/**************************************************************************** ** ** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies). ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the QLALR project on Qt Labs. ** ** $QT_BEGIN_LICENSE:LGPL$ ** No Commercial Usage ** This file contains pre-release code and may not be distributed. ** You may use this file in accordance with the terms and conditions ** contained in the either Technology Preview License Agreement or the ** Beta Release License Agreement. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain ** additional rights. These rights are described in the Nokia Qt LGPL ** Exception version 1.0, included in the file LGPL_EXCEPTION.txt in this ** package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3.0 as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU General Public License version 3.0 requirements will be ** met: http://www.gnu.org/copyleft/gpl.html. ** ** If you are unsure which license is appropriate for your use, please ** contact the sales department at http://qt.nokia.com/contact. ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "lalr.h" #include #include #define QLALR_NO_DEBUG_NULLABLES #define QLALR_NO_DEBUG_LOOKBACKS #define QLALR_NO_DEBUG_DIRECT_READS #define QLALR_NO_DEBUG_READS #define QLALR_NO_DEBUG_INCLUDES #define QLALR_NO_DEBUG_LOOKAHEADS QT_BEGIN_NAMESPACE QTextStream qerr (stderr, QIODevice::WriteOnly); QTextStream qout (stdout, QIODevice::WriteOnly); bool operator < (Name a, Name b) { return *a < *b; } bool operator < (ItemPointer a, ItemPointer b) { return &*a < &*b; } bool operator < (StatePointer a, StatePointer b) { return &*a < &*b; } QT_END_NAMESPACE bool Read::operator < (const Read &other) const { if (state == other.state) return nt < other.nt; return state < other.state; } bool Include::operator < (const Include &other) const { if (state == other.state) return nt < other.nt; return state < other.state; } bool Lookback::operator < (const Lookback &other) const { if (state == other.state) return nt < other.nt; return state < other.state; } QTextStream &operator << (QTextStream &out, const Name &n) { return out << *n; } QTextStream &operator << (QTextStream &out, const Rule &r) { out << *r.lhs << " ::="; for (NameList::const_iterator name = r.rhs.begin (); name != r.rhs.end (); ++name) out << " " << **name; return out; } QTextStream &operator << (QTextStream &out, const NameSet &ns) { out << "{"; for (NameSet::const_iterator n = ns.begin (); n != ns.end (); ++n) { if (n != ns.begin ()) out << ", "; out << *n; } return out << "}"; } Item Item::next () const { Q_ASSERT (! isReduceItem ()); Item n; n.rule = rule; n.dot = dot; ++n.dot; return n; } QTextStream &operator << (QTextStream &out, const Item &item) { RulePointer r = item.rule; out << *r->lhs << ":"; for (NameList::iterator name = r->rhs.begin (); name != r->rhs.end (); ++name) { out << " "; if (item.dot == name) out << ". "; out << **name; } if (item.isReduceItem ()) out << " ."; return out; } State::State (Grammar *g): defaultReduce (g->rules.end ()) { } QPair State::insert (const Item &item) { ItemPointer it = qFind (kernel.begin (), kernel.end (), item); if (it != kernel.end ()) return qMakePair (it, false); return qMakePair (kernel.insert (it, item), true); } QPair State::insertClosure (const Item &item) { ItemPointer it = qFind (closure.begin (), closure.end (), item); if (it != closure.end ()) return qMakePair (it, false); return qMakePair (closure.insert (it, item), true); } ///////////////////////////////////////////////////////////// // Grammar ///////////////////////////////////////////////////////////// Grammar::Grammar (): start (names.end ()) { expected_shift_reduce = 0; expected_reduce_reduce = 0; current_prec = 0; current_assoc = NonAssoc; table_name = QLatin1String ("parser_table"); tk_end = intern ("$end"); terminals.insert (tk_end); spells.insert (tk_end, "end of file"); /*tk_error= terminals.insert (intern ("error"))*/; } Name Grammar::intern (const QString &id) { Name name = qFind (names.begin (), names.end (), id); if (name == names.end ()) name = names.insert (names.end (), id); return name; } void Grammar::buildRuleMap () { NameSet undefined; for (RulePointer rule = rules.begin (); rule != rules.end (); ++rule) { for (NameList::iterator it = rule->rhs.begin (); it != rule->rhs.end (); ++it) { Name name = *it; if (isTerminal (name) || declared_lhs.find (name) != declared_lhs.end () || undefined.find (name) != undefined.end ()) continue; undefined.insert(name); fprintf (stderr, "*** Warning. Symbol `%s' is not defined\n", qPrintable (*name)); } rule_map.insert (rule->lhs, rule); } } void Grammar::buildExtendedGrammar () { accept_symbol = intern ("$accept"); goal = rules.insert (rules.end (), Rule ()); goal->lhs = accept_symbol; goal->rhs.push_back (start); goal->rhs.push_back (tk_end); non_terminals.insert (accept_symbol); } struct _Nullable: public std::unary_function { Automaton *_M_automaton; _Nullable (Automaton *aut): _M_automaton (aut) {} bool operator () (Name name) const { return _M_automaton->nullables.find (name) != _M_automaton->nullables.end (); } }; Automaton::Automaton (Grammar *g): _M_grammar (g), start (states.end ()) { } int Automaton::id (RulePointer rule) { return 1 + std::distance (_M_grammar->rules.begin (), rule); } int Automaton::id (Name name) { return std::distance (_M_grammar->names.begin (), name); } int Automaton::id (StatePointer state) { return std::distance (states.begin (), state); } void Automaton::build () { Item item; item.rule = _M_grammar->goal; item.dot = _M_grammar->goal->rhs.begin (); State tmp (_M_grammar); tmp.insert (item); start = internState (tmp).first; closure (start); buildNullables (); buildLookbackSets (); buildReads (); buildIncludesAndFollows (); buildLookaheads (); buildDefaultReduceActions (); } void Automaton::buildNullables () { bool changed = true; while (changed) { changed = false; for (RulePointer rule = _M_grammar->rules.begin (); rule != _M_grammar->rules.end (); ++rule) { NameList::iterator nn = std::find_if (rule->rhs.begin (), rule->rhs.end (), std::not1 (_Nullable (this))); if (nn == rule->rhs.end ()) changed |= nullables.insert (rule->lhs).second; } } #ifndef QLALR_NO_DEBUG_NULLABLES qerr << "nullables = {" << nullables << endl; #endif } QPair Automaton::internState (const State &state) { StatePointer it = qFind (states.begin (), states.end (), state); if (it != states.end ()) return qMakePair (it, false); return qMakePair (states.insert (it, state), true); } struct _Bucket { QLinkedList items; void insert (ItemPointer item) { items.push_back (item); } State toState (Automaton *aut) { State st (aut->_M_grammar); for (QLinkedList::iterator item = items.begin (); item != items.end (); ++item) st.insert ((*item)->next ()); return st; } }; void Automaton::closure (StatePointer state) { if (! state->closure.empty ()) // ### not true. return; typedef QMap bucket_map_type; bucket_map_type buckets; QStack working_list; for (ItemPointer item = state->kernel.begin (); item != state->kernel.end (); ++item) working_list.push (item); state->closure = state->kernel; while (! working_list.empty ()) { ItemPointer item = working_list.top (); working_list.pop (); if (item->isReduceItem ()) continue; buckets [*item->dot].insert (item); if (_M_grammar->isNonTerminal (*item->dot)) { foreach (RulePointer rule, _M_grammar->rule_map.values (*item->dot)) { Item ii; ii.rule = rule; ii.dot = rule->rhs.begin (); QPair r = state->insertClosure (ii); if (r.second) working_list.push (r.first); } } } QList todo; for (bucket_map_type::iterator bucket = buckets.begin (); bucket != buckets.end (); ++bucket) { QPair r = internState (bucket->toState (this)); StatePointer target = r.first; if (r.second) todo.push_back (target); state->bundle.insert (bucket.key(), target); } while (! todo.empty ()) { closure (todo.front ()); todo.pop_front (); } } void Automaton::buildLookbackSets () { for (StatePointer p = states.begin (); p != states.end (); ++p) { for (Bundle::iterator a = p->bundle.begin (); a != p->bundle.end (); ++a) { Name A = a.key (); if (! _M_grammar->isNonTerminal (A)) continue; foreach (RulePointer rule, _M_grammar->rule_map.values (A)) { StatePointer q = p; for (NameList::iterator dot = rule->rhs.begin (); dot != rule->rhs.end (); ++dot) q = q->bundle.value (*dot, states.end ()); Q_ASSERT (q != states.end ()); ItemPointer item = q->closure.begin (); for (; item != q->closure.end (); ++item) { if (item->rule == rule && item->dot == item->end_rhs ()) break; } if (item == q->closure.end ()) { Q_ASSERT (q == p); Q_ASSERT (rule->rhs.begin () == rule->rhs.end ()); for (item = q->closure.begin (); item != q->closure.end (); ++item) { if (item->rule == rule && item->dot == item->end_rhs ()) break; } } Q_ASSERT (item != q->closure.end ()); lookbacks.insert (item, Lookback (p, A)); #ifndef QLALR_NO_DEBUG_LOOKBACKS qerr << "*** (" << id (q) << ", " << *rule << ") lookback (" << id (p) << ", " << *A << ")" << endl; #endif } } } } void Automaton::buildDirectReads () { for (StatePointer q = states.begin (); q != states.end (); ++q) { for (Bundle::iterator a = q->bundle.begin (); a != q->bundle.end (); ++a) { if (! _M_grammar->isNonTerminal (a.key ())) continue; StatePointer r = a.value (); for (Bundle::iterator z = r->bundle.begin (); z != r->bundle.end (); ++z) { Name sym = z.key (); if (! _M_grammar->isTerminal (sym)) continue; q->reads [a.key ()].insert (sym); } } #ifndef QLALR_NO_DEBUG_DIRECT_READS for (QMap::iterator dr = q->reads.begin (); dr != q->reads.end (); ++dr) qerr << "*** DR(" << id (q) << ", " << dr.key () << ") = " << dr.value () << endl; #endif } } void Automaton::buildReadsDigraph () { for (StatePointer q = states.begin (); q != states.end (); ++q) { for (Bundle::iterator a = q->bundle.begin (); a != q->bundle.end (); ++a) { if (! _M_grammar->isNonTerminal (a.key ())) continue; StatePointer r = a.value (); for (Bundle::iterator z = r->bundle.begin (); z != r->bundle.end (); ++z) { Name sym = z.key (); if (! _M_grammar->isNonTerminal(sym) || nullables.find (sym) == nullables.end ()) continue; ReadsGraph::iterator source = ReadsGraph::get (Read (q, a.key ())); ReadsGraph::iterator target = ReadsGraph::get (Read (r, sym)); source->insertEdge (target); #ifndef QLALR_NO_DEBUG_READS qerr << "*** "; dump (qerr, source); qerr << " reads "; dump (qerr, target); qerr << endl; #endif } } } } void Automaton::buildReads () { buildDirectReads (); buildReadsDigraph (); _M_reads_dfn = 0; for (ReadsGraph::iterator node = ReadsGraph::begin_nodes (); node != ReadsGraph::end_nodes (); ++node) { if (! node->root) continue; visitReadNode (node); } for (ReadsGraph::iterator node = ReadsGraph::begin_nodes (); node != ReadsGraph::end_nodes (); ++node) visitReadNode (node); } void Automaton::visitReadNode (ReadNode node) { if (node->dfn != 0) return; // nothing to do int N = node->dfn = ++_M_reads_dfn; _M_reads_stack.push (node); #ifndef QLALR_NO_DEBUG_INCLUDES // qerr << "*** Debug. visit node (" << id (node->data.state) << ", " << node->data.nt << ") N = " << N << endl; #endif for (ReadsGraph::edge_iterator edge = node->begin (); edge != node->end (); ++edge) { ReadsGraph::iterator r = *edge; Name nt = r->data.nt; visitReadNode (r); node->dfn = qMin (N, r->dfn); NameSet &dst = node->data.state->reads [node->data.nt]; NameSet &src = r->data.state->reads [r->data.nt]; dst.insert (src.begin (), src.end ()); } if (node->dfn == N) { ReadsGraph::iterator tos = _M_reads_stack.top (); do { tos = _M_reads_stack.top (); _M_reads_stack.pop (); tos->dfn = INT_MAX; } while (tos != node); } } void Automaton::buildIncludesAndFollows () { for (StatePointer p = states.begin (); p != states.end (); ++p) p->follows = p->reads; buildIncludesDigraph (); _M_includes_dfn = 0; for (IncludesGraph::iterator node = IncludesGraph::begin_nodes (); node != IncludesGraph::end_nodes (); ++node) { if (! node->root) continue; visitIncludeNode (node); } for (IncludesGraph::iterator node = IncludesGraph::begin_nodes (); node != IncludesGraph::end_nodes (); ++node) visitIncludeNode (node); } void Automaton::buildIncludesDigraph () { for (StatePointer pp = states.begin (); pp != states.end (); ++pp) { for (Bundle::iterator a = pp->bundle.begin (); a != pp->bundle.end (); ++a) { Name name = a.key (); if (! _M_grammar->isNonTerminal (name)) continue; foreach (RulePointer rule, _M_grammar->rule_map.values (name)) { StatePointer p = pp; for (NameList::iterator A = rule->rhs.begin (); A != rule->rhs.end (); ++A) { NameList::iterator dot = A; ++dot; if (_M_grammar->isNonTerminal (*A) && dot == rule->rhs.end ()) { // found an include edge. IncludesGraph::iterator target = IncludesGraph::get (Include (pp, name)); IncludesGraph::iterator source = IncludesGraph::get (Include (p, *A)); source->insertEdge (target); #ifndef QLALR_NO_DEBUG_INCLUDES qerr << "*** (" << id (p) << ", " << *A << ") includes (" << id (pp) << ", " << *name << ")" << endl; #endif // QLALR_NO_DEBUG_INCLUDES continue; } p = p->bundle.value (*A); if (! _M_grammar->isNonTerminal (*A)) continue; NameList::iterator first_not_nullable = std::find_if (dot, rule->rhs.end (), std::not1 (_Nullable (this))); if (first_not_nullable != rule->rhs.end ()) continue; // found an include edge. IncludesGraph::iterator target = IncludesGraph::get (Include (pp, name)); IncludesGraph::iterator source = IncludesGraph::get (Include (p, *A)); source->insertEdge (target); #ifndef QLALR_NO_DEBUG_INCLUDES qerr << "*** (" << id (p) << ", " << *A << ") includes (" << id (pp) << ", " << *name << ")" << endl; #endif // QLALR_NO_DEBUG_INCLUDES } } } } } void Automaton::visitIncludeNode (IncludeNode node) { if (node->dfn != 0) return; // nothing to do int N = node->dfn = ++_M_includes_dfn; _M_includes_stack.push (node); #ifndef QLALR_NO_DEBUG_INCLUDES // qerr << "*** Debug. visit node (" << id (node->data.state) << ", " << node->data.nt << ") N = " << N << endl; #endif for (IncludesGraph::edge_iterator edge = node->begin (); edge != node->end (); ++edge) { IncludesGraph::iterator r = *edge; Name nt = r->data.nt; visitIncludeNode (r); node->dfn = qMin (N, r->dfn); #ifndef QLALR_NO_DEBUG_INCLUDES qerr << "*** Merge. follows"; dump (qerr, node); qerr << " += follows"; dump (qerr, r); qerr << endl; #endif NameSet &dst = node->data.state->follows [node->data.nt]; NameSet &src = r->data.state->follows [r->data.nt]; dst.insert (src.begin (), src.end ()); } if (node->dfn == N) { IncludesGraph::iterator tos = _M_includes_stack.top (); do { tos = _M_includes_stack.top (); _M_includes_stack.pop (); tos->dfn = INT_MAX; } while (tos != node); } } void Automaton::buildLookaheads () { for (StatePointer p = states.begin (); p != states.end (); ++p) { for (ItemPointer item = p->closure.begin (); item != p->closure.end (); ++item) { foreach (Lookback lookback, lookbacks.values (item)) { StatePointer q = lookback.state; #ifndef QLALR_NO_DEBUG_LOOKAHEADS qerr << "(" << id (p) << ", " << *item->rule << ") lookbacks "; dump (qerr, lookback); qerr << " with follows (" << id (q) << ", " << lookback.nt << ") = " << q->follows [lookback.nt] << endl; #endif lookaheads [item].insert (q->follows [lookback.nt].begin (), q->follows [lookback.nt].end ()); } } // propagate the lookahead in the kernel ItemPointer k = p->kernel.begin (); ItemPointer c = p->closure.begin (); for (; k != p->kernel.end (); ++k, ++c) lookaheads [k] = lookaheads [c]; } } void Automaton::buildDefaultReduceActions () { for (StatePointer state = states.begin (); state != states.end (); ++state) { ItemPointer def = state->closure.end (); int size = -1; for (ItemPointer item = state->closure.begin (); item != state->closure.end (); ++item) { if (item->dot != item->end_rhs ()) continue; int la = lookaheads.value (item).size (); if (def == state->closure.end () || la > size) { def = item; size = la; } } if (def != state->closure.end ()) { Q_ASSERT (size >= 0); state->defaultReduce = def->rule; } } } void Automaton::dump (QTextStream &out, IncludeNode incl) { out << "(" << id (incl->data.state) << ", " << incl->data.nt << ")"; } void Automaton::dump (QTextStream &out, ReadNode rd) { out << "(" << id (rd->data.state) << ", " << rd->data.nt << ")"; } void Automaton::dump (QTextStream &out, const Lookback &lp) { out << "(" << id (lp.state) << ", " << lp.nt << ")"; }