basic() {
GLuint vertexArrayID;
gl::GenVertexArrays(1, &vertexArrayID);
gl::BindVertexArray(vertexArrayID);
GLFWwindow *window = glfwGetCurrentContext();
handle = gl::CreateProgram();
frag = gl::CreateShader(gl::FRAGMENT_SHADER);
csgo::glsl::compiler::compile(handle, frag, getFragShader());
vert = gl::CreateShader(gl::VERTEX_SHADER);
csgo::glsl::compiler::compile(handle, vert, getVertShader());
gl::EnableVertexAttribArray(0);
std::vector<GLfloat> quad = getQuad();
gl::GenBuffers(1, &positions);
gl::BindBuffer(gl::ARRAY_BUFFER, positions);
gl::BufferData(gl::ARRAY_BUFFER, (GLint)quad.size() * sizeof(GLfloat), quad.data(), gl::STATIC_DRAW);
gl::VertexAttribPointer(0, 3, gl::FLOAT, gl::FALSE_, 0, nullptr);
gl::EnableVertexAttribArray(1);
std::vector<GLfloat> quad_uvs = getUVs();
gl::GenBuffers(1, &uvs);
gl::BindBuffer(gl::ARRAY_BUFFER, uvs);
gl::BufferData(gl::ARRAY_BUFFER, (GLint)quad_uvs.size() * sizeof(GLfloat), quad_uvs.data(), gl::STATIC_DRAW);
gl::VertexAttribPointer(1, 2, gl::FLOAT, gl::FALSE_, 0, nullptr);
}
void MayaMeshWriter::write()
{
MStatus status = MS::kSuccess;
MFnMesh lMesh( mDagPath, &status );
if ( !status )
{
MGlobal::displayError( "MFnMesh() failed for MayaMeshWriter" );
}
Alembic::AbcGeom::OV2fGeomParam::Sample uvSamp;
std::vector<float> uvs;
std::vector<Alembic::Util::uint32_t> indices;
std::string uvSetName;
if (mWriteUVs || mWriteUVSets)
{
getUVs(uvs, indices, uvSetName);
if (!uvs.empty())
{
if (!uvSetName.empty())
{
if (mPolySchema.valid())
{
mPolySchema.setUVSourceName(uvSetName);
}
else if (mSubDSchema.valid())
{
mSubDSchema.setUVSourceName(uvSetName);
}
}
uvSamp.setScope( Alembic::AbcGeom::kFacevaryingScope );
uvSamp.setVals(Alembic::AbcGeom::V2fArraySample(
(const Imath::V2f *) &uvs.front(), uvs.size() / 2));
if (!indices.empty())
{
uvSamp.setIndices(Alembic::Abc::UInt32ArraySample(
&indices.front(), indices.size()));
}
}
}
std::vector<float> points;
std::vector<Alembic::Util::int32_t> facePoints;
std::vector<Alembic::Util::int32_t> faceList;
if (mPolySchema.valid())
{
writePoly(uvSamp);
}
else if (mSubDSchema.valid())
{
writeSubD(uvSamp);
}
}
void Mesh::computePartialDerivitives(Face* face) const {
double uvs[3][2];
getUVs(uvs, face);
Vector3D dp1 = *points[face->vertIdxs[0]] - *points[face->vertIdxs[2]];
Vector3D dp2 = *points[face->vertIdxs[1]] - *points[face->vertIdxs[2]];
// Compute deltas
double du1 = uvs[0][0] - uvs[2][0];
double du2 = uvs[1][0] - uvs[2][0];
double dv1 = uvs[0][1] - uvs[2][1];
double dv2 = uvs[1][1] - uvs[2][1];
double determinant = du1 * dv2 - dv1 * du2;
if(determinant == 0.0) {
coordinateSystem(face->p1p3.cross(face->p1p2).normalize(), &face->dpdu, &face->dpdv);
}
else {
face->dpdu = (dp1 * dv2 - dp2 * dv1) / determinant;
face->dpdu.normalize();
face->dpdv = (dp1 * -du2 + dp2 * du1) / determinant;
face->dpdv.normalize();
}
}
MayaMeshWriter::MayaMeshWriter(MDagPath & iDag,
Alembic::Abc::OObject & iParent, Alembic::Util::uint32_t iTimeIndex,
const JobArgs & iArgs, GetMembersMap& gmMap)
: mNoNormals(iArgs.noNormals),
mWriteUVs(iArgs.writeUVs),
mWriteColorSets(iArgs.writeColorSets),
mWriteUVSets(iArgs.writeUVSets),
mIsGeometryAnimated(false),
mDagPath(iDag)
{
MStatus status = MS::kSuccess;
MFnMesh lMesh( mDagPath, &status );
if ( !status )
{
MGlobal::displayError( "MFnMesh() failed for MayaMeshWriter" );
}
// intermediate objects aren't translated
MObject surface = iDag.node();
if (iTimeIndex != 0 && util::isAnimated(surface))
{
mIsGeometryAnimated = true;
}
else
{
iTimeIndex = 0;
}
std::vector<float> uvs;
std::vector<Alembic::Util::uint32_t> indices;
std::string uvSetName;
MString name = lMesh.name();
name = util::stripNamespaces(name, iArgs.stripNamespace);
// check to see if this poly has been tagged as a SubD
MPlug plug = lMesh.findPlug("SubDivisionMesh");
if ( !plug.isNull() && plug.asBool() )
{
Alembic::AbcGeom::OSubD obj(iParent, name.asChar(), iTimeIndex);
mSubDSchema = obj.getSchema();
Alembic::AbcGeom::OV2fGeomParam::Sample uvSamp;
if (mWriteUVs || mWriteUVSets)
{
getUVs(uvs, indices, uvSetName);
if (!uvs.empty())
{
if (!uvSetName.empty())
{
mSubDSchema.setUVSourceName(uvSetName);
}
uvSamp.setScope( Alembic::AbcGeom::kFacevaryingScope );
uvSamp.setVals(Alembic::AbcGeom::V2fArraySample(
(const Imath::V2f *) &uvs.front(), uvs.size() / 2));
if (!indices.empty())
{
uvSamp.setIndices(Alembic::Abc::UInt32ArraySample(
&indices.front(), indices.size()));
}
}
}
Alembic::Abc::OCompoundProperty cp;
Alembic::Abc::OCompoundProperty up;
if (AttributesWriter::hasAnyAttr(lMesh, iArgs))
{
cp = mSubDSchema.getArbGeomParams();
up = mSubDSchema.getUserProperties();
}
mAttrs = AttributesWriterPtr(new AttributesWriter(cp, up, obj, lMesh,
iTimeIndex, iArgs));
writeSubD(uvSamp);
}
else
{
Alembic::AbcGeom::OPolyMesh obj(iParent, name.asChar(), iTimeIndex);
mPolySchema = obj.getSchema();
Alembic::AbcGeom::OV2fGeomParam::Sample uvSamp;
if (mWriteUVs || mWriteUVSets)
{
getUVs(uvs, indices, uvSetName);
if (!uvs.empty())
{
if (!uvSetName.empty())
{
mPolySchema.setUVSourceName(uvSetName);
}
uvSamp.setScope( Alembic::AbcGeom::kFacevaryingScope );
uvSamp.setVals(Alembic::AbcGeom::V2fArraySample(
(const Imath::V2f *) &uvs.front(), uvs.size() / 2));
if (!indices.empty())
{
uvSamp.setIndices(Alembic::Abc::UInt32ArraySample(
&indices.front(), indices.size()));
}
}
}
Alembic::Abc::OCompoundProperty cp;
Alembic::Abc::OCompoundProperty up;
if (AttributesWriter::hasAnyAttr(lMesh, iArgs))
{
cp = mPolySchema.getArbGeomParams();
up = mPolySchema.getUserProperties();
}
// set the rest of the props and write to the writer node
mAttrs = AttributesWriterPtr(new AttributesWriter(cp, up, obj, lMesh,
iTimeIndex, iArgs));
writePoly(uvSamp);
}
if (mWriteColorSets)
{
MStringArray colorSetNames;
lMesh.getColorSetNames(colorSetNames);
if (colorSetNames.length() > 0)
{
// Create the color sets compound prop
Alembic::Abc::OCompoundProperty arbParams;
if (mPolySchema.valid())
{
arbParams = mPolySchema.getArbGeomParams();
}
else
{
arbParams = mSubDSchema.getArbGeomParams();
}
std::string currentColorSet = lMesh.currentColorSetName().asChar();
for (unsigned int i=0; i < colorSetNames.length(); ++i)
{
// Create an array property for each color set
std::string colorSetPropName = colorSetNames[i].asChar();
Alembic::AbcCoreAbstract::MetaData md;
if (currentColorSet == colorSetPropName)
{
md.set("mayaColorSet", "1");
}
else
{
md.set("mayaColorSet", "0");
}
if (lMesh.getColorRepresentation(colorSetNames[i]) ==
MFnMesh::kRGB)
{
Alembic::AbcGeom::OC3fGeomParam colorProp(arbParams,
colorSetPropName, true,
Alembic::AbcGeom::kFacevaryingScope, 1, iTimeIndex, md);
mRGBParams.push_back(colorProp);
}
else
{
Alembic::AbcGeom::OC4fGeomParam colorProp(arbParams,
colorSetPropName, true,
Alembic::AbcGeom::kFacevaryingScope, 1, iTimeIndex, md);
mRGBAParams.push_back(colorProp);
}
}
writeColor();
}
}
if (mWriteUVSets)
{
MStringArray uvSetNames;
lMesh.getUVSetNames(uvSetNames);
unsigned int uvSetNamesLen = uvSetNames.length();
if (uvSetNamesLen > 1)
{
// Create the uv sets compound prop
Alembic::Abc::OCompoundProperty arbParams;
if (mPolySchema.valid())
{
arbParams = mPolySchema.getArbGeomParams();
}
else
{
arbParams = mSubDSchema.getArbGeomParams();
}
MString currentUV = lMesh.currentUVSetName();
for (unsigned int i = 0; i < uvSetNamesLen; ++i)
{
// Create an array property for each uv set
MString uvSetPropName = uvSetNames[i];
// the current UV set gets mapped to the primary UVs
if (currentUV == uvSetPropName)
{
continue;
}
if (uvSetPropName.length() > 0 &&
lMesh.numUVs(uvSetPropName) > 0)
{
mUVparams.push_back(Alembic::AbcGeom::OV2fGeomParam(
arbParams, uvSetPropName.asChar(), true,
Alembic::AbcGeom::kFacevaryingScope, 1, iTimeIndex));
}
}
writeUVSets();
}
}
// write out facesets
if(!iArgs.writeFaceSets)
return;
// get the connected shading engines
MObjectArray connSGObjs (getOutConnectedSG(mDagPath));
const unsigned int sgCount = connSGObjs.length();
for (unsigned int i = 0; i < sgCount; ++i)
{
MObject connSGObj, compObj;
connSGObj = connSGObjs[i];
MFnDependencyNode fnDepNode(connSGObj);
MString connSgObjName = fnDepNode.name();
// retrive the component MObject
status = getSetComponents(mDagPath, connSGObj, gmMap, compObj);
if (status != MS::kSuccess)
{
// for some reason the shading group doesn't represent a face set
continue;
}
// retrieve the face indices
MIntArray indices;
MFnSingleIndexedComponent compFn;
compFn.setObject(compObj);
compFn.getElements(indices);
const unsigned int numData = indices.length();
// encountered the whole object mapping. skip it.
if (numData == 0)
continue;
std::vector<Alembic::Util::int32_t> faceIndices(numData);
for (unsigned int j = 0; j < numData; ++j)
{
faceIndices[j] = indices[j];
}
connSgObjName = util::stripNamespaces(connSgObjName,
iArgs.stripNamespace);
Alembic::AbcGeom::OFaceSet faceSet;
std::string faceSetName(connSgObjName.asChar());
MPlug abcFacesetNamePlug = fnDepNode.findPlug("AbcFacesetName", true);
if (!abcFacesetNamePlug.isNull())
{
faceSetName = abcFacesetNamePlug.asString().asChar();
}
if (mPolySchema.valid())
{
if (mPolySchema.hasFaceSet(faceSetName))
{
faceSet = mPolySchema.getFaceSet(faceSetName);
}
else
{
faceSet = mPolySchema.createFaceSet(faceSetName);
}
}
else
{
if (mSubDSchema.hasFaceSet(faceSetName))
{
faceSet = mSubDSchema.getFaceSet(faceSetName);
}
else
{
faceSet = mSubDSchema.createFaceSet(faceSetName);
}
}
Alembic::AbcGeom::OFaceSetSchema::Sample samp;
samp.setFaces(Alembic::Abc::Int32ArraySample(faceIndices));
Alembic::AbcGeom::OFaceSetSchema faceSetSchema = faceSet.getSchema();
faceSetSchema.set(samp);
faceSetSchema.setFaceExclusivity(Alembic::AbcGeom::kFaceSetExclusive);
MFnDependencyNode iNode(connSGObj);
Alembic::Abc::OCompoundProperty cp;
Alembic::Abc::OCompoundProperty up;
if (AttributesWriter::hasAnyAttr(iNode, iArgs))
{
cp = faceSetSchema.getArbGeomParams();
up = faceSetSchema.getUserProperties();
}
AttributesWriter attrWriter(cp, up, faceSet, iNode, iTimeIndex, iArgs);
attrWriter.write();
}
}
