Exemplo n.º 1
0
def _writeSimplex(oarch, name, jsString, faces, counts, newShapes, pBar=None):
    ''' Separate the writer from oarch creation so garbage
	collection *hopefully* works as expected
	'''
    par = OXform(oarch.getTop(), name)
    props = par.getSchema().getUserProperties()
    prop = OStringProperty(props, "simplex")
    prop.setValue(str(jsString))
    abcMesh = OPolyMesh(par, name)
    schema = abcMesh.getSchema()

    if pBar is not None:
        pBar.setLabelText('Writing Corrected Simplex')
        pBar.setMaximum(len(newShapes))

    for i, newShape in enumerate(newShapes):
        if pBar is not None:
            pBar.setValue(i)
            QApplication.processEvents()
        else:
            print "Writing {0: 3d} of {1}\r".format(i, len(newShapes)),

        verts = mkSampleVertexPoints(newShape)
        abcSample = OPolyMeshSchemaSample(verts, faces, counts)
        schema.set(abcSample)
    if pBar is None:
        print "Writing {0: 3d} of {1}".format(len(newShapes), len(newShapes))
Exemplo n.º 2
0
    def toSMPX(self, path):
        defDict = self.toJSON()
        jsString = json.dumps(defDict)

        arch = OArchive(str(path))  # alembic does not like unicode filepaths
        try:
            par = OXform(arch.getTop(), str(self.name))
            props = par.getSchema().getUserProperties()
            prop = OStringProperty(props, "simplex")
            prop.setValue(str(jsString))
            mesh = OPolyMesh(par, str(self.name))

            faces = Int32TPTraits.arrayType(len(self._faces))
            for i, f in enumerate(self._faces):
                faces[i] = f

            counts = Int32TPTraits.arrayType(len(self._counts))
            for i, c in enumerate(self._counts):
                counts[i] = c

            schema = mesh.getSchema()
            for shape in self.shapes:
                verts = shape.toSMPX()
                abcSample = OPolyMeshSchemaSample(verts, faces, counts)
                schema.set(abcSample)
        except:
            raise

        finally:
            del arch
Exemplo n.º 3
0
def exportUnsub(inPath, outPath, newFaces, kept, shapePrefix=None, pBar=None):
    ''' Export the unsubdivided simplex '''
    iarch = IArchive(str(inPath))  # because alembic hates unicode
    top = iarch.getTop()
    ixfo = IXform(top, top.children[0].getName())

    iprops = ixfo.getSchema().getUserProperties()
    iprop = iprops.getProperty("simplex")
    jsString = iprop.getValue()

    if shapePrefix is not None:
        d = json.loads(jsString)
        if d['encodingVersion'] > 1:
            for shape in d['shapes']:
                shape['name'] = shapePrefix + shape['name']
        else:
            d['shapes'] = [shapePrefix + i for i in d['shapes']]
        jsString = json.dumps(d)

    imesh = IPolyMesh(ixfo, ixfo.children[0].getName())

    verts = getSampleArray(imesh)
    verts = verts[:, kept]

    indices = []
    counts = []
    for f in newFaces:
        indices.extend(f)
        counts.append(len(f))

    abcCounts = mkArray(IntArray, counts)
    abcIndices = mkArray(IntArray, indices)

    # `False` for HDF5 `True` for Ogawa
    oarch = OArchive(str(outPath), False)
    oxfo = OXform(oarch.getTop(), ixfo.getName())
    oprops = oxfo.getSchema().getUserProperties()
    oprop = OStringProperty(oprops, "simplex")
    oprop.setValue(str(jsString))
    omesh = OPolyMesh(oxfo, imesh.getName())
    osch = omesh.getSchema()

    if pBar is not None:
        pBar.setValue(0)
        pBar.setMaximum(len(verts))
        pBar.setLabelText("Exporting Unsubdivided Shapes")
        QApplication.processEvents()

    for i, v in enumerate(verts):
        if pBar is not None:
            pBar.setValue(i)
            QApplication.processEvents()
        else:
            print "Exporting Unsubdivided Shape {0: <4}\r".format(i + 1),
        sample = OPolyMeshSchemaSample(mkSampleVertexPoints(v), abcIndices,
                                       abcCounts)
        osch.set(sample)
    if pBar is None:
        print "Exporting Unsubdivided Shape {0: <4}".format(len(verts))
Exemplo n.º 4
0
def _writeSimplex(oarch, name, jsString, faces, counts, newShapes):
    par = OXform(oarch.getTop(), name)
    props = par.getSchema().getUserProperties()
    prop = OStringProperty(props, "simplex")
    prop.setValue(str(jsString))
    abcMesh = OPolyMesh(par, name)
    schema = abcMesh.getSchema()

    for i, newShape in enumerate(newShapes):
        print "Writing {0: 3d} of {1}\r".format(i, len(newShapes)),
        abcSample = OPolyMeshSchemaSample(newShape, faces, counts)
        schema.set(abcSample)
    print "Writing {0: 3d} of {1}".format(len(newShapes), len(newShapes))
Exemplo n.º 5
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def writeStringProperty(props, key, value, ogawa):
	''' Write the definition string to an alembic OObject

	HDF5 (which we must still support) has a character limit
	to string properties. Splitting the string must be handled
	in a uniform way, so this function must be used

	Parameters
	----------
	props : OCompoundProperty
		The alembic OObject properties
	value : str
		The simplex definition string
	ogawa : bool
		If the output is ogawa

	'''
	if len(value) > 65000 and not ogawa:
		value = str(value)
		numChunks = (len(value) // 65000) + 1
		chunkSize = (len(value) // numChunks) + 1
		for c in range(numChunks):
			prop = OStringProperty(props, "{0}{1}".format(key, c))
			prop.setValue(value[chunkSize*c:chunkSize*(c+1)])
	else:
		prop = OStringProperty(props, str(key))
		prop.setValue(str(value))
Exemplo n.º 6
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    def exportABC(self, path):
        defDict = self.simplex.buildDefinition()
        jsString = json.dumps(defDict)

        arch = OArchive(str(path))  # alembic does not like unicode filepaths
        try:
            par = OXform(arch.getTop(), str(self.name))
            props = par.getSchema().getUserProperties()
            prop = OStringProperty(props, "simplex")
            prop.setValue(str(jsString))
            mesh = OPolyMesh(par, str(self.name))
            self.DCC.exportABC(mesh, defDict)

        finally:
            del arch
Exemplo n.º 7
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def _writeSimplex(oarch, name, jsString, faces, counts, newShapes):
    ''' Separate the writer from oarch creation so garbage
	collection *hopefully* works as expected
	'''
    par = OXform(oarch.getTop(), name)
    props = par.getSchema().getUserProperties()
    prop = OStringProperty(props, "simplex")
    prop.setValue(str(jsString))
    abcMesh = OPolyMesh(par, name)
    schema = abcMesh.getSchema()

    for i, newShape in enumerate(newShapes):
        print "Writing {0: 3d} of {1}\r".format(i, len(newShapes)),
        abcSample = OPolyMeshSchemaSample(newShape, faces, counts)
        schema.set(abcSample)
    print "Writing {0: 3d} of {1}".format(len(newShapes), len(newShapes))
Exemplo n.º 8
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    def extractExternal(self, path, dccMesh):
        # Extract shapes from an arbitrary mesh based on the current simplex
        defDict = self.simplex.buildDefinition()
        jsString = json.dumps(defDict)

        arch = OArchive(str(path))  # alembic does not like unicode filepaths
        try:
            par = OXform(arch.getTop(), str(self.name))
            props = par.getSchema().getUserProperties()
            prop = OStringProperty(props, "simplex")
            prop.setValue(str(jsString))
            abcMesh = OPolyMesh(par, str(self.name))
            self.DCC.exportABC(dccMesh, abcMesh, defDict)

        finally:
            del arch
Exemplo n.º 9
0
def _exportAbc(arch, smpx, shapeArray, faces, counts, uvs):
    par = OXform(arch.getTop(), str(smpx.name))
    props = par.getSchema().getUserProperties()
    prop = OStringProperty(props, "simplex")
    prop.setValue(str(smpx.dump()))
    abcMesh = OPolyMesh(par, str(smpx.name))
    schema = abcMesh.getSchema()
    for i in range(len(smpx.shapes)):
        if uvs is not None:
            abcSample = OPolyMeshSchemaSample(
                mkSampleVertexPoints(shapeArray[i]), faces, counts, uvs)
        else:
            # can't just pass uvs as None because of how the Alembic API works
            abcSample = OPolyMeshSchemaSample(
                mkSampleVertexPoints(shapeArray[i]), faces, counts)
        schema.set(abcSample)
Exemplo n.º 10
0
	def toSMPX(self, path, pBar=None):
		defDict = self.toJSON()
		jsString = json.dumps(defDict)

		# `False` for HDF5 `True` for Ogawa
		arch = OArchive(str(path), False) # alembic does not like unicode filepaths
		try:
			par = OXform(arch.getTop(), str(self.name))
			props = par.getSchema().getUserProperties()
			prop = OStringProperty(props, "simplex")
			prop.setValue(str(jsString))
			mesh = OPolyMesh(par, str(self.name))

			faces = Int32TPTraits.arrayType(len(self._faces))
			for i, f in enumerate(self._faces):
				faces[i] = f

			counts = Int32TPTraits.arrayType(len(self._counts))
			for i, c in enumerate(self._counts):
				counts[i] = c

			schema = mesh.getSchema()

			if pBar is not None:
				pBar.setMaximum(len(self.shapes))
				pBar.setValue(0)
				pBar.setLabelText("Exporting Split Shapes")
				QApplication.processEvents()

			for i, shape in enumerate(self.shapes):
				if pBar is not None:
					pBar.setValue(i)
					QApplication.processEvents()
				else:
					print "Exporting Shape {0} of {1}\r".format(i+1, len(self.shapes)),
				verts = shape.toSMPX()
				abcSample = OPolyMeshSchemaSample(verts, faces, counts)
				schema.set(abcSample)
			if pBar is None:
				print
		except:
			raise

		finally:
			del arch
Exemplo n.º 11
0
def _exportUnsub(outPath,
                 xfoName,
                 meshName,
                 jsString,
                 faces,
                 verts,
                 uvFaces,
                 uvs,
                 pBar=None):
    oarch = OArchive(str(outPath), OGAWA)  # False for HDF5
    oxfo = OXform(oarch.getTop(), xfoName)
    oprops = oxfo.getSchema().getUserProperties()
    oprop = OStringProperty(oprops, "simplex")
    oprop.setValue(str(jsString))
    omesh = OPolyMesh(oxfo, meshName)
    osch = omesh.getSchema()

    if pBar is not None:
        pBar.setValue(0)
        pBar.setMaximum(len(verts))
        pBar.setLabelText("Exporting Unsubdivided Shapes")
        QApplication.processEvents()

    abcIndices = mkSampleIntArray(list(chain.from_iterable(faces)))
    abcCounts = mkSampleIntArray(map(len, faces))

    kwargs = {}
    if uvs is not None:
        # Alembic doesn't use None as the placeholder for un-passed kwargs
        # So I don't have to deal with that, I only set the kwarg dict if the uvs exist
        uvidx = None if uvFaces is None else list(chain.from_iterable(uvFaces))
        uvSample = mkUvSample(uvs, uvidx)
        kwargs['iUVs'] = uvSample

    for i, v in enumerate(verts):
        pbPrint(pBar, "Exporting Unsubdivided Shape", i)
        sample = OPolyMeshSchemaSample(mkSampleVertexPoints(v), abcIndices,
                                       abcCounts, **kwargs)
        osch.set(sample)

    pbPrint(pBar, "Done")
Exemplo n.º 12
0
def buildAbc(outPath,
             points,
             faces,
             faceCounts=None,
             uvs=None,
             uvFaces=None,
             normals=None,
             normFaces=None,
             name='polymsh',
             shapeSuffix='Shape',
             transformSuffix='',
             propDict=None):
    '''
	Build a single-mesh alembic file from all of the non-alembic raw data

	Parameters
	----------
	outPath: str or OArchive
		The output path for the alembic file
	points: list or ndarray
		The list or array of points. Single multiple frames supported
	faces: list
		A list of lists of face indices, or a flattened list of indices.
		If flat, then faceCounts must be provided
	faceCounts: list
		A list of the number of vertices per face. Defaults to None
	uvs: list or ndarray
		The Uvs for this mesh. Defaults to None
	uvFaces: list
		A list of lists of face indices, or a flattened list of indices.
		If flat, then faceCounts must be provided. Defaults to None
	normals: list or ndarray
		The Normals for this mesh. Defaults to None
	normFaces: list
		A list of lists of face indices, or a flattened list of indices.
		If flat, then faceCounts must be provided. Defaults to None
	name: str
		The name to give this mesh. Defaults to "polymsh"
	shapeSuffix: str
		The suffix to add to the shape of this mesh. Defaults to "Shape"
	transformSuffix: str
		The suffix to add to the transform of this mesh. Defaults to ""
	propDict: dict
		A dictionary of properties to add to the xform object
	'''
    if faceCounts is None:
        # All the faces are in list-of-list format
        # put them in index-count format
        faceCounts, faces = _flattenFaces(faces)
        if uvFaces is not None:
            _, uvFaces = _flattenFaces(uvFaces)
        if normFaces is not None:
            _, normFaces = _flattenFaces(normFaces)

    faceCounts = mkSampleIntArray(faceCounts)
    faces = mkSampleIntArray(faces)

    if uvFaces is not None and uvs is not None:
        uvs = mkUvSample(uvs, indexes=uvFaces)
    if normFaces is not None and normals is not None:
        normals = mkNormalSample(normals, indexes=normFaces)

    if isinstance(outPath, basestring):
        oarch = OArchive(str(outPath), False)  #False for HDF5
    else:
        oarch = outPath

    parent = oarch.getTop()
    opar = OXform(parent, name + transformSuffix)
    if propDict:
        props = opar.getSchema().getUserProperties()
        for k, v in propDict.iteritems():
            prop = OStringProperty(props, str(k))
            prop.setValue(str(v))
    omesh = OPolyMesh(opar, name + shapeSuffix)

    if np is not None:
        points = np.array(points)
        if len(points.shape) == 2:
            points = points[None, ...]
    else:
        if not isinstance(points[0][0], (list, tuple)):
            points = [points]

    sch = omesh.getSchema()
    for frame in points:
        abcFrame = mkSampleVertexPoints(frame)
        setAlembicSample(sch,
                         abcFrame,
                         faces,
                         faceCounts,
                         uvs=uvs,
                         normals=normals)
    return oarch