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/*
* Copyright 2001-2007 Adrian Thurston <thurston@complang.org>
*/
/* 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 <string.h>
#include <assert.h>
#include "fsmgraph.h"
/* Simple singly linked list append routine for the fill list. The new state
* goes to the end of the list. */
void MergeData::fillListAppend( StateAp *state )
{
state->alg.next = 0;
if ( stfillHead == 0 ) {
/* List is empty, state becomes head and tail. */
stfillHead = state;
stfillTail = state;
}
else {
/* List is not empty, state goes after last element. */
stfillTail->alg.next = state;
stfillTail = state;
}
}
/* Graph constructor. */
FsmAp::FsmAp()
:
/* No start state. */
startState(0),
errState(0),
/* Misfit accounting is a switch, turned on only at specific times. It
* controls what happens when states have no way in from the outside
* world.. */
misfitAccounting(false)
{
}
/* Copy all graph data including transitions. */
FsmAp::FsmAp( const FsmAp &graph )
:
/* Lists start empty. Will be filled by copy. */
stateList(),
misfitList(),
/* Copy in the entry points,
* pointers will be resolved later. */
entryPoints(graph.entryPoints),
startState(graph.startState),
errState(0),
/* Will be filled by copy. */
finStateSet(),
/* Misfit accounting is only on during merging. */
misfitAccounting(false)
{
/* Create the states and record their map in the original state. */
StateList::Iter origState = graph.stateList;
for ( ; origState.lte(); origState++ ) {
/* Make the new state. */
StateAp *newState = new StateAp( *origState );
/* Add the state to the list. */
stateList.append( newState );
/* Set the mapsTo item of the old state. */
origState->alg.stateMap = newState;
}
/* Derefernce all the state maps. */
for ( StateList::Iter state = stateList; state.lte(); state++ ) {
for ( TransList::Iter trans = state->outList; trans.lte(); trans++ ) {
/* The points to the original in the src machine. The taget's duplicate
* is in the statemap. */
StateAp *toState = trans->toState != 0 ? trans->toState->alg.stateMap : 0;
/* Attach The transition to the duplicate. */
trans->toState = 0;
attachTrans( state, toState, trans );
}
/* Fix the eofTarg, if set. */
if ( state->eofTarget != 0 )
state->eofTarget = state->eofTarget->alg.stateMap;
}
/* Fix the state pointers in the entry points array. */
EntryMapEl *eel = entryPoints.data;
for ( int e = 0; e < entryPoints.length(); e++, eel++ ) {
/* Get the duplicate of the state. */
eel->value = eel->value->alg.stateMap;
/* Foreign in transitions must be built up when duping machines so
* increment it here. */
eel->value->foreignInTrans += 1;
}
/* Fix the start state pointer and the new start state's count of in
* transiions. */
startState = startState->alg.stateMap;
startState->foreignInTrans += 1;
/* Build the final state set. */
StateSet::Iter st = graph.finStateSet;
for ( ; st.lte(); st++ )
finStateSet.insert((*st)->alg.stateMap);
}
/* Deletes all transition data then deletes each state. */
FsmAp::~FsmAp()
{
/* Delete all the transitions. */
for ( StateList::Iter state = stateList; state.lte(); state++ ) {
/* Iterate the out transitions, deleting them. */
state->outList.empty();
}
/* Delete all the states. */
stateList.empty();
}
/* Set a state final. The state has its isFinState set to true and the state
* is added to the finStateSet. */
void FsmAp::setFinState( StateAp *state )
{
/* Is it already a fin state. */
if ( state->stateBits & STB_ISFINAL )
return;
state->stateBits |= STB_ISFINAL;
finStateSet.insert( state );
}
/* Set a state non-final. The has its isFinState flag set false and the state
* is removed from the final state set. */
void FsmAp::unsetFinState( StateAp *state )
{
/* Is it already a non-final state? */
if ( ! (state->stateBits & STB_ISFINAL) )
return;
/* When a state looses its final state status it must relinquish all the
* properties that are allowed only for final states. */
clearOutData( state );
state->stateBits &= ~ STB_ISFINAL;
finStateSet.remove( state );
}
/* Set and unset a state as the start state. */
void FsmAp::setStartState( StateAp *state )
{
/* Sould change from unset to set. */
assert( startState == 0 );
startState = state;
if ( misfitAccounting ) {
/* If the number of foreign in transitions is about to go up to 1 then
* take it off the misfit list and put it on the head list. */
if ( state->foreignInTrans == 0 )
stateList.append( misfitList.detach( state ) );
}
/* Up the foreign in transitions to the state. */
state->foreignInTrans += 1;
}
void FsmAp::unsetStartState()
{
/* Should change from set to unset. */
assert( startState != 0 );
/* Decrement the entry's count of foreign entries. */
startState->foreignInTrans -= 1;
if ( misfitAccounting ) {
/* If the number of foreign in transitions just went down to 0 then take
* it off the main list and put it on the misfit list. */
if ( startState->foreignInTrans == 0 )
misfitList.append( stateList.detach( startState ) );
}
startState = 0;
}
/* Associate an id with a state. Makes the state a named entry point. Has no
* effect if the entry point is already mapped to the state. */
void FsmAp::setEntry( int id, StateAp *state )
{
/* Insert the id into the state. If the state is already labelled with id,
* nothing to do. */
if ( state->entryIds.insert( id ) ) {
/* Insert the entry and assert that it succeeds. */
entryPoints.insertMulti( id, state );
if ( misfitAccounting ) {
/* If the number of foreign in transitions is about to go up to 1 then
* take it off the misfit list and put it on the head list. */
if ( state->foreignInTrans == 0 )
stateList.append( misfitList.detach( state ) );
}
/* Up the foreign in transitions to the state. */
state->foreignInTrans += 1;
}
}
/* Remove the association of an id with a state. The state looses it's entry
* point status. Assumes that the id is indeed mapped to state. */
void FsmAp::unsetEntry( int id, StateAp *state )
{
/* Find the entry point in on id. */
EntryMapEl *enLow = 0, *enHigh = 0;
entryPoints.findMulti( id, enLow, enHigh );
while ( enLow->value != state )
enLow += 1;
/* Remove the record from the map. */
entryPoints.remove( enLow );
/* Remove the state's sense of the link. */
state->entryIds.remove( id );
state->foreignInTrans -= 1;
if ( misfitAccounting ) {
/* If the number of foreign in transitions just went down to 0 then take
* it off the main list and put it on the misfit list. */
if ( state->foreignInTrans == 0 )
misfitList.append( stateList.detach( state ) );
}
}
/* Remove all association of an id with states. Assumes that the id is indeed
* mapped to a state. */
void FsmAp::unsetEntry( int id )
{
/* Find the entry point in on id. */
EntryMapEl *enLow = 0, *enHigh = 0;
entryPoints.findMulti( id, enLow, enHigh );
for ( EntryMapEl *mel = enLow; mel <= enHigh; mel++ ) {
/* Remove the state's sense of the link. */
mel->value->entryIds.remove( id );
mel->value->foreignInTrans -= 1;
if ( misfitAccounting ) {
/* If the number of foreign in transitions just went down to 0
* then take it off the main list and put it on the misfit list. */
if ( mel->value->foreignInTrans == 0 )
misfitList.append( stateList.detach( mel->value ) );
}
}
/* Remove the records from the entry points map. */
entryPoints.removeMulti( enLow, enHigh );
}
void FsmAp::changeEntry( int id, StateAp *to, StateAp *from )
{
/* Find the entry in the entry map. */
EntryMapEl *enLow = 0, *enHigh = 0;
entryPoints.findMulti( id, enLow, enHigh );
while ( enLow->value != from )
enLow += 1;
/* Change it to the new target. */
enLow->value = to;
/* Remove from's sense of the link. */
from->entryIds.remove( id );
from->foreignInTrans -= 1;
if ( misfitAccounting ) {
/* If the number of foreign in transitions just went down to 0 then take
* it off the main list and put it on the misfit list. */
if ( from->foreignInTrans == 0 )
misfitList.append( stateList.detach( from ) );
}
/* Add to's sense of the link. */
if ( to->entryIds.insert( id ) != 0 ) {
if ( misfitAccounting ) {
/* If the number of foreign in transitions is about to go up to 1 then
* take it off the misfit list and put it on the head list. */
if ( to->foreignInTrans == 0 )
stateList.append( misfitList.detach( to ) );
}
/* Up the foreign in transitions to the state. */
to->foreignInTrans += 1;
}
}
/* Clear all entry points from a machine. */
void FsmAp::unsetAllEntryPoints()
{
for ( EntryMap::Iter en = entryPoints; en.lte(); en++ ) {
/* Kill all the state's entry points at once. */
if ( en->value->entryIds.length() > 0 ) {
en->value->foreignInTrans -= en->value->entryIds.length();
if ( misfitAccounting ) {
/* If the number of foreign in transitions just went down to 0
* then take it off the main list and put it on the misfit
* list. */
if ( en->value->foreignInTrans == 0 )
misfitList.append( stateList.detach( en->value ) );
}
/* Clear the set of ids out all at once. */
en->value->entryIds.empty();
}
}
/* Now clear out the entry map all at once. */
entryPoints.empty();
}
/* Assigning an epsilon transition into final states. */
void FsmAp::epsilonTrans( int id )
{
for ( StateSet::Iter fs = finStateSet; fs.lte(); fs++ )
(*fs)->epsilonTrans.append( id );
}
/* Mark all states reachable from state. Traverses transitions forward. Used
* for removing states that have no path into them. */
void FsmAp::markReachableFromHere( StateAp *state )
{
/* Base case: return; */
if ( state->stateBits & STB_ISMARKED )
return;
/* Set this state as processed. We are going to visit all states that this
* state has a transition to. */
state->stateBits |= STB_ISMARKED;
/* Recurse on all out transitions. */
for ( TransList::Iter trans = state->outList; trans.lte(); trans++ ) {
if ( trans->toState != 0 )
markReachableFromHere( trans->toState );
}
}
void FsmAp::markReachableFromHereStopFinal( StateAp *state )
{
/* Base case: return; */
if ( state->stateBits & STB_ISMARKED )
return;
/* Set this state as processed. We are going to visit all states that this
* state has a transition to. */
state->stateBits |= STB_ISMARKED;
/* Recurse on all out transitions. */
for ( TransList::Iter trans = state->outList; trans.lte(); trans++ ) {
StateAp *toState = trans->toState;
if ( toState != 0 && !toState->isFinState() )
markReachableFromHereStopFinal( toState );
}
}
/* Mark all states reachable from state. Traverse transitions backwards. Used
* for removing dead end paths in graphs. */
void FsmAp::markReachableFromHereReverse( StateAp *state )
{
/* Base case: return; */
if ( state->stateBits & STB_ISMARKED )
return;
/* Set this state as processed. We are going to visit all states with
* transitions into this state. */
state->stateBits |= STB_ISMARKED;
/* Recurse on all items in transitions. */
for ( TransInList::Iter trans = state->inList; trans.lte(); trans++ )
markReachableFromHereReverse( trans->fromState );
}
/* Determine if there are any entry points into a start state other than the
* start state. Setting starting transitions requires that the start state be
* isolated. In most cases a start state will already be isolated. */
bool FsmAp::isStartStateIsolated()
{
/* If there are any in transitions then the state is not isolated. */
if ( startState->inList.head != 0 )
return false;
/* If there are any entry points then isolated. */
if ( startState->entryIds.length() > 0 )
return false;
return true;
}
/* Bring in other's entry points. Assumes others states are going to be
* copied into this machine. */
void FsmAp::copyInEntryPoints( FsmAp *other )
{
/* Use insert multi because names are not unique. */
for ( EntryMap::Iter en = other->entryPoints; en.lte(); en++ )
entryPoints.insertMulti( en->key, en->value );
}
void FsmAp::unsetAllFinStates()
{
for ( StateSet::Iter st = finStateSet; st.lte(); st++ )
(*st)->stateBits &= ~ STB_ISFINAL;
finStateSet.empty();
}
void FsmAp::setFinBits( int finStateBits )
{
for ( int s = 0; s < finStateSet.length(); s++ )
finStateSet.data[s]->stateBits |= finStateBits;
}
/* Tests the integrity of the transition lists and the fromStates. */
void FsmAp::verifyIntegrity()
{
for ( StateList::Iter state = stateList; state.lte(); state++ ) {
/* Walk the out transitions and assert fromState is correct. */
for ( TransList::Iter trans = state->outList; trans.lte(); trans++ )
assert( trans->fromState == state );
/* Walk the inlist and assert toState is correct. */
for ( TransInList::Iter trans = state->inList; trans.lte(); trans++ )
assert( trans->toState == state );
}
}
void FsmAp::verifyReachability()
{
/* Mark all the states that can be reached
* through the set of entry points. */
markReachableFromHere( startState );
for ( EntryMap::Iter en = entryPoints; en.lte(); en++ )
markReachableFromHere( en->value );
/* Check that everything got marked. */
for ( StateList::Iter st = stateList; st.lte(); st++ ) {
/* Assert it got marked and then clear the mark. */
assert( st->stateBits & STB_ISMARKED );
st->stateBits &= ~ STB_ISMARKED;
}
}
void FsmAp::verifyNoDeadEndStates()
{
/* Mark all states that have paths to the final states. */
for ( StateSet::Iter pst = finStateSet; pst.lte(); pst++ )
markReachableFromHereReverse( *pst );
/* Start state gets honorary marking. Must be done AFTER recursive call. */
startState->stateBits |= STB_ISMARKED;
/* Make sure everything got marked. */
for ( StateList::Iter st = stateList; st.lte(); st++ ) {
/* Assert the state got marked and unmark it. */
assert( st->stateBits & STB_ISMARKED );
st->stateBits &= ~ STB_ISMARKED;
}
}
void FsmAp::depthFirstOrdering( StateAp *state )
{
/* Nothing to do if the state is already on the list. */
if ( state->stateBits & STB_ONLIST )
return;
/* Doing depth first, put state on the list. */
state->stateBits |= STB_ONLIST;
stateList.append( state );
/* Recurse on everything ranges. */
for ( TransList::Iter tel = state->outList; tel.lte(); tel++ ) {
if ( tel->toState != 0 )
depthFirstOrdering( tel->toState );
}
}
/* Ordering states by transition connections. */
void FsmAp::depthFirstOrdering()
{
/* Init on state list flags. */
for ( StateList::Iter st = stateList; st.lte(); st++ )
st->stateBits &= ~STB_ONLIST;
/* Clear out the state list, we will rebuild it. */
int stateListLen = stateList.length();
stateList.abandon();
/* Add back to the state list from the start state and all other entry
* points. */
if ( errState != 0 )
depthFirstOrdering( errState );
depthFirstOrdering( startState );
for ( EntryMap::Iter en = entryPoints; en.lte(); en++ )
depthFirstOrdering( en->value );
/* Make sure we put everything back on. */
assert( stateListLen == stateList.length() );
}
/* Stable sort the states by final state status. */
void FsmAp::sortStatesByFinal()
{
/* Move forward through the list and throw final states onto the end. */
StateAp *state = 0;
StateAp *next = stateList.head;
StateAp *last = stateList.tail;
while ( state != last ) {
/* Move forward and load up the next. */
state = next;
next = state->next;
/* Throw to the end? */
if ( state->isFinState() ) {
stateList.detach( state );
stateList.append( state );
}
}
}
void FsmAp::setStateNumbers( int base )
{
for ( StateList::Iter state = stateList; state.lte(); state++ )
state->alg.stateNum = base++;
}
bool FsmAp::checkErrTrans( StateAp *state, TransAp *trans )
{
/* Might go directly to error state. */
if ( trans->toState == 0 )
return true;
if ( trans->prev == 0 ) {
/* If this is the first transition. */
if ( keyOps->minKey < trans->lowKey )
return true;
}
else {
/* Not the first transition. Compare against the prev. */
TransAp *prev = trans->prev;
Key nextKey = prev->highKey;
nextKey.increment();
if ( nextKey < trans->lowKey )
return true;
}
return false;
}
bool FsmAp::checkErrTransFinish( StateAp *state )
{
/* Check if there are any ranges already. */
if ( state->outList.length() == 0 )
return true;
else {
/* Get the last and check for a gap on the end. */
TransAp *last = state->outList.tail;
if ( last->highKey < keyOps->maxKey )
return true;
}
return 0;
}
bool FsmAp::hasErrorTrans()
{
bool result;
for ( StateList::Iter st = stateList; st.lte(); st++ ) {
for ( TransList::Iter tr = st->outList; tr.lte(); tr++ ) {
result = checkErrTrans( st, tr );
if ( result )
return true;
}
result = checkErrTransFinish( st );
if ( result )
return true;
}
return false;
}
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