char mainMachine[] = "main";
-void Token::set( char *str, int len )
+void Token::set( const char *str, int len )
{
length = len;
data = new char[len+1];
void afterOpMinimize( FsmAp *fsm, bool lastInSeq )
{
/* Switch on the prefered minimization algorithm. */
- if ( minimizeOpt == MinimizeEveryOp || minimizeOpt == MinimizeMostOps && lastInSeq ) {
+ if ( minimizeOpt == MinimizeEveryOp || ( minimizeOpt == MinimizeMostOps && lastInSeq ) ) {
/* First clean up the graph. FsmAp operations may leave these
* lying around. There should be no dead end states. The subtract
* intersection operators are the only places where they may be
unsigned long ul = strtoul( str, 0, 16 );
- if ( errno == ERANGE || unusedBits && ul >> (size * 8) ) {
+ if ( errno == ERANGE || ( unusedBits && ul >> (size * 8) ) ) {
error(loc) << "literal " << str << " overflows the alphabet type" << endl;
ul = 1 << (size * 8);
}
long long ll = strtoll( str, 0, 10 );
/* Check for underflow. */
- if ( errno == ERANGE && ll < 0 || ll < minVal) {
+ if ( ( errno == ERANGE && ll < 0 ) || ll < minVal) {
error(loc) << "literal " << str << " underflows the alphabet type" << endl;
ll = minVal;
}
/* Check for overflow. */
- else if ( errno == ERANGE && ll > 0 || ll > maxVal ) {
+ else if ( ( errno == ERANGE && ll > 0 ) || ll > maxVal ) {
error(loc) << "literal " << str << " overflows the alphabet type" << endl;
ll = maxVal;
}
alphTypeSet(false),
getKeyExpr(0),
accessExpr(0),
+ prePushExpr(0),
+ postPopExpr(0),
pExpr(0),
peExpr(0),
+ eofExpr(0),
csExpr(0),
topExpr(0),
stackExpr(0),
actExpr(0),
tokstartExpr(0),
tokendExpr(0),
+ dataExpr(0),
lowerNum(0),
upperNum(0),
fileName(fileName),
/* Make a name id in the current name instantiation scope if it is not
* already there. */
-NameInst *ParseData::addNameInst( const InputLoc &loc, char *data, bool isLabel )
+NameInst *ParseData::addNameInst( const InputLoc &loc, const char *data, bool isLabel )
{
/* Create the name instantitaion object and insert it. */
NameInst *newNameInst = new NameInst( loc, curNameInst, data, nextNameId++, isLabel );
}
}
-NameSet ParseData::resolvePart( NameInst *refFrom, char *data, bool recLabelsOnly )
+NameSet ParseData::resolvePart( NameInst *refFrom, const char *data, bool recLabelsOnly )
{
/* Queue needed for breadth-first search, load it with the start node. */
NameInstList nameQueue;
/* Resolve, pass action for local search. */
NameInst *target = resolveStateRef( *item->nameRef, item->loc, action );
- /* Check if the target goes into a longest match. */
- NameInst *search = target->parent;
- while ( search != 0 ) {
- if ( search->isLongestMatch ) {
- error(item->loc) << "cannot enter inside a longest "
- "match construction as an entry point" << endl;
- break;
+ /* Name lookup error reporting is handled by resolveStateRef. */
+ if ( target != 0 ) {
+ /* Check if the target goes into a longest match. */
+ NameInst *search = target->parent;
+ while ( search != 0 ) {
+ if ( search->isLongestMatch ) {
+ error(item->loc) << "cannot enter inside a longest "
+ "match construction as an entry point" << endl;
+ break;
+ }
+ search = search->parent;
}
- search = search->parent;
- }
- /* Note the reference in the name. This will cause the entry
- * point to survive to the end of the graph generating walk. */
- if ( target != 0 )
+ /* Record the reference in the name. This will cause the
+ * entry point to survive to the end of the graph
+ * generating walk. */
target->numRefs += 1;
+ }
+
item->nameTarg = target;
break;
}
}
-void ParseData::createBuiltin( char *name, BuiltinMachine builtin )
+void ParseData::createBuiltin( const char *name, BuiltinMachine builtin )
{
Expression *expression = new Expression( builtin );
Join *join = new Join( expression );
}
/* Set the alphabet type. If the types are not valid returns false. */
-bool ParseData::setAlphType( char *s1, char *s2 )
+bool ParseData::setAlphType( const InputLoc &loc, char *s1, char *s2 )
{
+ alphTypeLoc = loc;
userAlphType = findAlphType( s1, s2 );
alphTypeSet = true;
return userAlphType != 0;
}
/* Set the alphabet type. If the types are not valid returns false. */
-bool ParseData::setAlphType( char *s1 )
+bool ParseData::setAlphType( const InputLoc &loc, char *s1 )
{
+ alphTypeLoc = loc;
userAlphType = findAlphType( s1 );
alphTypeSet = true;
return userAlphType != 0;
pExpr = inlineList;
else if ( strcmp( var, "pe" ) == 0 )
peExpr = inlineList;
+ else if ( strcmp( var, "eof" ) == 0 )
+ eofExpr = inlineList;
else if ( strcmp( var, "cs" ) == 0 )
csExpr = inlineList;
+ else if ( strcmp( var, "data" ) == 0 )
+ dataExpr = inlineList;
else if ( strcmp( var, "top" ) == 0 )
topExpr = inlineList;
else if ( strcmp( var, "stack" ) == 0 )
stackExpr = inlineList;
else if ( strcmp( var, "act" ) == 0 )
actExpr = inlineList;
- else if ( strcmp( var, "tokstart" ) == 0 )
+ else if ( strcmp( var, "ts" ) == 0 )
tokstartExpr = inlineList;
- else if ( strcmp( var, "tokend" ) == 0 )
+ else if ( strcmp( var, "te" ) == 0 )
tokendExpr = inlineList;
else
set = false;
thisKeyOps.maxKey = makeFsmKeyNum( upperNum, rangeHighLoc, this );
}
- thisCondData.nextCondKey = thisKeyOps.maxKey;
- thisCondData.nextCondKey.increment();
+ thisCondData.lastCondKey = thisKeyOps.maxKey;
}
void ParseData::printNameInst( NameInst *nameInst, int level )
}
}
-Action *ParseData::newAction( char *name, InlineList *inlineList )
+Action *ParseData::newAction( const char *name, InlineList *inlineList )
{
InputLoc loc;
loc.line = 1;
/* The setTokStart action sets tokstart. */
InlineList *il5 = new InlineList;
il5->append( new InlineItem( InputLoc(), InlineItem::LmSetTokStart ) );
- setTokStart = newAction( "tokstart", il5 );
+ setTokStart = newAction( "ts", il5 );
setTokStart->isLmAction = true;
/* The setTokEnd action sets tokend. */
InlineList *il3 = new InlineList;
il3->append( new InlineItem( InputLoc(), InlineItem::LmSetTokEnd ) );
- setTokEnd = newAction( "tokend", il3 );
+ setTokEnd = newAction( "te", il3 );
setTokEnd->isLmAction = true;
/* The action will also need an ordering: ahead of all user action
* All state construction is now complete.
*/
+ /* Transfer actions from the out action tables to eof action tables. */
+ for ( StateSet::Iter state = graph->finStateSet; state.lte(); state++ )
+ graph->transferOutActions( *state );
+
/* Transfer global error actions. */
for ( StateList::Iter state = graph->stateList; state.lte(); state++ )
graph->transferErrorActions( state, 0 );
- removeActionDups( graph );
+ if ( ::wantDupsRemoved )
+ removeActionDups( graph );
/* Remove unreachable states. There should be no dead end states. The
* subtract and intersection operators are the only places where they may
/* Show that the name index is correct. */
for ( int ni = 0; ni < nextNameId; ni++ ) {
cerr << ni << ": ";
- char *name = nameIndex[ni]->name;
+ const char *name = nameIndex[ni]->name;
cerr << ( name != 0 ? name : "<ANON>" ) << endl;
}
}
/* EOF checks. */
if ( act->numEofRefs > 0 ) {
switch ( item->type ) {
- case InlineItem::PChar:
- error(item->loc) << "pointer to current element does not exist in "
- "EOF action code" << endl;
- break;
- case InlineItem::Char:
- error(item->loc) << "current element does not exist in "
- "EOF action code" << endl;
- break;
- case InlineItem::Hold:
- error(item->loc) << "changing the current element not possible in "
- "EOF action code" << endl;
- break;
- case InlineItem::Exec:
- error(item->loc) << "changing the current element not possible in "
- "EOF action code" << endl;
- break;
- case InlineItem::Goto: case InlineItem::Call:
- case InlineItem::Next: case InlineItem::GotoExpr:
- case InlineItem::CallExpr: case InlineItem::NextExpr:
- case InlineItem::Ret:
- error(item->loc) << "changing the current state not possible in "
- "EOF action code" << endl;
- break;
- default:
- break;
+ /* Currently no checks. */
+ default:
+ break;
}
}
}
+/* Construct the machine and catch failures which can occur during
+ * construction. */
void ParseData::prepareMachineGen( GraphDictEl *graphDictEl )
{
+ try {
+ /* This machine construction can fail. */
+ prepareMachineGenTBWrapped( graphDictEl );
+ }
+ catch ( FsmConstructFail fail ) {
+ switch ( fail.reason ) {
+ case FsmConstructFail::CondNoKeySpace: {
+ InputLoc &loc = alphTypeSet ? alphTypeLoc : sectionLoc;
+ error(loc) << "sorry, no more characters are "
+ "available in the alphabet space" << endl;
+ error(loc) << " for conditions, please use a "
+ "smaller alphtype or reduce" << endl;
+ error(loc) << " the span of characters on which "
+ "conditions are embedded" << endl;
+ break;
+ }
+ }
+ }
+}
+
+void ParseData::prepareMachineGenTBWrapped( GraphDictEl *graphDictEl )
+{
beginProcessing();
initKeyOps();
makeRootNames();
case HostLang::D: out << "D"; break;
case HostLang::Java: out << "Java"; break;
case HostLang::Ruby: out << "Ruby"; break;
+ case HostLang::CSharp: out << "C#"; break;
}
out << "\"";