def get_defaultrenderglobals(self, layer):
scene_info_common_dict = collections.OrderedDict()
default_globals = pm.PyNode("defaultRenderGlobals")
scene_info_common_dict['renderer'] = str(self.GetCurrentRenderer())
scene_info_common_dict['image_file_prefix'] = str(
self.GetMayaOutputPrefix(layer))
scene_info_common_dict['start'] = str(
int(cmds.getAttr("defaultRenderGlobals.startFrame")))
scene_info_common_dict['end'] = str(
int(cmds.getAttr("defaultRenderGlobals.endFrame")))
scene_info_common_dict['by_frame'] = str(
int(cmds.getAttr("defaultRenderGlobals.byFrame")))
scene_info_common_dict['all_camera'] = cmds.ls(type="camera")
scene_info_common_dict['render_camera'] = [
i.name() for i in pm.ls(type="camera") if i.renderable.get()
]
scene_info_common_dict["renumber_frames"] = str(
default_globals.modifyExtension.get())
scene_info_common_dict['width'] = str(
int(cmds.getAttr("defaultResolution.width")))
scene_info_common_dict['height'] = str(
int(cmds.getAttr("defaultResolution.height")))
scene_info_common_dict["image_format"] = str(self.GetOutputExt())
scene_info_common_dict["animation"] = str(
default_globals.animation.get())
scene_info_common_dict["file_name"] = str(
pm.renderSettings(fin=1, cam='', lyr=layer))
# self["renderSettings"]['all_layer'] = ",".join([i.name() for i in pm.PyNode("renderLayerManager.renderLayerId").outputs() if i.type() == "renderLayer"])
# self["renderSettings"]['render_layer'] = ",".join([i.name() for i in pm.PyNode("renderLayerManager.renderLayerId").outputs() if i.type() == "renderLayer" if i.renderable.get()])
self.getMel()
return scene_info_common_dict
def dpaf_outputsFix(self, layer):
"""fix image output path if renderer is vray
:param layer: maya renderLayer name
:return outputs_Fixed: correct image output path
"""
outputs_Fixed = ''
currentRenderer = pm.PyNode('defaultRenderGlobals').getAttr('currentRenderer')
# get current maya image format setting
tmp_OutFormatControl = pm.getAttr('defaultRenderGlobals.outFormatControl') if currentRenderer == 'vray' else ''
imgPrefix_vray = pm.getAttr('vraySettings.fileNamePrefix') if currentRenderer == 'vray' else ''
imgPrefix_maya = pm.getAttr('defaultRenderGlobals.imageFilePrefix') if currentRenderer == 'vray' else ''
imageFormatStr = ('.' + ('png' if not pm.getAttr('vraySettings.imageFormatStr') else pm.getAttr('vraySettings.imageFormatStr'))) if currentRenderer == 'vray' else ''
if currentRenderer == 'vray':
# change current setting for fixing vray output path
pm.setAttr('defaultRenderGlobals.outFormatControl', 1)
pm.setAttr('defaultRenderGlobals.imageFilePrefix', imgPrefix_vray if imgPrefix_vray else '', type= 'string') if imgPrefix_vray else None
# write output path
outputs_Fixed = pm.renderSettings(layer= layer, fullPath= 1, firstImageName= 1, lastImageName= 1)
outputs_Fixed[0] = os.path.normpath(outputs_Fixed[0]) + imageFormatStr
outputs_Fixed[1] = os.path.normpath(outputs_Fixed[1]) + imageFormatStr
outputs_Fixed = ','.join(outputs_Fixed)
if currentRenderer == 'vray':
# restore previous setting for good
pm.setAttr('defaultRenderGlobals.imageFilePrefix', imgPrefix_maya if imgPrefix_maya else '', type= 'string') if imgPrefix_vray else None
pm.setAttr('defaultRenderGlobals.outFormatControl', tmp_OutFormatControl)
return outputs_Fixed
def getGenericImageName(layer=None,
camera=None,
resolveAOVs=True,
framePadder='?'):
gins = []
path = None
# if currentRenderer() == 'redshift':
# path = pc.PyNode('redshiftOptions').imageFilePrefix.get()
if path is None:
if layer is None and camera is None:
fin = pc.renderSettings(fin=True, lut=True)
elif layer is None:
fin = pc.renderSettings(fin=True, lut=True, camera=camera)
elif camera is None:
fin = pc.renderSettings(fin=True, lut=True, layer=layer)
else:
fin = pc.renderSettings(fin=True,
lut=True,
layer=layer,
camera=camera)
path = fin[0]
if resolveAOVs:
if not camera:
cams = getCameras(True, False)
if cams:
camera = cams[0]
gins = resolveAOVsInPath(
path, layer if layer else pc.editRenderLayerGlobals(q=1, crl=1),
camera if camera else '', framePadder)
if not gins:
gins = [path]
if isAnimationOn():
gins = [removeLastNumber(gin, framePadder)[0] for gin in gins]
return gins
def getParm(self,flag,ropver):
my_window.resize(360,680)
if ropver == 'arnold':
fStat = self.openFile('arnold')
elif ropver == 'Redshift_ROP':
fStat = self.openFile('Redshift_ROP')
if fStat != "NEW_FILE":
splitArgs = fStat.split("?")
self.mw.lbl_r_rop.setText("ROP: " + splitArgs[1])
self.mw.lbl_r_loc.setText("Location: " + splitArgs[2])
self.mw.lbl_r_name.setText("Name: " + splitArgs[3])
self.mw.lbl_r_frange.setText("Frame Range: " + splitArgs[4])
if ropver == 'arnold':
self.mw.lbl_w_rop.setText("ROP: "+"arnold")
wRop = 'arnold'
else:
self.mw.lbl_w_rop.setText("ROP: "+ "redshift")
wRop = 'redshift'
fi = pm.renderSettings(fullPath=True, firstImageName=True, imageGenericName=True)
locA = os.path.dirname(fi[0])
wName = fi[1]
#%4n.%e
reName = re.sub("%.n","$F",wName)
reName = re.sub("%e","*",reName)
locB = os.path.join(locA + "/" +reName)
self.mw.lbl_w_loc.setText("Location: "+ locB)
self.mw.lbl_w_name.setText("Name: " + reName)
self.mw.bttn_lock.setEnabled(True)
global wVars
wVars = "Maya?" + wRop + "?" + locB + "?" + reName + "?" #Add missing frame range
else:
self.mw.lbl_fileType.setText("File Did not exist so it was created.")
self.resetAll()
def get_default_render_globals(self, layer):
scene_info_common_dict = collections.OrderedDict()
default_globals = pm.PyNode("defaultRenderGlobals")
scene_info_common_dict['renderer'] = str(self.GetCurrentRenderer())
scene_info_common_dict['image_file_prefix'] = str(self.GetMayaOutputPrefix(layer))
if self.is_absolute_path(scene_info_common_dict['image_file_prefix']):
self.writing_error(25002, "renderlayer: %s --- %s" % (layer, scene_info_common_dict['image_file_prefix']))
scene_info_common_dict['start'] = str(int(cmds.getAttr("defaultRenderGlobals.startFrame")))
scene_info_common_dict['end'] = str(int(cmds.getAttr("defaultRenderGlobals.endFrame")))
scene_info_common_dict['by_frame'] = str(int(cmds.getAttr("defaultRenderGlobals.byFrame")))
if layer == "defaultRenderLayer":
pass
else:
if pm.mel.eval('editRenderLayerAdjustment -remove "defaultRenderGlobals.endFrame";') or pm.mel.eval(
'editRenderLayerAdjustment -remove "defaultRenderGlobals.startFrame";') or pm.mel.eval(
'editRenderLayerAdjustment -remove "defaultRenderGlobals.byFrame";'):
self.writing_error(25015,
"render layer: %s \'s startFrame/endFrame/byFrame has Layer Override attribute ,advice Layered submitting" % (
layer))
scene_info_common_dict['all_camera'] = self.GetRenderableCameras(False)
scene_info_common_dict['render_camera'] = [i.name() for i in pm.ls(type="camera") if i.renderable.get()]
if not scene_info_common_dict['render_camera']:
self.writing_error(25011, "render layer: %s there is no camera " % (layer))
scene_info_common_dict["renumber_frames"] = str(default_globals.modifyExtension.get())
if default_globals.modifyExtension.get():
self.writing_error(25001)
scene_info_common_dict['width'] = str(int(cmds.getAttr("defaultResolution.width")))
scene_info_common_dict['height'] = str(int(cmds.getAttr("defaultResolution.height")))
scene_info_common_dict["image_format"] = str(self.GetOutputExt())
scene_info_common_dict["animation"] = str(default_globals.animation.get())
scene_info_common_dict["file_name"] = str(pm.renderSettings(fin=1, cam='', lyr=layer))
if len(str(int(default_globals.endFrame.get()))) > default_globals.extensionPadding.get():
self.writing_error(25010)
# self["renderSettings"]['all_layer'] = ",".join([i.name() for i in pm.PyNode("renderLayerManager.renderLayerId").outputs() if i.type() == "renderLayer"])
# self["renderSettings"]['render_layer'] = ",".join([i.name() for i in pm.PyNode("renderLayerManager.renderLayerId").outputs() if i.type() == "renderLayer" if i.renderable.get()])
# self.scene_info_dict[layer]["common"] = scene_info_common_dict
return scene_info_common_dict
def setupCamera(fov, punch, view, frames):
# set hdri image
pm.mel.eval('redshiftCreateDomeLight;')
pm.mel.eval('MASHnewNodeCallback( "rsDomeLightShape1");')
pm.mel.eval(
'setAttr -type "string" rsDomeLightShape1.tex0 "path/name.exr";')
pm.mel.eval('currentTime 1;')
pm.mel.eval('setAttr "rsDomeLight1.rotateY" 0;')
pm.mel.eval('setKeyframe { "rsDomeLight1.r" };')
pm.mel.eval('currentTime {0};'.format(frames))
pm.mel.eval('setAttr "rsDomeLight1.rotateY" 360;')
pm.mel.eval('setKeyframe { "rsDomeLight1.r" };')
# ui input
isTopView = view
# get bbox
geo = pm.ls(type='dagContainer')
geo = geo[0]
centerPivot(geo)
print "imported ", geo
# assignShaderToObj(geo)
# get bbox
bbox = geo.boundingBox()
# Create a camera and get the shape name.
cameraName = pm.camera()
cameraShape = cameraName[1]
print "camera{0} looking at{1}\n".format(cameraShape, geo)
# create locator and parent to geo
locator = pm.spaceLocator()
# set rotation
locator.rotateY.setKey(t=0, v=0)
locator.rotateY.setKey(t=frames, v=360)
# set usr fov , get vertical fov
cameraShape.setHorizontalFieldOfView(fov)
vfov = cameraShape.getVerticalFieldOfView()
print "vfov:", vfov
cameraShape.displayCameraFrustum.set(1)
# bbox width,height horizontal
# y = abs(bbox[0][2])
# x = abs(bbox[0][0])
y_v = abs(bbox[1][1]) # vertical height
x_v = abs(bbox[0][0]) # vertical width
z_v = abs(bbox[1][2]) # vertical depth
print "vertical size:", y_v, x_v, z_v
# math stuff
# calc horizontal radius
# h_r = calcDiag(y, x)
# calc dist
# h_dist = calcDist(h_r, fov)
v_r = calcDiag(y_v, x_v)
v_dist = calcDist(v_r, vfov)
print "vDiag:{0},vDist:{1}".format(v_r, v_dist)
# if top view enabled, rotate cam then dolly in viewing dir
if isTopView:
print "top", isTopView
rot_mat = cameraName[0].getRotation()
rot_mat[0] = -90
cameraName[0].setRotation(rot_mat)
## translate camera
# @note temporarily using dolly cuz its faster
cameraShape.dolly(v_dist)
# check if camera is inside bbox
camPos = cameraName[0].getTranslation()
print "campos:", camPos, z_v
# if camera is inside bbox even after dolly, reposition
if z_v >= camPos[2]:
print "cam inside bbox"
# calculate new distance based on bbox Z
newDiag = calcDiag(z_v, x_v)
newDist2 = calcDist(newDiag, vfov)
print "new", newDist2
cameraShape.dolly(v_dist * newDist2)
""""
after done calculating camera distance from obj bbox,
parent obj to locator for rotation
parenting duplicates the object in the outliner,creating
empty referenced group
"""
geo = pm.parent(geo, locator)
print "parented", geo, "to", locator
# set render cam
if cameraShape.getAttr('renderable') == False:
cameraShape.setAttr('renderable', True)
print "setting {0} as renderable".format(cameraShape)
pm.renderSettings(cam=cameraShape)
# create proxy
pm.select(clear=True)
proxy = pm.mel.eval("redshiftCreateProxy")
proxyNode = pm.ls(proxy)[0]
proxyNode.setAttr('fileName', str(geo))
# scale props
prop = pm.ls("props_GRP")
grd = pm.ls("groundPlane_GEO")
grd[0].setTranslation([0, -51, 0])
offsetZ = v_r
offsetY = v_r * 0.50
offsetX = v_r * 0.70
s = float(v_r)
su = float(s / 100) # to unit scale
prop[0].setScale([su, su, su])
prop[0].setTranslation([offsetX, offsetY, offsetZ])
pm.group(cameraShape,
locator,
proxy,
'redshiftProxyPlaceholder1',
n="deleteMe")
def process(self, context):
# Collect sets named starting with "remote".
remote_members = []
for object_set in pm.ls(type="objectSet"):
if object_set.name().lower().startswith("remote"):
remote_members.extend(object_set.members())
# Getting render layers data.
data = {}
render_cams = []
drg = pm.PyNode("defaultRenderGlobals")
for layer in pm.ls(type="renderLayer"):
# skipping defaultRenderLayers
if layer.name().endswith("defaultRenderLayer"):
continue
layer_data = {}
render_cams = []
if layer.adjustments.get(multiIndices=True):
for count in layer.adjustments.get(multiIndices=True):
if not layer.adjustments[count].plug.connections():
continue
if layer.adjustments[count].plug.connections()[0] == drg:
attr = layer.adjustments[count].plug
attr = attr.connections(plugs=True)[0]
layer_value = layer.adjustments[count].value.get()
layer_data[attr.name(includeNode=False)] = layer_value
plug = layer.adjustments[count].plug
for cam_attr in plug.connections(plugs=True,
type="camera"):
renderable = cam_attr.endswith("renderable")
layer_value = layer.adjustments[count].value.get()
if renderable and layer_value == 1.0:
name = cam_attr.split(".")[0]
render_cams.append(pm.PyNode(name))
render_pass = layer.connections(type="renderPass")
layer_data["renderpasses"] = render_pass
else:
render_pass = layer.connections(type="renderPass")
layer_data["renderpasses"] = render_pass
layer_data["cameras"] = render_cams
data[layer.name()] = layer_data
# Create instances
for layer in data:
node = pm.PyNode(layer)
# Checking instance type.
instance_type = "local"
if node in remote_members:
instance_type = "remote"
instance = context.create_instance(name=layer)
instance.data["families"] = ["renderlayer", instance_type, "img"]
instance.data["family"] = "img"
instance.data.update(data[layer])
instance.add(node)
publish_state = pm.PyNode(layer).renderable.get()
instance.data["publish"] = publish_state
label = "{0} - renderlayer - {1}".format(layer, instance_type)
instance.data["label"] = label
# Generate collection
first_image, last_image = pm.renderSettings(firstImageName=True,
lastImageName=True,
fullPath=True,
layer=layer)
# Special case for vray that has it own extention setting
renderer = drg.currentRenderer.get()
if "currentRenderer" in data[layer]:
renderer = data[layer]["currentRenderer"]
if renderer == "vray":
render_settings = pm.PyNode("vraySettings")
# Assuming ".png" if nothing is set.
# This happens when vray is initialized with the scene.
ext = ".png"
if render_settings.imageFormatStr.get():
ext = "."
ext += render_settings.imageFormatStr.get().split(" ")[0]
first_image = os.path.splitext(first_image)[0] + ext
# Adding renderer as family
instance.data["families"] += [renderer]
instance.data["renderer"] = renderer
# Adding collection
collections = clique.assemble([first_image], minimum_items=1)[0]
ext = os.path.splitext(first_image)[1]
collection = collections[0]
for col in collections:
if col.tail == ext:
collection = col
render_globals = pm.PyNode("defaultRenderGlobals")
start_frame = int(render_globals.startFrame.get())
end_frame = int(render_globals.endFrame.get())
step_frame = int(render_globals.byFrameStep.get())
if "endFrame" in data[layer]:
end_frame = int(data[layer]["endFrame"] * self.getFPS())
if "startFrame" in data[layer]:
start_frame = int(data[layer]["startFrame"] * self.getFPS())
fmt = collection.format("{head}{padding}{tail}")
for count in range(start_frame, end_frame + 1, step_frame):
f = fmt % count
collection.add(f)
instance.data["endFrame"] = end_frame
instance.data["startFrame"] = start_frame
instance.data["stepFrame"] = step_frame
instance.data["collection"] = collection
def process(self, context):
# getting output path
render_globals = pm.PyNode('defaultRenderGlobals')
projectPath = str(pm.system.Workspace.getPath().expand())
# getting render layers data
data = {}
for layer in pm.ls(type='renderLayer'):
# skipping non renderable layers
if not layer.renderable.get():
continue
# skipping defaultRenderLayers
if 'defaultRenderLayer' in layer.name():
continue
layer_data = {}
if layer.adjustments.get(multiIndices=True):
for count in layer.adjustments.get(multiIndices=True):
if layer.adjustments[count].plug.connections()[0] == render_globals:
attr = layer.adjustments[count].plug.connections(plugs=True)[0]
layer_data[attr.name(includeNode=False)] = layer.adjustments[count].value.get()
data[layer.name()] = layer_data
else:
data[layer.name()] = {}
# getting frames
start_frame = int(render_globals.startFrame.get())
end_frame = int(render_globals.endFrame.get())
by_frame = int(render_globals.byFrameStep.get())
frames = '{}-{}x{}'.format(start_frame, end_frame, by_frame)
padding = render_globals.extensionPadding.get()
padString = '#' * padding
for layer in data:
path = pm.renderSettings(fp=True, gin=padString, lyr=layer)[0]
#create instance
instance = context.create_instance(name=layer)
instance.data['startFrame'] = int(start_frame)
instance.data['endFrame'] = int(end_frame)
instance.data['byFrame'] = by_frame
instance.data['family'] = 'render'
instance.data['families'] = ['deadline', 'render']
instance.data['data'] = data[layer]
instance.data["publish"] = False
instance.data['projectPath'] = projectPath
# getting job data
job_data = {}
if context.has_data('deadlineData'):
job_data = context.data('deadlineData')['job'].copy()
# setting job data
safe_layer_name = layer.replace(':', '_')
outputFile = path.format(layer=safe_layer_name)
job_data['OutputFilename0'] = outputFile
job_data['Frames'] = frames
# setting plugin_data
plugin_data = {}
plugin_data['RenderLayer'] = layer
try:
plugin_data['Renderer'] = data[layer]['currentRenderer']
except:
plugin_data['Renderer'] = render_globals.currentRenderer.get()
# add deadline data
deadline_data = {'job': job_data, 'plugin': plugin_data}
instance.data['deadlineData'] = deadline_data
# adding ftrack data to activate processing
instance.data['ftrackComponents'] = {}
instance.data['ftrackAssetType'] = 'render'
def launch(self, *args, **kwargs):
"""launch renderer command
"""
# do nothing if there is no window (called externally)
if not self.window:
return
# warn the user about the ignore settings
try:
dAO = pm.PyNode('defaultArnoldRenderOptions')
ignore_attrs = [
'ignoreSubdivision', 'ignoreDisplacement', 'ignoreBump',
'ignoreMotionBlur'
]
attr_values = [dAO.getAttr(attr) for attr in ignore_attrs]
if any(attr_values):
msg_text = '<br>'.join(
map(lambda x, y: '%s: %s' % (x, y), ignore_attrs,
attr_values))
response = pm.confirmDialog(
title='Ignore These Settings?',
message=
'You have ignored:<br><br>%s<br><br><b>Is that ok?</b>' %
msg_text,
button=['Yes', 'No'],
defaultButton='No',
cancelButton='No',
dismissString='No')
if response == 'No':
return
except pm.MayaNodeError:
# no Arnold
pass
# check if rendering with persp camera
try:
wrong_camera_names = [
'perspShape',
'topShape',
'sideShape',
'fontShape',
'persp1Shape',
'perspShape1',
]
renderable_cameras = [
node for node in pm.ls(type='camera')
if node.getAttr('renderable')
]
if any(
map(lambda x: x.name() in wrong_camera_names,
renderable_cameras)):
response = pm.confirmDialog(
title='Rendering with Persp?',
message=
'You are rendering with <b>Persp Camera<b><br><br>Is that ok?</b>',
button=['Yes', 'No'],
defaultButton='No',
cancelButton='No',
dismissString='No')
if response == 'No':
return
if len(renderable_cameras) > 1:
response = pm.confirmDialog(
title='Rendering more than one Camera?',
message=
'You are rendering <b>more than one camera<b><br><br>Is that ok?</b>',
button=['Yes', 'No'],
defaultButton='No',
cancelButton='No',
dismissString='No')
if response == 'No':
return
except pm.MayaNodeError:
# no default render globals node
pass
# get values
start_frame = pm.intField('cgru_afanasy__start_frame', q=1, v=1)
end_frame = pm.intField('cgru_afanasy__end_frame', q=1, v=1)
frames_per_task = \
pm.intField('cgru_afanasy__frames_per_task', q=1, v=1)
by_frame = pm.intField('cgru_afanasy__by_frame', q=1, v=1)
hosts_mask = pm.textField('cgru_afanasy__hosts_mask', q=1, text=True)
hosts_exclude = pm.textField('cgru_afanasy__hosts_exclude',
q=1,
text=True)
separate_layers = \
pm.checkBox('cgru_afanasy__separate_layers', q=1, v=1)
pause = pm.checkBox('cgru_afanasy__paused', q=1, v=1)
# check values
if start_frame > end_frame:
temp = end_frame
end_frame = start_frame
start_frame = temp
frames_per_task = max(1, frames_per_task)
by_frame = max(1, by_frame)
# store field values
pm.optionVar['cgru_afanasy__start_frame_ov'] = start_frame
pm.optionVar['cgru_afanasy__end_frame_ov'] = end_frame
pm.optionVar['cgru_afanasy__frames_per_task_ov'] = frames_per_task
pm.optionVar['cgru_afanasy__by_frame_ov'] = by_frame
pm.optionVar['cgru_afanasy__hosts_mask_ov'] = hosts_mask
pm.optionVar['cgru_afanasy__hosts_exclude_ov'] = hosts_exclude
pm.optionVar['cgru_afanasy__separate_layers'] = separate_layers
# get paths
scene_name = pm.sceneName()
datetime = '%s%s' % (time.strftime('%y%m%d-%H%M%S-'),
str(time.time() - int(time.time()))[2:5])
filename = '%s.%s.mb' % (scene_name, datetime)
project_path = pm.workspace(q=1, rootDirectory=1)
outputs = ','.join(
pm.renderSettings(fullPath=1, firstImageName=1, lastImageName=1))
job_name = os.path.basename(scene_name)
logger.debug('%ss %se %sr' % (start_frame, end_frame, by_frame))
logger.debug('scene = %s' % scene_name)
logger.debug('file = %s' % filename)
logger.debug('job_name = %s' % job_name)
logger.debug('project_path = %s' % project_path)
logger.debug('outputs = %s' % outputs)
if pm.checkBox('cgru_afanasy__close', q=1, v=1):
pm.deleteUI(self.window)
cmd_buffer = [
'"%(filename)s"', '%(start)s', '%(end)s', '-by %(by_frame)s',
'-hostsmask %(msk)s', '-hostsexcl %(exc)s', '-fpt %(fpt)s',
'-name "%(name)s"', '-pwd "%(pwd)s"', '-proj "%(proj)s"',
'-images "%(images)s"', '-deletescene'
]
kwargs = {
'filename': filename,
'start': start_frame,
'end': end_frame,
'by_frame': by_frame,
'msk': hosts_mask,
'exc': hosts_exclude,
'fpt': frames_per_task,
'name': job_name,
'pwd': project_path,
'proj': project_path,
'images': outputs
}
drg = pm.PyNode('defaultRenderGlobals')
render_engine = drg.getAttr('currentRenderer')
if render_engine == 'mentalRay':
cmd_buffer.append('-type maya_mental')
elif render_engine == 'arnold':
cmd_buffer.append('-type maya_arnold')
# set the verbosity level to warnin+info
aro = pm.PyNode('defaultArnoldRenderOptions')
aro.setAttr('log_verbosity', 1)
if pause:
cmd_buffer.append('-pause')
# set output to console
dARO = pm.PyNode('defaultArnoldRenderOptions')
dARO.setAttr("log_to_console", 1)
# save file
pm.saveAs(filename, force=1, type='mayaBinary')
# rename back to original name
pm.renameFile(scene_name)
# disable set output to console
dARO.setAttr("log_to_console", 0)
cmds = []
# submit renders
if separate_layers:
# render each layer separately
rlm = pm.PyNode('renderLayerManager')
layers = [
layer for layer in rlm.connections() if layer.renderable.get()
]
for layer in layers:
layer_name = layer.name()
kwargs['name'] = '%s:%s' % (job_name, layer_name)
tmp_cmd_buffer = copy.copy(cmd_buffer)
tmp_cmd_buffer.append('-take %s' % layer.name())
# create one big command
afjob_cmd = ' '.join([
os.environ['CGRU_PYTHONEXE'],
'"%s/python/afjob.py"' % os.environ['AF_ROOT'],
'%s' % ' '.join(tmp_cmd_buffer) % kwargs
])
cmds.append(afjob_cmd)
else:
# create one big command
afjob_cmd = ' '.join([
os.environ['CGRU_PYTHONEXE'],
'%s/python/afjob.py' % os.environ['AF_ROOT'],
'%s' % ' '.join(cmd_buffer) % kwargs
])
cmds.append(afjob_cmd)
# call each command separately
for cmd in cmds:
print(cmds)
os.system(cmd)
def launch(self, *args, **kwargs):
"""launch renderer command
"""
# do nothing if there is no window (called externally)
if not self.window:
return
# get values
start_frame = pm.intField('cgru_afanasy__start_frame', q=1, v=1)
end_frame = pm.intField('cgru_afanasy__end_frame', q=1, v=1)
frames_per_task = \
pm.intField('cgru_afanasy__frames_per_task', q=1, v=1)
by_frame = pm.intField('cgru_afanasy__by_frame', q=1, v=1)
hosts_mask = pm.textField('cgru_afanasy__hosts_mask', q=1, text=True)
hosts_exclude = pm.textField('cgru_afanasy__hosts_exclude',
q=1,
text=True)
separate_layers = \
pm.checkBox('cgru_afanasy__separate_layers', q=1, v=1)
pause = pm.checkBox('cgru_afanasy__paused', q=1, v=1)
# check values
if start_frame > end_frame:
temp = end_frame
end_frame = start_frame
start_frame = temp
frames_per_task = max(1, frames_per_task)
by_frame = max(1, by_frame)
# store field values
pm.optionVar['cgru_afanasy__start_frame_ov'] = start_frame
pm.optionVar['cgru_afanasy__end_frame_ov'] = end_frame
pm.optionVar['cgru_afanasy__frames_per_task_ov'] = frames_per_task
pm.optionVar['cgru_afanasy__by_frame_ov'] = by_frame
pm.optionVar['cgru_afanasy__hosts_mask_ov'] = hosts_mask
pm.optionVar['cgru_afanasy__hosts_exclude_ov'] = hosts_exclude
pm.optionVar['cgru_afanasy__separate_layers'] = separate_layers
# get paths
scene_name = pm.sceneName()
datetime = '%s%s' % (time.strftime('%y%m%d-%H%M%S-'),
str(time.time() - int(time.time()))[2:5])
filename = '%s.%s.mb' % (scene_name, datetime)
project_path = pm.workspace(q=1, rootDirectory=1)
outputs = ','.join(
pm.renderSettings(fullPath=1, firstImageName=1, lastImageName=1))
job_name = os.path.basename(scene_name)
logger.debug('%ss %se %sr' % (start_frame, end_frame, by_frame))
logger.debug('scene = %s' % scene_name)
logger.debug('file = %s' % filename)
logger.debug('job_name = %s' % job_name)
logger.debug('project_path = %s' % project_path)
logger.debug('outputs = %s' % outputs)
if pm.checkBox('cgru_afanasy__close', q=1, v=1):
pm.deleteUI(self.window)
cmd_buffer = [
'"%(filename)s"', '%(start)s', '%(end)s', '-by %(by_frame)s',
'-hostsmask %(msk)s', '-hostsexcl %(exc)s', '-fpt %(fpt)s',
'-name "%(name)s"', '-proj "%(proj)s"', '-images "%(images)s"',
'-deletescene'
]
kwargs = {
'filename': filename,
'start': start_frame,
'end': end_frame,
'by_frame': by_frame,
'msk': hosts_mask,
'exc': hosts_exclude,
'fpt': frames_per_task,
'name': job_name,
'proj': project_path,
'images': outputs
}
drg = pm.PyNode('defaultRenderGlobals')
if drg.getAttr('currentRenderer') == 'mentalRay':
cmd_buffer.append('-type maya_mental')
if pause:
cmd_buffer.append('-pause')
# save file
pm.saveAs(filename, force=1, type='mayaBinary')
# rename back to original name
pm.renameFile(scene_name)
cmds = []
# submit renders
if separate_layers:
# render each layer separately
rlm = pm.PyNode('renderLayerManager')
layers = [
layer for layer in rlm.connections() if layer.renderable.get()
]
for layer in layers:
layer_name = layer.name()
kwargs['name'] = '%s:%s' % (job_name, layer_name)
tmp_cmd_buffer = copy.copy(cmd_buffer)
tmp_cmd_buffer.append('-take %s' % layer.name())
# create one big command
afjob_cmd = ' '.join([
os.environ['CGRU_PYTHONEXE'],
'"%s/python/afjob.py"' % os.environ['AF_ROOT'],
'%s' % ' '.join(tmp_cmd_buffer) % kwargs
])
cmds.append(afjob_cmd)
else:
# create one big command
afjob_cmd = ' '.join([
os.environ['CGRU_PYTHONEXE'],
'%s/python/afjob.py' % os.environ['AF_ROOT'],
'%s' % ' '.join(cmd_buffer) % kwargs
])
cmds.append(afjob_cmd)
# call each command separately
for cmd in cmds:
print(cmds)
os.system(cmd)
def launch(self, *args, **kwargs):
"""launch renderer command
"""
# do nothing if there is no window (called externally)
if not self.window:
return
# warn the user about the ignore settings
try:
dAO = pm.PyNode('defaultArnoldRenderOptions')
ignore_attrs = [
'ignoreSubdivision', 'ignoreDisplacement', 'ignoreBump',
'ignoreMotionBlur'
]
attr_values = [(attr, dAO.getAttr(attr)) for attr in ignore_attrs
if dAO.getAttr(attr) is True]
if any(attr_values):
msg_text = '<br>'.join(
map(lambda x: '%s: %s' % (x[0], x[1]), attr_values))
response = pm.confirmDialog(
title='Ignore These Settings?',
message=
'You have ignored:<br><br>%s<br><br><b>Is that ok?</b>' %
msg_text,
button=['Yes', 'No'],
defaultButton='No',
cancelButton='No',
dismissString='No')
if response == 'No':
return
except (pm.MayaNodeError, pm.MayaAttributeError):
# no Arnold
pass
# check if rendering with persp camera
try:
wrong_camera_names = [
'perspShape',
'topShape',
'sideShape',
'fontShape',
'persp1Shape',
'perspShape1',
]
renderable_cameras = [
node for node in pm.ls(type='camera')
if node.getAttr('renderable')
]
if any(
map(lambda x: x.name() in wrong_camera_names,
renderable_cameras)):
response = pm.confirmDialog(
title='Rendering with Persp?',
message=
'You are rendering with <b>Persp Camera<b><br><br>Is that ok?</b>',
button=['Yes', 'No'],
defaultButton='No',
cancelButton='No',
dismissString='No')
if response == 'No':
return
if len(renderable_cameras) > 1:
response = pm.confirmDialog(
title='Rendering more than one Camera?',
message=
'You are rendering <b>more than one camera<b><br><br>Is that ok?</b>',
button=['Yes', 'No'],
defaultButton='No',
cancelButton='No',
dismissString='No')
if response == 'No':
return
elif len(renderable_cameras) == 0:
pm.confirmDialog(
title='No <b>Renderable</b> camera!!!',
message='There is no <b>renderable camera<b>!!!',
button=['Ok'],
defaultButton='Ok',
cancelButton='Ok',
dismissString='Ok')
return
except pm.MayaNodeError:
# no default render globals node
pass
drg = pm.PyNode('defaultRenderGlobals')
render_engine = drg.getAttr('currentRenderer')
# RENDERER SPECIFIC CHECKS
if render_engine == 'redshift':
# if the renderer is RedShift
# check if unifiedDisableDivision is 1 which will take too much time
# to render
dro = pm.PyNode('redshiftOptions')
if dro.unifiedDisableDivision.get() == 1:
response = pm.confirmDialog(
title=
"Enabled **Don't Automatically Reduce Samples of Other Effects**",
message=
'It is not allowed to render with the following option is enabled:<br>'
'<br>'
"Don't Automatically Reduce Samples of Other Effects: Enabled<br>"
"<br>"
"Please DISABLE it!",
button=['OK'],
defaultButton='OK',
cancelButton='OK',
dismissString='OK')
return
# Check dome light backgrounds
domes_to_fix = []
rs_domes = pm.ls(type='RedshiftDomeLight')
if rs_domes:
for rs_dome in rs_domes:
if rs_dome.getAttr('background_enable') == 1 \
or rs_dome.getAttr('backPlateEnabled') == 1:
domes_to_fix.append(rs_dome.name())
if domes_to_fix:
message = 'Some DomeLights have <b>BackGround Render ' \
'Enabled</b>:' \
'<br><br>%s<br><br>' \
'Are you Sure?' % '<br>'.join(domes_to_fix)
response = pm.confirmDialog(
title='Dome Lights with Background Enabled?',
message=message,
button=['Yes', 'No'],
defaultButton='No',
cancelButton='No',
dismissString='No')
if response == 'No':
return
# abort on license fail
dro.abortOnLicenseFail.set(1)
elif render_engine == 'arnold':
# check if the samples are too high
dAO = pm.PyNode('defaultArnoldRenderOptions')
aa_samples = dAO.AASamples.get()
diff_samples = dAO.GIDiffuseSamples.get()
try:
glossy_samples = dAO.GIGlossySamples.get()
except AttributeError:
glossy_samples = dAO.GISpecularSamples.get()
if int(pm.about(v=1)) >= 2017:
sss_samples = dAO.GISssSamples.get()
else:
sss_samples = dAO.sssBssrdfSamples.get()
total_diff_samples = aa_samples**2 * diff_samples**2
total_glossy_samples = aa_samples**2 * glossy_samples**2
total_sss_samples = aa_samples**2 * sss_samples**2
max_allowed_diff_samples = 225
max_allowed_glossy_samples = 100
max_allowed_sss_samples = 800
if total_diff_samples > max_allowed_diff_samples:
pm.confirmDialog(
title="Too Much Diffuse Samples!!!",
message='You are using too much DIFFUSE SAMPLES (>%s)<br>'
'<br>'
'Please either reduce AA samples of Diffuse '
'Samples!!!' % max_allowed_diff_samples,
button=['OK'],
defaultButton='OK',
cancelButton='OK',
dismissString='OK')
return
if total_glossy_samples > max_allowed_glossy_samples:
pm.confirmDialog(
title="Too Much Glossy Samples!!!",
message='You are using too much GLOSSY SAMPLES (>%s)<br>'
'<br>'
'Please either reduce AA samples of Glossy '
'Samples!!!' % max_allowed_glossy_samples,
button=['OK'],
defaultButton='OK',
cancelButton='OK',
dismissString='OK')
return
if total_sss_samples > max_allowed_sss_samples:
pm.confirmDialog(
title="Too Much SSS Samples!!!",
message='You are using too much SSS SAMPLES (>%s)<br>'
'<br>'
'Please either reduce AA samples of SSS '
'Samples!!!' % max_allowed_sss_samples,
button=['OK'],
defaultButton='OK',
cancelButton='OK',
dismissString='OK')
return
# check Light Samples
# check point lights with zero radius but more than one samples
all_point_lights = pm.ls(type='pointLight')
ridiculous_point_lights = []
for point_light in all_point_lights:
if point_light.aiRadius.get(
) < 0.1 and point_light.aiSamples.get() > 1:
ridiculous_point_lights.append(point_light)
if ridiculous_point_lights:
pm.confirmDialog(
title="Unnecessary Samples on Point Lights!!!",
message='You are using too much SAMPLES (>1)<br>'
'<br>'
'on <b>Point lights with zero radius</b><br>'
'<br>'
'Please reduce the samples to 1',
button=['OK'],
defaultButton='OK',
cancelButton='OK',
dismissString='OK')
return
# Check area lights with more than 2 samples
all_area_lights = pm.ls(type=['areaLight', 'aiAreaLight'])
ridiculous_area_lights = []
for area_light in all_area_lights:
if area_light.aiSamples.get() > 2:
ridiculous_area_lights.append(area_light)
if ridiculous_area_lights:
pm.confirmDialog(
title="Unnecessary Samples on Area Lights!!!",
message='You are using too much SAMPLES (>2) on<br>'
'<br>'
'<b>Area Lights</b><br>'
'<br>'
'Please reduce the samples to 2',
button=['OK'],
defaultButton='OK',
cancelButton='OK',
dismissString='OK')
return
# Check directional lights with angle == 0 and samples > 1
all_directional_lights = pm.ls(type='directionalLight')
ridiculous_directional_lights = []
dir_sample_attr_name = 'aiSamples'
# if pm.about(v=1) == "2014":
# dir_sample_attr_name = 'aiSamples'
for directional_light in all_directional_lights:
if directional_light.aiAngle.get(
) == 0 and directional_light.attr(
dir_sample_attr_name).get() > 1:
ridiculous_directional_lights.append(directional_light)
if ridiculous_directional_lights:
pm.confirmDialog(
title="Unnecessary Samples on Directional Lights!!!",
message='You are using too much SAMPLES (>1) on <br>'
'<br>'
'<b>Directional lights with zero angle</b><br>'
'<br>'
'Please reduce the samples to 1',
button=['OK'],
defaultButton='OK',
cancelButton='OK',
dismissString='OK')
return
# get values
start_frame = pm.intField('cgru_afanasy__start_frame', q=1, v=1)
end_frame = pm.intField('cgru_afanasy__end_frame', q=1, v=1)
frames_per_task = \
pm.intField('cgru_afanasy__frames_per_task', q=1, v=1)
by_frame = pm.intField('cgru_afanasy__by_frame', q=1, v=1)
depend_mask_global = pm.textField('cgru_afanasy__depend_mask_global',
q=1,
text=True)
hosts_mask = pm.textField('cgru_afanasy__hosts_mask', q=1, text=True)
hosts_exclude = pm.textField('cgru_afanasy__hosts_exclude',
q=1,
text=True)
separate_layers = \
pm.radioButtonGrp('cgru_afanasy__separate_layers', q=1, sl=1)
pause = pm.checkBox('cgru_afanasy__paused', q=1, v=1)
life_time = pm.intField('cgru_afanasy__life_time', q=1, v=1)
annotation = pm.textField('cgru_afanasy__annotation', q=1, text=True)
submit_multiple_times = pm.intField(
'cgru_afanasy__submit_multiple_times', q=1, v=1)
errors_avoid_host = pm.intField('cgru_afanasy__errors_avoid_host',
q=1,
v=1)
errors_retries = pm.intField('cgru_afanasy__errors_retries', q=1, v=1)
errors_task_same_host = pm.intField(
'cgru_afanasy__errors_task_same_host', q=1, v=1)
errors_forgive_time = pm.intField('cgru_afanasy__errors_forgive_time',
q=1,
v=1)
generate_previews = pm.checkBox('cgru_afanasy__generate_previews',
q=1,
v=1)
# check values
if start_frame > end_frame:
temp = end_frame
end_frame = start_frame
start_frame = temp
frames_per_task = max(1, frames_per_task)
by_frame = max(1, by_frame)
# store without quota sign
depend_mask_global = depend_mask_global.replace('"', '')
hosts_mask = hosts_mask.replace('"', '')
hosts_exclude = hosts_exclude.replace('"', '')
# store field values
pm.optionVar['cgru_afanasy__start_frame_ov'] = start_frame
pm.optionVar['cgru_afanasy__end_frame_ov'] = end_frame
pm.optionVar['cgru_afanasy__frames_per_task_ov'] = frames_per_task
pm.optionVar['cgru_afanasy__by_frame_ov'] = by_frame
pm.optionVar['cgru_afanasy__depend_mask_global_ov'] = \
depend_mask_global
pm.optionVar['cgru_afanasy__hosts_mask_ov'] = hosts_mask
pm.optionVar['cgru_afanasy__hosts_exclude_ov'] = hosts_exclude
pm.optionVar['cgru_afanasy__separate_layers_ov'] = separate_layers
pm.optionVar['cgru_afanasy__life_time_ov'] = life_time
pm.optionVar['cgru_afanasy__annotation_ov'] = annotation
pm.optionVar[
'cgru_afanasy__submit_multiple_times_ov'] = submit_multiple_times
pm.optionVar['cgru_afanasy__errors_avoid_host_ov'] = errors_avoid_host
pm.optionVar['cgru_afanasy__errors_retries_ov'] = errors_retries
pm.optionVar[
'cgru_afanasy__errors_task_same_host_ov'] = errors_task_same_host
pm.optionVar[
'cgru_afanasy__errors_errors_forgive_time_ov'] = errors_forgive_time
pm.optionVar['cgru_afanasy__paused_ov'] = pause
pm.optionVar['cgru_afanasy__generate_previews_ov'] = generate_previews
# get paths
scene_name = pm.sceneName()
datetime = '%s%s' % (time.strftime('%y%m%d-%H%M%S-'),
str(time.time() - int(time.time()))[2:5])
filename = '%s.%s.mb' % (scene_name, datetime)
project_path = pm.workspace(q=1, rootDirectory=1)
# outputs = \
# pm.renderSettings(fullPath=1, firstImageName=1, lastImageName=1)
# get output paths, set the RenderPass token to Beauty,
# this will at least guarantee to get something
outputs = \
pm.renderSettings(
fullPath=1, firstImageName=1, lastImageName=1,
leaveUnmatchedTokens=1, customTokenString="RenderPass=Beauty"
)
# job_name = os.path.basename(scene_name)
job_name = self.generate_job_name()
logger.debug('%ss %se %sr' % (start_frame, end_frame, by_frame))
logger.debug('scene = %s' % scene_name)
logger.debug('file = %s' % filename)
logger.debug('job_name = %s' % job_name)
logger.debug('project_path = %s' % project_path)
logger.debug('outputs = %s' % outputs)
logger.debug('annotation = %s' % annotation)
logger.debug('separate_layers = %s' % separate_layers)
logger.debug('errors_avoid_host = %s' % errors_avoid_host)
logger.debug('errors_retries = %s' % errors_retries)
logger.debug('errors_task_same_host = %s' % errors_task_same_host)
logger.debug('errors_forgive_time = %s' % errors_forgive_time)
logger.debug('generate_previews = %s' % generate_previews)
if pm.checkBox('cgru_afanasy__close', q=1, v=1):
pm.deleteUI(self.window)
stored_log_level = None
if render_engine == 'arnold':
# set the verbosity level to warning+info
aro = pm.PyNode('defaultArnoldRenderOptions')
stored_log_level = aro.getAttr('log_verbosity')
aro.setAttr('log_verbosity', 2)
# set output to console
aro.setAttr("log_to_console", 1)
elif render_engine == 'redshift':
# set the verbosity level to detailed+info
redshift = pm.PyNode('redshiftOptions')
stored_log_level = redshift.logLevel.get()
redshift.logLevel.set(2)
# save file
pm.saveAs(filename, force=1, type='mayaBinary')
# rename back to original name
pm.renameFile(scene_name)
# create the render command
mrc = MayaRenderCommandBuilder(name=job_name,
file_full_path=filename,
render_engine=render_engine,
project=project_path,
by_frame=by_frame)
# submit renders
jobs = []
blocks = []
#
# separate_layers:
# 1 -> None -> submit one job with a single block with all layers
# 2 -> Block -> submit one job with multiple blocks
# 3 -> Job -> submit multiple jobs with a single block per layer
#
if separate_layers in [1, 2]:
job = af.Job(job_name)
jobs.append(job)
if separate_layers in [2, 3]:
# render each layer separately
rlm = pm.PyNode('renderLayerManager')
layers = [
layer for layer in rlm.connections(type=pm.nt.RenderLayer)
if layer.renderable.get()
]
for layer in layers:
mrc_layer = copy.copy(mrc)
layer_name = layer.name()
mrc_layer.name = layer_name
mrc_layer.render_layer = layer_name
# create a new block for this layer
block = af.Block(
layer_name,
renderer_to_block_type.get(render_engine, 'maya'))
# Fix the output path for this layer
# by replacing the "masterLayer" with the layer name
# without rs_ at the beginning
layer_outputs = outputs
if layer_name != 'defaultRenderLayer':
layer_outputs[0] = outputs[0].replace(
'masterLayer', layer_name.replace('rs_', ''))
layer_outputs[1] = outputs[1].replace(
'masterLayer', layer_name.replace('rs_', ''))
if generate_previews:
outputs_split = afcommon.patternFromDigits(
afcommon.patternFromStdC(
afcommon.patternFromPaths(
layer_outputs[0],
layer_outputs[1]))).split(';')
block.setFiles(outputs_split)
block.setNumeric(start_frame, end_frame, frames_per_task,
by_frame)
command = mrc_layer.build_command()
block.setErrorsAvoidHost(errors_avoid_host)
block.setErrorsRetries(errors_retries)
block.setErrorsTaskSameHost(errors_task_same_host)
block.setErrorsForgiveTime(errors_forgive_time)
block.setCommand(command)
if separate_layers == 2:
blocks.append(block)
else:
job = af.Job('%s - %s' % (job_name, layer_name))
# add blocks
job.blocks = [block]
jobs.append(job)
else:
# create only one block
block = af.Block('All Layers',
renderer_to_block_type.get(render_engine, 'maya'))
if generate_previews:
block.setFiles(
afcommon.patternFromDigits(
afcommon.patternFromStdC(
afcommon.patternFromPaths(outputs[0],
outputs[1]))).split(';'))
block.setNumeric(start_frame, end_frame, frames_per_task, by_frame)
command = mrc.build_command()
block.setCommand(command)
blocks.append(block)
for job in jobs:
job.setAnnotation(annotation)
job.setFolder('input', os.path.dirname(filename))
job.setFolder('output', os.path.dirname(outputs[0]))
job.setDependMaskGlobal(depend_mask_global)
job.setHostsMask(hosts_mask)
job.setHostsMaskExclude(hosts_exclude)
if life_time > 0:
job.setTimeLife(life_time * 3600)
else:
job.setTimeLife(240 * 3600)
job.setCmdPost('deletefiles -s "%s"' % os.path.abspath(filename))
if pause:
job.offline()
# add blocks
if separate_layers in [1, 2]:
job.blocks.extend(blocks)
for i in range(submit_multiple_times):
orig_job_name = job.data['name']
job.setName('%s - %03i' % (orig_job_name, i + 1))
status, data = job.send()
# restore job name
job.setName(orig_job_name)
if not status:
pm.PopupError('Something went wrong!')
# restore log level
if render_engine == 'arnold':
aro = pm.PyNode('defaultArnoldRenderOptions')
aro.setAttr('log_verbosity', stored_log_level)
# disable set output to console
aro.setAttr("log_to_console", 0)
elif render_engine == 'redshift':
redshift = pm.PyNode('redshiftOptions')
redshift.logLevel.set(stored_log_level)
# disable abort on license fail
redshift.abortOnLicenseFail.set(0)
def launch(self, *args, **kwargs):
"""launch renderer command
"""
# do nothing if there is no window (called externally)
if not self.window:
return
# warn the user about the ignore settings
try:
dAO = pm.PyNode('defaultArnoldRenderOptions')
ignore_attrs = [
'ignoreSubdivision',
'ignoreDisplacement',
'ignoreBump',
'ignoreMotionBlur'
]
attr_values = [
(attr, dAO.getAttr(attr))
for attr in ignore_attrs
if dAO.getAttr(attr) is True
]
if any(attr_values):
msg_text = '<br>'.join(
map(
lambda x: '%s: %s' % (x[0], x[1]),
attr_values
)
)
response = pm.confirmDialog(
title='Ignore These Settings?',
message='You have ignored:<br><br>%s<br><br><b>Is that ok?</b>' % msg_text,
button=['Yes', 'No'],
defaultButton='No',
cancelButton='No',
dismissString='No'
)
if response == 'No':
return
except pm.MayaNodeError:
# no Arnold
pass
# check if rendering with persp camera
try:
wrong_camera_names = [
'perspShape',
'topShape',
'sideShape',
'fontShape',
'persp1Shape',
'perspShape1',
]
renderable_cameras = [node for node in pm.ls(type='camera') if node.getAttr('renderable')]
if any(map(lambda x: x.name() in wrong_camera_names, renderable_cameras)):
response = pm.confirmDialog(
title='Rendering with Persp?',
message='You are rendering with <b>Persp Camera<b><br><br>Is that ok?</b>',
button=['Yes', 'No'],
defaultButton='No',
cancelButton='No',
dismissString='No'
)
if response == 'No':
return
if len(renderable_cameras) > 1:
response = pm.confirmDialog(
title='Rendering more than one Camera?',
message='You are rendering <b>more than one camera<b><br><br>Is that ok?</b>',
button=['Yes', 'No'],
defaultButton='No',
cancelButton='No',
dismissString='No'
)
if response == 'No':
return
elif len(renderable_cameras) == 0:
pm.confirmDialog(
title='No <b>Renderable</b> camera!!!',
message='There is no <b>renderable camera<b>!!!',
button=['Ok'],
defaultButton='Ok',
cancelButton='Ok',
dismissString='Ok'
)
return
except pm.MayaNodeError:
# no default render globals node
pass
drg = pm.PyNode('defaultRenderGlobals')
render_engine = drg.getAttr('currentRenderer')
# RENDERER SPECIFIC CHECKS
if render_engine == 'redshift':
# if the renderer is RedShift
# check if unifiedDisableDivision is 1 which will take too much time
# to render
dro = pm.PyNode('redshiftOptions')
if dro.unifiedDisableDivision.get() == 1:
response = pm.confirmDialog(
title="Enabled **Don't Automatically Reduce Samples of Other Effects**",
message='It is not allowed to render with the following option is enabled:<br>'
'<br>'
"Don't Automatically Reduce Samples of Other Effects: Enabled<br>"
"<br>"
"Please DISABLE it!",
button=['OK'],
defaultButton='OK',
cancelButton='OK',
dismissString='OK'
)
return
elif render_engine == 'arnold':
# check if the samples are too high
dAO = pm.PyNode('defaultArnoldRenderOptions')
aa_samples = dAO.AASamples.get()
diff_samples = dAO.GIDiffuseSamples.get()
glossy_samples = dAO.GIGlossySamples.get()
if int(pm.about(v=1)) >= 2017:
sss_samples = dAO.GISssSamples.get()
else:
sss_samples = dAO.sssBssrdfSamples.get()
total_diff_samples = aa_samples**2 * diff_samples**2
total_glossy_samples = aa_samples**2 * glossy_samples**2
total_sss_samples = aa_samples**2 * sss_samples**2
max_allowed_diff_samples = 225
max_allowed_glossy_samples = 100
max_allowed_sss_samples = 450
if total_diff_samples > max_allowed_diff_samples:
pm.confirmDialog(
title="Too Much Diffuse Samples!!!",
message='You are using too much DIFFUSE SAMPLES (>%s)<br>'
'<br>'
'Please either reduce AA samples of Diffuse '
'Samples!!!' % max_allowed_diff_samples,
button=['OK'],
defaultButton='OK',
cancelButton='OK',
dismissString='OK'
)
return
if total_glossy_samples > max_allowed_glossy_samples:
pm.confirmDialog(
title="Too Much Glossy Samples!!!",
message='You are using too much GLOSSY SAMPLES (>%s)<br>'
'<br>'
'Please either reduce AA samples of Glossy '
'Samples!!!' % max_allowed_glossy_samples,
button=['OK'],
defaultButton='OK',
cancelButton='OK',
dismissString='OK'
)
return
if total_sss_samples > max_allowed_sss_samples:
pm.confirmDialog(
title="Too Much SSS Samples!!!",
message='You are using too much SSS SAMPLES (>%s)<br>'
'<br>'
'Please either reduce AA samples of SSS '
'Samples!!!' % max_allowed_sss_samples,
button=['OK'],
defaultButton='OK',
cancelButton='OK',
dismissString='OK'
)
return
# check Light Samples
# check point lights with zero radius but more than one samples
all_point_lights = pm.ls(type='pointLight')
ridiculous_point_lights = []
for point_light in all_point_lights:
if point_light.aiRadius.get() < 0.1 and point_light.aiSamples.get() > 1:
ridiculous_point_lights.append(point_light)
if ridiculous_point_lights:
pm.confirmDialog(
title="Unnecessary Samples on Point Lights!!!",
message='You are using too much SAMPLES (>1)<br>'
'<br>'
'on <b>Point lights with zero radius</b><br>'
'<br>'
'Please reduce the samples to 1',
button=['OK'],
defaultButton='OK',
cancelButton='OK',
dismissString='OK'
)
return
# Check area lights with more than 2 samples
all_area_lights = pm.ls(type=['areaLight', 'aiAreaLight'])
ridiculous_area_lights = []
for area_light in all_area_lights:
if area_light.aiSamples.get() > 2:
ridiculous_area_lights.append(area_light)
if ridiculous_area_lights:
pm.confirmDialog(
title="Unnecessary Samples on Area Lights!!!",
message='You are using too much SAMPLES (>2) on<br>'
'<br>'
'<b>Area Lights</b><br>'
'<br>'
'Please reduce the samples to 2',
button=['OK'],
defaultButton='OK',
cancelButton='OK',
dismissString='OK'
)
return
# Check directional lights with angle == 0 and samples > 1
all_directional_lights = pm.ls(type='directionalLight')
ridiculous_directional_lights = []
for directional_light in all_directional_lights:
if directional_light.aiAngle.get() == 0 and directional_light.aiSample.get() > 1:
ridiculous_directional_lights.append(directional_light)
if ridiculous_directional_lights:
pm.confirmDialog(
title="Unnecessary Samples on Directional Lights!!!",
message='You are using too much SAMPLES (>1) on <br>'
'<br>'
'<b>Directional lights with zero angle</b><br>'
'<br>'
'Please reduce the samples to 1',
button=['OK'],
defaultButton='OK',
cancelButton='OK',
dismissString='OK'
)
return
# get values
start_frame = pm.intField('cgru_afanasy__start_frame', q=1, v=1)
end_frame = pm.intField('cgru_afanasy__end_frame', q=1, v=1)
frames_per_task = \
pm.intField('cgru_afanasy__frames_per_task', q=1, v=1)
by_frame = pm.intField('cgru_afanasy__by_frame', q=1, v=1)
hosts_mask = pm.textField('cgru_afanasy__hosts_mask', q=1, text=True)
hosts_exclude = pm.textField('cgru_afanasy__hosts_exclude', q=1, text=True)
separate_layers = \
pm.checkBox('cgru_afanasy__separate_layers', q=1, v=1)
pause = pm.checkBox('cgru_afanasy__paused', q=1, v=1)
life_time = pm.intField('cgru_afanasy__life_time', q=1, v=1)
# check values
if start_frame > end_frame:
temp = end_frame
end_frame = start_frame
start_frame = temp
frames_per_task = max(1, frames_per_task)
by_frame = max(1, by_frame)
# store without quota sign
hosts_mask = hosts_mask.replace('"', '')
hosts_exclude = hosts_exclude.replace('"', '')
# store field values
pm.optionVar['cgru_afanasy__start_frame_ov'] = start_frame
pm.optionVar['cgru_afanasy__end_frame_ov'] = end_frame
pm.optionVar['cgru_afanasy__frames_per_task_ov'] = frames_per_task
pm.optionVar['cgru_afanasy__by_frame_ov'] = by_frame
pm.optionVar['cgru_afanasy__hosts_mask_ov'] = hosts_mask
pm.optionVar['cgru_afanasy__hosts_exclude_ov'] = hosts_exclude
pm.optionVar['cgru_afanasy__separate_layers_ov'] = separate_layers
pm.optionVar['cgru_afanasy__life_time_ov'] = life_time
# get paths
scene_name = pm.sceneName()
datetime = '%s%s' % (
time.strftime('%y%m%d-%H%M%S-'),
str(time.time() - int(time.time()))[2:5]
)
filename = '%s.%s.mb' % (scene_name, datetime)
project_path = pm.workspace(q=1, rootDirectory=1)
outputs = \
pm.renderSettings(fullPath=1, firstImageName=1, lastImageName=1)
# job_name = os.path.basename(scene_name)
job_name = self.generate_job_name()
logger.debug('%ss %se %sr' % (start_frame, end_frame, by_frame))
logger.debug('scene = %s' % scene_name)
logger.debug('file = %s' % filename)
logger.debug('job_name = %s' % job_name)
logger.debug('project_path = %s' % project_path)
logger.debug('outputs = %s' % outputs)
if pm.checkBox('cgru_afanasy__close', q=1, v=1):
pm.deleteUI(self.window)
job = af.Job(job_name)
stored_log_level = None
if render_engine == 'arnold':
# set the verbosity level to warning+info
aro = pm.PyNode('defaultArnoldRenderOptions')
stored_log_level = aro.getAttr('log_verbosity')
aro.setAttr('log_verbosity', 1)
# set output to console
aro.setAttr("log_to_console", 1)
elif render_engine == 'redshift':
# set the verbosity level to detailed+info
redshift = pm.PyNode('redshiftOptions')
stored_log_level = redshift.logLevel.get()
redshift.logLevel.set(2)
# save file
pm.saveAs(
filename,
force=1,
type='mayaBinary'
)
# rename back to original name
pm.renameFile(scene_name)
# create the render command
mrc = MayaRenderCommandBuilder(
name=job_name, file_full_path=filename,
render_engine=render_engine, project=project_path,
by_frame=by_frame
)
# submit renders
blocks = []
if separate_layers:
# render each layer separately
rlm = pm.PyNode('renderLayerManager')
layers = [layer for layer in rlm.connections()
if layer.renderable.get()]
for layer in layers:
mrc_layer = copy.copy(mrc)
layer_name = layer.name()
mrc_layer.name = layer_name
mrc_layer.render_layer = layer_name
# create a new block for this layer
block = af.Block(
layer_name,
renderer_to_block_type.get(render_engine, 'maya')
)
block.setFiles(
afcommon.patternFromDigits(
afcommon.patternFromStdC(
afcommon.patternFromPaths(outputs[0], outputs[1])
)
).split(';')
)
block.setNumeric(
start_frame, end_frame, frames_per_task, by_frame
)
block.setCommand(mrc_layer.build_command())
blocks.append(block)
else:
# create only one block
block = af.Block(
'All Layers',
renderer_to_block_type.get(render_engine, 'maya')
)
block.setFiles(
afcommon.patternFromDigits(
afcommon.patternFromStdC(
afcommon.patternFromPaths(outputs[0], outputs[1])
)
).split(';')
)
block.setNumeric(
start_frame, end_frame, frames_per_task, by_frame
)
block.setCommand(mrc.build_command())
blocks.append(block)
job.setFolder('input', os.path.dirname(filename))
job.setFolder('output', os.path.dirname(outputs[0]))
job.setHostsMask(hosts_mask)
job.setHostsMaskExclude(hosts_exclude)
if life_time > 0:
job.setTimeLife(life_time * 3600)
job.setCmdPost('deletefiles "%s"' % os.path.abspath(filename))
if pause:
job.offline()
# add blocks
job.blocks.extend(blocks)
status, data = job.send()
if not status:
pm.PopupError('Something went wrong!')
print('data: %s' % data)
# restore log level
if render_engine == 'arnold':
aro = pm.PyNode('defaultArnoldRenderOptions')
aro.setAttr('log_verbosity', stored_log_level)
# disable set output to console
aro.setAttr("log_to_console", 0)
elif render_engine == 'redshift':
redshift = pm.PyNode('redshiftOptions')
redshift.logLevel.set(stored_log_level)
def launch(self, *args, **kwargs):
"""launch renderer command
"""
# do nothing if there is no window (called externally)
if not self.window:
return
# warn the user about the ignore settings
try:
dAO = pm.PyNode('defaultArnoldRenderOptions')
ignore_attrs = [
'ignoreSubdivision',
'ignoreDisplacement',
'ignoreBump',
'ignoreMotionBlur'
]
attr_values = [
(attr, dAO.getAttr(attr))
for attr in ignore_attrs
if dAO.getAttr(attr) is True
]
if any(attr_values):
msg_text = '<br>'.join(
map(
lambda x: '%s: %s' % (x[0], x[1]),
attr_values
)
)
response = pm.confirmDialog(
title='Ignore These Settings?',
message='You have ignored:<br><br>%s<br><br><b>Is that ok?</b>' % msg_text,
button=['Yes', 'No'],
defaultButton='No',
cancelButton='No',
dismissString='No'
)
if response == 'No':
return
except pm.MayaNodeError:
# no Arnold
pass
# check if rendering with persp camera
try:
wrong_camera_names = [
'perspShape',
'topShape',
'sideShape',
'fontShape',
'persp1Shape',
'perspShape1',
]
renderable_cameras = [node for node in pm.ls(type='camera') if node.getAttr('renderable')]
if any(map(lambda x: x.name() in wrong_camera_names, renderable_cameras)):
response = pm.confirmDialog(
title='Rendering with Persp?',
message='You are rendering with <b>Persp Camera<b><br><br>Is that ok?</b>',
button=['Yes', 'No'],
defaultButton='No',
cancelButton='No',
dismissString='No'
)
if response == 'No':
return
if len(renderable_cameras) > 1:
response = pm.confirmDialog(
title='Rendering more than one Camera?',
message='You are rendering <b>more than one camera<b><br><br>Is that ok?</b>',
button=['Yes', 'No'],
defaultButton='No',
cancelButton='No',
dismissString='No'
)
if response == 'No':
return
elif len(renderable_cameras) == 0:
pm.confirmDialog(
title='No <b>Renderable</b> camera!!!',
message='There is no <b>renderable camera<b>!!!',
button=['Ok'],
defaultButton='Ok',
cancelButton='Ok',
dismissString='Ok'
)
return
except pm.MayaNodeError:
# no default render globals node
pass
# get values
start_frame = pm.intField('cgru_afanasy__start_frame', q=1, v=1)
end_frame = pm.intField('cgru_afanasy__end_frame', q=1, v=1)
frames_per_task = \
pm.intField('cgru_afanasy__frames_per_task', q=1, v=1)
by_frame = pm.intField('cgru_afanasy__by_frame', q=1, v=1)
hosts_mask = pm.textField('cgru_afanasy__hosts_mask', q=1, text=True)
hosts_exclude = pm.textField('cgru_afanasy__hosts_exclude', q=1, text=True)
separate_layers = \
pm.checkBox('cgru_afanasy__separate_layers', q=1, v=1)
pause = pm.checkBox('cgru_afanasy__paused', q=1, v=1)
life_time = pm.intField('cgru_afanasy__life_time', q=1, v=1)
# check values
if start_frame > end_frame:
temp = end_frame
end_frame = start_frame
start_frame = temp
frames_per_task = max(1, frames_per_task)
by_frame = max(1, by_frame)
# store without quota sign
hosts_mask = hosts_mask.replace('"', '')
hosts_exclude = hosts_exclude.replace('"', '')
# store field values
pm.optionVar['cgru_afanasy__start_frame_ov'] = start_frame
pm.optionVar['cgru_afanasy__end_frame_ov'] = end_frame
pm.optionVar['cgru_afanasy__frames_per_task_ov'] = frames_per_task
pm.optionVar['cgru_afanasy__by_frame_ov'] = by_frame
pm.optionVar['cgru_afanasy__hosts_mask_ov'] = hosts_mask
pm.optionVar['cgru_afanasy__hosts_exclude_ov'] = hosts_exclude
pm.optionVar['cgru_afanasy__separate_layers_ov'] = separate_layers
pm.optionVar['cgru_afanasy__life_time_ov'] = life_time
# get paths
scene_name = pm.sceneName()
datetime = '%s%s' % (
time.strftime('%y%m%d-%H%M%S-'),
str(time.time() - int(time.time()))[2:5]
)
filename = '%s.%s.mb' % (scene_name, datetime)
project_path = pm.workspace(q=1, rootDirectory=1)
# get output paths, set the RenderPass token to Beauty,
# this will at least guarantee to get something
outputs = \
pm.renderSettings(
fullPath=1, firstImageName=1, lastImageName=1,
leaveUnmatchedTokens=1, customTokenString="RenderPass=Beauty"
)
job_name = os.path.basename(scene_name)
logger.debug('%ss %se %sr' % (start_frame, end_frame, by_frame))
logger.debug('scene = %s' % scene_name)
logger.debug('file = %s' % filename)
logger.debug('job_name = %s' % job_name)
logger.debug('project_path = %s' % project_path)
logger.debug('outputs = %s' % outputs)
if pm.checkBox('cgru_afanasy__close', q=1, v=1):
pm.deleteUI(self.window)
drg = pm.PyNode('defaultRenderGlobals')
render_engine = drg.getAttr('currentRenderer')
job = af.Job(job_name)
stored_log_level = None
if render_engine == 'arnold':
# set the verbosity level to warning+info
aro = pm.PyNode('defaultArnoldRenderOptions')
stored_log_level = aro.getAttr('log_verbosity')
aro.setAttr('log_verbosity', 1)
# set output to console
aro.setAttr("log_to_console", 1)
elif render_engine == 'redshift':
# set the verbosity level to detailed+info
redshift = pm.PyNode('redshiftOptions')
stored_log_level = redshift.logLevel.get()
redshift.logLevel.set(2)
# save file
pm.saveAs(
filename,
force=1,
type='mayaBinary'
)
# rename back to original name
pm.renameFile(scene_name)
# create the render command
mrc = MayaRenderCommandBuilder(
name=job_name, file_full_path=filename,
render_engine=render_engine, project=project_path,
by_frame=by_frame
)
# submit renders
blocks = []
if separate_layers:
# render each layer separately
rlm = pm.PyNode('renderLayerManager')
layers = [layer for layer in rlm.connections()
if layer.renderable.get()]
for layer in layers:
mrc_layer = copy.copy(mrc)
layer_name = layer.name()
mrc_layer.name = layer_name
mrc_layer.render_layer = layer_name
# create a new block for this layer
block = af.Block(
layer_name,
renderer_to_block_type.get(render_engine, 'maya')
)
block.setFiles(
afcommon.patternFromDigits(
afcommon.patternFromStdC(
afcommon.patternFromPaths(outputs[0], outputs[1])
)
).split(';')
)
block.setNumeric(
start_frame, end_frame, frames_per_task, by_frame
)
block.setCommand(mrc_layer.build_command())
blocks.append(block)
else:
# create only one block
block = af.Block(
'All Layers',
renderer_to_block_type.get(render_engine, 'maya')
)
block.setFiles(
afcommon.patternFromDigits(
afcommon.patternFromStdC(
afcommon.patternFromPaths(outputs[0], outputs[1])
)
).split(';')
)
block.setNumeric(
start_frame, end_frame, frames_per_task, by_frame
)
block.setCommand(mrc.build_command())
blocks.append(block)
job.setFolder('input', os.path.dirname(filename))
job.setFolder('output', os.path.dirname(outputs[0]))
job.setHostsMask(hosts_mask)
job.setHostsMaskExclude(hosts_exclude)
if life_time > 0:
job.setTimeLife(life_time * 3600)
job.setCmdPost('deletefiles "%s"' % os.path.abspath(filename))
if pause:
job.offline()
# add blocks
job.blocks.extend(blocks)
status, data = job.send()
if not status:
pm.PopupError('Something went wrong!')
print('data: %s' % data)
# restore log level
if render_engine == 'arnold':
aro = pm.PyNode('defaultArnoldRenderOptions')
aro.setAttr('log_verbosity', stored_log_level)
# disable set output to console
aro.setAttr("log_to_console", 0)
elif render_engine == 'redshift':
redshift = pm.PyNode('redshiftOptions')
redshift.logLevel.set(stored_log_level)
def render_sequence(start_frame, end_frame, renderlayer_name=None):
# Evaluate pre render mel.
pre_mel = cmds.getAttr("defaultRenderGlobals.preMel")
if pre_mel:
print("Evaluating Pre Render MEL:\n{}".format(pre_mel))
mel.eval(pre_mel)
# Setting output to local temp directory.
output_path = os.path.join(cmds.workspace(query=True, rootDirectory=True),
pm.workspace.fileRules["images"]).replace(
"\\", "/")
temp_path = tempfile.mkdtemp().replace("\\", "/")
pm.workspace.fileRules["images"] = temp_path
# Get all renderable layers.
render_setup = renderSetup.instance()
render_layers = render_setup.getRenderLayers()
renderable_layers = []
for layer in render_layers:
# Add all render layers when none is specified.
if renderlayer_name is None and layer.isRenderable():
renderable_layers.append(layer)
# Only add the render layer if its requested.
if ("rs_" + layer.name()) == renderlayer_name:
renderable_layers.append(layer)
print("Renderable layers: {}".format([x.name()
for x in renderable_layers]))
for layer in renderable_layers:
print("Switching to: {}".format(layer.name()))
render_setup.switchToLayer(layer)
for count in range(start_frame, end_frame + 1):
print("Rendering frame: {}".format(count))
render_frame(count)
# Move renders to expected output path.
first_image = pm.renderSettings(firstImageName=True, fullPath=True)[0]
expected_output_path = os.path.join(
cmds.workspace(query=True, rootDirectory=True),
pm.workspace.fileRules["images"])
prefix_directories = os.path.dirname(first_image).replace(
expected_output_path, "")
renderer = cmds.getAttr("defaultRenderGlobals.currentRenderer")
actual_prefix_directories = os.path.dirname(first_image).replace(
expected_output_path, "")
# Maya Hardware seems to always have "masterLayer" as the layer name.
if renderer == "mayaHardware2":
actual_prefix_directories = actual_prefix_directories.replace(
layer.name(), "masterLayer")
actual_output_path = (os.path.join(expected_output_path, "tmp") +
actual_prefix_directories)
for f in os.listdir(actual_output_path):
source = os.path.join(actual_output_path, f).replace("\\", "/")
# Rendering through Arnold adds "_1" to the file name.
destination_filename = f.replace("_1", "")
# Rendering through Maya Hardware seems to always be "masterLayer"
# as the layer name.
destination_filename = destination_filename.replace(
"masterLayer", layer.name())
destination = os.path.join(
expected_output_path + prefix_directories,
destination_filename).replace("\\", "/")
destination = destination.replace(temp_path, output_path)
if not os.path.exists(os.path.dirname(destination)):
os.makedirs(os.path.dirname(destination))
print("Moving \"{}\" to \"{}\"".format(source, destination))
shutil.move(source, destination)
# Clean up.
print("Cleaning up: {}".format(temp_path))
shutil.rmtree(temp_path)
pm.workspace.fileRules["images"] = output_path
def launch(self, *args, **kwargs):
"""launch renderer command
"""
# do nothing if there is no window (called externally)
if not self.window:
return
# warn the user about the ignore settings
try:
dAO = pm.PyNode('defaultArnoldRenderOptions')
ignore_attrs = [
'ignoreSubdivision',
'ignoreDisplacement',
'ignoreBump',
'ignoreMotionBlur'
]
attr_values = [dAO.getAttr(attr) for attr in ignore_attrs]
if any(attr_values):
msg_text = '<br>'.join(
map(
lambda x, y: '%s: %s' % (x, y),
ignore_attrs,
attr_values
)
)
response = pm.confirmDialog(
title='Ignore These Settings?',
message='You have ignored:<br><br>%s<br><br><b>Is that ok?</b>' % msg_text,
button=['Yes', 'No'],
defaultButton='No',
cancelButton='No',
dismissString='No'
)
if response == 'No':
return
except pm.MayaNodeError:
# no Arnold
pass
# check if rendering with persp camera
try:
wrong_camera_names = [
'perspShape',
'topShape',
'sideShape',
'fontShape',
'persp1Shape',
'perspShape1',
]
renderable_cameras = [node for node in pm.ls(type='camera') if node.getAttr('renderable')]
if any(map(lambda x: x.name() in wrong_camera_names, renderable_cameras)):
response = pm.confirmDialog(
title='Rendering with Persp?',
message='You are rendering with <b>Persp Camera<b><br><br>Is that ok?</b>',
button=['Yes', 'No'],
defaultButton='No',
cancelButton='No',
dismissString='No'
)
if response == 'No':
return
if len(renderable_cameras) > 1:
response = pm.confirmDialog(
title='Rendering more than one Camera?',
message='You are rendering <b>more than one camera<b><br><br>Is that ok?</b>',
button=['Yes', 'No'],
defaultButton='No',
cancelButton='No',
dismissString='No'
)
if response == 'No':
return
except pm.MayaNodeError:
# no default render globals node
pass
# get values
start_frame = pm.intField('cgru_afanasy__start_frame', q=1, v=1)
end_frame = pm.intField('cgru_afanasy__end_frame', q=1, v=1)
frames_per_task = \
pm.intField('cgru_afanasy__frames_per_task', q=1, v=1)
by_frame = pm.intField('cgru_afanasy__by_frame', q=1, v=1)
hosts_mask = pm.textField('cgru_afanasy__hosts_mask', q=1, text=True)
hosts_exclude = pm.textField('cgru_afanasy__hosts_exclude', q=1, text=True)
separate_layers = \
pm.checkBox('cgru_afanasy__separate_layers', q=1, v=1)
pause = pm.checkBox('cgru_afanasy__paused', q=1, v=1)
# check values
if start_frame > end_frame:
temp = end_frame
end_frame = start_frame
start_frame = temp
frames_per_task = max(1, frames_per_task)
by_frame = max(1, by_frame)
# store field values
pm.optionVar['cgru_afanasy__start_frame_ov'] = start_frame
pm.optionVar['cgru_afanasy__end_frame_ov'] = end_frame
pm.optionVar['cgru_afanasy__frames_per_task_ov'] = frames_per_task
pm.optionVar['cgru_afanasy__by_frame_ov'] = by_frame
pm.optionVar['cgru_afanasy__hosts_mask_ov'] = hosts_mask
pm.optionVar['cgru_afanasy__hosts_exclude_ov'] = hosts_exclude
pm.optionVar['cgru_afanasy__separate_layers'] = separate_layers
# get paths
scene_name = pm.sceneName()
datetime = '%s%s' % (
time.strftime('%y%m%d-%H%M%S-'),
str(time.time() - int(time.time()))[2:5]
)
filename = '%s.%s.mb' % (scene_name, datetime)
project_path = pm.workspace(q=1, rootDirectory=1)
outputs = ','.join(
pm.renderSettings(fullPath=1, firstImageName=1, lastImageName=1)
)
job_name = os.path.basename(scene_name)
logger.debug('%ss %se %sr' % (start_frame, end_frame, by_frame))
logger.debug('scene = %s' % scene_name)
logger.debug('file = %s' % filename)
logger.debug('job_name = %s' % job_name)
logger.debug('project_path = %s' % project_path)
logger.debug('outputs = %s' % outputs)
if pm.checkBox('cgru_afanasy__close', q=1, v=1):
pm.deleteUI(self.window)
cmd_buffer = [
'"%(filename)s"',
'%(start)s',
'%(end)s',
'-by %(by_frame)s',
'-hostsmask %(msk)s',
'-hostsexcl %(exc)s',
'-fpt %(fpt)s',
'-name "%(name)s"',
'-pwd "%(pwd)s"',
'-proj "%(proj)s"',
'-images "%(images)s"',
'-deletescene'
]
kwargs = {
'filename': filename,
'start': start_frame,
'end': end_frame,
'by_frame': by_frame,
'msk': hosts_mask,
'exc': hosts_exclude,
'fpt': frames_per_task,
'name': job_name,
'pwd': project_path,
'proj': project_path,
'images': outputs
}
drg = pm.PyNode('defaultRenderGlobals')
render_engine = drg.getAttr('currentRenderer')
if render_engine == 'mentalRay':
cmd_buffer.append('-type maya_mental')
elif render_engine == 'arnold':
cmd_buffer.append('-type maya_arnold')
# set the verbosity level to warnin+info
aro = pm.PyNode('defaultArnoldRenderOptions')
aro.setAttr('log_verbosity', 1)
if pause:
cmd_buffer.append('-pause')
# set output to console
dARO = pm.PyNode('defaultArnoldRenderOptions')
dARO.setAttr("log_to_console", 1)
# save file
pm.saveAs(
filename,
force=1,
type='mayaBinary'
)
# rename back to original name
pm.renameFile(scene_name)
# disable set output to console
dARO.setAttr("log_to_console", 0)
cmds = []
# submit renders
if separate_layers:
# render each layer separately
rlm = pm.PyNode('renderLayerManager')
layers = [layer for layer in rlm.connections()
if layer.renderable.get()]
for layer in layers:
layer_name = layer.name()
kwargs['name'] = '%s:%s' % (job_name, layer_name)
tmp_cmd_buffer = copy.copy(cmd_buffer)
tmp_cmd_buffer.append(
'-take %s' % layer.name()
)
# create one big command
afjob_cmd = ' '.join([
os.environ['CGRU_PYTHONEXE'],
'"%s/python/afjob.py"' % os.environ['AF_ROOT'],
'%s' % ' '.join(tmp_cmd_buffer) % kwargs
])
cmds.append(afjob_cmd)
else:
# create one big command
afjob_cmd = ' '.join([
os.environ['CGRU_PYTHONEXE'],
'%s/python/afjob.py' % os.environ['AF_ROOT'],
'%s' % ' '.join(cmd_buffer) % kwargs
])
cmds.append(afjob_cmd)
# call each command separately
for cmd in cmds:
print(cmds)
os.system(cmd)
def set_render_settings():
print "Setting up render"
pm.renderSettings(camera="dog_lightscamera:camera2")
def set_render_settings():
print 'Setting up render'
pm.renderSettings(camera='dog_lightscamera:camera2')
def launch(self, *args, **kwargs):
"""launch renderer command
"""
# do nothing if there is no window (called externally)
if not self.window:
return
# get values
start_frame = pm.intField('cgru_afanasy__start_frame', q=1, v=1)
end_frame = pm.intField('cgru_afanasy__end_frame', q=1, v=1)
frames_per_task = \
pm.intField('cgru_afanasy__frames_per_task', q=1, v=1)
by_frame = pm.intField('cgru_afanasy__by_frame', q=1, v=1)
hosts_mask = pm.textField('cgru_afanasy__hosts_mask', q=1, text=True)
hosts_exclude = pm.textField('cgru_afanasy__hosts_exclude', q=1, text=True)
separate_layers = \
pm.checkBox('cgru_afanasy__separate_layers', q=1, v=1)
pause = pm.checkBox('cgru_afanasy__paused', q=1, v=1)
# check values
if start_frame > end_frame:
temp = end_frame
end_frame = start_frame
start_frame = temp
frames_per_task = max(1, frames_per_task)
by_frame = max(1, by_frame)
# store field values
pm.optionVar['cgru_afanasy__start_frame_ov'] = start_frame
pm.optionVar['cgru_afanasy__end_frame_ov'] = end_frame
pm.optionVar['cgru_afanasy__frames_per_task_ov'] = frames_per_task
pm.optionVar['cgru_afanasy__by_frame_ov'] = by_frame
pm.optionVar['cgru_afanasy__hosts_mask_ov'] = hosts_mask
pm.optionVar['cgru_afanasy__hosts_exclude_ov'] = hosts_exclude
pm.optionVar['cgru_afanasy__separate_layers'] = separate_layers
# get paths
scene_name = pm.sceneName()
datetime = '%s%s' % (
time.strftime('%y%m%d-%H%M%S-'),
str(time.time() - int(time.time()))[2:5]
)
filename = '%s.%s.mb' % (scene_name, datetime)
project_path = pm.workspace(q=1, rootDirectory=1)
outputs = ','.join(
pm.renderSettings(fullPath=1, firstImageName=1, lastImageName=1)
)
job_name = os.path.basename(scene_name)
logger.debug('%ss %se %sr' % (start_frame, end_frame, by_frame))
logger.debug('scene = %s' % scene_name)
logger.debug('file = %s' % filename)
logger.debug('job_name = %s' % job_name)
logger.debug('project_path = %s' % project_path)
logger.debug('outputs = %s' % outputs)
if pm.checkBox('cgru_afanasy__close', q=1, v=1):
pm.deleteUI(self.window)
cmd_buffer = [
'"%(filename)s"',
'%(start)s',
'%(end)s',
'-by %(by_frame)s',
'-hostsmask %(msk)s',
'-hostsexcl %(exc)s',
'-fpt %(fpt)s',
'-name "%(name)s"',
'-pwd "%(pwd)s"',
'-proj "%(proj)s"',
'-images "%(images)s"',
'-deletescene'
]
kwargs = {
'filename': filename,
'start': start_frame,
'end': end_frame,
'by_frame': by_frame,
'msk': hosts_mask,
'exc': hosts_exclude,
'fpt': frames_per_task,
'name': job_name,
'pwd': project_path,
'proj': project_path,
'images': outputs
}
drg = pm.PyNode('defaultRenderGlobals')
render_engine = drg.getAttr('currentRenderer')
if render_engine == 'mentalRay':
cmd_buffer.append('-type maya_mental')
elif render_engine == 'arnold':
cmd_buffer.append('-type maya_arnold')
# set the verbosity level to warning+info
aro = pm.PyNode('defaultArnoldRenderOptions')
aro.setAttr('log_verbosity', 1)
if pause:
cmd_buffer.append('-pause')
# save file
pm.saveAs(
filename,
force=1,
type='mayaBinary'
)
# rename back to original name
pm.renameFile(scene_name)
cmds = []
# submit renders
if separate_layers:
# render each layer separately
rlm = pm.PyNode('renderLayerManager')
layers = [layer for layer in rlm.connections()
if layer.renderable.get()]
for layer in layers:
layer_name = layer.name()
kwargs['name'] = '%s:%s' % (job_name, layer_name)
tmp_cmd_buffer = copy.copy(cmd_buffer)
tmp_cmd_buffer.append(
'-take %s' % layer.name()
)
# create one big command
afjob_cmd = ' '.join([
os.environ['CGRU_PYTHONEXE'],
'"%s/python/afjob.py"' % os.environ['AF_ROOT'],
'%s' % ' '.join(tmp_cmd_buffer) % kwargs
])
cmds.append(afjob_cmd)
else:
# create one big command
afjob_cmd = ' '.join([
os.environ['CGRU_PYTHONEXE'],
'%s/python/afjob.py' % os.environ['AF_ROOT'],
'%s' % ' '.join(cmd_buffer) % kwargs
])
cmds.append(afjob_cmd)
# call each command separately
for cmd in cmds:
print(cmds)
os.system(cmd)
def setRenderSettings(_in, _cam):
cam = _cam
pm.renderSettings(cam=cam)
def launch(self, *args, **kwargs):
"""launch renderer command
"""
# do nothing if there is no window (called externally)
if not self.window:
return
# warn the user about the ignore settings
try:
dAO = pm.PyNode('defaultArnoldRenderOptions')
ignore_attrs = [
'ignoreSubdivision', 'ignoreDisplacement', 'ignoreBump',
'ignoreMotionBlur'
]
attr_values = [(attr, dAO.getAttr(attr)) for attr in ignore_attrs
if dAO.getAttr(attr) is True]
if any(attr_values):
msg_text = '<br>'.join(
map(lambda x: '%s: %s' % (x[0], x[1]), attr_values))
response = pm.confirmDialog(
title='Ignore These Settings?',
message=
'You have ignored:<br><br>%s<br><br><b>Is that ok?</b>' %
msg_text,
button=['Yes', 'No'],
defaultButton='No',
cancelButton='No',
dismissString='No')
if response == 'No':
return
except pm.MayaNodeError:
# no Arnold
pass
# check if rendering with persp camera
try:
wrong_camera_names = [
'perspShape',
'topShape',
'sideShape',
'fontShape',
'persp1Shape',
'perspShape1',
]
renderable_cameras = [
node for node in pm.ls(type='camera')
if node.getAttr('renderable')
]
if any(
map(lambda x: x.name() in wrong_camera_names,
renderable_cameras)):
response = pm.confirmDialog(
title='Rendering with Persp?',
message=
'You are rendering with <b>Persp Camera<b><br><br>Is that ok?</b>',
button=['Yes', 'No'],
defaultButton='No',
cancelButton='No',
dismissString='No')
if response == 'No':
return
if len(renderable_cameras) > 1:
response = pm.confirmDialog(
title='Rendering more than one Camera?',
message=
'You are rendering <b>more than one camera<b><br><br>Is that ok?</b>',
button=['Yes', 'No'],
defaultButton='No',
cancelButton='No',
dismissString='No')
if response == 'No':
return
elif len(renderable_cameras) == 0:
pm.confirmDialog(
title='No <b>Renderable</b> camera!!!',
message='There is no <b>renderable camera<b>!!!',
button=['Ok'],
defaultButton='Ok',
cancelButton='Ok',
dismissString='Ok')
return
except pm.MayaNodeError:
# no default render globals node
pass
# get values
start_frame = pm.intField('cgru_afanasy__start_frame', q=1, v=1)
end_frame = pm.intField('cgru_afanasy__end_frame', q=1, v=1)
frames_per_task = \
pm.intField('cgru_afanasy__frames_per_task', q=1, v=1)
by_frame = pm.intField('cgru_afanasy__by_frame', q=1, v=1)
hosts_mask = pm.textField('cgru_afanasy__hosts_mask', q=1, text=True)
hosts_exclude = pm.textField('cgru_afanasy__hosts_exclude',
q=1,
text=True)
separate_layers = \
pm.checkBox('cgru_afanasy__separate_layers', q=1, v=1)
pause = pm.checkBox('cgru_afanasy__paused', q=1, v=1)
life_time = pm.intField('cgru_afanasy__life_time', q=1, v=1)
# check values
if start_frame > end_frame:
temp = end_frame
end_frame = start_frame
start_frame = temp
frames_per_task = max(1, frames_per_task)
by_frame = max(1, by_frame)
# store without quota sign
hosts_mask = hosts_mask.replace('"', '')
hosts_exclude = hosts_exclude.replace('"', '')
# store field values
pm.optionVar['cgru_afanasy__start_frame_ov'] = start_frame
pm.optionVar['cgru_afanasy__end_frame_ov'] = end_frame
pm.optionVar['cgru_afanasy__frames_per_task_ov'] = frames_per_task
pm.optionVar['cgru_afanasy__by_frame_ov'] = by_frame
pm.optionVar['cgru_afanasy__hosts_mask_ov'] = hosts_mask
pm.optionVar['cgru_afanasy__hosts_exclude_ov'] = hosts_exclude
pm.optionVar['cgru_afanasy__separate_layers_ov'] = separate_layers
pm.optionVar['cgru_afanasy__life_time_ov'] = life_time
# get paths
scene_name = pm.sceneName()
datetime = '%s%s' % (time.strftime('%y%m%d-%H%M%S-'),
str(time.time() - int(time.time()))[2:5])
filename = '%s.%s.mb' % (scene_name, datetime)
project_path = pm.workspace(q=1, rootDirectory=1)
# get output paths, set the RenderPass token to Beauty,
# this will at least guarantee to get something
outputs = \
pm.renderSettings(
fullPath=1, firstImageName=1, lastImageName=1,
leaveUnmatchedTokens=1, customTokenString="RenderPass=Beauty"
)
job_name = os.path.basename(scene_name)
logger.debug('%ss %se %sr' % (start_frame, end_frame, by_frame))
logger.debug('scene = %s' % scene_name)
logger.debug('file = %s' % filename)
logger.debug('job_name = %s' % job_name)
logger.debug('project_path = %s' % project_path)
logger.debug('outputs = %s' % outputs)
if pm.checkBox('cgru_afanasy__close', q=1, v=1):
pm.deleteUI(self.window)
drg = pm.PyNode('defaultRenderGlobals')
render_engine = drg.getAttr('currentRenderer')
job = af.Job(job_name)
stored_log_level = None
if render_engine == 'arnold':
# set the verbosity level to warning+info
aro = pm.PyNode('defaultArnoldRenderOptions')
stored_log_level = aro.getAttr('log_verbosity')
aro.setAttr('log_verbosity', 1)
# set output to console
aro.setAttr("log_to_console", 1)
elif render_engine == 'redshift':
# set the verbosity level to detailed+info
redshift = pm.PyNode('redshiftOptions')
stored_log_level = redshift.logLevel.get()
redshift.logLevel.set(2)
# save file
pm.saveAs(filename, force=1, type='mayaBinary')
# rename back to original name
pm.renameFile(scene_name)
# create the render command
mrc = MayaRenderCommandBuilder(name=job_name,
file_full_path=filename,
render_engine=render_engine,
project=project_path,
by_frame=by_frame)
# submit renders
blocks = []
if separate_layers:
# render each layer separately
rlm = pm.PyNode('renderLayerManager')
layers = [
layer for layer in rlm.connections() if layer.renderable.get()
]
for layer in layers:
mrc_layer = copy.copy(mrc)
layer_name = layer.name()
mrc_layer.name = layer_name
mrc_layer.render_layer = layer_name
# create a new block for this layer
block = af.Block(
layer_name,
renderer_to_block_type.get(render_engine, 'maya'))
block.setFiles(
afcommon.patternFromDigits(
afcommon.patternFromStdC(
afcommon.patternFromPaths(outputs[0],
outputs[1]))).split(';'))
block.setNumeric(start_frame, end_frame, frames_per_task,
by_frame)
block.setCommand(mrc_layer.build_command())
blocks.append(block)
else:
# create only one block
block = af.Block('All Layers',
renderer_to_block_type.get(render_engine, 'maya'))
block.setFiles(
afcommon.patternFromDigits(
afcommon.patternFromStdC(
afcommon.patternFromPaths(outputs[0],
outputs[1]))).split(';'))
block.setNumeric(start_frame, end_frame, frames_per_task, by_frame)
block.setCommand(mrc.build_command())
blocks.append(block)
job.setFolder('input', os.path.dirname(filename))
job.setFolder('output', os.path.dirname(outputs[0]))
job.setHostsMask(hosts_mask)
job.setHostsMaskExclude(hosts_exclude)
if life_time > 0:
job.setTimeLife(life_time * 3600)
job.setCmdPost('deletefiles "%s"' % os.path.abspath(filename))
if pause:
job.offline()
# add blocks
job.blocks.extend(blocks)
status, data = job.send()
if not status:
pm.PopupError('Something went wrong!')
print('data: %s' % data)
# restore log level
if render_engine == 'arnold':
aro = pm.PyNode('defaultArnoldRenderOptions')
aro.setAttr('log_verbosity', stored_log_level)
# disable set output to console
aro.setAttr("log_to_console", 0)
elif render_engine == 'redshift':
redshift = pm.PyNode('redshiftOptions')
redshift.logLevel.set(stored_log_level)
def get_render_path():
return pm.renderSettings(fp=1, fin=1)[0]
def process(self, context):
import os
import clique
import pymel.core as pm
# Collect sets named starting with "remote".
remote_members = []
for object_set in pm.ls(type="objectSet"):
if object_set.name().lower().startswith("remote"):
remote_members.extend(object_set.members())
# Getting render layers data.
data = {}
render_cams = []
drg = pm.PyNode("defaultRenderGlobals")
for layer in pm.ls(type="renderLayer"):
# skipping defaultRenderLayers
if layer.name().endswith("defaultRenderLayer"):
continue
layer_data = {}
render_cams = []
if layer.adjustments.get(multiIndices=True):
for count in layer.adjustments.get(multiIndices=True):
if not layer.adjustments[count].plug.connections():
continue
if layer.adjustments[count].plug.connections()[0] == drg:
attr = layer.adjustments[count].plug
attr = attr.connections(plugs=True)[0]
layer_value = layer.adjustments[count].value.get()
layer_data[attr.name(includeNode=False)] = layer_value
plug = layer.adjustments[count].plug
for cam_attr in plug.connections(plugs=True,
type="camera"):
renderable = cam_attr.endswith("renderable")
layer_value = layer.adjustments[count].value.get()
if renderable and layer_value == 1.0:
name = cam_attr.split(".")[0]
render_cams.append(pm.PyNode(name))
render_pass = layer.connections(type="renderPass")
layer_data["renderpasses"] = render_pass
else:
render_pass = layer.connections(type="renderPass")
layer_data["renderpasses"] = render_pass
layer_data["cameras"] = render_cams
data[layer.name()] = layer_data
# Create instances
for layer in data:
node = pm.PyNode(layer)
# Checking instance type.
instance_type = "local"
if node in remote_members:
instance_type = "remote"
instance = context.create_instance(name=layer)
instance.data["families"] = ["renderlayer", instance_type, "img"]
instance.data["family"] = "img"
instance.data.update(data[layer])
instance.add(node)
publish_state = pm.PyNode(layer).renderable.get()
instance.data["publish"] = publish_state
label = "{0} - renderlayer - {1}".format(layer, instance_type)
instance.data["label"] = label
# Generate collection
first_image, last_image = pm.renderSettings(
firstImageName=True,
lastImageName=True,
fullPath=True,
layer=layer
)
# Special case for vray that has it own extention setting
renderer = drg.currentRenderer.get()
if "currentRenderer" in data[layer]:
renderer = data[layer]["currentRenderer"]
if renderer == "vray":
render_settings = pm.PyNode("vraySettings")
# Assuming ".png" if nothing is set.
# This happens when vray is initialized with the scene.
ext = ".png"
if render_settings.imageFormatStr.get():
ext = "."
ext += render_settings.imageFormatStr.get().split(" ")[0]
first_image = os.path.splitext(first_image)[0] + ext
# Adding renderer as family
instance.data["families"] += [renderer]
instance.data["renderer"] = renderer
# Adding collection
collections = clique.assemble([first_image], minimum_items=1)[0]
ext = os.path.splitext(first_image)[1]
collection = collections[0]
for col in collections:
if col.tail == ext:
collection = col
render_globals = pm.PyNode("defaultRenderGlobals")
start_frame = int(render_globals.startFrame.get())
end_frame = int(render_globals.endFrame.get())
step_frame = int(render_globals.byFrameStep.get())
framerate = context.data["framerate"]
if "endFrame" in data[layer]:
end_frame = int(data[layer]["endFrame"] * framerate)
if "startFrame" in data[layer]:
start_frame = int(data[layer]["startFrame"] * framerate)
fmt = collection.format("{head}{padding}{tail}")
for count in range(start_frame, end_frame + 1, step_frame):
f = fmt % count
collection.add(f)
instance.data["endFrame"] = end_frame
instance.data["startFrame"] = start_frame
instance.data["stepFrame"] = step_frame
instance.data["collection"] = collection
def instance_toggled(instance, value):
instance[0].renderable.set(value)
instance.data["instanceToggled"] = instance_toggled
def launch(self, *args, **kwargs):
"""launch renderer command
"""
# do nothing if there is no window (called externally)
if not self.window:
return
# warn the user about the ignore settings
try:
dAO = pm.PyNode('defaultArnoldRenderOptions')
ignore_attrs = [
'ignoreSubdivision',
'ignoreDisplacement',
'ignoreBump',
'ignoreMotionBlur'
]
attr_values = [
(attr, dAO.getAttr(attr))
for attr in ignore_attrs
if dAO.getAttr(attr) is True
]
if any(attr_values):
msg_text = '<br>'.join(
map(
lambda x: '%s: %s' % (x[0], x[1]),
attr_values
)
)
response = pm.confirmDialog(
title='Ignore These Settings?',
message='You have ignored:<br><br>%s<br><br><b>Is that ok?</b>' % msg_text,
button=['Yes', 'No'],
defaultButton='No',
cancelButton='No',
dismissString='No'
)
if response == 'No':
return
except pm.MayaNodeError:
# no Arnold
pass
# check if rendering with persp camera
try:
wrong_camera_names = [
'perspShape',
'topShape',
'sideShape',
'fontShape',
'persp1Shape',
'perspShape1',
]
renderable_cameras = [node for node in pm.ls(type='camera') if node.getAttr('renderable')]
if any(map(lambda x: x.name() in wrong_camera_names, renderable_cameras)):
response = pm.confirmDialog(
title='Rendering with Persp?',
message='You are rendering with <b>Persp Camera<b><br><br>Is that ok?</b>',
button=['Yes', 'No'],
defaultButton='No',
cancelButton='No',
dismissString='No'
)
if response == 'No':
return
if len(renderable_cameras) > 1:
response = pm.confirmDialog(
title='Rendering more than one Camera?',
message='You are rendering <b>more than one camera<b><br><br>Is that ok?</b>',
button=['Yes', 'No'],
defaultButton='No',
cancelButton='No',
dismissString='No'
)
if response == 'No':
return
elif len(renderable_cameras) == 0:
pm.confirmDialog(
title='No <b>Renderable</b> camera!!!',
message='There is no <b>renderable camera<b>!!!',
button=['Ok'],
defaultButton='Ok',
cancelButton='Ok',
dismissString='Ok'
)
return
except pm.MayaNodeError:
# no default render globals node
pass
drg = pm.PyNode('defaultRenderGlobals')
render_engine = drg.getAttr('currentRenderer')
# RENDERER SPECIFIC CHECKS
if render_engine == 'redshift':
# if the renderer is RedShift
# check if unifiedDisableDivision is 1 which will take too much time
# to render
dro = pm.PyNode('redshiftOptions')
if dro.unifiedDisableDivision.get() == 1:
response = pm.confirmDialog(
title="Enabled **Don't Automatically Reduce Samples of Other Effects**",
message='It is not allowed to render with the following option is enabled:<br>'
'<br>'
"Don't Automatically Reduce Samples of Other Effects: Enabled<br>"
"<br>"
"Please DISABLE it!",
button=['OK'],
defaultButton='OK',
cancelButton='OK',
dismissString='OK'
)
return
# Check dome light backgrounds
domes_to_fix = []
rs_domes = pm.ls(type='RedshiftDomeLight')
if rs_domes:
for rs_dome in rs_domes:
if rs_dome.getAttr('background_enable') == 1 \
or rs_dome.getAttr('backPlateEnabled') == 1:
domes_to_fix.append(rs_dome.name())
if domes_to_fix:
message = 'Some DomeLights have <b>BackGround Render ' \
'Enabled</b>:' \
'<br><br>%s<br><br>' \
'Are you Sure?' % '<br>'.join(domes_to_fix)
response = pm.confirmDialog(
title='Dome Lights with Background Enabled?',
message=message,
button=['Yes', 'No'],
defaultButton='No',
cancelButton='No',
dismissString='No'
)
if response == 'No':
return
# abort on license fail
dro.abortOnLicenseFail.set(1)
elif render_engine == 'arnold':
# check if the samples are too high
dAO = pm.PyNode('defaultArnoldRenderOptions')
aa_samples = dAO.AASamples.get()
diff_samples = dAO.GIDiffuseSamples.get()
try:
glossy_samples = dAO.GIGlossySamples.get()
except AttributeError:
glossy_samples = dAO.GISpecularSamples.get()
if int(pm.about(v=1)) >= 2017:
sss_samples = dAO.GISssSamples.get()
else:
sss_samples = dAO.sssBssrdfSamples.get()
total_diff_samples = aa_samples**2 * diff_samples**2
total_glossy_samples = aa_samples**2 * glossy_samples**2
total_sss_samples = aa_samples**2 * sss_samples**2
max_allowed_diff_samples = 225
max_allowed_glossy_samples = 100
max_allowed_sss_samples = 800
if total_diff_samples > max_allowed_diff_samples:
pm.confirmDialog(
title="Too Much Diffuse Samples!!!",
message='You are using too much DIFFUSE SAMPLES (>%s)<br>'
'<br>'
'Please either reduce AA samples of Diffuse '
'Samples!!!' % max_allowed_diff_samples,
button=['OK'],
defaultButton='OK',
cancelButton='OK',
dismissString='OK'
)
return
if total_glossy_samples > max_allowed_glossy_samples:
pm.confirmDialog(
title="Too Much Glossy Samples!!!",
message='You are using too much GLOSSY SAMPLES (>%s)<br>'
'<br>'
'Please either reduce AA samples of Glossy '
'Samples!!!' % max_allowed_glossy_samples,
button=['OK'],
defaultButton='OK',
cancelButton='OK',
dismissString='OK'
)
return
if total_sss_samples > max_allowed_sss_samples:
pm.confirmDialog(
title="Too Much SSS Samples!!!",
message='You are using too much SSS SAMPLES (>%s)<br>'
'<br>'
'Please either reduce AA samples of SSS '
'Samples!!!' % max_allowed_sss_samples,
button=['OK'],
defaultButton='OK',
cancelButton='OK',
dismissString='OK'
)
return
# check Light Samples
# check point lights with zero radius but more than one samples
all_point_lights = pm.ls(type='pointLight')
ridiculous_point_lights = []
for point_light in all_point_lights:
if point_light.aiRadius.get() < 0.1 and point_light.aiSamples.get() > 1:
ridiculous_point_lights.append(point_light)
if ridiculous_point_lights:
pm.confirmDialog(
title="Unnecessary Samples on Point Lights!!!",
message='You are using too much SAMPLES (>1)<br>'
'<br>'
'on <b>Point lights with zero radius</b><br>'
'<br>'
'Please reduce the samples to 1',
button=['OK'],
defaultButton='OK',
cancelButton='OK',
dismissString='OK'
)
return
# Check area lights with more than 2 samples
all_area_lights = pm.ls(type=['areaLight', 'aiAreaLight'])
ridiculous_area_lights = []
for area_light in all_area_lights:
if area_light.aiSamples.get() > 2:
ridiculous_area_lights.append(area_light)
if ridiculous_area_lights:
pm.confirmDialog(
title="Unnecessary Samples on Area Lights!!!",
message='You are using too much SAMPLES (>2) on<br>'
'<br>'
'<b>Area Lights</b><br>'
'<br>'
'Please reduce the samples to 2',
button=['OK'],
defaultButton='OK',
cancelButton='OK',
dismissString='OK'
)
return
# Check directional lights with angle == 0 and samples > 1
all_directional_lights = pm.ls(type='directionalLight')
ridiculous_directional_lights = []
dir_sample_attr_name = 'aiSamples'
# if pm.about(v=1) == "2014":
# dir_sample_attr_name = 'aiSamples'
for directional_light in all_directional_lights:
if directional_light.aiAngle.get() == 0 and directional_light.attr(dir_sample_attr_name).get() > 1:
ridiculous_directional_lights.append(directional_light)
if ridiculous_directional_lights:
pm.confirmDialog(
title="Unnecessary Samples on Directional Lights!!!",
message='You are using too much SAMPLES (>1) on <br>'
'<br>'
'<b>Directional lights with zero angle</b><br>'
'<br>'
'Please reduce the samples to 1',
button=['OK'],
defaultButton='OK',
cancelButton='OK',
dismissString='OK'
)
return
# get values
start_frame = pm.intField('cgru_afanasy__start_frame', q=1, v=1)
end_frame = pm.intField('cgru_afanasy__end_frame', q=1, v=1)
frames_per_task = \
pm.intField('cgru_afanasy__frames_per_task', q=1, v=1)
by_frame = pm.intField('cgru_afanasy__by_frame', q=1, v=1)
hosts_mask = pm.textField('cgru_afanasy__hosts_mask', q=1, text=True)
hosts_exclude = pm.textField('cgru_afanasy__hosts_exclude', q=1, text=True)
separate_layers = \
pm.radioButtonGrp('cgru_afanasy__separate_layers', q=1, sl=1)
pause = pm.checkBox('cgru_afanasy__paused', q=1, v=1)
life_time = pm.intField('cgru_afanasy__life_time', q=1, v=1)
annotation = pm.textField('cgru_afanasy__annotation', q=1, text=True)
submit_multiple_times = pm.intField('cgru_afanasy__submit_multiple_times', q=1, v=1)
errors_avoid_host = pm.intField('cgru_afanasy__errors_avoid_host', q=1, v=1)
errors_retries = pm.intField('cgru_afanasy__errors_retries', q=1, v=1)
errors_task_same_host = pm.intField('cgru_afanasy__errors_task_same_host', q=1, v=1)
errors_forgive_time = pm.intField('cgru_afanasy__errors_forgive_time', q=1, v=1)
# check values
if start_frame > end_frame:
temp = end_frame
end_frame = start_frame
start_frame = temp
frames_per_task = max(1, frames_per_task)
by_frame = max(1, by_frame)
# store without quota sign
hosts_mask = hosts_mask.replace('"', '')
hosts_exclude = hosts_exclude.replace('"', '')
# store field values
pm.optionVar['cgru_afanasy__start_frame_ov'] = start_frame
pm.optionVar['cgru_afanasy__end_frame_ov'] = end_frame
pm.optionVar['cgru_afanasy__frames_per_task_ov'] = frames_per_task
pm.optionVar['cgru_afanasy__by_frame_ov'] = by_frame
pm.optionVar['cgru_afanasy__hosts_mask_ov'] = hosts_mask
pm.optionVar['cgru_afanasy__hosts_exclude_ov'] = hosts_exclude
pm.optionVar['cgru_afanasy__separate_layers_ov'] = separate_layers
pm.optionVar['cgru_afanasy__life_time_ov'] = life_time
pm.optionVar['cgru_afanasy__annotation_ov'] = annotation
pm.optionVar['cgru_afanasy__submit_multiple_times_ov'] = submit_multiple_times
pm.optionVar['cgru_afanasy__errors_avoid_host_ov'] = errors_avoid_host
pm.optionVar['cgru_afanasy__errors_retries_ov'] = errors_retries
pm.optionVar['cgru_afanasy__errors_task_same_host_ov'] = errors_task_same_host
pm.optionVar['cgru_afanasy__errors_errors_forgive_time_ov'] = errors_forgive_time
# get paths
scene_name = pm.sceneName()
datetime = '%s%s' % (
time.strftime('%y%m%d-%H%M%S-'),
str(time.time() - int(time.time()))[2:5]
)
filename = '%s.%s.mb' % (scene_name, datetime)
project_path = pm.workspace(q=1, rootDirectory=1)
# outputs = \
# pm.renderSettings(fullPath=1, firstImageName=1, lastImageName=1)
# get output paths, set the RenderPass token to Beauty,
# this will at least guarantee to get something
outputs = \
pm.renderSettings(
fullPath=1, firstImageName=1, lastImageName=1,
leaveUnmatchedTokens=1, customTokenString="RenderPass=Beauty"
)
# job_name = os.path.basename(scene_name)
job_name = self.generate_job_name()
logger.debug('%ss %se %sr' % (start_frame, end_frame, by_frame))
logger.debug('scene = %s' % scene_name)
logger.debug('file = %s' % filename)
logger.debug('job_name = %s' % job_name)
logger.debug('project_path = %s' % project_path)
logger.debug('outputs = %s' % outputs)
logger.debug('annotation = %s' % annotation)
logger.debug('separate_layers = %s' % separate_layers)
logger.debug('errors_avoid_host = %s' % errors_avoid_host)
logger.debug('errors_retries = %s' % errors_retries)
logger.debug('errors_task_same_host = %s' % errors_task_same_host)
logger.debug('errors_forgive_time = %s' % errors_forgive_time)
if pm.checkBox('cgru_afanasy__close', q=1, v=1):
pm.deleteUI(self.window)
stored_log_level = None
if render_engine == 'arnold':
# set the verbosity level to warning+info
aro = pm.PyNode('defaultArnoldRenderOptions')
stored_log_level = aro.getAttr('log_verbosity')
aro.setAttr('log_verbosity', 2)
# set output to console
aro.setAttr("log_to_console", 1)
elif render_engine == 'redshift':
# set the verbosity level to detailed+info
redshift = pm.PyNode('redshiftOptions')
stored_log_level = redshift.logLevel.get()
redshift.logLevel.set(2)
# save file
pm.saveAs(
filename,
force=1,
type='mayaBinary'
)
# rename back to original name
pm.renameFile(scene_name)
# create the render command
mrc = MayaRenderCommandBuilder(
name=job_name,
file_full_path=filename,
render_engine=render_engine,
project=project_path,
by_frame=by_frame
)
# submit renders
jobs = []
blocks = []
#
# separate_layers:
# 1 -> None -> submit one job with a single block with all layers
# 2 -> Block -> submit one job with multiple blocks
# 3 -> Job -> submit multiple jobs with a single block per layer
#
if separate_layers in [1, 2]:
job = af.Job(job_name)
jobs.append(job)
if separate_layers in [2, 3]:
# render each layer separately
rlm = pm.PyNode('renderLayerManager')
layers = [layer for layer in rlm.connections()
if layer.renderable.get()]
for layer in layers:
mrc_layer = copy.copy(mrc)
layer_name = layer.name()
mrc_layer.name = layer_name
mrc_layer.render_layer = layer_name
# create a new block for this layer
block = af.Block(
layer_name,
renderer_to_block_type.get(render_engine, 'maya')
)
# Fix the output path for this layer
# by replacing the "masterLayer" with the layer name
# without rs_ at the beginning
layer_outputs = outputs
if layer_name != 'defaultRenderLayer':
layer_outputs[0] = outputs[0].replace(
'masterLayer',
layer_name.replace('rs_', '')
)
layer_outputs[1] = outputs[1].replace(
'masterLayer',
layer_name.replace('rs_', '')
)
outputs_split = afcommon.patternFromDigits(
afcommon.patternFromStdC(
afcommon.patternFromPaths(
layer_outputs[0],
layer_outputs[1]
)
)
).split(';')
block.setFiles(outputs_split)
block.setNumeric(
start_frame, end_frame, frames_per_task, by_frame
)
command = mrc_layer.build_command()
block.setErrorsAvoidHost(errors_avoid_host)
block.setErrorsRetries(errors_retries)
block.setErrorsTaskSameHost(errors_task_same_host)
block.setErrorsForgiveTime(errors_forgive_time)
block.setCommand(command)
if separate_layers == 2:
blocks.append(block)
else:
job = af.Job('%s - %s' % (job_name, layer_name))
# add blocks
job.blocks = [block]
jobs.append(job)
else:
# create only one block
block = af.Block(
'All Layers',
renderer_to_block_type.get(render_engine, 'maya')
)
block.setFiles(
afcommon.patternFromDigits(
afcommon.patternFromStdC(
afcommon.patternFromPaths(outputs[0], outputs[1])
)
).split(';')
)
block.setNumeric(
start_frame, end_frame, frames_per_task, by_frame
)
command = mrc.build_command()
block.setCommand(command)
blocks.append(block)
for job in jobs:
job.setAnnotation(annotation)
job.setFolder('input', os.path.dirname(filename))
job.setFolder('output', os.path.dirname(outputs[0]))
job.setHostsMask(hosts_mask)
job.setHostsMaskExclude(hosts_exclude)
if life_time > 0:
job.setTimeLife(life_time * 3600)
else:
job.setTimeLife(240 * 3600)
job.setCmdPost('deletefiles -s "%s"' % os.path.abspath(filename))
if pause:
job.offline()
# add blocks
if separate_layers in [1, 2]:
job.blocks.extend(blocks)
for i in range(submit_multiple_times):
orig_job_name = job.data['name']
job.setName('%s - %03i' % (orig_job_name, i + 1))
status, data = job.send()
# restore job name
job.setName(orig_job_name)
if not status:
pm.PopupError('Something went wrong!')
# restore log level
if render_engine == 'arnold':
aro = pm.PyNode('defaultArnoldRenderOptions')
aro.setAttr('log_verbosity', stored_log_level)
# disable set output to console
aro.setAttr("log_to_console", 0)
elif render_engine == 'redshift':
redshift = pm.PyNode('redshiftOptions')
redshift.logLevel.set(stored_log_level)
# disable abort on license fail
redshift.abortOnLicenseFail.set(0)
