DXFResult DXFFile::endEntity()
{
StringToNodePtrMap::iterator itr;
FDEBUGx(("DXFFile::endEntity(): _layersMapP = %p\n",
_layersMapP));
for(itr = _layersMapP->begin();
itr != _layersMapP->end();
++ itr)
{
FDEBUGx(("DXFFile::endEntity(): Adding LAYER %s to root node.\n",
itr->first.c_str()));
_rootNodeP->addChild(itr->second);
}
FDEBUGx(("DXFFile::endEntity(): _blocksMapP = %p\n",
_blocksMapP));
for(itr = _blocksMapP->begin();
itr != _blocksMapP->end();
++ itr)
{
FDEBUGx(("DXFFile::endEntity(): Have BLOCK %s stored...\n",
itr->first.c_str()));
}
return DXFStateContinue;
}
/*! Complete Node representing the block from the fetched data.
* \todo set trafo to _basePoint[]
*/
DXFResult DXFBlock::endEntity(void)
{
StringToNodePtrMap::iterator itr = _blocksMapP->begin();
setName(_blockNodeP, _entityTypeName + "=" + _blockName);
while(itr != _blocksMapP->end())
{
itr = _blocksMapP->find(_blockName);
if( itr != _blocksMapP->end())
{
_blockName += _handle;
FWARNING(("DXF Loader: in line %d: "
"block with same name '%s' already exists! "
"Renaming the new one to '%s' "
"(won't be able to access it for referencing though)\n",
DXFRecord::getLineNumber(),
itr->first.c_str(),
_blockName.c_str()
));
}
}
(*_blocksMapP)[_blockName] = _blockNodeP;
FDEBUGx(("DXFBlocks::endEntity(): BLOCK '%s' in map and is stored as '%s'.\n",
getName((*_blocksMapP)[_blockName]),
_blockName.c_str()));
// TODO: set transformation to _basePoint[] ?!?!?
endEditCP(_blockNodeP);
return DXFStateContinue;
}
DXFResult DXFFile::beginEntity()
{
_rootNodeP = Node::create();
GroupUnrecPtr groupP = Group::create();
_rootNodeP->setCore(groupP);
//setName(_rootNodeP, szFilename);
if(_linetypeMapP == NULL)
{
_linetypeMapP = new StringToLineChunkPtrMap();
}
else
{
_linetypeMapP->clear();
}
if(_layersMapP == NULL)
{
_layersMapP = new StringToNodePtrMap();
}
else
{
_layersMapP->clear();
}
FDEBUGx(("DXFFile::beginEntity(): _layersMapP = %p\n",
_layersMapP));
if(_blocksMapP == NULL)
{
_blocksMapP = new StringToNodePtrMap();
}
else
{
_blocksMapP->clear();
}
return DXFStateContinue;
}
/*! An entity type may be registered as child of more than one parent entity
* type, e.g. VERTEX, which is child of 3DMESH, POLYLINE and many others.
*
* \pre entityType is a valid pointer != 0
*/
void DXFFile::registerEntityType( const Char8 *entityParentTypeName,
DXFEntityBase *entityType )
{
StringToStringMMap::iterator hmItr;
// The ugly concept of entityTypeName, entityClassName and entityUniqueName
// was introduced because of the **** "feature" of the DXF file format to
// have pairs of different entities having the same keywords: there is a
// TABLES entry named LAYER, thus a LAYERs table, and ther is the entry to
// that table, the LAYER itself. The same **** holds for all other TABLE
// types!
// only for better readibility
Char8 const * const entityTypeName = entityType->getEntityTypeName();
Char8 const * const entityClassName = entityType->getEntityClassName();
const std::string entityUniqueName(std::string() +
entityClassName + ":" + entityTypeName);
if(_the == NULL)
{
// The constructor of DXFFile must be the only one of all instantiable
// classes derived from DXFEntityBase, which does *NOT* call
// DXFEntityBase::registerToParentEntity()!
_the = new DXFFile();
}
// search for new entityType and add it if unknown.
EntityTypeMap::iterator itr =
_the->_entityTypes.find(entityUniqueName);
if (itr == _the->_entityTypes.end())
_the->_entityTypes[entityUniqueName] = entityType;
#if 1 // DEBUG
for ( itr = _the->_entityTypes.begin();
itr != _the->_entityTypes.end();
++ itr)
{
FDEBUGx(("DXFFile::registerEntityType(%s(%p))\n",
itr->first.c_str(), itr->second
));
}
#endif
if(entityType != _the) // (only) DXFFile has no parent entity type, thus
// ignore it!
{
// search for entityParentType
EntityTypeMap::iterator itr =
_the->_entityTypes.find(entityParentTypeName);
if (itr == _the->_entityTypes.end())
{
FDEBUGx(("DXFFile::registerEntityType: "
"Parent Entity '%s' for Entity type '%s' not found. "
"Storing for unresolved family\n",
entityParentTypeName,
entityTypeName));
// Entity parent entity not found: the registration to the
// respective entity parent type has to be deferred until the
// parent type will be registered. Store the registration request.
_the->_entityTypeHierarchy.insert(
std::pair<const std::string, std::string>(entityParentTypeName,
entityUniqueName)
);
}
else
{
itr->second->_childEntityTypes[entityTypeName]
= entityType;
FDEBUGx(("DXFFile::registerEntityType: "
"inserted entity type %s(%p) to parent type %s(%p).\n",
itr->second->_childEntityTypes[entityTypeName]->getEntityTypeName(),
itr->second->_childEntityTypes[entityTypeName],
itr->second->getEntityTypeName(),
itr->second
));
FDEBUGx(("DXFFile::registerEntityType: "
"%s(%p)->_childEntityTypes.size() = %d\n",
itr->second->getEntityTypeName(),
itr->second,
itr->second->_childEntityTypes.size()
));
}
}
// Resolve older registration requests for the added entity type
// (entityUniqueName now has the role of a entityParentTypeName) and remove
// it from unresolved list.
std::pair<StringToStringMMap::iterator, StringToStringMMap::iterator>
range = _the->_entityTypeHierarchy.equal_range(entityUniqueName);
for( hmItr = range.first;
hmItr != range.second;
++ hmItr )
{
DXFEntityBase *childEntityType =
_the->_entityTypes[hmItr->second];
Char8 const * const childEntityTypeName =
childEntityType->getEntityTypeName();
_the->_entityTypes[hmItr->first]
->_childEntityTypes[childEntityTypeName] = childEntityType;
}
_the->_entityTypeHierarchy.erase(range.first, range.second);
}
/*! Handle special dispatch case for BLOCKS section.
*
* \dev This method is almost the same as DXFEntityBase::dispatch() besides
* that it dispatches a BLOCK directly without reading a name in a group with
* code 2. Thanks to the very very well designed DXF file format we need this
* distinction here :( \enddev
*/
void DXFBlocks::dispatch(void)
{
EntityTypeMap::iterator itr;
// There must be a keyword! // TODO: raus! DXFRecord::getValueType() < 0
// wird schon in DXFEntityBase::read() gecheckt!!!
if(DXFRecord::getValueStr().empty())
{
FWARNING(("DXF Loader: syntax error in line %d!\n",
DXFRecord::getLineNumber() + 1));
_state = DXFStateError;
FDEBUGx(("Line %d: %s:%s returns %s because of Record (%d|%s)\n",
DXFRecord::getLineNumber(),
getEntityClassName(),
getEntityTypeName(),
DXFResultNames[_state],
DXFRecord::getGroupCode(),
DXFRecord::getValueStr().c_str()
));
return;
}
// Keyword ENDSEC for SECTIONs, TABLEs, BLOCKS, ...
if(DXFRecord::getValueStr() == _parent->getChildEndKeyword())
{
FDEBUGx(("EndKeyword: %s\n", DXFRecord::getValueStr().c_str()));
DXFRecord::unget();
_state = DXFStateReturn;
FDEBUGx(("Line %d: %s:%s returns %s because of Record (%d|%s)\n",
DXFRecord::getLineNumber(),
getEntityClassName(),
getEntityTypeName(),
DXFResultNames[_state],
DXFRecord::getGroupCode(),
DXFRecord::getValueStr().c_str()
));
return;
}
if(DXFRecord::getValueStr() == _childBeginKeyword) // == "BLOCK" !
{
itr = _childEntityTypes.find(DXFRecord::getValueStr());
// unknown entity type?
if(itr == _childEntityTypes.end())
{
FWARNING(("DXF Loader (%s:%s): in line %d: "
"%s '%s' not yet implemented. Ignoring!\n",
getEntityClassName(),
getEntityTypeName(),
DXFRecord::getLineNumber(),
_childBeginKeyword.c_str(),
DXFRecord::getValueStr().c_str()));
_state = DXFStateIgnore;
FDEBUGx(("(%s:%d) line %d: %s:%s returns %s because of Record (%d|%s)\n",
__FILE__,
__LINE__,
DXFRecord::getLineNumber(),
getEntityClassName(),
getEntityTypeName(),
DXFResultNames[_state],
DXFRecord::getGroupCode(),
DXFRecord::getValueStr().c_str()
));
return;
}
// descent into the entity type hierarchy.
#if 1
DXFEntityBase *entityBasePtr = dynamic_cast<DXFEntityBase *>(itr->second);
entityBasePtr->read(this);
#else
// doesn't work since read is protected in DFXEntityBase
itr->second->DXFEntityBase::read(this);
#endif
FDEBUGx(("(%s, %d) line %d: %s:%s returns %s because of Record (%d|%s)\n",
__FILE__, __LINE__,
DXFRecord::getLineNumber(),
getEntityClassName(),
getEntityTypeName(),
DXFResultNames[_state],
DXFRecord::getGroupCode(),
DXFRecord::getValueStr().c_str()
));
return;
}
// Eat up the END* keyword, which has been put back by a child entity, or
// start reading again after the end of an unknown high level entity's
// child.
if(DXFRecord::getValueStr() == _childEndKeyword)
{
_state = DXFStateContinue;
FDEBUGx(("(%s, %d) line %d: %s:%s returns %s because of Record (%d|%s)\n",
__FILE__, __LINE__,
DXFRecord::getLineNumber(),
getEntityClassName(),
getEntityTypeName(),
DXFResultNames[_state],
DXFRecord::getGroupCode(),
DXFRecord::getValueStr().c_str()
));
return;
}
if(_state == DXFStateIgnore)
{
FDEBUGx(("(%s, %d) line %d: %s:%s returns %s because of Record (%d|%s)\n",
__FILE__, __LINE__,
DXFRecord::getLineNumber(),
getEntityClassName(),
getEntityTypeName(),
DXFResultNames[_state],
DXFRecord::getGroupCode(),
DXFRecord::getValueStr().c_str()
));
return;
}
// Something went wrong
_state = DXFStateError;
FWARNING(("DXF Loader: syntax error in line %d, reported by %s:%s, "
"current record is (%d|%s). "
"May have happened already before. Giving up! (return = %s)\n",
DXFRecord::getLineNumber(),
getEntityClassName(),
getEntityTypeName(),
DXFRecord::getGroupCode(),
DXFRecord::getValueStr().c_str(),
DXFResultNames[_state]
));
return;
} // DXFBlocks::dispatch()
