void AbcNodeUtils::printCompoundProperty( Abc::ICompoundProperty prop )
{
if(!prop){
return;
}
for(size_t i=0; i<prop.getNumProperties(); i++){
AbcA::PropertyHeader pheader = prop.getPropertyHeader(i);
AbcA::PropertyType propType = pheader.getPropertyType();
ESS_LOG_WARNING("PropertyType: "<<AbcNodeUtils::getTypeStr(propType));
ESS_LOG_WARNING("PropertyName: "<<pheader.getName()<<", pod: "<<AbcNodeUtils::getPodStr(pheader.getDataType().getPod()) \
<<", extent: "<<(int)pheader.getDataType().getExtent()<<", interpretation: "<<pheader.getMetaData().get("interpretation"));
}
}
//-*****************************************************************************
void WritePropertyInfo( hid_t iGroup,
const AbcA::PropertyHeader &iHeader,
bool isScalarLike,
uint32_t iTimeSamplingIndex,
uint32_t iNumSamples,
uint32_t iFirstChangedIndex,
uint32_t iLastChangedIndex )
{
uint32_t info[5] = {0, 0, 0, 0, 0};
uint32_t numFields = 1;
// 0000 0000 0000 0000 0000 0000 0000 0011
static const uint32_t ptypeMask = 0x0003;
// 0000 0000 0000 0000 0000 0000 0011 1100
static const uint32_t podMask = 0x003c;
// 0000 0000 0000 0000 0000 0000 0100 0000
static const uint32_t hasTsidxMask = 0x0040;
// 0000 0000 0000 0000 0000 0000 1000 0000
static const uint32_t noRepeatsMask = 0x0080;
// 0000 0000 0000 0000 1111 1111 0000 0000
static const uint32_t extentMask = 0xff00;
// compounds are treated differently
if ( iHeader.getPropertyType() != AbcA::kCompoundProperty )
{
// Slam the property type in there.
info[0] |= ptypeMask & ( uint32_t )iHeader.getPropertyType();
// arrays may be scalar like, scalars are already scalar like
info[0] |= ( uint32_t ) isScalarLike;
uint32_t pod = ( uint32_t )iHeader.getDataType().getPod();
info[0] |= podMask & ( pod << 2 );
if (iTimeSamplingIndex != 0)
{
info[0] |= hasTsidxMask;
}
if (iFirstChangedIndex == 1 && iLastChangedIndex == iNumSamples - 1)
{
info[0] |= noRepeatsMask;
}
uint32_t extent = ( uint32_t )iHeader.getDataType().getExtent();
info[0] |= extentMask & ( extent << 8 );
ABCA_ASSERT( iFirstChangedIndex <= iNumSamples &&
iLastChangedIndex <= iNumSamples &&
iFirstChangedIndex <= iLastChangedIndex,
"Illegal Sampling!" << std::endl <<
"Num Samples: " << iNumSamples << std::endl <<
"First Changed Index: " << iFirstChangedIndex << std::endl <<
"Last Changed Index: " << iLastChangedIndex << std::endl );
// Write the num samples. Only bother writing if
// the num samples is greater than 1. Existence of name.smp0
// is used by the reader to determine if 0 or 1 sample.
if ( iNumSamples > 1 )
{
info[1] = iNumSamples;
numFields ++;
if ( iFirstChangedIndex > 1 || ( iLastChangedIndex != 0 &&
iLastChangedIndex != iNumSamples - 1 ) )
{
info[2] = iFirstChangedIndex;
info[3] = iLastChangedIndex;
numFields += 2;
}
}
// finally set time sampling index on the end if necessary
if (iTimeSamplingIndex != 0)
{
info[numFields] = iTimeSamplingIndex;
numFields ++;
}
}
WriteSmallArray( iGroup, iHeader.getName() + ".info",
H5T_STD_U32LE, H5T_NATIVE_UINT32, numFields,
( const void * ) info );
WriteMetaData( iGroup, iHeader.getName() + ".meta", iHeader.getMetaData());
}
//-*****************************************************************************
void
ReadPropertyHeader( H5Node & iParent,
const std::string & iPropName,
AbcA::PropertyHeader & oHeader,
bool & oIsScalarLike,
uint32_t & oNumSamples,
uint32_t & oFirstChangedIndex,
uint32_t & oLastChangedIndex,
uint32_t & oTimeSamplingIndex )
{
uint32_t info[5] = {0, 0, 0, 0, 0};
size_t numFields = 0;
size_t fieldsUsed = 1;
// 0000 0000 0000 0000 0000 0000 0000 0011
static const uint32_t ptypeMask = 0x0003;
// 0000 0000 0000 0000 0000 0000 0011 1100
static const uint32_t podMask = 0x003c;
// 0000 0000 0000 0000 0000 0000 0100 0000
static const uint32_t hasTsidxMask = 0x0040;
// 0000 0000 0000 0000 0000 0000 1000 0000
static const uint32_t noRepeatsMask = 0x0080;
// 0000 0000 0000 0000 1111 1111 0000 0000
static const uint32_t extentMask = 0xff00;
ReadSmallArray(iParent.getObject(), iPropName + ".info", H5T_STD_U32LE,
H5T_NATIVE_UINT32, 5, numFields, (void *) info );
AbcA::MetaData metaData;
ReadMetaData( iParent, iPropName + ".meta", metaData );
if ( numFields == 1 && info[0] == 0 )
{
oHeader = AbcA::PropertyHeader( iPropName, metaData );
}
else
{
// low two bits are the property type
char ipt = info[0] & ptypeMask;
// first bit is either scalar, or scalar like
oIsScalarLike = ipt & 1;
// is scalar like is set for this array attribute
if (ipt == 3)
{
oHeader.setPropertyType( AbcA::kArrayProperty );
}
else
{
oHeader.setPropertyType( ( AbcA::PropertyType )ipt );
}
// Read the pod type out of bits 2-5
char podt = ( char )( ( info[0] & podMask ) >> 2 );
if ( podt != ( char )kBooleanPOD &&
podt != ( char )kUint8POD &&
podt != ( char )kInt8POD &&
podt != ( char )kUint16POD &&
podt != ( char )kInt16POD &&
podt != ( char )kUint32POD &&
podt != ( char )kInt32POD &&
podt != ( char )kUint64POD &&
podt != ( char )kInt64POD &&
podt != ( char )kFloat16POD &&
podt != ( char )kFloat32POD &&
podt != ( char )kFloat64POD &&
podt != ( char )kStringPOD &&
podt != ( char )kWstringPOD )
{
ABCA_THROW( "Read invalid POD type: " << ( int )podt );
}
// bit 6 is the hint about whether time sampling index was written
// at the end
bool hasTsidx = ( (info[0] & hasTsidxMask ) >> 6 ) == 1;
oTimeSamplingIndex = 0;
if ( hasTsidx && numFields > 1 )
{
oTimeSamplingIndex = info[numFields - 1];
fieldsUsed ++;
}
// bit 7 is a hint about whether first and last changed index
// are intrinsically 1, and numSamples - 1
// (no repeated data from the start or the end)
bool noRepeats = ( (info[0] & noRepeatsMask ) >> 7 ) == 1;
// Time Sampling Index could be written, but the number of samples
// may not be.
if ( numFields > fieldsUsed )
{
oNumSamples = info[1];
if ( numFields >= 4 )
{
oFirstChangedIndex = info[2];
oLastChangedIndex = info[3];
}
else if ( noRepeats )
{
oFirstChangedIndex = 1;
oLastChangedIndex = oNumSamples - 1;
}
else
{
oFirstChangedIndex = 0;
oLastChangedIndex = 0;
}
}
else
{
oNumSamples = 0;
oFirstChangedIndex = 0;
oLastChangedIndex = 0;
// if smp0 exists then we have 1 sample
std::string smpName = iPropName + ".smp0";
if ( oHeader.getPropertyType() == AbcA::kArrayProperty &&
ObjectExists( iParent, smpName ) )
{
oNumSamples = 1;
}
else if ( oHeader.getPropertyType() == AbcA::kScalarProperty &&
AttrExists( iParent, smpName ) )
{
oNumSamples = 1;
}
}
// Read the extent out of bits 8-15
uint8_t extent = ( uint8_t )( ( info[0] & extentMask ) >> 8 );
if ( extent == 0 )
{
ABCA_THROW( "Degenerate extent 0" );
}
// bits 16-31 are currently not being used
// the time sampling will be set on oHeader by the calling function
// since we don't have access to the archive here.
oHeader.setName( iPropName );
oHeader.setMetaData( metaData );
oHeader.setDataType(
AbcA::DataType( ( Util::PlainOldDataType ) podt, extent ) );
}
}
//TODO: out at maximum one warning per unsupported type
void readInputProperties( Abc::ICompoundProperty prop, std::vector<AbcProp>& props )
{
if(!prop){
return;
}
for(size_t i=0; i<prop.getNumProperties(); i++){
AbcA::PropertyHeader pheader = prop.getPropertyHeader(i);
AbcA::PropertyType propType = pheader.getPropertyType();
//ESS_LOG_WARNING("Property, propName: "<<pheader.getName()<<", pod: "<<getPodStr(pheader.getDataType().getPod()) \
// <<", extent: "<<(int)pheader.getDataType().getExtent()<<", interpretation: "<<pheader.getMetaData().get("interpretation"));
int invalidStrIndex = containsInvalidString(pheader.getName());
if( invalidStrIndex > 0 ){
ESS_LOG_WARNING("Skipping property "<<pheader.getName()<<" because it contains an invalid character: "<<invalidStrTable[invalidStrIndex]);
continue;
}
if( propType == AbcA::kCompoundProperty ){
//printInputProperties(Abc::ICompoundProperty(prop, pheader.getName()));
//ESS_LOG_WARNING("Unsupported compound property: "<<pheader.getName());
}
else if( propType == AbcA::kScalarProperty ){
//ESS_LOG_WARNING("Scaler property: "<<pheader.getName());
//
std::string displayVal;
bool bConstant = true;
int sortId = 0;
int size = 0;
if(Abc::IBoolProperty::matches(pheader)){
//I need to know the name and type only if animated; an appropriate controller will handle reading the data.
//If not animated, the value will set directly on the light and/or display modifier
Abc::IBoolProperty boolProp(prop, pheader.getName());
/*if(boolProp.isConstant()){*/
AbcU::bool_t bVal = false;
boolProp.get(bVal);
if(bVal == true) displayVal = "true";
else displayVal = "false";
//}
//else{
//
//}
}
else if(readPropExt1<Abc::IInt32Property, int>(prop, pheader, displayVal, bConstant));
else if(readPropExt1<Abc::IFloatProperty, float>(prop, pheader, displayVal, bConstant));
else if(readPropExt3<Abc::IC3fProperty, Abc::C3f>(prop, pheader, displayVal, bConstant));
else if(readPropExt3<Abc::IV3fProperty, Abc::V3f>(prop, pheader, displayVal, bConstant));
else if(readPropExt3<Abc::IN3fProperty, Abc::N3f>(prop, pheader, displayVal, bConstant));
else if(Abc::IStringProperty::matches(pheader)){
Abc::IStringProperty stringProp(prop, pheader.getName());
stringProp.get(displayVal);
sortId = 1000000000;
}
else{
// Abc::PropertyHeader propHeader = props.getPropertyHeader(i);
// AbcA::PropertyType propType = propHeader.getPropertyType();
ESS_LOG_WARNING("Unsupported property, propName: "<<pheader.getName()<<", pod: "<<getPodStr(pheader.getDataType().getPod()) \
<<", extent: "<<(int)pheader.getDataType().getExtent()<<", interpretation: "<<pheader.getMetaData().get("interpretation"));
}
props.push_back(AbcProp(pheader.getName(), displayVal, pheader, bConstant, sortId));
}
else if( propType == AbcA::kArrayProperty ){
//ESS_LOG_WARNING("Unsupported array property: "<<pheader.getName());
//it the moment is unlikely we will support array properties in 3DS Max. They won't work so well with our display modifier system.
//ESS_LOG_WARNING("Unsupported array property, propName: "<<pheader.getName()<<", pod: "<<getPodStr(pheader.getDataType().getPod()) \
//<<", extent: "<<(int)pheader.getDataType().getExtent()<<", interpretation: "<<pheader.getMetaData().get("interpretation"));
}
else{
ESS_LOG_WARNING("Unsupported input property: "<<pheader.getName());
}
}
}