/* static */
bool
GusdWriteCtrlFlags::getBoolAttr(
const GT_PrimitiveHandle& prim,
const char *attrName,
bool defaultValue )
{
if( prim ) {
GT_DataArrayHandle data;
if( prim->getPrimitiveType() == GT_GEO_PACKED ) {
GT_AttributeListHandle instAttrs =
UTverify_cast<const GT_GEOPrimPacked*>(prim.get())->getInstanceAttributes();
if( instAttrs ) {
data = instAttrs->get( attrName );
}
}
if( !data ) {
GT_Owner own;
data = prim->findAttribute( attrName, own, 0 );
}
if( data ) {
return bool( data->getI32(0) );
}
}
return defaultValue;
}
void
GusdPrimWrapper::updateVisibilityFromGTPrim(
const GT_PrimitiveHandle& sourcePrim,
UsdTimeCode time,
bool forceWrite )
{
// If we're tracking visibility, set this prim's default state to
// invisible. File-per-frame exports rely on this if the prim isn't
// persistent throughout the frame range.
GT_Owner attrOwner;
GT_DataArrayHandle houAttr
= sourcePrim->findAttribute(GUSD_VISIBLE_ATTR, attrOwner, 0);
if(houAttr) {
int visible = houAttr->getI32(0);
if(visible) {
setVisibility(UsdGeomTokens->inherited, time);
} else {
setVisibility(UsdGeomTokens->invisible, time);
}
}
else if ( forceWrite ) {
if(isVisible()) {
setVisibility(UsdGeomTokens->inherited, time);
} else {
setVisibility(UsdGeomTokens->invisible, time);
}
}
}
void
GusdPrimWrapper::updateVisibilityFromGTPrim(
const GT_PrimitiveHandle& sourcePrim,
UsdTimeCode time)
{
// If we're tracking visibility, set this prim's default state to
// invisible. File-per-frame exports rely on this if the prim isn't
// persistent throughout the frame range.
UsdAttribute visAttr = getUsdPrimForWrite().GetVisibilityAttr();
if( visAttr.IsValid() )
visAttr.Set(UsdGeomTokens->invisible,
UsdTimeCode::Default());
GT_Owner attrOwner;
GT_DataArrayHandle houAttr
= sourcePrim->findAttribute("visible", attrOwner, 0);
if(houAttr) {
int visible = houAttr->getI32(0);
if(visible) {
setVisibility(UsdGeomTokens->inherited, time);
} else {
setVisibility(UsdGeomTokens->invisible, time);
}
}
else {
if(isVisible()) {
setVisibility(UsdGeomTokens->inherited, time);
} else {
setVisibility(UsdGeomTokens->invisible, time);
}
}
}
bool GusdPrimWrapper::
isGTPrimSupported(const GT_PrimitiveHandle& prim)
{
if (!prim) return false;
const int primType = prim->getPrimitiveType();
return s_supportedNativeGTTypes.find(primType)
!= s_supportedNativeGTTypes.end();
}
bool GusdXformWrapper::
updateFromGTPrim(const GT_PrimitiveHandle& sourcePrim,
const UT_Matrix4D& localXform,
const GusdContext& ctxt,
GusdSimpleXformCache& xformCache)
{
if( !m_usdXformForWrite )
return false;
DBG( cout << "GusdXformWrapper::updateFromGTPrim, primType = " << sourcePrim->className() << endl );
return updateGroupFromGTPrim( m_usdXformForWrite, sourcePrim, localXform, ctxt, xformCache );
}
void
GusdPrimWrapper::updateActiveFromGTPrim(
const GT_PrimitiveHandle& sourcePrim,
UsdTimeCode time)
{
UsdPrim prim = getUsdPrimForWrite().GetPrim();
GT_Owner attrOwner;
GT_DataArrayHandle houAttr
= sourcePrim->findAttribute(GUSD_ACTIVE_ATTR, attrOwner, 0);
if (houAttr) {
int active = houAttr->getI32(0);
prim.SetActive((bool)active);
}
}
void
GusdPrimWrapper::updateActiveFromGTPrim(
const GT_PrimitiveHandle& sourcePrim,
UsdTimeCode time)
{
UsdPrim prim = getUsdPrim().GetPrim();
GT_Owner attrOwner;
GT_DataArrayHandle houAttr
= sourcePrim->findAttribute(GUSD_ACTIVE_ATTR, attrOwner, 0);
if (houAttr) {
GT_String state = houAttr->getS(0);
if (state) {
if (strcmp(state, "active") == 0) {
prim.SetActive(true);
} else if (strcmp(state, "inactive") == 0) {
prim.SetActive(false);
}
}
}
}
bool
GusdGU_PackedUSD::unpackPrim(
GU_Detail& destgdp,
UsdGeomImageable prim,
const SdfPath& primPath,
const UT_Matrix4D& xform,
const GT_RefineParms& rparms,
bool addPathAttributes ) const
{
GT_PrimitiveHandle gtPrim =
GusdPrimWrapper::defineForRead(
prim,
m_frame,
m_purposes );
if( !gtPrim ) {
const TfToken &type = prim.GetPrim().GetTypeName();
if( type != "PxHairman" && type != "PxProcArgs" )
TF_WARN( "Can't convert prim for unpack. %s. Type = %s.",
prim.GetPrim().GetPath().GetText(),
type.GetText() );
return false;
}
GusdPrimWrapper* wrapper = UTverify_cast<GusdPrimWrapper*>(gtPrim.get());
if( !wrapper->unpack(
destgdp,
fileName(),
primPath,
xform,
intrinsicFrame(),
#if SYS_VERSION_FULL_INT < 0x10050000
intrinsicViewportLOD(),
#else
intrinsicViewportLOD( getPrim() ),
#endif
m_purposes )) {
// If the wrapper prim does not do the unpack, do it here.
UT_Array<GU_Detail *> details;
if( prim.GetPrim().IsInMaster() ) {
gtPrim->setPrimitiveTransform( new GT_Transform( &xform, 1 ) );
}
GA_Size startIndex = destgdp.getNumPrimitives();
GT_Util::makeGEO(details, gtPrim, &rparms);
for (exint i = 0; i < details.entries(); ++i)
{
copyPrimitiveGroups(*details(i), false);
#if SYS_VERSION_FULL_INT < 0x11000000
unpackToDetail(destgdp, details(i), true);
#else
unpackToDetail(destgdp, details(i), &xform);
#endif
delete details(i);
}
if( addPathAttributes ) {
// Add usdpath and usdprimpath attributes to unpacked geometry.
GA_Size endIndex = destgdp.getNumPrimitives();
const char *path = prim.GetPrim().GetPath().GetString().c_str();
if( endIndex > startIndex )
{
GA_RWHandleS primPathAttr(
destgdp.addStringTuple( GA_ATTRIB_PRIMITIVE, GUSD_PRIMPATH_ATTR, 1 ));
GA_RWHandleS pathAttr(
destgdp.addStringTuple( GA_ATTRIB_PRIMITIVE, GUSD_PATH_ATTR, 1 ));
for( GA_Size i = startIndex; i < endIndex; ++i )
{
primPathAttr.set( destgdp.primitiveOffset( i ), 0, path );
pathAttr.set( destgdp.primitiveOffset( i ), 0, fileName().c_str() );
}
}
}
}
return true;
}
void
GusdRefiner::refineDetail(
const GU_ConstDetailHandle& detail,
const GT_RefineParms& refineParms )
{
m_refineParms = refineParms;
GU_DetailHandleAutoReadLock detailLock( detail );
GA_ROHandleS partitionAttr;
if( !m_pathAttrName.empty() ) {
partitionAttr =
detailLock->findStringTuple(
GA_ATTRIB_PRIMITIVE,
m_pathAttrName.c_str() );
}
std::vector<GA_Range> partitions;
GA_Range primRange = detailLock->getPrimitiveRange();
if(!partitionAttr.isValid() || primRange.getEntries() == 0) {
partitions.push_back(primRange);
}
else {
typedef UT_Map<GA_StringIndexType, GA_OffsetList> PrimPartitionMap;
PrimPartitionMap partitionMap;
for(GA_Iterator offsetIt(primRange); !offsetIt.atEnd(); ++offsetIt) {
GA_StringIndexType idx = partitionAttr.getIndex(offsetIt.getOffset());
partitionMap[idx].append(offsetIt.getOffset());
}
partitions.reserve(partitionMap.size());
for(PrimPartitionMap::const_iterator mapIt=partitionMap.begin();
mapIt != partitionMap.end(); ++mapIt) {
partitions.push_back(GA_Range(detailLock->getPrimitiveMap(),
mapIt->second));
}
}
// Refine each geometry partition to prims that can be written to USD.
// The results are accumulated in buffer in the refiner.
for(vector<GA_Range>::const_iterator rangeIt=partitions.begin();
rangeIt != partitions.end(); ++rangeIt) {
const GA_Range& range = *rangeIt;
// Before we refine we need to decide if we want to coalesce packed
// fragments. We will coalesce unless we are writing transform
// overlays and the fragment has a name.
GU_DetailHandleAutoReadLock detailLock( detail );
bool overlayTransforms = false;
GA_AttributeOwner order[] = { GA_ATTRIB_PRIMITIVE, GA_ATTRIB_DETAIL };
const GA_Attribute *overTransformsAttr =
detailLock->findAttribute( GUSD_OVERTRANSFORMS_ATTR, order, 2 );
if( overTransformsAttr ) {
GA_ROHandleI h( overTransformsAttr );
if( overTransformsAttr->getOwner() == GA_ATTRIB_DETAIL ) {
overlayTransforms = h.get( GA_Offset(0) );
}
else {
// assume all prims in the range have the same usdovertransforms
// attribute value
overlayTransforms = h.get( range.begin().getOffset() );
}
}
if( overlayTransforms ) {
// prims must be named to overlay transforms
const GA_Attribute *primPathAttr =
detailLock->findPrimitiveAttribute( GUSD_PRIMPATH_ATTR );
if( !primPathAttr ) {
overlayTransforms = false;
}
}
GT_RefineParms newRefineParms( refineParms );
newRefineParms.setCoalesceFragments( m_refinePackedPrims && !overlayTransforms );
GT_PrimitiveHandle detailPrim
= GT_GEODetail::makeDetail( detail, &range);
if(detailPrim) {
detailPrim->refine(*this, &newRefineParms );
}
}
}
void
GusdRefiner::addPrimitive( const GT_PrimitiveHandle& gtPrimIn )
{
if(!gtPrimIn) {
std::cout << "Attempting to add invalid prim" << std::endl;
return;
}
GT_PrimitiveHandle gtPrim = gtPrimIn; // copy to a non-const handle
int primType = gtPrim->getPrimitiveType();
DBG( cerr << "GusdRefiner::addPrimitive, " << gtPrim->className() << endl );
string primName;
// Types can register a function to provide a prim name.
// Volumes do this to return a name stored in the f3d file. This is
// important for consistant cluster naming.
string n;
if( GusdPrimWrapper::getPrimName( gtPrim, n )) {
primName = n;
}
bool refinePackedPrims = m_refinePackedPrims;
bool primHasNameAttr = false;
if( primName.empty() ) {
GT_AttributeListHandle primAttrs;
if( primType == GT_GEO_PACKED ) {
primAttrs = UTverify_cast<const GT_GEOPrimPacked*>(gtPrim.get())->getInstanceAttributes();
}
if( !primAttrs ) {
primAttrs = gtPrim->getUniformAttributes();
}
if( !primAttrs ) {
primAttrs = gtPrim->getDetailAttributes();
}
GT_DataArrayHandle dah;
if( primAttrs ) {
dah = primAttrs->get( m_pathAttrName.c_str() );
}
if( dah && dah->isValid() ) {
const char *s = dah->getS(0);
if( s != NULL ) {
primName = s;
primHasNameAttr = true;
}
}
if( primAttrs ) {
GT_DataArrayHandle overXformsAttr = primAttrs->get( GUSD_OVERTRANSFORMS_ATTR );
if( overXformsAttr ) {
if( overXformsAttr->getI32(0) != 0 ) {
refinePackedPrims = false;
}
}
}
}
// The following is only necessary for point instancers. Prototypes
// can't be point instancers.
if (!m_buildPrototypes) {
// Check per prim if we are building a point instancer. This may cause
// problems for point instancers with discontiguous packed prims.
bool localBuildPointInstancer = false;
// If we have imported USD geometry get the type to see if it is a
// point instancer we need to overlay.
if(auto packedUSD = dynamic_cast<const GusdGT_PackedUSD*>( gtPrim.get() )) {
if(packedUSD->getFileName()) {
// Get the usd src prim path used for point instancers
const SdfPath& instancerPrimPath =
packedUSD->getSrcPrimPath();
GusdStageCacheReader cache;
if(UsdPrim prim = cache.GetPrimWithVariants(
packedUSD->getFileName(), instancerPrimPath).first) {
// Get the type name of the usd file to overlay
m_pointInstancerType = prim.GetTypeName();
// Make sure to set buildPointInstancer to true if we are overlaying a
// point instancer
if (m_pointInstancerType == _tokens->PointInstancer ||
m_pointInstancerType == _tokens->PxPointInstancer) {
localBuildPointInstancer = true;
}
}
}
}
// If we find either an instancepath or usdinstancepath attribute, build a
// point instancer.
GT_Owner owner;
if(gtPrim->findAttribute("instancepath", owner, 0) ||
gtPrim->findAttribute("usdinstancepath", owner, 0) ) {
localBuildPointInstancer = true;
}
if (m_buildPointInstancer || localBuildPointInstancer) {
// If we are building point instancer, stash prims that can be
// point instanced. Build the point instancer in the finish method.
// If given a prim path, pass it to the collector for a custom
// usd scope. Otherwise pass an empty SdfPath.
SdfPath instancerPrimPath;
if( !primName.empty() ) {
instancerPrimPath = SdfPath(createPrimPath(primName));
}
if( auto packedUSD = dynamic_cast<const GusdGT_PackedUSD*>( gtPrim.get() )) {
// Point instancer from packed usd
instancerPrimPath = instancerPrimPath.IsEmpty() ? packedUSD->getSrcPrimPath() : instancerPrimPath;
m_collector.addInstPrim( instancerPrimPath, gtPrim );
return;
}
else if( gtPrim->getPrimitiveType() == GT_PRIM_INSTANCE ) {
// Point instancer from packed primitives
// A GT_PrimInstance can container more than one instance. Create
// an entry for each.
auto instPrim = UTverify_cast<const GT_PrimInstance*>( gtPrim.get() );
// TODO: If we put all geometry packed prims here, then we break
// grouping prims for purpose
for( size_t i = 0; i < instPrim->entries(); ++i ) {
m_collector.addInstPrim( instancerPrimPath, gtPrim, i );
}
return;
}
if( primType == GT_PRIM_PARTICLE || primType == GT_PRIM_POINT_MESH ) {
// Point instancer from points with instancepath attribute
// Check for the usdprototypespath attribute in case it is not
// a point or primitivie attribute.
GT_AttributeListHandle uniformAttrs = gtPrim->getUniformAttributes();
uniformAttrs = findAndAddStringAttribute(uniformAttrs, "usdprototypespath", gtPrim);
// Find and add a custom prototype scope attribute.
uniformAttrs = findAndAddStringAttribute(uniformAttrs, "usdprototypesscope", gtPrim);
gtPrim = new GusdGT_PointInstancer(
gtPrim->getPointAttributes(),
uniformAttrs );
primType = gtPrim->getPrimitiveType();
}
}
}
// We must refine packed prims that don't have a name
if( !primHasNameAttr && !refinePackedPrims ) {
refinePackedPrims = true;
}
if( primName.empty() &&
gtPrim->getPrimitiveType() == GusdGT_PackedUSD::getStaticPrimitiveType() ) {
auto packedUsdPrim = UTverify_cast<const GusdGT_PackedUSD *>(gtPrim.get());
SdfPath path = packedUsdPrim->getPrimPath().StripAllVariantSelections();
if( m_useUSDIntrinsicNames ) {
primName = path.GetString();
}
else {
primName = path.GetName();
}
// We want prototypes to be children of the point instancer, so we make
// the usd path a relative scope of just the usd prim name
if ( m_buildPrototypes && !primName.empty() && primName[0] == '/' ) {
size_t idx = primName.find_last_of("/");
primName = primName.substr(idx+1);
}
}
// If the prim path was not explicitly set, try to come up with a reasonable
// default.
bool addNumericSuffix = false;
if( primName.empty() ) {
int t = gtPrim->getPrimitiveType();
if( t == GT_PRIM_POINT_MESH || t == GT_PRIM_PARTICLE )
primName = "points";
else if( t == GT_PRIM_POLYGON_MESH || t == GT_PRIM_SUBDIVISION_MESH )
primName = "mesh";
else if( t == GT_PRIM_CURVE_MESH )
primName = "curve";
else if( t == GusdGT_PointInstancer::getStaticPrimitiveType() )
primName = "instances";
else if(const char *n = GusdPrimWrapper::getUsdName( t ))
primName = n;
else
primName = "obj";
if( !primName.empty() ) {
addNumericSuffix = true;
}
}
string primPath = createPrimPath(primName);
TfToken purpose = UsdGeomTokens->default_;
{
GT_Owner own = GT_OWNER_PRIMITIVE;
GT_DataArrayHandle dah = gtPrim->findAttribute( GUSD_PURPOSE_ATTR, own, 0 );
if( dah && dah->isValid() ) {
purpose = TfToken(dah->getS(0));
}
}
if( primType == GT_PRIM_INSTANCE ) {
auto inst = UTverify_cast<const GT_PrimInstance*>(gtPrim.get());
const GT_PrimitiveHandle geometry = inst->geometry();
if ( geometry->getPrimitiveType() == GT_GEO_PACKED ) {
// If we find a packed prim that has a name, this become a group (xform) in
// USD. If it doesn't have a name, we just accumulate the transform and recurse.
auto packedGeo = UTverify_cast<const GT_GEOPrimPacked*>(geometry.get());
for( GT_Size i = 0; i < inst->transforms()->entries(); ++i ) {
UT_Matrix4D m;
inst->transforms()->get(i)->getMatrix(m);
UT_Matrix4D newCtm = m_localToWorldXform;
newCtm = m* m_localToWorldXform;
SdfPath newPath = m_pathPrefix;
bool recurse = true;
if( primHasNameAttr ||
( m_forceGroupTopPackedPrim && m_isTopLevel )) {
// m_forceGroupTopPackedPrim is used when we are writing instance
// prototypes. We need to add instance id attributes to the top
// level group. Here we make sure that we create that group, even
// if the user hasn't named it.
newPath = m_collector.add( SdfPath(primPath),
addNumericSuffix,
gtPrim,
newCtm,
purpose,
m_writeCtrlFlags );
// If we are just writing transforms and encounter a packed prim, we
// just want to write it's transform and not refine it further.
recurse = refinePackedPrims;
}
if( recurse ) {
GusdRefiner childRefiner(
m_collector,
newPath,
m_pathAttrName,
newCtm );
childRefiner.m_refinePackedPrims = refinePackedPrims;
childRefiner.m_forceGroupTopPackedPrim = m_forceGroupTopPackedPrim;
childRefiner.m_isTopLevel = false;
childRefiner.m_writeCtrlFlags = m_writeCtrlFlags;
childRefiner.m_writeCtrlFlags.update( geometry );
#if UT_MAJOR_VERSION_INT >= 16
childRefiner.refineDetail( packedGeo->getPackedDetail(), m_refineParms );
#else
childRefiner.refineDetail( packedGeo->getPrim()->getPackedDetail(), m_refineParms );
#endif
}
}
return;
}
}
if( (primType != GT_GEO_PACKED || !refinePackedPrims) &&
GusdPrimWrapper::isGTPrimSupported(gtPrim) ) {
UT_Matrix4D m;
if( primType == GT_GEO_PACKED ) {
// packed fragment
UTverify_cast<const GT_GEOPrimPacked*>(gtPrim.get())->getFullTransform()->getMatrix(m);
}
else {
gtPrim->getPrimitiveTransform()->getMatrix(m);
}
UT_Matrix4D newCtm = m_localToWorldXform;
newCtm = m* m_localToWorldXform;
m_collector.add( SdfPath(primPath),
addNumericSuffix,
gtPrim,
newCtm,
purpose,
m_writeCtrlFlags );
}
else {
gtPrim->refine( *this, &m_refineParms );
}
}