def setUpClass(cls):
standalone.initialize('usd')
# Stage with simple (non-nested) instancing.
mayaFile = os.path.abspath('InstancedShading.ma')
cmds.file(mayaFile, open=True, force=True)
usdFilePath = os.path.abspath('InstancedShading.usda')
cmds.loadPlugin('pxrUsd')
cmds.usdExport(mergeTransformAndShape=True, file=usdFilePath,
shadingMode='displayColor', exportInstances=True,
materialsScopeName='Materials',
exportCollectionBasedBindings=True,
exportMaterialCollections=True,
materialCollectionsPath="/World")
cls._simpleStage = Usd.Stage.Open(usdFilePath)
# Stage with nested instancing.
mayaFile = os.path.abspath('NestedInstancedShading.ma')
cmds.file(mayaFile, open=True, force=True)
usdFilePath = os.path.abspath('NestedInstancedShading.usda')
cmds.loadPlugin('pxrUsd')
cmds.usdExport(mergeTransformAndShape=True, file=usdFilePath,
shadingMode='displayColor', exportInstances=True,
materialsScopeName='Materials',
exportCollectionBasedBindings=True,
exportMaterialCollections=True,
materialCollectionsPath="/World")
cls._nestedStage = Usd.Stage.Open(usdFilePath)
def create(self,targetList,influenceList,defaultWeightVal=1.0,maxDist=0.0,name='surfaceSkin1'):
"""
Create surfaceSkin deformer for the given target list or selection
@param targetList: list of shapes to bind using surfaceSkin
@type targetList: list
@param influenceList: list of influences to affect surfaceSkin
@type influenceList: list
@param defaultWeightVal: Default influence weight value assigned to components
@type defaultWeightVal: float
@param maxDist: Maximum distance to search for components to affect, from the influence surface
@type maxDist: float
@param name: Name for new surfaceSkin node
@type name str
"""
# Load plugin
if not mc.pluginInfo('isoMuscle',l=1,q=1):
try: mc.loadPlugin('isoMuscle')
except: raise MissingPluginError('Unable to load surfaceSkin (isoMuscle) plugin!!')
# Create Deformer
surfaceSkin = mc.deformer(targetList,type='surfaceSkin',n=name)[0]
# Add influences
self.addInfluence(influenceList,surfaceSkin,defaultWeightVal,maxDist,calculatePrebind=False)
# Ensure surfaceSkin::paintWeight and surfaceSkin::weights are paintable attrs
self.makePaintable()
# Return result
return surfaceSkin
def setupScene():
'''
Setup some scene attributes we want to be common to all Spinifex car scenes
TODO:
make width over height as float
'''
# Check if we haven't done this before
if cmds.objExists('vraySettings.setupSceneHasBeenRun'):
# Check that everything is setup correctly before continuing.
dialogMessage = 'setupScene has already been run. Do you wish to continue? Some of your render settings will be reset.'
result = cmds.confirmDialog( title='spckSetupScene', message=dialogMessage, button=['YES','NO'], defaultButton='NO', cancelButton='NO', dismissString='NO' )
if result == 'NO' :
print("Aborted. We\'ve done this before...\n")
return
else:
# Check that everything is setup correctly before continuing.
dialogMessage = 'Have you set up your workspace.mel?'
result = cmds.confirmDialog( title='spckSetupScene', message=dialogMessage, button=['YES','NO'], defaultButton='YES', cancelButton='NO', dismissString='NO' )
if result == 'NO' :
print('Go setup your workspace and run again.\n')
return
# Units for working in metric and 30fps
cmds.currentUnit (linear='cm')
cmds.currentUnit (angle='deg')
cmds.currentUnit (time='ntsc')
# Load VRAY if not active
cmds.loadPlugin ('vrayformaya', quiet=True)
cmds.pluginInfo ('vrayformaya', edit=True, autoload=True)
cmds.setAttr ('defaultRenderGlobals.ren', 'vray', type='string')
cmds.evalDeferred ( 'createBaseRenderSettings()' , lowestPriority=True )
print('Success.\n')
def loadPlugins():
pluginList = ['redshift4maya.mll', 'Mayatomr.mll']
for plugin in pluginList:
if cmds.pluginInfo( plugin, q=1, l=1 ): continue
try:cmds.loadPlugin( plugin )
except:pass
def setTool_hardSkinWeightBrush( evt=0 ):
appendPluginPath()
_cmdStr = """global string $tf_skinSmoothPatin_selection[];
global proc tf_smoothBrush( string $context )
{
artUserPaintCtx -e -ic "tf_init_smoothBrush"
-svc "tf_set_smoothBrushValue"
-fc "" -gvc "" -gsc "" -gac "" -tcc "" $context;
}
global proc tf_init_smoothBrush( string $name )
{
string $sel[] = `ls -sl -fl`;
string $obj[] = `ls -sl -o`;
sgSmoothWeightCommand $obj;
}
global proc tf_set_smoothBrushValue( int $slot, int $index, float $val )
{
sgSmoothWeightCommand -h 1 -i $index -w $val;
}
ScriptPaintTool;
artUserPaintCtx -e -tsc "tf_smoothBrush" `currentCtx`;"""
if not cmds.pluginInfo( 'sgSmoothWeightCommand', q=1, l=1 ):
cmds.loadPlugin( 'sgSmoothWeightCommand' )
mel.eval( _cmdStr )
def loadPlugin():
"""
load softSelectionQuery plugin
"""
mayaVers = int(mayaVersion())
os = cmds.about(os=1)
if os == 'win64':
pluginName = 'softSelectionQuery_%s-x64.mll' % mayaVers
elif os == 'mac':
pluginName = 'softSelectionQuery_%s.bundle' % mayaVers
elif os == 'linux64':
pluginName = 'softSelectionQuery_%s.so' % mayaVers
else:
cmds.error('Soft Cluster EX is available for 64bit version of Autodesk Maya 2011 '
'or above under Windows 64bit, Mac OS X and Linux 64bit!')
if not cmds.pluginInfo(pluginName, q=True, l=True ):
cmds.loadPlugin(pluginName)
version = cmds.pluginInfo(pluginName, q=1, v=1)
log.info('Plug-in: %s v%s loaded success!' % (pluginName, version))
else:
version = cmds.pluginInfo(pluginName, q=1, v=1)
log.info('Plug-in: %s v%s has been loaded!' % (pluginName, version))
def enableaPlugin(filename):
extDict = {'win64':'mll','mac':'bundle','linux':'so','linux64':'so'}
os = cmds.about(os=True)
ext = extDict[os]
version = cmds.about(v=True)[:4]
pluginName = 'deltaMushToSkinCluster_%s' % version
fileFullName = '%s.%s' % (pluginName,ext)
rootPath = getParentPath(currentFileDirectory())
pluginsPath = rootPath+'/plug-ins/'
pluginFilePath = pluginsPath+fileFullName
pluginStr = mel.eval('getenv "MAYA_PLUG_IN_PATH";')+';'+pluginsPath
mel.eval('putenv "MAYA_PLUG_IN_PATH" "%s";' % pluginStr)
with open(filename,'a+') as f:
state = True
for line in f.readlines():
if re.findall(fileFullName,line):
state = False
if state:
f.write(r'evalDeferred("autoLoadPlugin(\"\", \"%s\", \"%s\")");' % (fileFullName,pluginName))
if not cmds.pluginInfo( pluginFilePath, query=True, autoload=True):
cmds.pluginInfo( pluginFilePath, edit=True, autoload=True)
if not cmds.pluginInfo(pluginFilePath,query=True,loaded=True):
cmds.loadPlugin(pluginFilePath)
def testExportWithKindFlag(self):
"""
Tests exporting a Maya file with no USD_kind custom attributes
and using the usdExport -kind flag.
"""
cmds.file(os.path.abspath('KindTest.ma'), open=True, force=True)
cmds.loadPlugin('pxrUsd')
usdFilePath = os.path.abspath('KindTest.usda')
# Check the error mark; this ensures that we actually got a Tf error
# (that was eventually converted into a Maya error, which Maya raises
# in Python as a RuntimeError).
mark = Tf.Error.Mark()
mark.SetMark()
with self.assertRaises(RuntimeError):
cmds.usdExport(mergeTransformAndShape=True,
file=usdFilePath,
kind='assembly')
errors = mark.GetErrors()
self.assertEqual(len(errors), 1)
self.assertIn(
"</KindTest> has kind 'assembly', which is derived from 'assembly'",
str(errors[0]))
cmds.usdExport(mergeTransformAndShape=True,
file=usdFilePath,
kind='fakeKind')
stage = Usd.Stage.Open(usdFilePath)
self.assertTrue(stage)
rootPrim = stage.GetPrimAtPath('/KindTest')
self.assertTrue(Kind.Registry().IsA(Usd.ModelAPI(rootPrim).GetKind(),
'fakeKind'))
def testExportWithKindAttrAndKindFlag(self):
"""
Tests exporting a Maya file with both USD_kind custom attributes and
using the usdExport -kind flag; there should be an error if the USD_kind
is not derived from the kind specified in the -kind flag.
"""
cmds.file(os.path.abspath('KindTestUsdKindAttr.ma'), open=True, force=True)
cmds.loadPlugin('pxrUsd')
usdFilePath = os.path.abspath('KindTestUsdKindAttr.usda')
with self.assertRaises(RuntimeError):
cmds.usdExport(mergeTransformAndShape=True,
file=usdFilePath,
kind='assembly')
cmds.usdExport(mergeTransformAndShape=True,
file=usdFilePath,
kind='model')
stage = Usd.Stage.Open(usdFilePath)
self.assertTrue(stage)
rootPrim = stage.GetPrimAtPath('/KindTest')
self.assertTrue(Kind.Registry().IsA(Usd.ModelAPI(rootPrim).GetKind(),
'component'))
rootPrim2 = stage.GetPrimAtPath('/KindTest2')
self.assertTrue(Kind.Registry().IsA(Usd.ModelAPI(rootPrim2).GetKind(),
'assembly'))
def create_pointer(m):
if (BAXER_POINTER == True):
# import Baxter Pointer model and use it
try:
cmds.loadPlugin("objExport")
except:
pass
name = os.path.dirname(os.path.realpath(__file__)) + "/models/baxter_gripper.obj"
mel.eval('file -import -type "OBJ" -ignoreVersion -ra true -mergeNamespacesOnClash false -rpr "gripper" -options "mo=1" -pr "%s";' \
% name)
try:
mel.eval('rename "gripper_Mesh" "pointer' + str(m) + '";')
except:
pass
else:
# Create a pointer mesh that represents the robot claw
cmds.polyCone(name="pointer" + str(m), sx=3, r=0.5, h=2)
cmds.select("pointer" + str(m))
cmds.rotate("180deg", 0, 0, r=True)
cmds.move(0, -1, 0, "pointer" + str(m) + ".scalePivot", "pointer" + str(m) + ".rotatePivot")
cmds.move(0, 1, 0, absolute=True)
cmds.makeIdentity(apply=True, t=1, r=1, s=1)
bbx = cmds.xform("table", q=True, bb=True, ws=True)
cur_size = abs(bbx[3] - bbx[0])
cmds.scale(cur_size/TABLE_SIZE, cur_size/TABLE_SIZE, cur_size/TABLE_SIZE, "pointer" + str(m), centerPivot = True)
mel.eval('select -r pointer' + str(m) + '; sets -e -forceElement pointer_matSG;')
mel.eval("makeCollideNCloth")
def testExportWithAssemblyAndMesh(self):
"""
Tests exporting a Maya file with a root prim containing an assembly
and a mesh.
"""
cmds.file(os.path.abspath('KindTestAssemblyAndMesh.ma'), open=True,
force=True)
cmds.loadPlugin('pxrUsd')
# Should fail due to the mesh.
usdFilePath = os.path.abspath('KindTestAssemblyAndMesh.usda')
with self.assertRaises(RuntimeError):
cmds.usdExport(mergeTransformAndShape=True,
file=usdFilePath,
kind='assembly')
# Should be 'component' because of the mesh
usdFilePath = os.path.abspath('KindTestAssemblyAndMesh.usda')
cmds.usdExport(mergeTransformAndShape=True,
file=usdFilePath)
stage = Usd.Stage.Open(usdFilePath)
self.assertTrue(stage)
rootPrim = stage.GetPrimAtPath('/KindTest')
self.assertTrue(Kind.Registry().IsA(Usd.ModelAPI(rootPrim).GetKind(),
'component'))
def loadPlugin():
'''
Load edgFlowMirror plugin.
'''
if not mc.pluginInfo('edgeFlowMirror',q=True,l=True):
mc.loadPlugin('edgeFlowMirror')
return 1
def setup_scene(name=sys.argv[1]):
# imports shirt, scales to fit, converts to ncloth
try:
cmds.loadPlugin("objExport")
except:
pass
mel.eval('file -f -options "mo=1" -ignoreVersion -typ "OBJ" -o "%s";' \
% name)
try:
mel.eval('rename "Mesh" "shirt";')
except:
pass
# scale shirt to fit
create_table()
if (fold_num == 0):
bbx = cmds.xform("shirt", q=True, bb=True, ws=True)
s_x_len = abs(bbx[3] - bbx[0])
s_y_len = abs(bbx[4] - bbx[1])
global GLOBAL_SCALE
if (s_x_len >= s_y_len):
GLOBAL_SCALE = s_x_len/(SHIRT_SCALE * TABLE_SIZE)
else:
GLOBAL_SCALE = s_y_len/(SHIRT_SCALE * TABLE_SIZE)
cmds.select("shirt")
cmds.move(0, 0.0001, 0, relative = True)
cmds.scale(GLOBAL_SCALE, GLOBAL_SCALE, GLOBAL_SCALE, "table", centerPivot = True)
shirt_to_nCloth()
create_camera()
def importDisplaceInscene(self):
cmds.loadPlugin('abcMayaShader.mll', qt=1)
shader = self.cache.assignations.getDisplace(self.getPath(), self.interface.getLayer())
if shader:
abcShader = cmds.shadingNode('abcMayaShader', asShader=True, n="%s" % shader["shader"].replace("SG", ""))
cmds.setAttr(abcShader +".shader", self.cache.getAbcShader(), type="string")
cmds.setAttr(abcShader +".shaderFrom", shader["shader"], type="string")
def setUpClass(cls):
standalone.initialize('usd')
cmds.loadPlugin('pxrUsd')
usdFile = os.path.abspath('UsdImportColorSetsTest.usda')
cmds.usdImport(file=usdFile, shadingMode='none',
excludePrimvar='ExcludeMe')
def setUpClass(cls):
standalone.initialize('usd')
cmds.file(os.path.abspath('UsdExportPrefTest.ma'), open=True,
force=True)
cmds.loadPlugin('pxrUsd', quiet=True)
def cameraFrustum_build(cam_shape):
#make sure a camera is loaded
if cam_shape==0:
cmds.error('no camera loaded...select a camera and load')
else:
#create frustum only if one doesnt already exist
selCamXform = cmds.listRelatives(cam_shape[0], p=1)
prefix = 'frust_'
frustumGrpName = prefix + 'camera_frustum_all_grp'
if cmds.objExists(frustumGrpName)==0:
#create main grp
frustumMainGrp = cmds.group(em=1, n=frustumGrpName);
cmds.setAttr(frustumGrpName + '.tx', lock=1, keyable=0, channelBox=0)
cmds.setAttr(frustumGrpName + '.ty', lock=1, keyable=0, channelBox=0)
cmds.setAttr(frustumGrpName + '.tz', lock=1, keyable=0, channelBox=0)
cmds.setAttr(frustumGrpName + '.rx', lock=1, keyable=0, channelBox=0)
cmds.setAttr(frustumGrpName + '.ry', lock=1, keyable=0, channelBox=0)
cmds.setAttr(frustumGrpName + '.rz', lock=1, keyable=0, channelBox=0)
cmds.setAttr(frustumGrpName + '.sx', lock=1, keyable=0, channelBox=0)
cmds.setAttr(frustumGrpName + '.sy', lock=1, keyable=0, channelBox=0)
cmds.setAttr(frustumGrpName + '.sz', lock=1, keyable=0, channelBox=0)
cmds.setAttr(frustumGrpName + '.v', lock=1, keyable=0, channelBox=0)
#create frustum geo
frustumGeo = cmds.polyCube(w=2, h=2, d=2, n=prefix + 'camera_frustum_geo')
cmds.delete(frustumGeo[0], constructionHistory=True)
cmds.parent(frustumGeo[0], frustumMainGrp)
#load plugin "nearestPointOnMesh.mll" if needed and connect
plugin = cmds.pluginInfo('nearestPointOnMesh.mll', q=1, l=1)
if plugin==0:
cmds.loadPlugin('nearestPointOnMesh.mll')
nearNodeName = prefix + 'npomNode'
npomNode = cmds.createNode('nearestPointOnMesh', n=nearNodeName)
cmds.connectAttr(frustumGeo[0] + '.worldMesh', npomNode + '.inMesh')
#create clusters
cmds.select(frustumGeo[0] + '.vtx[4:7]', r=1)
nearCluster = cmds.cluster(n=prefix + 'camera_nearFrustum_cluster')
cmds.select(frustumGeo[0] + '.vtx[0:3]', r=1)
farCluster = cmds.cluster(n=prefix + 'camera_farFrustum_cluster')
#create near/far/camera locs
cameraLoc = cmds.spaceLocator(p=(0, 0, 0), n=prefix + 'camera_loc')
cmds.parent(cameraLoc[0], frustumMainGrp)
nearLoc = cmds.spaceLocator(p=(0, 0, 0), n=prefix + 'camera_nearFrustum_loc')
cmds.move(0, 0, -1)
farLoc = cmds.spaceLocator(p=(0, 0, 0), n=prefix + 'camera_farFrustum_loc')
cmds.move(0, 0, 1)
#parent clusters under loc -- parent locs under camera loc
cmds.parent(nearCluster[1], nearLoc[0])
cmds.parent(farCluster[1], farLoc[0])
cmds.parent(nearLoc[0], cameraLoc[0])
cmds.parent(farLoc[0], cameraLoc[0])
#constrain camera loc to camera
cmds.parentConstraint(selCamXform, cameraLoc, weight=1)
return frustumGeo[0]
def __init__(self):
# set up necessary plug-ins
if not cmds.pluginInfo('nearestPointOnMesh', query=True, loaded=True):
try:
cmds.loadPlugin('nearestPointOnMesh')
except NameError:
pass
def snapObjectsOnSupport(objects, support):
"""
Snaps objects on support.
:param objects: Objects to snap.
:type objects: list
:param value: Support.
:type value: str
"""
if cmds.pluginInfo("nearestPointOnMesh", q=True, loaded=False):
cmds.loadPlugin("nearestPointOnMesh")
nearestPointOnMesh = cmds.createNode("nearestPointOnMesh")
supportShape = getShapes(support)[0]
cmds.connectAttr(supportShape + ".outMesh", nearestPointOnMesh + ".inMesh", f=True)
allAxis = ("X", "Y", "Z")
for object in objects:
position = cmds.xform(object, q=True, rp=True, ws=True, a=True)
for i, axis in enumerate(allAxis):
cmds.setAttr(nearestPointOnMesh + ".inPosition" + axis, position[i])
cmds.select(object)
cmds.move(cmds.getAttr(nearestPointOnMesh + ".positionX"),
cmds.getAttr(nearestPointOnMesh + ".positionY"),
cmds.getAttr(nearestPointOnMesh + ".positionZ"),
rpr=True)
cmds.delete(nearestPointOnMesh)
def __init__(self):
'The instructor'
# check for os
if os.name == "posix": ext="so"
else: ext="mll"
# load the plug-in
mc.loadPlugin( 'objExport.%s' % ext )
def loadPlugins():
cmds.loadPlugin( 'finShelf.py' )
mel.eval( 'if(!`pluginInfo -query -l -n Mayatomr`) loadPlugin "Mayatomr";')
mel.eval( 'if(!`pluginInfo -query -l -n OpenEXRLoader`) loadPlugin "OpenEXRLoader";')
mel.eval( 'if(!`pluginInfo -query -l -n stereoCamera`) loadPlugin "stereoCamera";')
mel.eval( 'if(!`pluginInfo -query -l -n objExport`) loadPlugin "objExport";')
mel.eval( 'if(!`pluginInfo -query -l -n fbxmaya`) loadPlugin "fbxmaya";')
# external plugins
try:
if pm.versions.current() in ( 201402, 2014 ):
mel.eval( 'if(!`pluginInfo -query -l -n "MASH-2014"`) loadPlugin "MASH-2014";')
mel.eval('if (`shelfLayout -exists MASH `) deleteUI MASH;')
mel.eval('loadNewShelf "shelf_MASH.mel"')
cmds.loadPlugin( 'SOuP.bundle')
mel.eval('if(!`pluginInfo -query -l -n "SOuP"`) loadPlugin "SOuP";')
mel.eval('if (`shelfLayout -exists soup `) deleteUI soup;')
mel.eval('loadNewShelf "shelf_soup.mel"')
except:
print "Check external plugin paths"
# set the optionVar that enables hidden mentalray shaders
pm.optionVar['MIP_SHD_EXPOSE'] = 1
pm.runtime.SavePreferences()
cmds.setAttr('defaultRenderGlobals.ren', 'mentalRay', type='string' )
def setUpClass(cls):
standalone.initialize('usd')
cmds.loadPlugin('pxrUsd')
if not UsdMaya.WriteUtil.WriteUVAsFloat2():
cmds.file(os.path.abspath('UsdExportUVSetsTest.ma'), open=True,
force=True)
else:
cmds.file(os.path.abspath('UsdExportUVSetsTest_Float.ma'), open=True,
force=True)
# Make some live edits to the box with weird UVs for the
# testExportUvVersusUvIndexFromIterator test.
cmds.select("box.map[0:299]", r=True)
cmds.polyEditUV(u=1.0, v=1.0)
usdFilePath = os.path.abspath('UsdExportUVSetsTest.usda')
cmds.usdExport(mergeTransformAndShape=True,
file=usdFilePath,
shadingMode='none',
exportColorSets=False,
exportDisplayColor=False,
exportUVs=True)
cls._stage = Usd.Stage.Open(usdFilePath)
def load_plugins_deferred():
#plugin_list
plugin_list = ['vrayformaya.mll',
'rrSubmit_Maya_8.5+.py',
'helga_asset_metadata.py',
'helga_shots_metadata.py',
'AnimSchoolPicker.mll',
'LBrush']
#iterate plugin_list and load
for plugin_name in plugin_list:
try:
if not(cmds.pluginInfo(plugin_name , query = True, loaded = True)):
try:
cmds.loadPlugin(plugin_name)
#Print to console instead of script editor
sys.__stdout__.write('->Successfully loaded ' +plugin_name +' deferred\n')
except:
sys.__stdout__.write('->Error loading ' +plugin_name +' deferred\n')
else:
sys.__stdout__.write('->Skipped loading ' +plugin_name +' deferred. Plugin was already loaded\n')
except:
sys.__stdout__.write('->Error loading ' +plugin_name +' deferred\n')
#Dividerline
sys.__stdout__.write(DIVIDERLINE)
def main(argv = None):
print "Initializing..."
# Load Plugin
cmds.loadPlugin("AbcImport.mll")
# Get current dir
basedir = os.getcwd()
os.chdir(basedir)
# Create new file
cmds.file(basedir + "/" + "null.mb", o=True, force=True)
# Create empty scenes
createNewScenes()
# Load Alembics in every scene
for file in os.listdir("."):
if file.endswith(".mb") and file != "null.mb":
print "Opening " + file
cmds.file(basedir+'/'+file, o=True, force=True)
importAbcInFolder()
cmds.file(save=True)
quit()
def cmdFunction(*args):
for pluginName in plugin_names:
cmds.loadPlugin(pluginName)
if ui_mel is not None:
mel.eval(ui_mel)
if ui_python is not None:
ui_python()
def initializePlugin(obj):
plugin = OpenMayaMPx.MFnPlugin(obj)
try:
plugin.registerNode(
ms_environment_nodeTypeName,
ms_environment_nodeTypeId,
ms_environment_nodeCreator,
ms_environment_nodeInitializer,
OpenMayaMPx.MPxNode.kLocatorNode,
)
except:
sys.stderr.write("Failed to register node: %s" % ms_environment_nodeTypeName)
try:
plugin.registerNode(
ms_renderSettings_nodeTypeName,
ms_renderSettings_nodeTypeId,
ms_renderSettings_nodeCreator,
ms_renderSettings_nodeInitializer,
)
except:
sys.stderr.write("Failed to register node: %s\n" % ms_renderSettings_nodeTypeName)
# load objExport plugin if its not loaded yet
try:
if not cmds.pluginInfo("objExport", query=True, loaded=True):
cmds.loadPlugin("objExport")
except:
print "objExport plugin could not be loaded, cannot load mayaseed"
ms_menu.createMenu()
ms_menu.buildMenu()
def reloadAndReopen( self, *args ):
codePath = cmds.textField( self.fld_codePath, q=1, tx=1 )
plugPath = cmds.textField( self.fld_plugPath, q=1, tx=1 )
srcName = cmds.textField( self.fld_srcName, q=1, tx=1 )
dstName = cmds.textField( self.fld_dstName, q=1, tx=1 )
srcPath = ( codePath + '/' + srcName ).replace( '\\', '/' )
dstPath = ( plugPath + '/' + dstName ).replace( '\\', '/' )
currentSceneName = cmds.file( q=1, sceneName=1 )
cmds.file( new=1, f=1 )
cmds.unloadPlugin( dstName )
shutil.copy2( srcPath, dstPath )
print "Copy From : ", srcPath
print "Past To : ", dstPath
if not currentSceneName: currentSceneName = tempPluginTestPath
try:cmds.file( currentSceneName, f=1, options="v=0;", o=1 )
except:cmds.file( rename = currentSceneName )
cmds.loadPlugin( dstName )
self.textFieldSaveCommand()
def _gather_exported_alembic_info_():
cmds.loadPlugin("AbcImport.mll", quiet=True)
template_obj, fields, tk = _get_shotgun_fields_from_file_name_()
if not pm.objExists("animatedAlembicGroup"):
pm.createNode("transform", name="animatedAlembicGroup")
temp, fields, tk = _get_shotgun_fields_from_file_name_()
masterAlembicTemplate = tk.templates["master_alembic_cache"]
alembicFolder = libFile.get_parent_folder(masterAlembicTemplate.apply_fields(fields))
# Get all the abc files
exported_alemblic_info = {}
if libFile.exists(alembicFolder):
for alembicFile in libFile.listfiles(alembicFolder, "abc"):
alembicFilePath = libFile.join(alembicFolder, alembicFile)
# Edited by Chet
# Project Kitten Witch 25 May 2016
# ========================================================
# Old code that was causing the list of alembics to build
# niceName = alembicFile.split(".")[0].split("_")[]
niceName = alembicFile.split(".")[0]
niceName = niceName.split("_")
niceName = " ".join(niceName[1:])
exported_alemblic_info[niceName] = alembicFilePath
return exported_alemblic_info
def exportObjects(self):
for object in self.objects:
cmds.select(object, r= True)
if self.exportType == 1:
fileType = 'Fbx'
cmds.loadPlugin('fbxmaya', qt= True)
melCmd.eval('FBXExportShowUI -v false;')
else:
fileType = 'OBJexport'
cmds.loadPlugin('objExport', qt= True)
if bool(self.exportGeometrySequence) == bool(True):
startF = self.startFrame
endF = self.endFrame
else:
startF = endF = cmds.currentTime( query=True )
nameExtension = ''
exportName = object.replace(':', '_')
for timevalue in range(startF, (endF+1), 1):
if bool(self.exportGeometrySequence) == bool(True):
nameExtension = '.%04d' % timevalue
cmds.currentTime(timevalue)
if self.exportType == 1:
melCmd.eval('FBXExport -f "' + self.exportPath + exportName + nameExtension + '.fbx" -s')
else:
cmds.file(self.exportPath+exportName+nameExtension, op='', typ=fileType, pr=True, es=True )
print 'Exported: ' + object;
def reload(source,destination):
'''
reloads plugin:
* close file
* unload plugin
* copy new compiled version
* load plugin
* load file
'''
currFile = cmds.file( sceneName=True,q=True)
# close file for a while
if currFile:
cmds.file( f=True, new=True )
try:
cmds.unloadPlugin(os.path.basename(destination),force=True)
print ("plugin unloaded: %s" % destination)
shutil.copy(source,destination)
print ("plugin copied: %s" % source)
cmds.loadPlugin(destination)
print "plugin loaded: "+destination
finally:
if currFile:
cmds.file(currFile, open=True)
def loadObjPlugin():
if not cmds.pluginInfo('objExport', q=1, loaded=True ):
cmds.loadPlugin('objExport')
def gtu_load_plugins(plugin_list):
'''
Attempts to load provided plug-ins, then gives the user feedback about their current state. (Feedback through inView messages and stdout.write messages)
Parameters:
plugin_list (list): A list of strings containing the name of the plug-ings yo uwant to load
'''
already_loaded = []
not_installed = []
now_loaded = []
# Load Plug-in
for plugin in plugin_list:
if not cmds.pluginInfo(plugin, q=True, loaded=True):
try:
cmds.loadPlugin(plugin)
if cmds.pluginInfo(plugin, q=True, loaded=True):
now_loaded.append(plugin)
except:
not_installed.append(plugin)
else:
already_loaded.append(plugin)
# Give Feedback
if len(not_installed) > 0:
message_feedback = ''
for str in not_installed:
message_feedback += str + ', '
is_plural = 'plug-ins don\'t'
if len(not_installed) == 1:
is_plural = 'plug-in doesn\'t'
message = '<span style=\"color:#FF0000;text-decoration:underline;\">' + message_feedback[:
-2] + '</span> ' + is_plural + ' seem to be installed.'
cmds.inViewMessage(amg=message, pos='botLeft', fade=True, alpha=.9)
sys.stdout.write(message_feedback[:-2] + ' ' + is_plural +
' seem to be installed.')
if len(now_loaded) > 0:
message_feedback = ''
for str in now_loaded:
message_feedback += str + ', '
is_plural = 'plug-ins are'
if len(now_loaded) == 1:
is_plural = 'plug-in is'
message = '<span style=\"color:#FF0000;text-decoration:underline;\">' + message_feedback[:
-2] + '</span> ' + is_plural + ' now loaded.'
cmds.inViewMessage(amg=message, pos='botLeft', fade=True, alpha=.9)
sys.stdout.write(message_feedback[:-2] + ' ' + is_plural +
' now loaded.')
if len(already_loaded) > 0:
message_feedback = ''
for str in already_loaded:
message_feedback += str + ', '
is_plural = 'plug-ins are'
if len(already_loaded) == 1:
is_plural = 'plug-in is'
message = '<span style=\"color:#FF0000;\">' + message_feedback[:
-2] + '</span> ' + is_plural + ' already loaded.'
cmds.inViewMessage(amg=message, pos='botLeft', fade=True, alpha=.9)
sys.stdout.write(message_feedback[:-2] + ' ' + is_plural +
' already loaded.')
def on_action_create(self, *args):
sName = self.ui.edtNewName.toPlainText()
# loading Maya matrix node
if not (cmds.pluginInfo("decomposeMatrix", query=True, loaded=True)):
try: # Maya 2012
cmds.loadPlugin("decomposeMatrix.mll")
except:
try: # Maya 2013 or earlier
cmds.loadPlugin("matrixNodes.mll")
except:
print self.langDic[
self.langName]['e002_decomposeMatrixNotFound']
aSel = pymel.selected()
if (len(aSel) == 2):
#Create the container of the system data
pData = PoseReaderData()
with pymel.UndoChunk():
#Get Needed matrix information
pData.nParent = aSel[1]
pData.nChild = aSel[0]
m4ParentMat = pData.nParent.getMatrix(worldSpace=True)
m4ChildMat = pData.nChild.getMatrix(worldSpace=True)
#Create the two node needed to extract the rotation
pData.nPGrp = pymel.createNode("transform",
name=sName +
"_PoseReader_Parent_Grp",
p=pData.nParent)
pData.nPGrp.setMatrix(m4ChildMat, worldSpace=True)
pData.nParentLoc = self.createLoc(
sName + "_AngExtract_ParentLoc", pData.nPGrp)
pData.nCGrp = pymel.createNode("transform",
name=sName +
"_PoseReader_Child_Grp",
p=pData.nChild)
pData.nCGrp.setMatrix(m4ChildMat, worldSpace=True)
pData.nChildLoc = self.createLoc(
sName + "_AngExtract_ChildLoc", pData.nCGrp)
#Add usefull attributes for the tool
pData.nChildLoc.setDynamicAttr("posereaderdata", True)
pData.nChildLoc.addAttr("angleMaxValue", min=-360.0, max=360.0)
pData.nChildLoc.setAttr("angleMaxValue",
180,
edit=True,
keyable=False,
lock=False)
pData.nChildLoc.addAttr("axis", at="enum", enumName="X:Y:Z")
pData.nChildLoc.setAttr("axis",
1,
edit=True,
keyable=False,
lock=False)
#Setup the rotation extaction
pData.nMultM = pymel.createNode("multMatrix",
name=sName + "_ExtactAngle_MM")
pymel.connectAttr(pData.nParentLoc.worldMatrix[0],
pData.nMultM.matrixIn[0])
pymel.connectAttr(pData.nChildLoc.worldInverseMatrix[0],
pData.nMultM.matrixIn[1])
pData.nDecM = pymel.createNode("decomposeMatrix",
name=sName + "_ExtractAngle_DM")
pymel.connectAttr(pData.nMultM.matrixSum,
pData.nDecM.inputMatrix)
#Setup the rotation affection
pData.nMD = pymel.createNode("multiplyDivide",
name=sName + "_NormValue_MD")
pData.nMD.operation.set(2)
pymel.connectAttr(pData.nDecM.outputRotateY, pData.nMD.input1X)
pymel.connectAttr(pData.nChildLoc.angleMaxValue,
pData.nMD.input2X)
pData.nCD = pymel.createNode("condition",
name=sName + "_SmallerThanOne_CD")
pymel.connectAttr(pData.nMD.outputX, pData.nCD.firstTerm)
pymel.connectAttr(pData.nMD.outputX, pData.nCD.colorIfTrueR)
pData.nCD.secondTerm.set(1)
pData.nCD.operation.set(5) #Less or equal
pData.nCDNoNeg = pymel.createNode("condition",
name=sName + "_OverZero_CD")
pymel.connectAttr(pData.nCD.outColorR,
pData.nCDNoNeg.firstTerm)
pymel.connectAttr(pData.nCD.outColorR,
pData.nCDNoNeg.colorIfTrueR)
pData.nCDNoNeg.secondTerm.set(0)
pData.nCDNoNeg.colorIfFalseR.set(0)
pData.nCDNoNeg.operation.set(3) #Greater or Equal
#Node for manual activation connection
pData.nMDActive = pymel.createNode("multiplyDivide",
name=sName + "_Active_MD")
pymel.connectAttr(pData.nCDNoNeg.outColorR,
pData.nMDActive.input1X)
#for o in pData.__dict__:
#print o
libSerialization.export_network(pData)
self.addItem(pData)
else:
pymel.confirmDialog(
title='Selection Problem',
message='You need to have exactly two nodes selected')
def loadPlugin(self):
if cmds.pluginInfo('nearestPointOnMesh.mll', q=True, l=True) == False:
cmds.loadPlugin('nearestPointOnMesh.mll')
#loadPlugin arnold for maya
import maya.cmds as mc
if not mc.pluginInfo('mtoa', q=1, loaded=1):
mc.loadPlugin('mtoa')
mc.setAttr('defaultRenderGlobals.currentRenderer', 'arnold', type='string')
import maya.cmds as mc, maya.OpenMaya as om
import ADCtrl as ct, ADUtils as au
import re
from string import digits
reload(ct)
reload(au)
# load Plug-ins
matrixNode = mc.pluginInfo('matrixNodes.mll', query=True, loaded=True)
quatNode = mc.pluginInfo('quatNodes.mll', query=True, loaded=True)
if not matrixNode:
mc.loadPlugin('matrixNodes.mll')
if not quatNode:
mc.loadPlugin('quatNodes.mll')
class Build:
def __init__(self, crv, eyeballJnt, worldUpObject, scale, sideLFT, sideRGT,
side, offsetEyelidPos, directionLip01, directionLip02,
ctrlColor, controllerLidDown):
self.pos = mc.xform(eyeballJnt, q=1, ws=1, t=1)[0]
# self.prefixNameCrv = au.prefixName(crv)
self.vtxCrv = mc.ls('%s.cv[0:*]' % crv, fl=True)
self.createJointLid(crv=crv,
worldUpObject=worldUpObject,
def rigcleantool(arg):
if cmds.pluginInfo("Fur",q=1,loaded=1,name=1)==0:
cmds.loadPlugin("Fur")
if cmds.pluginInfo("Mayatomr",q=1,loaded=1,name=1)==0:
cmds.loadPlugin("Mayatomr")
if cmds.pluginInfo("mtoa",q=1,loaded=1,name=1)==0:
cmds.loadPlugin("mtoa")
delsel =[]
aiAov = cmds.ls(type="aiAOV")
aiAovnum=[]
for a in range(len(aiAov)):
aovadj = cmds.listConnections(aiAov[a]+".message",s=0,type="aiOptions")
if aovadj ==None:
delsel.append(aiAov[a])
camv = cmds.ls(type="cameraView")
for c in range(len(camv)):
delsel.append(camv[c])
jointlayer = cmds.ls(type="displayLayer")
jointlayernum = []
for j in range(len(jointlayer)):
adj = cmds.listConnections( jointlayer[j], d=True)
if adj ==None:
delsel.append(jointlayer[j])
mrOptions = cmds.ls(type="mentalrayOptions")
for m in range(len(mrOptions)):
delsel.append(mrOptions[m])
swfursel =cmds.ls(type="FurGlobals")
for s in range(len(swfursel)):
delsel.append(swfursel[s])
animcurve = cmds.ls(type="animCurveUL")
delancv = []
for a in range(len(animcurve)):
unitconup = cmds.listConnections(animcurve[a],s=0)
unitcondn = cmds.listConnections(animcurve[a],d=0)
if unitconup==None and unitcondn==None:
delancv.append(animcurve[a])
delsel.append(animcurve[a])
hpginfo = cmds.ls(type="hyperGraphInfo")
delhpginfo = []
for h in range(len(hpginfo)):
if hpginfo[h]!="hyperGraphInfo":
delhpginfo.append(hpginfo[h])
delsel.append(hpginfo[h])
hpview = cmds.ls(type="hyperView")
delhpview = []
for p in range(len(hpview)):
delsel.append(hpview[p])
delhpview.append(hpview[p])
hplayout = cmds.ls(type="hyperLayout")
delhplayout = []
for h in range(len(hplayout)):
delhplayout.append(hplayout[h])
delsel.append(hplayout[h])
groupid = cmds.ls(type="groupId")
delgroupid = []
for i in range(len(groupid)):
unitcon = cmds.listConnections(groupid[i],s=0)
if unitcon==None:
delgroupid.append(groupid[i])
delsel.append(groupid[i])
unit = cmds.ls(type="unitConversion")
delunit = []
for i in range(len(unit)):
unitcon = cmds.listConnections(unit[i],s=0)
if unitcon==None:
delunit.append(unit[i])
delsel.append(unit[i])
for d in range(len(delsel)):
cmds.delete(delsel[d])
print ".............\n",
print "已删除"+str(len(delunit))+"个无用的unitConversion节点,"+str(len(delancv))+"个无用的animCurveUL节点,"+str(len(delhpginfo))+"个无用的hyperGraphInfo节点,"+str(len(delhpview))+"个无用的hyperView节点,"+str(len(delhplayout))+"个无用的hyperLayout节点,"+str(len(delgroupid))+"个无用的groupId节点,"+str(len(camv))+"个无用的cameraView节点,"+str(len(jointlayernum))+"个无用的displayLayer节点,"+str(len(mrOptions))+"个无用的mentalrayOptions节点,"+str(len(aiAovnum))+"个无用的aiAov节点,"+str(len(swfursel))+"个无用的FurGlobals节点!!",
def sk_sceneCameraBK(self ,shotInfos = [],shotType = sk_infoConfig.sk_infoConfig().checkShotType() , stereoCam = 0,stereoMode = 1,step = 1,bkCam = '' ):
if not shotInfos:
shotInfo = sk_infoConfig.sk_infoConfig().checkShotInfo()
else:
shotInfo = shotInfos
camBase = ''
camFind = 1
if bkCam:
camBase = bkCam
else:
if shotType == 2:
camBase = 'cam_' + str(shotInfo[1]) + '_' + str(shotInfo[2])
if shotType == 3:
camBase = 'cam_' + str(shotInfo[1]) + '_' + str(shotInfo[2]) + '_' + str(shotInfo[3])
if '.' in camBase:
camBase = camBase.split('.')[0]
if stereoMode:
camBase += '_stCam'
# 判断cam在不在
if not camBase:
camFind = 0
if not mc.ls(camBase):
camFind = 0
else:
if len(mc.ls(camBase)) != 1:
camFind = 0
if not camFind:
#errorInfo = (u'==========No Correct Cam[%s],or More Than One Cam[%s],please Fix the Camera Name=========='%(camBase,camBase))
errorInfo = (u'==========未找到正版cam[%s],或cam名字不合法==========\n'%camBase)
print errorInfo
sk_infoConfig.sk_infoConfig().checkErrorWindows(errorInfo)
sk_infoConfig.errorCode = errorInfo
mc.error(errorInfo)
# 准备工作
# 时间轴信息
io = (mc.playbackOptions(q=1, minTime=1)-10, mc.playbackOptions(q=1, maxTime=1)+10)
# 一次BK开始
locTemp = mc.spaceLocator()
cons = mc.parentConstraint(camBase , locTemp , maintainOffset = 0)
# 一次烘焙
mc.bakeResults(locTemp, t = io,
simulation = 0,
sampleBy=step,
disableImplicitControl=1,
preserveOutsideKeys=1,
sparseAnimCurveBake=1,
removeBakedAttributeFromLayer=0,
bakeOnOverrideLayer=0,
controlPoints=0,
shape=1)
mc.delete(cons)
# 复制出信息
camNeed = (camBase.split('|')[-1] + '_baked')
checkCam = mc.ls(camNeed,l=1)
if checkCam:
mc.delete(checkCam)
if stereoMode:
pluginName = 'stereoCamera'
if not mc.pluginInfo(pluginName,q= 1,loaded = 1):
mc.loadPlugin(pluginName)
from maya.app.stereo import stereoCameraRig
camNew = stereoCameraRig.createStereoCameraRig(rigName='StereoCamera')
camNew = mc.rename(camNew[0],camNeed)
shapesOld = mc.listRelatives(camBase,s=1,f=1)
shapesNew = mc.listRelatives(camNew,s=1,f=1)
for i in range(len(shapesOld)):
# 连接
self.sk_bakeStereoCameraConnect(shapesOld[i],shapesNew[i])
else:
camNew = mc.duplicate(camBase,returnRootsOnly = 1,inputConnections = 1)
camNew = mc.rename(camNew[0],camNeed.split('|')[-1])
# cam mode不需要sx,sy,sz和v
noNeedList = ['.sx','.sy','.sz','.v']
for checkAttr in noNeedList:
camAttr = camNew + checkAttr
cons = mc.listConnections(camAttr,s=1,d=0,plugs=1)
mc.setAttr(camAttr,l=0)
if cons:
mc.disconnectAttr(cons[0],camAttr)
lockState = mc.getAttr(camAttr,l=1)
if lockState:
tempAttr = mc.connectionInfo(camAttr,gla=1)
if tempAttr:
mc.setAttr(tempAttr,l=0)
mc.setAttr(camAttr,1)
# 清理目标camera物体
chilrdNodes = mc.listRelatives(camNew,ad = 1,f=1)
for checkNode in chilrdNodes:
if not mc.ls(checkNode):
continue
checkType = mc.nodeType(checkNode)
if checkType in ['camera','stereoRigFrustum','stereoRigCamera']:
continue
deleteState = 1
if checkType in ['transform']:
child = mc.listRelatives(checkNode,s=1,f=1)
if not child:
deleteState = 0
else:
for checkChild in child:
checkType = mc.nodeType(checkChild)
if checkType in ['camera','stereoRigFrustum','stereoRigCamera']:
deleteState = 0
if deleteState:
mc.delete(checkNode)
# 解锁
from idmt.maya.commonCore.core_mayaCommon import sk_sceneTools
reload(sk_sceneTools)
sk_sceneTools.sk_sceneTools().checkLockObjs([camNeed],0,1)
# 祛除translate和rotate的约束
if shotInfo[0] !='nj':
camNewFull = mc.ls(camNew,l=1)[0]
if len(camNewFull.split('|')) != 2:
mc.parent(camNew,world = 1)
for attr in ['.tx','.ty','.tz','.rx','.ry','.rz']:
mc.setAttr((camNew + attr), lock = False)
consAttr = mc.listConnections((camNew + attr),s=1,d=0,plugs=1)
if not consAttr:
continue
mc.disconnectAttr(consAttr[0],(camNew + attr))
# 二次BK开始
cons = mc.parentConstraint(locTemp , camNew , maintainOffset = 0)
# 二次烘焙
mc.bakeResults(camNew, t=io,
simulation = 0,
sampleBy=step,
disableImplicitControl = 1 ,
preserveOutsideKeys = 1 ,
sparseAnimCurveBake = 1 ,
removeBakedAttributeFromLayer = 0 ,
bakeOnOverrideLayer = 0 ,
controlPoints = 0 ,
shape = 1 )
if stereoMode:
camShape = mc.listRelatives(camNew,s = 1,ni=1)[0]
childGrps = mc.listRelatives(camNew,c=1,type = 'transform')
leftGrp = ''
rightGrp = ''
for checkGrp in childGrps:
if 'Left' in checkGrp:
leftGrp = checkGrp
if 'Right' in checkGrp:
rightGrp = checkGrp
# 重新处理立体连接
leftGrpAttr = '%s|%s.tx'%(camNew,leftGrp)
tempAttr = mc.connectionInfo(leftGrpAttr,gla=1)
if tempAttr:
mc.setAttr(tempAttr,l=0)
cons = mc.listConnections(leftGrpAttr,s=1,d=0,plugs=1)
if shotInfo[0] in ['do6'] and cons:
mel.eval('source "channelBoxCommand.mel"')
mel.eval('CBunlockAttr %s'%leftGrpAttr)
if cons:
mc.disconnectAttr(cons[0],leftGrpAttr)
mc.expression(s = '%s=-0.5*%s.interaxialSeparation'%(leftGrpAttr,camShape),o = leftGrp )
rightGrpAttr = '%s|%s.tx'%(camNew,rightGrp)
tempAttr = mc.connectionInfo(rightGrpAttr,gla=1)
if tempAttr:
mc.setAttr(tempAttr,l=0)
cons = mc.listConnections(rightGrpAttr,s=1,d=0,plugs=1)
if shotInfo[0] =='do6' and cons:
mel.eval('source "channelBoxCommand.mel"')
mel.eval('CBunlockAttr %s' %rightGrpAttr)
if cons:
mc.disconnectAttr(cons[0],rightGrpAttr)
mc.expression(s = '%s=0.5*%s.interaxialSeparation'%(rightGrpAttr,camShape),o = rightGrp )
# pairx
rigShape = mc.listRelatives(camNew,s=1,type = 'stereoRigCamera')[0]
rigFrustum = mc.listRelatives(camNew,s=1,type = 'stereoRigFrustum')[0]
print '------------tMode'
print camShape
print rigShape
mc.connectAttr('%s.zeroParallax'%camShape,'%s.zeroParallax'%camNew,f=1)
mc.connectAttr('%s.zeroParallax'%camShape,'%s.zeroParallax'%rigFrustum,f=1)
# center
attrs = ['.filmOffsetLeftCam','.filmOffsetRightCam','.interaxialSeparation','.stereo','.toeInAdjust']
centerPre = camNeed
centerShape = centerPre + 'CenterCamShape'
centerGrp = centerPre
for attr in attrs:
mc.setAttr((centerGrp + attr),l = 0)
mc.connectAttr((centerShape + attr),(centerGrp + attr) ,f = 1)
cons = mc.listConnections(camNew,s = 1 ,type = 'constraint')
if cons:
cons = list(set(cons))
mc.delete(cons)
# 清理shape的某些信息
camNewShape = mc.listRelatives(camNew,s=1,type = 'camera',f=1)
shapeCons = mc.listConnections(camNewShape,s=1,d=0,c=1,plugs=1)
if shapeCons:
consNum = len(shapeCons)
for num in range(consNum/2):
consAttr = shapeCons[num*2+1]
if '>' in consAttr:
consAttr = consAttr.split('>')[-1]
consNode = consAttr.split('.')[0]
# 判断
nodeType = mc.nodeType(consNode)
if 'animCurve' in nodeType:
continue
checkAttr = shapeCons[num*2+1]
if (not mc.referenceQuery(checkAttr.split('.')[0],inr = 1)) and mc.getAttr(checkAttr,l=1):
mc.setAttr(checkAttr,l=0)
checkAttr = shapeCons[num*2]
if (not mc.referenceQuery(checkAttr.split('.')[0],inr = 1)) and mc.getAttr(checkAttr,l=1):
mc.setAttr(checkAttr,l=0)
# 断开
mc.disconnectAttr(shapeCons[num*2+1],shapeCons[num*2])
# 善后,清理
mc.delete(locTemp)
# 属性
baseShape = mc.listRelatives(camBase,s=1,f=1)[0]
newShape = mc.listRelatives(camNew,s=1,type = 'camera',f=1)[0]
fixAttrList = ['.horizontalFilmAperture','.verticalFilmAperture','.filmFit']
for attr in fixAttrList:
newAttr = newShape + attr
if not mc.ls(newAttr):
continue
oldAttr = baseShape + attr
mc.setAttr(newAttr,l=0)
mc.setAttr(newAttr,mc.getAttr(oldAttr))
# 处理scale,属性打1
for attr in ['.sx','.sy','.sz']:
cons = mc.listConnections((camNew + attr),s=1,d=0,plugs=1)
if cons:
mc.disconnectAttr(cons[0],(camNew + attr))
mc.setAttr((camNew + attr),l=0)
mc.setAttr((camNew + attr),1)
# 恢复立体连接
# 锁、出组
fixCamList = []
if stereoMode:
camShapes = mc.listRelatives(camNew,ad=1,type='camera',f=1)
fixCamList = mc.listRelatives(camShapes,p=1,type='transform',f=1)
sk_sceneTools.sk_sceneTools().checkLockObjs(fixCamList,1,1)
for checkCam in fixCamList:
attrs = mc.listAttr(checkCam,k=1)
if not attrs:
continue
for attr in attrs:
mc.setAttr((checkCam + '.' +attr),l = 1)
def load_plugin():
if not mc.pluginInfo('normalCopy', q=1, l=1):
mc.loadPlugin('normalCopy.mll')
def setUpClass(cls):
standalone.initialize('usd')
cmds.loadPlugin('pxrUsd', quiet=True)
import maya.standalone as ms
import maya.cmds as mc
import functions as f
ms.initialize("Python")
mc.loadPlugin("Mayatomr") # Load all plugins you might need
mc.loadPlugin("RadeonProRender")
if __name__ == "__main__":
parser = f.createParser()
ns = parser.parse_args(f.sys.argv[1:])
print(ns)
f.createObjects(ns.objecttype, ns.objectcount, ns.materialcount)
f.createLights(ns.lighttype, ns.lightcount)
if(ns.isibl):
f.createIBL()
f.changeMaxSamples(ns.maxsamples)
f.changeThreshold(ns.threshold)
f.createMetadata(ns)
f.makeImage()
f.setCamera(ns.objectcount)
#>mayapy D:\Workspace\test_scpirts\test.py -ot Cube -oc 3 -lt Physical -mc 2 -lc 4 -ibl true -ms 400 -th 0.001
#>render -r FireRender -rd C:\Users\Denispoper\Desktop\testResults -of jpeg -im testResultImage -x 1000 -y 1000 C:\Users\Denispoper\Desktop\mayaimages\test.mb
'''
Script Batch Processes Maya Preview Images .
requires C:\Program Files\Autodesk\Maya2014\bin\mayapy.exe as python executable
'''
import maya.standalone
maya.standalone.initialize("Python")
import maya.cmds as cmds
cmds.loadPlugin("Mayatomr")
import os
import getpass
import sys
import subprocess
import smtplib
from email.mime.text import MIMEText
from email.mime.multipart import MIMEMultipart
from email.mime.image import MIMEImage
class MayaScene():
def find(self):
# Find Path
with open('Path.txt', 'rb') as myfile:
print(myfile)
self.assetspath = myfile.read().rstrip()
myfile.close
import maya.cmds as cmds
from pipeline.engines import engine
import sys
cmds.loadPlugin('AbcExport.mll')
cmds.file(sys.argv[3], o=True)
print("SYSTEME ARG!!!!!!!!!!!!!!!!!!!!!!!!!!! : " + str(sys.argv))
#cmds.file(r"D:\projets\artfx\TD4\py_dcc\scene_Test.mb", o=True )
selected_namespace = "namespace"
# Get all the object from the scene with the input namespace
namespace = "{}:*".format(selected_namespace)
nodes = cmds.ls(namespace, type='transform')
command_list = []
for node in nodes:
print node
command_list.append(
"-frameRange 1 25 -uvWrite -dataFormat ogawa -root {} -file D:/projets/artfx/TD4/py_dcc/alambic_exporter/esportABC/{}.abc"
.format(node, node.replace(':', '_')))
cmds.AbcExport(j=command_list, verbose=True)
# @date 2013/5/13
# for debug
#import debugmaya
#debugmaya.startDebug()
# Import Maya Modules
import maya.cmds as cmds
import pymel.core as pm
#deformerTypes = ["probeDeformer","probeDeformerARAP","probeDeformerPy","probeLocator"]
deformerTypes = ["probeDeformer", "probeDeformerARAP", "probeLocator"]
for type in deformerTypes:
try:
cmds.loadPlugin(type)
except:
print("Plugin %s already loaded" % (type))
## prepare interface
class UI_ProbeDeformer:
uiID = "ProbeDeformer"
title = "ProbeDeformerPlugin"
deformers = []
probes = {}
## Constructor
def __init__(self):
if pm.window(self.uiID, exists=True):
pm.deleteUI(self.uiID)
def main():
if not mel.eval('exists "u3dUnfold"'):
cmds.loadPlugin('Unfold3D')
selFaces = cmds.ls(sl=1)
selFaces = cmds.ls(selFaces,fl=1)
selObj = selFaces[0].split('.')[0]
faceUnwarp(selFaces)
selUVs = cmds.polyListComponentConversion(selFaces,ff=1,tuv=1)
faceDic = getDic(selFaces)
vtxid_uvid = faceDic[0]
vtxid_edgeid = faceDic[1]
edgeid_vtxid = faceDic[2]
vtxid_faceid = faceDic[3]
faceid_numTriangles = faceDic[4]
edgeid_length = faceDic[5]
triangles = 0
for faceid in faceid_numTriangles:
if faceid_numTriangles[faceid] == 1:
triangles += 1
startVtxid = -1
for vtxid in vtxid_faceid:
if len(vtxid_faceid[vtxid]) == 1 and faceid_numTriangles[vtxid_faceid[vtxid][0]] == 1:
startVtxid = vtxid
if startVtxid == -1:
for vtxid in vtxid_faceid:
if len(vtxid_faceid[vtxid]) == 1:
startVtxid = vtxid
vtxCount = len(vtxid_uvid)
vtxLine0 = []
vtxLine1 = []
if triangles == 2 or triangles == 1:
maxCount = vtxCount/2
nextEdge0 = vtxid_edgeid[startVtxid][0]
nextEdge1 = vtxid_edgeid[startVtxid][1]
currentVtx0 = startVtxid
currentVtx1 = startVtxid
tempCount = 0
while tempCount < maxCount:
tempCount += 1
nextVtxes = edgeid_vtxid[nextEdge0]
for i in nextVtxes:
if i != currentVtx0:
currentVtx0 = i
break
vtxLine0.append(currentVtx0)
nextEdges = vtxid_edgeid[currentVtx0]
for i in nextEdges:
if i != nextEdge0:
nextEdge0 = i
break
tempCount = 0
while tempCount < maxCount:
tempCount += 1
nextVtxes = edgeid_vtxid[nextEdge1]
for i in nextVtxes:
if i != currentVtx1:
currentVtx1 = i
break
vtxLine1.append(currentVtx1)
nextEdges = vtxid_edgeid[currentVtx1]
for i in nextEdges:
if i != nextEdge1:
nextEdge1 = i
break
vtxLineIntersect = list(set(vtxLine0).intersection(set(vtxLine1)))
vtxLine0String = []
for i in vtxLine0:
if not i in vtxLineIntersect:
uvid = vtxid_uvid[i]
vtxLine0String.append( selObj + '.map[' + str(uvid) + ']')
vtxLine1String = []
for i in vtxLine1:
if not i in vtxLineIntersect:
uvid = vtxid_uvid[i]
vtxLine1String.append( selObj + '.map[' + str(uvid) + ']')
cmds.select(selFaces,r=1)
uvbb = cmds.polyEvaluate(selUVs,bc2=1)
if (uvbb[0][1]-uvbb[0][0]) > (uvbb[1][1]-uvbb[1][0]) :
cmds.polyEditUV(rot=1,angle=90)
uvbb0 = cmds.polyEvaluate(vtxLine0String,bc2=1)
uvbb1 = cmds.polyEvaluate(vtxLine1String,bc2=1)
if uvbb0[0][0]<uvbb1[0][0]:
cmds.polyEditUV(vtxLine0String, u=-1,r=0)
cmds.polyEditUV(vtxLine1String, u=-0.9,r=0)
else:
cmds.polyEditUV(vtxLine0String, u=-0.9,r=0)
cmds.polyEditUV(vtxLine1String, u=-1,r=0)
cmds.select(selUVs,r=1)
cmds.select(vtxLine0String,d=1)
cmds.select(vtxLine1String,d=1)
cmds.unfold(i=5000,ss=0.001,gb=0,gmb=0.5,pub=0,ps=0,oa=0,us=0)
cmds.unfold(selUVs,i=5000,ss=0,gb=0,gmb=0,pub=0,ps=0,oa=1,us=0)
else:
maxCount = vtxCount/2
nextEdge0 = vtxid_edgeid[startVtxid][0]
nextEdge1 = vtxid_edgeid[startVtxid][1]
currentVtx0 = startVtxid
currentVtx1 = startVtxid
tempCount = 0
while tempCount < maxCount:
tempCount += 1
nextVtxes = edgeid_vtxid[nextEdge0]
for i in nextVtxes:
if i != currentVtx0:
currentVtx0 = i
break
vtxLine0.append(currentVtx0)
nextEdges = vtxid_edgeid[currentVtx0]
for i in nextEdges:
if i != nextEdge0:
nextEdge0 = i
break
tempCount = 0
while tempCount < maxCount:
tempCount += 1
nextVtxes = edgeid_vtxid[nextEdge1]
for i in nextVtxes:
if i != currentVtx1:
currentVtx1 = i
break
vtxLine1.append(currentVtx1)
nextEdges = vtxid_edgeid[currentVtx1]
for i in nextEdges:
if i != nextEdge1:
nextEdge1 = i
break
vtxLineIntersect = list(set(vtxLine0).intersection(set(vtxLine1)))
vtxLine0String = []
for i in vtxLine0:
if not i in vtxLineIntersect:
uvid = vtxid_uvid[i]
vtxLine0String.append( selObj + '.map[' + str(uvid) + ']')
vtxLine1String = []
for i in vtxLine1:
if not i in vtxLineIntersect:
uvid = vtxid_uvid[i]
vtxLine1String.append( selObj + '.map[' + str(uvid) + ']')
uvbb = cmds.polyEvaluate(selUVs,bc2=1)
cmds.select(selFaces,r=1)
if (uvbb[0][1]-uvbb[0][0]) > (uvbb[1][1]-uvbb[1][0]) :
cmds.polyEditUV(rot=1,angle=90)
cmds.unfold(selUVs,i=5000,ss=0,gb=0,gmb=0,pub=0,ps=0,oa=1,us=0)
uvbb = cmds.polyEvaluate(selUVs,bc2=1)
scale = 1/(uvbb[1][1]-uvbb[1][0])
moveV = 0.5-(uvbb[1][1]+uvbb[1][0])/2
cmds.polyEditUV(selUVs,v=moveV)
cmds.polyEditUV(selUVs,s=1,su=scale,sv=scale,pu=-1,pv=0.5)
length_vtxes = cmds.polyListComponentConversion(vtxLine0String,fuv=1,tv=1)
length_edges = cmds.polyListComponentConversion(length_vtxes,fv=1,te=1,internal=1)
cmds.select(vtxLine0String,r=1)
edgeuvbb = cmds.polyEvaluate(vtxLine0String,bc2=1)
uvheight = edgeuvbb[1][1] - edgeuvbb[1][0]
edgesLength = 0
length_edges = cmds.ls(length_edges,fl=1)
for edgeid in length_edges:
edgesLength += edgeid_length[int(edgeid.split('[')[1][:-1])]
densityScale = edgesLength/uvheight
cmds.polyEditUV(selUVs,s=1,su=densityScale,sv=densityScale,pu=-1,pv=0.5)
cmds.select(selUVs,r=1)
def main():
cmds.loadPlugin("AbcExport.mll")
# get the top one
objs = pm.ls(sl=True)
if not objs:
return pm.inViewMessage(smg="select object first",
pos="midCenterTop",
bkc=0x00FF1010,
fade=True)
pm.select(clear=True)
for obj in objs:
parent_node = pm.listRelatives(obj,
children=True,
fullPath=True,
allParents=True)
if parent_node:
final = get_top(obj)[0]
else:
final = obj
# judge the selection is ref or not
ref_jud = pm.referenceQuery("%s" % final, isNodeReferenced=True)
if ref_jud:
file_path = pm.referenceQuery("%s" % final, filename=True)
print file_path
name_space = pm.referenceQuery("%s" % final, namespace=True)
print name_space
pm.mel.eval('file -importReference "%s"' % file_path)
# remove the namespace
pm.mel.eval('namespace -mv "%s" ":" -force' % name_space)
# trying to get the shape group(filter of the curve and rig)
pm.select(final, add=True)
#deal with the samename node after import the reference readonly
obj_list = cmds.ls(sl=True, long=True, dag=True)
obj_list.sort(key=len, reverse=True)
renamedict = {}
namelist = []
for obj in obj_list:
obj_name = obj.split("|")[-1]
print obj_name
if not namelist.count(obj_name):
namelist.append(obj_name)
renamedict[obj_name] = [obj]
else:
renamedict[obj_name].append(obj)
for name in namelist:
paths = renamedict[name]
paths.sort(key=len, reverse=True)
if len(paths) == 1:
continue
print name, paths
index = 1
for path in paths:
new_name = "%s_%s" % (name, index)
index += 1
cmds.rename(path, new_name)
# pm.select(clear=True)
# pm.select(final, add=True)
objs = pm.ls(sl=True, long=True)
geo_list = []
for obj in objs:
print obj
geo = None
children = pm.listRelatives(obj, children=True, fullPath=True)
for child in children:
print pm.objectType(child)
if "geo" in child.name() or "Geo" in child.name():
geo = child
geo_list.append(geo)
break
else:
geo = None
if not geo:
if len(children) == 1 and pm.objectType(children) == "mesh":
geo = obj
geo_list.append(geo)
continue
else:
for child in children:
if get_next(child):
geo = child
geo_list.append(geo)
pm.select(clear=True)
pm.select(geo_list, add=True)
print(666666666666666666666666666666666666666666666666666)
# use the current filepath as the clue to query the destination
current_path = pm.mel.eval("file -q -sn")
filename = os.path.basename(current_path)
abc_name = os.path.splitext(filename)[0] + ".abc"
rp_code = os.path.dirname(current_path).split("/")[-1]
dirname = os.path.join(
os.path.dirname(current_path)[:-len(rp_code)], "abc")
abc_name = os.path.normpath(os.path.join(dirname, abc_name))
sel_frameRange = str(pm.playbackOptions(q=True, minTime=True) -
10) + " " + str(
pm.playbackOptions(q=True, maxTime=True) + 10)
root_geo = ""
for obj in geo_list:
root_geo += "-root %s " % obj
print root_geo
pm.AbcExport(
j="-frameRange {frameRange} -uvWrite -worldSpace -writeVisibility -dataFormat hdf {file} -file {path}"
.format(frameRange=sel_frameRange, file=root_geo, path=abc_name))
def export_interior_mappings(fbx_source_folder="C:\\Users\\their\\Documents\\AndreJukebox_Irene\\fbx_refs",
json_out_dir="C:\\Users\\their\\dev\\andre_jukebox\\scripts\\maya_jukebox\\mtoa_convert"):
maya. standalone.initialize()
cmds.loadPlugin("fbxmaya")
cmds.loadPlugin("mtoa")
interior_mapping = {}
unmapped_shaders = {}
fbx_paths = []
for root, dirnames, filenames in os.walk(fbx_source_folder):
for filename in fnmatch.filter(filenames, "*.fbx"):
fbx_paths.append(os.path.join(root, filename))
for fbx_path in fbx_paths:
print(fbx_path)
building = os.path.splitext(os.path.basename(fbx_path))[0]
cmds.file(new=True, force=True)
cmds.file(fbx_path, o=True, ignoreVersion=True)
for interior_name_pattern in (constants.INTERIOR, constants.EXPOSITION):
for transform in cmds.ls(interior_name_pattern, transforms=True):
interior_name_key = interior_name_pattern
shader_engine = cmds.listConnections(cmds.listHistory(transform), type = 'shadingEngine')
shaders = cmds.ls(cmds.listConnections(shader_engine), materials=True, type="phong")
if shaders:
shader = shaders[0]
if interior_name_pattern == constants.INTERIOR:
transform_id = transform.lower()
if "hop_" in transform: # "*hop_interior_*" only has one shader
interior_name_key = constants.SHOP_INTERIOR
transform = ("_").join(transform.split("_")[0:-1])
version = 1
elif not shader.startswith(("am215", "AM215")):
if unmapped_shaders.has_key(building):
unmapped_shaders[building].update({transform: shader})
else:
unmapped_shaders[building] = {transform: shader}
continue
else:
transform = ("_").join(transform.split("_")[0:-1])
version_tail = re.split("_V", shader, flags=re.IGNORECASE)[-1]
version = int(version_tail.split("_")[0])
elif interior_name_pattern == constants.EXPOSITION:
if not shader.startswith(("am215", "AM215")):
if unmapped_shaders.has_key(building):
unmapped_shaders[building].update({transform: shader})
else:
unmapped_shaders[building] = {transform: shader}
continue
transform_id = cmds.polyEvaluate(transform, v=True) # vertex count
file_node = cmds.listConnections("{}".format(shader), type="file")
if not file_node:
continue
file_map = cmds.getAttr("{}.fileTextureName".format(file_node[0]))
version = int(os.path.splitext(file_map)[0].split("_V")[-1])
if interior_mapping.has_key(building) and transform_id not in interior_mapping[building].keys():
interior_mapping[building].update({transform_id: constants.interior_mapping[interior_name_key].format(version)})
elif not interior_mapping.has_key(building):
interior_mapping[building] = {transform_id: constants.interior_mapping[interior_name_key].format(version)}
outfile = os.path.join(json_out_dir, "interior_mappings.json")
with open(outfile, "w") as outfile:
json.dump(interior_mapping, outfile)
unmapped_outfile = os.path.join(json_out_dir, "unmapped_shaders.json")
with open(unmapped_outfile, "w") as unmapped_outfile:
json.dump(unmapped_shaders, unmapped_outfile)
print("_---------_")
print(interior_mapping)
maya.standalone.uninitialize()
hr.hairSystemAutomator( 'cejas' )
import hair.hair as hr
import general.mayaNode.mayaNode as mn
import maya.cmds as mc
reload( hr )
sel = mn.ls( sl = True )[0]
mc.select( sel.children )
asd = hr.hairSystemAutomator( sysName = sel.name.replace( '_lock_grp', '' ), scalp = 'CabezaBase_hrs' )
"""
full_path = os.path.realpath(__file__)
mc.loadPlugin(os.path.dirname(full_path) + '/curvesFromMesh.mll')
def hairSystemAutomator(sysName='', scalp=None):
"""creates a hair system based on selected lock meshes,
if you specify a scalp it will use that to place follicles"""
hair_polygons = mn.ls(sl=1)
all_grp = mn.Node(mc.group(n=sysName + '_hair_grp', em=True))
hairSystem = mn.createNode('hairSystem')
hairSystemPar = hairSystem.parent
hairSystemPar.name = sysName + '_hairSystem'
hairSystem = hairSystemPar.shape
hairSystemPar.parent = all_grp
pfxHair = mn.createNode('pfxHair')
pfxHairPar = pfxHair.parent
pfxHairPar.name = sysName + '_pfxHair'
mc.error("****CLEAN FOR RECOMPILING NODE*****")
print('BUILD TEST __________________________ PREPARE SCENE')
mc.file(pathBuildTest, i=True)
curve = 'curve'
curveShape = mc.listRelatives(curve, c=True, s=True)[0]
upCurve = 'upCurve'
upCurveShape = mc.listRelatives(upCurve, c=True, s=True)[0]
curveBase = 'curveBase'
curveBaseShape = mc.listRelatives(curveBase, c=True, s=True)[0]
upCurveBase = 'upCurveBase'
upCurveBaseShape = mc.listRelatives(upCurveBase, c=True, s=True)[0]
print('BUILD TEST __________________________ LOAD NODE')
mc.loadPlugin(pathNode)
print('BUILD TEST __________________________ CREATE NODE')
newNode = mc.createNode(nodeType)
print('BUILD TEST __________________________ CONNECT IN')
mc.connectAttr(curveShape + '.worldSpace[0]', newNode + '.curve')
mc.connectAttr(upCurveShape + '.worldSpace[0]', newNode + '.upCurve')
mc.connectAttr(curveBaseShape + '.worldSpace[0]', newNode + '.curveBase')
mc.connectAttr(upCurveBaseShape + '.worldSpace[0]', newNode + '.upCurveBase')
mc.connectAttr('locator1.worldMatrix[0]', newNode + '.matrices[0]')
mc.connectAttr('locator1.param', newNode + '.matricesParams[0]')
mc.connectAttr('locator2.worldMatrix[0]', newNode + '.matrices[1]')
mc.connectAttr('locator2.param', newNode + '.matricesParams[1]')
def setUpClass(cls):
cmds.loadPlugin('mayaUsdPlugin')
def setUpClass(cls):
mc.file(f=True, new=True)
mc.loadPlugin('AL_USDMayaPlugin')
Usage:
mayapy RunTests.py AbcExport AbcImport AbcStitcher [tests.py]
Where:
AbcExport is the location of the AbcExport Maya plugin to load.
AbcImport is the location of the AbcImport Maya plugin to load.
AbcStitcher is the location of the AbcStitcher command to use.
If no specific python tests are specified, all python files named *_test.py
in the same directory as this file are used.
"""
if len(sys.argv) < 4:
raise RuntimeError(usage)
MayaCmds.loadPlugin(sys.argv[1])
print 'LOADED', sys.argv[1]
MayaCmds.loadPlugin(sys.argv[2])
print 'LOADED', sys.argv[2]
if not os.path.exists(sys.argv[3]):
raise RuntimeError(sys.argv[3] + ' does not exist')
else:
os.environ['AbcStitcher'] = sys.argv[3]
suite = unittest.TestSuite()
main_dir = os.path.dirname(os.path.abspath(__file__))
os.chdir(main_dir)
MelEval('chdir "%s"' % main_dir)
import os
import subprocess
import sys
import tempfile
# Initialize
import maya.standalone
try:
maya.standalone.initialize(name='python')
except RuntimeError:
pass
import maya.cmds as cmds
cmds.loadPlugin("fbxmaya")
import maya.cmds as mc
def convert_skeleton():
group_name = mc.group(empty=True, name="PrimitiveSkeleton")
parents = [
j for j in mc.ls(type='joint')
if not mc.listRelatives(j, p=True, type='joint')
]
for joint in parents:
convert_joint(joint, group_name)
def copyReqFileToFolder(self):
plugFileName = 'Kang_SimpExpNode' # 修改這個
#判斷版本,一律假設64bit
mversion = str(
maya.mel.eval(
"float $mayaVersion = `getApplicationVersionAsFloat` ;"))
strMversion = mversion.split('.')[0]
#丟到有帶版本號的 script folder
usd = cmds.internalVar(usd=True)
usrFold = usd[:-8]
custPlugFold = usrFold + "plug-ins/"
cpyDestFolder = custPlugFold
plgFod = self.thisScrptPth + '/MXSController/mll/maya' + strMversion + '/'
plgDllFile = plgFod + plugFileName + '.mll'
cpyDestDllFile = cpyDestFolder + plugFileName + '.mll'
# 有可能會有版本衝突,先刪除
try:
os.remove(cpyDestDllFile)
except:
pass
opRes = None
if (os.path.isfile(cpyDestDllFile)):
try:
opRes = open(cpyDestDllFile, 'r')
except:
pass
if (not opRes): #檔存在的話就不用co了
try:
res = os.makedirs(cpyDestFolder) #強制建Folder
except:
pass
#Copy 所需的pyd files
#import shutil
shutil.copy2(plgDllFile, cpyDestDllFile)
else:
opRes.close()
#臨時加入當前 plugin Folder
sysplugFldPth = maya.mel.eval("$sr = `getenv MAYA_PLUG_IN_PATH`;")
if (not (cpyDestFolder in sysplugFldPth)):
maya.mel.eval("$str = `putenv MAYA_PLUG_IN_PATH \"" +
cpyDestFolder + "\"`;")
#load
try:
cmds.unloadPlugin(plugFileName)
except:
pass
if not cmds.pluginInfo((plugFileName + ".mll"), q=True, loaded=True):
cmds.loadPlugin(plugFileName)
#set autoloaded
cmds.pluginInfo((plugFileName + ".mll"), e=True, autoload=True)
#找尋maya.env檔,寫入
usd = cmds.internalVar(usd=True)
usrFold = usd[:-8]
mayaEnvFilePath = usrFold + "Maya.env"
if os.path.isfile(mayaEnvFilePath):
# read all
f = open(mayaEnvFilePath, 'r')
allLines = []
newAllLines = []
line = f.readline()
line = line.replace("\r", "")
line = line.replace("\n", "")
if (len(line)):
allLines.append(line)
while (line != ''):
line = f.readline()
if (len(line)):
line = line.replace("\r", "")
line = line.replace("\n", "")
allLines.append(line)
f.close()
if (len(allLines)):
for li in allLines: #li=allLines[0]
if ("MAYA_PLUG_IN_PATH" in li):
lnChk = li.replace(" ", "")
lnChk = li.replace("=", "")
ssrt = lnChk.split('MAYA_PLUG_IN_PATH')[1]
ssrt = ssrt.replace(" ", "")
if (not len(ssrt)):
li += cpyDestFolder
elif (not cpyDestFolder in li):
li += ';' + cpyDestFolder
li += "\r\n"
newAllLines.append(li)
else:
newAllLines.append("MAYA_PLUG_IN_PATH = " + cpyDestFolder)
#write all
f = open(mayaEnvFilePath, 'w')
f.writelines(newAllLines)
f.close()
else: #創一個新的
f = open(mayaEnvFilePath, 'w+')
f.write("MAYA_PLUG_IN_PATH=" + cpyDestFolder)
f.close()
def setUpClass(cls):
standalone.initialize('usd')
cmds.loadPlugin('pxrUsd')
cls.usdFile = os.path.abspath('CubeWithVariantsModel.usda')
cls.primPath = '/CubeWithVariantsModel'
def extract_anim(self):
cmds.loadPlugin("animImportExport", quiet=True)
package_path = self.create_package()
entry_file = self.file_name("anim")
entry_path = os.path.join(package_path, entry_file)
sele_file = self.file_name("mel")
sele_path = os.path.join(package_path, sele_file)
# Save animated nodes with order
with capsule.maintained_selection():
cmds.select(self.data["outAnim"], replace=True)
with contextlib.nested(
capsule.namespaced(self.data["animatedNamespace"], new=False),
capsule.relative_namespaced()
):
# Save with basename
with open(sele_path, "w") as fp:
fp.write("select -r\n" +
"\n".join(cmds.ls(sl=True)) +
";")
context_data = self.context.data
start = context_data.get("startFrame")
end = context_data.get("endFrame")
with contextlib.nested(
capsule.no_refresh(),
capsule.maintained_selection(),
capsule.undo_chunk(),
):
lib.bake(self.data["outAnim"],
frame_range=(start, end),
shape=False)
cmds.select(self.data["outAnim"], replace=True, noExpand=True)
cmds.file(entry_path,
force=True,
typ="animExport",
exportSelectedAnim=True,
options=("options=keys;"
"hierarchy=none;"
"precision=17;"
"intValue=17;"
"nodeNames=1;"
"verboseUnits=0;"
"whichRange=1;"
"helpPictures=0;"
"useChannelBox=0;"
"controlPoints=1;"
"shapes=1;"
"copyKeyCmd="
"-animation objects "
"-option keys "
"-hierarchy none "
"-controlPoints 1 "
"-shape 1")
)
self.add_data({"entryFileName": entry_file,
"animatedAssetId": self.data["animatedAssetId"]})
# Variables
# test_out = sys.argv[1]
rendercam = sys.argv[1]
template = sys.argv[2]
anim_file = sys.argv[3]
render_file = sys.argv[4]
min_time = sys.argv[5]
max_time = sys.argv[6]
# List the plugins that are currently loaded
plugins = cmds.pluginInfo(query=True, listPlugins=True)
# Load Redshift
if "redshift4maya" in plugins:
print "Redshift is already loaded."
else:
cmds.loadPlugin('redshift4maya')
print "Redshift is now loaded."
# full path to your Maya file to OPEN
maya_file_to_open = r"P:/sequence_rnd_02/sequences/001/clayblast/Rendering/work/maya/clayblast_Rendering_Template_v001.ma"
# full path to your Maya file to IMPORT
maya_file_to_import = r"P:/sequence_rnd_02/sequences/001/clayblast/Lay/work/maya/clayblast_Lay_v001.ma"
render_file = r"C:/mayapyTest/" + test_out + ".ma"
# Have a namespace if you want (recommended)
namespace = "anim"
cmds.file(maya_file_to_open, o=True)
# Import the file. the variable "nodes" will hold the names of all nodes imported, just in case.
def load_fbx(version_string):
cmds.loadPlugin(PLUGIN, quiet=True),
plugin_is_loaded = cmds.pluginInfo(PLUGIN, q=True,
v=True) == version_string
assert plugin_is_loaded
def exportNodesToVrayScene(nodeList,fpn,range=None):
'''
THE BIG CHEESE
this is th main method here's the inputs
nodeList list of nodes you would like to export
fpn the name of your output file example c:\temp\objects.vrscene
range optional tuple with the first and last frame if you need to export of a time range the default of none sets it to export only the current frame
'''
if not len(nodeList):
print 'ERROR: select some nodes homie'
return False
#this snippet is used to set the visiblity of objects back to on in the vrscene...
code = str('''
from vray.utils import *
nodes=findByType("Node")
for i in nodes:i.set("visible", 1)
''')
#make sure we set vray as the active render...
plugins = {'vrayformaya.mll':False,
'xgenVRay.py':False}
#if vray is not the current render then lets try to make it so...
if mel.eval('currentRenderer()') != 'vray':
#check if vray dlls are loaded and if they are not load them
for p in plugins:
if cmds.pluginInfo(p,q=True,l=True):
plugins[p] = True
continue
val = cmds.loadPlugin( p,quiet=True)
if not val:continue
plugins[p] = True
#if we fail to at least load vrayformaya.mll let's quit out :(
if not plugins['vrayformaya.mll']:
print 'method exportNodesToVrayScene could not load vray, sorry booboo'
return False
#now that vray is loaded let's set it as the current renderer
cmds.setAttr('defaultRenderGlobals.currentRenderer', 'vray', type='string' )
#now that vray has been set let's add a vray settings node if it doesn't exist
if not cmds.objExists('vraySettings'):mel.eval('vrayCreateVRaySettingsNode()')
#capture settings
attrs = ['vraySettings.globopt_geom_doHidden',
'vraySettings.postTranslatePython',
'vraySettings.vrscene_render_on',
'vraySettings.vrscene_on',
'vraySettings.vrscene_filename',
'vraySettings.animType',
'defaultRenderGlobals.startFrame',
'defaultRenderGlobals.endFrame',
'defaultRenderGlobals.byFrameStep']
backUp = attrListToDic(attrs)
#let's now apply all our export settings
cmds.setAttr('vraySettings.globopt_geom_doHidden',2)
cmds.setAttr('vraySettings.postTranslatePython',code,type='string')
cmds.setAttr("vraySettings.vrscene_render_on",False)
cmds.setAttr("vraySettings.vrscene_on", True)
cmds.setAttr('vraySettings.vrscene_filename',fpn,type='string')
cmds.setAttr("vraySettings.animType",0)
#if a range is provided (tuple first and last frame)
if range:
cmds.setAttr('vraySettings.animType',1)
cmds.setAttr('defaultRenderGlobals.startFrame',range[0])
cmds.setAttr('defaultRenderGlobals.endFrame',range[1])
cmds.setAttr('defaultRenderGlobals.byFrameStep',1.0)
#export
if os.path.isfile(fpn):os.remove(fpn)
ndLString = ' '.join(nodeList)
print '--->NodeString=',ndLString
cmds.vrend(bat=True,exportSpecific=ndLString)
#restore settings
setAttrsFromDic(backUp)
#check to see that our file was written out
if not os.path.isfile(fpn):
print 'looks like the export failed output path could not be verified'
return False
return True
def shotSplitter_process(*args):
start_time = time.time()
#get info
textFile = cmds.textField("shotSplitterTextFile", q=True, text=True)
audioFile = cmds.textField("shotSplitterAudioFile", q=True, text=True)
#fbxFile = cmds.textField("shotSplitterFBXFile", q = True, text = True)
output = cmds.textField("shotSplitterOutput", q=True, text=True)
mel.eval('trace "Getting Data from text file..." ;')
#get shot data from the text file
shotInfo = shotSplitter_getShotData(textFile)
#import in the audio file
#if audioFile != "":
#mel.eval('trace "Importing audio..." ;')
#cmds.file(audioFile, i = True, type = "audio")
##offset audio 300 frames
#firstShot = shotInfo[0]
#offsetValue = firstShot[1]
#audioFileName = audioFile.rpartition("/")[2].partition(".")[0]
#cmds.setAttr(audioFileName + ".offset", offsetValue)
#import in the fbx file and set it up
#mel.eval('trace "Setting up matinee FBX file..." ;')
cmds.unloadPlugin("fbxmaya.mll")
cmds.loadPlugin("fbxmaya.mll")
shotSplitter_setupFBXFile()
#snap the characters to their spots and orient everything correctly
#mel.eval('trace "Snapping Characters..." ;')
#shotSplitter_setupCharacters()
#save out individual shot files
mel.eval('trace "Saving out master file..." ;')
masterFile = shotSplitter_SaveMaster()
i = 0
sceneFrameEnd = shotSplitter_findSceneFrameRange()
for shot in shotInfo:
shotNum = shot[0]
mel.eval('trace "Creating shot %s" ;' % str(shotNum))
shotFrameStart = shot[1]
try:
shotFrameEnd = shotInfo[i + 1][1]
except IndexError:
print "Last shot. Using Scene Frame Range"
shotFrameEnd = sceneFrameEnd
shotCamera = shot[2]
shotName = shot[3]
#set frame range, set camera, save out shot
cmds.playbackOptions(min=shotFrameStart,
max=shotFrameEnd,
ast=shotFrameStart,
aet=shotFrameEnd)
if cmds.objExists(shotCamera):
cameraName = cmds.listRelatives(shotCamera, children=True)[0]
#debug print
print(cameraName)
#if shake is in the name
#select the non shake camera
if 'Shake' in cameraName:
print('changing name')
cameraName = cameraName.partition('_Shake')[0]
#debug print
print('changing the camera name to ' + cameraName)
newCamName = cmds.rename(cameraName, "SHOT_CAM")
#lock the camera
cmds.setAttr(newCamName + ".tx", lock=True)
cmds.setAttr(newCamName + ".ty", lock=True)
cmds.setAttr(newCamName + ".tz", lock=True)
cmds.setAttr(newCamName + ".rx", lock=True)
cmds.setAttr(newCamName + ".ry", lock=True)
cmds.setAttr(newCamName + ".rz", lock=True)
cmds.setAttr(newCamName + ".sx", lock=True)
cmds.setAttr(newCamName + ".sy", lock=True)
cmds.setAttr(newCamName + ".sz", lock=True)
#This will get replaced when the new text file info is in
f = open(textFile, "r")
lines = f.readlines()
f.close()
#find the cine name
cineFullName = lines[1]
cineName = cineFullName.partition(": ")[2]
cineName = cineName.rstrip("\r\n")
#chop off excess keys
cmds.select(all=True)
try:
cmds.cutKey(option="keys", time=(0, shotFrameStart - 30))
cmds.cutKey(option="keys", time=(shotFrameEnd + 30, 120000))
except:
pass
#save out the shot
if shotName.find("<Unknown>") == -1:
newFileName = (output + "/" + cineName + "_" + shotName + ".mb")
cmds.file(rename=newFileName)
shotFile = cmds.file(save=True, type='mayaBinary', force=True)
#rename the shot cam back
if cmds.objExists(shotCamera):
cmds.rename(newCamName, cameraName)
#iterate i
i = i + 1
#open up the master file
cmds.file(masterFile, open=True, force=True, prompt=False)
elapsed_time = time.time() - start_time
timeInMins = str((elapsed_time / 60))[0:4]
minutes = str(timeInMins).partition(".")[0]
seconds = str(timeInMins).rpartition(".")[2]
seconds = ("." + seconds)
seconds = float(seconds) * 60
seconds = str(seconds)[0:2]
finalTime = "Total Time: " + minutes + " minutes and " + seconds + " seconds"
result = cmds.confirmDialog(
title="Shot Splits Complete",
message="Yay! Your shots have been generated! Total time: " + minutes +
" minutes and " + seconds + " seconds",
button=["Close"],
cancelButton="Close",
dismissString="Close")
