-- Values in synthesis. -- Copyright (C) 2017 Tristan Gingold -- -- This file is part of GHDL. -- -- This program 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 of the License, or -- (at your option) any later version. -- -- This program 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 this program; if not, write to the Free Software -- Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, -- MA 02110-1301, USA. with Types; use Types; with Areapools; use Areapools; with Netlists; use Netlists; with Grt.Types; use Grt.Types; with Vhdl.Nodes; use Vhdl.Nodes; package Synth.Objtypes is type Discrete_Range_Type is record -- An integer range. Dir : Direction_Type; -- Netlist representation: signed or unsigned, width of vector. Is_Signed : Boolean; Left : Int64; Right : Int64; end record; -- Return the width of RNG. function Discrete_Range_Width (Rng : Discrete_Range_Type) return Width; type Float_Range_Type is record Dir : Direction_Type; Left : Fp64; Right : Fp64; end record; type Bound_Type is record Dir : Direction_Type; Left : Int32; Right : Int32; Len : Width; end record; type Bound_Array_Type is array (Dim_Type range <>) of Bound_Type; type Bound_Array (Ndim : Dim_Type) is record D : Bound_Array_Type (1 .. Ndim); end record; type Bound_Array_Acc is access Bound_Array; type Type_Kind is ( Type_Bit, Type_Logic, Type_Discrete, Type_Float, Type_Vector, Type_Unbounded_Vector, -- A slice is for a slice of vector with dynamic bounds. So the bounds -- of the result aren't known, but its width is. Type_Slice, Type_Array, Type_Unbounded_Array, Type_Unbounded_Record, Type_Record, Type_Access, Type_File, Type_Protected ); subtype Type_Nets is Type_Kind range Type_Bit .. Type_Logic; subtype Type_All_Discrete is Type_Kind range Type_Bit .. Type_Discrete; subtype Type_Records is Type_Kind range Type_Unbounded_Record .. Type_Record; type Type_Type (Kind : Type_Kind); type Type_Acc is access Type_Type; type Rec_El_Type is record -- Bit offset: offset of the element in a net. Boff : Uns32; -- Memory offset: offset of the element in memory. Moff : Size_Type; -- Type of the element. Typ : Type_Acc; end record; type Rec_El_Array_Type is array (Iir_Index32 range <>) of Rec_El_Type; type Rec_El_Array (Len : Iir_Index32) is record E : Rec_El_Array_Type (1 .. Len); end record; type Rec_El_Array_Acc is access Rec_El_Array; -- Power of 2 alignment. type Palign_Type is range 0 .. 3; type Type_Type (Kind : Type_Kind) is record -- False if the type is not synthesisable: is or contains access/file. Is_Synth : Boolean; -- Alignment (in bytes) for this type. Al : Palign_Type; -- Number of bytes (when in memory) for this type. Sz : Size_Type; -- Number of bits (when in a net) for this type. -- Can be zero only if the type has only 0 or 1 value (like a discrete -- type with 1 element, a null vector, or a null array). -- For non synthesizable types (like files or protected type), just -- use 32. W : Width; case Kind is when Type_Bit | Type_Logic => null; when Type_Discrete => Drange : Discrete_Range_Type; when Type_Float => Frange : Float_Range_Type; when Type_Vector => Vbound : Bound_Type; Vec_El : Type_Acc; when Type_Unbounded_Vector => Uvec_El : Type_Acc; when Type_Slice => Slice_El : Type_Acc; when Type_Array => Abounds : Bound_Array_Acc; Arr_El : Type_Acc; when Type_Unbounded_Array => Uarr_Ndim : Dim_Type; Uarr_El : Type_Acc; when Type_Record | Type_Unbounded_Record => Rec : Rec_El_Array_Acc; when Type_Access => Acc_Acc : Type_Acc; when Type_File => File_Typ : Type_Acc; File_Signature : String_Acc; when Type_Protected => null; end case; end record; type Memory_Element is mod 2**8; type Memory_Array is array (Size_Type range <>) of Memory_Element; -- Thin pointer for a generic pointer. type Memory_Ptr is access all Memory_Array (Size_Type); pragma No_Strict_Aliasing (Memory_Ptr); type Memtyp is record Typ : Type_Acc; Mem : Memory_Ptr; end record; Null_Memtyp : constant Memtyp := (null, null); -- Offsets for a value. type Value_Offsets is record Net_Off : Uns32; Mem_Off : Size_Type; end record; No_Value_Offsets : constant Value_Offsets := (0, 0); function "+" (L, R : Value_Offsets) return Value_Offsets; Global_Pool : aliased Areapool; Expr_Pool : aliased Areapool; -- Areapool used by Create_*_Value Current_Pool : Areapool_Acc := Expr_Pool'Access; -- Pool for objects allocated in the current instance. Instance_Pool : Areapool_Acc; -- Types. function Create_Discrete_Type (Rng : Discrete_Range_Type; Sz : Size_Type; W : Width) return Type_Acc; function Create_Float_Type (Rng : Float_Range_Type) return Type_Acc; function Create_Vec_Type_By_Length (Len : Width; El : Type_Acc) return Type_Acc; function Create_Vector_Type (Bnd : Bound_Type; El_Type : Type_Acc) return Type_Acc; function Create_Unbounded_Vector (El_Type : Type_Acc) return Type_Acc; function Create_Slice_Type (Len : Uns32; El_Type : Type_Acc) return Type_Acc; function Create_Bound_Array (Ndims : Dim_Type) return Bound_Array_Acc; function Create_Array_Type (Bnd : Bound_Array_Acc; El_Type : Type_Acc) return Type_Acc; function Create_Unbounded_Array (Ndim : Dim_Type; El_Type : Type_Acc) return Type_Acc; function Create_Rec_El_Array (Nels : Iir_Index32) return Rec_El_Array_Acc; function Create_Record_Type (Els : Rec_El_Array_Acc) return Type_Acc; function Create_Unbounded_Record (Els : Rec_El_Array_Acc) return Type_Acc; function Create_Access_Type (Acc_Type : Type_Acc) return Type_Acc; function Create_File_Type (File_Type : Type_Acc) return Type_Acc; function Create_Protected_Type return Type_Acc; function In_Bounds (Bnd : Bound_Type; V : Int32) return Boolean; function In_Range (Rng : Discrete_Range_Type; V : Int64) return Boolean; -- Return the bounds of dimension DIM of a vector/array. For a vector, -- DIM must be 1. function Get_Array_Bound (Typ : Type_Acc; Dim : Dim_Type) return Bound_Type; -- Return the length of RNG. function Get_Range_Length (Rng : Discrete_Range_Type) return Uns32; -- Return the element of a vector/array/unbounded_array. function Get_Array_Element (Arr_Type : Type_Acc) return Type_Acc; function Is_Bounded_Type (Typ : Type_Acc) return Boolean; function Are_Types_Equal (L, R : Type_Acc) return Boolean; -- Return the length of a vector type. function Vec_Length (Typ : Type_Acc) return Iir_Index32; -- Get the number of indexes in array type TYP without counting -- sub-elements. function Get_Array_Flat_Length (Typ : Type_Acc) return Iir_Index32; -- Return length of dimension DIM of type T. function Get_Bound_Length (T : Type_Acc; Dim : Dim_Type) return Width; function Is_Matching_Bounds (L, R : Type_Acc) return Boolean; function Get_Type_Width (Atype : Type_Acc) return Width; -- Low-level functions. function "+" (Base : Memory_Ptr; Off : Size_Type) return Memory_Ptr; procedure Write_U8 (Mem : Memory_Ptr; Val : Ghdl_U8); function Read_U8 (Mem : Memory_Ptr) return Ghdl_U8; function Read_U8 (Mt : Memtyp) return Ghdl_U8; procedure Write_U32 (Mem : Memory_Ptr; Val : Ghdl_U32); function Read_U32 (Mem : Memory_Ptr) return Ghdl_U32; procedure Write_I32 (Mem : Memory_Ptr; Val : Ghdl_I32); function Read_I32 (Mem : Memory_Ptr) return Ghdl_I32; procedure Write_I64 (Mem : Memory_Ptr; Val : Ghdl_I64); function Read_I64 (Mem : Memory_Ptr) return Ghdl_I64; procedure Write_Fp64 (Mem : Memory_Ptr; Val : Fp64); function Read_Fp64 (Mem : Memory_Ptr) return Fp64; function Read_Fp64 (Mt : Memtyp) return Fp64; procedure Write_Discrete (Mem : Memory_Ptr; Typ : Type_Acc; Val : Int64); function Read_Discrete (Mt : Memtyp) return Int64; -- Memory allocation. function Create_Memory_U8 (Val : Ghdl_U8; Vtype : Type_Acc) return Memtyp; function Create_Memory_Fp64 (Val : Fp64; Vtype : Type_Acc) return Memtyp; function Create_Memory_Discrete (Val : Int64; Vtype : Type_Acc) return Memtyp; function Alloc_Memory (Vtype : Type_Acc) return Memory_Ptr; function Create_Memory (Vtype : Type_Acc) return Memtyp; -- Like Create_Memory but initialize to 0. To be used only for types -- of width 0. function Create_Memory_Zero (Vtype : Type_Acc) return Memtyp; function Is_Equal (L, R : Memtyp) return Boolean; procedure Copy_Memory (Dest : Memory_Ptr; Src : Memory_Ptr; Sz : Size_Type); function Unshare (Src : Memtyp) return Memtyp; procedure Init; -- Set by Init. Boolean_Type : Type_Acc := null; Logic_Type : Type_Acc := null; Bit_Type : Type_Acc := null; -- Also set by init. Bit0 : Memtyp; Bit1 : Memtyp; end Synth.Objtypes;