Created
November 12, 2015 21:04
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from pymel.core import * | |
import maya.OpenMaya as om | |
from imath import * | |
from alembic.Abc import * | |
import alembic | |
import math | |
def get_mesh_data(): | |
selection = om.MSelectionList() | |
om.MGlobal.getActiveSelectionList( selection ) | |
iter = om.MItSelectionList ( selection, om.MFn.kTransform ) | |
dagPath = om.MDagPath() | |
iter.getDagPath( dagPath ) | |
dagNode = om.MFnDagNode(dagPath) | |
child = dagNode.child(0) | |
meshFn = om.MFnMesh(child) | |
# points | |
pointArray = om.MFloatPointArray() | |
meshFn.getPoints(pointArray) | |
points = [] | |
for i in range(pointArray.length()): | |
pt = pointArray[i] | |
points.append(V3f(pt.x, pt.y, pt.z)) | |
p_points = setArray( | |
P3fTPTraits, | |
*points | |
) | |
#poly | |
iterPolys = om.MItMeshPolygon( child ) | |
topologyArray = [] | |
faceCount = [] | |
while not iterPolys.isDone(): | |
#vertex order | |
verts = om.MIntArray() | |
iterPolys.getVertices( verts ) | |
for v in reversed(list(verts)): | |
topologyArray.append(v) | |
verts = om.MIntArray() | |
iterPolys.getVertices( verts ) | |
faceCount.append(verts.length()) | |
iterPolys.next() | |
p_faceIndices = setArray( | |
Int32TPTraits, | |
*topologyArray | |
) | |
# fase count | |
p_faceCounts = setArray( Int32TPTraits, *faceCount ) | |
# bounding box | |
mx = dagNode.boundingBox().max() | |
mn = dagNode.boundingBox().min() | |
bb = Box3d( V3d(mn.x, mn.y, mn.z), V3d( mx.x, mx.y, mx.z) ) | |
# transform | |
# rotate | |
tmx = om.MTransformationMatrix(dagNode.transformationMatrix()) | |
t = tmx.translation(om.MSpace.kWorld) | |
t = [t[x] for x in range(3)] | |
#rotate | |
q = tmx.rotation() | |
v = om.MVector() | |
angUtil = om.MScriptUtil() | |
angUtil.createFromDouble(0) | |
angDoub = angUtil.asDoublePtr() | |
q.getAxisAngle(v, angDoub) | |
a = om.MScriptUtil.getDouble(angDoub) | |
r = [[v[x] for x in range(3)],a] | |
#scale | |
scaleUtil = om.MScriptUtil() | |
scaleUtil.createFromList([0,0,0],3) | |
scaleVec = scaleUtil.asDoublePtr() | |
tmx.getScale(scaleVec,om.MSpace.kWorld) | |
s = [om.MScriptUtil.getDoubleArrayItem(scaleVec,i) for i in range(0,3)] | |
return p_points, p_faceIndices, p_faceCounts, bb, [t, r, s] | |
def setArray( iTPTraits, *iList ): | |
array = iTPTraits.arrayType( len( iList ) ) | |
for i in range( len( iList ) ): | |
array[i] = iList[i] | |
return array | |
def saveSelected(filename): | |
framerange = [1,15] | |
tvec = alembic.AbcCoreAbstract.TimeVector() | |
tvec[:] = [1, 2, 3] | |
timePerCycle = 3.0 | |
numSamplesPerCycle = len(tvec) | |
tst = alembic.AbcCoreAbstract.TimeSamplingType(numSamplesPerCycle, timePerCycle) | |
ts = alembic.AbcCoreAbstract.TimeSampling(tst, tvec) | |
f= alembic.Abc.OArchive(filename) | |
top = f.getTop() | |
tsidx = top.getArchive().addTimeSampling(ts) | |
p_points, p_faceIndices, p_faceCounts, bb, tr = get_mesh_data() | |
# create the top xform | |
xform = alembic.AbcGeom.OXform(top, 'cube1', tsidx) | |
xsamp = alembic.AbcGeom.XformSample() | |
xsamp.setTranslation(V3d(*tr[0])); | |
xsamp.setRotation(V3d(*tr[1][0]), math.degrees(tr[1][1])); | |
xsamp.setScale(V3d(*tr[2])); | |
xform.getSchema().set(xsamp) | |
# the mesh shape | |
meshObj = alembic.AbcGeom.OPolyMesh(xform, 'cube1Shape') | |
mesh = meshObj.getSchema() | |
mesh_samp = alembic.AbcGeom.OPolyMeshSchemaSample( | |
p_points, p_faceIndices, p_faceCounts | |
) | |
mesh_samp.setSelfBounds(bb) | |
# CUSTOM DATA | |
massAttr = mesh.getUserProperties() | |
mass = ODoubleProperty(massAttr, "mass") | |
mesh.set(mesh_samp) | |
mass.setValue(2.0) | |
# select poly object and | |
saveSelected('c:/file1.abc') |
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