AbcBullet/AbcWriteJob.cpp

AbcBullet/AbcWriteJob.cpp
//-*****************************************************************************
//
// Copyright (c) 2009-2012,
// Sony Pictures Imageworks Inc. and
// Industrial Light & Magic, a division of Lucasfilm Entertainment Company Ltd.
//
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// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following disclaimer
// in the documentation and/or other materials provided with the
// distribution.
// * Neither the name of Sony Pictures Imageworks, nor
// Industrial Light & Magic, nor the names of their contributors may be used
// to endorse or promote products derived from this software without specific
// prior written permission.
//
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//-*****************************************************************************
#include "AbcWriteJob.h"
#include <Alembic/AbcCoreHDF5/All.h>
namespace
{
void hasDuplicates(const util::ShapeSet & dagPath, unsigned int stripDepth)
{
std::map<std::string, MDagPath> roots;
const util::ShapeSet::const_iterator end = dagPath.end();
for (util::ShapeSet::const_iterator it = dagPath.begin();
it != end; it++)
{
std::string fullName = it->fullPathName().asChar();
if (!fullName.empty() && fullName[0] == '|')
{
fullName = fullName.substr(1);
}
if (stripDepth > 0)
{
MString name = fullName.c_str();
fullName = util::stripNamespaces(name, stripDepth).asChar();
}
std::map<std::string, MDagPath>::iterator strIt =
roots.find(fullName);
if (strIt != roots.end())
{
std::string theError = "Conflicting root node names specified: ";
theError += it->fullPathName().asChar();
theError += " ";
theError += strIt->second.fullPathName().asChar();
if (stripDepth > 0)
{
theError += " with -stripNamespace specified.";
}
throw std::runtime_error(theError);
}
else
{
roots[fullName] = *it;
}
}
}
void addToString(std::string & str,
const std::string & name, unsigned int value)
{
if (value > 0)
{
std::stringstream ss;
ss << value;
str += name + std::string(" ") + ss.str() + std::string(" ");
}
}
void processCallback(std::string iCallback, bool isMelCallback,
double iFrame, const MBoundingBox & iBbox)
{
if (iCallback.empty())
return;
size_t pos = iCallback.find("#FRAME#");
if ( pos != std::string::npos )
{
std::stringstream sstrm;
sstrm.precision(std::numeric_limits<double>::digits10);
sstrm << iFrame;
std::string str = sstrm.str();
iCallback.replace(pos, 7, str);
}
pos = iCallback.find("#BOUNDS#");
if ( pos != std::string::npos )
{
std::stringstream sstrm;
sstrm.precision(std::numeric_limits<float>::digits10);
sstrm << " " << iBbox.min().x << " " << iBbox.min().y << " " <<
iBbox.min().z << " " << iBbox.max().x << " " <<
iBbox.max().y << " " <<iBbox.max().z;
std::string str = sstrm.str();
iCallback.replace(pos, 8, str);
}
pos = iCallback.find("#BOUNDSARRAY#");
if ( pos != std::string::npos )
{
std::stringstream sstrm;
sstrm.precision(std::numeric_limits<float>::digits10);
if (isMelCallback)
{
sstrm << " {";
}
else
{
sstrm << " [";
}
sstrm << iBbox.min().x << "," << iBbox.min().y << "," <<
iBbox.min().z << "," << iBbox.max().x << "," <<
iBbox.max().y << "," << iBbox.max().z;
if (isMelCallback)
{
sstrm << "} ";
}
else
{
sstrm << "] ";
}
std::string str = sstrm.str();
iCallback.replace(pos, 13, str);
}
if (isMelCallback)
MGlobal::executeCommand(iCallback.c_str(), true);
else
MGlobal::executePythonCommand(iCallback.c_str(), true);
}
}
AbcWriteJob::AbcWriteJob(const char * iFileName,
std::set<double> & iTransFrames,
Alembic::AbcCoreAbstract::TimeSamplingPtr iTransTime,
const JobArgs & iArgs)
{
MStatus status;
mFileName = iFileName;
mBoxIndex = 0;
mArgs = iArgs;
mTransSamples = 1;
if (mArgs.useSelectionList)
{
bool emptyDagPaths = mArgs.dagPaths.empty();
// get the active selection
MSelectionList activeList;
mSList = activeList;
unsigned int selectionSize = activeList.length();
for (unsigned int index = 0; index < selectionSize; index ++)
{
MDagPath dagPath;
status = activeList.getDagPath(index, dagPath);
if (status == MS::kSuccess)
{
unsigned int length = dagPath.length();
while (--length)
{
dagPath.pop();
mSList.add(dagPath, MObject::kNullObj, true);
}
if (emptyDagPaths)
{
mArgs.dagPaths.insert(dagPath);
}
}
}
}
mTransFrames = iTransFrames;
// only needed during creation of the transforms
mTransTime = iTransTime;
mTransTimeIndex = 0;
// should have at least 1 value
assert(!mTransFrames.empty());
mFirstFrame = *(mTransFrames.begin());
std::set<double>::iterator last = mTransFrames.end();
last--;
mLastFrame = *last;
}
void AbcWriteJob::setup(double iFrame, MayaTransformWriterPtr iParent, util::GetMembersMap& gmMap)
{
MStatus status;
// short-circuit if selection flag is on but this node isn't actively
// selected
if (mArgs.useSelectionList && !mSList.hasItem(mCurDag))
return;
MObject ob = mCurDag.node();
MFnDependencyNode fnDepNode(ob, &status);
bool bSolvedState = fnDepNode.typeName() == "bulletRigidCollection";
// skip all intermediate nodes (and their children)
if (util::isIntermediate(ob))
{
if (!bSolvedState)
{
return;
}
}
// skip nodes that aren't renderable (and their children)
if (mArgs.excludeInvisible && !util::isRenderable(ob))
{
return;
}
if ( bSolvedState )
{
// the motionstates are held on the initialstate node at the moment
if (status != MS::kSuccess)
{
MString msg = "Initialize transform collection node ";
msg += mCurDag.fullPathName();
msg += " failed, skipping.";
return;
}
MayaTransformCollectionWriterPtr transCol;
// transformcollections always parented to the root case
Alembic::Abc::OObject obj = mRoot.getTop();
transCol = MayaTransformCollectionWriterPtr(new MayaTransformCollectionWriter(
obj, mCurDag, mTransTimeIndex, mArgs));
mTransColList.push_back(transCol);
mStats.mTransColNum++;
AttributesWriterPtr attrs = transCol->getAttrs();
if (attrs)
{
if (mTransTimeIndex != 0 && attrs->isAnimated())
mTransColAttrList.push_back(attrs);
}
}
else if (ob.hasFn(MFn::kTransform))
{
MFnTransform fnTrans(ob, &status);
if (status != MS::kSuccess)
{
MString msg = "Initialize transform node ";
msg += mCurDag.fullPathName();
msg += " failed, skipping.";
return;
}
MayaTransformWriterPtr trans;
// parented to the root case
if (iParent == NULL)
{
Alembic::Abc::OObject obj = mRoot.getTop();
trans = MayaTransformWriterPtr(new MayaTransformWriter(
obj, mCurDag, mTransTimeIndex, mArgs));
}
else
{
trans = MayaTransformWriterPtr(new MayaTransformWriter(
*iParent, mCurDag, mTransTimeIndex, mArgs));
}
if (trans->isAnimated() && mTransTimeIndex != 0)
{
mTransList.push_back(trans);
mStats.mTransAnimNum++;
}
else
mStats.mTransStaticNum++;
AttributesWriterPtr attrs = trans->getAttrs();
if (mTransTimeIndex != 0 && attrs->isAnimated())
mTransAttrList.push_back(attrs);
// loop through the children, making sure to push and pop them
// from the MDagPath
unsigned int numChild = mCurDag.childCount();
for (unsigned int i = 0; i < numChild; ++i)
{
mCurDag.push(mCurDag.child(i));
setup(iFrame, trans, gmMap);
mCurDag.pop();
}
}
else
{
MString warn = mCurDag.fullPathName() + " is an unsupported type of ";
warn += ob.apiTypeStr();
}
}
AbcWriteJob::~AbcWriteJob()
{
}
bool AbcWriteJob::eval(double iFrame)
{
if (iFrame == mFirstFrame)
{
// check if the shortnames of any two nodes are the same
// if so, exit here
hasDuplicates(mArgs.dagPaths, mArgs.stripNamespace);
std::string appWriter = "Maya ";
appWriter += MGlobal::mayaVersion().asChar();
appWriter += " AbcBullet v";
appWriter += ABCBULLET_VERSION;
std::string userInfo = "Exported from: ";
userInfo += MFileIO::currentFile().asChar();
// these symbols can't be in the meta data
if (userInfo.find('=') != std::string::npos ||
userInfo.find(';') != std::string::npos)
{
userInfo = "";
}
mRoot = CreateArchiveWithInfo(Alembic::AbcCoreHDF5::WriteArchive(),
mFileName, appWriter, userInfo,
Alembic::Abc::ErrorHandler::kThrowPolicy);
mTransTimeIndex = mRoot.addTimeSampling(*mTransTime);
mBoxProp = Alembic::AbcGeom::CreateOArchiveBounds(mRoot,
mTransTimeIndex);
if (!mRoot.valid())
{
std::string theError = "Unable to create abc file";
throw std::runtime_error(theError);
}
util::ShapeSet::const_iterator end = mArgs.dagPaths.end();
util::GetMembersMap gmMap;
for (util::ShapeSet::const_iterator it = mArgs.dagPaths.begin();
it != end; ++it)
{
mCurDag = *it;
setup(iFrame * util::spf(), MayaTransformWriterPtr(), gmMap);
}
perFrameCallback(iFrame);
}
else
{
std::set<double>::iterator checkFrame = mTransFrames.find(iFrame);
bool foundTransFrame = false;
if (checkFrame != mTransFrames.end())
{
assert(mRoot.valid());
foundTransFrame = true;
mTransSamples ++;
// write out transforms
{
std::vector< MayaTransformWriterPtr >::iterator tcur =
mTransList.begin();
std::vector< MayaTransformWriterPtr >::iterator tend =
mTransList.end();
for (; tcur != tend; tcur++)
{
(*tcur)->write();
}
std::vector< AttributesWriterPtr >::iterator tattrCur =
mTransAttrList.begin();
std::vector< AttributesWriterPtr >::iterator tattrEnd =
mTransAttrList.end();
for(; tattrCur != tattrEnd; tattrCur++)
{
(*tattrCur)->write();
}
}
// write out transform collections
{
std::vector< MayaTransformCollectionWriterPtr >::iterator tcur =
mTransColList.begin();
std::vector< MayaTransformCollectionWriterPtr >::iterator tend =
mTransColList.end();
for (; tcur != tend; tcur++)
{
(*tcur)->write(iFrame);
}
std::vector< AttributesWriterPtr >::iterator tattrCur =
mTransColAttrList.begin();
std::vector< AttributesWriterPtr >::iterator tattrEnd =
mTransColAttrList.end();
for(; tattrCur != tattrEnd; tattrCur++)
{
(*tattrCur)->write();
}
}
}
if (foundTransFrame)
perFrameCallback(iFrame);
}
if (iFrame == mLastFrame)
{
postCallback(iFrame);
return true;
}
return false;
}
void AbcWriteJob::perFrameCallback(double iFrame)
{
processCallback(mArgs.melPerFrameCallback, true, iFrame, bbox);
processCallback(mArgs.pythonPerFrameCallback, false, iFrame, bbox);
}
// write the frame ranges and statistic string on the root
// Also call the post callbacks
void AbcWriteJob::postCallback(double iFrame)
{
std::string statsStr = "";
addToString(statsStr, "TransStaticNum", mStats.mTransStaticNum);
addToString(statsStr, "TransAnimNum", mStats.mTransAnimNum);
addToString(statsStr, "TransColNum", mStats.mTransColNum);
if (statsStr.length() > 0)
{
Alembic::Abc::OStringProperty stats(mRoot.getTop().getProperties(),
"statistics");
stats.set(statsStr);
}
if (mTransTimeIndex != 0)
{
MString propName;
propName += static_cast<int>(mTransTimeIndex);
propName += ".samples";
Alembic::Abc::OUInt32Property samp(mRoot.getTop().getProperties(),
propName.asChar());
samp.set(mTransSamples);
}
processCallback(mArgs.melPostCallback, true, iFrame, bbox);
processCallback(mArgs.pythonPostCallback, false, iFrame, bbox);
}