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|
-- Semantic analysis.
-- 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.
with Evaluation; use Evaluation;
with Iirs_Utils; use Iirs_Utils;
with Libraries;
with Errorout; use Errorout;
with Flags; use Flags;
with Name_Table;
with Std_Package; use Std_Package;
with Types; use Types;
with Iir_Chains; use Iir_Chains;
with Std_Names;
with Sem;
with Sem_Scopes; use Sem_Scopes;
with Sem_Expr; use Sem_Expr;
with Sem_Stmts; use Sem_Stmts;
with Sem_Decls; use Sem_Decls;
with Sem_Assocs; use Sem_Assocs;
with Sem_Types;
with Sem_Psl;
with Xrefs; use Xrefs;
package body Sem_Names is
-- Finish the semantization of NAME using RES as named entity.
-- This is called when the semantization is finished and an uniq
-- interpretation has been determined (RES).
--
-- Error messages are emitted here.
procedure Finish_Sem_Name (Name : Iir; Res : Iir);
procedure Error_Overload (Expr: Iir) is
begin
Error_Msg_Sem ("can't resolve overload for " & Disp_Node (Expr), Expr);
end Error_Overload;
procedure Disp_Overload_List (List : Iir_List; Loc : Iir)
is
El : Iir;
begin
Error_Msg_Sem ("possible interpretations are:", Loc);
for I in Natural loop
El := Get_Nth_Element (List, I);
exit when El = Null_Iir;
case Get_Kind (El) is
when Iir_Kind_Function_Declaration
| Iir_Kind_Procedure_Declaration
| Iir_Kind_Implicit_Function_Declaration
| Iir_Kind_Implicit_Procedure_Declaration =>
Error_Msg_Sem (Disp_Subprg (El), El);
when Iir_Kind_Function_Call =>
El := Get_Implementation (El);
Error_Msg_Sem (Disp_Subprg (El), El);
when others =>
Error_Msg_Sem (Disp_Node (El), El);
end case;
end loop;
end Disp_Overload_List;
-- Create an overload list.
-- must be destroyed with free_iir.
function Get_Overload_List return Iir_Overload_List is
begin
return Create_Iir (Iir_Kind_Overload_List);
end Get_Overload_List;
function Create_Overload_List (List : Iir_List) return Iir_Overload_List
is
Res : Iir_Overload_List;
begin
Res := Create_Iir (Iir_Kind_Overload_List);
Set_Overload_List (Res, List);
return Res;
end Create_Overload_List;
function Simplify_Overload_List (List : Iir_List) return Iir
is
Res : Iir;
L1 : Iir_List;
begin
case Get_Nbr_Elements (List) is
when 0 =>
L1 := List;
Destroy_Iir_List (L1);
return Null_Iir;
when 1 =>
L1 := List;
Res := Get_First_Element (List);
Destroy_Iir_List (L1);
return Res;
when others =>
return Create_Overload_List (List);
end case;
end Simplify_Overload_List;
-- Return true if AN_IIR is an overload list.
function Is_Overload_List (An_Iir: Iir) return Boolean is
begin
return Get_Kind (An_Iir) = Iir_Kind_Overload_List;
end Is_Overload_List;
-- From the list LIST of function or enumeration literal, extract the
-- list of (return) types.
-- If there is only one type, return it.
-- If there is no types, return NULL.
-- Otherwise, return the list as an overload list.
function Create_List_Of_Types (List : Iir_List)
return Iir
is
Res_List : Iir_List;
Decl : Iir;
begin
-- Create the list of possible return types.
Res_List := Create_Iir_List;
for I in Natural loop
Decl := Get_Nth_Element (List, I);
exit when Decl = Null_Iir;
case Get_Kind (Decl) is
when Iir_Kinds_Function_Declaration =>
Add_Element (Res_List, Get_Return_Type (Decl));
when Iir_Kind_Enumeration_Literal
| Iir_Kind_Function_Call
| Iir_Kind_Indexed_Name =>
Add_Element (Res_List, Get_Type (Decl));
when others =>
Error_Kind ("create_list_of_types", Decl);
end case;
end loop;
return Simplify_Overload_List (Res_List);
end Create_List_Of_Types;
-- Add new interpretation DECL to RES.
-- Create an overload_list if necessary.
-- Before the first call, RES should be set to NULL_IIR.
procedure Add_Result (Res : in out Iir; Decl : Iir)
is
Nres : Iir;
Nres_List : Iir_List;
begin
if Decl = Null_Iir then
return;
end if;
if Res = Null_Iir then
Res := Decl;
elsif Is_Overload_List (Res) then
Append_Element (Get_Overload_List (Res), Decl);
else
Nres_List := Create_Iir_List;
Nres := Create_Overload_List (Nres_List);
Append_Element (Nres_List, Res);
Append_Element (Nres_List, Decl);
Res := Nres;
end if;
end Add_Result;
-- Move elements of result list LIST to result list RES.
-- Destroy LIST if necessary.
procedure Add_Result_List (Res : in out Iir; List : Iir);
pragma Unreferenced (Add_Result_List);
procedure Add_Result_List (Res : in out Iir; List : Iir)
is
El : Iir;
List_List : Iir_List;
Res_List : Iir_List;
begin
if Res = Null_Iir then
Res := List;
elsif List = Null_Iir then
null;
elsif not Is_Overload_List (List) then
Add_Result (Res, List);
else
if not Is_Overload_List (Res) then
El := Res;
Res := Get_Overload_List;
Append_Element (Get_Overload_List (Res), El);
end if;
List_List := Get_Overload_List (List);
Res_List := Get_Overload_List (Res);
for I in Natural loop
El := Get_Nth_Element (List_List, I);
exit when El = Null_Iir;
Append_Element (Res_List, El);
end loop;
Free_Iir (List);
end if;
end Add_Result_List;
-- Free interpretations of LIST except KEEP.
procedure Sem_Name_Free_Result (List : Iir; Keep : Iir)
is
procedure Sem_Name_Free (El : Iir) is
begin
case Get_Kind (El) is
when Iir_Kind_Function_Call
| Iir_Kind_Indexed_Name =>
-- FIXME: recursion ?
Free_Iir (El);
when Iir_Kinds_Function_Declaration
| Iir_Kinds_Procedure_Declaration
| Iir_Kind_Enumeration_Literal =>
null;
when others =>
Error_Kind ("sem_name_free", El);
end case;
end Sem_Name_Free;
El : Iir;
List_List : Iir_List;
begin
if List = Null_Iir then
return;
elsif not Is_Overload_List (List) then
if List /= Keep then
Sem_Name_Free (List);
end if;
else
List_List := Get_Overload_List (List);
for I in Natural loop
El := Get_Nth_Element (List_List, I);
exit when El = Null_Iir;
if El /= Keep then
Sem_Name_Free (El);
end if;
end loop;
Free_Iir (List);
end if;
end Sem_Name_Free_Result;
-- Find all named declaration whose identifier is ID in DECL_LIST and
-- return it.
-- The result can be NULL (if no such declaration exist),
-- a declaration, or an overload_list containing all declarations.
function Find_Declarations_In_List
(Decl: Iir; Name : Iir_Selected_Name; Keep_Alias : Boolean)
return Iir
is
Res: Iir := Null_Iir;
-- If indentifier of DECL is ID, then add DECL in the result.
procedure Handle_Decl (Decl : Iir; Id : Name_Id) is
begin
-- Use_clauses may appear in a declaration list.
case Get_Kind (Decl) is
when Iir_Kind_Use_Clause
| Iir_Kind_Anonymous_Type_Declaration =>
return;
when Iir_Kind_Non_Object_Alias_Declaration =>
if Get_Identifier (Decl) = Id then
if Keep_Alias then
Add_Result (Res, Decl);
else
Add_Result (Res, Get_Name (Decl));
end if;
end if;
when others =>
if Get_Identifier (Decl) = Id then
Add_Result (Res, Decl);
end if;
end case;
end Handle_Decl;
procedure Iterator_Decl is new Sem_Scopes.Iterator_Decl
(Arg_Type => Name_Id, Handle_Decl => Handle_Decl);
--procedure Iterator_Decl_List is new Sem_Scopes.Iterator_Decl_List
-- (Arg_Type => Name_Id, Handle_Decl => Iterator_Decl);
procedure Iterator_Decl_Chain is new Sem_Scopes.Iterator_Decl_Chain
(Arg_Type => Name_Id, Handle_Decl => Iterator_Decl);
Id : Name_Id;
Decl_Body : Iir;
begin
Id := Get_Suffix_Identifier (Name);
case Get_Kind (Decl) is
when Iir_Kind_Function_Declaration
| Iir_Kind_Procedure_Declaration =>
Iterator_Decl_Chain (Get_Interface_Declaration_Chain (Decl), Id);
when Iir_Kind_Entity_Declaration =>
Iterator_Decl_Chain (Get_Generic_Chain (Decl), Id);
Iterator_Decl_Chain (Get_Port_Chain (Decl), Id);
when Iir_Kind_Architecture_Declaration =>
null;
when Iir_Kind_Generate_Statement =>
null;
when Iir_Kind_Package_Declaration =>
null;
when Iir_Kind_Block_Statement =>
declare
Header : Iir;
begin
Header := Get_Block_Header (Decl);
if Header /= Null_Iir then
Iterator_Decl_Chain (Get_Generic_Chain (Header), Id);
Iterator_Decl_Chain (Get_Port_Chain (Header), Id);
end if;
end;
when Iir_Kind_For_Loop_Statement =>
Handle_Decl (Get_Iterator_Scheme (Decl), Id);
when Iir_Kind_Process_Statement
| Iir_Kind_Sensitized_Process_Statement =>
null;
when others =>
Error_Kind ("find_declarations_in_list", Decl);
end case;
case Get_Kind (Decl) is
when Iir_Kind_Function_Declaration
| Iir_Kind_Procedure_Declaration =>
Decl_Body := Get_Subprogram_Body (Decl);
Iterator_Decl_Chain
(Get_Declaration_Chain (Decl_Body), Id);
Iterator_Decl_Chain
(Get_Sequential_Statement_Chain (Decl_Body), Id);
when Iir_Kind_Architecture_Declaration
| Iir_Kind_Entity_Declaration
| Iir_Kind_Generate_Statement
| Iir_Kind_Block_Statement =>
Iterator_Decl_Chain (Get_Declaration_Chain (Decl), Id);
Iterator_Decl_Chain (Get_Concurrent_Statement_Chain (Decl), Id);
when Iir_Kind_Package_Declaration =>
Iterator_Decl_Chain (Get_Declaration_Chain (Decl), Id);
when Iir_Kind_Process_Statement
| Iir_Kind_Sensitized_Process_Statement =>
Iterator_Decl_Chain (Get_Declaration_Chain (Decl), Id);
Iterator_Decl_Chain (Get_Sequential_Statement_Chain (Decl), Id);
when Iir_Kind_For_Loop_Statement =>
null;
when others =>
Error_Kind ("find_declarations_in_list", Decl);
end case;
--if Res = Null_Iir then
-- Error_Msg_Sem ("""" & Name_Table.Image (Id) & """ not defined in "
-- & Disp_Node (Decl), Name);
--end if;
return Res;
end Find_Declarations_In_List;
-- Create an implicit_dereference node if PREFIX is of type access.
-- Return PREFIX otherwise.
-- PARENT is used if an implicit dereference node is created, to copy
-- location from.
function Insert_Implicit_Dereference (Prefix : Iir; Parent : Iir)
return Iir
is
Prefix_Type : Iir;
Res : Iir_Implicit_Dereference;
begin
Prefix_Type := Get_Type (Prefix);
case Get_Kind (Prefix_Type) is
when Iir_Kind_Access_Type_Definition
| Iir_Kind_Access_Subtype_Definition =>
null;
when others =>
return Prefix;
end case;
Check_Read (Prefix);
Res := Create_Iir (Iir_Kind_Implicit_Dereference);
Location_Copy (Res, Parent);
Set_Type (Res, Get_Designated_Type (Prefix_Type));
Set_Prefix (Res, Prefix);
Set_Base_Name (Res, Res);
Set_Expr_Staticness (Res, None);
return Res;
end Insert_Implicit_Dereference;
-- If PREFIX is a function specification that cannot be converted to a
-- function call (because of lack of association), return FALSE.
function Maybe_Function_Call (Prefix : Iir) return Boolean
is
Inter : Iir;
begin
if Get_Kind (Prefix) not in Iir_Kinds_Function_Declaration then
return True;
end if;
Inter := Get_Interface_Declaration_Chain (Prefix);
while Inter /= Null_Iir loop
if Get_Default_Value (Inter) = Null_Iir then
return False;
end if;
Inter := Get_Chain (Inter);
end loop;
return True;
end Maybe_Function_Call;
procedure Name_To_Method_Object (Call : Iir; Name : Iir)
is
Prefix : Iir;
Obj : Iir;
begin
if Get_Kind (Name) = Iir_Kind_Selected_Name then
Prefix := Get_Prefix (Name);
Obj := Get_Named_Entity (Prefix);
if Obj /= Null_Iir
and then
(Get_Kind (Obj) = Iir_Kind_Variable_Declaration
or Get_Kind (Obj) = Iir_Kind_Variable_Interface_Declaration)
and then Get_Type (Obj) /= Null_Iir
then
if Get_Kind (Get_Type (Obj)) /= Iir_Kind_Protected_Type_Declaration
then
Error_Msg_Sem ("type of the prefix should be a protected type",
Prefix);
return;
end if;
Set_Method_Object (Call, Obj);
end if;
end if;
Set_Implementation (Call, Get_Named_Entity (Name));
end Name_To_Method_Object;
-- NAME is the name of the function (and not the parenthesis name)
function Sem_As_Function_Call (Name : Iir; Spec : Iir; Assoc_Chain : Iir)
return Iir_Function_Call
is
Call : Iir_Function_Call;
begin
-- Check.
case Get_Kind (Name) is
when Iir_Kind_Simple_Name
| Iir_Kind_Selected_Name
| Iir_Kind_Operator_Symbol =>
null;
when others =>
Error_Kind ("sem_as_function_call", Name);
end case;
Call := Create_Iir (Iir_Kind_Function_Call);
Location_Copy (Call, Name);
Name_To_Method_Object (Call, Name);
Set_Implementation (Call, Spec);
Set_Parameter_Association_Chain (Call, Assoc_Chain);
Set_Type (Call, Get_Return_Type (Spec));
Set_Base_Name (Call, Call);
return Call;
end Sem_As_Function_Call;
-- If PREFIX is a function specification, then return a function call,
-- else return PREFIX.
function Maybe_Insert_Function_Call (Name : Iir; Spec : Iir) return Iir
is
begin
if Get_Kind (Spec) in Iir_Kinds_Function_Declaration then
return Sem_As_Function_Call (Name, Spec, Null_Iir);
else
return Spec;
end if;
end Maybe_Insert_Function_Call;
-- If PTR_TYPE is not NULL_IIR, then return an implciti dereference to
-- PREFIX, else return PREFIX.
function Maybe_Insert_Dereference (Prefix : Iir; Ptr_Type : Iir) return Iir
is
Id : Iir;
begin
if Ptr_Type /= Null_Iir then
Id := Create_Iir (Iir_Kind_Implicit_Dereference);
Location_Copy (Id, Prefix);
Set_Type (Id, Get_Designated_Type (Ptr_Type));
Set_Prefix (Id, Prefix);
Set_Base_Name (Id, Id);
return Id;
else
return Prefix;
end if;
end Maybe_Insert_Dereference;
procedure Finish_Sem_Indexed_Name (Expr : Iir)
is
Prefix : Iir;
Prefix_Type : Iir;
Index_Subtype : Iir;
Index_List : Iir_List;
Index : Iir;
Expr_Staticness : Iir_Staticness;
begin
Prefix := Get_Prefix (Expr);
Prefix_Type := Get_Type (Prefix);
Expr_Staticness := Locally;
Index_List := Get_Index_List (Expr);
-- LRM93 §6.4: there must be one such expression for each index
-- position of the array and each expression must be of the
-- type of the corresponding index.
-- Loop on the indexes.
for I in Natural loop
Index_Subtype :=
Get_Nth_Element (Get_Index_Subtype_List (Prefix_Type), I);
exit when Index_Subtype = Null_Iir;
Index := Get_Nth_Element (Index_List, I);
-- The index_subtype can be an unconstrained index type.
Index := Check_Is_Expression (Index, Index);
if Index /= Null_Iir then
Index := Sem_Expression (Index, Get_Base_Type (Index_Subtype));
end if;
if Index /= Null_Iir then
if Get_Expr_Staticness (Index) = Locally
and then Get_Type_Staticness (Index_Subtype) = Locally
then
Index := Eval_Expr_Check (Index, Index_Subtype);
end if;
Replace_Nth_Element (Get_Index_List (Expr), I, Index);
Expr_Staticness := Min (Expr_Staticness,
Get_Expr_Staticness (Index));
else
Expr_Staticness := None;
end if;
end loop;
Set_Type (Expr, Get_Element_Subtype (Prefix_Type));
-- An indexed name cannot be locally static.
Set_Expr_Staticness
(Expr, Min (Globally, Min (Expr_Staticness,
Get_Expr_Staticness (Prefix))));
-- LRM93 §6.1:
-- a name is said to be a static name iff:
-- The name is an indexed name whose prefix is a static name
-- and every expression that appears as part of the name is a
-- static expression.
--
-- a name is said to be a locally static name iif:
-- The name is an indexed name whose prefix is a locally
-- static name and every expression that appears as part
-- of the name is a locally static expression.
Set_Name_Staticness (Expr, Min (Expr_Staticness,
Get_Name_Staticness (Prefix)));
Set_Base_Name (Expr, Get_Base_Name (Prefix));
end Finish_Sem_Indexed_Name;
procedure Finish_Sem_Dereference (Res : Iir)
is
begin
Set_Base_Name (Res, Res);
Check_Read (Get_Prefix (Res));
Set_Expr_Staticness (Res, None);
Set_Name_Staticness (Res, None);
end Finish_Sem_Dereference;
procedure Finish_Sem_Slice_Name (Name : Iir_Slice_Name)
is
-- The prefix of the slice
Prefix: Iir;
Prefix_Type: Iir;
Prefix_Base_Type : Iir;
Prefix_Bt : Iir;
Index_List: Iir_List;
Index_Type: Iir;
Suffix: Iir;
Slice_Type : Iir;
Expr_Type : Iir;
Staticness : Iir_Staticness;
Suffix_Rng : Iir;
Prefix_Rng : Iir;
begin
-- Set a type to the prefix.
Prefix := Get_Prefix (Name);
Prefix_Type := Get_Type (Prefix);
Set_Base_Name (Name, Get_Base_Name (Prefix));
-- LRM93 §6.5: the prefix of an indexed name must be appropriate
-- for an array type.
Prefix_Bt := Get_Base_Type (Prefix_Type);
if Get_Kind (Prefix_Bt) /= Iir_Kind_Array_Type_Definition then
Error_Msg_Sem ("slice can only be applied to an array", Name);
return;
end if;
-- LRM93 §6.5:
-- The prefix of a slice must be appropriate for a
-- one-dimensionnal array object.
Index_List := Get_Index_Subtype_List (Prefix_Type);
if Get_Nbr_Elements (Index_List) /= 1 then
Error_Msg_Sem ("slice prefix must be an unidimensional array", Name);
return;
end if;
Index_Type := Get_First_Element (Index_List);
Prefix_Rng := Eval_Range (Index_Type);
-- LRM93 6.5
-- It is an error if either the bounds of the discrete range does not
-- belong to the index range of the prefixing array, *unless* the slice
-- is a null slice.
--
-- LRM93 6.5
-- The slice is a null slice if the discrete range is a null range.
-- LRM93 §6.5:
-- The bounds of the discrete range [...] must be of the
-- type of the index of the array.
Suffix := Sem_Discrete_Range_Expression
(Get_Suffix (Name), Index_Type, False);
if Suffix = Null_Iir then
return;
end if;
Set_Suffix (Name, Suffix);
-- LRM93 §6.5:
-- It is an error if the direction of the discrete range is not
-- the same as that of the index range of the array denoted
-- by the prefix of the slice name.
-- Check this only if the type is a constrained type.
Suffix_Rng := Eval_Range (Suffix);
if Get_Kind (Prefix_Type) = Iir_Kind_Array_Subtype_Definition
and then Get_Index_Constraint_Flag (Prefix_Type)
and then Prefix_Rng /= Null_Iir
and then Suffix_Rng /= Null_Iir
and then Get_Direction (Suffix_Rng) /= Get_Direction (Prefix_Rng)
then
if False and then Flags.Vhdl_Std = Vhdl_87 then
-- emit a warning for a null slice.
Warning_Msg_Sem
("direction mismatch results in a null slice", Name);
end if;
Error_Msg_Sem ("direction of the range mismatch", Name);
end if;
-- LRM93 §7.4.1
-- A slice is never a locally static expression.
Staticness := Get_Discrete_Range_Staticness (Suffix);
Set_Expr_Staticness
(Name, Min (Min (Staticness, Get_Expr_Staticness (Prefix)), Globally));
Set_Name_Staticness
(Name, Min (Staticness, Get_Name_Staticness (Prefix)));
-- The type of the slice is a subtype of the base type whose
-- range contraint is the slice itself.
if Get_Kind (Suffix) in Iir_Kinds_Discrete_Type_Definition then
Slice_Type := Suffix;
else
case Get_Kind (Get_Base_Type (Index_Type)) is
when Iir_Kind_Integer_Type_Definition =>
Slice_Type := Create_Iir (Iir_Kind_Integer_Subtype_Definition);
when Iir_Kind_Enumeration_Type_Definition =>
Slice_Type :=
Create_Iir (Iir_Kind_Enumeration_Subtype_Definition);
when others =>
Error_Kind ("sem_expr: slice_name", Get_Base_Type (Index_Type));
end case;
Set_Range_Constraint (Slice_Type, Suffix);
Set_Type_Staticness (Slice_Type, Staticness);
Set_Base_Type (Slice_Type, Get_Base_Type (Index_Type));
Set_Location (Slice_Type, Get_Location (Suffix));
end if;
Expr_Type := Create_Iir (Iir_Kind_Array_Subtype_Definition);
Set_Location (Expr_Type, Get_Location (Suffix));
Set_Index_Subtype_List (Expr_Type, Create_Iir_List);
Prefix_Base_Type := Get_Base_Type (Prefix_Type);
Set_Base_Type (Expr_Type, Prefix_Base_Type);
Set_Signal_Type_Flag (Expr_Type,
Get_Signal_Type_Flag (Prefix_Base_Type));
Append_Element (Get_Index_Subtype_List (Expr_Type), Slice_Type);
Set_Element_Subtype (Expr_Type, Get_Element_Subtype (Prefix_Type));
if Get_Kind (Prefix_Type) /= Iir_Kind_Array_Type_Definition then
Set_Resolution_Function
(Expr_Type, Get_Resolution_Function (Prefix_Type));
else
Set_Resolution_Function (Expr_Type, Null_Iir);
end if;
Set_Type_Staticness
(Expr_Type, Min (Get_Type_Staticness (Prefix_Type),
Get_Type_Staticness (Slice_Type)));
Set_Type (Name, Expr_Type);
Set_Index_Constraint_Flag (Expr_Type, True);
Set_Constraint_State (Expr_Type, Fully_Constrained);
if Is_Signal_Object (Prefix) then
Sem_Types.Set_Type_Has_Signal (Expr_Type);
end if;
end Finish_Sem_Slice_Name;
procedure Finish_Sem_Function_Call (Call : Iir)
is
Rtype : Iir;
begin
Set_Name_Staticness (Call, None);
-- FIXME: modify sem_subprogram_call to avoid such a type swap.
Rtype := Get_Type (Call);
Set_Type (Call, Null_Iir);
if Sem_Subprogram_Call (Call, Null_Iir) = Null_Iir then
Set_Type (Call, Rtype);
end if;
end Finish_Sem_Function_Call;
procedure Finish_Sem_Array_Attribute (Attr : Iir; Param : Iir)
is
Parameter : Iir;
Prefix_Type : Iir;
Index_Type : Iir;
Prefix : Iir;
Staticness : Iir_Staticness;
begin
-- LRM93 14.1
-- Parameter: A locally static expression of type universal_integer, the
-- value of which must not exceed the dimensionality of A. If omitted,
-- it defaults to 1.
if Param = Null_Iir then
Parameter := Universal_Integer_One;
else
Parameter := Sem_Expression
(Param, Universal_Integer_Type_Definition);
if Parameter = Null_Iir then
Parameter := Universal_Integer_One;
else
if Get_Expr_Staticness (Parameter) /= Locally then
Error_Msg_Sem ("parameter must be locally static", Parameter);
Parameter := Universal_Integer_One;
end if;
end if;
end if;
Prefix := Get_Prefix (Attr);
Prefix_Type := Get_Type (Prefix);
declare
Dim : Iir_Int64;
Indexes_List : Iir_List;
begin
Indexes_List := Get_Index_Subtype_List (Prefix_Type);
Dim := Get_Value (Parameter);
if Dim < 1 or else Dim > Iir_Int64 (Get_Nbr_Elements (Indexes_List))
then
Error_Msg_Sem ("parameter value out of bound", Attr);
Parameter := Universal_Integer_One;
Dim := 1;
end if;
Index_Type := Get_Nth_Element (Indexes_List, Natural (Dim - 1));
end;
case Get_Kind (Attr) is
when Iir_Kind_Left_Array_Attribute
| Iir_Kind_Right_Array_Attribute
| Iir_Kind_High_Array_Attribute
| Iir_Kind_Low_Array_Attribute =>
Set_Type (Attr, Index_Type);
when Iir_Kind_Range_Array_Attribute
| Iir_Kind_Reverse_Range_Array_Attribute =>
Set_Type (Attr, Index_Type);
when Iir_Kind_Length_Array_Attribute =>
Set_Type (Attr, Convertible_Integer_Type_Definition);
when Iir_Kind_Ascending_Array_Attribute =>
Set_Type (Attr, Boolean_Type_Definition);
when others =>
raise Internal_Error;
end case;
Set_Parameter (Attr, Parameter);
if Get_Kind (Prefix_Type) = Iir_Kind_Array_Subtype_Definition then
Set_Index_Subtype (Attr, Index_Type);
end if;
-- LRM 7.4.1
-- A locally static range is either [...], or a range of the first form
-- whose prefix denotes either a locally static subtype or an object
-- that is of a locally static subtype.
-- LRM 7.4.2
-- A globally static range is either [...], or a range of the first form
-- whose prefix denotes either a globally static subtype or an object
-- that is of a globally static subtype.
--
-- A globally static subtype is either a globally static scalar subtype,
-- a globally static array subtype, [...]
--
-- A globally static array subtype is a constrained array subtype
-- formed by imposing on an unconstrained array type a globally static
-- index constraint.
Staticness := Get_Type_Staticness (Prefix_Type);
if Flags.Vhdl_Std = Vhdl_93c
and then Get_Kind (Prefix) not in Iir_Kinds_Type_Declaration
then
-- For 93c:
-- if the prefix is a static expression, the staticness of the
-- expression may be higher than the staticness of the type
-- (eg: generic whose type is an unconstrained array).
-- Also consider expression staticness.
Staticness := Iir_Staticness'Max (Staticness,
Get_Expr_Staticness (Prefix));
end if;
Set_Expr_Staticness (Attr, Staticness);
end Finish_Sem_Array_Attribute;
procedure Finish_Sem_Scalar_Type_Attribute (Attr : Iir; Param : Iir)
is
Prefix_Type : Iir;
Prefix_Bt : Iir;
Parameter : Iir;
Param_Type : Iir;
begin
if Param = Null_Iir then
Error_Msg_Sem (Disp_Node (Attr) & " requires a parameter", Attr);
return;
end if;
Prefix_Type := Get_Type (Get_Prefix (Attr));
Prefix_Bt := Get_Base_Type (Prefix_Type);
case Get_Kind (Attr) is
when Iir_Kind_Pos_Attribute =>
-- LRM93 14.1
-- Parameter: An expression whose type is the base type of T.
Parameter := Sem_Expression (Param, Prefix_Bt);
when Iir_Kind_Val_Attribute =>
-- LRM93 14.1
-- Parameter: An expression of any integer type.
Param_Type := Get_Type (Param);
if Is_Overload_List (Param_Type) then
Parameter := Sem_Expression
(Param, Universal_Integer_Type_Definition);
else
if Get_Kind (Get_Base_Type (Param_Type))
/= Iir_Kind_Integer_Type_Definition
then
Error_Msg_Sem ("parameter must be an integer", Attr);
return;
end if;
Parameter := Param;
end if;
when Iir_Kind_Succ_Attribute
| Iir_Kind_Pred_Attribute
| Iir_Kind_Leftof_Attribute
| Iir_Kind_Rightof_Attribute =>
-- LRM93 14.1
-- Parameter: An expression whose type is the base type of T.
Parameter := Sem_Expression (Param, Prefix_Bt);
when Iir_Kind_Image_Attribute =>
-- LRM93 14.1
-- Parameter: An expression whose type is the base type of T.
Parameter := Sem_Expression (Param, Prefix_Bt);
when Iir_Kind_Value_Attribute =>
-- Parameter: An expression of type string.
Parameter := Sem_Expression (Param, String_Type_Definition);
when others =>
raise Internal_Error;
end case;
if Parameter = Null_Iir then
Set_Parameter (Attr, Param);
Set_Expr_Staticness (Attr, None);
return;
end if;
Set_Parameter (Attr, Parameter);
Set_Expr_Staticness (Attr, Min (Get_Type_Staticness (Prefix_Type),
Get_Expr_Staticness (Parameter)));
end Finish_Sem_Scalar_Type_Attribute;
procedure Finish_Sem_Signal_Attribute (Attr : Iir; Parameter : Iir)
is
Param : Iir;
begin
if Parameter = Null_Iir then
return;
end if;
if Get_Kind (Attr)= Iir_Kind_Transaction_Attribute then
Error_Msg_Sem ("'transaction does not allow a parameter", Attr);
else
Param := Sem_Expression (Parameter, Time_Subtype_Definition);
Set_Parameter (Attr, Param);
end if;
end Finish_Sem_Signal_Attribute;
function Is_Type_Abstract_Numeric (Atype : Iir) return Boolean is
begin
case Get_Kind (Atype) is
when Iir_Kind_Integer_Subtype_Definition
| Iir_Kind_Integer_Type_Definition
| Iir_Kind_Floating_Subtype_Definition
| Iir_Kind_Floating_Type_Definition =>
return True;
when others =>
return False;
end case;
end Is_Type_Abstract_Numeric;
function Are_Types_Closely_Related (Type1, Type2 : Iir) return Boolean
is
Base_Type1 : Iir;
Base_Type2 : Iir;
Ant1, Ant2 : Boolean;
Index_List1, Index_List2 : Iir_List;
El1, El2 : Iir;
begin
Base_Type1 := Get_Base_Type (Type1);
Base_Type2 := Get_Base_Type (Type2);
-- LRM 7.3.5
-- In particular, a type is closely related to itself.
if Base_Type1 = Base_Type2 then
return True;
end if;
-- LRM 7.3.5
-- a) Abstract Numeric Types: Any abstract numeric type is closely
-- related to any other abstract numeric type.
Ant1 := Is_Type_Abstract_Numeric (Type1);
Ant2 := Is_Type_Abstract_Numeric (Type2);
if Ant1 and Ant2 then
return True;
end if;
if Ant1 or Ant2 then
return False;
end if;
-- LRM 7.3.5
-- b) Array Types: Two array types are closely related if and only if
-- The types have the same dimensionality; For each index position,
-- the index types are either the same or are closely related; and
-- The element types are the same.
--
-- No other types are closely related.
if not (Get_Kind (Base_Type1) = Iir_Kind_Array_Type_Definition
and then Get_Kind (Base_Type2) = Iir_Kind_Array_Type_Definition)
then
return False;
end if;
Index_List1 := Get_Index_Subtype_List (Base_Type1);
Index_List2 := Get_Index_Subtype_List (Base_Type2);
if Get_Nbr_Elements (Index_List1) /= Get_Nbr_Elements (Index_List2) then
return False;
end if;
if Get_Base_Type (Get_Element_Subtype (Base_Type1))
/= Get_Base_Type (Get_Element_Subtype (Base_Type2))
then
return False;
end if;
for I in Natural loop
El1 := Get_Nth_Element (Index_List1, I);
exit when El1 = Null_Iir;
El2 := Get_Nth_Element (Index_List2, I);
if not Are_Types_Closely_Related (El1, El2) then
return False;
end if;
end loop;
return True;
end Are_Types_Closely_Related;
procedure Finish_Sem_Type_Conversion (Conv: Iir_Type_Conversion)
is
Expr: Iir;
Staticness : Iir_Staticness;
begin
-- LRM93 7.3.5
-- Furthermore, the operand of a type conversion is not allowed to be
-- the literal null, an allocator, an aggregate, or a string literal.
Expr := Get_Expression (Conv);
case Get_Kind (Expr) is
when Iir_Kind_Null_Literal
| Iir_Kind_Aggregate
| Iir_Kind_String_Literal
| Iir_Kind_Bit_String_Literal =>
Error_Msg_Sem
(Disp_Node (Expr) & " cannot be a type conversion operand",
Expr);
return;
when others =>
-- LRM93 7.3.5
-- The type of the operand of a type conversion must be
-- determinable independent of the context (in particular,
-- independent of the target type).
Expr := Sem_Expression_Universal (Expr);
if Expr = Null_Iir then
return;
end if;
if Get_Kind (Expr) in Iir_Kinds_Allocator then
Error_Msg_Sem
(Disp_Node (Expr) & " cannot be a type conversion operand",
Expr);
end if;
end case;
Set_Expression (Conv, Expr);
-- LRM93 7.4.1 Locally Static Primaries.
-- 9. a type conversion whose expression is a locally static expression.
-- LRM93 7.4.2 Globally Static Primaries.
-- 14. a type conversion whose expression is a globally static
-- expression.
if Expr /= Null_Iir then
Staticness := Get_Expr_Staticness (Expr);
if Flags.Vhdl_Std = Vhdl_87 then
Staticness := Min (Globally, Staticness);
end if;
Set_Expr_Staticness (Conv, Staticness);
if not Are_Types_Closely_Related (Get_Type (Conv), Get_Type (Expr))
then
-- FIXME: should explain why the types are not closely related.
Error_Msg_Sem
("conversion not allowed between not closely related types",
Conv);
-- Avoid error storm in evaluation.
Set_Expr_Staticness (Conv, None);
else
Check_Read (Expr);
end if;
end if;
end Finish_Sem_Type_Conversion;
procedure Finish_Sem_Function_Specification (Name : Iir; Spec : Iir)
is
Res : Iir;
begin
if not Maybe_Function_Call (Spec) then
Error_Msg_Sem (Disp_Node (Spec) & " requires parameters", Name);
Set_Named_Entity (Name, Null_Iir);
return;
end if;
Res := Maybe_Insert_Function_Call (Name, Spec);
if Get_Kind (Res) /= Iir_Kind_Function_Call then
raise Internal_Error;
end if;
Finish_Sem_Function_Call (Res);
Set_Named_Entity (Name, Res);
end Finish_Sem_Function_Specification;
procedure Finish_Sem_Implicits (Name : Iir; Pfx : Iir)
is
Name_Pfx : Iir;
begin
case Get_Kind (Pfx) is
when Iir_Kinds_Object_Declaration
| Iir_Kind_Attribute_Value =>
null;
when Iir_Kind_Indexed_Name
| Iir_Kind_Selected_Element
| Iir_Kind_Slice_Name =>
Name_Pfx := Get_Prefix (Name);
if Is_Overload_List (Name_Pfx) then
Finish_Sem_Name (Name_Pfx, Pfx);
end if;
when Iir_Kind_Implicit_Dereference =>
Finish_Sem_Implicits (Name, Get_Prefix (Pfx));
Finish_Sem_Dereference (Pfx);
when Iir_Kind_Dereference =>
null;
when Iir_Kind_Function_Call =>
if Get_Name_Staticness (Pfx) = Unknown then
Finish_Sem_Function_Call (Pfx);
else
Name_Pfx := Get_Prefix (Name);
if Is_Overload_List (Name_Pfx) then
Finish_Sem_Name (Name_Pfx, Pfx);
end if;
end if;
when others =>
Error_Kind ("finish_sem_implicits", Pfx);
end case;
end Finish_Sem_Implicits;
-- OBJ is an 'impure' object (variable, signal or file) referenced at
-- location LOC.
-- Check the pure rules.
procedure Sem_Check_Pure (Loc : Iir; Obj : Iir)
is
procedure Update_Impure_Depth (Subprg_Spec : Iir; Depth : Iir_Int32)
is
Bod : Iir;
begin
Bod := Get_Subprogram_Body (Subprg_Spec);
if Bod = Null_Iir then
return;
end if;
if Depth < Get_Impure_Depth (Bod) then
Set_Impure_Depth (Bod, Depth);
end if;
end Update_Impure_Depth;
procedure Error_Pure (Subprg : Iir; Obj : Iir)
is
begin
Error_Msg_Sem
("reference to " & Disp_Node (Obj) & " violate pure rule for "
& Disp_Node (Subprg), Loc);
end Error_Pure;
Subprg : constant Iir := Sem_Stmts.Get_Current_Subprogram;
Subprg_Body : Iir;
Parent : Iir;
begin
-- Apply only in subprograms.
if Subprg = Null_Iir then
return;
end if;
case Get_Kind (Subprg) is
when Iir_Kinds_Process_Statement =>
return;
when Iir_Kind_Procedure_Declaration =>
-- Exit now if already known as impure.
if Get_Purity_State (Subprg) = Impure then
return;
end if;
when Iir_Kind_Function_Declaration =>
-- Exit now if impure.
if Get_Pure_Flag (Subprg) = False then
return;
end if;
when others =>
Error_Kind ("sem_check_pure", Subprg);
end case;
-- Not all objects are impure.
case Get_Kind (Obj) is
when Iir_Kind_Object_Alias_Declaration
| Iir_Kind_Guard_Signal_Declaration
| Iir_Kind_Signal_Declaration
| Iir_Kind_Variable_Declaration
| Iir_Kind_Variable_Interface_Declaration
| Iir_Kind_Signal_Interface_Declaration
| Iir_Kind_File_Interface_Declaration =>
null;
when Iir_Kind_File_Declaration =>
-- LRM 93 2.2
-- If a pure function is the parent of a given procedure, then
-- that procedure must not contain a reference to an explicitly
-- declared file object [...]
--
-- A pure function must not contain a reference to an explicitly
-- declared file.
if Flags.Vhdl_Std > Vhdl_93c then
if Get_Kind (Subprg) = Iir_Kind_Function_Declaration then
Error_Pure (Subprg, Obj);
else
Set_Purity_State (Subprg, Impure);
Set_Impure_Depth (Get_Subprogram_Body (Subprg),
Iir_Depth_Impure);
end if;
end if;
return;
when others =>
return;
end case;
-- OBJ is declared in the immediate declarative part of the subprogram.
Parent := Get_Parent (Obj);
Subprg_Body := Get_Subprogram_Body (Subprg);
if Parent = Subprg or else Parent = Subprg_Body then
return;
end if;
-- Function.
if Get_Kind (Subprg) = Iir_Kind_Function_Declaration then
Error_Pure (Subprg, Obj);
return;
end if;
case Get_Kind (Parent) is
when Iir_Kind_Entity_Declaration
| Iir_Kind_Architecture_Declaration
| Iir_Kind_Package_Declaration
| Iir_Kind_Package_Body
| Iir_Kind_Block_Statement
| Iir_Kind_Generate_Statement
| Iir_Kinds_Process_Statement
| Iir_Kind_Protected_Type_Body =>
-- The procedure is impure.
Set_Purity_State (Subprg, Impure);
Set_Impure_Depth (Subprg_Body, Iir_Depth_Impure);
return;
when Iir_Kind_Function_Body
| Iir_Kind_Procedure_Body =>
Update_Impure_Depth
(Subprg,
Get_Subprogram_Depth (Get_Subprogram_Specification (Parent)));
when Iir_Kind_Function_Declaration
| Iir_Kind_Procedure_Declaration =>
Update_Impure_Depth (Subprg, Get_Subprogram_Depth (Parent));
when others =>
Error_Kind ("sem_check_pure(2)", Parent);
end case;
end Sem_Check_Pure;
-- Set All_Sensitized_State to False iff OBJ is a signal declaration
-- and the current subprogram is in a package body.
procedure Sem_Check_All_Sensitized (Obj : Iir)
is
Subprg : Iir;
begin
-- We cares only of signals.
if Get_Kind (Obj) /= Iir_Kind_Signal_Declaration then
return;
end if;
-- We cares only of subprograms. Give up if we are in a process.
Subprg := Sem_Stmts.Get_Current_Subprogram;
if Subprg = Null_Iir
or else Get_Kind (Subprg) not in Iir_Kinds_Subprogram_Declaration
then
return;
end if;
if Get_Kind (Get_Library_Unit (Sem.Get_Current_Design_Unit))
= Iir_Kind_Package_Body
then
Set_All_Sensitized_State (Subprg, Invalid_Signal);
else
Set_All_Sensitized_State (Subprg, Read_Signal);
end if;
end Sem_Check_All_Sensitized;
procedure Finish_Sem_Name (Name : Iir; Res : Iir)
is
Pfx : Iir;
begin
case Get_Kind (Res) is
when Iir_Kind_Design_Unit =>
return;
when Iir_Kinds_Object_Declaration
| Iir_Kind_Attribute_Value
| Iir_Kind_Type_Declaration
| Iir_Kind_Subtype_Declaration
| Iir_Kind_Enumeration_Literal
| Iir_Kind_Component_Declaration
| Iir_Kind_Group_Template_Declaration
| Iir_Kind_Group_Declaration
| Iir_Kind_Attribute_Declaration
| Iir_Kind_Non_Object_Alias_Declaration =>
Set_Base_Name (Name, Res);
return;
when Iir_Kind_Type_Conversion =>
Finish_Sem_Type_Conversion (Res);
return;
when Iir_Kind_Indexed_Name
| Iir_Kind_Selected_Element
| Iir_Kind_Slice_Name
| Iir_Kind_Dereference =>
null;
when Iir_Kind_Function_Call =>
Finish_Sem_Function_Call (Res);
return;
when Iir_Kinds_Function_Declaration
| Iir_Kinds_Procedure_Declaration =>
--declare
-- Nres : Iir;
--begin
-- Nres := Sem_As_Function_Call (Res, Null_Iir, Name);
-- Set_Named_Entity (Name, Nres);
-- Finish_Sem_Function_Call (Nres);
--end;
return;
when Iir_Kind_Length_Array_Attribute
| Iir_Kind_Range_Array_Attribute
| Iir_Kind_Reverse_Range_Array_Attribute =>
Finish_Sem_Array_Attribute (Res, Null_Iir);
return;
-- when Iir_Kind_Pos_Attribute =>
-- if Get_Parameter (Res) = Null_Iir then
-- Finish_Sem_Scalar_Type_Attribute (Res, Null_Iir);
-- end if;
-- return;
when Iir_Kind_Psl_Expression =>
return;
when others =>
Error_Kind ("finish_sem_name", Res);
end case;
Pfx := Get_Prefix (Res);
Finish_Sem_Implicits (Name, Pfx);
case Get_Kind (Res) is
when Iir_Kind_Indexed_Name =>
Finish_Sem_Indexed_Name (Res);
when Iir_Kind_Slice_Name =>
Finish_Sem_Slice_Name (Res);
when Iir_Kind_Selected_Element =>
Set_Name_Staticness (Res, Get_Name_Staticness (Pfx));
Set_Expr_Staticness (Res, Get_Expr_Staticness (Pfx));
Set_Base_Name (Res, Get_Base_Name (Pfx));
when Iir_Kind_Dereference =>
Finish_Sem_Dereference (Res);
when others =>
Error_Kind ("finish_sem_name(2)", Res);
end case;
end Finish_Sem_Name;
-- LRM93 §6.2
-- The evaluation of a simple name has no other effect than to determine
-- the named entity denoted by the name.
--
-- NAME may be a string literal too.
-- GHDL: set interpretation of NAME (possibly an overload list).
-- If SOFT is TRUE, then no error message is reported in case of failure.
procedure Sem_Simple_Name (Name : Iir; Keep_Alias : Boolean; Soft : Boolean)
is
Interpretation: Name_Interpretation_Type;
Res: Iir;
Res_List : Iir_List;
N : Natural;
begin
Interpretation := Get_Interpretation (Get_Identifier (Name));
if not Valid_Interpretation (Interpretation) then
if not Soft then
Error_Msg_Sem
("no declaration for """ & Image_Identifier (Name) & """", Name);
end if;
Res := Error_Mark;
elsif not Valid_Interpretation (Get_Next_Interpretation (Interpretation))
then
-- not overloaded.
Res := Get_Declaration (Interpretation);
if not Keep_Alias
and then Get_Kind (Res) = Iir_Kind_Non_Object_Alias_Declaration
then
Res := Get_Name (Res);
end if;
if not Get_Visible_Flag (Res) then
if not Soft then
Error_Msg_Sem (Disp_Node (Res) & " is not visible here", Name);
end if;
-- Even if a named entity was found, return an error_mark.
-- Indeed, the named entity found is certainly the one being
-- semantized, and the semantization may be uncomplete.
Res := Error_Mark;
end if;
else
Res_List := Create_Iir_List;
N := 0;
-- The SEEN_FLAG is used to get only one meaning which can be reached
-- through several pathes (such as aliases).
while Valid_Interpretation (Interpretation) loop
Res := Get_Declaration (Interpretation);
if not Keep_Alias
and then Get_Kind (Res) = Iir_Kind_Non_Object_Alias_Declaration
then
Res := Get_Name (Res);
end if;
if not Get_Seen_Flag (Res) then
Set_Seen_Flag (Res, True);
N := N + 1;
Append_Element (Res_List, Res);
end if;
Interpretation := Get_Next_Interpretation (Interpretation);
end loop;
for I in 0 .. N - 1 loop
Res := Get_Nth_Element (Res_List, I);
Set_Seen_Flag (Res, False);
end loop;
Res := Create_Overload_List (Res_List);
end if;
Set_Base_Name (Name, Res);
Set_Named_Entity (Name, Res);
end Sem_Simple_Name;
-- LRM93 §6.3
-- Selected Names.
procedure Sem_Selected_Name (Name: Iir; Keep_Alias : Boolean)
is
Prefix: Iir;
Suffix: Name_Id;
Prefix_Loc : Location_Type;
Res : Iir;
procedure Sem_As_Expanded_Name (Sub_Name : Iir)
is
Sub_Res : Iir;
begin
if Get_Is_Within_Flag (Sub_Name) then
Sub_Res := Find_Declarations_In_List (Sub_Name, Name, Keep_Alias);
if Sub_Res /= Null_Iir then
Add_Result (Res, Sub_Res);
end if;
end if;
end Sem_As_Expanded_Name;
-- LRM93 §6.3
-- For a selected name that is used to denote a record element,
-- the suffix must be a simple name denoting an element of a
-- record object or value. The prefix must be appropriate for the
-- type of this object or value.
procedure Sem_As_Selected_Element (Sub_Name : Iir)
is
Base_Type : Iir;
Ptr_Type : Iir;
Rec_El : Iir;
R : Iir;
Se : Iir;
begin
-- FIXME: if not is_expr (sub_name) return.
Base_Type := Get_Base_Type (Get_Type (Sub_Name));
if Get_Kind (Base_Type) = Iir_Kind_Access_Type_Definition
then
Ptr_Type := Base_Type;
Base_Type :=
Get_Base_Type (Get_Designated_Type (Base_Type));
else
Ptr_Type := Null_Iir;
end if;
if Get_Kind (Base_Type) /= Iir_Kind_Record_Type_Definition then
return;
end if;
Rec_El := Find_Name_In_List
(Get_Elements_Declaration_List (Base_Type), Suffix);
if Rec_El = Null_Iir then
return;
end if;
if not Maybe_Function_Call (Sub_Name) then
return;
end if;
R := Maybe_Insert_Function_Call (Name, Sub_Name);
R := Maybe_Insert_Dereference (R, Ptr_Type);
Se := Create_Iir (Iir_Kind_Selected_Element);
Location_Copy (Se, Name);
Set_Prefix (Se, R);
Set_Type (Se, Get_Type (Rec_El));
Set_Selected_Element (Se, Rec_El);
Set_Base_Name (Se, Get_Base_Name (R));
Set_Base_Name (Name, Get_Base_Name (R));
Add_Result (Res, Se);
end Sem_As_Selected_Element;
procedure Error_Selected_Element (Prefix_Type : Iir)
is
Base_Type : Iir;
begin
Base_Type := Get_Base_Type (Prefix_Type);
if Get_Kind (Base_Type) = Iir_Kind_Access_Type_Definition then
Base_Type := Get_Base_Type (Get_Designated_Type (Base_Type));
end if;
if Get_Kind (Base_Type) /= Iir_Kind_Record_Type_Definition then
Error_Msg_Sem
(Disp_Node (Prefix) & " does not designate a record", Name);
else
Error_Msg_Sem
("no element """ & Name_Table.Image (Suffix)
& """ in " & Disp_Node (Base_Type), Name);
end if;
end Error_Selected_Element;
procedure Sem_As_Method_Call (Sub_Name : Iir)
is
Prot_Type : Iir;
Method : Iir;
Found : Boolean := False;
begin
Prot_Type := Get_Type (Sub_Name);
-- Build overload list from all declarations in chain, matching name,
-- which are actually functions or procedures.
-- TODO: error here if there's a variable with matching name?
-- currently we warn...
-- Rather than add a "Find_nth_name_in chain" to iirs_utils I have
-- expanded the chain walk here.
Method := Get_Declaration_Chain (Prot_Type);
while Method /= Null_Iir loop
if Get_Identifier (Method) = Suffix then -- found the name
-- Check it's a method.
case Get_Kind (Method) is
when Iir_Kind_Function_Declaration |
Iir_Kind_Procedure_Declaration =>
Found := True;
Add_Result (Res, Method);
when others =>
Warning_Msg_Sem ("sem_as_method_call", Method);
end case;
end if;
Method := Get_Chain (Method);
end loop;
if not Found then
Error_Msg_Sem
("no method " & Name_Table.Image (Suffix) & " in "
& Disp_Node (Prot_Type), Name);
return;
end if;
end Sem_As_Method_Call;
begin
Prefix := Get_Prefix (Name);
Prefix_Loc := Get_Location (Prefix);
Sem_Name (Prefix, False);
Prefix := Get_Named_Entity (Prefix);
if Prefix = Error_Mark then
Set_Named_Entity (Name, Prefix);
return;
end if;
Suffix := Get_Suffix_Identifier (Name);
Res := Null_Iir;
-- FIXME: do better.
--
case Get_Kind (Prefix) is
when Iir_Kind_Overload_List =>
-- LRM93 6.3
-- If, according to the visibility rules, there is at
-- least one possible interpretation of the prefix of a
-- selected name as the name of an enclosing entity
-- interface, architecture, subprogram, block statement,
-- process statement, generate statement, or loop
-- statement, then the only interpretations considered are
-- those of the immediately preceding paragraph.
--
-- In this case, the selected name is always interpreted
-- as an expanded name. In particular, no interpretations
-- of the prefix as a function call are considered.
declare
Prefix_List : Iir_List;
El : Iir;
begin
Prefix_List := Get_Overload_List (Prefix);
for I in Natural loop
El := Get_Nth_Element (Prefix_List, I);
exit when El = Null_Iir;
Sem_As_Expanded_Name (El);
end loop;
if Res /= Null_Iir then
for I in Natural loop
El := Get_Nth_Element (Prefix_List, I);
exit when El = Null_Iir;
Sem_As_Selected_Element (El);
end loop;
end if;
end;
if Res = Null_Iir then
Error_Msg_Sem ("no suffix """ & Name_Table.Image (Suffix)
& """ for overloaded selected name", Name);
end if;
when Iir_Kind_Library_Declaration =>
-- LRM93 6.3
-- An expanded name denotes a primary unit constained in a design
-- library if the prefix denotes the library and the suffix is the
-- simple name if a primary unit whose declaration is contained
-- in that library.
-- An expanded name is not allowed for a secondary unit,
-- particularly for an architecture body.
-- GHDL: FIXME: error message more explicite
Res := Libraries.Load_Primary_Unit (Prefix, Suffix, Name);
if Res = Null_Iir then
Error_Msg_Sem
("primary unit """ & Name_Table.Image (Suffix)
& """ not found in " & Disp_Node (Prefix), Name);
else
Sem.Add_Dependence (Res);
end if;
when Iir_Kind_Process_Statement
| Iir_Kind_Sensitized_Process_Statement
| Iir_Kind_Design_Unit
-- | Iir_Kind_Architecture_Declaration
-- | Iir_Kind_Entity_Declaration
-- | Iir_Kind_Package_Declaration
| Iir_Kind_Generate_Statement
| Iir_Kind_Block_Statement
| Iir_Kind_For_Loop_Statement =>
-- LRM93 §6.3
-- An expanded name denotes a named entity declared immediatly
-- within a named construct if the prefix that is an entity
-- interface, an architecture, a subprogram, a block statement,
-- a process statement, a generate statement, or a loop
-- statement, and the suffix is the simple name, character
-- literal, or operator symbol of an named entity whose
-- declaration occurs immediatly within that construct.
if Get_Kind (Prefix) = Iir_Kind_Design_Unit then
Libraries.Load_Design_Unit (Prefix, Name);
Sem.Add_Dependence (Prefix);
Prefix := Get_Library_Unit (Prefix);
-- Modified only for xrefs, since a design_unit points to
-- the first context clause, while a library unit points to
-- the identifier.
Set_Named_Entity (Get_Prefix (Name), Prefix);
end if;
Res := Find_Declarations_In_List (Prefix, Name, Keep_Alias);
if Res = Null_Iir then
Error_Msg_Sem
("no declaration for """ & Name_Table.Image (Suffix)
& """ in " & Disp_Node (Prefix), Name);
else
-- LRM93 §6.3
-- This form of expanded name is only allowed within the
-- construct itself.
if Get_Kind (Prefix) /= Iir_Kind_Package_Declaration
and then not Get_Is_Within_Flag (Prefix)
then
Error_Msg_Sem
("this expanded name is only allowed within the construct",
Prefix_Loc);
-- Hum, keep res.
end if;
end if;
when Iir_Kind_Function_Declaration =>
Sem_As_Expanded_Name (Prefix);
if Res = Null_Iir then
Sem_As_Selected_Element (Prefix);
end if;
if Res = Null_Iir then
Error_Selected_Element (Get_Return_Type (Prefix));
end if;
when Iir_Kinds_Object_Declaration
| Iir_Kind_Indexed_Name
| Iir_Kind_Selected_Element
| Iir_Kind_Dereference
| Iir_Kind_Implicit_Dereference
| Iir_Kind_Attribute_Value
| Iir_Kind_Function_Call =>
if Get_Kind (Get_Type (Prefix))
= Iir_Kind_Protected_Type_Declaration
then
Sem_As_Method_Call (Prefix);
else
Sem_As_Selected_Element (Prefix);
if Res = Null_Iir then
Error_Selected_Element (Get_Type (Prefix));
end if;
end if;
when Iir_Kind_Type_Declaration
| Iir_Kind_Subtype_Declaration
| Iir_Kind_Concurrent_Procedure_Call_Statement
| Iir_Kind_Component_Instantiation_Statement =>
Error_Msg_Sem
(Disp_Node (Prefix) & " cannot be selected by name", Prefix_Loc);
when others =>
Error_Kind ("sem_selected_name(2)", Prefix);
end case;
if Res = Null_Iir then
Res := Error_Mark;
elsif not Is_Overload_List (Res) then
-- Finish sem
Finish_Sem_Name (Name, Res);
end if;
Set_Named_Entity (Name, Res);
end Sem_Selected_Name;
-- If ASSOC_LIST has one element, which is an expression without formal,
-- return the actual, else return NULL_IIR.
function Get_One_Actual (Assoc_Chain : Iir) return Iir
is
Assoc : Iir;
begin
if Assoc_Chain = Null_Iir or else Get_Chain (Assoc_Chain) /= Null_Iir
then
return Null_Iir;
end if;
Assoc := Assoc_Chain;
if Get_Kind (Assoc) /= Iir_Kind_Association_Element_By_Expression then
return Null_Iir;
end if;
if Get_Formal (Assoc) /= Null_Iir then
return Null_Iir;
end if;
return Get_Actual (Assoc);
end Get_One_Actual;
function Slice_Or_Index (Actual : Iir) return Iir_Kind
is
begin
-- But it may be a slice name.
case Get_Kind (Actual) is
when Iir_Kind_Range_Array_Attribute
| Iir_Kind_Reverse_Range_Array_Attribute
| Iir_Kind_Subtype_Declaration
| Iir_Kind_Type_Declaration
| Iir_Kind_Range_Expression =>
return Iir_Kind_Slice_Name;
when others =>
if Is_Range_Attribute_Name (Actual) then
return Iir_Kind_Slice_Name;
end if;
end case;
-- By default, this is an indexed name.
return Iir_Kind_Indexed_Name;
end Slice_Or_Index;
function Sem_Index_Specification (Name : Iir_Parenthesis_Name; Itype : Iir)
return Iir
is
Actual : Iir;
Kind : Iir_Kind;
Res : Iir;
begin
Actual := Get_One_Actual (Get_Association_Chain (Name));
if Actual = Null_Iir then
Error_Msg_Sem ("only one index specification is allowed", Name);
return Null_Iir;
end if;
case Get_Kind (Actual) is
when Iir_Kind_Simple_Name
| Iir_Kind_Selected_Name =>
Sem_Name (Actual, False);
Actual := Get_Named_Entity (Actual);
-- FIXME: semantization to be finished.
--Maybe_Finish_Sem_Name (Actual);
when others =>
null;
end case;
Kind := Slice_Or_Index (Actual);
Res := Create_Iir (Kind);
Location_Copy (Res, Name);
case Kind is
when Iir_Kind_Indexed_Name =>
Actual := Sem_Expression (Actual, Itype);
if Actual = Null_Iir then
return Null_Iir;
end if;
Check_Read (Actual);
if Get_Expr_Staticness (Actual) < Globally then
Error_Msg_Sem ("index must be a static expression", Name);
end if;
Set_Index_List (Res, Create_Iir_List);
Append_Element (Get_Index_List (Res), Actual);
when Iir_Kind_Slice_Name =>
Actual := Sem_Discrete_Range_Expression (Actual, Itype, False);
if Actual = Null_Iir then
return Null_Iir;
end if;
if Get_Discrete_Range_Staticness (Actual) < Globally then
Error_Msg_Sem ("index must be a static expression", Name);
end if;
Set_Suffix (Res, Actual);
when others =>
raise Internal_Error;
end case;
return Res;
end Sem_Index_Specification;
procedure Sem_Parenthesis_Name (Name : Iir_Parenthesis_Name)
is
Prefix: Iir;
Prefix_Name : Iir;
Res : Iir;
Assoc_Chain : Iir;
Slice_Index_Kind : Iir_Kind;
procedure Index_Or_Not
is
El : Iir;
begin
Slice_Index_Kind := Iir_Kind_Error;
El := Assoc_Chain;
while El /= Null_Iir loop
case Get_Kind (El) is
when Iir_Kind_Association_Element_By_Expression =>
if Get_Formal (El) /= Null_Iir then
return;
end if;
when others =>
-- Only expression are allowed.
return;
end case;
El := Get_Chain (El);
end loop;
Slice_Index_Kind := Iir_Kind_Indexed_Name;
end Index_Or_Not;
-- If FINISH is TRUE, then display error message in case of error.
function Sem_As_Indexed_Or_Slice_Name (Sub_Name : Iir; Finish : Boolean)
return Iir
is
Base_Type : Iir;
Ptr_Type : Iir;
P : Iir;
R : Iir;
begin
if Slice_Index_Kind = Iir_Kind_Error then
if Finish then
Error_Msg_Sem ("prefix is not a function name", Name);
end if;
-- No way.
return Null_Iir;
end if;
-- Only prefixes can be indexed or sliced.
-- Catch errors such as slice of a type conversion.
if not Is_Object_Name (Sub_Name)
and then Get_Kind (Sub_Name) not in Iir_Kinds_Function_Declaration
then
if Finish then
Error_Msg_Sem ("prefix is not a name (found "
& Disp_Node (Sub_Name) & ")", Name);
end if;
return Null_Iir;
end if;
-- Extract type of prefix, handle possible implicit deference.
Base_Type := Get_Base_Type (Get_Type (Sub_Name));
if Get_Kind (Base_Type) = Iir_Kind_Access_Type_Definition
then
Ptr_Type := Base_Type;
Base_Type :=
Get_Base_Type (Get_Designated_Type (Base_Type));
else
Ptr_Type := Null_Iir;
end if;
if Get_Kind (Base_Type) /= Iir_Kind_Array_Type_Definition then
if Finish then
Error_Msg_Sem ("type of prefix is not an array", Name);
end if;
return Null_Iir;
end if;
if Get_Nbr_Elements (Get_Index_Subtype_List (Base_Type)) /=
Get_Chain_Length (Assoc_Chain)
then
if Finish then
Error_Msg_Sem
("number of indexes mismatches array dimension", Name);
end if;
return Null_Iir;
end if;
if not Maybe_Function_Call (Sub_Name) then
if Finish then
-- Should not happen.
raise Internal_Error;
end if;
return Null_Iir;
end if;
P := Maybe_Insert_Function_Call (Prefix_Name, Sub_Name);
P := Maybe_Insert_Dereference (P, Ptr_Type);
R := Create_Iir (Slice_Index_Kind);
Location_Copy (R, Name);
Set_Prefix (R, P);
case Slice_Index_Kind is
when Iir_Kind_Slice_Name =>
Set_Suffix (R, Get_Actual (Assoc_Chain));
Set_Type (R, Get_Type (P));
when Iir_Kind_Indexed_Name =>
declare
Idx_El : Iir;
Idx_List : Iir_List;
begin
Idx_List := Create_Iir_List;
Set_Index_List (R, Idx_List);
Idx_El := Assoc_Chain;
while Idx_El /= Null_Iir loop
Append_Element (Idx_List, Get_Actual (Idx_El));
Idx_El := Get_Chain (Idx_El);
end loop;
end;
Set_Type (R, Get_Element_Subtype (Base_Type));
when others =>
raise Internal_Error;
end case;
return R;
end Sem_As_Indexed_Or_Slice_Name;
Actual : Iir;
Actual_Expr : Iir;
begin
-- The prefix is a function name, a type mark or an array.
Prefix_Name := Get_Prefix (Name);
Sem_Name (Prefix_Name, False);
Prefix := Get_Named_Entity (Prefix_Name);
if Prefix = Error_Mark then
Set_Named_Entity (Name, Error_Mark);
return;
end if;
Res := Null_Iir;
Assoc_Chain := Get_Association_Chain (Name);
Actual := Get_One_Actual (Assoc_Chain);
if Actual /= Null_Iir
and then
(Get_Kind (Actual) = Iir_Kind_Range_Expression
or else
(Get_Kind (Actual) = Iir_Kind_Attribute_Name
and then (Get_Attribute_Identifier (Actual) = Std_Names.Name_Range
or else
Get_Attribute_Identifier (Actual)
= Std_Names.Name_Reverse_Range)))
then
-- A slice.
Slice_Index_Kind := Iir_Kind_Slice_Name;
Add_Result (Res, Sem_As_Indexed_Or_Slice_Name (Prefix, True));
elsif Actual /= Null_Iir
and then (Get_Kind (Prefix) = Iir_Kind_Type_Declaration
or else Get_Kind (Prefix) = Iir_Kind_Subtype_Declaration)
then
-- A type conversion
Res := Create_Iir (Iir_Kind_Type_Conversion);
Location_Copy (Res, Name);
Set_Type_Mark (Res, Prefix);
Set_Type (Res, Get_Type (Prefix));
Set_Expression (Res, Actual);
else
if Actual /= Null_Iir
and then (Get_Kind (Actual) = Iir_Kind_Simple_Name
or Get_Kind (Actual) = Iir_Kind_Selected_Name)
then
Sem_Name (Actual, False);
Actual_Expr := Get_Named_Entity (Actual);
if Actual_Expr = Error_Mark then
Set_Named_Entity (Name, Actual_Expr);
return;
end if;
-- Decides between sliced or indexed name to actual.
Slice_Index_Kind := Slice_Or_Index (Actual_Expr);
else
Index_Or_Not;
end if;
if Slice_Index_Kind /= Iir_Kind_Slice_Name then
if Sem_Actual_Of_Association_Chain (Assoc_Chain) = False then
Actual := Null_Iir;
else
Actual := Get_One_Actual (Assoc_Chain);
end if;
end if;
case Get_Kind (Prefix) is
when Iir_Kind_Overload_List =>
declare
El : Iir;
Used : Boolean;
R : Iir;
Match : Boolean;
Prefix_List : Iir_List;
begin
Prefix_List := Get_Overload_List (Prefix);
for I in Natural loop
El := Get_Nth_Element (Prefix_List, I);
exit when El = Null_Iir;
Used := False;
if Get_Kind (El) in Iir_Kinds_Function_Declaration then
Sem_Association_Chain
(Get_Interface_Declaration_Chain (El),
Assoc_Chain, False, Missing_Parameter, Name, Match);
if Match then
Add_Result
(Res, Sem_As_Function_Call (Prefix_Name, El,
Assoc_Chain));
Used := True;
end if;
end if;
if Get_Kind (El) not in Iir_Kinds_Procedure_Declaration
then
R := Sem_As_Indexed_Or_Slice_Name (El, False);
if R /= Null_Iir then
Add_Result (Res, R);
Used := True;
end if;
end if;
if not Used then
Sem_Name_Free_Result (El, Null_Iir);
end if;
end loop;
end;
if Res = Null_Iir then
Error_Msg_Sem
("No overloaded subprogram found matching "
& Disp_Node (Prefix_Name), Name);
end if;
when Iir_Kinds_Function_Declaration =>
Add_Result (Res, Sem_As_Function_Call (Prefix_Name,
Prefix, Assoc_Chain));
Add_Result (Res, Sem_As_Indexed_Or_Slice_Name (Prefix, False));
if Res = Null_Iir then
Error_Msg_Sem
("prefix is neither a function name "
& "nor can it be sliced or indexed", Name);
end if;
when Iir_Kinds_Object_Declaration
| Iir_Kind_Indexed_Name
| Iir_Kind_Slice_Name
| Iir_Kind_Dereference
| Iir_Kind_Implicit_Dereference
| Iir_Kind_Selected_Element
| Iir_Kind_Attribute_Value
| Iir_Kind_Function_Call =>
Add_Result (Res, Sem_As_Indexed_Or_Slice_Name (Prefix, True));
when Iir_Kinds_Array_Attribute =>
if Actual /= Null_Iir then
Finish_Sem_Array_Attribute (Prefix, Actual);
Set_Named_Entity (Name, Prefix);
else
Error_Msg_Sem ("bad attribute parameter", Name);
Set_Named_Entity (Name, Error_Mark);
end if;
return;
when Iir_Kinds_Scalar_Type_Attribute
| Iir_Kind_Image_Attribute
| Iir_Kind_Value_Attribute =>
if Actual /= Null_Iir then
Finish_Sem_Scalar_Type_Attribute (Prefix, Actual);
Set_Named_Entity (Name, Prefix);
else
Error_Msg_Sem ("bad attribute parameter", Name);
Set_Named_Entity (Name, Error_Mark);
end if;
return;
when Iir_Kind_Type_Declaration
| Iir_Kind_Subtype_Declaration =>
Error_Msg_Sem
("subprogram name is a type mark (missing apostrophe)", Name);
when Iir_Kind_Stable_Attribute
| Iir_Kind_Quiet_Attribute
| Iir_Kind_Delayed_Attribute =>
if Actual /= Null_Iir then
Finish_Sem_Signal_Attribute (Prefix, Actual);
Set_Named_Entity (Name, Prefix);
else
Error_Msg_Sem ("bad attribute parameter", Name);
Set_Named_Entity (Name, Error_Mark);
end if;
return;
when Iir_Kinds_Procedure_Declaration =>
Error_Msg_Sem ("function name is a procedure", Name);
when Iir_Kinds_Process_Statement
| Iir_Kind_Component_Declaration
| Iir_Kind_Type_Conversion =>
Error_Msg_Sem
(Disp_Node (Prefix) & " cannot be indexed or sliced", Name);
Res := Null_Iir;
when Iir_Kind_Psl_Declaration =>
Res := Sem_Psl.Sem_Psl_Name (Name);
when Iir_Kind_Design_Unit =>
Error_Msg_Sem ("function name is a design unit", Name);
when others =>
Error_Kind ("sem_parenthesis_name", Prefix);
end case;
end if;
if Res = Null_Iir then
Res := Error_Mark;
elsif not Is_Overload_List (Res) then
Finish_Sem_Name (Name, Res);
end if;
Set_Named_Entity (Name, Res);
end Sem_Parenthesis_Name;
procedure Sem_Selected_By_All_Name (Name : Iir_Selected_By_All_Name)
is
Prefix : Iir;
Prefix_Name : Iir;
Res : Iir;
procedure Sem_As_Selected_By_All_Name (Sub_Name : Iir)
is
Base_Type : Iir;
R : Iir;
begin
Base_Type := Get_Base_Type (Get_Type (Sub_Name));
if Get_Kind (Base_Type) /= Iir_Kind_Access_Type_Definition then
return;
end if;
R := Create_Iir (Iir_Kind_Dereference);
Location_Copy (R, Name);
Set_Prefix (R, Sub_Name);
-- FIXME: access subtype.
Set_Type (R, Get_Designated_Type (Base_Type));
Add_Result (Res, R);
end Sem_As_Selected_By_All_Name;
begin
Prefix := Get_Prefix (Name);
Sem_Name (Prefix, True);
Prefix_Name := Prefix;
Prefix := Get_Named_Entity (Prefix);
if Prefix = Null_Iir then
return;
end if;
Res := Null_Iir;
case Get_Kind (Prefix) is
when Iir_Kinds_Object_Declaration
| Iir_Kind_Selected_Element
| Iir_Kind_Dereference
| Iir_Kind_Indexed_Name
| Iir_Kind_Function_Call =>
Sem_As_Selected_By_All_Name (Prefix);
when Iir_Kinds_Function_Declaration =>
Prefix := Sem_As_Function_Call (Name => Prefix_Name,
Spec => Prefix,
Assoc_Chain => Null_Iir);
Sem_As_Selected_By_All_Name (Prefix);
when Iir_Kind_Error =>
Set_Named_Entity (Name, Error_Mark);
return;
when others =>
Error_Kind ("sem_selected_by_all_name", Prefix);
end case;
if Res = Null_Iir then
Error_Msg_Sem ("prefix is not an access", Name);
Res := Error_Mark;
elsif not Is_Overload_List (Res) then
Finish_Sem_Name (Name, Res);
end if;
Set_Named_Entity (Name, Res);
end Sem_Selected_By_All_Name;
function Sem_Base_Attribute (Attr : Iir_Attribute_Name) return Iir
is
Prefix : Iir;
Res : Iir;
Base_Type : Iir;
Type_Decl : Iir;
begin
Prefix := Get_Named_Entity (Get_Prefix (Attr));
case Get_Kind (Prefix) is
when Iir_Kind_Type_Declaration
| Iir_Kind_Subtype_Declaration =>
null;
when others =>
Error_Msg_Sem
("prefix of 'base attribute must be a type or a subtype", Attr);
return Error_Mark;
end case;
Res := Create_Iir (Iir_Kind_Base_Attribute);
Location_Copy (Res, Attr);
Set_Prefix (Res, Prefix);
Base_Type := Get_Base_Type (Get_Type (Prefix));
Type_Decl := Get_Type_Declarator (Base_Type);
if Get_Kind (Type_Decl) = Iir_Kind_Anonymous_Type_Declaration then
Base_Type := Get_Subtype_Definition (Type_Decl);
end if;
Set_Type (Res, Base_Type);
return Res;
end Sem_Base_Attribute;
function Sem_User_Attribute (Attr : Iir_Attribute_Name) return Iir
is
Prefix : Iir;
Value : Iir;
Attr_Id : Name_Id;
Spec : Iir_Attribute_Specification;
begin
Prefix := Get_Named_Entity (Get_Prefix (Attr));
-- LRM93 6.6
-- If the attribute name denotes an alias, then the attribute name
-- denotes an attribute of the aliased name and not the alias itself,
-- except when the attribute designator denotes any of the predefined
-- attributes 'simple_name, 'path_name, or 'instance_name.
if Get_Kind (Prefix) = Iir_Kind_Object_Alias_Declaration then
-- GHDL: according to 4.3.3, the name cannot be an alias.
Prefix := Get_Name (Prefix);
end if;
-- LRM93 6.6
-- If the attribute designator denotes a user-defined attribute, the
-- prefix cannot denote a subelement or a slice of an object.
case Get_Kind (Prefix) is
when Iir_Kind_Selected_By_All_Name
| Iir_Kind_Selected_Name
| Iir_Kind_Indexed_Name
| Iir_Kind_Slice_Name =>
Error_Msg_Sem ("prefix of user defined attribute cannot be an "
& "object subelement", Attr);
return Error_Mark;
when Iir_Kind_Dereference =>
Error_Msg_Sem ("prefix of user defined attribute cannot be an "
& "anonymous object", Attr);
return Error_Mark;
when Iir_Kinds_Object_Declaration
| Iir_Kind_Design_Unit
| Iir_Kind_Type_Declaration
| Iir_Kind_Subtype_Declaration
| Iir_Kinds_Function_Declaration
| Iir_Kinds_Procedure_Declaration
| Iir_Kind_Enumeration_Literal
| Iir_Kind_Unit_Declaration
| Iir_Kinds_Sequential_Statement
| Iir_Kinds_Concurrent_Statement =>
-- FIXME: to complete
null;
when others =>
Error_Kind ("sem_user_attribute", Prefix);
end case;
Attr_Id := Get_Attribute_Identifier (Attr);
Value := Get_Attribute_Value_Chain (Prefix);
while Value /= Null_Iir loop
Spec := Get_Attribute_Specification (Value);
exit when Get_Identifier (Get_Attribute_Designator (Spec)) = Attr_Id;
Value := Get_Chain (Value);
end loop;
if Value = Null_Iir then
Error_Msg_Sem
(Disp_Node (Prefix) & " was not annotated with attribute '"
& Name_Table.Image (Attr_Id) & ''', Attr);
if Attr_Id = Std_Names.Name_First or Attr_Id = Std_Names.Name_Last
then
-- Nice (?) message for Ada users.
Error_Msg_Sem
("(you may use 'high, 'low, 'left or 'right attribute)", Attr);
end if;
return Error_Mark;
end if;
Xref_Ref (Attr, Value);
return Value;
end Sem_User_Attribute;
function Sem_Scalar_Type_Attribute (Attr : Iir_Attribute_Name)
return Iir
is
use Std_Names;
Prefix_Name : Iir;
Prefix : Iir;
Prefix_Type : Iir;
Res : Iir;
Id : Name_Id;
begin
Id := Get_Attribute_Identifier (Attr);
Prefix_Name := Get_Prefix (Attr);
Prefix := Get_Named_Entity (Prefix_Name);
-- LRM93 14.1
-- Prefix: Any discrete or physical type of subtype T.
case Get_Kind (Prefix) is
when Iir_Kinds_Type_Declaration
| Iir_Kind_Base_Attribute =>
null;
when others =>
Error_Msg_Sem ("prefix of '" & Name_Table.Image (Id)
& " attribute must be a type", Attr);
return Error_Mark;
end case;
Prefix_Type := Get_Type (Prefix);
case Id is
when Name_Image
| Name_Value =>
if Get_Kind (Prefix_Type) not in Iir_Kinds_Scalar_Type_Definition
then
Error_Msg_Sem
("prefix of '" & Name_Table.Image (Id)
& " attribute must be a scalar type", Attr);
Error_Msg_Sem
("found " & Disp_Node (Prefix_Type)
& " defined at " & Disp_Location (Prefix_Type), Attr);
return Error_Mark;
end if;
when others =>
case Get_Kind (Prefix_Type) is
when Iir_Kinds_Discrete_Type_Definition
| Iir_Kind_Physical_Subtype_Definition
| Iir_Kind_Physical_Type_Definition =>
null;
when others =>
Error_Msg_Sem
("prefix of '" & Name_Table.Image (Id)
& " attribute must be discrete or physical type", Attr);
Error_Msg_Sem
("found " & Disp_Node (Prefix_Type)
& " defined at " & Disp_Location (Prefix_Type), Attr);
return Error_Mark;
end case;
end case;
-- Create the resulting node.
case Get_Attribute_Identifier (Attr) is
when Name_Pos =>
Res := Create_Iir (Iir_Kind_Pos_Attribute);
when Name_Val =>
Res := Create_Iir (Iir_Kind_Val_Attribute);
when Name_Succ =>
Res := Create_Iir (Iir_Kind_Succ_Attribute);
when Name_Pred =>
Res := Create_Iir (Iir_Kind_Pred_Attribute);
when Name_Leftof =>
Res := Create_Iir (Iir_Kind_Leftof_Attribute);
when Name_Rightof =>
Res := Create_Iir (Iir_Kind_Rightof_Attribute);
when Name_Image =>
Res := Create_Iir (Iir_Kind_Image_Attribute);
when Name_Value =>
Res := Create_Iir (Iir_Kind_Value_Attribute);
when others =>
raise Internal_Error;
end case;
Location_Copy (Res, Attr);
Set_Prefix (Res, Prefix);
case Get_Attribute_Identifier (Attr) is
when Name_Pos =>
-- LRM93 14.1
-- Result type: universal_integer.
Set_Type (Res, Convertible_Integer_Type_Definition);
when Name_Val =>
-- LRM93 14.1
-- Result type: the base type of T
Set_Type (Res, Get_Base_Type (Prefix_Type));
when Name_Succ
| Name_Pred
| Name_Leftof
| Name_Rightof =>
-- LRM93 14.1
-- Result type: the base type of T.
Set_Type (Res, Get_Base_Type (Prefix_Type));
when Name_Image =>
-- LRM93 14.1
-- Result type: type string
Set_Type (Res, String_Type_Definition);
when Name_Value =>
-- LRM93 14.1
-- Result type: the base type of T.
Set_Type (Res, Get_Base_Type (Prefix_Type));
when others =>
raise Internal_Error;
end case;
return Res;
end Sem_Scalar_Type_Attribute;
-- Sem attributes whose prefix is a type or a subtype.
function Sem_Predefined_Type_Attribute (Attr : Iir_Attribute_Name)
return Iir
is
use Std_Names;
Res : Iir;
Prefix : Iir;
Prefix_Type : Iir;
begin
case Get_Attribute_Identifier (Attr) is
when Name_Left =>
Res := Create_Iir (Iir_Kind_Left_Type_Attribute);
when Name_Right =>
Res := Create_Iir (Iir_Kind_Right_Type_Attribute);
when Name_High =>
Res := Create_Iir (Iir_Kind_High_Type_Attribute);
when Name_Low =>
Res := Create_Iir (Iir_Kind_Low_Type_Attribute);
when Name_Ascending =>
Res := Create_Iir (Iir_Kind_Ascending_Type_Attribute);
when Name_Range
| Name_Reverse_Range =>
Error_Msg_Sem
("prefix of range attribute must be an array type or object",
Attr);
return Error_Mark;
when others =>
Error_Msg_Sem ("Attribute '"
& Name_Table.Image(Get_Attribute_Identifier (Attr))
& " not valid on this type", Attr);
return Error_Mark;
end case;
Location_Copy (Res, Attr);
Prefix := Get_Named_Entity (Get_Prefix (Attr));
Set_Prefix (Res, Prefix);
Prefix_Type := Get_Type (Prefix);
case Get_Attribute_Identifier (Attr) is
when Name_Ascending =>
-- LRM93 14.1
-- Result Type: type boolean.
Set_Type (Res, Boolean_Type_Definition);
when others =>
-- LRM 14.1
-- Result Type: Same type as T.
Set_Type (Res, Prefix_Type);
end case;
Set_Expr_Staticness (Res, Get_Type_Staticness (Prefix_Type));
return Res;
end Sem_Predefined_Type_Attribute;
-- Called for attributes Length, Left, Right, High, Low, Range,
-- Reverse_Range, Ascending.
function Sem_Array_Attribute (Attr : Iir_Attribute_Name) return Iir
is
use Std_Names;
Prefix: Iir;
Prefix_Type : Iir;
Res : Iir;
begin
Prefix := Get_Named_Entity (Get_Prefix (Attr));
-- LRM93 14.1
-- Prefix: Any prefix A that is appropriate for an array object, or an
-- alias thereof, or that denotes a constrained array subtype.
case Get_Kind (Prefix) is
when Iir_Kind_Dereference
| Iir_Kinds_Object_Declaration
| Iir_Kind_Function_Call
| Iir_Kind_Selected_Element
| Iir_Kind_Indexed_Name
| Iir_Kind_Slice_Name
| Iir_Kind_Attribute_Value
| Iir_Kind_Image_Attribute =>
-- FIXME: list of expr.
Prefix_Type := Get_Type (Prefix);
case Get_Kind (Prefix_Type) is
when Iir_Kind_Access_Type_Definition
| Iir_Kind_Access_Subtype_Definition =>
declare
Designated_Type : Iir;
begin
Designated_Type :=
Get_Designated_Type (Get_Base_Type (Prefix_Type));
Prefix := Insert_Implicit_Dereference (Prefix, Attr);
Prefix_Type := Designated_Type;
end;
when Iir_Kinds_Array_Type_Definition =>
null;
when others =>
Error_Msg_Sem ("object prefix must be an array", Attr);
return Error_Mark;
end case;
-- when Iir_Kind_Array_Subtype_Definition =>
-- Prefix_Type := Prefix;
-- when Iir_Kind_Array_Type_Definition =>
-- Error_Type;
-- return Null_Iir;
when Iir_Kind_Subtype_Declaration
| Iir_Kind_Type_Declaration
| Iir_Kind_Base_Attribute =>
Prefix_Type := Get_Type (Prefix);
if not Is_Fully_Constrained_Type (Prefix_Type) then
Error_Msg_Sem ("prefix type is not constrained", Attr);
-- We continue using the unconstrained array type.
-- At least, this type is valid; and even if the array was
-- constrained, the base type would be the same.
end if;
when Iir_Kind_Range_Array_Attribute
| Iir_Kind_Reverse_Range_Array_Attribute
| Iir_Kind_Process_Statement =>
Error_Msg_Sem
(Disp_Node (Prefix) & " is not an appropriate prefix for '"
& Name_Table.Image (Get_Attribute_Identifier (Attr))
& " attribute",
Attr);
return Error_Mark;
when others =>
Error_Msg_Sem ("prefix must denote an array object or type", Attr);
return Error_Mark;
end case;
case Get_Kind (Prefix_Type) is
when Iir_Kinds_Scalar_Type_Definition =>
-- FIXME: check prefix is a scalar type or subtype.
return Sem_Predefined_Type_Attribute (Attr);
when Iir_Kinds_Array_Type_Definition =>
null;
when others =>
Error_Msg_Sem
("prefix of '"
& Name_Table.Image (Get_Attribute_Identifier (Attr))
& " attribute must denote a constrained array subtype",
Attr);
return Error_Mark;
end case;
case Get_Attribute_Identifier (Attr) is
when Name_Left =>
Res := Create_Iir (Iir_Kind_Left_Array_Attribute);
when Name_Right =>
Res := Create_Iir (Iir_Kind_Right_Array_Attribute);
when Name_High =>
Res := Create_Iir (Iir_Kind_High_Array_Attribute);
when Name_Low =>
Res := Create_Iir (Iir_Kind_Low_Array_Attribute);
when Name_Range =>
Res := Create_Iir (Iir_Kind_Range_Array_Attribute);
when Name_Reverse_Range =>
Res := Create_Iir (Iir_Kind_Reverse_Range_Array_Attribute);
when Name_Length =>
Res := Create_Iir (Iir_Kind_Length_Array_Attribute);
-- FIXME: Error if ambiguous
Set_Type (Res, Convertible_Integer_Type_Definition);
when Name_Ascending =>
Res := Create_Iir (Iir_Kind_Ascending_Array_Attribute);
-- FIXME: Error if ambiguous
Set_Type (Res, Boolean_Type_Definition);
when others =>
raise Internal_Error;
end case;
Location_Copy (Res, Attr);
Set_Prefix (Res, Prefix);
return Res;
end Sem_Array_Attribute;
function Sem_Signal_Signal_Attribute
(Attr : Iir_Attribute_Name; Kind : Iir_Kind)
return Iir
is
Res : Iir;
Prefix : Iir;
begin
Prefix := Get_Named_Entity (Get_Prefix (Attr));
Res := Create_Iir (Kind);
if Kind = Iir_Kind_Delayed_Attribute then
Set_Type (Res, Get_Type (Prefix));
elsif Kind = Iir_Kind_Transaction_Attribute then
Set_Type (Res, Bit_Type_Definition);
else
Set_Type (Res, Boolean_Type_Definition);
end if;
Set_Base_Name (Res, Res);
-- Param := Get_Suffix (Attr);
-- if Param /= Null_Iir then
-- if Kind = Iir_Kind_Transaction_Attribute then
-- Error_Msg_Sem ("'transaction does not allow a parameter", Attr);
-- Param := Null_Iir;
-- else
-- Param := Sem_Expression
-- (Param, Time_Subtype_Definition);
-- Set_Parameter (Res, Param);
-- end if;
-- end if;
if Get_Kind (Prefix) = Iir_Kind_Signal_Interface_Declaration then
-- LRM93 2.1.1.2 / LRM08 4.2.2.3
--
-- It is an error if signal-valued attributes 'STABLE , 'QUIET,
-- 'TRANSACTION, and 'DELAYED of formal signal paramaters of any
-- mode are read within a subprogram.
case Get_Kind (Get_Parent (Prefix)) is
when Iir_Kind_Function_Declaration
| Iir_Kind_Procedure_Declaration =>
Error_Msg_Sem
("'" & Name_Table.Image (Get_Attribute_Identifier (Attr)) &
" is not allowed for a signal parameter", Attr);
when others =>
null;
end case;
end if;
Sem_Stmts.Add_Declaration_For_Implicit_Signal (Res);
return Res;
end Sem_Signal_Signal_Attribute;
function Sem_Signal_Attribute (Attr : Iir_Attribute_Name) return Iir
is
use Std_Names;
Prefix: Iir;
Res : Iir;
Base : Iir;
begin
Prefix := Get_Named_Entity (Get_Prefix (Attr));
Base := Get_Object_Prefix (Prefix);
case Get_Kind (Base) is
when Iir_Kind_Signal_Declaration
| Iir_Kind_Signal_Interface_Declaration
| Iir_Kind_Guard_Signal_Declaration
| Iir_Kinds_Signal_Attribute =>
null;
when others =>
Error_Msg_Sem
("prefix of '"
& Name_Table.Image (Get_Attribute_Identifier (Attr))
& " attribute must denote a signal", Attr);
return Error_Mark;
end case;
case Get_Attribute_Identifier (Attr) is
when Name_Stable =>
Res := Sem_Signal_Signal_Attribute
(Attr, Iir_Kind_Stable_Attribute);
when Name_Quiet =>
Res := Sem_Signal_Signal_Attribute
(Attr, Iir_Kind_Quiet_Attribute);
when Name_Delayed =>
Res := Sem_Signal_Signal_Attribute
(Attr, Iir_Kind_Delayed_Attribute);
when Name_Transaction =>
Res := Sem_Signal_Signal_Attribute
(Attr, Iir_Kind_Transaction_Attribute);
when Name_Event =>
Res := Create_Iir (Iir_Kind_Event_Attribute);
Set_Type (Res, Boolean_Type_Definition);
when Name_Active =>
Res := Create_Iir (Iir_Kind_Active_Attribute);
Set_Type (Res, Boolean_Type_Definition);
when Name_Last_Value =>
Res := Create_Iir (Iir_Kind_Last_Value_Attribute);
Set_Type (Res, Get_Type (Prefix));
when Name_Last_Event =>
Res := Create_Iir (Iir_Kind_Last_Event_Attribute);
Set_Type (Res, Time_Type_Definition);
when Name_Last_Active =>
Res := Create_Iir (Iir_Kind_Last_Active_Attribute);
Set_Type (Res, Time_Type_Definition);
when Name_Driving_Value =>
Res := Create_Iir (Iir_Kind_Driving_Value_Attribute);
Set_Type (Res, Get_Type (Prefix));
-- FIXME: check restrictions.
when Name_Driving =>
Res := Create_Iir (Iir_Kind_Driving_Attribute);
Set_Type (Res, Boolean_Type_Definition);
-- FIXME: check restrictions.
when others =>
-- Not yet implemented attribute, or really an internal error.
raise Internal_Error;
end case;
Location_Copy (Res, Attr);
-- LRM 4.3.2
-- The value of an object is said to be read when one of the following
-- conditions is satisfied:
-- [...]
-- * When the object is a signal and the value of any of its predefined
-- attributes 'STABLE, 'QUIET, 'DELAYED, 'TRANSACTION, 'EVENT,
-- 'ACTIVE, 'LAST_EVENT, 'LAST_ACTIVE, or 'LAST_VALUE is read.
-- LRM 14.1
-- S'Driving Restrictions:
-- S'Driving_Value Restrictions:
-- This attribute is available only from within a process, a
-- concurrent statement with an equivalent process, or a subprogram.
-- If the prefix denotes a port, it is an error if the port does not
-- have a mode of INOUT, OUT or BUFFER. It is also an error if the
-- attribute name appears in a subprogram body that is not a declarative
-- item contained within a process statement and the prefix is not a
-- formal parameter of the given subprogram or of a parent of that
-- subprogram. Finally, it is an error if the prefix denotes a
-- subprogram formal parameter whose mode is not INOUT or OUT, or if
-- S'Driving is False at the time of the evaluation of S'Driving_Value.
case Get_Kind (Res) is
when Iir_Kind_Stable_Attribute
| Iir_Kind_Quiet_Attribute
| Iir_Kind_Delayed_Attribute
| Iir_Kind_Transaction_Attribute
| Iir_Kind_Event_Attribute
| Iir_Kind_Active_Attribute
| Iir_Kind_Last_Event_Attribute
| Iir_Kind_Last_Active_Attribute
| Iir_Kind_Last_Value_Attribute =>
Check_Read (Prefix);
when Iir_Kind_Driving_Attribute
| Iir_Kind_Driving_Value_Attribute =>
-- FIXME: complete checks.
if Get_Current_Concurrent_Statement = Null_Iir then
Error_Msg_Sem
("'driving or 'driving_value is available only within a "
& "concurrent statement", Attr);
else
case Get_Kind (Get_Current_Concurrent_Statement) is
when Iir_Kinds_Process_Statement
| Iir_Kind_Concurrent_Conditional_Signal_Assignment
| Iir_Kind_Concurrent_Selected_Signal_Assignment
| Iir_Kind_Concurrent_Procedure_Call_Statement =>
null;
when others =>
Error_Msg_Sem
("'driving or 'driving_value not available within "
& "this concurrent statement", Attr);
end case;
end if;
case Get_Kind (Base) is
when Iir_Kind_Signal_Declaration =>
null;
when Iir_Kind_Signal_Interface_Declaration =>
case Get_Mode (Base) is
when Iir_Buffer_Mode
| Iir_Inout_Mode
| Iir_Out_Mode =>
null;
when others =>
Error_Msg_Sem
("mode of 'driving or 'driving_value prefix must "
& "be out, inout or buffer", Attr);
end case;
when others =>
Error_Msg_Sem
("bad prefix for 'driving or 'driving_value", Attr);
end case;
when others =>
null;
end case;
-- According to LRM 7.4, signal attributes are not static expressions
-- since the prefix (a signal) is not a static expression.
Set_Expr_Staticness (Res, None);
-- LRM 6.1
-- A name is said to be a static name if and only if at least one of
-- the following conditions holds:
-- [...]
-- - The name is a attribute name whose prefix is a static signal name
-- and whose suffix is one of the predefined attributes 'DELAYED,
-- 'STABLE, 'QUIET or 'TRANSACTION.
-- According to LRM 6.1, attributes are not static names.
if Flags.Vhdl_Std = Vhdl_93c or Flags.Vhdl_Std >= Vhdl_02 then
case Get_Kind (Res) is
when Iir_Kind_Stable_Attribute
| Iir_Kind_Quiet_Attribute
| Iir_Kind_Delayed_Attribute
| Iir_Kind_Transaction_Attribute =>
Set_Name_Staticness (Res, Get_Name_Staticness (Prefix));
when others =>
Set_Name_Staticness (Res, None);
end case;
else
Set_Name_Staticness (Res, None);
end if;
Set_Prefix (Res, Prefix);
-- Set has_active_flag when activity is read.
case Get_Kind (Res) is
when Iir_Kind_Quiet_Attribute
| Iir_Kind_Transaction_Attribute
| Iir_Kind_Active_Attribute
| Iir_Kind_Last_Active_Attribute =>
Set_Has_Active_Flag (Base, True);
when others =>
null;
end case;
return Res;
end Sem_Signal_Attribute;
-- 'Simple_name, 'instance_name and 'path_name.
function Sem_Name_Attribute (Attr : Iir_Attribute_Name) return Iir
is
use Std_Names;
Prefix: Iir;
Res : Iir;
begin
Prefix := Get_Named_Entity (Get_Prefix (Attr));
-- LRM 14.1 Predefined attributes
-- E'SIMPLE_NAME
-- Prefix: Any named entity as defined in 5.1
-- E'INSTANCE_NAME
-- Prefix: Any named entity other than the local ports and generics
-- of a component declaration.
-- E'PATH_NAME
-- Prefix: Any named entity other than the local ports and generics
-- of a component declaration.
case Get_Kind (Prefix) is
when Iir_Kind_Procedure_Declaration
| Iir_Kind_Implicit_Procedure_Declaration
| Iir_Kind_Function_Declaration
| Iir_Kind_Implicit_Function_Declaration
| Iir_Kind_Type_Declaration
| Iir_Kind_Subtype_Declaration
| Iir_Kind_Constant_Declaration
| Iir_Kind_Signal_Declaration
| Iir_Kind_Variable_Declaration
| Iir_Kind_Variable_Interface_Declaration
| Iir_Kind_Iterator_Declaration
| Iir_Kind_Component_Declaration
| Iir_Kinds_Concurrent_Statement
| Iir_Kinds_Sequential_Statement
| Iir_Kind_Enumeration_Literal
| Iir_Kind_Group_Declaration
| Iir_Kind_Group_Template_Declaration
| Iir_Kind_File_Declaration
| Iir_Kind_Design_Unit
| Iir_Kind_Non_Object_Alias_Declaration =>
null;
when Iir_Kind_Signal_Interface_Declaration
| Iir_Kind_Constant_Interface_Declaration =>
if Get_Attribute_Identifier (Attr) /= Name_Simple_Name
and then Get_Kind (Get_Parent (Prefix))
= Iir_Kind_Component_Declaration
then
Error_Msg_Sem
("local ports or generics of a component cannot be a prefix",
Attr);
end if;
when others =>
Error_Msg_Sem (Disp_Node (Prefix) & " is not a named entity",
Attr);
end case;
case Get_Attribute_Identifier (Attr) is
when Name_Simple_Name =>
Res := Create_Iir (Iir_Kind_Simple_Name_Attribute);
Eval_Simple_Name (Get_Identifier (Prefix));
Set_Simple_Name_Identifier (Res, Name_Table.Get_Identifier);
Set_Type (Res, Create_Unidim_Array_By_Length
(String_Type_Definition,
Iir_Int64 (Name_Table.Name_Length),
Attr));
Set_Expr_Staticness (Res, Locally);
when Name_Path_Name =>
Res := Create_Iir (Iir_Kind_Path_Name_Attribute);
Set_Expr_Staticness (Res, Globally);
Set_Type (Res, String_Type_Definition);
when Name_Instance_Name =>
Res := Create_Iir (Iir_Kind_Instance_Name_Attribute);
Set_Expr_Staticness (Res, Globally);
Set_Type (Res, String_Type_Definition);
when others =>
raise Internal_Error;
end case;
Location_Copy (Res, Attr);
Set_Prefix (Res, Prefix);
return Res;
end Sem_Name_Attribute;
procedure Sem_Attribute (Attr : Iir_Attribute_Name)
is
use Std_Names;
Prefix : Iir;
Res : Iir;
Sig : Iir_Signature;
begin
-- LRM93 6.6 Attribute names
-- The meaning of the prefix of an attribute name must be determinable
-- independently of the attribute designator and independently of the
-- fact that it is the prefix of an attribute.
Prefix := Get_Prefix (Attr);
-- LRM93 6.6
-- If the prefix of an attribute name denotes an alias, then the
-- attribute name denotes an attribute of the aliased name and not the
-- alias itself, except when the attribute designator denotes any of
-- the predefined attributes 'Simple_Name, 'Path_Name or 'Instance_Name.
-- If the prefix of an attribute name denotes an alias and the
-- attribute designator denotes any of the predefined attributes
-- 'Simple_Name, 'Path_Name or 'Instance_Name, then the attribute name
-- denotes the attribute of the alias and not of the aliased name.
if Flags.Vhdl_Std > Vhdl_87
and then Get_Attribute_Identifier (Attr) in Name_Id_Name_Attributes
then
Sem_Name (Prefix, True);
else
Sem_Name (Prefix, False);
end if;
Prefix := Get_Named_Entity (Prefix);
if Prefix = Error_Mark then
Set_Named_Entity (Attr, Prefix);
return;
end if;
-- LRM93 6.6
-- A signature may follow the prefix if and only if the prefix denotes
-- a subprogram or enumeration literal, or an alias thereof.
-- In this case, the signature is required to match (see Section 2.3.2)
-- the parameter and result type profile of exactly one visible
-- subprogram or enumeration literal, as is appropriate to the prefix.
-- GHDL: this is done by Sem_Signature.
Sig := Get_Signature (Attr);
if Sig /= Null_Iir then
Prefix := Sem_Signature (Prefix, Sig);
if Prefix = Null_Iir then
Set_Named_Entity (Attr, Error_Mark);
return;
end if;
Set_Named_Entity (Get_Prefix (Attr), Prefix);
end if;
if Get_Kind (Prefix) = Iir_Kind_Overload_List then
Error_Msg_Sem ("prefix of attribute is overloaded", Attr);
Set_Named_Entity (Attr, Error_Mark);
return;
end if;
case Get_Attribute_Identifier (Attr) is
when Name_Base =>
Res := Sem_Base_Attribute (Attr);
when Name_Image
| Name_Value =>
if Flags.Vhdl_Std > Vhdl_87 then
Res := Sem_Scalar_Type_Attribute (Attr);
else
Res := Sem_User_Attribute (Attr);
end if;
when Name_Pos
| Name_Val
| Name_Succ
| Name_Pred
| Name_Rightof
| Name_Leftof =>
Res := Sem_Scalar_Type_Attribute (Attr);
when Name_Length
| Name_Left
| Name_Right
| Name_High
| Name_Low
| Name_Range
| Name_Reverse_Range =>
Res := Sem_Array_Attribute (Attr);
when Name_Ascending =>
if Flags.Vhdl_Std > Vhdl_87 then
Res := Sem_Array_Attribute (Attr);
else
Res := Sem_User_Attribute (Attr);
end if;
when Name_Stable
| Name_Event
| Name_Last_Value
| Name_Delayed
| Name_Quiet
| Name_Transaction
| Name_Active
| Name_Last_Active
| Name_Last_Event =>
Res := Sem_Signal_Attribute (Attr);
when Name_Driving
| Name_Driving_Value =>
if Flags.Vhdl_Std > Vhdl_87 then
Res := Sem_Signal_Attribute (Attr);
else
Res := Sem_User_Attribute (Attr);
end if;
when Name_Simple_Name
| Name_Path_Name
| Name_Instance_Name =>
if Flags.Vhdl_Std > Vhdl_87 then
Res := Sem_Name_Attribute (Attr);
else
Res := Sem_User_Attribute (Attr);
end if;
when others =>
Res := Sem_User_Attribute (Attr);
end case;
if Res = Null_Iir then
Error_Kind ("sem_attribute", Attr);
end if;
Set_Named_Entity (Attr, Res);
end Sem_Attribute;
-- LRM93 §6
procedure Sem_Name (Name : Iir; Keep_Alias : Boolean)
is
begin
-- Exit now if NAME was already semantized.
if Get_Named_Entity (Name) /= Null_Iir then
return;
end if;
case Get_Kind (Name) is
when Iir_Kind_Simple_Name
| Iir_Kind_Operator_Symbol =>
-- String_Literal may be a symbol_operator.
Sem_Simple_Name (Name, Keep_Alias, False);
when Iir_Kind_Selected_Name =>
Sem_Selected_Name (Name, Keep_Alias);
when Iir_Kind_Parenthesis_Name =>
Sem_Parenthesis_Name (Name);
when Iir_Kind_Selected_By_All_Name =>
Sem_Selected_By_All_Name (Name);
when Iir_Kind_Attribute_Name =>
Sem_Attribute (Name);
when others =>
Error_Kind ("sem_name", Name);
end case;
end Sem_Name;
-- Finish semantisation of NAME, if necessary.
procedure Maybe_Finish_Sem_Name (Name : Iir)
is
Expr : Iir;
begin
Expr := Get_Named_Entity (Name);
case Get_Kind (Expr) is
when Iir_Kind_Error =>
null;
when Iir_Kinds_Object_Declaration
| Iir_Kinds_Quantity_Declaration =>
Set_Base_Name (Name, Expr);
Sem_Check_Pure (Name, Expr);
Sem_Check_All_Sensitized (Expr);
when Iir_Kind_Indexed_Name
| Iir_Kind_Slice_Name
| Iir_Kind_Selected_Element
| Iir_Kind_Dereference =>
declare
E : Iir;
begin
-- Get over implicit and explicit dereferences.
E := Expr;
loop
E := Get_Base_Name (E);
if Get_Kind (E) in Iir_Kinds_Dereference then
E := Get_Prefix (E);
else
exit;
end if;
end loop;
Sem_Check_Pure (Name, E);
Sem_Check_All_Sensitized (E);
end;
when Iir_Kind_Enumeration_Literal
| Iir_Kind_Unit_Declaration =>
null;
when Iir_Kind_Type_Declaration
| Iir_Kind_Subtype_Declaration =>
null;
when Iir_Kind_Function_Call
| Iir_Kind_Attribute_Value
| Iir_Kind_Type_Conversion =>
null;
when Iir_Kinds_Type_Attribute =>
null;
when Iir_Kind_Event_Attribute
| Iir_Kind_Active_Attribute
| Iir_Kind_Last_Event_Attribute
| Iir_Kind_Last_Active_Attribute
| Iir_Kind_Last_Value_Attribute
| Iir_Kind_Transaction_Attribute
| Iir_Kind_Driving_Attribute
| Iir_Kind_Driving_Value_Attribute =>
null;
when Iir_Kind_Simple_Name_Attribute
| Iir_Kind_Path_Name_Attribute
| Iir_Kind_Instance_Name_Attribute =>
null;
when Iir_Kind_Stable_Attribute
| Iir_Kind_Quiet_Attribute
| Iir_Kind_Delayed_Attribute =>
if Get_Parameter (Expr) = Null_Iir then
Finish_Sem_Signal_Attribute (Expr, Null_Iir);
end if;
when Iir_Kinds_Array_Attribute =>
if Get_Parameter (Expr) = Null_Iir then
Finish_Sem_Array_Attribute (Expr, Null_Iir);
end if;
when Iir_Kinds_Scalar_Type_Attribute
| Iir_Kind_Image_Attribute
| Iir_Kind_Value_Attribute =>
if Get_Parameter (Expr) = Null_Iir then
Finish_Sem_Scalar_Type_Attribute (Expr, Null_Iir);
end if;
when Iir_Kind_Implicit_Dereference =>
-- Should not happen.
raise Internal_Error;
when Iir_Kind_Implicit_Function_Declaration
| Iir_Kind_Function_Declaration =>
Finish_Sem_Function_Specification (Name, Expr);
when Iir_Kind_Psl_Expression =>
null;
when others =>
Error_Kind ("maybe_finish_sem_name", Expr);
end case;
end Maybe_Finish_Sem_Name;
procedure Sem_Name_Soft (Name : Iir)
is
begin
-- Exit now if NAME was already semantized.
if Get_Named_Entity (Name) /= Null_Iir then
return;
end if;
case Get_Kind (Name) is
when Iir_Kind_Simple_Name
| Iir_Kind_Operator_Symbol =>
-- String_Literal may be a symbol_operator.
Sem_Simple_Name (Name, False, True);
when others =>
Error_Kind ("sem_name_soft", Name);
end case;
end Sem_Name_Soft;
procedure Sem_Name_Clean (Name : Iir)
is
N : Iir;
Next_N : Iir;
Named_Entity : Iir;
Atype : Iir;
begin
N := Name;
while N /= Null_Iir loop
case Get_Kind (N) is
when Iir_Kind_Simple_Name
| Iir_Kind_Operator_Symbol =>
Next_N := Null_Iir;
when others =>
Error_Kind ("sem_name_clean", N);
end case;
-- Clear and free overload lists of Named_entity and type.
Named_Entity := Get_Named_Entity (N);
Set_Named_Entity (N, Null_Iir);
if Named_Entity /= Null_Iir
and then Is_Overload_List (Named_Entity)
then
Free_Iir (Named_Entity);
end if;
Atype := Get_Type (N);
Set_Type (N, Null_Iir);
if Atype /= Null_Iir
and then Is_Overload_List (Atype)
then
Free_Iir (Atype);
end if;
N := Next_N;
end loop;
end Sem_Name_Clean;
-- Remove procedure specification from LIST.
function Remove_Procedures_From_List (Expr : Iir) return Iir
is
El : Iir;
P : Natural;
List : Iir_List;
begin
if not Is_Overload_List (Expr) then
return Expr;
end if;
List := Get_Overload_List (Expr);
P := 0;
for I in Natural loop
El := Get_Nth_Element (List, I);
exit when El = Null_Iir;
case Get_Kind (El) is
when Iir_Kinds_Procedure_Declaration =>
null;
when Iir_Kinds_Function_Declaration =>
if Maybe_Function_Call (El) then
Replace_Nth_Element (List, P, El);
P := P + 1;
end if;
when others =>
Replace_Nth_Element (List, P, El);
P := P + 1;
end case;
end loop;
case P is
when 0 =>
Free_Iir (Expr);
return Null_Iir;
when 1 =>
El := Get_First_Element (List);
Free_Iir (Expr);
return El;
when others =>
Set_Nbr_Elements (List, P);
return Expr;
end case;
end Remove_Procedures_From_List;
-- Convert name EXPR to an expression (ie, create function call).
-- A_TYPE is the expected type of the expression.
-- Returns NULL_IIR in case of error.
function Name_To_Expression (Name : Iir; A_Type : Iir) return Iir
is
Ret_Type : Iir;
Res_Type : Iir;
Expr : Iir;
Expr_List : Iir_List;
Res : Iir;
El : Iir;
begin
Expr := Get_Named_Entity (Name);
if Get_Kind (Expr) = Iir_Kind_Error then
return Null_Iir;
end if;
if Check_Is_Expression (Expr, Name) = Null_Iir then
return Null_Iir;
end if;
-- Note: EXPR may contain procedure names...
Expr := Remove_Procedures_From_List (Expr);
Set_Named_Entity (Name, Expr);
if Expr = Null_Iir then
Error_Msg_Sem ("procedure name " & Disp_Node (Name)
& " cannot be used as expression", Name);
return Null_Iir;
end if;
if not Is_Overload_List (Expr) then
Maybe_Finish_Sem_Name (Name);
Expr := Get_Named_Entity (Name);
if Expr = Null_Iir then
return Null_Iir;
end if;
if A_Type /= Null_Iir then
Res_Type := Get_Type (Expr);
if Res_Type = Null_Iir then
return Null_Iir;
end if;
if not Are_Basetypes_Compatible (Get_Base_Type (Res_Type), A_Type)
then
Error_Not_Match (Expr, A_Type, Name);
return Null_Iir;
end if;
-- Fall through.
end if;
else
-- EXPR is an overloaded name.
Expr_List := Get_Overload_List (Expr);
if A_Type /= Null_Iir then
-- Find the name returning A_TYPE.
Res := Null_Iir;
for I in Natural loop
El := Get_Nth_Element (Expr_List, I);
exit when El = Null_Iir;
if Are_Basetypes_Compatible (Get_Base_Type (Get_Type (El)),
A_Type)
then
Add_Result (Res, El);
end if;
end loop;
if Res = Null_Iir then
Error_Not_Match (Name, A_Type, Name);
return Null_Iir;
elsif Is_Overload_List (Res) then
Error_Overload (Name);
Disp_Overload_List (Get_Overload_List (Res), Name);
return Null_Iir;
else
Sem_Name_Free_Result (Expr, Res);
Set_Named_Entity (Name, Res);
Finish_Sem_Name (Name, Res);
Maybe_Finish_Sem_Name (Name);
Expr := Get_Named_Entity (Name);
-- Fall through.
end if;
else
-- Create a list of type.
Ret_Type := Create_List_Of_Types (Expr_List);
if Ret_Type = Null_Iir or else not Is_Overload_List (Ret_Type) then
-- There is either no types or one type for
-- several meanings.
Error_Overload (Name);
Disp_Overload_List (Expr_List, Name);
--Free_Iir (Ret_Type);
return Null_Iir;
end if;
Set_Type (Name, Ret_Type);
return Name;
end if;
end if;
-- NAME has only one meaning, which is EXPR.
Xref_Name (Name);
case Get_Kind (Name) is
when Iir_Kind_Simple_Name
| Iir_Kind_Selected_Name =>
--Set_Base_Name (Name, Get_Base_Name (Expr));
Set_Type (Name, Get_Type (Expr));
Set_Expr_Staticness (Name, Get_Expr_Staticness (Expr));
--Set_Name_Staticness (Name, Get_Name_Staticness (Expr));
return Name;
when Iir_Kind_Parenthesis_Name
| Iir_Kind_Attribute_Name
| Iir_Kind_Selected_By_All_Name =>
Free_Iir (Name);
return Eval_Expr_If_Static (Expr);
when others =>
Error_Kind ("name_to_expression", Name);
end case;
end Name_To_Expression;
function Is_Object_Name (Name : Iir) return Boolean
is
begin
case Get_Kind (Name) is
when Iir_Kind_Object_Alias_Declaration
| Iir_Kind_Signal_Declaration
| Iir_Kind_Guard_Signal_Declaration
| Iir_Kind_Variable_Declaration
| Iir_Kind_File_Declaration
| Iir_Kind_Constant_Declaration
| Iir_Kind_Iterator_Declaration
| Iir_Kind_Constant_Interface_Declaration
| Iir_Kind_Variable_Interface_Declaration
| Iir_Kind_Signal_Interface_Declaration
| Iir_Kind_File_Interface_Declaration
| Iir_Kind_Slice_Name
| Iir_Kind_Indexed_Name
| Iir_Kind_Selected_Element
| Iir_Kind_Implicit_Dereference
| Iir_Kind_Dereference
| Iir_Kind_Attribute_Value
| Iir_Kind_Function_Call
| Iir_Kinds_Signal_Attribute =>
return True;
when Iir_Kind_Simple_Name
| Iir_Kind_Selected_Name =>
return False;
when others =>
return False;
end case;
end Is_Object_Name;
function Name_To_Object (Name : Iir) return Iir
is
begin
case Get_Kind (Name) is
when Iir_Kind_Object_Alias_Declaration
| Iir_Kind_Signal_Declaration
| Iir_Kind_Guard_Signal_Declaration
| Iir_Kind_Variable_Declaration
| Iir_Kind_File_Declaration
| Iir_Kind_Constant_Declaration
| Iir_Kind_Iterator_Declaration
| Iir_Kind_Constant_Interface_Declaration
| Iir_Kind_Variable_Interface_Declaration
| Iir_Kind_Signal_Interface_Declaration
| Iir_Kind_File_Interface_Declaration
| Iir_Kind_Slice_Name
| Iir_Kind_Indexed_Name
| Iir_Kind_Selected_Element
| Iir_Kind_Implicit_Dereference
| Iir_Kind_Dereference
| Iir_Kind_Attribute_Value
| Iir_Kind_Function_Call
| Iir_Kinds_Signal_Attribute =>
return Name;
when Iir_Kind_Simple_Name
| Iir_Kind_Selected_Name =>
return Name_To_Object (Get_Named_Entity (Name));
when others =>
return Null_Iir;
end case;
end Name_To_Object;
-- Find a uniq declaration for a name.
function Find_Declaration (Name: Iir; Kind: Decl_Kind_Type)
return Iir
is
procedure Error (Res : Iir; Str : String)
is
begin
Error_Msg_Sem (Str & " expected, found " & Disp_Node (Res), Name);
end Error;
function Check_Kind (Res: Iir; Kind : Iir_Kind; Str: String)
return Iir
is
Res_Kind : Iir_Kind;
begin
Res_Kind := Get_Kind (Res);
if Res_Kind /= Kind then
Error (Res, Str);
return Null_Iir;
else
return Res;
end if;
end Check_Kind;
function Check_Kind_Unit (Res: Iir; Kind : Iir_Kind; Str: String)
return Iir
is
Res_Kind : Iir_Kind;
begin
if Get_Kind (Res) /= Iir_Kind_Design_Unit then
Error (Res, Str);
return Null_Iir;
end if;
Res_Kind := Get_Kind (Get_Library_Unit (Res));
if Res_Kind /= Kind then
Error (Res, Str);
return Null_Iir;
else
return Res;
end if;
end Check_Kind_Unit;
Res: Iir;
begin
Sem_Name (Name, False);
Res := Get_Named_Entity (Name);
if Res = Error_Mark then
-- A message must have been displayed.
-- FIXME: is it the case for find_selected_declarations ???
-- Error_Msg_Sem ("identifier is not defined", Name);
return Null_Iir;
end if;
Xref_Name (Name);
case Kind is
when Decl_Type
| Decl_Incomplete_Type =>
case Get_Kind (Res) is
when Iir_Kind_Type_Declaration
| Iir_Kind_Subtype_Declaration =>
Res := Get_Type (Res);
-- Note: RES cannot be NULL_IIR, this is just to be more
-- bullet-proof.
if Kind /= Decl_Incomplete_Type
and then
(Res = Null_Iir or else
Get_Kind (Res) = Iir_Kind_Incomplete_Type_Definition)
then
Error_Msg_Sem
("invalid use of an incomplete type definition", Name);
end if;
when others =>
Error_Msg_Sem
("type expected, found " & Disp_Node (Res), Name);
return Null_Iir;
end case;
when Decl_Nature =>
case Get_Kind (Res) is
when Iir_Kind_Nature_Declaration =>
Res := Get_Nature (Res);
when others =>
Error_Msg_Sem
("nature expected, found " & Disp_Node (Res), Name);
return Null_Iir;
end case;
when Decl_Terminal =>
Res := Check_Kind (Res, Iir_Kind_Terminal_Declaration, "terminal");
when Decl_Component =>
Res := Check_Kind (Res, Iir_Kind_Component_Declaration,
"component");
when Decl_Unit =>
null;
when Decl_Label =>
null;
when Decl_Entity =>
Res := Check_Kind_Unit
(Res, Iir_Kind_Entity_Declaration, "entity");
when Decl_Configuration =>
Res := Check_Kind_Unit (Res, Iir_Kind_Configuration_Declaration,
"configuration");
when Decl_Group_Template =>
Res := Check_Kind (Res, Iir_Kind_Group_Template_Declaration,
"group template");
when Decl_Attribute =>
Res := Check_Kind (Res, Iir_Kind_Attribute_Declaration,
"attribute");
end case;
return Res;
end Find_Declaration;
end Sem_Names;
|