/*
* Copyright 2001-2006 Adrian Thurston <thurston@complang.org>
* 2004 Erich Ocean <eric.ocean@ampede.com>
* 2005 Alan West <alan@alanz.com>
*/
/* 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 "mltable.h"
#include "redfsm.h"
#include "gendata.h"
/* Determine if we should use indicies or not. */
void OCamlTabCodeGen::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->maxActionLoc) * 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->maxActionLoc) * totalIndex;
}
/* If using indicies reduces the size, use them. */
useIndicies = sizeWithInds < sizeWithoutInds;
}
std::ostream &OCamlTabCodeGen::TO_STATE_ACTION( RedStateAp *state )
{
int act = 0;
if ( state->toStateAction != 0 )
act = state->toStateAction->location+1;
out << act;
return out;
}
std::ostream &OCamlTabCodeGen::FROM_STATE_ACTION( RedStateAp *state )
{
int act = 0;
if ( state->fromStateAction != 0 )
act = state->fromStateAction->location+1;
out << act;
return out;
}
std::ostream &OCamlTabCodeGen::EOF_ACTION( RedStateAp *state )
{
int act = 0;
if ( state->eofAction != 0 )
act = state->eofAction->location+1;
out << act;
return out;
}
std::ostream &OCamlTabCodeGen::TRANS_ACTION( RedTransAp *trans )
{
/* If there are actions, emit them. Otherwise emit zero. */
int act = 0;
if ( trans->action != 0 )
act = trans->action->location+1;
out << act;
return out;
}
std::ostream &OCamlTabCodeGen::TO_STATE_ACTION_SWITCH()
{
/* Walk the list of functions, printing the cases. */
for ( GenActionList::Iter act = actionList; act.lte(); act++ ) {
/* Write out referenced actions. */
if ( act->numToStateRefs > 0 ) {
/* Write the case label, the action and the case break. */
out << "\t| " << act->actionId << " ->\n";
ACTION( out, act, 0, false );
}
}
genLineDirective( out );
return out;
}
std::ostream &OCamlTabCodeGen::FROM_STATE_ACTION_SWITCH()
{
/* Walk the list of functions, printing the cases. */
for ( GenActionList::Iter act = actionList; act.lte(); act++ ) {
/* Write out referenced actions. */
if ( act->numFromStateRefs > 0 ) {
/* Write the case label, the action and the case break. */
out << "\t| " << act->actionId << " ->\n";
ACTION( out, act, 0, false );
}
}
genLineDirective( out );
return out;
}
std::ostream &OCamlTabCodeGen::EOF_ACTION_SWITCH()
{
/* Walk the list of functions, printing the cases. */
for ( GenActionList::Iter act = actionList; act.lte(); act++ ) {
/* Write out referenced actions. */
if ( act->numEofRefs > 0 ) {
/* Write the case label, the action and the case break. */
out << "\t| " << act->actionId << " ->\n";
ACTION( out, act, 0, true );
}
}
genLineDirective( out );
return out;
}
std::ostream &OCamlTabCodeGen::ACTION_SWITCH()
{
/* Walk the list of functions, printing the cases. */
for ( GenActionList::Iter act = actionList; act.lte(); act++ ) {
/* Write out referenced actions. */
if ( act->numTransRefs > 0 ) {
/* Write the case label, the action and the case break. */
out << "\t| " << act->actionId << " -> \n";
ACTION( out, act, 0, false );
}
}
genLineDirective( out );
return out;
}
std::ostream &OCamlTabCodeGen::COND_OFFSETS()
{
out << "\t";
int totalStateNum = 0, curKeyOffset = 0;
for ( RedStateList::Iter st = redFsm->stateList; st.lte(); st++ ) {
/* Write the key offset. */
out << curKeyOffset;
if ( !st.last() ) {
out << ARR_SEP();
if ( ++totalStateNum % IALL == 0 )
out << "\n\t";
}
/* Move the key offset ahead. */
curKeyOffset += st->stateCondList.length();
}
out << "\n";
return out;
}
std::ostream &OCamlTabCodeGen::KEY_OFFSETS()
{
out << "\t";
int totalStateNum = 0, curKeyOffset = 0;
for ( RedStateList::Iter st = redFsm->stateList; st.lte(); st++ ) {
/* Write the key offset. */
out << curKeyOffset;
if ( !st.last() ) {
out << ARR_SEP();
if ( ++totalStateNum % IALL == 0 )
out << "\n\t";
}
/* Move the key offset ahead. */
curKeyOffset += st->outSingle.length() + st->outRange.length()*2;
}
out << "\n";
return out;
}
std::ostream &OCamlTabCodeGen::INDEX_OFFSETS()
{
out << "\t";
int totalStateNum = 0, curIndOffset = 0;
for ( RedStateList::Iter st = redFsm->stateList; st.lte(); st++ ) {
/* Write the index offset. */
out << curIndOffset;
if ( !st.last() ) {
out << ARR_SEP();
if ( ++totalStateNum % IALL == 0 )
out << "\n\t";
}
/* Move the index offset ahead. */
curIndOffset += st->outSingle.length() + st->outRange.length();
if ( st->defTrans != 0 )
curIndOffset += 1;
}
out << "\n";
return out;
}
std::ostream &OCamlTabCodeGen::COND_LENS()
{
out << "\t";
int totalStateNum = 0;
for ( RedStateList::Iter st = redFsm->stateList; st.lte(); st++ ) {
/* Write singles length. */
out << st->stateCondList.length();
if ( !st.last() ) {
out << ARR_SEP();
if ( ++totalStateNum % IALL == 0 )
out << "\n\t";
}
}
out << "\n";
return out;
}
std::ostream &OCamlTabCodeGen::SINGLE_LENS()
{
out << "\t";
int totalStateNum = 0;
for ( RedStateList::Iter st = redFsm->stateList; st.lte(); st++ ) {
/* Write singles length. */
out << st->outSingle.length();
if ( !st.last() ) {
out << ARR_SEP();
if ( ++totalStateNum % IALL == 0 )
out << "\n\t";
}
}
out << "\n";
return out;
}
std::ostream &OCamlTabCodeGen::RANGE_LENS()
{
out << "\t";
int totalStateNum = 0;
for ( RedStateList::Iter st = redFsm->stateList; st.lte(); st++ ) {
/* Emit length of range index. */
out << st->outRange.length();
if ( !st.last() ) {
out << ARR_SEP();
if ( ++totalStateNum % IALL == 0 )
out << "\n\t";
}
}
out << "\n";
return out;
}
std::ostream &OCamlTabCodeGen::TO_STATE_ACTIONS()
{
out << "\t";
int totalStateNum = 0;
for ( RedStateList::Iter st = redFsm->stateList; st.lte(); st++ ) {
/* Write any eof action. */
TO_STATE_ACTION(st);
if ( !st.last() ) {
out << ARR_SEP();
if ( ++totalStateNum % IALL == 0 )
out << "\n\t";
}
}
out << "\n";
return out;
}
std::ostream &OCamlTabCodeGen::FROM_STATE_ACTIONS()
{
out << "\t";
int totalStateNum = 0;
for ( RedStateList::Iter st = redFsm->stateList; st.lte(); st++ ) {
/* Write any eof action. */
FROM_STATE_ACTION(st);
if ( !st.last() ) {
out << ARR_SEP();
if ( ++totalStateNum % IALL == 0 )
out << "\n\t";
}
}
out << "\n";
return out;
}
std::ostream &OCamlTabCodeGen::EOF_ACTIONS()
{
out << "\t";
int totalStateNum = 0;
for ( RedStateList::Iter st = redFsm->stateList; st.lte(); st++ ) {
/* Write any eof action. */
EOF_ACTION(st);
if ( !st.last() ) {
out << ARR_SEP();
if ( ++totalStateNum % IALL == 0 )
out << "\n\t";
}
}
out << "\n";
return out;
}
std::ostream &OCamlTabCodeGen::EOF_TRANS()
{
out << "\t";
int totalStateNum = 0;
for ( RedStateList::Iter st = redFsm->stateList; st.lte(); st++ ) {
/* Write any eof action. */
long trans = 0;
if ( st->eofTrans != 0 ) {
assert( st->eofTrans->pos >= 0 );
trans = st->eofTrans->pos+1;
}
out << trans;
if ( !st.last() ) {
out << ARR_SEP();
if ( ++totalStateNum % IALL == 0 )
out << "\n\t";
}
}
out << "\n";
return out;
}
std::ostream &OCamlTabCodeGen::COND_KEYS()
{
out << '\t';
int totalTrans = 0;
for ( RedStateList::Iter st = redFsm->stateList; st.lte(); st++ ) {
/* Loop the state's transitions. */
for ( GenStateCondList::Iter sc = st->stateCondList; sc.lte(); sc++ ) {
/* Lower key. */
out << ALPHA_KEY( sc->lowKey ) << ARR_SEP();
if ( ++totalTrans % IALL == 0 )
out << "\n\t";
/* Upper key. */
out << ALPHA_KEY( sc->highKey ) << ARR_SEP();
if ( ++totalTrans % IALL == 0 )
out << "\n\t";
}
}
/* Output one last number so we don't have to figure out when the last
* entry is and avoid writing a comma. */
out << 0 << "\n";
return out;
}
std::ostream &OCamlTabCodeGen::COND_SPACES()
{
out << '\t';
int totalTrans = 0;
for ( RedStateList::Iter st = redFsm->stateList; st.lte(); st++ ) {
/* Loop the state's transitions. */
for ( GenStateCondList::Iter sc = st->stateCondList; sc.lte(); sc++ ) {
/* Cond Space id. */
out << sc->condSpace->condSpaceId << ARR_SEP();
if ( ++totalTrans % IALL == 0 )
out << "\n\t";
}
}
/* Output one last number so we don't have to figure out when the last
* entry is and avoid writing a comma. */
out << 0 << "\n";
return out;
}
std::ostream &OCamlTabCodeGen::KEYS()
{
out << '\t';
int totalTrans = 0;
for ( RedStateList::Iter st = redFsm->stateList; st.lte(); st++ ) {
/* Loop the singles. */
for ( RedTransList::Iter stel = st->outSingle; stel.lte(); stel++ ) {
out << ALPHA_KEY( stel->lowKey ) << ARR_SEP();
if ( ++totalTrans % IALL == 0 )
out << "\n\t";
}
/* Loop the state's transitions. */
for ( RedTransList::Iter rtel = st->outRange; rtel.lte(); rtel++ ) {
/* Lower key. */
out << ALPHA_KEY( rtel->lowKey ) << ARR_SEP();
if ( ++totalTrans % IALL == 0 )
out << "\n\t";
/* Upper key. */
out << ALPHA_KEY( rtel->highKey ) << ARR_SEP();
if ( ++totalTrans % IALL == 0 )
out << "\n\t";
}
}
/* Output one last number so we don't have to figure out when the last
* entry is and avoid writing a comma. */
out << 0 << "\n";
return out;
}
std::ostream &OCamlTabCodeGen::INDICIES()
{
int totalTrans = 0;
out << '\t';
for ( RedStateList::Iter st = redFsm->stateList; st.lte(); st++ ) {
/* Walk the singles. */
for ( RedTransList::Iter stel = st->outSingle; stel.lte(); stel++ ) {
out << stel->value->id << ARR_SEP();
if ( ++totalTrans % IALL == 0 )
out << "\n\t";
}
/* Walk the ranges. */
for ( RedTransList::Iter rtel = st->outRange; rtel.lte(); rtel++ ) {
out << rtel->value->id << ARR_SEP();
if ( ++totalTrans % IALL == 0 )
out << "\n\t";
}
/* The state's default index goes next. */
if ( st->defTrans != 0 ) {
out << st->defTrans->id << ARR_SEP();
if ( ++totalTrans % IALL == 0 )
out << "\n\t";
}
}
/* Output one last number so we don't have to figure out when the last
* entry is and avoid writing a comma. */
out << 0 << "\n";
return out;
}
std::ostream &OCamlTabCodeGen::TRANS_TARGS()
{
int totalTrans = 0;
out << '\t';
for ( RedStateList::Iter st = redFsm->stateList; st.lte(); st++ ) {
/* Walk the singles. */
for ( RedTransList::Iter stel = st->outSingle; stel.lte(); stel++ ) {
RedTransAp *trans = stel->value;
out << trans->targ->id << ARR_SEP();
if ( ++totalTrans % IALL == 0 )
out << "\n\t";
}
/* Walk the ranges. */
for ( RedTransList::Iter rtel = st->outRange; rtel.lte(); rtel++ ) {
RedTransAp *trans = rtel->value;
out << trans->targ->id << ARR_SEP();
if ( ++totalTrans % IALL == 0 )
out << "\n\t";
}
/* The state's default target state. */
if ( st->defTrans != 0 ) {
RedTransAp *trans = st->defTrans;
out << trans->targ->id << ARR_SEP();
if ( ++totalTrans % IALL == 0 )
out << "\n\t";
}
}
for ( RedStateList::Iter st = redFsm->stateList; st.lte(); st++ ) {
if ( st->eofTrans != 0 ) {
RedTransAp *trans = st->eofTrans;
trans->pos = totalTrans;
out << trans->targ->id << ARR_SEP();
if ( ++totalTrans % IALL == 0 )
out << "\n\t";
}
}
/* Output one last number so we don't have to figure out when the last
* entry is and avoid writing a comma. */
out << 0 << "\n";
return out;
}
std::ostream &OCamlTabCodeGen::TRANS_ACTIONS()
{
int totalTrans = 0;
out << '\t';
for ( RedStateList::Iter st = redFsm->stateList; st.lte(); st++ ) {
/* Walk the singles. */
for ( RedTransList::Iter stel = st->outSingle; stel.lte(); stel++ ) {
RedTransAp *trans = stel->value;
TRANS_ACTION( trans ) << ARR_SEP();
if ( ++totalTrans % IALL == 0 )
out << "\n\t";
}
/* Walk the ranges. */
for ( RedTransList::Iter rtel = st->outRange; rtel.lte(); rtel++ ) {
RedTransAp *trans = rtel->value;
TRANS_ACTION( trans ) << ARR_SEP();
if ( ++totalTrans % IALL == 0 )
out << "\n\t";
}
/* The state's default index goes next. */
if ( st->defTrans != 0 ) {
RedTransAp *trans = st->defTrans;
TRANS_ACTION( trans ) << ARR_SEP();
if ( ++totalTrans % IALL == 0 )
out << "\n\t";
}
}
for ( RedStateList::Iter st = redFsm->stateList; st.lte(); st++ ) {
if ( st->eofTrans != 0 ) {
RedTransAp *trans = st->eofTrans;
TRANS_ACTION( trans ) << ARR_SEP();
if ( ++totalTrans % IALL == 0 )
out << "\n\t";
}
}
/* Output one last number so we don't have to figure out when the last
* entry is and avoid writing a comma. */
out << 0 << "\n";
return out;
}
std::ostream &OCamlTabCodeGen::TRANS_TARGS_WI()
{
/* Transitions must be written ordered by their id. */
RedTransAp **transPtrs = new RedTransAp*[redFsm->transSet.length()];
for ( TransApSet::Iter trans = redFsm->transSet; trans.lte(); trans++ )
transPtrs[trans->id] = trans;
/* Keep a count of the num of items in the array written. */
out << '\t';
int totalStates = 0;
for ( int t = 0; t < redFsm->transSet.length(); t++ ) {
/* Record the position, need this for eofTrans. */
RedTransAp *trans = transPtrs[t];
trans->pos = t;
/* Write out the target state. */
out << trans->targ->id;
if ( t < redFsm->transSet.length()-1 ) {
out << ARR_SEP();
if ( ++totalStates % IALL == 0 )
out << "\n\t";
}
}
out << "\n";
delete[] transPtrs;
return out;
}
std::ostream &OCamlTabCodeGen::TRANS_ACTIONS_WI()
{
/* Transitions must be written ordered by their id. */
RedTransAp **transPtrs = new RedTransAp*[redFsm->transSet.length()];
for ( TransApSet::Iter trans = redFsm->transSet; trans.lte(); trans++ )
transPtrs[trans->id] = trans;
/* Keep a count of the num of items in the array written. */
out << '\t';
int totalAct = 0;
for ( int t = 0; t < redFsm->transSet.length(); t++ ) {
/* Write the function for the transition. */
RedTransAp *trans = transPtrs[t];
TRANS_ACTION( trans );
if ( t < redFsm->transSet.length()-1 ) {
out << ARR_SEP();
if ( ++totalAct % IALL == 0 )
out << "\n\t";
}
}
out << "\n";
delete[] transPtrs;
return out;
}
void OCamlTabCodeGen::GOTO( ostream &ret, int gotoDest, bool inFinish )
{
ret << "begin " << vCS() << " <- " << gotoDest << "; " <<
CTRL_FLOW() << "raise Goto_again end";
}
void OCamlTabCodeGen::GOTO_EXPR( ostream &ret, GenInlineItem *ilItem, bool inFinish )
{
ret << "begin " << vCS() << " <- (";
INLINE_LIST( ret, ilItem->children, 0, inFinish );
ret << "); " << CTRL_FLOW() << "raise Goto_again end";
}
void OCamlTabCodeGen::CURS( ostream &ret, bool inFinish )
{
ret << "(_ps)";
}
void OCamlTabCodeGen::TARGS( ostream &ret, bool inFinish, int targState )
{
ret << "(" << vCS() << ")";
}
void OCamlTabCodeGen::NEXT( ostream &ret, int nextDest, bool inFinish )
{
ret << vCS() << " <- " << nextDest << ";";
}
void OCamlTabCodeGen::NEXT_EXPR( ostream &ret, GenInlineItem *ilItem, bool inFinish )
{
ret << vCS() << " <- (";
INLINE_LIST( ret, ilItem->children, 0, inFinish );
ret << ");";
}
void OCamlTabCodeGen::CALL( ostream &ret, int callDest, int targState, bool inFinish )
{
if ( prePushExpr != 0 ) {
ret << "begin ";
INLINE_LIST( ret, prePushExpr, 0, false );
}
ret << "begin " << AT( STACK(), POST_INCR(TOP()) ) << " <- " << vCS() << "; ";
ret << vCS() << " <- " << callDest << "; " << CTRL_FLOW() << "raise Goto_again end ";
if ( prePushExpr != 0 )
ret << "end";
}
void OCamlTabCodeGen::CALL_EXPR( ostream &ret, GenInlineItem *ilItem, int targState, bool inFinish )
{
if ( prePushExpr != 0 ) {
ret << "begin ";
INLINE_LIST( ret, prePushExpr, 0, false );
}
ret << "begin " << AT(STACK(), POST_INCR(TOP()) ) << " <- " << vCS() << "; " << vCS() << " <- (";
INLINE_LIST( ret, ilItem->children, targState, inFinish );
ret << "); " << CTRL_FLOW() << "raise Goto_again end ";
if ( prePushExpr != 0 )
ret << "end";
}
void OCamlTabCodeGen::RET( ostream &ret, bool inFinish )
{
ret << "begin " << vCS() << " <- " << AT(STACK(), PRE_DECR(TOP()) ) << "; ";
if ( postPopExpr != 0 ) {
ret << "begin ";
INLINE_LIST( ret, postPopExpr, 0, false );
ret << "end ";
}
ret << CTRL_FLOW() << "raise Goto_again end";
}
void OCamlTabCodeGen::BREAK( ostream &ret, int targState )
{
outLabelUsed = true;
ret << "begin " << P() << " <- " << P() << " + 1; " << CTRL_FLOW() << "raise Goto_out end";
}
void OCamlTabCodeGen::writeData()
{
/* If there are any transtion functions then output the array. If there
* are none, don't bother emitting an empty array that won't be used. */
if ( redFsm->anyActions() ) {
OPEN_ARRAY( ARRAY_TYPE(redFsm->maxActArrItem), A() );
ACTIONS_ARRAY();
CLOSE_ARRAY() <<
"\n";
}
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->maxActionLoc), 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->maxActionLoc), 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->maxActionLoc), 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; mutable acts : int; mutable nacts : int; }"
<< TOP_SEP();
out << "exception Goto_match" << TOP_SEP();
out << "exception Goto_again" << TOP_SEP();
out << "exception Goto_eof_trans" << TOP_SEP();
}
void OCamlTabCodeGen::LOCATE_TRANS()
{
out <<
" state.keys <- " << AT( KO(), vCS() ) << ";\n"
" state.trans <- " << CAST(transType) << AT( IO(), vCS() ) << ";\n"
"\n"
" let klen = " << AT( SL(), vCS() ) << " in\n"
" if klen > 0 then begin\n"
" let lower : " << signedKeysType << " ref = ref state.keys in\n"
" let upper : " << signedKeysType << " ref = ref " << CAST(signedKeysType) <<
"(state.keys + klen - 1) in\n"
" while !upper >= !lower do\n"
" let mid = " << CAST(signedKeysType) << " (!lower + ((!upper - !lower) / 2)) in\n"
" if " << GET_WIDE_KEY() << " < " << AT( K(), "mid" ) << " then\n"
" upper := " << CAST(signedKeysType) << " (mid - 1)\n"
" else if " << GET_WIDE_KEY() << " > " << AT( K(), "mid" ) << " then\n"
" lower := " << CAST(signedKeysType) << " (mid + 1)\n"
" else begin\n"
" state.trans <- state.trans + " << CAST(transType) << " (mid - state.keys);\n"
" raise Goto_match;\n"
" end\n"
" done;\n"
" state.keys <- state.keys + " << CAST(keysType) << " klen;\n"
" state.trans <- state.trans + " << CAST(transType) << " klen;\n"
" end;\n"
"\n"
" let klen = " << AT( RL(), vCS() ) << " in\n"
" if klen > 0 then begin\n"
" let lower : " << signedKeysType << " ref = ref state.keys in\n"
" let upper : " << signedKeysType << " ref = ref " << CAST(signedKeysType) <<
"(state.keys + (klen * 2) - 2) in\n"
" while !upper >= !lower do\n"
" let mid = " << CAST(signedKeysType) << " (!lower + (((!upper - !lower) / 2) land (lnot 1))) in\n"
" if " << GET_WIDE_KEY() << " < " << AT( K() , "mid" ) << " then\n"
" upper := " << CAST(signedKeysType) << " (mid - 2)\n"
" else if " << GET_WIDE_KEY() << " > " << AT( K(), "mid+1" ) << " then\n"
" lower := " << CAST(signedKeysType) << " (mid + 2)\n"
" else begin\n"
" state.trans <- state.trans + " << CAST(transType) << "((mid - state.keys) / 2);\n"
" raise Goto_match;\n"
" end\n"
" done;\n"
" state.trans <- state.trans + " << CAST(transType) << " klen;\n"
" end;\n"
"\n";
}
void OCamlTabCodeGen::COND_TRANSLATE()
{
out <<
" _widec = " << GET_KEY() << ";\n"
" _klen = " << CL() << "[" << vCS() << "];\n"
" _keys = " << CAST(keysType) << " ("<< CO() << "[" << vCS() << "]*2);\n"
" if ( _klen > 0 ) {\n"
" " << signedKeysType << " _lower = _keys;\n"
" " << signedKeysType << " _mid;\n"
" " << signedKeysType << " _upper = " << CAST(signedKeysType) <<
" (_keys + (_klen<<1) - 2);\n"
" while (true) {\n"
" if ( _upper < _lower )\n"
" break;\n"
"\n"
" _mid = " << CAST(signedKeysType) <<
" (_lower + (((_upper-_lower) >> 1) & ~1));\n"
" if ( " << GET_WIDE_KEY() << " < " << CK() << "[_mid] )\n"
" _upper = " << CAST(signedKeysType) << " (_mid - 2);\n"
" else if ( " << GET_WIDE_KEY() << " > " << CK() << "[_mid+1] )\n"
" _lower = " << CAST(signedKeysType) << " (_mid + 2);\n"
" else {\n"
" switch ( " << C() << "[" << CO() << "[" << vCS() << "]"
" + ((_mid - _keys)>>1)] ) {\n";
for ( CondSpaceList::Iter csi = condSpaceList; csi.lte(); csi++ ) {
GenCondSpace *condSpace = csi;
out << " case " << condSpace->condSpaceId << ": {\n";
out << TABS(2) << "_widec = " << CAST(WIDE_ALPH_TYPE()) << "(" <<
KEY(condSpace->baseKey) << " + (" << GET_KEY() <<
" - " << KEY(keyOps->minKey) << "));\n";
for ( GenCondSet::Iter csi = condSpace->condSet; csi.lte(); csi++ ) {
out << TABS(2) << "if ( ";
CONDITION( out, *csi );
Size condValOffset = ((1 << csi.pos()) * keyOps->alphSize());
out << " ) _widec += " << condValOffset << ";\n";
}
out <<
" break;\n"
" }\n";
}
SWITCH_DEFAULT();
out <<
" }\n"
" break;\n"
" }\n"
" }\n"
" }\n"
"\n";
}
void OCamlTabCodeGen::writeExec()
{
testEofUsed = false;
outLabelUsed = false;
initVarTypes();
out <<
" begin\n";
// " " << klenType << " _klen";
// if ( redFsm->anyRegCurStateRef() )
// out << ", _ps";
/*
out << " " << transType << " _trans;\n";
if ( redFsm->anyConditions() )
out << " " << WIDE_ALPH_TYPE() << " _widec;\n";
if ( redFsm->anyToStateActions() || redFsm->anyRegActions()
|| redFsm->anyFromStateActions() )
{
out <<
" int _acts;\n"
" int _nacts;\n";
}
out <<
" " << keysType << " _keys;\n"
"\n";
// " " << PTR_CONST() << WIDE_ALPH_TYPE() << POINTER() << "_keys;\n"
*/
out <<
" let state = { keys = 0; trans = 0; acts = 0; nacts = 0; } in\n"
" let rec do_start () =\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 <<
" state.acts <- " << AT( FSA(), vCS() ) << ";\n"
" state.nacts <- " << AT( A(), POST_INCR("state.acts") ) << ";\n"
" while " << POST_DECR("state.nacts") << " > 0 do\n"
" begin match " << AT( A(), POST_INCR("state.acts") ) << " with\n";
FROM_STATE_ACTION_SWITCH();
SWITCH_DEFAULT() <<
" end\n"
" done;\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 <<
"\tbegin try\n"
" match " << AT( TA(), "state.trans" ) << " with\n"
"\t| 0 -> raise Goto_again\n"
"\t| _ ->\n"
" state.acts <- " << AT( TA(), "state.trans" ) << ";\n"
" state.nacts <- " << AT( A(), POST_INCR("state.acts") ) << ";\n"
" while " << POST_DECR("state.nacts") << " > 0 do\n"
" begin match " << AT( A(), POST_INCR("state.acts") ) << " with\n";
ACTION_SWITCH();
SWITCH_DEFAULT() <<
" end;\n"
" done\n"
"\twith Goto_again -> () end;\n";
}
out << "\tdo_again ()\n";
// if ( redFsm->anyRegActions() || redFsm->anyActionGotos() ||
// redFsm->anyActionCalls() || redFsm->anyActionRets() )
out << "\tand do_again () =\n";
if ( redFsm->anyToStateActions() ) {
out <<
" state.acts <- " << AT( TSA(), vCS() ) << ";\n"
" state.nacts <- " << AT( A(), POST_INCR("state.acts") ) << ";\n"
" while " << POST_DECR("state.nacts") << " > 0 do\n"
" begin match " << AT( A(), POST_INCR("state.acts") ) << " with\n";
TO_STATE_ACTION_SWITCH();
SWITCH_DEFAULT() <<
" end\n"
" done;\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 <<
" let __acts = ref " << AT( EA(), vCS() ) << " in\n"
" let __nacts = ref " << AT( A(), "!__acts" ) << " in\n"
" incr __acts;\n"
" while !__nacts > 0 do\n"
" decr __nacts;\n"
" begin match " << AT( A(), POST_INCR("__acts.contents") ) << " with\n";
EOF_ACTION_SWITCH();
SWITCH_DEFAULT() <<
" end;\n"
" done\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";
}
void OCamlTabCodeGen::initVarTypes()
{
int klenMax = MAX(MAX(redFsm->maxCondLen, redFsm->maxRangeLen),
redFsm->maxSingleLen);
int keysMax = MAX(MAX(redFsm->maxKeyOffset, klenMax),
redFsm->maxCondOffset);
int transMax = MAX(MAX(redFsm->maxIndex+1, redFsm->maxIndexOffset), keysMax);
transMax = MAX(transMax, klenMax);
transType = ARRAY_TYPE(transMax);
klenType = ARRAY_TYPE(klenMax);
keysType = ARRAY_TYPE(keysMax);
signedKeysType = ARRAY_TYPE(keysMax, true);
}
