/* * Copyright (c) 1998-2008,2010 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 "Statement.h" # include "PExpr.h" Statement::~Statement() { } PAssign_::PAssign_(PExpr*lval__, PExpr*ex, bool is_constant) : event_(0), count_(0), lval_(lval__), rval_(ex), is_constant_(is_constant) { delay_ = 0; } PAssign_::PAssign_(PExpr*lval__, PExpr*de, PExpr*ex) : event_(0), count_(0), lval_(lval__), rval_(ex), is_constant_(false) { delay_ = de; } PAssign_::PAssign_(PExpr*lval__, PExpr*cnt, PEventStatement*ev, PExpr*ex) : event_(ev), count_(cnt), lval_(lval__), rval_(ex), is_constant_(false) { delay_ = 0; } PAssign_::~PAssign_() { delete lval_; delete rval_; } PAssign::PAssign(PExpr*lval__, PExpr*ex) : PAssign_(lval__, ex, false), op_(0) { } PAssign::PAssign(PExpr*lval__, char op, PExpr*ex) : PAssign_(lval__, ex, false), op_(op) { } PAssign::PAssign(PExpr*lval__, PExpr*d, PExpr*ex) : PAssign_(lval__, d, ex), op_(0) { } PAssign::PAssign(PExpr*lval__, PExpr*cnt, PEventStatement*d, PExpr*ex) : PAssign_(lval__, cnt, d, ex), op_(0) { } PAssign::PAssign(PExpr*lval__, PExpr*ex, bool is_constant) : PAssign_(lval__, ex, is_constant), op_(0) { } PAssign::~PAssign() { } PAssignNB::PAssignNB(PExpr*lval__, PExpr*ex) : PAssign_(lval__, ex, false) { } PAssignNB::PAssignNB(PExpr*lval__, PExpr*d, PExpr*ex) : PAssign_(lval__, d, ex) { } PAssignNB::PAssignNB(PExpr*lval__, PExpr*cnt, PEventStatement*d, PExpr*ex) : PAssign_(lval__, cnt, d, ex) { } PAssignNB::~PAssignNB() { } PBlock::PBlock(perm_string n, LexicalScope*parent, BL_TYPE t) : PScope(n, parent), bl_type_(t) { } PBlock::PBlock(BL_TYPE t) : PScope(perm_string()), bl_type_(t) { } PBlock::~PBlock() { for (unsigned idx = 0 ; idx < list_.size() ; idx += 1) delete list_[idx]; } void PBlock::set_statement(const vector&st) { list_ = st; } PCallTask::PCallTask(const pform_name_t&n, const list&p) : path_(n), parms_(p.size()) { list::const_iterator cur = p.begin(); for (size_t idx = 0 ; idx < parms_.size() ; idx += 1) { parms_[idx] = *cur; ++cur; } assert(cur == p.end()); } PCallTask::PCallTask(perm_string n, const list&p) : parms_(p.size()) { list::const_iterator cur = p.begin(); for (size_t idx = 0 ; idx < parms_.size() ; idx += 1) { parms_[idx] = *cur; ++cur; } assert(cur == p.end()); path_.push_back(name_component_t(n)); } PCallTask::~PCallTask() { } const pform_name_t& PCallTask::path() const { return path_; } PCase::PCase(NetCase::TYPE t, PExpr*ex, svector*l) : type_(t), expr_(ex), items_(l) { } PCase::~PCase() { delete expr_; for (unsigned idx = 0 ; idx < items_->count() ; idx += 1) if ((*items_)[idx]->stat) delete (*items_)[idx]->stat; delete[]items_; } PCAssign::PCAssign(PExpr*l, PExpr*r) : lval_(l), expr_(r) { } PCAssign::~PCAssign() { delete lval_; delete expr_; } PCondit::PCondit(PExpr*ex, Statement*i, Statement*e) : expr_(ex), if_(i), else_(e) { } PCondit::~PCondit() { delete expr_; delete if_; delete else_; } PDeassign::PDeassign(PExpr*l) : lval_(l) { } PDeassign::~PDeassign() { delete lval_; } PDelayStatement::PDelayStatement(PExpr*d, Statement*st) : delay_(d), statement_(st) { } PDelayStatement::~PDelayStatement() { } PDisable::PDisable(const pform_name_t&sc) : scope_(sc) { } PDisable::~PDisable() { } PEventStatement::PEventStatement(const svector&ee) : expr_(ee), statement_(0) { assert(expr_.count() > 0); } PEventStatement::PEventStatement(PEEvent*ee) : expr_(1), statement_(0) { expr_[0] = ee; } PEventStatement::PEventStatement(void) : statement_(0) { } PEventStatement::~PEventStatement() { // delete the events and the statement? } void PEventStatement::set_statement(Statement*st) { statement_ = st; } bool PEventStatement::has_aa_term(Design*des, NetScope*scope) { bool flag = false; for (unsigned idx = 0 ; idx < expr_.count() ; idx += 1) { flag = expr_[idx]->has_aa_term(des, scope) || flag; } return flag; } PForce::PForce(PExpr*l, PExpr*r) : lval_(l), expr_(r) { } PForce::~PForce() { delete lval_; delete expr_; } PForever::PForever(Statement*s) : statement_(s) { } PForever::~PForever() { delete statement_; } PForStatement::PForStatement(PExpr*n1, PExpr*e1, PExpr*cond, Statement*step, Statement*st) : name1_(n1), expr1_(e1), cond_(cond), step_(step), statement_(st) { } PForStatement::~PForStatement() { } PProcess::~PProcess() { delete statement_; } PRelease::PRelease(PExpr*l) : lval_(l) { } PRelease::~PRelease() { delete lval_; } PRepeat::PRepeat(PExpr*e, Statement*s) : expr_(e), statement_(s) { } PRepeat::~PRepeat() { delete expr_; delete statement_; } PTrigger::PTrigger(const pform_name_t&e) : event_(e) { } PTrigger::~PTrigger() { } PWhile::PWhile(PExpr*e1, Statement*st) : cond_(e1), statement_(st) { } PWhile::~PWhile() { delete cond_; delete statement_; }