/* * Copyright 2001-2006 Adrian Thurston * 2004 Erich Ocean * 2005 Alan West */ /* This file is part of Ragel. * * Ragel is free software; you can redistribute it and/or modify * it 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. * * Ragel 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 Ragel; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include "ragel.h" #include "mlftable.h" #include "redfsm.h" #include "gendata.h" /* Determine if we should use indicies or not. */ void OCamlFTabCodeGen::calcIndexSize() { int sizeWithInds = 0, sizeWithoutInds = 0; /* Calculate cost of using with indicies. */ for ( RedStateList::Iter st = redFsm->stateList; st.lte(); st++ ) { int totalIndex = st->outSingle.length() + st->outRange.length() + (st->defTrans == 0 ? 0 : 1); sizeWithInds += arrayTypeSize(redFsm->maxIndex) * totalIndex; } sizeWithInds += arrayTypeSize(redFsm->maxState) * redFsm->transSet.length(); if ( redFsm->anyActions() ) sizeWithInds += arrayTypeSize(redFsm->maxActListId) * redFsm->transSet.length(); /* Calculate the cost of not using indicies. */ for ( RedStateList::Iter st = redFsm->stateList; st.lte(); st++ ) { int totalIndex = st->outSingle.length() + st->outRange.length() + (st->defTrans == 0 ? 0 : 1); sizeWithoutInds += arrayTypeSize(redFsm->maxState) * totalIndex; if ( redFsm->anyActions() ) sizeWithoutInds += arrayTypeSize(redFsm->maxActListId) * totalIndex; } /* If using indicies reduces the size, use them. */ useIndicies = sizeWithInds < sizeWithoutInds; } std::ostream &OCamlFTabCodeGen::TO_STATE_ACTION( RedStateAp *state ) { int act = 0; if ( state->toStateAction != 0 ) act = state->toStateAction->actListId+1; out << act; return out; } std::ostream &OCamlFTabCodeGen::FROM_STATE_ACTION( RedStateAp *state ) { int act = 0; if ( state->fromStateAction != 0 ) act = state->fromStateAction->actListId+1; out << act; return out; } std::ostream &OCamlFTabCodeGen::EOF_ACTION( RedStateAp *state ) { int act = 0; if ( state->eofAction != 0 ) act = state->eofAction->actListId+1; out << act; return out; } /* Write out the function for a transition. */ std::ostream &OCamlFTabCodeGen::TRANS_ACTION( RedTransAp *trans ) { int action = 0; if ( trans->action != 0 ) action = trans->action->actListId+1; out << action; return out; } /* Write out the function switch. This switch is keyed on the values * of the func index. */ std::ostream &OCamlFTabCodeGen::TO_STATE_ACTION_SWITCH() { /* Loop the actions. */ for ( GenActionTableMap::Iter redAct = redFsm->actionMap; redAct.lte(); redAct++ ) { if ( redAct->numToStateRefs > 0 ) { /* Write the entry label. */ out << "\t| " << redAct->actListId+1 << " ->\n"; /* Write each action in the list of action items. */ for ( GenActionTable::Iter item = redAct->key; item.lte(); item++ ) ACTION( out, item->value, 0, false ); out << "\t()\n"; } } genLineDirective( out ); return out; } /* Write out the function switch. This switch is keyed on the values * of the func index. */ std::ostream &OCamlFTabCodeGen::FROM_STATE_ACTION_SWITCH() { /* Loop the actions. */ for ( GenActionTableMap::Iter redAct = redFsm->actionMap; redAct.lte(); redAct++ ) { if ( redAct->numFromStateRefs > 0 ) { /* Write the entry label. */ out << "\t| " << redAct->actListId+1 << " ->\n"; /* Write each action in the list of action items. */ for ( GenActionTable::Iter item = redAct->key; item.lte(); item++ ) ACTION( out, item->value, 0, false ); out << "\t()\n"; } } genLineDirective( out ); return out; } std::ostream &OCamlFTabCodeGen::EOF_ACTION_SWITCH() { /* Loop the actions. */ for ( GenActionTableMap::Iter redAct = redFsm->actionMap; redAct.lte(); redAct++ ) { if ( redAct->numEofRefs > 0 ) { /* Write the entry label. */ out << "\t| " << redAct->actListId+1 << " ->\n"; /* Write each action in the list of action items. */ for ( GenActionTable::Iter item = redAct->key; item.lte(); item++ ) ACTION( out, item->value, 0, true ); out << "\t()\n"; } } genLineDirective( out ); return out; } /* Write out the function switch. This switch is keyed on the values * of the func index. */ std::ostream &OCamlFTabCodeGen::ACTION_SWITCH() { /* Loop the actions. */ for ( GenActionTableMap::Iter redAct = redFsm->actionMap; redAct.lte(); redAct++ ) { if ( redAct->numTransRefs > 0 ) { /* Write the entry label. */ out << "\t| " << redAct->actListId+1 << " ->\n"; /* Write each action in the list of action items. */ for ( GenActionTable::Iter item = redAct->key; item.lte(); item++ ) ACTION( out, item->value, 0, false ); out << "\t()\n"; } } genLineDirective( out ); return out; } void OCamlFTabCodeGen::writeData() { if ( redFsm->anyConditions() ) { OPEN_ARRAY( ARRAY_TYPE(redFsm->maxCondOffset), CO() ); COND_OFFSETS(); CLOSE_ARRAY() << "\n"; OPEN_ARRAY( ARRAY_TYPE(redFsm->maxCondLen), CL() ); COND_LENS(); CLOSE_ARRAY() << "\n"; OPEN_ARRAY( WIDE_ALPH_TYPE(), CK() ); COND_KEYS(); CLOSE_ARRAY() << "\n"; OPEN_ARRAY( ARRAY_TYPE(redFsm->maxCondSpaceId), C() ); COND_SPACES(); CLOSE_ARRAY() << "\n"; } OPEN_ARRAY( ARRAY_TYPE(redFsm->maxKeyOffset), KO() ); KEY_OFFSETS(); CLOSE_ARRAY() << "\n"; OPEN_ARRAY( WIDE_ALPH_TYPE(), K() ); KEYS(); CLOSE_ARRAY() << "\n"; OPEN_ARRAY( ARRAY_TYPE(redFsm->maxSingleLen), SL() ); SINGLE_LENS(); CLOSE_ARRAY() << "\n"; OPEN_ARRAY( ARRAY_TYPE(redFsm->maxRangeLen), RL() ); RANGE_LENS(); CLOSE_ARRAY() << "\n"; OPEN_ARRAY( ARRAY_TYPE(redFsm->maxIndexOffset), IO() ); INDEX_OFFSETS(); CLOSE_ARRAY() << "\n"; if ( useIndicies ) { OPEN_ARRAY( ARRAY_TYPE(redFsm->maxIndex), I() ); INDICIES(); CLOSE_ARRAY() << "\n"; OPEN_ARRAY( ARRAY_TYPE(redFsm->maxState), TT() ); TRANS_TARGS_WI(); CLOSE_ARRAY() << "\n"; if ( redFsm->anyActions() ) { OPEN_ARRAY( ARRAY_TYPE(redFsm->maxActListId), TA() ); TRANS_ACTIONS_WI(); CLOSE_ARRAY() << "\n"; } } else { OPEN_ARRAY( ARRAY_TYPE(redFsm->maxState), TT() ); TRANS_TARGS(); CLOSE_ARRAY() << "\n"; if ( redFsm->anyActions() ) { OPEN_ARRAY( ARRAY_TYPE(redFsm->maxActListId), TA() ); TRANS_ACTIONS(); CLOSE_ARRAY() << "\n"; } } if ( redFsm->anyToStateActions() ) { OPEN_ARRAY( ARRAY_TYPE(redFsm->maxActionLoc), TSA() ); TO_STATE_ACTIONS(); CLOSE_ARRAY() << "\n"; } if ( redFsm->anyFromStateActions() ) { OPEN_ARRAY( ARRAY_TYPE(redFsm->maxActionLoc), FSA() ); FROM_STATE_ACTIONS(); CLOSE_ARRAY() << "\n"; } if ( redFsm->anyEofActions() ) { OPEN_ARRAY( ARRAY_TYPE(redFsm->maxActListId), EA() ); EOF_ACTIONS(); CLOSE_ARRAY() << "\n"; } if ( redFsm->anyEofTrans() ) { OPEN_ARRAY( ARRAY_TYPE(redFsm->maxIndexOffset+1), ET() ); EOF_TRANS(); CLOSE_ARRAY() << "\n"; } STATE_IDS(); out << "type " << TYPE_STATE() << " = { mutable keys : int; mutable trans : int; }" << TOP_SEP(); out << "exception Goto_match" << TOP_SEP(); out << "exception Goto_again" << TOP_SEP(); out << "exception Goto_eof_trans" << TOP_SEP(); } void OCamlFTabCodeGen::writeExec() { testEofUsed = false; outLabelUsed = false; initVarTypes(); out << " begin\n"; // if ( redFsm->anyRegCurStateRef() ) // out << klenType ", _ps"; out << " let state = { keys = 0; trans = 0; } in\n" " let rec do_start () =\n"; // if ( redFsm->anyConditions() ) // out << " " << WIDE_ALPH_TYPE() << " _widec;\n"; if ( !noEnd ) { testEofUsed = true; out << " if " << P() << " = " << PE() << " then\n" " do_test_eof ()\n" "\telse\n"; } if ( redFsm->errState != 0 ) { outLabelUsed = true; out << " if " << vCS() << " = " << redFsm->errState->id << " then\n" " do_out ()\n" "\telse\n"; } out << "\tdo_resume ()\n"; out << "and do_resume () =\n"; if ( redFsm->anyFromStateActions() ) { out << " begin match " << AT( FSA(), vCS() ) << " with\n"; FROM_STATE_ACTION_SWITCH(); SWITCH_DEFAULT() << " end;\n" "\n"; } if ( redFsm->anyConditions() ) COND_TRANSLATE(); out << "\tbegin try\n"; LOCATE_TRANS(); out << "\twith Goto_match -> () end;\n"; out << "\tdo_match ()\n"; out << "and do_match () =\n"; if ( useIndicies ) out << " state.trans <- " << CAST(transType) << AT( I(), "state.trans" ) << ";\n"; out << "\tdo_eof_trans ()\n"; // if ( redFsm->anyEofTrans() ) out << "and do_eof_trans () =\n"; if ( redFsm->anyRegCurStateRef() ) out << " let ps = " << vCS() << " in\n"; out << " " << vCS() << " <- " << AT( TT() ,"state.trans" ) << ";\n" "\n"; if ( redFsm->anyRegActions() ) { out << " begin try if " << AT( TA() , "state.trans" ) << " = 0 then\n" " raise Goto_again;\n" "\n" " match " << AT( TA(), "state.trans" ) << " with\n"; ACTION_SWITCH(); SWITCH_DEFAULT() << " with Goto_again -> () end;\n" "\n"; } out << "\tdo_again ()\n"; // if ( redFsm->anyRegActions() || redFsm->anyActionGotos() || // redFsm->anyActionCalls() || redFsm->anyActionRets() ) out << "\tand do_again () =\n"; if ( redFsm->anyToStateActions() ) { out << " begin match " << AT( TSA(), vCS() ) << " with\n"; TO_STATE_ACTION_SWITCH(); SWITCH_DEFAULT() << " end;\n" "\n"; } if ( redFsm->errState != 0 ) { outLabelUsed = true; out << " match " << vCS() << " with\n" "\t| " << redFsm->errState->id << " -> do_out ()\n" "\t| _ ->\n"; } out << "\t" << P() << " <- " << P() << " + 1;\n"; if ( !noEnd ) { out << " if " << P() << " <> " << PE() << " then\n" " do_resume ()\n" "\telse do_test_eof ()\n"; } else { out << " do_resume ()\n"; } // if ( testEofUsed ) out << "and do_test_eof () =\n"; if ( redFsm->anyEofTrans() || redFsm->anyEofActions() ) { out << " if " << P() << " = " << vEOF() << " then\n" " begin try\n"; if ( redFsm->anyEofTrans() ) { out << " if " << AT( ET(), vCS() ) << " > 0 then\n" " begin\n" " state.trans <- " << CAST(transType) << "(" << AT( ET(), vCS() ) << " - 1);\n" " raise Goto_eof_trans;\n" " end;\n"; } if ( redFsm->anyEofActions() ) { out << " begin match " << AT( EA(), vCS() ) << " with\n"; EOF_ACTION_SWITCH(); SWITCH_DEFAULT() << " end\n"; } out << " with Goto_again -> do_again ()\n" " | Goto_eof_trans -> do_eof_trans () end\n" "\n"; } else { out << "\t()\n"; } if ( outLabelUsed ) out << " and do_out () = ()\n"; out << "\tin do_start ()\n"; out << " end;\n"; }