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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 Errorout; use Errorout;
with Types; use Types;
with Flags; use Flags;
with Vhdl.Sem_Specs; use Vhdl.Sem_Specs;
with Vhdl.Std_Package; use Vhdl.Std_Package;
with Vhdl.Sem; use Vhdl.Sem;
with Vhdl.Sem_Decls; use Vhdl.Sem_Decls;
with Vhdl.Sem_Expr; use Vhdl.Sem_Expr;
with Vhdl.Sem_Names; use Vhdl.Sem_Names;
with Vhdl.Sem_Scopes; use Vhdl.Sem_Scopes;
with Vhdl.Sem_Types;
with Vhdl.Sem_Psl;
with Std_Names;
with Vhdl.Evaluation; use Vhdl.Evaluation;
with Vhdl.Utils; use Vhdl.Utils;
with Vhdl.Xrefs; use Vhdl.Xrefs;
package body Vhdl.Sem_Stmts is
-- Process is the scope, this is also the process for which drivers can
-- be created.
-- Note: FIRST_STMT is the first statement, which can be get by:
-- get_sequential_statement_chain (usual)
-- get_associated_chain (for case statement).
procedure Sem_Sequential_Statements_Internal (First_Stmt : Iir);
-- Access to the current subprogram or process.
Current_Subprogram: Iir := Null_Iir;
function Get_Current_Subprogram return Iir is
begin
return Current_Subprogram;
end Get_Current_Subprogram;
-- Access to the current concurrent statement.
-- Null_iir if no one.
Current_Concurrent_Statement : Iir := Null_Iir;
function Get_Current_Concurrent_Statement return Iir is
begin
return Current_Concurrent_Statement;
end Get_Current_Concurrent_Statement;
-- LRM 8 Sequential statements.
-- All statements may be labeled.
-- Such labels are implicitly declared at the beginning of the declarative
-- part of the innermost enclosing process statement of subprogram body.
procedure Sem_Sequential_Labels (First_Stmt : Iir)
is
Stmt: Iir;
Label: Name_Id;
begin
Stmt := First_Stmt;
while Stmt /= Null_Iir loop
Label := Get_Label (Stmt);
if Label /= Null_Identifier then
Sem_Scopes.Add_Name (Stmt);
Name_Visible (Stmt);
Xref_Decl (Stmt);
end if;
-- Some statements have sub-lists of statements.
case Get_Kind (Stmt) is
when Iir_Kind_For_Loop_Statement
| Iir_Kind_While_Loop_Statement =>
Sem_Sequential_Labels (Get_Sequential_Statement_Chain (Stmt));
when Iir_Kind_If_Statement =>
declare
Clause : Iir;
begin
Clause := Stmt;
while Clause /= Null_Iir loop
Sem_Sequential_Labels
(Get_Sequential_Statement_Chain (Clause));
Clause := Get_Else_Clause (Clause);
end loop;
end;
when Iir_Kind_Case_Statement =>
declare
El : Iir;
begin
El := Get_Case_Statement_Alternative_Chain (Stmt);
while El /= Null_Iir loop
Sem_Sequential_Labels (Get_Associated_Chain (El));
El := Get_Chain (El);
end loop;
end;
when others =>
null;
end case;
Stmt := Get_Chain (Stmt);
end loop;
end Sem_Sequential_Labels;
procedure Fill_Array_From_Aggregate_Associated
(Chain : Iir; Nbr : in out Natural; Arr : in out Iir_Array)
is
El : Iir;
Ass : Iir;
begin
El := Chain;
while El /= Null_Iir loop
Ass := Get_Associated_Expr (El);
if Get_Kind (Ass) = Iir_Kind_Aggregate then
Fill_Array_From_Aggregate_Associated
(Get_Association_Choices_Chain (Ass), Nbr, Arr);
else
Arr (Nbr) := Ass;
Nbr := Nbr + 1;
end if;
El := Get_Chain (El);
end loop;
end Fill_Array_From_Aggregate_Associated;
-- Return TRUE iff there is no common elements designed by N1 and N2.
-- N1 and N2 are static names.
-- FIXME: The current implementation is completly wrong; should check from
-- prefix to suffix.
function Is_Disjoint (N1, N2: Iir) return Boolean
is
List1, List2 : Iir_Flist;
El1, El2 : Iir;
begin
if N1 = N2 then
return False;
end if;
if Get_Kind (N1) = Iir_Kind_Indexed_Name
and then Get_Kind (N2) = Iir_Kind_Indexed_Name
then
if Is_Disjoint (Get_Prefix (N1), Get_Prefix (N2)) then
return True;
end if;
-- Check indexes.
List1 := Get_Index_List (N1);
List2 := Get_Index_List (N2);
for I in Flist_First .. Flist_Last (List1) loop
El1 := Get_Nth_Element (List1, I);
El2 := Get_Nth_Element (List2, I);
El1 := Eval_Expr (El1);
Set_Nth_Element (List1, I, El1);
El2 := Eval_Expr (El2);
Set_Nth_Element (List2, I, El2);
-- EL are of discrete type.
if Get_Value (El1) /= Get_Value (El2) then
return True;
end if;
end loop;
return False;
elsif Get_Kind (N1) in Iir_Kinds_Denoting_Name
and then Get_Kind (N2) in Iir_Kinds_Denoting_Name
then
return Get_Named_Entity (N1) /= Get_Named_Entity (N2);
else
return True;
end if;
end Is_Disjoint;
procedure Check_Uniq_Aggregate_Associated
(Aggr : Iir_Aggregate; Nbr : Natural)
is
Chain : constant Iir := Get_Association_Choices_Chain (Aggr);
subtype El_Array_Type is Iir_Array (0 .. Nbr - 1);
Name_Arr, Obj_Arr : El_Array_Type;
Index : Natural;
El : Iir;
begin
-- Fill the array.
Index := 0;
Fill_Array_From_Aggregate_Associated (Chain, Index, Name_Arr);
-- Should be the same.
pragma Assert (Index = Nbr);
-- Replace name with object. Return now in case of error (not an
-- object or not a static name).
for I in Name_Arr'Range loop
El := Name_To_Object (Name_Arr (I));
if El = Null_Iir
or else Get_Name_Staticness (El) /= Locally
then
-- Error...
return;
end if;
Obj_Arr (I) := El;
end loop;
-- Check each element is uniq.
for I in Name_Arr'Range loop
for J in 0 .. I - 1 loop
if not Is_Disjoint (Obj_Arr (I), Obj_Arr (J)) then
Error_Msg_Sem
(+Name_Arr (I), "target is assigned more than once",
Cont => True);
Error_Msg_Sem
(+Name_Arr (J), " (previous assignment is here)");
return;
end if;
end loop;
end loop;
end Check_Uniq_Aggregate_Associated;
-- Do checks for the target of an assignment.
procedure Check_Simple_Signal_Target
(Stmt : Iir; Target : Iir; Staticness : Iir_Staticness);
-- STMT is used to localize the error (if any).
procedure Check_Simple_Variable_Target
(Stmt : Iir; Target : Iir; Staticness : Iir_Staticness);
-- Semantic associed with signal mode.
-- See LRM93 4.3.3 (or LRM08 6.5.2)
type Boolean_Array_Of_Iir_Mode is array (Iir_Mode) of Boolean;
Iir_Mode_Readable : constant Boolean_Array_Of_Iir_Mode :=
(Iir_Unknown_Mode => False,
Iir_In_Mode => True,
Iir_Out_Mode => False,
Iir_Inout_Mode => True,
Iir_Buffer_Mode => True,
Iir_Linkage_Mode => False);
Iir_Mode_Writable : constant Boolean_Array_Of_Iir_Mode :=
(Iir_Unknown_Mode => False,
Iir_In_Mode => False,
Iir_Out_Mode => True,
Iir_Inout_Mode => True,
Iir_Buffer_Mode => True,
Iir_Linkage_Mode => False);
-- Return True iff signal interface INTER is readable.
function Is_Interface_Signal_Readable (Inter : Iir) return Boolean
is
pragma Assert (Get_Kind (Inter) = Iir_Kind_Interface_Signal_Declaration);
Mode : constant Iir_Mode := Get_Mode (Inter);
begin
if Mode = Iir_Out_Mode and then Flags.Vhdl_Std >= Vhdl_08 then
-- LRM08 6.5.2 Interface object declarations
-- OUT. The value of the inerface object is allowed [...] and
-- provided it is not a signal parameter, read.
return not Is_Parameter (Inter);
else
return Iir_Mode_Readable (Mode);
end if;
end Is_Interface_Signal_Readable;
procedure Check_Aggregate_Target
(Stmt : Iir; Target : Iir; Nbr : in out Natural)
is
Choice : Iir;
Ass : Iir;
begin
Choice := Get_Association_Choices_Chain (Target);
while Choice /= Null_Iir loop
case Get_Kind (Choice) is
when Iir_Kind_Choice_By_Range =>
-- LRM93 8.4
-- It is an error if an element association in such an
-- aggregate contains an OTHERS choice or a choice that is
-- a discrete range.
Error_Msg_Sem
(+Choice, "discrete range choice not allowed for target");
when Iir_Kind_Choice_By_Others =>
-- LRM93 8.4
-- It is an error if an element association in such an
-- aggregate contains an OTHERS choice or a choice that is
-- a discrete range.
Error_Msg_Sem
(+Choice, "others choice not allowed for target");
when Iir_Kind_Choice_By_Expression
| Iir_Kind_Choice_By_Name
| Iir_Kind_Choice_By_None =>
-- LRM93 9.4
-- Such a target may not only contain locally static signal
-- names [...]
Ass := Get_Associated_Expr (Choice);
if Get_Kind (Ass) = Iir_Kind_Aggregate then
Check_Aggregate_Target (Stmt, Ass, Nbr);
else
if Get_Kind (Stmt) in
Iir_Kinds_Variable_Assignment_Statement
then
Check_Simple_Variable_Target (Stmt, Ass, Locally);
else
Check_Simple_Signal_Target (Stmt, Ass, Locally);
end if;
Nbr := Nbr + 1;
end if;
when others =>
Error_Kind ("check_aggregate_target", Choice);
end case;
Choice := Get_Chain (Choice);
end loop;
end Check_Aggregate_Target;
procedure Check_Simple_Signal_Target
(Stmt : Iir; Target : Iir; Staticness : Iir_Staticness)
is
Target_Object : Iir;
Target_Prefix : Iir;
Guarded_Target : Tri_State_Type;
Targ_Obj_Kind : Iir_Kind;
begin
Target_Object := Name_To_Object (Target);
if Target_Object = Null_Iir then
Error_Msg_Sem (+Target, "target is not a signal name");
return;
end if;
Target_Prefix := Get_Object_Prefix (Target_Object);
Targ_Obj_Kind := Get_Kind (Target_Prefix);
case Targ_Obj_Kind is
when Iir_Kind_Interface_Signal_Declaration =>
if not Iir_Mode_Writable (Get_Mode (Target_Prefix)) then
Error_Msg_Sem
(+Target, "%n can't be assigned", +Target_Prefix);
else
Sem_Add_Driver (Target_Object, Stmt);
end if;
when Iir_Kind_Signal_Declaration =>
Sem_Add_Driver (Target_Object, Stmt);
when Iir_Kind_Guard_Signal_Declaration =>
Error_Msg_Sem (+Stmt, "implicit GUARD signal cannot be assigned");
return;
when others =>
Error_Msg_Sem
(+Stmt, "target (%n) is not a signal", +Get_Base_Name (Target));
return;
end case;
if Get_Name_Staticness (Target_Object) < Staticness then
Error_Msg_Sem (+Stmt, "signal name must be static");
end if;
-- LRM93 2.1.1.2
-- A formal signal parameter is a guarded signal if and only if
-- it is associated with an actual signal that is a guarded
-- signal.
-- GHDL: a formal signal interface of a subprogram has no static
-- kind. This is determined at run-time, according to the actual
-- associated with the formal.
-- GHDL: parent of target cannot be a function.
if Targ_Obj_Kind = Iir_Kind_Interface_Signal_Declaration
and then Is_Parameter (Target_Prefix)
then
Guarded_Target := Unknown;
else
if Get_Guarded_Signal_Flag (Target_Prefix) then
Guarded_Target := True;
else
Guarded_Target := False;
end if;
end if;
case Get_Guarded_Target_State (Stmt) is
when Unknown =>
Set_Guarded_Target_State (Stmt, Guarded_Target);
when True
| False =>
if Get_Guarded_Target_State (Stmt) /= Guarded_Target then
-- LRM93 9.5
-- It is an error if the target of a concurrent signal
-- assignment is neither a guarded target nor an
-- unguarded target.
Error_Msg_Sem (+Target, "guarded and unguarded target");
end if;
end case;
end Check_Simple_Signal_Target;
procedure Check_Simple_Variable_Target
(Stmt : Iir; Target : Iir; Staticness : Iir_Staticness)
is
Target_Object : Iir;
Target_Prefix : Iir;
begin
Target_Object := Name_To_Object (Target);
if Target_Object = Null_Iir then
Error_Msg_Sem (+Stmt, "target is not a variable name");
return;
end if;
Target_Prefix := Get_Object_Prefix (Target_Object);
case Get_Kind (Target_Prefix) is
when Iir_Kind_Interface_Variable_Declaration =>
if not Iir_Mode_Writable (Get_Mode (Target_Prefix)) then
Error_Msg_Sem (+Target, "%n cannot be written (bad mode)",
+Target_Prefix);
return;
end if;
when Iir_Kind_Variable_Declaration =>
null;
when Iir_Kind_Implicit_Dereference
| Iir_Kind_Dereference =>
-- LRM 3.3
-- An object designated by an access type is always an object of
-- class variable.
null;
when others =>
Error_Msg_Sem (+Stmt, "%n is not a variable to be assigned",
+Target_Prefix);
return;
end case;
if Get_Name_Staticness (Target_Object) < Staticness then
Error_Msg_Sem
(+Target, "element of a target aggregate must be a static name");
end if;
end Check_Simple_Variable_Target;
procedure Check_Target (Stmt : Iir; Target : Iir)
is
Nbr : Natural;
begin
if Get_Kind (Target) = Iir_Kind_Aggregate then
Nbr := 0;
Check_Aggregate_Target (Stmt, Target, Nbr);
Check_Uniq_Aggregate_Associated (Target, Nbr);
else
case Get_Kind (Stmt) is
when Iir_Kind_Variable_Assignment_Statement
| Iir_Kind_Conditional_Variable_Assignment_Statement =>
Check_Simple_Variable_Target (Stmt, Target, None);
when others =>
Check_Simple_Signal_Target (Stmt, Target, None);
end case;
end if;
end Check_Target;
type Resolve_Stages is (Resolve_Stage_1, Resolve_Stage_2);
pragma Unreferenced (Resolve_Stage_2);
procedure Sem_Signal_Assignment_Target_And_Option
(Stmt: Iir; Sig_Type : in out Iir)
is
-- The target of the assignment.
Target: Iir;
-- The value that will be assigned.
Expr: Iir;
begin
Target := Get_Target (Stmt);
Target := Sem_Expression_Wildcard (Target, Get_Base_Type (Sig_Type));
if Target /= Null_Iir then
Set_Target (Stmt, Target);
if Is_Expr_Fully_Analyzed (Target) then
Check_Target (Stmt, Target);
Sig_Type := Get_Type (Target);
Sem_Types.Set_Type_Has_Signal (Sig_Type);
end if;
end if;
Expr := Get_Reject_Time_Expression (Stmt);
if Expr /= Null_Iir
and then Is_Expr_Not_Analyzed (Expr)
then
Expr := Sem_Expression (Expr, Time_Type_Definition);
if Expr /= Null_Iir then
Check_Read (Expr);
Set_Reject_Time_Expression (Stmt, Expr);
end if;
end if;
end Sem_Signal_Assignment_Target_And_Option;
-- Analyze a waveform_list WAVEFORM_LIST that is assigned via statement
-- ASSIGN_STMT to a subelement or a slice of a signal SIGNAL_DECL.
procedure Sem_Waveform_Chain (Waveform_Chain : Iir_Waveform_Element;
Waveform_Type : in out Iir)
is
Expr: Iir;
We: Iir_Waveform_Element;
Time, Last_Time : Iir_Int64;
begin
if Get_Kind (Waveform_Chain) = Iir_Kind_Unaffected_Waveform then
-- Unaffected.
return;
end if;
-- Start with -1 to allow after 0 ns.
Last_Time := -1;
We := Waveform_Chain;
while We /= Null_Iir loop
Expr := Get_We_Value (We);
if Get_Kind (Expr) = Iir_Kind_Null_Literal then
-- GHDL: allowed only if target is guarded; this is checked by
-- sem_check_waveform_list.
null;
else
Expr := Sem_Expression_Wildcard (Expr, Waveform_Type, True);
if Expr /= Null_Iir then
if Is_Expr_Fully_Analyzed (Expr) then
Check_Read (Expr);
Expr := Eval_Expr_If_Static (Expr);
end if;
Set_We_Value (We, Expr);
Merge_Wildcard_Type (Expr, Waveform_Type);
else
Expr := Get_We_Value (We);
Expr := Create_Error_Expr (Expr, Waveform_Type);
Set_We_Value (We, Expr);
end if;
end if;
-- Analyze time expression.
if Get_Time (We) /= Null_Iir then
Expr := Get_Time (We);
if Is_Expr_Not_Analyzed (Expr) then
Expr := Sem_Expression (Expr, Time_Type_Definition);
if Expr /= Null_Iir then
Set_Time (We, Expr);
Check_Read (Expr);
if Get_Expr_Staticness (Expr) = Locally
or else (Get_Kind (Expr) = Iir_Kind_Physical_Int_Literal
and then Flags.Flag_Time_64)
then
-- LRM 8.4
-- It is an error if the time expression in a waveform
-- element evaluates to a negative value.
--
-- LRM 8.4.1
-- It is an error if the sequence of new transactions is
-- not in ascending order with repect to time.
-- GHDL: this must be checked at run-time, but this is
-- also checked now for static expressions.
if Get_Expr_Staticness (Expr) = Locally then
-- The expression is static, and therefore may be
-- evaluated.
Expr := Eval_Expr (Expr);
Set_Time (We, Expr);
Time := Get_Value (Expr);
else
-- The expression is a physical literal (common case).
-- Extract its value.
Time := Get_Physical_Value (Expr);
end if;
if Time < 0 then
Error_Msg_Sem
(+Expr, "waveform time expression must be >= 0");
elsif Time <= Last_Time then
Error_Msg_Sem
(+Expr,
"time must be greather than previous transaction");
else
Last_Time := Time;
end if;
end if;
end if;
end if;
else
if We /= Waveform_Chain then
-- Time expression must be in ascending order.
Error_Msg_Sem (+We, "time expression required here");
end if;
-- LRM93 12.6.4
-- It is an error if the execution of any postponed process
-- causes a delta cycle to occur immediatly after the current
-- simulation cycle.
-- GHDL: try to warn for such an error; note the context may be
-- a procedure body.
if Current_Concurrent_Statement /= Null_Iir then
case Get_Kind (Current_Concurrent_Statement) is
when Iir_Kind_Sensitized_Process_Statement
| Iir_Kind_Process_Statement
| Iir_Kind_Concurrent_Conditional_Signal_Assignment
| Iir_Kind_Concurrent_Selected_Signal_Assignment =>
if Get_Postponed_Flag (Current_Concurrent_Statement) then
Warning_Msg_Sem
(Warnid_Delta_Cycle, +We,
"waveform may cause a delta cycle in a " &
"postponed process");
end if;
when others =>
-- Context is a subprogram.
null;
end case;
end if;
Last_Time := 0;
end if;
We := Get_Chain (We);
end loop;
end Sem_Waveform_Chain;
-- Analyze a waveform chain WAVEFORM_CHAIN that is assigned via statement
-- ASSIGN_STMT to a subelement or a slice of a signal SIGNAL_DECL.
procedure Sem_Check_Waveform_Chain
(Assign_Stmt: Iir; Waveform_Chain: Iir_Waveform_Element)
is
We: Iir_Waveform_Element;
Expr : Iir;
Targ_Type : Iir;
begin
if Get_Kind (Waveform_Chain) = Iir_Kind_Unaffected_Waveform then
return;
end if;
Targ_Type := Get_Type (Get_Target (Assign_Stmt));
We := Waveform_Chain;
while We /= Null_Iir loop
Expr := Get_We_Value (We);
if Get_Kind (Expr) = Iir_Kind_Null_Literal then
-- This is a null waveform element.
-- LRM93 8.4.1
-- It is an error if the target of a signal assignment statement
-- containing a null waveform is not a guarded signal or an
-- aggregate of guarded signals.
if Get_Guarded_Target_State (Assign_Stmt) = False then
Error_Msg_Sem
(+Assign_Stmt,
"null transactions can be assigned only to guarded signals");
end if;
else
if Is_Valid (Get_Type (Expr))
and then not Eval_Is_In_Bound (Expr, Targ_Type)
and then Get_Kind (Expr) /= Iir_Kind_Overflow_Literal
then
Warning_Msg_Sem
(Warnid_Runtime_Error, +We,
"value constraints don't match target ones");
Set_We_Value (We, Build_Overflow (Expr, Targ_Type));
end if;
end if;
We := Get_Chain (We);
end loop;
end Sem_Check_Waveform_Chain;
procedure Sem_Guard (Stmt: Iir)
is
Guard: Iir;
Guard_Interpretation : Name_Interpretation_Type;
begin
Guard := Get_Guard (Stmt);
if Guard = Null_Iir then
-- This assignment is not guarded.
-- LRM93 9.5
-- It is an error if a concurrent signal assignment is not a guarded
-- assignment, and the target of the concurrent signal assignment
-- is a guarded target.
if Get_Guarded_Target_State (Stmt) = True then
Error_Msg_Sem
(+Stmt, "not a guarded assignment for a guarded target");
end if;
return;
end if;
if Guard /= Stmt then
-- if set, guard must be equal to stmt here.
raise Internal_Error;
end if;
Guard_Interpretation := Get_Interpretation (Std_Names.Name_Guard);
if not Valid_Interpretation (Guard_Interpretation) then
Error_Msg_Sem (+Stmt, "no guard signals for this guarded assignment");
return;
end if;
Guard := Get_Declaration (Guard_Interpretation);
-- LRM93 9.5:
-- The signal GUARD [...] an explicitly declared signal of type
-- BOOLEAN that is visible at the point of the concurrent signal
-- assignment statement
-- FIXME.
case Get_Kind (Guard) is
when Iir_Kind_Signal_Declaration
| Iir_Kind_Interface_Signal_Declaration
| Iir_Kind_Guard_Signal_Declaration =>
null;
when others =>
Error_Msg_Sem (+Stmt, "visible GUARD object is not a signal",
Cont => True);
Error_Msg_Sem (+Stmt, "GUARD object is %n", +Guard);
return;
end case;
if Get_Type (Guard) /= Boolean_Type_Definition then
Error_Msg_Sem (+Guard, "GUARD is not of boolean type");
end if;
Set_Guard (Stmt, Guard);
end Sem_Guard;
procedure Sem_Signal_Assignment (Stmt: Iir)
is
Cond_Wf : Iir_Conditional_Waveform;
Expr : Iir;
Wf_Chain : Iir_Waveform_Element;
Target_Type : Iir;
Done : Boolean;
begin
Target_Type := Wildcard_Any_Type;
Done := False;
for S in Resolve_Stages loop
Sem_Signal_Assignment_Target_And_Option (Stmt, Target_Type);
if Is_Defined_Type (Target_Type) then
Done := True;
end if;
case Get_Kind (Stmt) is
when Iir_Kind_Concurrent_Simple_Signal_Assignment
| Iir_Kind_Simple_Signal_Assignment_Statement =>
Wf_Chain := Get_Waveform_Chain (Stmt);
Sem_Waveform_Chain (Wf_Chain, Target_Type);
if Done then
Sem_Check_Waveform_Chain (Stmt, Wf_Chain);
end if;
when Iir_Kind_Concurrent_Conditional_Signal_Assignment
| Iir_Kind_Conditional_Signal_Assignment_Statement =>
Cond_Wf := Get_Conditional_Waveform_Chain (Stmt);
while Cond_Wf /= Null_Iir loop
Wf_Chain := Get_Waveform_Chain (Cond_Wf);
Sem_Waveform_Chain (Wf_Chain, Target_Type);
if Done then
Sem_Check_Waveform_Chain (Stmt, Wf_Chain);
end if;
if S = Resolve_Stage_1 then
-- Must be analyzed only once.
Expr := Get_Condition (Cond_Wf);
if Expr /= Null_Iir then
Expr := Sem_Condition (Expr);
if Expr /= Null_Iir then
Set_Condition (Cond_Wf, Expr);
end if;
end if;
end if;
Cond_Wf := Get_Chain (Cond_Wf);
end loop;
when Iir_Kind_Concurrent_Selected_Signal_Assignment =>
declare
El : Iir;
begin
El := Get_Selected_Waveform_Chain (Stmt);
while El /= Null_Iir loop
Wf_Chain := Get_Associated_Chain (El);
if Is_Valid (Wf_Chain) then
-- The first choice of a list.
Sem_Waveform_Chain (Wf_Chain, Target_Type);
if Done then
Sem_Check_Waveform_Chain (Stmt, Wf_Chain);
end if;
end if;
El := Get_Chain (El);
end loop;
end;
when others =>
raise Internal_Error;
end case;
exit when Done;
if not Is_Defined_Type (Target_Type) then
Error_Msg_Sem (+Stmt, "cannot resolve type of waveform");
exit;
end if;
end loop;
case Get_Kind (Stmt) is
when Iir_Kind_Concurrent_Simple_Signal_Assignment
| Iir_Kind_Concurrent_Conditional_Signal_Assignment =>
Sem_Guard (Stmt);
when others =>
null;
end case;
end Sem_Signal_Assignment;
procedure Sem_Conditional_Expression (Cond_Expr : Iir; Atype : in out Iir)
is
El : Iir;
Expr : Iir;
Cond : Iir;
begin
El := Cond_Expr;
while El /= Null_Iir loop
Expr := Get_Expression (El);
Expr := Sem_Expression_Wildcard (Expr, Atype, True);
if Expr /= Null_Iir then
Set_Expression (El, Expr);
if Is_Expr_Fully_Analyzed (Expr) then
Check_Read (Expr);
Expr := Eval_Expr_If_Static (Expr);
end if;
Merge_Wildcard_Type (Expr, Atype);
end if;
Cond := Get_Condition (El);
exit when Cond = Null_Iir;
if Is_Expr_Not_Analyzed (Cond) then
Cond := Sem_Condition (Cond);
Set_Condition (El, Cond);
end if;
El := Get_Chain (El);
end loop;
end Sem_Conditional_Expression;
procedure Sem_Variable_Assignment (Stmt: Iir)
is
Target : Iir;
Expr : Iir;
Target_Type : Iir;
Stmt_Type : Iir;
Done : Boolean;
begin
-- LRM93 8.5 Variable assignment statement
-- If the target of the variable assignment statement is in the form of
-- an aggregate, then the type of the aggregate must be determinable
-- from the context, excluding the aggregate itself but including the
-- fact that the type of the aggregate must be a composite type. The
-- base type of the expression on the right-hand side must be the
-- same as the base type of the aggregate.
--
-- GHDL: this means that the type can only be deduced from the
-- expression (and not from the target).
Target := Get_Target (Stmt);
Stmt_Type := Wildcard_Any_Type;
for S in Resolve_Stages loop
Done := False;
Target := Sem_Expression_Wildcard (Target, Stmt_Type);
if Target = Null_Iir then
Target_Type := Stmt_Type;
else
Set_Target (Stmt, Target);
if Is_Expr_Fully_Analyzed (Target) then
Check_Target (Stmt, Target);
Done := True;
end if;
Target_Type := Get_Type (Target);
Stmt_Type := Target_Type;
end if;
case Iir_Kinds_Variable_Assignment_Statement (Get_Kind (Stmt)) is
when Iir_Kind_Variable_Assignment_Statement =>
Expr := Get_Expression (Stmt);
Expr := Sem_Expression_Wildcard (Expr, Stmt_Type, True);
if Expr /= Null_Iir then
if Is_Expr_Fully_Analyzed (Expr) then
Check_Read (Expr);
Expr := Eval_Expr_If_Static (Expr);
end if;
Set_Expression (Stmt, Expr);
Merge_Wildcard_Type (Expr, Stmt_Type);
if Done
and then not Eval_Is_In_Bound (Expr, Target_Type)
and then Get_Kind (Expr) /= Iir_Kind_Overflow_Literal
then
Warning_Msg_Sem
(Warnid_Runtime_Error, +Stmt,
"expression constraints don't match target ones");
Set_Expression (Stmt, Build_Overflow (Expr, Target_Type));
end if;
end if;
when Iir_Kind_Conditional_Variable_Assignment_Statement =>
Expr := Get_Conditional_Expression (Stmt);
Sem_Conditional_Expression (Expr, Stmt_Type);
end case;
exit when Done;
if not Is_Defined_Type (Stmt_Type) then
Error_Msg_Sem (+Stmt, "cannot resolve type");
if Get_Kind (Target) = Iir_Kind_Aggregate then
-- Try to give an advice.
Error_Msg_Sem (+Stmt, "use a qualified expression for the RHS");
end if;
exit;
end if;
end loop;
end Sem_Variable_Assignment;
procedure Sem_Return_Statement (Stmt: Iir_Return_Statement) is
Expr: Iir;
begin
if Current_Subprogram = Null_Iir then
Error_Msg_Sem (+Stmt, "return statement not in a subprogram body");
return;
end if;
Expr := Get_Expression (Stmt);
case Get_Kind (Current_Subprogram) is
when Iir_Kind_Procedure_Declaration =>
if Expr /= Null_Iir then
Error_Msg_Sem
(+Stmt, "return in a procedure can't have an expression");
end if;
return;
when Iir_Kind_Function_Declaration =>
if Expr = Null_Iir then
Error_Msg_Sem
(+Stmt, "return in a function must have an expression");
return;
end if;
when Iir_Kinds_Process_Statement =>
Error_Msg_Sem (+Stmt, "return statement not allowed in a process");
return;
when others =>
Error_Kind ("sem_return_statement", Stmt);
end case;
Set_Type (Stmt, Get_Return_Type (Current_Subprogram));
Expr := Sem_Expression (Expr, Get_Return_Type (Current_Subprogram));
if Expr /= Null_Iir then
Check_Read (Expr);
Set_Expression (Stmt, Eval_Expr_If_Static (Expr));
end if;
end Sem_Return_Statement;
-- Sem for concurrent and sequential assertion statements.
procedure Sem_Report_Statement (Stmt : Iir)
is
Expr : Iir;
begin
Expr := Get_Report_Expression (Stmt);
if Expr /= Null_Iir then
Expr := Sem_Expression (Expr, String_Type_Definition);
Check_Read (Expr);
Expr := Eval_Expr_If_Static (Expr);
Set_Report_Expression (Stmt, Expr);
end if;
Expr := Get_Severity_Expression (Stmt);
if Expr /= Null_Iir then
Expr := Sem_Expression (Expr, Severity_Level_Type_Definition);
Check_Read (Expr);
Set_Severity_Expression (Stmt, Expr);
end if;
end Sem_Report_Statement;
procedure Sem_Assertion_Statement (Stmt: Iir)
is
Expr : Iir;
begin
Expr := Get_Assertion_Condition (Stmt);
Expr := Sem_Condition (Expr);
Expr := Eval_Expr_If_Static (Expr);
Set_Assertion_Condition (Stmt, Expr);
Sem_Report_Statement (Stmt);
end Sem_Assertion_Statement;
-- Analyze a list of case choice LIST, and check for correct CHOICE type.
procedure Sem_Case_Choices
(Choice : Iir; Chain : in out Iir; Loc : Location_Type)
is
-- Check restrictions on the expression of a One-Dimensional Character
-- Array Type (ODCAT) given by LRM 8.8
-- Return FALSE in case of violation.
function Check_Odcat_Expression (Expr : Iir) return Boolean
is
Expr_Type : constant Iir := Get_Type (Expr);
begin
-- LRM 8.8 Case Statement
-- If the expression is of a one-dimensional character array type,
-- then the expression must be one of the following:
case Get_Kind (Expr) is
when Iir_Kinds_Object_Declaration
| Iir_Kind_Selected_Element =>
-- FIXME: complete the list.
-- * the name of an object whose subtype is locally static.
if Get_Type_Staticness (Expr_Type) /= Locally then
Error_Msg_Sem
(+Choice, "object subtype is not locally static");
return False;
end if;
when Iir_Kind_Indexed_Name =>
-- LRM93
-- * an indexed name whose prefix is one of the members of
-- this list and whose indexing expressions are locally
-- static expression.
if Flags.Vhdl_Std = Vhdl_87 then
Error_Msg_Sem
(+Expr, "indexed name not allowed here in vhdl87");
return False;
end if;
if not Check_Odcat_Expression (Get_Prefix (Expr)) then
return False;
end if;
-- GHDL: I don't understand why the indexing expressions
-- must be locally static. So I don't check this in 93c.
if Flags.Vhdl_Std /= Vhdl_93c
and then
(Get_Expr_Staticness
(Get_Nth_Element (Get_Index_List (Expr), 0)) /= Locally)
then
Error_Msg_Sem
(+Expr, "indexing expression must be locally static");
return False;
end if;
when Iir_Kind_Slice_Name =>
-- LRM93
-- * a slice name whose prefix is one of the members of this
-- list and whose discrete range is a locally static
-- discrete range.
-- LRM87/INT1991 IR96
-- then the expression must be either a slice name whose
-- discrete range is locally static, or ..
if False and Flags.Vhdl_Std = Vhdl_87 then
Error_Msg_Sem
(+Expr, "slice not allowed as case expression in vhdl87");
return False;
end if;
if not Check_Odcat_Expression (Get_Prefix (Expr)) then
return False;
end if;
if Get_Type_Staticness (Expr_Type) /= Locally then
Error_Msg_Sem
(+Expr, "slice discrete range must be locally static");
return False;
end if;
when Iir_Kind_Function_Call =>
-- LRM93
-- * a function call whose return type mark denotes a
-- locally static subtype.
if Flags.Vhdl_Std = Vhdl_87 then
Error_Msg_Sem
(+Expr, "function call not allowed here in vhdl87");
return False;
end if;
if Get_Type_Staticness (Expr_Type) /= Locally then
Error_Msg_Sem
(+Expr, "function call type is not locally static");
end if;
when Iir_Kind_Qualified_Expression
| Iir_Kind_Type_Conversion =>
-- * a qualified expression or type conversion whose type mark
-- denotes a locally static subtype.
if Get_Type_Staticness (Expr_Type) /= Locally then
Error_Msg_Sem
(+Expr, "type mark is not a locally static subtype");
return False;
end if;
when Iir_Kind_Simple_Name
| Iir_Kind_Selected_Name =>
return Check_Odcat_Expression (Get_Named_Entity (Expr));
when others =>
Error_Msg_Sem
(+Choice, "bad form of case expression (refer to LRM 8.8)");
return False;
end case;
return True;
end Check_Odcat_Expression;
Choice_Type : constant Iir := Get_Type (Choice);
Low, High : Iir;
El_Type : Iir;
begin
-- LRM 8.8 Case Statement
-- The expression must be of a discrete type, or of a one-dimensional
-- array type whose element base type is a character type.
case Get_Kind (Choice_Type) is
when Iir_Kinds_Discrete_Type_Definition =>
Sem_Choices_Range
(Chain, Choice_Type, Low, High, Loc, False, True);
when Iir_Kind_Array_Subtype_Definition
| Iir_Kind_Array_Type_Definition =>
if not Is_One_Dimensional_Array_Type (Choice_Type) then
Error_Msg_Sem
(+Choice,
"expression must be of a one-dimensional array type");
return;
end if;
El_Type := Get_Base_Type (Get_Element_Subtype (Choice_Type));
if Get_Kind (El_Type) /= Iir_Kind_Enumeration_Type_Definition
or else not Get_Is_Character_Type (El_Type)
then
Error_Msg_Sem
(+Choice,
"element type of the expression must be a character type");
return;
end if;
if Flags.Vhdl_Std >= Vhdl_08 then
-- No specific restrictions in vhdl 2008.
null;
else
if not Check_Odcat_Expression (Choice) then
return;
end if;
end if;
Sem_String_Choices_Range (Chain, Choice);
when others =>
Error_Msg_Sem (+Choice, "type of expression must be discrete");
end case;
end Sem_Case_Choices;
procedure Sem_Case_Statement (Stmt: Iir_Case_Statement)
is
Expr: Iir;
Chain : Iir;
El: Iir;
begin
Expr := Get_Expression (Stmt);
Chain := Get_Case_Statement_Alternative_Chain (Stmt);
-- FIXME: overload.
Expr := Sem_Case_Expression (Expr);
if Expr /= Null_Iir then
Check_Read (Expr);
Set_Expression (Stmt, Expr);
Sem_Case_Choices (Expr, Chain, Get_Location (Stmt));
Set_Case_Statement_Alternative_Chain (Stmt, Chain);
end if;
El := Chain;
while El /= Null_Iir loop
if not Get_Same_Alternative_Flag (El) then
Sem_Sequential_Statements_Internal (Get_Associated_Chain (El));
end if;
El := Get_Chain (El);
end loop;
end Sem_Case_Statement;
-- Sem the sensitivity list LIST.
procedure Sem_Sensitivity_List (List: Iir_List)
is
El: Iir;
It : List_Iterator;
Res: Iir;
Prefix : Iir;
begin
if List = Iir_List_All then
return;
end if;
It := List_Iterate (List);
while Is_Valid (It) loop
-- El is an iir_identifier.
El := Get_Element (It);
if Is_Error (El) then
pragma Assert (Flags.Flag_Force_Analysis);
Res := Error_Mark;
else
Sem_Name (El);
Res := Get_Named_Entity (El);
end if;
if Res = Error_Mark then
null;
elsif Is_Overload_List (Res) or else not Is_Object_Name (Res) then
Error_Msg_Sem (+El, "a sensitivity element must be a signal name");
else
Res := Finish_Sem_Name (El);
Prefix := Get_Object_Prefix (Res);
case Get_Kind (Prefix) is
when Iir_Kind_Signal_Declaration
| Iir_Kind_Guard_Signal_Declaration
| Iir_Kinds_Signal_Attribute =>
null;
when Iir_Kind_Interface_Signal_Declaration =>
if not Is_Interface_Signal_Readable (Prefix) then
Error_Msg_Sem
(+El,
"%n of mode out can't be in a sensivity list", +Res);
end if;
when others =>
Error_Msg_Sem (+El,
"%n is neither a signal nor a port", +Res);
end case;
-- LRM 9.2
-- Only static signal names (see section 6.1) for which reading
-- is permitted may appear in the sensitivity list of a process
-- statement.
-- LRM 8.1 Wait statement
-- Each signal name in the sensitivity list must be a static
-- signal name, and each name must denote a signal for which
-- reading is permitted.
if Get_Name_Staticness (Res) < Globally then
Error_Msg_Sem
(+El, "sensitivity element %n must be a static name", +Res);
end if;
Set_Element (It, Res);
end if;
Next (It);
end loop;
end Sem_Sensitivity_List;
-- Mark STMT and its parents as suspendable.
procedure Mark_Suspendable (Stmt : Iir)
is
Parent : Iir;
begin
Parent := Get_Parent (Stmt);
loop
case Get_Kind (Parent) is
when Iir_Kind_Function_Body
| Iir_Kind_Sensitized_Process_Statement =>
exit;
when Iir_Kind_Process_Statement
| Iir_Kind_Procedure_Body =>
Set_Suspend_Flag (Parent, True);
exit;
when Iir_Kind_If_Statement
| Iir_Kind_While_Loop_Statement
| Iir_Kind_For_Loop_Statement
| Iir_Kind_Case_Statement =>
Set_Suspend_Flag (Parent, True);
Parent := Get_Parent (Parent);
when others =>
Error_Kind ("mark_suspendable", Parent);
end case;
end loop;
end Mark_Suspendable;
procedure Sem_Wait_Statement (Stmt: Iir_Wait_Statement)
is
Expr: Iir;
Sensitivity_List : Iir_List;
begin
-- Check validity.
case Get_Kind (Current_Subprogram) is
when Iir_Kind_Process_Statement =>
null;
when Iir_Kind_Function_Declaration =>
-- LRM93 8.2
-- It is an error if a wait statement appears in a function
-- subprogram [...]
Error_Msg_Sem
(+Stmt, "wait statement not allowed in a function subprogram");
return;
when Iir_Kind_Procedure_Declaration =>
-- LRM93 8.2
-- [It is an error ...] or in a procedure that has a parent that
-- is a function subprogram.
-- LRM93 8.2
-- [...] or in a procedure that has a parent that is such a
-- process statement.
-- GHDL: this is checked at the end of analysis or during
-- elaboration.
Set_Wait_State (Current_Subprogram, True);
when Iir_Kind_Sensitized_Process_Statement =>
-- LRM93 8.2
-- Furthermore, it is an error if a wait statement appears in an
-- explicit process statement that includes a sensitivity list,
-- [...]
Error_Msg_Sem
(+Stmt, "wait statement not allowed in a sensitized process");
return;
when others =>
raise Internal_Error;
end case;
Sensitivity_List := Get_Sensitivity_List (Stmt);
if Sensitivity_List /= Null_Iir_List then
Sem_Sensitivity_List (Sensitivity_List);
end if;
Expr := Get_Condition_Clause (Stmt);
if Expr /= Null_Iir then
Expr := Sem_Condition (Expr);
Set_Condition_Clause (Stmt, Expr);
end if;
Expr := Get_Timeout_Clause (Stmt);
if Expr /= Null_Iir then
Expr := Sem_Expression (Expr, Time_Type_Definition);
if Expr /= Null_Iir then
Check_Read (Expr);
Expr := Eval_Expr_If_Static (Expr);
Set_Timeout_Clause (Stmt, Expr);
if Get_Expr_Staticness (Expr) = Locally
and then Get_Value (Expr) < 0
then
Error_Msg_Sem (+Stmt, "timeout value must be positive");
end if;
end if;
end if;
Mark_Suspendable (Stmt);
end Sem_Wait_Statement;
procedure Sem_Exit_Next_Statement (Stmt : Iir)
is
Cond: Iir;
Loop_Label : Iir;
Loop_Stmt: Iir;
P : Iir;
begin
Cond := Get_Condition (Stmt);
if Cond /= Null_Iir then
Cond := Sem_Condition (Cond);
Set_Condition (Stmt, Cond);
end if;
Loop_Label := Get_Loop_Label (Stmt);
if Loop_Label /= Null_Iir then
Loop_Label := Sem_Denoting_Name (Loop_Label);
Set_Loop_Label (Stmt, Loop_Label);
Loop_Stmt := Get_Named_Entity (Loop_Label);
case Get_Kind (Loop_Stmt) is
when Iir_Kind_For_Loop_Statement
| Iir_Kind_While_Loop_Statement =>
null;
when others =>
Error_Class_Match (Loop_Label, "loop statement");
Loop_Stmt := Null_Iir;
end case;
else
Loop_Stmt := Null_Iir;
end if;
-- Check the current statement is inside the labeled loop.
P := Stmt;
loop
P := Get_Parent (P);
case Get_Kind (P) is
when Iir_Kind_While_Loop_Statement
| Iir_Kind_For_Loop_Statement =>
if Loop_Stmt = Null_Iir or else P = Loop_Stmt then
exit;
end if;
when Iir_Kind_If_Statement
| Iir_Kind_Elsif
| Iir_Kind_Case_Statement =>
null;
when others =>
-- FIXME: should emit a message for label mismatch.
Error_Msg_Sem (+Stmt, "exit/next must be inside a loop");
exit;
end case;
end loop;
end Sem_Exit_Next_Statement;
-- Process is the scope, this is also the process for which drivers can
-- be created.
procedure Sem_Sequential_Statements_Internal (First_Stmt : Iir)
is
Stmt: Iir;
begin
Stmt := First_Stmt;
while Stmt /= Null_Iir loop
case Get_Kind (Stmt) is
when Iir_Kind_Null_Statement =>
null;
when Iir_Kind_If_Statement =>
declare
Clause: Iir := Stmt;
Cond: Iir;
begin
while Clause /= Null_Iir loop
Cond := Get_Condition (Clause);
if Cond /= Null_Iir then
Cond := Sem_Condition (Cond);
Set_Condition (Clause, Cond);
end if;
Sem_Sequential_Statements_Internal
(Get_Sequential_Statement_Chain (Clause));
Clause := Get_Else_Clause (Clause);
end loop;
end;
when Iir_Kind_For_Loop_Statement =>
declare
Iterator : constant Iir :=
Get_Parameter_Specification (Stmt);
begin
-- LRM 10.1 Declarative region
-- 9. A loop statement.
Open_Declarative_Region;
Set_Is_Within_Flag (Stmt, True);
Sem_Scopes.Add_Name (Iterator);
Sem_Iterator (Iterator, None);
Set_Visible_Flag (Iterator, True);
Sem_Sequential_Statements_Internal
(Get_Sequential_Statement_Chain (Stmt));
Set_Is_Within_Flag (Stmt, False);
Close_Declarative_Region;
end;
when Iir_Kind_While_Loop_Statement =>
declare
Cond: Iir;
begin
Cond := Get_Condition (Stmt);
if Cond /= Null_Iir then
Cond := Sem_Condition (Cond);
Set_Condition (Stmt, Cond);
end if;
Sem_Sequential_Statements_Internal
(Get_Sequential_Statement_Chain (Stmt));
end;
when Iir_Kind_Simple_Signal_Assignment_Statement
| Iir_Kind_Conditional_Signal_Assignment_Statement =>
Sem_Signal_Assignment (Stmt);
if Current_Concurrent_Statement /= Null_Iir and then
Get_Kind (Current_Concurrent_Statement)
in Iir_Kinds_Process_Statement
and then Get_Passive_Flag (Current_Concurrent_Statement)
then
Error_Msg_Sem
(+Stmt, "signal statement forbidden in passive process");
end if;
when Iir_Kind_Variable_Assignment_Statement
| Iir_Kind_Conditional_Variable_Assignment_Statement =>
Sem_Variable_Assignment (Stmt);
when Iir_Kind_Return_Statement =>
Sem_Return_Statement (Stmt);
when Iir_Kind_Assertion_Statement =>
Sem_Assertion_Statement (Stmt);
when Iir_Kind_Report_Statement =>
Sem_Report_Statement (Stmt);
when Iir_Kind_Case_Statement =>
Sem_Case_Statement (Stmt);
when Iir_Kind_Wait_Statement =>
Sem_Wait_Statement (Stmt);
when Iir_Kind_Procedure_Call_Statement =>
declare
Call : constant Iir := Get_Procedure_Call (Stmt);
Imp : Iir;
begin
Sem_Procedure_Call (Call, Stmt);
-- Set suspend flag, if calling a suspendable procedure
-- from a procedure or from a process.
Imp := Get_Implementation (Call);
if Imp /= Null_Iir
and then Get_Kind (Imp) = Iir_Kind_Procedure_Declaration
and then Get_Suspend_Flag (Imp)
and then (Get_Kind (Get_Current_Subprogram)
/= Iir_Kind_Function_Declaration)
and then (Get_Kind (Get_Current_Subprogram)
/= Iir_Kind_Sensitized_Process_Statement)
then
Set_Suspend_Flag (Stmt, True);
Mark_Suspendable (Stmt);
end if;
end;
when Iir_Kind_Next_Statement
| Iir_Kind_Exit_Statement =>
Sem_Exit_Next_Statement (Stmt);
when others =>
Error_Kind ("sem_sequential_statements_Internal", Stmt);
end case;
Stmt := Get_Chain (Stmt);
end loop;
end Sem_Sequential_Statements_Internal;
procedure Sem_Sequential_Statements (Decl : Iir; Body_Parent : Iir)
is
Outer_Subprogram: Iir;
begin
Outer_Subprogram := Current_Subprogram;
Current_Subprogram := Decl;
-- Sem declarations
Sem_Sequential_Labels (Get_Sequential_Statement_Chain (Body_Parent));
Sem_Declaration_Chain (Body_Parent);
Sem_Specification_Chain (Body_Parent, Null_Iir);
-- Sem statements.
Sem_Sequential_Statements_Internal
(Get_Sequential_Statement_Chain (Body_Parent));
Check_Full_Declaration (Body_Parent, Body_Parent);
Current_Subprogram := Outer_Subprogram;
end Sem_Sequential_Statements;
-- Sem the instantiated unit of STMT and return the node constaining
-- ports and generics (either a entity_declaration or a component
-- declaration).
function Sem_Instantiated_Unit
(Stmt : Iir_Component_Instantiation_Statement) return Iir
is
Inst : constant Iir := Get_Instantiated_Unit (Stmt);
Comp_Name : Iir;
Comp : Iir;
begin
if Get_Kind (Inst) in Iir_Kinds_Entity_Aspect then
return Sem_Entity_Aspect (Inst);
else
Comp := Get_Named_Entity (Inst);
if Comp /= Null_Iir then
-- Already analyzed before, while trying to separate
-- concurrent procedure calls from instantiation stmts.
pragma Assert (Get_Kind (Comp) = Iir_Kind_Component_Declaration);
return Comp;
end if;
-- Needs a denoting name
if Get_Kind (Inst) not in Iir_Kinds_Denoting_Name then
Error_Msg_Sem (+Inst, "name for a component expected");
return Null_Iir;
end if;
-- The component may be an entity or a configuration.
Comp_Name := Sem_Denoting_Name (Inst);
Set_Instantiated_Unit (Stmt, Comp_Name);
Comp := Get_Named_Entity (Comp_Name);
if Get_Kind (Comp) /= Iir_Kind_Component_Declaration then
Error_Class_Match (Comp_Name, "component");
return Null_Iir;
end if;
return Comp;
end if;
end Sem_Instantiated_Unit;
procedure Sem_Component_Instantiation_Statement
(Stmt: Iir_Component_Instantiation_Statement; Is_Passive : Boolean)
is
Decl : Iir;
Entity_Unit : Iir_Design_Unit;
Bind : Iir_Binding_Indication;
begin
-- FIXME: move this check in parse ?
if Is_Passive then
Error_Msg_Sem (+Stmt, "component instantiation forbidden in entity");
end if;
-- Check for label.
-- This cannot be moved in parse since a procedure_call may be revert
-- into a component instantiation.
if Get_Label (Stmt) = Null_Identifier then
Error_Msg_Sem (+Stmt, "component instantiation requires a label");
end if;
-- Look for the component.
Decl := Sem_Instantiated_Unit (Stmt);
if Decl = Null_Iir then
return;
end if;
-- The association
Sem_Generic_Port_Association_Chain (Decl, Stmt);
-- FIXME: add sources for signals, in order to detect multiple sources
-- to unresolved signals.
-- What happen if the component is not bound ?
-- Create a default binding indication if necessary.
if Get_Component_Configuration (Stmt) = Null_Iir
and then Is_Component_Instantiation (Stmt)
then
Entity_Unit := Get_Visible_Entity_Declaration (Decl);
if Entity_Unit = Null_Iir then
if Is_Warning_Enabled (Warnid_Default_Binding)
and then not Flags.Flag_Elaborate
then
Warning_Msg_Sem
(Warnid_Default_Binding, +Stmt,
"no default binding for instantiation of %n", +Decl);
Explain_No_Visible_Entity (Decl);
end if;
elsif Flags.Flag_Elaborate
and then (Flags.Flag_Elaborate_With_Outdated
or else Get_Date (Entity_Unit) in Date_Valid)
then
Bind := Sem_Create_Default_Binding_Indication
(Decl, Entity_Unit, Stmt, False, True);
Set_Default_Binding_Indication (Stmt, Bind);
end if;
end if;
end Sem_Component_Instantiation_Statement;
-- Note: a statement such as
-- label1: name;
-- can be parsed as a procedure call statement or as a
-- component instantiation statement.
-- Check now and revert in case of error.
function Sem_Concurrent_Procedure_Call_Statement
(Stmt : Iir; Is_Passive : Boolean) return Iir
is
Call : Iir_Procedure_Call;
Decl : Iir;
Label : Name_Id;
N_Stmt : Iir_Component_Instantiation_Statement;
Imp : Iir;
begin
Call := Get_Procedure_Call (Stmt);
if Get_Parameter_Association_Chain (Call) = Null_Iir then
Imp := Get_Prefix (Call);
Sem_Name (Imp);
Set_Prefix (Call, Imp);
Decl := Get_Named_Entity (Imp);
if Get_Kind (Decl) = Iir_Kind_Component_Declaration then
N_Stmt := Create_Iir (Iir_Kind_Component_Instantiation_Statement);
Label := Get_Label (Stmt);
Set_Label (N_Stmt, Label);
Set_Parent (N_Stmt, Get_Parent (Stmt));
Set_Instantiated_Unit (N_Stmt, Finish_Sem_Name (Imp));
Location_Copy (N_Stmt, Stmt);
if Label /= Null_Identifier then
-- A component instantiation statement must have
-- a label, this condition is checked during the
-- sem of the statement.
Sem_Scopes.Replace_Name (Label, Stmt, N_Stmt);
end if;
Free_Iir (Stmt);
Free_Iir (Call);
Sem_Component_Instantiation_Statement (N_Stmt, Is_Passive);
return N_Stmt;
end if;
end if;
Sem_Procedure_Call (Call, Stmt);
if Is_Passive then
Imp := Get_Implementation (Call);
if Imp /= Null_Iir
and then Get_Kind (Imp) = Iir_Kind_Procedure_Declaration
then
Decl := Get_Interface_Declaration_Chain (Imp);
while Decl /= Null_Iir loop
if Get_Mode (Decl) in Iir_Out_Modes then
Error_Msg_Sem (+Stmt, "%n is not passive", +Imp);
exit;
end if;
Decl := Get_Chain (Decl);
end loop;
end if;
end if;
return Stmt;
end Sem_Concurrent_Procedure_Call_Statement;
procedure Sem_Block_Statement (Stmt: Iir_Block_Statement)
is
Header : constant Iir_Block_Header := Get_Block_Header (Stmt);
Guard : constant Iir_Guard_Signal_Declaration := Get_Guard_Decl (Stmt);
Expr: Iir;
Generic_Chain : Iir;
Port_Chain : Iir;
begin
-- LRM 10.1 Declarative region.
-- 7. A block statement.
Open_Declarative_Region;
Set_Is_Within_Flag (Stmt, True);
if Header /= Null_Iir then
Generic_Chain := Get_Generic_Chain (Header);
Sem_Interface_Chain (Generic_Chain, Generic_Interface_List);
Port_Chain := Get_Port_Chain (Header);
Sem_Interface_Chain (Port_Chain, Port_Interface_List);
-- LRM 9.1
-- Such actuals are evaluated in the context of the enclosing
-- declarative region.
-- GHDL: close the declarative region...
Set_Is_Within_Flag (Stmt, False);
Close_Declarative_Region;
Sem_Generic_Port_Association_Chain (Header, Header);
-- ... and reopen-it.
Open_Declarative_Region;
Set_Is_Within_Flag (Stmt, True);
Add_Declarations_From_Interface_Chain (Generic_Chain);
Add_Declarations_From_Interface_Chain (Port_Chain);
end if;
-- LRM93 9.1
-- If a guard expression appears after the reserved word BLOCK, then a
-- signal with the simple name GUARD of predefined type BOOLEAN is
-- implicitly declared at the beginning of the declarative part of the
-- block, and the guard expression defined the value of that signal at
-- any given time.
if Guard /= Null_Iir then
-- LRM93 9.1
-- The type of the guard expression must be type BOOLEAN.
-- GHDL: guard expression must be analyzed before creating the
-- implicit GUARD signal, since the expression may reference GUARD.
Set_Expr_Staticness (Guard, None);
Set_Name_Staticness (Guard, Locally);
Expr := Get_Guard_Expression (Guard);
Expr := Sem_Condition (Expr);
if Expr /= Null_Iir then
Set_Guard_Expression (Guard, Expr);
end if;
-- FIXME: should extract sensivity now and set the has_active flag
-- on signals, since the guard expression is evaluated when one of
-- its signal is active. However, how can a bug be introduced by
-- evaluating only when signals have events ?
-- the guard expression is an implicit definition of a signal named
-- GUARD. Create this definition. This is necessary for the type.
Set_Identifier (Guard, Std_Names.Name_Guard);
Set_Type (Guard, Boolean_Type_Definition);
Set_Block_Statement (Guard, Stmt);
Sem_Scopes.Add_Name (Guard);
Set_Visible_Flag (Guard, True);
end if;
Sem_Block (Stmt);
Set_Is_Within_Flag (Stmt, False);
Close_Declarative_Region;
end Sem_Block_Statement;
procedure Sem_Generate_Statement_Body (Bod : Iir) is
begin
Set_Is_Within_Flag (Bod, True);
Sem_Block (Bod);
Set_Is_Within_Flag (Bod, False);
end Sem_Generate_Statement_Body;
procedure Sem_For_Generate_Statement (Stmt : Iir)
is
Param : constant Iir := Get_Parameter_Specification (Stmt);
begin
-- LRM93 10.1 Declarative region.
-- 12. A generate statement.
Open_Declarative_Region;
Set_Is_Within_Flag (Stmt, True);
Sem_Scopes.Add_Name (Param);
-- LRM93 7.4.2 (Globally Static Primaries)
-- 4. a generate parameter;
Sem_Iterator (Param, Globally);
Set_Visible_Flag (Param, True);
-- LRM93 9.7
-- The discrete range in a generation scheme of the first form must
-- be a static discrete range;
if Get_Type (Param) /= Null_Iir
and then Get_Type_Staticness (Get_Type (Param)) < Globally
then
Error_Msg_Sem (+Stmt, "range must be a static discrete range");
end if;
-- In the same declarative region.
Sem_Generate_Statement_Body (Get_Generate_Statement_Body (Stmt));
Set_Is_Within_Flag (Stmt, True);
Close_Declarative_Region;
end Sem_For_Generate_Statement;
procedure Sem_If_Case_Generate_Statement_Body (Bod : Iir)
is
Alt_Label : Name_Id;
begin
Alt_Label := Get_Alternative_Label (Bod);
if Alt_Label /= Null_Identifier then
-- Declare label. This doesn't appear in the LRM (bug ?), but
-- used here to detect duplicated labels.
Sem_Scopes.Add_Name (Bod);
Xref_Decl (Bod);
end if;
-- Contrary to the LRM, a new declarative region is declared. This
-- is required so that declarations in a generate statement body are
-- not in the scope of the following generate bodies.
Open_Declarative_Region;
Sem_Generate_Statement_Body (Bod);
Close_Declarative_Region;
end Sem_If_Case_Generate_Statement_Body;
procedure Sem_If_Generate_Statement (Stmt : Iir)
is
Clause : Iir;
Condition : Iir;
begin
-- LRM93 10.1 Declarative region.
-- 12. A generate statement.
Open_Declarative_Region;
Set_Is_Within_Flag (Stmt, True);
Clause := Stmt;
while Clause /= Null_Iir loop
Condition := Get_Condition (Clause);
if Condition /= Null_Iir then
Condition := Sem_Condition (Condition);
-- LRM93 9.7
-- the condition in a generation scheme of the second form must be
-- a static expression.
if Condition /= Null_Iir
and then Get_Expr_Staticness (Condition) < Globally
then
Error_Msg_Sem
(+Condition, "condition must be a static expression");
else
Set_Condition (Clause, Condition);
end if;
else
-- No condition for the last 'else' part.
pragma Assert (Get_Generate_Else_Clause (Clause) = Null_Iir);
null;
end if;
Sem_If_Case_Generate_Statement_Body
(Get_Generate_Statement_Body (Clause));
Clause := Get_Generate_Else_Clause (Clause);
end loop;
Set_Is_Within_Flag (Stmt, False);
Close_Declarative_Region;
end Sem_If_Generate_Statement;
procedure Sem_Case_Generate_Statement (Stmt : Iir)
is
Expr : Iir;
Chain : Iir;
El : Iir;
begin
-- LRM93 10.1 Declarative region.
-- 12. A generate statement.
Open_Declarative_Region;
Set_Is_Within_Flag (Stmt, True);
Expr := Get_Expression (Stmt);
Chain := Get_Case_Statement_Alternative_Chain (Stmt);
-- FIXME: overload.
Expr := Sem_Case_Expression (Expr);
if Expr /= Null_Iir then
Check_Read (Expr);
Set_Expression (Stmt, Expr);
if Get_Expr_Staticness (Expr) < Globally then
Error_Msg_Sem
(+Expr, "case expression must be a static expression");
end if;
Sem_Case_Choices (Expr, Chain, Get_Location (Stmt));
Set_Case_Statement_Alternative_Chain (Stmt, Chain);
end if;
El := Chain;
while El /= Null_Iir loop
if not Get_Same_Alternative_Flag (El) then
Sem_If_Case_Generate_Statement_Body (Get_Associated_Block (El));
end if;
El := Get_Chain (El);
end loop;
Set_Is_Within_Flag (Stmt, False);
Close_Declarative_Region;
end Sem_Case_Generate_Statement;
procedure Sem_Process_Statement (Proc: Iir) is
begin
Set_Is_Within_Flag (Proc, True);
-- LRM 10.1
-- 8. A process statement
Open_Declarative_Region;
-- Sem declarations
Sem_Sequential_Statements (Proc, Proc);
Close_Declarative_Region;
Set_Is_Within_Flag (Proc, False);
if Get_Kind (Proc) = Iir_Kind_Sensitized_Process_Statement
and then Get_Callees_List (Proc) /= Null_Iir_List
then
-- Check there is no wait statement in subprograms called.
-- Also in the case of all-sensitized process, check that package
-- subprograms don't read signals.
Sem.Add_Analysis_Checks_List (Proc);
end if;
end Sem_Process_Statement;
procedure Sem_Sensitized_Process_Statement
(Proc: Iir_Sensitized_Process_Statement) is
begin
Sem_Sensitivity_List (Get_Sensitivity_List (Proc));
Sem_Process_Statement (Proc);
end Sem_Sensitized_Process_Statement;
procedure Sem_Concurrent_Selected_Signal_Assignment (Stmt: Iir)
is
Expr: Iir;
Chain : Iir;
begin
-- LRM 9.5 Concurrent Signal Assgnment Statements.
-- The process statement equivalent to a concurrent signal assignment
-- statement [...] is constructed as follows: [...]
--
-- LRM 9.5.2 Selected Signal Assignment
-- The characteristics of the selected expression, the waveforms and
-- the choices in the selected assignment statement must be such that
-- the case statement in the equivalent statement is a legal
-- statement
-- Target and waveforms.
Sem_Signal_Assignment (Stmt);
-- The choices.
Chain := Get_Selected_Waveform_Chain (Stmt);
Expr := Sem_Case_Expression (Get_Expression (Stmt));
if Expr /= Null_Iir then
Check_Read (Expr);
Set_Expression (Stmt, Expr);
Sem_Case_Choices (Expr, Chain, Get_Location (Stmt));
Set_Selected_Waveform_Chain (Stmt, Chain);
end if;
Sem_Guard (Stmt);
end Sem_Concurrent_Selected_Signal_Assignment;
procedure Simple_Simultaneous_Statement (Stmt : Iir) is
Left, Right : Iir;
Res_Type : Iir;
begin
Left := Get_Simultaneous_Left (Stmt);
Right := Get_Simultaneous_Right (Stmt);
Left := Sem_Expression_Ov (Left, Null_Iir);
Right := Sem_Expression_Ov (Right, Null_Iir);
-- Give up in case of error
if Left = Null_Iir or else Right = Null_Iir then
return;
end if;
Res_Type := Search_Compatible_Type (Get_Type (Left), Get_Type (Right));
if Res_Type = Null_Iir then
Error_Msg_Sem
(+Stmt, "types of left and right expressions are incompatible");
return;
end if;
-- FIXME: check for nature type...
end Simple_Simultaneous_Statement;
procedure Sem_Concurrent_Statement_Chain (Parent : Iir)
is
Is_Passive : constant Boolean :=
Get_Kind (Parent) = Iir_Kind_Entity_Declaration;
El: Iir;
New_El : Iir;
Next_El : Iir;
procedure No_Generate_Statement is
begin
if Is_Passive then
Error_Msg_Sem (+El, "generate statement forbidden in entity");
end if;
end No_Generate_Statement;
Prev_El : Iir;
Prev_Concurrent_Statement : Iir;
begin
Prev_Concurrent_Statement := Current_Concurrent_Statement;
El := Get_Concurrent_Statement_Chain (Parent);
Prev_El := Null_Iir;
while El /= Null_Iir loop
Current_Concurrent_Statement := El;
New_El := El;
Next_El := Get_Chain (El);
case Get_Kind (El) is
when Iir_Kind_Concurrent_Simple_Signal_Assignment
| Iir_Kind_Concurrent_Conditional_Signal_Assignment =>
if Is_Passive then
Error_Msg_Sem (+El, "signal assignment forbidden in entity");
end if;
Sem_Signal_Assignment (El);
when Iir_Kind_Concurrent_Selected_Signal_Assignment =>
if Is_Passive then
Error_Msg_Sem (+El, "signal assignment forbidden in entity");
end if;
Sem_Concurrent_Selected_Signal_Assignment (El);
when Iir_Kind_Sensitized_Process_Statement =>
Set_Passive_Flag (El, Is_Passive);
Sem_Sensitized_Process_Statement (El);
when Iir_Kind_Process_Statement =>
Set_Passive_Flag (El, Is_Passive);
Sem_Process_Statement (El);
when Iir_Kind_Component_Instantiation_Statement =>
Sem_Component_Instantiation_Statement (El, Is_Passive);
when Iir_Kind_Concurrent_Assertion_Statement =>
-- FIXME: must check assertion expressions does not contain
-- non-passive subprograms ??
Sem_Assertion_Statement (El);
when Iir_Kind_Block_Statement =>
if Is_Passive then
Error_Msg_Sem (+El, "block forbidden in entity");
end if;
Sem_Block_Statement (El);
when Iir_Kind_If_Generate_Statement =>
No_Generate_Statement;
Sem_If_Generate_Statement (El);
when Iir_Kind_For_Generate_Statement =>
No_Generate_Statement;
Sem_For_Generate_Statement (El);
when Iir_Kind_Case_Generate_Statement =>
No_Generate_Statement;
Sem_Case_Generate_Statement (El);
when Iir_Kind_Concurrent_Procedure_Call_Statement =>
New_El := Sem_Concurrent_Procedure_Call_Statement
(El, Is_Passive);
when Iir_Kind_Psl_Declaration =>
Sem_Psl.Sem_Psl_Declaration (El);
when Iir_Kind_Psl_Endpoint_Declaration =>
Sem_Psl.Sem_Psl_Endpoint_Declaration (El);
when Iir_Kind_Psl_Assert_Statement =>
New_El := Sem_Psl.Sem_Psl_Assert_Statement (El);
when Iir_Kind_Psl_Cover_Statement =>
Sem_Psl.Sem_Psl_Cover_Statement (El);
when Iir_Kind_Psl_Default_Clock =>
Sem_Psl.Sem_Psl_Default_Clock (El);
when Iir_Kind_Simple_Simultaneous_Statement =>
Simple_Simultaneous_Statement (El);
when others =>
Error_Kind ("sem_concurrent_statement_chain", El);
end case;
if New_El /= El then
-- Replace this node.
if Prev_El = Null_Iir then
Set_Concurrent_Statement_Chain (Parent, New_El);
else
Set_Chain (Prev_El, New_El);
end if;
Set_Chain (New_El, Next_El);
Set_Parent (New_El, Parent);
Prev_El := New_El;
else
Prev_El := El;
pragma Assert (Get_Parent (El) = Parent);
end if;
El := Next_El;
end loop;
Current_Concurrent_Statement := Prev_Concurrent_Statement;
end Sem_Concurrent_Statement_Chain;
-- Put labels in declarative region.
procedure Sem_Labels_Chain (Parent : Iir)
is
Stmt: Iir;
Label: Name_Id;
begin
Stmt := Get_Concurrent_Statement_Chain (Parent);
while Stmt /= Null_Iir loop
case Get_Kind (Stmt) is
when Iir_Kind_Psl_Declaration
| Iir_Kind_Psl_Endpoint_Declaration =>
-- Special case for in-lined PSL declarations.
null;
when others =>
Label := Get_Label (Stmt);
if Label /= Null_Identifier then
Sem_Scopes.Add_Name (Stmt);
Name_Visible (Stmt);
Xref_Decl (Stmt);
end if;
end case;
-- INT-1991/issue report 27
-- Generate statements represent declarative region and have
-- implicit declarative part.
if False
and then Flags.Vhdl_Std = Vhdl_87
and then
(Get_Kind (Stmt) = Iir_Kind_For_Generate_Statement
or else Get_Kind (Stmt) = Iir_Kind_If_Generate_Statement)
then
Sem_Labels_Chain (Stmt);
end if;
Stmt := Get_Chain (Stmt);
end loop;
end Sem_Labels_Chain;
procedure Sem_Block (Blk: Iir)
is
Implicit : Implicit_Signal_Declaration_Type;
Prev_Psl_Default_Clock : Iir;
begin
Prev_Psl_Default_Clock := Current_Psl_Default_Clock;
Push_Signals_Declarative_Part (Implicit, Blk);
Sem_Labels_Chain (Blk);
Sem_Declaration_Chain (Blk);
Sem_Concurrent_Statement_Chain (Blk);
-- FIXME: do it only if there is conf. spec. in the declarative
-- part.
Sem_Specification_Chain (Blk, Blk);
Check_Full_Declaration (Blk, Blk);
Pop_Signals_Declarative_Part (Implicit);
Current_Psl_Default_Clock := Prev_Psl_Default_Clock;
end Sem_Block;
-- Add a driver for SIG.
-- STMT is used in case of error (it is the statement that creates the
-- driver).
-- Do nothing if:
-- The current statement list does not belong to a process,
-- SIG is a formal signal interface.
procedure Sem_Add_Driver (Sig : Iir; Stmt : Iir)
is
Sig_Object : Iir;
Sig_Object_Type : Iir;
begin
if Sig = Null_Iir then
return;
end if;
Sig_Object := Get_Object_Prefix (Sig);
Sig_Object_Type := Get_Type (Sig_Object);
-- LRM 4.3.1.2 Signal Declaration
-- It is an error if, after the elaboration of a description, a
-- signal has multiple sources and it is not a resolved signal.
-- Check for multiple driver for a unresolved signal declaration.
-- Do this only if the object is a non-composite signal declaration.
-- NOTE: THIS IS DISABLED, since the assignment may be within a
-- generate statement.
if False
and then Get_Kind (Sig_Object) = Iir_Kind_Signal_Declaration
and then Get_Kind (Sig_Object_Type)
not in Iir_Kinds_Composite_Type_Definition
and then not Get_Resolved_Flag (Sig_Object_Type)
then
if Get_Signal_Driver (Sig_Object) /= Null_Iir and then
Get_Signal_Driver (Sig_Object) /= Current_Concurrent_Statement
then
Error_Msg_Sem (+Stmt, "unresolved %n has already a driver at %l",
(+Sig_Object, +Get_Signal_Driver (Sig_Object)));
else
Set_Signal_Driver (Sig_Object, Current_Concurrent_Statement);
end if;
end if;
-- LRM 8.4.1
-- If a given procedure is declared by a declarative item that is not
-- contained within a process statement, and if a signal assignment
-- statement appears in that procedure, then the target of the
-- assignment statement must be a formal parameter of the given
-- procedure or of a parent of that procedure, or an aggregate of such
-- formal parameters.
-- Similarly, if a given procedure is declared by a declarative item
-- that is not contained within a process statement and if a signal is
-- associated with an INOUT or OUT mode signal parameter in a
-- subprogram call within that procedure, then the signal so associated
-- must be a formal parameter of the given procedure or of a parent of
-- that procedure.
if Current_Concurrent_Statement = Null_Iir
or else (Get_Kind (Current_Concurrent_Statement)
not in Iir_Kinds_Process_Statement)
then
-- Not within a process statement.
if Current_Subprogram = Null_Iir then
-- not within a subprogram: concurrent statement.
return;
end if;
-- Within a subprogram.
if Get_Kind (Sig_Object) = Iir_Kind_Signal_Declaration
or else not Is_Parameter (Sig_Object)
then
Error_Msg_Sem (+Stmt, "%n is not a formal parameter", +Sig_Object);
end if;
end if;
end Sem_Add_Driver;
end Vhdl.Sem_Stmts;
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