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|
-- Iir to ortho translator.
-- Copyright (C) 2002 - 2014 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 GCC; see the file COPYING. If not, write to the Free
-- Software Foundation, 59 Temple Place - Suite 330, Boston, MA
-- 02111-1307, USA.
with Files_Map;
with Errorout; use Errorout;
with Iirs_Utils; use Iirs_Utils;
with Evaluation; use Evaluation;
with Canon;
with Trans.Chap3;
with Trans.Chap7;
with Trans.Chap8;
with Trans.Chap14;
with Trans.Helpers2; use Trans.Helpers2;
with Trans_Decls; use Trans_Decls;
package body Trans.Chap6 is
use Trans.Helpers;
function Get_Array_Bound_Length (Arr : Mnode;
Arr_Type : Iir;
Dim : Natural)
return O_Enode
is
Index_Type : constant Iir := Get_Index_Type (Arr_Type, Dim - 1);
Tinfo : constant Type_Info_Acc := Get_Info (Arr_Type);
Constraint : Iir;
begin
if Tinfo.Type_Locally_Constrained then
Constraint := Get_Range_Constraint (Index_Type);
return New_Lit (Chap7.Translate_Static_Range_Length (Constraint));
else
return M2E
(Chap3.Range_To_Length
(Chap3.Get_Array_Range (Arr, Arr_Type, Dim)));
end if;
end Get_Array_Bound_Length;
procedure Gen_Bound_Error (Loc : Iir)
is
Constr : O_Assoc_List;
Name : Name_Id;
Line, Col : Natural;
begin
Files_Map.Location_To_Position (Get_Location (Loc), Name, Line, Col);
Start_Association (Constr, Ghdl_Bound_Check_Failed_L1);
Assoc_Filename_Line (Constr, Line);
New_Procedure_Call (Constr);
end Gen_Bound_Error;
procedure Gen_Program_Error (Loc : Iir; Code : Natural)
is
Assoc : O_Assoc_List;
begin
Start_Association (Assoc, Ghdl_Program_Error);
if Current_Filename_Node = O_Dnode_Null then
New_Association (Assoc, New_Lit (New_Null_Access (Char_Ptr_Type)));
New_Association (Assoc,
New_Lit (New_Signed_Literal (Ghdl_I32_Type, 0)));
else
Assoc_Filename_Line (Assoc, Get_Line_Number (Loc));
end if;
New_Association
(Assoc, New_Lit (New_Unsigned_Literal (Ghdl_Index_Type,
Unsigned_64 (Code))));
New_Procedure_Call (Assoc);
end Gen_Program_Error;
-- Generate code to emit a failure if COND is TRUE, indicating an
-- index violation for dimension DIM of an array. LOC is usually
-- the expression which has computed the index and is used only for
-- its location.
procedure Check_Bound_Error (Cond : O_Enode; Loc : Iir; Dim : Natural)
is
pragma Unreferenced (Dim);
If_Blk : O_If_Block;
begin
Start_If_Stmt (If_Blk, Cond);
Gen_Bound_Error (Loc);
Finish_If_Stmt (If_Blk);
end Check_Bound_Error;
-- Return TRUE if an array whose index type is RNG_TYPE indexed by
-- an expression of type EXPR_TYPE needs a bound check.
function Need_Index_Check (Expr_Type : Iir; Rng_Type : Iir)
return Boolean
is
Rng : Iir;
begin
-- Do checks if type of the expression is not a subtype.
-- FIXME: EXPR_TYPE shound not be NULL_IIR (generate stmt)
if Expr_Type = Null_Iir then
return True;
end if;
case Get_Kind (Expr_Type) is
when Iir_Kind_Integer_Subtype_Definition
| Iir_Kind_Enumeration_Subtype_Definition
| Iir_Kind_Enumeration_Type_Definition =>
null;
when others =>
return True;
end case;
-- No check if the expression has the type of the index.
if Expr_Type = Rng_Type then
return False;
end if;
-- No check for 'Range or 'Reverse_Range.
Rng := Get_Range_Constraint (Expr_Type);
if (Get_Kind (Rng) = Iir_Kind_Range_Array_Attribute
or Get_Kind (Rng) = Iir_Kind_Reverse_Range_Array_Attribute)
and then Get_Type (Rng) = Rng_Type
then
return False;
end if;
return True;
end Need_Index_Check;
procedure Get_Deep_Range_Expression
(Atype : Iir; Rng : out Iir; Is_Reverse : out Boolean)
is
T : Iir;
R : Iir;
begin
Is_Reverse := False;
-- T is an integer/enumeration subtype.
T := Atype;
loop
case Get_Kind (T) is
when Iir_Kind_Integer_Subtype_Definition
| Iir_Kind_Enumeration_Subtype_Definition
| Iir_Kind_Enumeration_Type_Definition =>
-- These types have a range.
null;
when others =>
Error_Kind ("get_deep_range_expression(1)", T);
end case;
R := Get_Range_Constraint (T);
case Get_Kind (R) is
when Iir_Kind_Range_Expression =>
Rng := R;
return;
when Iir_Kind_Range_Array_Attribute =>
null;
when Iir_Kind_Reverse_Range_Array_Attribute =>
Is_Reverse := not Is_Reverse;
when others =>
Error_Kind ("get_deep_range_expression(2)", R);
end case;
T := Get_Index_Subtype (R);
if T = Null_Iir then
Rng := Null_Iir;
return;
end if;
end loop;
end Get_Deep_Range_Expression;
function Translate_Index_To_Offset (Rng : Mnode;
Index : O_Enode;
Index_Expr : Iir;
Range_Type : Iir;
Loc : Iir)
return O_Enode
is
Need_Check : Boolean;
Dir : O_Enode;
If_Blk : O_If_Block;
Res : O_Dnode;
Off : O_Dnode;
Bound : O_Enode;
Cond1, Cond2 : O_Enode;
Index_Node : O_Dnode;
Bound_Node : O_Dnode;
Index_Info : Type_Info_Acc;
Deep_Rng : Iir;
Deep_Reverse : Boolean;
begin
Index_Info := Get_Info (Get_Base_Type (Range_Type));
if Index_Expr = Null_Iir then
Need_Check := True;
Deep_Rng := Null_Iir;
Deep_Reverse := False;
else
Need_Check := Need_Index_Check (Get_Type (Index_Expr), Range_Type);
Get_Deep_Range_Expression (Range_Type, Deep_Rng, Deep_Reverse);
end if;
Res := Create_Temp (Ghdl_Index_Type);
Open_Temp;
Off := Create_Temp (Index_Info.Ortho_Type (Mode_Value));
Bound := M2E (Chap3.Range_To_Left (Rng));
if Deep_Rng /= Null_Iir then
if Get_Direction (Deep_Rng) = Iir_To xor Deep_Reverse then
-- Direction TO: INDEX - LEFT.
New_Assign_Stmt (New_Obj (Off),
New_Dyadic_Op (ON_Sub_Ov,
Index, Bound));
else
-- Direction DOWNTO: LEFT - INDEX.
New_Assign_Stmt (New_Obj (Off),
New_Dyadic_Op (ON_Sub_Ov,
Bound, Index));
end if;
else
Index_Node := Create_Temp_Init
(Index_Info.Ortho_Type (Mode_Value), Index);
Bound_Node := Create_Temp_Init
(Index_Info.Ortho_Type (Mode_Value), Bound);
Dir := M2E (Chap3.Range_To_Dir (Rng));
-- Non-static direction.
Start_If_Stmt (If_Blk,
New_Compare_Op (ON_Eq, Dir,
New_Lit (Ghdl_Dir_To_Node),
Ghdl_Bool_Type));
-- Direction TO: INDEX - LEFT.
New_Assign_Stmt (New_Obj (Off),
New_Dyadic_Op (ON_Sub_Ov,
New_Obj_Value (Index_Node),
New_Obj_Value (Bound_Node)));
New_Else_Stmt (If_Blk);
-- Direction DOWNTO: LEFT - INDEX.
New_Assign_Stmt (New_Obj (Off),
New_Dyadic_Op (ON_Sub_Ov,
New_Obj_Value (Bound_Node),
New_Obj_Value (Index_Node)));
Finish_If_Stmt (If_Blk);
end if;
-- Get the offset.
New_Assign_Stmt
(New_Obj (Res), New_Convert_Ov (New_Obj_Value (Off),
Ghdl_Index_Type));
-- Check bounds.
if Need_Check then
Cond1 := New_Compare_Op
(ON_Lt,
New_Obj_Value (Off),
New_Lit (New_Signed_Literal (Index_Info.Ortho_Type (Mode_Value),
0)),
Ghdl_Bool_Type);
Cond2 := New_Compare_Op
(ON_Ge,
New_Obj_Value (Res),
M2E (Chap3.Range_To_Length (Rng)),
Ghdl_Bool_Type);
Check_Bound_Error (New_Dyadic_Op (ON_Or, Cond1, Cond2), Loc, 0);
end if;
Close_Temp;
return New_Obj_Value (Res);
end Translate_Index_To_Offset;
-- Translate index EXPR in dimension DIM of thin array into an
-- offset.
-- This checks bounds.
function Translate_Thin_Index_Offset (Index_Type : Iir;
Dim : Natural;
Expr : Iir)
return O_Enode
is
Index_Range : constant Iir := Get_Range_Constraint (Index_Type);
Obound : O_Cnode;
Res : O_Dnode;
Cond2 : O_Enode;
Index : O_Enode;
Index_Base_Type : Iir;
V : Iir_Int64;
B : Iir_Int64;
begin
B := Eval_Pos (Get_Left_Limit (Index_Range));
if Get_Expr_Staticness (Expr) = Locally then
V := Eval_Pos (Eval_Static_Expr (Expr));
if Get_Direction (Index_Range) = Iir_To then
B := V - B;
else
B := B - V;
end if;
return New_Lit
(New_Unsigned_Literal (Ghdl_Index_Type, Unsigned_64 (B)));
else
Index_Base_Type := Get_Base_Type (Index_Type);
Index := Chap7.Translate_Expression (Expr, Index_Base_Type);
if Get_Direction (Index_Range) = Iir_To then
-- Direction TO: INDEX - LEFT.
if B /= 0 then
Obound := Chap7.Translate_Static_Range_Left
(Index_Range, Index_Base_Type);
Index := New_Dyadic_Op (ON_Sub_Ov, Index, New_Lit (Obound));
end if;
else
-- Direction DOWNTO: LEFT - INDEX.
Obound := Chap7.Translate_Static_Range_Left
(Index_Range, Index_Base_Type);
Index := New_Dyadic_Op (ON_Sub_Ov, New_Lit (Obound), Index);
end if;
-- Get the offset.
Index := New_Convert_Ov (Index, Ghdl_Index_Type);
-- Since the value is unsigned, both left and right bounds are
-- checked in the same time.
if Get_Type (Expr) /= Index_Type then
Res := Create_Temp_Init (Ghdl_Index_Type, Index);
Cond2 := New_Compare_Op
(ON_Ge, New_Obj_Value (Res),
New_Lit (Chap7.Translate_Static_Range_Length (Index_Range)),
Ghdl_Bool_Type);
Check_Bound_Error (Cond2, Expr, Dim);
Index := New_Obj_Value (Res);
end if;
return Index;
end if;
end Translate_Thin_Index_Offset;
-- Translate an indexed name.
type Indexed_Name_Data is record
Offset : O_Dnode;
Res : Mnode;
end record;
function Translate_Indexed_Name_Init (Prefix_Orig : Mnode; Expr : Iir)
return Indexed_Name_Data
is
Prefix_Type : constant Iir := Get_Type (Get_Prefix (Expr));
Prefix_Info : constant Type_Info_Acc := Get_Info (Prefix_Type);
Index_List : constant Iir_List := Get_Index_List (Expr);
Type_List : constant Iir_List := Get_Index_Subtype_List (Prefix_Type);
Nbr_Dim : constant Natural := Get_Nbr_Elements (Index_List);
Prefix : Mnode;
Index : Iir;
Offset : O_Dnode;
R : O_Enode;
Length : O_Enode;
Itype : Iir;
Ibasetype : Iir;
Range_Ptr : Mnode;
begin
case Prefix_Info.Type_Mode is
when Type_Mode_Fat_Array =>
Prefix := Stabilize (Prefix_Orig);
when Type_Mode_Array =>
Prefix := Prefix_Orig;
when others =>
raise Internal_Error;
end case;
Offset := Create_Temp (Ghdl_Index_Type);
for Dim in 1 .. Nbr_Dim loop
Index := Get_Nth_Element (Index_List, Dim - 1);
Itype := Get_Index_Type (Type_List, Dim - 1);
Ibasetype := Get_Base_Type (Itype);
Open_Temp;
-- Compute index for the current dimension.
case Prefix_Info.Type_Mode is
when Type_Mode_Fat_Array =>
Range_Ptr := Stabilize
(Chap3.Get_Array_Range (Prefix, Prefix_Type, Dim));
R := Translate_Index_To_Offset
(Range_Ptr,
Chap7.Translate_Expression (Index, Ibasetype),
Null_Iir, Itype, Index);
when Type_Mode_Array =>
if Prefix_Info.Type_Locally_Constrained then
R := Translate_Thin_Index_Offset (Itype, Dim, Index);
else
-- Manually extract range since there is no infos for
-- index subtype.
Range_Ptr := Chap3.Bounds_To_Range
(Chap3.Get_Array_Type_Bounds (Prefix_Type),
Prefix_Type, Dim);
Stabilize (Range_Ptr);
R := Translate_Index_To_Offset
(Range_Ptr,
Chap7.Translate_Expression (Index, Ibasetype),
Index, Itype, Index);
end if;
when others =>
raise Internal_Error;
end case;
if Dim = 1 then
-- First dimension.
New_Assign_Stmt (New_Obj (Offset), R);
else
-- If there are more dimension(s) to follow, then multiply
-- the current offset by the length of the current dimension.
if Prefix_Info.Type_Locally_Constrained then
Length := New_Lit (Chap7.Translate_Static_Range_Length
(Get_Range_Constraint (Itype)));
else
Length := M2E (Chap3.Range_To_Length (Range_Ptr));
end if;
New_Assign_Stmt
(New_Obj (Offset),
New_Dyadic_Op (ON_Add_Ov,
New_Dyadic_Op (ON_Mul_Ov,
New_Obj_Value (Offset),
Length),
R));
end if;
Close_Temp;
end loop;
return (Offset => Offset,
Res => Chap3.Index_Base
(Chap3.Get_Array_Base (Prefix), Prefix_Type,
New_Obj_Value (Offset)));
end Translate_Indexed_Name_Init;
function Translate_Indexed_Name_Finish
(Prefix : Mnode; Expr : Iir; Data : Indexed_Name_Data)
return Mnode
is
begin
return Chap3.Index_Base (Chap3.Get_Array_Base (Prefix),
Get_Type (Get_Prefix (Expr)),
New_Obj_Value (Data.Offset));
end Translate_Indexed_Name_Finish;
function Translate_Indexed_Name (Prefix : Mnode; Expr : Iir)
return Mnode
is
begin
return Translate_Indexed_Name_Init (Prefix, Expr).Res;
end Translate_Indexed_Name;
type Slice_Name_Data is record
Off : Unsigned_64;
Is_Off : Boolean;
Unsigned_Diff : O_Dnode;
-- Variable pointing to the prefix.
Prefix_Var : Mnode;
-- Variable pointing to slice.
Slice_Range : Mnode;
end record;
procedure Translate_Slice_Name_Init
(Prefix : Mnode; Expr : Iir_Slice_Name; Data : out Slice_Name_Data)
is
-- Type of the prefix.
Prefix_Type : constant Iir := Get_Type (Get_Prefix (Expr));
-- Type info of the prefix.
Prefix_Info : Type_Info_Acc;
-- Type of the first (and only) index of the prefix array type.
Index_Type : constant Iir := Get_Index_Type (Prefix_Type, 0);
-- Type of the slice.
Slice_Type : constant Iir := Get_Type (Expr);
Slice_Info : Type_Info_Acc;
-- True iff the direction of the slice is known at compile time.
Static_Range : Boolean;
-- Suffix of the slice (discrete range).
Expr_Range : constant Iir := Get_Suffix (Expr);
-- Variable pointing to the prefix.
Prefix_Var : Mnode;
-- Type info of the range base type.
Index_Info : Type_Info_Acc;
-- Variables pointing to slice and prefix ranges.
Slice_Range : Mnode;
Prefix_Range : Mnode;
Diff : O_Dnode;
Unsigned_Diff : O_Dnode;
If_Blk, If_Blk1 : O_If_Block;
begin
-- Evaluate slice bounds.
Chap3.Create_Array_Subtype (Slice_Type, True);
-- The info may have just been created.
Prefix_Info := Get_Info (Prefix_Type);
Slice_Info := Get_Info (Slice_Type);
if Slice_Info.Type_Mode = Type_Mode_Array
and then Slice_Info.Type_Locally_Constrained
and then Prefix_Info.Type_Mode = Type_Mode_Array
and then Prefix_Info.Type_Locally_Constrained
then
Data.Is_Off := True;
Data.Prefix_Var := Prefix;
-- Both prefix and result are constrained array.
declare
Prefix_Left, Slice_Left : Iir_Int64;
Off : Iir_Int64;
Slice_Index_Type : Iir;
Slice_Range : Iir;
Slice_Length : Iir_Int64;
Index_Range : Iir;
begin
Index_Range := Get_Range_Constraint (Index_Type);
Prefix_Left := Eval_Pos (Get_Left_Limit (Index_Range));
Slice_Index_Type := Get_Index_Type (Slice_Type, 0);
Slice_Range := Get_Range_Constraint (Slice_Index_Type);
Slice_Left := Eval_Pos (Get_Left_Limit (Slice_Range));
Slice_Length := Eval_Discrete_Range_Length (Slice_Range);
if Slice_Length = 0 then
-- Null slice.
Data.Off := 0;
return;
end if;
if Get_Direction (Index_Range) /= Get_Direction (Slice_Range)
then
-- This is allowed with vhdl87
Off := 0;
Slice_Length := 0;
else
-- Both prefix and slice are thin array.
case Get_Direction (Index_Range) is
when Iir_To =>
Off := Slice_Left - Prefix_Left;
when Iir_Downto =>
Off := Prefix_Left - Slice_Left;
end case;
if Off < 0 then
-- Must have been caught by sem.
raise Internal_Error;
end if;
if Off + Slice_Length
> Eval_Discrete_Range_Length (Index_Range)
then
-- Must have been caught by sem.
raise Internal_Error;
end if;
end if;
Data.Off := Unsigned_64 (Off);
return;
end;
end if;
Data.Is_Off := False;
-- Save prefix.
Prefix_Var := Stabilize (Prefix);
Index_Info := Get_Info (Get_Base_Type (Index_Type));
-- Save prefix bounds.
Prefix_Range := Stabilize
(Chap3.Get_Array_Range (Prefix_Var, Prefix_Type, 1));
-- Save slice bounds.
Slice_Range := Stabilize
(Chap3.Bounds_To_Range (Chap3.Get_Array_Type_Bounds (Slice_Type),
Slice_Type, 1));
-- TRUE if the direction of the slice is known.
Static_Range := Get_Kind (Expr_Range) = Iir_Kind_Range_Expression;
-- Check direction against same direction, error if different.
-- FIXME: what about v87 -> if different then null slice
if not Static_Range
or else Get_Kind (Prefix_Type) /= Iir_Kind_Array_Subtype_Definition
then
-- Check same direction.
Check_Bound_Error
(New_Compare_Op (ON_Neq,
M2E (Chap3.Range_To_Dir (Prefix_Range)),
M2E (Chap3.Range_To_Dir (Slice_Range)),
Ghdl_Bool_Type),
Expr, 1);
end if;
Unsigned_Diff := Create_Temp (Ghdl_Index_Type);
-- Check if not a null slice.
-- The bounds of a null slice may be out of range. So DIFF cannot
-- be computed by substraction.
Start_If_Stmt
(If_Blk,
New_Compare_Op
(ON_Eq,
M2E (Chap3.Range_To_Length (Slice_Range)),
New_Lit (Ghdl_Index_0),
Ghdl_Bool_Type));
New_Assign_Stmt (New_Obj (Unsigned_Diff), New_Lit (Ghdl_Index_0));
New_Else_Stmt (If_Blk);
Diff := Create_Temp (Index_Info.Ortho_Type (Mode_Value));
-- Compute the offset in the prefix.
if not Static_Range then
Start_If_Stmt
(If_Blk1, New_Compare_Op (ON_Eq,
M2E (Chap3.Range_To_Dir (Slice_Range)),
New_Lit (Ghdl_Dir_To_Node),
Ghdl_Bool_Type));
end if;
if not Static_Range or else Get_Direction (Expr_Range) = Iir_To then
-- Diff = slice - bounds.
New_Assign_Stmt
(New_Obj (Diff),
New_Dyadic_Op (ON_Sub_Ov,
M2E (Chap3.Range_To_Left (Slice_Range)),
M2E (Chap3.Range_To_Left (Prefix_Range))));
end if;
if not Static_Range then
New_Else_Stmt (If_Blk1);
end if;
if not Static_Range or else Get_Direction (Expr_Range) = Iir_Downto
then
-- Diff = bounds - slice.
New_Assign_Stmt
(New_Obj (Diff),
New_Dyadic_Op (ON_Sub_Ov,
M2E (Chap3.Range_To_Left (Prefix_Range)),
M2E (Chap3.Range_To_Left (Slice_Range))));
end if;
if not Static_Range then
Finish_If_Stmt (If_Blk1);
end if;
-- Note: this also check for overflow.
New_Assign_Stmt
(New_Obj (Unsigned_Diff),
New_Convert_Ov (New_Obj_Value (Diff), Ghdl_Index_Type));
-- Check bounds.
declare
Err_1 : O_Enode;
Err_2 : O_Enode;
begin
-- Bounds error if left of slice is before left of prefix.
Err_1 := New_Compare_Op
(ON_Lt,
New_Obj_Value (Diff),
New_Lit (New_Signed_Literal (Index_Info.Ortho_Type (Mode_Value),
0)),
Ghdl_Bool_Type);
-- Bounds error if right of slice is after right of prefix.
Err_2 := New_Compare_Op
(ON_Gt,
New_Dyadic_Op (ON_Add_Ov,
New_Obj_Value (Unsigned_Diff),
M2E (Chap3.Range_To_Length (Slice_Range))),
M2E (Chap3.Range_To_Length (Prefix_Range)),
Ghdl_Bool_Type);
Check_Bound_Error (New_Dyadic_Op (ON_Or, Err_1, Err_2), Expr, 1);
end;
Finish_If_Stmt (If_Blk);
Data.Slice_Range := Slice_Range;
Data.Prefix_Var := Prefix_Var;
Data.Unsigned_Diff := Unsigned_Diff;
Data.Is_Off := False;
end Translate_Slice_Name_Init;
function Translate_Slice_Name_Finish
(Prefix : Mnode; Expr : Iir_Slice_Name; Data : Slice_Name_Data)
return Mnode
is
-- Type of the slice.
Slice_Type : constant Iir := Get_Type (Expr);
Slice_Info : constant Type_Info_Acc := Get_Info (Slice_Type);
-- Object kind of the prefix.
Kind : constant Object_Kind_Type := Get_Object_Kind (Prefix);
Res_D : O_Dnode;
begin
if Data.Is_Off then
return Chap3.Slice_Base
(Prefix, Slice_Type, New_Lit (New_Unsigned_Literal
(Ghdl_Index_Type, Data.Off)));
else
-- Create the result (fat array) and assign the bounds field.
case Slice_Info.Type_Mode is
when Type_Mode_Fat_Array =>
Res_D := Create_Temp (Slice_Info.Ortho_Type (Kind));
New_Assign_Stmt
(New_Selected_Element (New_Obj (Res_D),
Slice_Info.T.Bounds_Field (Kind)),
New_Value (M2Lp (Data.Slice_Range)));
New_Assign_Stmt
(New_Selected_Element (New_Obj (Res_D),
Slice_Info.T.Base_Field (Kind)),
M2E (Chap3.Slice_Base
(Chap3.Get_Array_Base (Prefix),
Slice_Type,
New_Obj_Value (Data.Unsigned_Diff))));
return Dv2M (Res_D, Slice_Info, Kind);
when Type_Mode_Array =>
return Chap3.Slice_Base
(Chap3.Get_Array_Base (Prefix),
Slice_Type,
New_Obj_Value (Data.Unsigned_Diff));
when others =>
raise Internal_Error;
end case;
end if;
end Translate_Slice_Name_Finish;
function Translate_Slice_Name (Prefix : Mnode; Expr : Iir_Slice_Name)
return Mnode
is
Data : Slice_Name_Data;
begin
Translate_Slice_Name_Init (Prefix, Expr, Data);
return Translate_Slice_Name_Finish (Data.Prefix_Var, Expr, Data);
end Translate_Slice_Name;
function Translate_Interface_Name
(Inter : Iir; Info : Ortho_Info_Acc; Kind : Object_Kind_Type)
return Mnode
is
Type_Info : constant Type_Info_Acc := Get_Info (Get_Type (Inter));
begin
case Info.Kind is
when Kind_Object =>
-- For a generic or a port.
return Get_Var (Info.Object_Var, Type_Info, Kind);
when Kind_Interface =>
-- For a parameter.
if Info.Interface_Field = O_Fnode_Null then
-- Normal case: the parameter was translated as an ortho
-- interface.
case Type_Info.Type_Mode is
when Type_Mode_Unknown =>
raise Internal_Error;
when Type_Mode_By_Value =>
return Dv2M (Info.Interface_Node, Type_Info, Kind);
when Type_Mode_By_Copy
| Type_Mode_By_Ref =>
-- Parameter is passed by reference.
return Dp2M (Info.Interface_Node, Type_Info, Kind);
end case;
else
-- The parameter was put somewhere else.
declare
Subprg : constant Iir := Get_Parent (Inter);
Subprg_Info : constant Subprg_Info_Acc :=
Get_Info (Subprg);
Linter : O_Lnode;
begin
if Info.Interface_Node = O_Dnode_Null then
-- The parameter is passed via a field of the RESULT
-- record parameter.
if Subprg_Info.Res_Record_Var = Null_Var then
Linter := New_Obj (Subprg_Info.Res_Interface);
else
-- Unnesting case.
Linter := Get_Var (Subprg_Info.Res_Record_Var);
end if;
return Lv2M (New_Selected_Element
(New_Acc_Value (Linter),
Info.Interface_Field),
Type_Info, Kind);
else
-- Unnesting case: the parameter was copied in the
-- subprogram frame so that nested subprograms can
-- reference it. Use field in FRAME.
Linter := New_Selected_Element
(Get_Instance_Ref (Subprg_Info.Subprg_Frame_Scope),
Info.Interface_Field);
case Type_Info.Type_Mode is
when Type_Mode_Unknown =>
raise Internal_Error;
when Type_Mode_By_Value =>
return Lv2M (Linter, Type_Info, Kind);
when Type_Mode_By_Copy
| Type_Mode_By_Ref =>
-- Parameter is passed by reference.
return Lp2M (Linter, Type_Info, Kind);
end case;
end if;
end;
end if;
when others =>
raise Internal_Error;
end case;
end Translate_Interface_Name;
function Translate_Selected_Element (Prefix : Mnode;
El : Iir_Element_Declaration)
return Mnode
is
El_Info : constant Field_Info_Acc := Get_Info (El);
El_Type : constant Iir := Get_Type (El);
El_Tinfo : constant Type_Info_Acc := Get_Info (El_Type);
Kind : constant Object_Kind_Type := Get_Object_Kind (Prefix);
Stable_Prefix : Mnode;
begin
if Is_Complex_Type (El_Tinfo) then
-- The element is in fact an offset.
Stable_Prefix := Stabilize (Prefix);
return E2M
(New_Unchecked_Address
(New_Slice
(New_Access_Element
(New_Unchecked_Address
(M2Lv (Stable_Prefix), Char_Ptr_Type)),
Chararray_Type,
New_Value
(New_Selected_Element (M2Lv (Stable_Prefix),
El_Info.Field_Node (Kind)))),
El_Tinfo.Ortho_Ptr_Type (Kind)),
El_Tinfo, Kind);
else
return Lv2M (New_Selected_Element (M2Lv (Prefix),
El_Info.Field_Node (Kind)),
El_Tinfo, Kind);
end if;
end Translate_Selected_Element;
-- function Translate_Formal_Interface_Name (Scope_Type : O_Tnode;
-- Scope_Param : O_Lnode;
-- Name : Iir;
-- Kind : Object_Kind_Type)
-- return Mnode
-- is
-- Type_Info : Type_Info_Acc;
-- Info : Ortho_Info_Acc;
-- Res : Mnode;
-- begin
-- Type_Info := Get_Info (Get_Type (Name));
-- Info := Get_Info (Name);
-- Push_Scope_Soft (Scope_Type, Scope_Param);
-- Res := Get_Var (Info.Object_Var, Type_Info, Kind);
-- Clear_Scope_Soft (Scope_Type);
-- return Res;
-- end Translate_Formal_Interface_Name;
-- function Translate_Formal_Name (Scope_Type : O_Tnode;
-- Scope_Param : O_Lnode;
-- Name : Iir)
-- return Mnode
-- is
-- Prefix : Iir;
-- Prefix_Name : Mnode;
-- begin
-- case Get_Kind (Name) is
-- when Iir_Kind_Interface_Constant_Declaration =>
-- return Translate_Formal_Interface_Name
-- (Scope_Type, Scope_Param, Name, Mode_Value);
-- when Iir_Kind_Interface_Signal_Declaration =>
-- return Translate_Formal_Interface_Name
-- (Scope_Type, Scope_Param, Name, Mode_Signal);
-- when Iir_Kind_Indexed_Name =>
-- Prefix := Get_Prefix (Name);
-- Prefix_Name := Translate_Formal_Name
-- (Scope_Type, Scope_Param, Prefix);
-- return Translate_Indexed_Name (Prefix_Name, Name);
-- when Iir_Kind_Slice_Name =>
-- Prefix := Get_Prefix (Name);
-- Prefix_Name := Translate_Formal_Name
-- (Scope_Type, Scope_Param, Prefix);
-- return Translate_Slice_Name (Prefix_Name, Name);
-- when Iir_Kind_Selected_Element =>
-- Prefix := Get_Prefix (Name);
-- Prefix_Name := Translate_Formal_Name
-- (Scope_Type, Scope_Param, Prefix);
-- return Translate_Selected_Element
-- (Prefix_Name, Get_Selected_Element (Name));
-- when others =>
-- Error_Kind ("translate_generic_name", Name);
-- end case;
-- end Translate_Formal_Name;
function Translate_Name (Name : Iir) return Mnode
is
Name_Type : constant Iir := Get_Type (Name);
Name_Info : constant Ortho_Info_Acc := Get_Info (Name);
Type_Info : constant Type_Info_Acc := Get_Info (Name_Type);
begin
case Get_Kind (Name) is
when Iir_Kind_Constant_Declaration
| Iir_Kind_Variable_Declaration
| Iir_Kind_File_Declaration =>
return Get_Var (Name_Info.Object_Var, Type_Info, Mode_Value);
when Iir_Kind_Attribute_Name =>
return Translate_Name (Get_Named_Entity (Name));
when Iir_Kind_Attribute_Value =>
return Get_Var
(Get_Info (Get_Attribute_Specification (Name)).Object_Var,
Type_Info, Mode_Value);
when Iir_Kind_Object_Alias_Declaration =>
-- Alias_Var is not like an object variable, since it is
-- always a pointer to the aliased object.
declare
R : O_Lnode;
begin
R := Get_Var (Name_Info.Alias_Var);
case Type_Info.Type_Mode is
when Type_Mode_Fat_Array =>
return Get_Var (Name_Info.Alias_Var, Type_Info,
Name_Info.Alias_Kind);
when Type_Mode_Array
| Type_Mode_Record
| Type_Mode_Acc
| Type_Mode_Fat_Acc =>
R := Get_Var (Name_Info.Alias_Var);
return Lp2M (R, Type_Info, Name_Info.Alias_Kind);
when Type_Mode_Scalar =>
R := Get_Var (Name_Info.Alias_Var);
if Name_Info.Alias_Kind = Mode_Signal then
return Lv2M (R, Type_Info, Name_Info.Alias_Kind);
else
return Lp2M (R, Type_Info, Name_Info.Alias_Kind);
end if;
when others =>
raise Internal_Error;
end case;
end;
when Iir_Kind_Signal_Declaration
| Iir_Kind_Stable_Attribute
| Iir_Kind_Quiet_Attribute
| Iir_Kind_Delayed_Attribute
| Iir_Kind_Transaction_Attribute
| Iir_Kind_Guard_Signal_Declaration =>
return Get_Var (Name_Info.Object_Var, Type_Info, Mode_Signal);
when Iir_Kind_Interface_Constant_Declaration =>
return Translate_Interface_Name (Name, Name_Info, Mode_Value);
when Iir_Kind_Interface_File_Declaration =>
return Translate_Interface_Name (Name, Name_Info, Mode_Value);
when Iir_Kind_Interface_Variable_Declaration =>
return Translate_Interface_Name (Name, Name_Info, Mode_Value);
when Iir_Kind_Interface_Signal_Declaration =>
return Translate_Interface_Name (Name, Name_Info, Mode_Signal);
when Iir_Kind_Indexed_Name =>
return Translate_Indexed_Name
(Translate_Name (Get_Prefix (Name)), Name);
when Iir_Kind_Slice_Name =>
return Translate_Slice_Name
(Translate_Name (Get_Prefix (Name)), Name);
when Iir_Kind_Dereference
| Iir_Kind_Implicit_Dereference =>
declare
Pfx : O_Enode;
begin
Pfx := Chap7.Translate_Expression (Get_Prefix (Name));
-- FIXME: what about fat pointer ??
return Lv2M (New_Access_Element (Pfx),
Type_Info, Mode_Value);
end;
when Iir_Kind_Selected_Element =>
return Translate_Selected_Element
(Translate_Name (Get_Prefix (Name)),
Get_Selected_Element (Name));
when Iir_Kind_Function_Call =>
-- This can appear as a prefix of a name, therefore, the
-- result is always a composite type or an access type.
declare
Imp : constant Iir := Get_Implementation (Name);
Obj : Iir;
Assoc_Chain : Iir;
begin
if Is_Implicit_Subprogram (Imp) then
-- FIXME : to be done
raise Internal_Error;
else
Canon.Canon_Subprogram_Call (Name);
Assoc_Chain := Get_Parameter_Association_Chain (Name);
Obj := Get_Method_Object (Name);
return E2M
(Chap8.Translate_Subprogram_Call (Imp, Assoc_Chain, Obj),
Type_Info, Mode_Value);
end if;
end;
when Iir_Kind_Image_Attribute =>
-- Can appear as a prefix.
return E2M (Chap14.Translate_Image_Attribute (Name),
Type_Info, Mode_Value);
when Iir_Kind_Simple_Name
| Iir_Kind_Selected_Name =>
return Translate_Name (Get_Named_Entity (Name));
when others =>
Error_Kind ("translate_name", Name);
end case;
end Translate_Name;
procedure Translate_Direct_Driver
(Name : Iir; Sig : out Mnode; Drv : out Mnode)
is
Name_Type : constant Iir := Get_Type (Name);
Name_Info : constant Ortho_Info_Acc := Get_Info (Name);
Type_Info : constant Type_Info_Acc := Get_Info (Name_Type);
begin
case Get_Kind (Name) is
when Iir_Kind_Simple_Name
| Iir_Kind_Selected_Name =>
Translate_Direct_Driver (Get_Named_Entity (Name), Sig, Drv);
when Iir_Kind_Object_Alias_Declaration =>
Translate_Direct_Driver (Get_Name (Name), Sig, Drv);
when Iir_Kind_Signal_Declaration
| Iir_Kind_Interface_Signal_Declaration =>
Sig := Get_Var (Name_Info.Object_Var, Type_Info, Mode_Signal);
Drv := Get_Var (Name_Info.Object_Driver, Type_Info, Mode_Value);
when Iir_Kind_Slice_Name =>
declare
Data : Slice_Name_Data;
Pfx_Sig : Mnode;
Pfx_Drv : Mnode;
begin
Translate_Direct_Driver
(Get_Prefix (Name), Pfx_Sig, Pfx_Drv);
Translate_Slice_Name_Init (Pfx_Sig, Name, Data);
Sig := Translate_Slice_Name_Finish
(Data.Prefix_Var, Name, Data);
Drv := Translate_Slice_Name_Finish (Pfx_Drv, Name, Data);
end;
when Iir_Kind_Indexed_Name =>
declare
Data : Indexed_Name_Data;
Pfx_Sig : Mnode;
Pfx_Drv : Mnode;
begin
Translate_Direct_Driver
(Get_Prefix (Name), Pfx_Sig, Pfx_Drv);
Data := Translate_Indexed_Name_Init (Pfx_Sig, Name);
Sig := Data.Res;
Drv := Translate_Indexed_Name_Finish (Pfx_Drv, Name, Data);
end;
when Iir_Kind_Selected_Element =>
declare
El : Iir;
Pfx_Sig : Mnode;
Pfx_Drv : Mnode;
begin
Translate_Direct_Driver
(Get_Prefix (Name), Pfx_Sig, Pfx_Drv);
El := Get_Selected_Element (Name);
Sig := Translate_Selected_Element (Pfx_Sig, El);
Drv := Translate_Selected_Element (Pfx_Drv, El);
end;
when others =>
Error_Kind ("translate_direct_driver", Name);
end case;
end Translate_Direct_Driver;
end Trans.Chap6;
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