dependence;
-- Canon the component_configuration or configuration_specification CFG.
procedure Canon_Component_Configuration (Top : Iir_Design_Unit; Cfg : Iir)
is
-- True iff CFG is a component_configuration.
-- False iff CFG is a configuration_specification.
Is_Config : constant Boolean :=
Get_Kind (Cfg) = Iir_Kind_Component_Configuration;
Bind : Iir;
Comp : Iir;
Instances : Iir_Flist;
Entity_Aspect : Iir;
Block : Iir_Block_Configuration;
Map_Chain : Iir;
Entity : Iir;
begin
Bind := Get_Binding_Indication (Cfg);
if Bind = Null_Iir then
-- Add a default binding indication
-- Extract a component instantiation
Instances := Get_Instantiation_List (Cfg);
-- Designator_all and designator_others must have been replaced
-- by a list during canon.
pragma Assert (Instances not in Iir_Flists_All_Others);
Bind := Get_Default_Binding_Indication
(Get_Named_Entity (Get_Nth_Element (Instances, 0)));
if Bind = Null_Iir then
-- Component is not bound.
return;
end if;
Set_Binding_Indication (Cfg, Bind);
Set_Is_Ref (Cfg, True);
Add_Binding_Indication_Dependence (Top, Bind);
return;
else
Entity_Aspect := Get_Entity_Aspect (Bind);
if Entity_Aspect = Null_Iir then
Entity_Aspect := Get_Default_Entity_Aspect (Bind);
Set_Entity_Aspect (Bind, Entity_Aspect);
end if;
if Entity_Aspect /= Null_Iir then
Add_Binding_Indication_Dependence (Top, Bind);
Entity := Get_Entity_From_Entity_Aspect (Entity_Aspect);
Comp := Get_Named_Entity (Get_Component_Name (Cfg));
-- Canon generic map
Map_Chain := Get_Generic_Map_Aspect_Chain (Bind);
if Map_Chain = Null_Iir then
if Is_Config and then Is_Valid (Entity) then
Map_Chain := Sem_Specs.Create_Default_Map_Aspect
(Comp, Entity, Sem_Specs.Map_Generic, Bind);
end if;
else
Map_Chain := Canon_Association_Chain
(Get_Generic_Chain (Entity), Map_Chain, Map_Chain);
end if;
Set_Generic_Map_Aspect_Chain (Bind, Map_Chain);
-- Canon port map
Map_Chain := Get_Port_Map_Aspect_Chain (Bind);
if Map_Chain = Null_Iir then
if Is_Config and then Is_Valid (Entity) then
Map_Chain := Sem_Specs.Create_Default_Map_Aspect
(Comp, Entity, Sem_Specs.Map_Port, Bind);
end if;
else
Map_Chain := Canon_Association_Chain
(Get_Port_Chain (Entity), Map_Chain, Map_Chain);
end if;
Set_Port_Map_Aspect_Chain (Bind, Map_Chain);
if Is_Config then
Block := Get_Block_Configuration (Cfg);
if Block /= Null_Iir then
-- If there is no architecture_identifier in the binding,
-- set it from the block_configuration.
if Get_Kind (Entity_Aspect) = Iir_Kind_Entity_Aspect_Entity
and then Get_Architecture (Entity_Aspect) = Null_Iir
then
Entity := Get_Entity (Entity_Aspect);
pragma Assert
(Get_Kind (Entity) = Iir_Kind_Entity_Declaration);
Set_Architecture
(Entity_Aspect,
Build_Reference_Name
(Get_Block_Specification (Block)));
end if;
Canon_Block_Configuration (Top, Block);
end if;
end if;
end if;
end if;
end Canon_Component_Configuration;
-- Create the 'final' binding indication in case of incremental binding.
procedure Canon_Incremental_Binding
(Conf_Spec : Iir_Configuration_Specification;
Comp_Conf : Iir_Component_Configuration;
Parent : Iir)
is
-- Merge associations from FIRST_CHAIN and SEC_CHAIN.
function Merge_Association_Chain
(Inter_Chain : Iir; First_Chain : Iir; Sec_Chain : Iir) return Iir
is
-- Result (chain).
First, Last : Iir;
-- Copy an association and append new elements to FIRST/LAST. In
-- case of individual associations, all associations for the
-- interface are copied.
procedure Copy_Association
(Assoc : in out Iir; Inter : in out Iir; Copy_Inter : Iir)
is
El : Iir;
Formal : Iir;
begin
loop
El := Create_Iir (Get_Kind (Assoc));
Location_Copy (El, Assoc);
-- Copy formal.
-- Special case: formal comes from a default binding
-- indication. In that case Is_Forward_Ref is set, which makes
-- it non-copiable by Sem_Inst.
Formal := Get_Formal (Assoc);
if Is_Valid (Formal) then
if Get_Kind (Formal) = Iir_Kind_Simple_Name
and then Get_Is_Forward_Ref (Formal)
then
Formal := Build_Simple_Name
(Get_Named_Entity (Formal), Formal);
else
Formal := Sem_Inst.Copy_Tree (Formal);
end if;
Set_Formal (El, Formal);
else
Formal := Inter;
end if;
Set_Whole_Association_Flag
(El, Get_Whole_Association_Flag (Assoc));
case Get_Kind (Assoc) is
when Iir_Kind_Association_Element_Open =>
null;
when Iir_Kind_Association_Element_By_Expression =>
Set_Actual (El, Sem_Inst.Copy_Tree (Get_Actual (Assoc)));
Set_Actual_Conversion
(El,
Sem_Inst.Copy_Tree (Get_Actual_Conversion (Assoc)));
Set_Formal_Conversion
(El,
Sem_Inst.Copy_Tree (Get_Formal_Conversion (Assoc)));
Set_Collapse_Signal_Flag
(Assoc,
Sem.Can_Collapse_Signals (Assoc, Formal));
when Iir_Kind_Association_Element_By_Individual =>
Set_Actual_Type (El, Get_Actual_Type (Assoc));
when others =>
Error_Kind ("copy_association", Assoc);
end case;
Sub_Chain_Append (First, Last, El);
Next_Association_Interface (Assoc, Inter);
exit when Assoc = Null_Iir;
exit when
Get_Association_Interface (Assoc, Inter) /= Copy_Inter;
end loop;
end Copy_Association;
procedure Advance
(Assoc : in out Iir; Inter : in out Iir; Skip_Inter : Iir) is
begin
loop
Next_Association_Interface (Assoc, Inter);
exit when Assoc = Null_Iir;
exit when
Get_Association_Interface (Assoc, Inter) /= Skip_Inter;
end loop;
end Advance;
Inter : Iir;
F_El : Iir;
F_Inter : Iir;
S_El : Iir;
S_Inter : Iir;
begin
F_El := First_Chain;
F_Inter := Inter_Chain;
Sub_Chain_Init (First, Last);
Inter := Inter_Chain;
while Inter /= Null_Iir loop
-- Consistency check.
pragma Assert (Get_Association_Interface (F_El, F_Inter) = Inter);
-- Find the association in the second chain.
S_El := Find_First_Association_For_Interface
(Sec_Chain, Inter_Chain, Inter);
if S_El /= Null_Iir
and then Get_Kind (S_El) /= Iir_Kind_Association_Element_Open
then
-- Exists and not open: use it.
S_Inter := Inter;
Copy_Association (S_El, S_Inter, Inter);
Advance (F_El, F_Inter, Inter);
else
-- Does not exist: use the one from first chain.
Copy_Association (F_El, F_Inter, Inter);
end if;
Inter := Get_Chain (Inter);
end loop;
return First;
end Merge_Association_Chain;
Comp_Name : constant Iir := Get_Component_Name (Conf_Spec);
Comp : constant Iir := Get_Named_Entity (Comp_Name);
Cs_Binding : constant Iir := Get_Binding_Indication (Conf_Spec);
Cc_Binding : constant Iir := Get_Binding_Indication (Comp_Conf);
Res : Iir_Component_Configuration;
Cs_Chain : Iir;
Res_Binding : Iir_Binding_Indication;
Entity : Iir;
Instance_List : Iir_List;
Conf_Instance_List : Iir_Flist;
Instance : Iir;
Instance_Name : Iir;
N_Nbr : Natural;
begin
-- Create the new component configuration
Res := Create_Iir (Iir_Kind_Component_Configuration);
Location_Copy (Res, Comp_Conf);
Set_Parent (Res, Parent);
Set_Component_Name (Res, Build_Reference_Name (Comp_Name));
Res_Binding := Create_Iir (Iir_Kind_Binding_Indication);
Location_Copy (Res_Binding, Res);
Set_Binding_Indication (Res, Res_Binding);
Entity := Get_Entity_From_Entity_Aspect (Get_Entity_Aspect (Cs_Binding));
-- Merge generic map aspect.
Cs_Chain := Get_Generic_Map_Aspect_Chain (Cs_Binding);
if Cs_Chain = Null_Iir then
Cs_Chain := Sem_Specs.Create_Default_Map_Aspect
(Comp, Entity, Sem_Specs.Map_Generic, Cs_Binding);
end if;
Set_Generic_Map_Aspect_Chain
(Res_Binding,
Merge_Association_Chain (Get_Generic_Chain (Entity),
Cs_Chain,
Get_Generic_Map_Aspect_Chain (Cc_Binding)));
-- Merge port map aspect.
Cs_Chain := Get_Port_Map_Aspect_Chain (Cs_Binding);
if Cs_Chain = Null_Iir then
Cs_Chain := Sem_Specs.Create_Default_Map_Aspect
(Comp, Entity, Sem_Specs.Map_Port, Cs_Binding);
end if;
Set_Port_Map_Aspect_Chain
(Res_Binding,
Merge_Association_Chain (Get_Port_Chain (Entity),
Cs_Chain,
Get_Port_Map_Aspect_Chain (Cc_Binding)));
-- Set entity aspect.
Set_Entity_Aspect
(Res_Binding, Sem_Inst.Copy_Tree (Get_Entity_Aspect (Cs_Binding)));
-- Create list of instances:
-- * keep common instances
-- replace component_configuration of them
-- remove them in the instance list of COMP_CONF
Instance_List := Create_Iir_List;
Conf_Instance_List := Get_Instantiation_List (Comp_Conf);
N_Nbr := 0;
for I in Flist_First .. Flist_Last (Conf_Instance_List) loop
Instance_Name := Get_Nth_Element (Conf_Instance_List, I);
Instance := Get_Named_Entity (Instance_Name);
if Get_Component_Configuration (Instance) = Conf_Spec then
-- The incremental binding applies to this instance.
Set_Component_Configuration (Instance, Res);
Append_Element (Instance_List, Instance_Name);
else
Set_Nth_Element (Conf_Instance_List, N_Nbr, Instance_Name);
N_Nbr := N_Nbr + 1;
end if;
end loop;
Set_Instantiation_List (Comp_Conf,
Truncate_Flist (Conf_Instance_List, N_Nbr));
Set_Instantiation_List (Res, List_To_Flist (Instance_List));
-- Insert RES.
Set_Chain (Res, Get_Chain (Comp_Conf));
Set_Chain (Comp_Conf, Res);
end Canon_Incremental_Binding;
procedure Canon_Component_Specification_All_Others
(Conf : Iir; Parent : Iir; Spec : Iir_Flist; List : Iir_List; Comp : Iir)
is
El : Iir;
Comp_Conf : Iir;
Inst : Iir;
begin
El := Get_Concurrent_Statement_Chain (Parent);
while El /= Null_Iir loop
-- Handle only component instantiation of COMP.
if Get_Kind (El) = Iir_Kind_Component_Instantiation_Statement
and then Is_Component_Instantiation (El)
and then Get_Named_Entity (Get_Instantiated_Unit (El)) = Comp
then
Comp_Conf := Get_Component_Configuration (El);
if Comp_Conf = Null_Iir then
-- The component is not yet configured.
Inst := Build_Simple_Name (El, El);
Set_Is_Forward_Ref (Inst, True);
Append_Element (List, Inst);
Set_Component_Configuration (El, Conf);
else
-- The component is already configured.
-- Handle incremental configuration.
if Get_Kind (Comp_Conf) = Iir_Kind_Configuration_Specification
and then Spec = Iir_Flist_All
then
-- FIXME: handle incremental configuration.
raise Internal_Error;
end if;
-- Several component configuration for an instance.
-- Must have been caught by sem.
pragma Assert (Spec = Iir_Flist_Others);
end if;
end if;
El := Get_Chain (El);
end loop;
end Canon_Component_Specification_All_Others;
procedure Canon_Component_Specification_List
(Conf : Iir; Parent : Iir; Spec : Iir_Flist)
is
El : Iir;
Comp_Conf : Iir;
begin
-- Already has a designator list.
for I in Flist_First .. Flist_Last (Spec) loop
El := Get_Nth_Element (Spec, I);
El := Get_Named_Entity (El);
Comp_Conf := Get_Component_Configuration (El);
if Comp_Conf /= Null_Iir and then Comp_Conf /= Conf then
pragma Assert
(Get_Kind (Comp_Conf) = Iir_Kind_Configuration_Specification);
pragma Assert
(Get_Kind (Conf) = Iir_Kind_Component_Configuration);
Canon_Incremental_Binding (Comp_Conf, Conf, Parent);
else
Set_Component_Configuration (El, Conf);
end if;
end loop;
end Canon_Component_Specification_List;
-- PARENT is the parent for the chain of concurrent statements.
procedure Canon_Component_Specification (Conf : Iir; Parent : Iir)
is
Spec : constant Iir_Flist := Get_Instantiation_List (Conf);
List : Iir_List;
begin
if Spec in Iir_Flists_All_Others then
List := Create_Iir_List;
Canon_Component_Specification_All_Others
(Conf, Parent, Spec, List,
Get_Named_Entity (Get_Component_Name (Conf)));
Set_Instantiation_List (Conf, List_To_Flist (List));
else
-- Has Already a designator list.
Canon_Component_Specification_List (Conf, Parent, Spec);
end if;
end Canon_Component_Specification;
-- Replace ALL/OTHERS with the explicit list of signals.
procedure Canon_Disconnection_Specification
(Dis : Iir_Disconnection_Specification; Decl_Parent : Iir)
is
Signal_List : Iir_Flist;
Force : Boolean;
El : Iir;
N_List : Iir_List;
Dis_Type : Iir;
begin
if Canon_Flag_Expressions then
Canon_Expression (Get_Expression (Dis));
end if;
if Canon_Flag_Specification_Lists then
Signal_List := Get_Signal_List (Dis);
if Signal_List = Iir_Flist_All then
Force := True;
elsif Signal_List = Iir_Flist_Others then
Force := False;
else
-- User list: nothing to do.
return;
end if;
Dis_Type := Get_Type (Get_Type_Mark (Dis));
N_List := Create_Iir_List;
Set_Is_Ref (Dis, True);
El := Get_Declaration_Chain (Decl_Parent);
while El /= Null_Iir loop
if Get_Kind (El) = Iir_Kind_Signal_Declaration
and then Get_Type (El) = Dis_Type
and then Get_Guarded_Signal_Flag (El)
then
if not Get_Has_Disconnect_Flag (El) then
Set_Has_Disconnect_Flag (El, True);
Append_Element (N_List, El);
else
if Force then
raise Internal_Error;
end if;
end if;
end if;
El := Get_Chain (El);
end loop;
Set_Signal_List (Dis, List_To_Flist (N_List));
end if;
end Canon_Disconnection_Specification;
procedure Canon_Subtype_Indication (Def : Iir) is
begin
case Get_Kind (Def) is
when Iir_Kind_Array_Subtype_Definition =>
declare
Indexes : constant Iir_Flist := Get_Index_Subtype_List (Def);
Index : Iir;
begin
for I in Flist_First .. Flist_Last (Indexes) loop
Index := Get_Index_Type (Indexes, I);
Canon_Subtype_Indication_If_Anonymous (Index);
end loop;
end;
when Iir_Kind_Integer_Subtype_Definition
| Iir_Kind_Floating_Subtype_Definition
| Iir_Kind_Enumeration_Subtype_Definition
| Iir_Kind_Physical_Subtype_Definition =>
declare
Rng : constant Iir := Get_Range_Constraint (Def);
begin
if Get_Kind (Rng) = Iir_Kind_Range_Expression then
Canon_Expression (Rng);
end if;
end;
when Iir_Kind_Record_Subtype_Definition
| Iir_Kind_Record_Type_Definition =>
null;
when Iir_Kind_Access_Subtype_Definition =>
null;
when others =>
Error_Kind ("canon_subtype_indication", Def);
end case;
end Canon_Subtype_Indication;
procedure Canon_Subtype_Indication_If_Anonymous (Def : Iir) is
begin
if Is_Anonymous_Type_Definition (Def) then
Canon_Subtype_Indication (Def);
end if;
end Canon_Subtype_Indication_If_Anonymous;
-- Return the new package declaration (if any).
function Canon_Package_Instantiation_Declaration (Decl : Iir) return Iir
is
Pkg : constant Iir := Get_Uninstantiated_Package_Decl (Decl);
Bod : Iir;
begin
-- Canon map aspect.
Set_Generic_Map_Aspect_Chain
(Decl,
Canon_Association_Chain_And_Actuals
(Get_Generic_Chain (Decl),
Get_Generic_Map_Aspect_Chain (Decl), Decl));
-- Generate the body now.
-- Note: according to the LRM, if the instantiation occurs within a
-- package, the body of the instance should be appended to the package
-- body.
-- FIXME: generate only if generating code for this unit.
if Get_Macro_Expanded_Flag (Pkg)
and then Get_Need_Body (Pkg)
then
Bod := Sem_Inst.Instantiate_Package_Body (Decl);
Set_Parent (Bod, Get_Parent (Decl));
Set_Package_Body (Decl, Bod);
end if;
return Decl;
end Canon_Package_Instantiation_Declaration;
function Canon_Declaration
(Top : Iir_Design_Unit; Decl : Iir; Parent : Iir; Decl_Parent : Iir)
return Iir
is
Stmts : Iir;
begin
case Get_Kind (Decl) is
when Iir_Kind_Procedure_Body
| Iir_Kind_Function_Body =>
Canon_Declarations (Top, Decl, Null_Iir);
if Canon_Flag_Sequentials_Stmts then
Stmts := Get_Sequential_Statement_Chain (Decl);
Stmts := Canon_Sequential_Stmts (Stmts);
Set_Sequential_Statement_Chain (Decl, Stmts);
end if;
when Iir_Kind_Procedure_Declaration
| Iir_Kind_Function_Declaration =>
null;
when Iir_Kind_Type_Declaration =>
declare
Def : Iir;
begin
Def := Get_Type_Definition (Decl);
if Get_Kind (Def) = Iir_Kind_Protected_Type_Declaration then
Canon_Declarations (Decl, Def, Null_Iir);
end if;
end;
when Iir_Kind_Anonymous_Type_Declaration
| Iir_Kind_Subtype_Declaration =>
null;
when Iir_Kind_Protected_Type_Body =>
Canon_Declarations (Top, Decl, Null_Iir);
when Iir_Kind_Variable_Declaration
| Iir_Kind_Signal_Declaration
| Iir_Kind_Constant_Declaration =>
if Canon_Flag_Expressions then
Canon_Subtype_Indication_If_Anonymous (Get_Type (Decl));
Canon_Expression (Get_Default_Value (Decl));
end if;
when Iir_Kind_Iterator_Declaration =>
null;
when Iir_Kind_Object_Alias_Declaration =>
null;
when Iir_Kind_Non_Object_Alias_Declaration =>
null;
when Iir_Kind_File_Declaration =>
-- FIXME
null;
when Iir_Kind_Attribute_Declaration =>
null;
when Iir_Kind_Attribute_Specification =>
if Canon_Flag_Expressions then
Canon_Expression (Get_Expression (Decl));
end if;
when Iir_Kind_Disconnection_Specification =>
Canon_Disconnection_Specification (Decl, Decl_Parent);
when Iir_Kind_Group_Template_Declaration =>
null;
when Iir_Kind_Group_Declaration =>
null;
when Iir_Kind_Use_Clause =>
null;
when Iir_Kind_Component_Declaration =>
null;
when Iir_Kind_Configuration_Specification =>
if Canon_Flag_Configurations then
Canon_Component_Specification (Decl, Parent);
Canon_Component_Configuration (Top, Decl);
end if;
when Iir_Kind_Package_Declaration =>
Canon_Declarations (Top, Decl, Parent);
when Iir_Kind_Package_Body =>
Canon_Declarations (Top, Decl, Parent);
when Iir_Kind_Package_Instantiation_Declaration =>
return Canon_Package_Instantiation_Declaration (Decl);
when Iir_Kind_Signal_Attribute_Declaration =>
null;
when Iir_Kind_Nature_Declaration =>
null;
when Iir_Kind_Terminal_Declaration =>
null;
when Iir_Kinds_Quantity_Declaration =>
null;
when Iir_Kind_Psl_Default_Clock =>
null;
when others =>
Error_Kind ("canon_declaration", Decl);
end case;
return Decl;
end Canon_Declaration;
procedure Canon_Declarations (Top : Iir_Design_Unit;
Decl_Parent : Iir;
Parent : Iir)
is
Decl : Iir;
Prev_Decl : Iir;
New_Decl : Iir;
begin
if Parent /= Null_Iir then
Clear_Instantiation_Configuration (Parent, True);
end if;
Decl := Get_Declaration_Chain (Decl_Parent);
Prev_Decl := Null_Iir;
while Decl /= Null_Iir loop
New_Decl := Canon_Declaration (Top, Decl, Parent, Decl_Parent);
if New_Decl /= Decl then
-- Replace declaration
if Prev_Decl = Null_Iir then
Set_Declaration_Chain (Decl_Parent, New_Decl);
else
Set_Chain (Prev_Decl, New_Decl);
end if;
end if;
Prev_Decl := New_Decl;
Decl := Get_Chain (New_Decl);
end loop;
end Canon_Declarations;
procedure Canon_Block_Configuration (Top : Iir_Design_Unit;
Conf : Iir_Block_Configuration)
is
use Iir_Chains.Configuration_Item_Chain_Handling;
Spec : constant Iir := Get_Block_Specification (Conf);
Blk : constant Iir := Get_Block_From_Block_Specification (Spec);
Stmts : constant Iir := Get_Concurrent_Statement_Chain (Blk);
El : Iir;
Sub_Blk : Iir;
Last_Item : Iir;
procedure Create_Default_Block_Configuration (Targ : Iir)
is
Res : Iir;
Spec : Iir;
begin
Res := Create_Iir (Iir_Kind_Block_Configuration);
Location_Copy (Res, Targ);
Set_Parent (Res, Conf);
if True then
-- For debugging. Display as user block configuration.
Spec := Build_Simple_Name (Targ, Targ);
else
-- To reduce size, it is possible to refer directly to the block
-- itself, without using a name.
Spec := El;
end if;
Set_Block_Specification (Res, Spec);
Append (Last_Item, Conf, Res);
end Create_Default_Block_Configuration;
begin
-- Note: the only allowed declarations are use clauses, which are not
-- canonicalized.
-- FIXME: handle indexed/sliced name?
Clear_Instantiation_Configuration (Blk, False);
Build_Init (Last_Item, Conf);
-- 1) Configure instantiations with configuration specifications.
-- TODO: merge.
El := Get_Declaration_Chain (Blk);
while El /= Null_Iir loop
if Get_Kind (El) = Iir_Kind_Configuration_Specification then
-- Already canonicalized during canon of block declarations.
-- But need to set configuration on instantiations.
Canon_Component_Specification (El, Blk);
end if;
El := Get_Chain (El);
end loop;
-- 2) Configure instantations with component configurations,
-- and map block configurations with block/generate statements.
El := Get_Configuration_Item_Chain (Conf);
while El /= Null_Iir loop
case Get_Kind (El) is
when Iir_Kind_Configuration_Specification =>
raise Internal_Error;
when Iir_Kind_Component_Configuration =>
Canon_Component_Specification (El, Blk);
when Iir_Kind_Block_Configuration =>
Sub_Blk := Strip_Denoting_Name (Get_Block_Specification (El));
case Get_Kind (Sub_Blk) is
when Iir_Kind_Block_Statement =>
Set_Block_Block_Configuration (Sub_Blk, El);
when Iir_Kind_Indexed_Name
| Iir_Kind_Slice_Name =>
Sub_Blk := Strip_Denoting_Name (Get_Prefix (Sub_Blk));
Set_Prev_Block_Configuration
(El, Get_Generate_Block_Configuration (Sub_Blk));
Set_Generate_Block_Configuration (Sub_Blk, El);
when Iir_Kind_Parenthesis_Name =>
Sub_Blk := Get_Named_Entity (Sub_Blk);
Set_Prev_Block_Configuration
(El, Get_Generate_Block_Configuration (Sub_Blk));
Set_Generate_Block_Configuration (Sub_Blk, El);
when Iir_Kind_Generate_Statement_Body =>
Set_Generate_Block_Configuration (Sub_Blk, El);
when others =>
Error_Kind ("canon_block_configuration(0)", Sub_Blk);
end case;
when others =>
Error_Kind ("canon_block_configuration(1)", El);
end case;
El := Get_Chain (El);
end loop;
-- 3) Add default component configuration for unspecified component
-- instantiation statements,
-- Add default block configuration for unconfigured block statements.
El := Stmts;
while El /= Null_Iir loop
case Get_Kind (El) is
when Iir_Kind_Component_Instantiation_Statement =>
declare
Comp_Conf : Iir;
Res : Iir_Component_Configuration;
Designator_List : Iir_List;
Inst_List : Iir_Flist;
Inst : Iir;
Inst_Name : Iir;
begin
Comp_Conf := Get_Component_Configuration (El);
if Comp_Conf = Null_Iir then
if Is_Component_Instantiation (El) then
-- Create a component configuration.
-- FIXME: should merge all these default configuration
-- of the same component.
Res := Create_Iir (Iir_Kind_Component_Configuration);
Location_Copy (Res, El);
Set_Parent (Res, Conf);
Set_Component_Name
(Res,
Build_Reference_Name (Get_Instantiated_Unit (El)));
Designator_List := Create_Iir_List;
Append_Element
(Designator_List, Build_Simple_Name (El, El));
Set_Instantiation_List
(Res, List_To_Flist (Designator_List));
Append (Last_Item, Conf, Res);
end if;
elsif Get_Kind (Comp_Conf)
= Iir_Kind_Configuration_Specification
then
-- Create component configuration
Res := Create_Iir (Iir_Kind_Component_Configuration);
Location_Copy (Res, Comp_Conf);
Set_Parent (Res, Conf);
Set_Component_Name
(Res,
Build_Reference_Name (Get_Component_Name (Comp_Conf)));
-- Keep in the designator list only the non-incrementally
-- bound instances, and only the instances in the current
-- statements parts (vhdl-87 generate issue).
Inst_List := Get_Instantiation_List (Comp_Conf);
Designator_List := Create_Iir_List;
for I in Flist_First .. Flist_Last (Inst_List) loop
Inst_Name := Get_Nth_Element (Inst_List, I);
Inst := Get_Named_Entity (Inst_Name);
if Get_Component_Configuration (Inst) = Comp_Conf
and then Get_Parent (Inst) = Blk
then
Set_Component_Configuration (Inst, Res);
Append_Element (Designator_List,
Build_Reference_Name (Inst_Name));
end if;
end loop;
Set_Instantiation_List
(Res, List_To_Flist (Designator_List));
Set_Binding_Indication
(Res, Get_Binding_Indication (Comp_Conf));
Set_Is_Ref (Res, True);
Append (Last_Item, Conf, Res);
end if;
end;
when Iir_Kind_Block_Statement =>
if Get_Block_Block_Configuration (El) = Null_Iir then
Create_Default_Block_Configuration (El);
end if;
when Iir_Kind_If_Generate_Statement =>
declare
Clause : Iir;
Bod : Iir;
Blk_Config : Iir_Block_Configuration;
begin
Clause := El;
while Clause /= Null_Iir loop
Bod := Get_Generate_Statement_Body (Clause);
Blk_Config := Get_Generate_Block_Configuration (Bod);
if Blk_Config = Null_Iir then
Create_Default_Block_Configuration (Bod);
end if;
Clause := Get_Generate_Else_Clause (Clause);
end loop;
end;
when Iir_Kind_Case_Generate_Statement =>
declare
Alt : Iir;
Bod : Iir;
Blk_Config : Iir_Block_Configuration;
begin
Alt := Get_Case_Statement_Alternative_Chain (El);
while Alt /= Null_Iir loop
if not Get_Same_Alternative_Flag (Alt) then
Bod := Get_Associated_Block (Alt);
Blk_Config := Get_Generate_Block_Configuration (Bod);
if Blk_Config = Null_Iir then
Create_Default_Block_Configuration (Bod);
end if;
end if;
Alt := Get_Chain (Alt);
end loop;
end;
when Iir_Kind_For_Generate_Statement =>
declare
Bod : constant Iir := Get_Generate_Statement_Body (El);
Blk_Config : constant Iir_Block_Configuration :=
Get_Generate_Block_Configuration (Bod);
Res : Iir_Block_Configuration;
Blk_Spec : Iir;
begin
if Blk_Config = Null_Iir then
Create_Default_Block_Configuration (Bod);
else
Blk_Spec := Strip_Denoting_Name
(Get_Block_Specification (Blk_Config));
if Get_Kind (Blk_Spec) /= Iir_Kind_Generate_Statement_Body
then
-- There are generate specification with range or
-- expression. Create a default block configuration
-- for the (possible) non-covered values.
Res := Create_Iir (Iir_Kind_Block_Configuration);
Location_Copy (Res, El);
Set_Parent (Res, Conf);
Blk_Spec := Create_Iir (Iir_Kind_Indexed_Name);
Location_Copy (Blk_Spec, Res);
Set_Index_List (Blk_Spec, Iir_Flist_Others);
Set_Base_Name (Blk_Spec, El);
Set_Prefix (Blk_Spec, Build_Simple_Name (Bod, Res));
Set_Block_Specification (Res, Blk_Spec);
Append (Last_Item, Conf, Res);
end if;
end if;
end;
when Iir_Kinds_Simple_Concurrent_Statement
| Iir_Kind_Psl_Default_Clock
| Iir_Kind_Psl_Declaration
| Iir_Kind_Psl_Endpoint_Declaration
| Iir_Kind_Simple_Simultaneous_Statement =>
null;
when others =>
Error_Kind ("canon_block_configuration(3)", El);
end case;
El := Get_Chain (El);
end loop;
-- 4) Canon component configuration and block configuration (recursion).
El := Get_Configuration_Item_Chain (Conf);
while El /= Null_Iir loop
case Get_Kind (El) is
when Iir_Kind_Block_Configuration =>
Canon_Block_Configuration (Top, El);
when Iir_Kind_Component_Configuration =>
Canon_Component_Configuration (Top, El);
when others =>
Error_Kind ("canon_block_configuration", El);
end case;
El := Get_Chain (El);
end loop;
end Canon_Block_Configuration;
procedure Canon_Interface_List (Chain : Iir)
is
Inter : Iir;
begin
if Canon_Flag_Expressions then
Inter := Chain;
while Inter /= Null_Iir loop
Canon_Subtype_Indication_If_Anonymous (Get_Type (Inter));
Canon_Expression (Get_Default_Value (Inter));
Inter := Get_Chain (Inter);
end loop;
end if;
end Canon_Interface_List;
procedure Canonicalize (Unit: Iir_Design_Unit)
is
El: Iir;
begin
if False then
-- Canon context clauses.
-- This code is not executed since context clauses are already
-- canonicalized.
El := Get_Context_Items (Unit);
while El /= Null_Iir loop
case Get_Kind (El) is
when Iir_Kind_Use_Clause
| Iir_Kind_Library_Clause
| Iir_Kind_Context_Reference =>
null;
when others =>
Error_Kind ("canonicalize1", El);
end case;
El := Get_Chain (El);
end loop;
end if;
El := Get_Library_Unit (Unit);
case Get_Kind (El) is
when Iir_Kind_Entity_Declaration =>
Canon_Interface_List (Get_Generic_Chain (El));
Canon_Interface_List (Get_Port_Chain (El));
Canon_Declarations (Unit, El, El);
Canon_Concurrent_Stmts (Unit, El);
when Iir_Kind_Architecture_Body =>
Canon_Declarations (Unit, El, El);
Canon_Concurrent_Stmts (Unit, El);
when Iir_Kind_Package_Declaration =>
Canon_Declarations (Unit, El, Null_Iir);
when Iir_Kind_Package_Body =>
Canon_Declarations (Unit, El, Null_Iir);
when Iir_Kind_Configuration_Declaration =>
Canon_Declarations (Unit, El, Null_Iir);
if Canon_Flag_Configurations then
Canon_Block_Configuration (Unit, Get_Block_Configuration (El));
end if;
when Iir_Kind_Package_Instantiation_Declaration =>
El := Canon_Package_Instantiation_Declaration (El);
Set_Library_Unit (Unit, El);
when Iir_Kind_Context_Declaration =>
null;
when others =>
Error_Kind ("canonicalize2", El);
end case;
end Canonicalize;
-- -- Create a default component configuration for component instantiation
-- -- statement INST.
-- function Create_Default_Component_Configuration
-- (Inst : Iir_Component_Instantiation_Statement;
-- Parent : Iir;
-- Config_Unit : Iir_Design_Unit)
-- return Iir_Component_Configuration
-- is
-- Res : Iir_Component_Configuration;
-- Designator : Iir;
-- Comp : Iir_Component_Declaration;
-- Bind : Iir;
-- Aspect : Iir;
-- begin
-- Bind := Get_Default_Binding_Indication (Inst);
-- if Bind = Null_Iir then
-- -- Component is not bound.
-- return Null_Iir;
-- end if;
-- Res := Create_Iir (Iir_Kind_Component_Configuration);
-- Location_Copy (Res, Inst);
-- Set_Parent (Res, Parent);
-- Comp := Get_Instantiated_Unit (Inst);
-- Set_Component_Name (Res, Comp);
-- -- Create the instantiation list with only one element: INST.
-- Designator := Create_Iir (Iir_Kind_Designator_List);
-- Append_Element (Designator, Inst);
-- Set_Instantiation_List (Res, Designator);
-- Set_Binding_Indication (Res, Bind);
-- Aspect := Get_Entity_Aspect (Bind);
-- case Get_Kind (Aspect) is
-- when Iir_Kind_Entity_Aspect_Entity =>
-- Add_Dependence (Config_Unit, Get_Entity (Aspect));
-- if Get_Architecture (Aspect) /= Null_Iir then
-- raise Internal_Error;
-- end if;
-- when others =>
-- Error_Kind ("Create_Default_Component_Configuration", Aspect);
-- end case;
-- return Res;
-- end Create_Default_Component_Configuration;
-- Create a default configuration declaration for architecture ARCH.
function Create_Default_Configuration_Declaration
(Arch : Iir_Architecture_Body)
return Iir_Design_Unit
is
Loc : constant Location_Type := Get_Location (Arch);
Config : Iir_Configuration_Declaration;
Res : Iir_Design_Unit;
Blk_Cfg : Iir_Block_Configuration;
begin
Res := Create_Iir (Iir_Kind_Design_Unit);
Set_Location (Res, Loc);
Set_Parent (Res, Get_Parent (Get_Design_Unit (Arch)));
Set_Date_State (Res, Date_Analyze);
Set_Date (Res, Date_Uptodate);
Config := Create_Iir (Iir_Kind_Configuration_Declaration);
Set_Location (Config, Loc);
Set_Library_Unit (Res, Config);
Set_Design_Unit (Config, Res);
Set_Entity_Name (Config, Get_Entity_Name (Arch));
Set_Dependence_List (Res, Create_Iir_List);
Add_Dependence (Res, Get_Design_Unit (Get_Entity (Config)));
Add_Dependence (Res, Get_Design_Unit (Arch));
Blk_Cfg := Create_Iir (Iir_Kind_Block_Configuration);
Set_Location (Blk_Cfg, Loc);
Set_Parent (Blk_Cfg, Config);
Set_Block_Specification (Blk_Cfg, Build_Simple_Name (Arch, Blk_Cfg));
Set_Block_Configuration (Config, Blk_Cfg);
Canon_Block_Configuration (Res, Blk_Cfg);
return Res;
end Create_Default_Configuration_Declaration;
end Canon;
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