/* * Copyright (c) 1999-2012 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ # include "config.h" # include # include "functor.h" # include "netlist.h" using namespace std; functor_t::~functor_t() { } void functor_t::event(Design*, NetEvent*) { } void functor_t::signal(Design*, NetNet*) { } void functor_t::process(Design*, NetProcTop*) { } void functor_t::lpm_abs(Design*, NetAbs*) { } void functor_t::lpm_add_sub(Design*, NetAddSub*) { } void functor_t::lpm_compare(Design*, NetCompare*) { } void functor_t::lpm_concat(Design*, NetConcat*) { } void functor_t::lpm_const(Design*, NetConst*) { } void functor_t::lpm_divide(Design*, NetDivide*) { } void functor_t::lpm_literal(Design*, NetLiteral*) { } void functor_t::lpm_modulo(Design*, NetModulo*) { } void functor_t::lpm_ff(Design*, NetFF*) { } void functor_t::lpm_logic(Design*, NetLogic*) { } void functor_t::lpm_mult(Design*, NetMult*) { } void functor_t::lpm_mux(Design*, NetMux*) { } void functor_t::lpm_part_select(Design*, NetPartSelect*) { } void functor_t::lpm_pow(Design*, NetPow*) { } void functor_t::sign_extend(Design*, NetSignExtend*) { } void functor_t::lpm_ureduce(Design*, NetUReduce*) { } void NetScope::run_functor(Design*des, functor_t*fun) { for (map::const_iterator cur = children_.begin() ; cur != children_.end() ; ++ cur ) cur->second->run_functor(des, fun); for (NetEvent*cur = events_ ; cur ; /* */) { NetEvent*tmp = cur; cur = cur->snext_; fun->event(des, tmp); } // apply to signals. Each iteration, allow for the possibility // that the current signal deletes itself. signals_map_iter_t cur = signals_map_.begin(); while (cur != signals_map_.end()) { signals_map_iter_t tmp = cur; ++ cur; fun->signal(des, tmp->second); } } void Design::functor(functor_t*fun) { // Scan the scopes for (list::const_iterator scope = root_scopes_.begin(); scope != root_scopes_.end(); ++ scope ) (*scope)->run_functor(this, fun); // apply to processes procs_idx_ = procs_; while (procs_idx_) { NetProcTop*idx = procs_idx_; procs_idx_ = idx->next_; fun->process(this, idx); } // apply to nodes if (nodes_) { assert(nodes_functor_cur_ == 0); assert(nodes_functor_nxt_ == 0); /* Scan the circular list of nodes, starting with the front of the list. This loop interacts with the Design::del_node method so that the functor is free to delete any nodes it choose. The destructors of the NetNode objects call the del_node method, which checks with the nodes_functor_* members, to keep the iterator operating safely. */ nodes_functor_cur_ = nodes_; do { nodes_functor_nxt_ = nodes_functor_cur_->node_next_; nodes_functor_cur_->functor_node(this, fun); if (nodes_functor_nxt_ == 0) break; nodes_functor_cur_ = nodes_functor_nxt_; } while (nodes_ && (nodes_functor_cur_ != nodes_)); nodes_functor_cur_ = 0; nodes_functor_nxt_ = 0; } } void NetNode::functor_node(Design*, functor_t*) { } void NetAbs::functor_node(Design*des, functor_t*fun) { fun->lpm_abs(des, this); } void NetAddSub::functor_node(Design*des, functor_t*fun) { fun->lpm_add_sub(des, this); } void NetCompare::functor_node(Design*des, functor_t*fun) { fun->lpm_compare(des, this); } void NetConcat::functor_node(Design*des, functor_t*fun) { fun->lpm_concat(des, this); } void NetConst::functor_node(Design*des, functor_t*fun) { fun->lpm_const(des, this); } void NetDivide::functor_node(Design*des, functor_t*fun) { fun->lpm_divide(des, this); } void NetFF::functor_node(Design*des, functor_t*fun) { fun->lpm_ff(des, this); } void NetLiteral::functor_node(Design*des, functor_t*fun) { fun->lpm_literal(des, this); } void NetLogic::functor_node(Design*des, functor_t*fun) { fun->lpm_logic(des, this); } void NetModulo::functor_node(Design*des, functor_t*fun) { fun->lpm_modulo(des, this); } void NetMult::functor_node(Design*des, functor_t*fun) { fun->lpm_mult(des, this); } void NetMux::functor_node(Design*des, functor_t*fun) { fun->lpm_mux(des, this); } void NetPartSelect::functor_node(Design*des, functor_t*fun) { fun->lpm_part_select(des, this); } void NetPow::functor_node(Design*des, functor_t*fun) { fun->lpm_pow(des, this); } void NetSignExtend::functor_node(Design*des, functor_t*fun) { fun->sign_extend(des, this); } void NetUReduce::functor_node(Design*des, functor_t*fun) { fun->lpm_ureduce(des, this); } proc_match_t::~proc_match_t() { } int NetProc::match_proc(proc_match_t*) { return 0; } int proc_match_t::assign(NetAssign*) { return 0; } int NetAssign::match_proc(proc_match_t*that) { return that->assign(this); } int proc_match_t::assign_nb(NetAssignNB*) { return 0; } int NetAssignNB::match_proc(proc_match_t*that) { return that->assign_nb(this); } int proc_match_t::block(NetBlock*) { return 0; } int NetBlock::match_proc(proc_match_t*that) { return that->block(this); } int proc_match_t::condit(NetCondit*) { return 0; } int NetCondit::match_proc(proc_match_t*that) { return that->condit(this); } int NetEvWait::match_proc(proc_match_t*that) { return that->event_wait(this); } int proc_match_t::event_wait(NetEvWait*) { return 0; }