/* * Copyright (c) 2002-2004 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 "compiler.h" # include "PExpr.h" # include /* * To make a NetUserFunc device, make as many pins as there are ports * in the function. Get the port count from the function definition, * which accounts for all the inputs, plus one for the phantom output * that is the result. */ NetUserFunc::NetUserFunc(NetScope*s, perm_string n, NetScope*d, NetEvWait*trigger) : NetNode(s, n, d->func_def()->port_count()+1), def_(d), trigger_(trigger) { pin(0).set_dir(Link::OUTPUT); for (unsigned idx = 1 ; idx < pin_count() ; idx += 1) { pin(idx).set_dir(Link::INPUT); pin(idx).drive0(Link::HIGHZ); pin(idx).drive1(Link::HIGHZ); } } NetUserFunc::~NetUserFunc() { } ivl_variable_type_t NetUserFunc::data_type(unsigned port) const { NetFuncDef*fdef = def_->func_def(); /* Port 0 is the return port. */ if (port == 0) { const NetNet*sig = fdef->return_sig(); assert(sig); return sig->data_type(); } port -= 1; assert(port < fdef->port_count()); const NetNet*port_sig = fdef->port(port); return port_sig->data_type(); } unsigned NetUserFunc::port_width(unsigned port) const { NetFuncDef*fdef = def_->func_def(); /* Port 0 is the return port. */ if (port == 0) { const NetNet*sig = fdef->return_sig(); assert(sig); return sig->vector_width(); } port -= 1; assert(port < fdef->port_count()); const NetNet*port_sig = fdef->port(port); return port_sig->vector_width(); } const NetScope* NetUserFunc::def() const { return def_; } /* * This method of the PECallFunction class checks that the parameters * of the PECallFunction match the function definition. This is used * during elaboration to validate the parameters before using them. */ bool PECallFunction::check_call_matches_definition_(Design*des, NetScope*dscope) const { assert(dscope); /* How many parameters have I got? Normally the size of the list is correct, but there is the special case of a list of 1 nil pointer. This is how the parser tells me of no parameter. In other words, ``func()'' is 1 nil parameter. */ unsigned parms_count = parms_.size(); if ((parms_count == 1) && (parms_[0] == 0)) parms_count = 0; if (dscope->type() != NetScope::FUNC) { cerr << get_fileline() << ": error: Attempt to call scope " << scope_path(dscope) << " as a function." << endl; des->errors += 1; return false; } if (parms_count != dscope->func_def()->port_count()) { cerr << get_fileline() << ": error: Function " << scope_path(dscope) << " expects " << (dscope->func_def()->port_count()) << " arguments, you passed " << parms_count << "." << endl; des->errors += 1; return false; } return true; } NetSysFunc::NetSysFunc(NetScope*s, perm_string n, const struct sfunc_return_type*def, unsigned ports, NetEvWait*trigger) : NetNode(s, n, ports), def_(def), trigger_(trigger) { pin(0).set_dir(Link::OUTPUT); // Q for (unsigned idx = 1 ; idx < pin_count() ; idx += 1) { pin(idx).set_dir(Link::INPUT); pin(idx).drive0(Link::HIGHZ); pin(idx).drive1(Link::HIGHZ); } } NetSysFunc::~NetSysFunc() { } const char*NetSysFunc::func_name() const { return def_->name; } ivl_variable_type_t NetSysFunc::data_type() const { return def_->type; } unsigned NetSysFunc::vector_width() const { return def_->wid; }