/* * Copyright (c) 1999-2008 Stephen Williams (steve@icarus.com) * * This source code is free software; you can redistribute it * and/or modify it in source code form 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA */ # include "config.h" # include "netlist.h" # include "netmisc.h" /* * This function transforms an expression by padding the high bits * with V0 until the expression has the desired width. This may mean * not transforming the expression at all, if it is already wide * enough. */ NetExpr*pad_to_width(NetExpr*expr, unsigned wid, const LineInfo&info) { if (wid <= expr->expr_width()) return expr; /* If the expression is a const, then replace it with a wider const. This is a more efficient result. */ if (NetEConst*tmp = dynamic_cast(expr)) { verinum oval = pad_to_width(tmp->value(), wid); tmp = new NetEConst(oval); tmp->set_line(info); delete expr; return tmp; } NetESelect*tmp = new NetESelect(expr, 0, wid); tmp->set_line(info); tmp->cast_signed(expr->has_sign()); return tmp; } /* * Pad a NetNet to the desired vector width by concatenating a * NetConst of constant zeros. Use a NetConcat node to do the * concatenation. */ NetNet*pad_to_width(Design*des, NetNet*net, unsigned wid, const LineInfo&info) { NetScope*scope = net->scope(); if (net->vector_width() >= wid) return net; // Make the NetConcat and connect the input net to the lsb input. NetConcat*cc = new NetConcat(scope, scope->local_symbol(), wid, 2); des->add_node(cc); connect(cc->pin(1), net->pin(0)); // Make a NetConst of the desired width and connect in to the // lsb input of the NetConcat. verinum pad(verinum::V0, wid - net->vector_width()); NetConst*con = new NetConst(scope, scope->local_symbol(), pad); des->add_node(con); connect(cc->pin(2), con->pin(0)); // Make a NetNet for the NetConst to NetConcat link. NetNet*tmp = new NetNet(scope, scope->local_symbol(), NetNet::WIRE, wid - net->vector_width()); tmp->data_type( net->data_type() ); tmp->set_line(info); tmp->local_flag(true); connect(cc->pin(2), tmp->pin(0)); // Create a NetNet of the output width and connect it to the // NetConcat node output pin. tmp = new NetNet(scope, scope->local_symbol(), NetNet::WIRE, wid); tmp->data_type( net->data_type() ); tmp->set_line(info); tmp->local_flag(true); connect(cc->pin(0), tmp->pin(0)); return tmp; } NetNet*pad_to_width_signed(Design*des, NetNet*net, unsigned wid, const LineInfo&info) { NetScope*scope = net->scope(); if (net->vector_width() >= wid) return net; NetSignExtend*se = new NetSignExtend(scope, scope->local_symbol(), wid); se->set_line(info); des->add_node(se); NetNet*tmp = new NetNet(scope, scope->local_symbol(), NetNet::WIRE, wid); tmp->set_line(info); tmp->local_flag(true); tmp->data_type(net->data_type()); tmp->set_signed(true); connect(tmp->pin(0), se->pin(0)); connect(se->pin(1), net->pin(0)); return tmp; } NetNet*crop_to_width(Design*des, NetNet*net, unsigned wid) { NetScope*scope = net->scope(); if (net->vector_width() <= wid) return net; NetPartSelect*ps = new NetPartSelect(net, 0, wid, NetPartSelect::VP); des->add_node(ps); ps->set_line(*net); NetNet*tmp = new NetNet(scope, scope->local_symbol(), NetNet::WIRE, wid); tmp->data_type(net->data_type()); tmp->local_flag(true); tmp->set_line(*tmp); connect(ps->pin(0), tmp->pin(0)); return tmp; }