-- API to build a netlist. -- 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 Ada.Unchecked_Deallocation; with Netlists.Gates; use Netlists.Gates; package Netlists.Builders is type Context is private; type Context_Acc is access Context; type Uns32_Arr is array (Natural range <>) of Uns32; type Uns32_Arr_Acc is access Uns32_Arr; procedure Unchecked_Deallocate is new Ada.Unchecked_Deallocation (Uns32_Arr, Uns32_Arr_Acc); function New_Internal_Name (Ctxt : Context_Acc; Prefix : Sname := No_Sname) return Sname; -- Create a builder for Design. Must be called once. function Build_Builders (Design : Module) return Context_Acc; function Get_Design (Ctxt : Context_Acc) return Module; -- Set the parent for the new instances. procedure Set_Parent (Ctxt : Context_Acc; Parent : Module); function Build_Dyadic (Ctxt : Context_Acc; Id : Dyadic_Module_Id; L, R : Net) return Net; function Build_Shift_Rotate (Ctxt : Context_Acc; Id : Shift_Rotate_Module_Id; L, R : Net) return Net; function Build_Monadic (Ctxt : Context_Acc; Id : Monadic_Module_Id; Op : Net) return Net; function Build_Compare (Ctxt : Context_Acc; Id : Compare_Module_Id; L, R : Net) return Net; function Build_Reduce (Ctxt : Context_Acc; Id : Reduce_Module_Id; Op : Net) return Net; function Build_Const_X (Ctxt : Context_Acc; W : Width) return Net; function Build_Const_Z (Ctxt : Context_Acc; W : Width) return Net; function Build_Const_UB32 (Ctxt : Context_Acc; Val : Uns32; W : Width) return Net; function Build_Const_UL32 (Ctxt : Context_Acc; Val : Uns32; Xz : Uns32; W : Width) return Net; function Build_Const_SB32 (Ctxt : Context_Acc; Val : Int32; W : Width) return Net; -- Large constants. -- Bit means only 0 or 1. -- Log means 0/1/Z/X. Parameters 2N are aval, 2N+1 are bval. function Build_Const_Bit (Ctxt : Context_Acc; W : Width) return Instance; function Build_Const_Log (Ctxt : Context_Acc; W : Width) return Instance; function Build_Posedge (Ctxt : Context_Acc; Src : Net) return Net; function Build_Negedge (Ctxt : Context_Acc; Src : Net) return Net; function Build_Mux2 (Ctxt : Context_Acc; Sel : Net; I0, I1 : Net) return Net; function Build_Mux4 (Ctxt : Context_Acc; Sel : Net; I0, I1, I2, I3 : Net) return Net; -- Build: I0 & I1 [ & I2 [ & I3 ]] function Build_Concat2 (Ctxt : Context_Acc; I0, I1 : Net) return Net; function Build_Concat3 (Ctxt : Context_Acc; I0, I1, I2 : Net) return Net; function Build_Concat4 (Ctxt : Context_Acc; I0, I1, I2, I3 : Net) return Net; -- NBR_INPUTS is the number of inputs ports, W is the width of the -- output. function Build_Concatn (Ctxt : Context_Acc; W : Width; Nbr_Inputs : Uns32) return Net; function Build_Trunc (Ctxt : Context_Acc; Id : Module_Id; I : Net; W : Width) return Net; function Build_Extend (Ctxt : Context_Acc; Id : Module_Id; I : Net; W : Width) return Net; function Build_Extract (Ctxt : Context_Acc; I : Net; Off, W : Width) return Net; function Build_Extract_Bit (Ctxt : Context_Acc; I : Net; Off : Width) return Net; function Build_Dyn_Extract (Ctxt : Context_Acc; Mem : Net; Idx : Net; Off : Uns32; W : Width) return Net; function Build_Dyn_Insert (Ctxt : Context_Acc; Mem : Net; V : Net; Idx : Net; Off : Uns32) return Net; function Build_Dyn_Insert_En (Ctxt : Context_Acc; Mem : Net; V : Net; Idx : Net; En : Net; Off : Uns32) return Net; function Build_Memidx (Ctxt : Context_Acc; I : Net; Step : Uns32; Max : Uns32; W : Width) return Net; function Build_Addidx (Ctxt : Context_Acc; L, R : Net) return Net; function Build_Memory (Ctxt : Context_Acc; W : Width) return Instance; function Build_Memory_Init (Ctxt : Context_Acc; W : Width; Init : Net) return Instance; function Build_Mem_Rd (Ctxt : Context_Acc; Pport : Net; Addr : Net; Data_W : Width) return Instance; function Build_Mem_Rd_Sync (Ctxt : Context_Acc; Pport : Net; Addr : Net; Clk : Net; En : Net; Data_W : Width) return Instance; function Build_Mem_Wr_Sync (Ctxt : Context_Acc; Pport : Net; Addr : Net; Clk : Net; En : Net; Data : Net) return Instance; function Build_Mem_Multiport (Ctxt : Context_Acc; I0, I1 : Net) return Net; function Build_Output (Ctxt : Context_Acc; W : Width) return Net; function Build_Ioutput (Ctxt : Context_Acc; Init : Net) return Net; function Build_Inout (Ctxt : Context_Acc; W : Width) return Instance; function Build_Signal (Ctxt : Context_Acc; Name : Sname; W : Width) return Net; function Build_Isignal (Ctxt : Context_Acc; Name : Sname; Init : Net) return Net; function Build_Port (Ctxt : Context_Acc; N : Net) return Net; function Build_Assert (Ctxt : Context_Acc; Name : Sname; Cond : Net) return Instance; function Build_Assume (Ctxt : Context_Acc; Name : Sname; Cond : Net) return Instance; function Build_Cover (Ctxt : Context_Acc; Name : Sname; Cond : Net) return Instance; function Build_Assert_Cover (Ctxt : Context_Acc; Name : Sname; Cond : Net) return Instance; function Build_Formal_Input (Ctxt : Context_Acc; Id : Formal_Module_Id; W : Width) return Net; -- A simple flip-flop. function Build_Dff (Ctxt : Context_Acc; Clk : Net; D : Net) return Net; -- A flip-flop with an initial value (only for fpga) -- The width is derived from INIT and D can be No_Net. function Build_Idff (Ctxt : Context_Acc; Clk : Net; D : Net; Init : Net) return Net; function Build_Adff (Ctxt : Context_Acc; Clk : Net; D : Net; Rst : Net; Rst_Val : Net) return Net; function Build_Iadff (Ctxt : Context_Acc; Clk : Net; D : Net; Rst : Net; Rst_Val : Net; Init : Net) return Net; function Build_Mdff (Ctxt : Context_Acc; Clk : Net; D : Net; Els : Net) return Net; function Build_Midff (Ctxt : Context_Acc; Clk : Net; D : Net; Els : Net; Init : Net) return Net; function Build_Tri (Ctxt : Context_Acc; En : Net; D : Net) return Net; function Build_Resolver (Ctxt : Context_Acc; L, R : Net) return Net; function Build_Nop (Ctxt : Context_Acc; I : Net) return Net; private type Module_Arr is array (Module_Id range <>) of Module; type Context is record Design : Module; Parent : Module; Num : Uns32; M_Dyadic : Module_Arr (Dyadic_Module_Id); M_Shift_Rotate : Module_Arr (Shift_Rotate_Module_Id); M_Monadic : Module_Arr (Monadic_Module_Id); M_Compare : Module_Arr (Compare_Module_Id); M_Concat : Module_Arr (Concat_Module_Id); M_Concatn : Module; M_Const_UB32 : Module; M_Const_SB32 : Module; M_Const_UL32 : Module; M_Const_X : Module; M_Const_Z : Module; M_Const_Bit : Module; M_Const_Log : Module; M_Posedge : Module; M_Negedge : Module; M_Mux2 : Module; M_Mux4 : Module; M_Nop : Module; M_Output : Module; M_Ioutput : Module; M_Signal : Module; M_Isignal : Module; M_Port : Module; M_Inout : Module; M_Dff : Module; M_Idff : Module; M_Adff : Module; M_Iadff : Module; M_Mdff : Module; M_Midff : Module; M_Tri : Module; M_Resolver : Module; M_Truncate : Module_Arr (Truncate_Module_Id); M_Extend : Module_Arr (Extend_Module_Id); M_Reduce : Module_Arr (Reduce_Module_Id); M_Extract : Module; M_Dyn_Extract : Module; M_Dyn_Insert : Module; M_Dyn_Insert_En : Module; M_Memidx : Module; M_Addidx : Module; M_Memory : Module; M_Memory_Init : Module; M_Mem_Rd : Module; M_Mem_Rd_Sync : Module; M_Mem_Wr_Sync : Module; M_Mem_Multiport : Module; M_Assert : Module; M_Assume : Module; M_Cover : Module; M_Assert_Cover : Module; M_Formal_Input : Module_Arr (Formal_Module_Id); end record; end Netlists.Builders;