MBoundingBox AbcWriteJob::getBoundingBox(double iFrame, const MMatrix & eMInvMat)
{
MStatus status;
MBoundingBox curBBox;
if (iFrame == mFirstFrame)
{
// Set up bbox shape map in the first frame.
// If we have a lot of transforms and shapes, we don't need to
// iterate them for each frame.
MItDag dagIter;
for (dagIter.reset(mCurDag); !dagIter.isDone(); dagIter.next())
{
MObject object = dagIter.currentItem();
MDagPath path;
dagIter.getPath(path);
// short-circuit if the selection flag is on but this node is not in the
// active selection
// MGlobal::isSelected(ob) doesn't work, because DG node and DAG node is
// not the same even if they refer to the same MObject
if (mArgs.useSelectionList && !mSList.hasItem(path))
{
dagIter.prune();
continue;
}
MFnDagNode dagNode(path, &status);
if (status == MS::kSuccess)
{
// check for riCurves flag for flattening all curve object to
// one curve group
MPlug riCurvesPlug = dagNode.findPlug("riCurves", &status);
if ( status == MS::kSuccess && riCurvesPlug.asBool() == true)
{
MBoundingBox box = dagNode.boundingBox();
box.transformUsing(path.exclusiveMatrix()*eMInvMat);
curBBox.expand(box);
// Prune this curve group
dagIter.prune();
// Save children paths
std::map< MDagPath, util::ShapeSet, util::cmpDag >::iterator iter =
mBBoxShapeMap.insert(std::make_pair(mCurDag, util::ShapeSet())).first;
if (iter != mBBoxShapeMap.end())
(*iter).second.insert(path);
}
else if (object.hasFn(MFn::kParticle)
|| object.hasFn(MFn::kMesh)
|| object.hasFn(MFn::kNurbsCurve)
|| object.hasFn(MFn::kNurbsSurface) )
{
if (util::isIntermediate(object))
continue;
MBoundingBox box = dagNode.boundingBox();
box.transformUsing(path.exclusiveMatrix()*eMInvMat);
curBBox.expand(box);
// Save children paths
std::map< MDagPath, util::ShapeSet, util::cmpDag >::iterator iter =
mBBoxShapeMap.insert(std::make_pair(mCurDag, util::ShapeSet())).first;
if (iter != mBBoxShapeMap.end())
(*iter).second.insert(path);
}
}
}
}
else
{
// We have already find out all the shapes for the dag path.
std::map< MDagPath, util::ShapeSet, util::cmpDag >::iterator iter =
mBBoxShapeMap.find(mCurDag);
if (iter != mBBoxShapeMap.end())
{
// Iterate through the saved paths to calculate the box.
util::ShapeSet& paths = (*iter).second;
for (util::ShapeSet::iterator pathIter = paths.begin();
pathIter != paths.end(); pathIter++)
{
MFnDagNode dagNode(*pathIter, &status);
if (status == MS::kSuccess)
{
MBoundingBox box = dagNode.boundingBox();
box.transformUsing((*pathIter).exclusiveMatrix()*eMInvMat);
curBBox.expand(box);
}
}
}
}
return curBBox;
}
void maTranslator::writeDagNodes(fstream& f)
{
fParentingRequired.clear();
MItDag dagIter;
dagIter.traverseUnderWorld(true);
MDagPath worldPath;
dagIter.getPath(worldPath);
//
// We step over the world node before starting the loop, because it
// doesn't get written out.
//
for (dagIter.next(); !dagIter.isDone(); dagIter.next())
{
MDagPath path;
dagIter.getPath(path);
//
// If the node has already been written, then all of its descendants
// must have been written, or at least checked, as well, so prune
// this branch of the tree from the iteration.
//
MFnDagNode dagNodeFn(path);
if (dagNodeFn.isFlagSet(fCreateFlag))
{
dagIter.prune();
continue;
}
//
// If this is a default node, it will be written out later, so skip
// it.
//
if (dagNodeFn.isDefaultNode()) continue;
//
// If this node is not writable, and is not a shared node, then mark
// it as having been written, and skip it.
//
if (!dagNodeFn.canBeWritten() && !dagNodeFn.isShared())
{
dagNodeFn.setFlag(fCreateFlag, true);
continue;
}
unsigned int numParents = dagNodeFn.parentCount();
if (dagNodeFn.isFromReferencedFile())
{
//
// We don't issue 'creatNode' commands for nodes from referenced
// files, but if the node has any parents which are not from
// referenced files, other than the world, then make a note that
// we'll need to issue extra 'parent' commands for it later on.
//
unsigned int i;
for (i = 0; i < numParents; i++)
{
MObject altParent = dagNodeFn.parent(i);
MFnDagNode altParentFn(altParent);
if (!altParentFn.isFromReferencedFile()
&& (altParentFn.object() != worldPath.node()))
{
fParentingRequired.append(path);
break;
}
}
}
else
{
//
// Find the node's parent.
//
MDagPath parentPath = worldPath;
if (path.length() > 1)
{
//
// Get the parent's path.
//
parentPath = path;
parentPath.pop();
//
// If the parent is in the underworld, then find the closest
// ancestor which is not.
//
if (parentPath.pathCount() > 1)
{
//
// The first segment of the path contains whatever
// portion of the path exists in the world. So the closest
// worldly ancestor is simply the one at the end of that
// first path segment.
//
path.getPath(parentPath, 0);
}
}
MFnDagNode parentNodeFn(parentPath);
if (parentNodeFn.isFromReferencedFile())
{
//
// We prefer to parent to a non-referenced node. So if this
// node has any other parents, which are not from referenced
// files and have not already been processed, then we'll
// skip this instance and wait for an instance through one
// of those parents.
//
unsigned i;
for (i = 0; i < numParents; i++)
{
if (dagNodeFn.parent(i) != parentNodeFn.object())
{
MObject altParent = dagNodeFn.parent(i);
MFnDagNode altParentFn(altParent);
if (!altParentFn.isFromReferencedFile()
&& !altParentFn.isFlagSet(fCreateFlag))
{
break;
}
}
}
if (i < numParents) continue;
//
// This node only has parents within referenced files, so
// create it without a parent and note that we need to issue
// 'parent' commands for it later on.
//
writeCreateNode(f, path, worldPath);
fParentingRequired.append(path);
}
else
{
writeCreateNode(f, path, parentPath);
//
// Let's see if this node has any parents from referenced
// files, or any parents other than this one which are not
// from referenced files.
//
unsigned int i;
bool hasRefParents = false;
bool hasOtherNonRefParents = false;
for (i = 0; i < numParents; i++)
{
if (dagNodeFn.parent(i) != parentNodeFn.object())
{
MObject altParent = dagNodeFn.parent(i);
MFnDagNode altParentFn(altParent);
if (altParentFn.isFromReferencedFile())
hasRefParents = true;
else
hasOtherNonRefParents = true;
//
// If we've already got positives for both tests,
// then there's no need in continuing.
//
if (hasRefParents && hasOtherNonRefParents) break;
}
}
//
// If this node has parents from referenced files, then
// make note that we will have to issue 'parent' commands
// later on.
//
if (hasRefParents) fParentingRequired.append(path);
//
// If this node has parents other than this one which are
// not from referenced files, then make note that the
// parenting for the other instances still has to be done.
//
if (hasOtherNonRefParents)
{
fInstanceChildren.append(path);
fInstanceParents.append(parentPath);
}
}
//
// Write out the node's 'addAttr', 'setAttr' and 'lockNode'
// commands.
//
writeNodeAttrs(f, path.node(), true);
writeLockNode(f, path.node());
}
//
// Mark the node as having been written.
//
dagNodeFn.setFlag(fCreateFlag, true);
}
//
// Write out the parenting for instances.
//
writeInstances(f);
}