def playblast_turntable(submit=True):
logger = logging.getLogger(__name__)
# get path
obj = pipeFile.PathDetails.parse_path()
local_video_path = obj.local_video_path
work_video_path = obj.work_video_path
current_project = obj.project
# playblast
model_name = get_model_name.get_model_name()
resolution = Project(current_project).resolution
percent = Project(current_project).playblast_percent
set_image_size.set_image_size(*resolution)
mc.select(model_name, r=1)
create_turntable.create_turntable()
create_parent_dir.create_parent_dir(local_video_path)
playblaster.playblaster(local_video_path, "tt_camera", 1, 120, resolution,
percent, False, None, True)
remove_turntable.remove_turntable()
logger.info("playblast done.")
mc.lookThru("persp")
if submit:
Copy.copy(local_video_path, work_video_path)
logger.info("Copy %s >> %s" % (local_video_path, work_video_path))
return work_video_path
else:
return local_video_path
def turntable():
"""
Main function. Creates turntable. Requires a list of selected objects.
:return: None
"""
objs = cmds.ls(selection=True)
meshes = checkSelection(objs)
if not meshes:
cmds.error('Please select a mesh object')
pivlist = getSelectionPivot(meshes)
turnCam = createCamera()
centroid = findCentroid(pivlist)
# change camera pivot to centroid
cmds.xform(turnCam[0], ws=True, piv=centroid)
# animate camera. rotate around y axis.
firstFrame = str(cmds.playbackOptions(q=True, minTime=True))
lastFrame = str(cmds.playbackOptions(q=True, maxTime=True))
cmds.expression(name='TurnTableExpression',
string='{0}.rotateY=360*(frame-{1})/{2}-{1};'.format(turnCam[0],
firstFrame, lastFrame))
# create a 3 point light rig.
keyLight = createLight('areaLight', 'key', centroid)
fillLight = createLight('areaLight', 'fill', centroid)
rimLight = createLight('areaLight', 'rim', centroid)
cmds.lookThru(turnCam[0])
def show(self, *args):
if not self.__camera:
self.__camera = mc.lookThru(q=1)
# ----clear old huds---- #
self.clear()
# ----look through current camera ----#
mc.lookThru(self.__camera)
# ----set hud color ---- #
mc.displayColor("headsUpDisplayLabels",
self.__hud_color["label_color"])
mc.displayColor("headsUpDisplayValues",
self.__hud_color["value_color"])
# ----create huds---- #
for hud in self.__huds:
label = self.__hud_dict[hud]["label"]
section = self.__hud_dict[hud]["section"]
block = mc.headsUpDisplay(nextFreeBlock=section)
labelWidth = self.__hud_dict[hud]["labelWidth"]
# event = self.__hud_dict[hud]["event"]
labelFontSize = self.__hud_dict[hud]["labelFontSize"]
dataFontSize = self.__hud_dict[hud]["dataFontSize"]
blockSize = self.__hud_dict[hud]["blockSize"]
command = self.__hud_dict[hud]["command"].format(
camera=self.__camera)
mc.headsUpDisplay(hud,
label=label,
section=section,
block=block,
labelWidth=labelWidth,
labelFontSize=labelFontSize,
dataFontSize=dataFontSize,
blockSize=blockSize,
attachToRefresh=True,
command=command)
def makeCamera(self, arg = None) :
self.renderCameraName = mc.textField('%s_newCameraTX' % self.ui, q = True, tx = True)
self.setRenderSetting()
self.currentCamera = mc.lookThru(q = True)
if self.currentCamera :
if not mc.objExists(self.renderCameraName) :
self.renderCamera = mc.duplicate(self.currentCamera, n = self.renderCameraName)
else :
self.renderCamera = [self.renderCameraName]
cameraShape = mc.listRelatives(self.renderCamera[0], s = True)[0]
mc.setAttr('%s.panZoomEnabled' % cameraShape, 1)
mc.setAttr('%s.renderPanZoom' % cameraShape, 1)
mc.setAttr('%s.displayResolution' % cameraShape, 1)
mc.textField('%s_cameraTX' % self.ui, e = True, tx = self.renderCamera[0])
mc.textField('%s_crrCameraTX' % self.ui, e = True, tx = self.currentCamera)
mc.lookThru(self.renderCamera[0])
else :
print 'Cannot get current camera'
def testStaticUsdCamera(self):
self._StartTest('TranslateRotate_vs_xform')
mayaPathSegment = mayaUtils.createUfePathSegment('|stage|stageShape')
#camera1 doesn't work correctly right now because of an xformOp:transform issue MAYA-110515
#cam1UsdPathSegment = usdUtils.createUfePathSegment('cameras/cam1/camera1')
#cmds.lookThru('|stage|stageShape,/cameras/cam1/camera1')
#self.assertSnapshotClose('%s_cam1_unselected.png' % self._testName)
cmds.lookThru('|stage|stageShape,/cameras/cam2/camera2')
self.assertSnapshotClose('%s_cam2_unselected.png' % self._testName)
# create a Ufe transform3d and move cam2 somewhere else and do a snapshot
cam2UsdPathSegment = usdUtils.createUfePathSegment(
'/cameras/cam2/camera2')
cam2Path = ufe.Path([mayaPathSegment, cam2UsdPathSegment])
cam2Item = ufe.Hierarchy.createItem(cam2Path)
cam2Transform3d = ufe.Transform3d.transform3d(cam2Item)
cam2Transform3d.translate(-1, 0, 0)
self.assertSnapshotClose('%s_cam2_translated.png' % self._testName)
# create a Ufe Camera and modify the near clip plane and do a snapshot
# ufe.Camera is not in Ufe 2.0.0 MAYA-110675
# set the clipping range using the USD API instead
usdCamera = usdUtils.getPrimFromSceneItem(cam2Item)
clippingAttr = usdCamera.GetAttribute('clippingRange')
clippingRange = clippingAttr.Get()
clippingAttr.Set(Gf.Vec2f(10, 5000))
self.assertSnapshotClose('%s_cam2_insideNearClipPlane.png' %
self._testName)
def turntable():
"""
Main function. Creates turntable. Requires a list of selected objects.
:return: None
"""
objs = cmds.ls(selection=True)
meshes = checkSelection(objs)
if not meshes:
cmds.error('Please select a mesh object')
pivlist = getSelectionPivot(meshes)
turnCam = createCamera()
centroid = findCentroid(pivlist)
# change camera pivot to centroid
cmds.xform(turnCam[0], ws=True, piv=centroid)
# animate camera. rotate around y axis.
firstFrame = str(cmds.playbackOptions(q=True, minTime=True))
lastFrame = str(cmds.playbackOptions(q=True, maxTime=True))
cmds.expression(name='TurnTableExpression',
string='{0}.rotateY=360*(frame-{1})/{2}-{1};'.format(
turnCam[0], firstFrame, lastFrame))
# create a 3 point light rig.
keyLight = createLight('areaLight', 'key', centroid)
fillLight = createLight('areaLight', 'fill', centroid)
rimLight = createLight('areaLight', 'rim', centroid)
cmds.lookThru(turnCam[0])
def save_snapshot(self, geo):
# Create new camera, isolated selected object, frame and take snapshot
# Delete cam and return to perspective cam
self.create_img_cam()
cmds.lookThru(self.cameraName)
cmds.select(geo)
if cmds.isolateSelect('modelPanel4', q=True, state=True):
cmds.isolateSelect('modelPanel4', state=False)
cmds.isolateSelect('modelPanel4', state=True)
cmds.isolateSelect('modelPanel4', addSelected=True)
else:
cmds.isolateSelect('modelPanel4', state=True)
cmds.isolateSelect('modelPanel4', addSelected=True)
cmds.viewFit()
imageSnapshot = (os.path.join(self.img_path, geo)) + ".jpg"
imageSnapshot = os.path.normpath(imageSnapshot)
cmds.refresh(cv=True, fe = "jpg", fn = imageSnapshot)
cmds.isolateSelect('modelPanel4', state=False)
self.return_to_perspCam()
if self.cameraName:
cmds.delete(self.cameraName[0])
return imageSnapshot
def createPreviewCamera(objectName):
cmds.camera()
cmds.rename("preview")
mel.eval("cameraMakeNode 2 \"\";")
selList = cmds.ls(selection=True)
print(selList)
previewCam = selList[0]
previewAim = selList[1]
boxMin = cmds.getAttr(objectName + ".boundingBoxMin")[0]
boxMax = cmds.getAttr(objectName + ".boundingBoxMax")[0]
## move aim to bbx center
aimPos = [(boxMax[0] + boxMin[0]) / 2, (boxMax[1] + boxMin[1]) / 2, (boxMax[2] + boxMin[2]) / 2]
print(aimPos)
cmds.move(aimPos[0], aimPos[1], aimPos[2], previewAim)
camPosy = boxMax[1] * 1.7
camPosx = boxMin[0] + camPosy * 1.2
camPosz = boxMin[2] + camPosy * 1.2
cmds.move(camPosx, camPosy, camPosz, previewCam)
preCamShape = cmds.listRelatives(previewCam, children=True)[0]
cmds.lookThru(preCamShape, "perspView")
def customizeCamera(self, camera):
cmds.lookThru(camera)
cmds.addAttr(camera, ln="Overlay", at="enum", en="No Overlay:Grid:SpiralTopRight:SpiralTopLeft:SpiralBottomRight:SpiralBottomLeft")
cmds.addAttr(camera, ln="Overlay_Value", at="long")
cmds.setAttr(camera + '.Overlay', e=True, keyable=True)
cmds.setAttr(camera + '.Overlay_Value', e=True, keyable=True)
cmds.expression(s='int $a=%s.Overlay;\r\n' % camera +
'%s.Overlay_Value=$a;' % camera+
'switch($a) { \r\n' +
' case 0: \r\n' +
' python("camera_overlays.Overlay_Function().noOverlay()"); \r\n' +
' break;\r\n' +
' case 1: \r\n' +
' python("camera_overlays.Overlay_Function().toggleThirdsGrid()"); \r\n' +
' break;\r\n' +
' case 2: \r\n' +
' python("camera_overlays.Overlay_Function().toggleGoldenSprialTopRight()"); \r\n' +
' break;\r\n' +
' case 3: \r\n' +
' python("camera_overlays.Overlay_Function().toggleGoldenSprialTopLeft()"); \r\n' +
' break;\r\n' +
' case 4: \r\n' +
' python("camera_overlays.Overlay_Function().toggleGoldenSprialBottomRight()"); \r\n' +
' break;\r\n' +
' case 5: \r\n' +
' python("camera_overlays.Overlay_Function().toggleGoldenSprialBottomLeft()"); \r\n' +
'}select %s;\r' % camera, ae=False, o="renderCam")
def changeToPerspCam(self):
currentCam = cmds.lookThru(q=True)
if currentCam != 'persp':
# Select the perspective camera (default = modelPfloatanel4)attributeValue
cmdStr = "lookThroughModelPanel" + " " + "persp" + " " + "modelPanel4;"
mel.eval(cmdStr)
cmds.lookThru('persp')
def customizeCamera(self, camera):
cmds.lookThru(camera)
cmds.addAttr(
camera,
ln="Overlay",
at="enum",
en=
"No Overlay:Grid:SpiralTopRight:SpiralTopLeft:SpiralBottomRight:SpiralBottomLeft"
)
cmds.addAttr(camera, ln="Overlay_Value", at="long")
cmds.setAttr(camera + '.Overlay', e=True, keyable=True)
cmds.setAttr(camera + '.Overlay_Value', e=True, keyable=True)
cmds.expression(
s='int $a=%s.Overlay;\r\n' % camera +
'%s.Overlay_Value=$a;' % camera + 'switch($a) { \r\n' +
' case 0: \r\n' +
' python("camera_overlays.Overlay_Function().noOverlay()"); \r\n'
+ ' break;\r\n' + ' case 1: \r\n' +
' python("camera_overlays.Overlay_Function().toggleThirdsGrid()"); \r\n'
+ ' break;\r\n' + ' case 2: \r\n' +
' python("camera_overlays.Overlay_Function().toggleGoldenSprialTopRight()"); \r\n'
+ ' break;\r\n' + ' case 3: \r\n' +
' python("camera_overlays.Overlay_Function().toggleGoldenSprialTopLeft()"); \r\n'
+ ' break;\r\n' + ' case 4: \r\n' +
' python("camera_overlays.Overlay_Function().toggleGoldenSprialBottomRight()"); \r\n'
+ ' break;\r\n' + ' case 5: \r\n' +
' python("camera_overlays.Overlay_Function().toggleGoldenSprialBottomLeft()"); \r\n'
+ '}select %s;\r' % camera,
ae=False,
o="renderCam")
def createPreviewCamera(objectName):
"""
create object preview camera, frame the object
:param objectName:
:return:
"""
cmds.camera()
cmds.rename("preview")
mel.eval("cameraMakeNode 2 \"\";")
selList = cmds.ls(selection=True)
# print(selList)
previewCam = selList[0]
previewAim = selList[1]
boxMin = cmds.getAttr(objectName + ".boundingBoxMin")[0]
boxMax = cmds.getAttr(objectName + ".boundingBoxMax")[0]
## move aim to bbx center
aimPos = [(boxMax[0] + boxMin[0]) / 2, (boxMax[1] + boxMin[1]) / 2, (boxMax[2] + boxMin[2]) / 2]
# print(aimPos)
cmds.move(aimPos[0], aimPos[1], aimPos[2], previewAim)
camPosy = boxMax[1] * 1.7
camPosx = boxMin[0] + camPosy * 1.2
camPosz = boxMin[2] + camPosy * 1.2
cmds.move(camPosx, camPosy, camPosz, previewCam)
preCamShape = cmds.listRelatives(previewCam, children=True)[0]
cmds.lookThru(preCamShape, "perspView")
def playBlase(self):
#拍屏 进入创建的摄像机视角
cmds.lookThru(CameraName)
#获得下拉列表当前的文本内容(foramt)
ComboxText=self.formatCombox.currentText()
#存储路径与文件名称 nameAndPath
#拍屏
cmds.playblast(format=ComboxText,filename=nameAndPath[0])
def get_thumbnail(self):
for camera in mc.listCameras():
if camera == "persp":
pass
else:
mm.eval("viewFit -all;")
mc.lookThru(camera)
mc.playblast( cf= "H:\\Image Test\\" + camera + ".jpg" , fr=1, fmt="image", v=False, wh=[500, 300], orn=False,
compression="jpg", quality=100, percent=100 )
def set_camera_drawing():
c = cmds.camera(rotation=[0,90,0], position=[0,0,0])
panels = cmds.getPanel( all=True )
cmds.lookThru(c[0])
cmds.setKeyframe(c, attribute='rotateX', t='0sec', value=0)
cmds.setKeyframe(c, attribute='translateY', t='0sec', value=15)
cmds.setKeyframe(c, attribute='translateZ', t='0sec', value=0)
def setCurrentCamera(cam):
'''
Sets the current maya viewport camera.
Args:
cam(string): the camras name you want to set
'''
vpPanel = cmds.getPanel(wf=True)
cmds.lookThru(vpPanel, cam)
def lookThruActiveCam():
currentCamName = database.read_cache('selected_camera')
cam = cmds.ls(currentCamName)
if cam:
cmds.lookThru(cam[0])
cmds.refresh(currentView=False)
else:
# Todo: should fall back to default camera
print "no syncSketchPlayer_camera found"
def setCurrentCamera(cam):
'''
Sets the current maya viewport camera.
Args:
cam(string): the camras name you want to set
'''
vpPanel = cmds.getPanel(wf=True)
cmds.lookThru(vpPanel, cam)
def Action_Camera(self, cameraName):
maya_cmds.undoInfo(stateWithoutFlush=False)
try:
if not maya_cmds.objExists(cameraName):
self.Activity_CreateAll()
maya_cmds.lookThru(cameraName)
except Exception as e:
print >> stderr, str(e)
maya_cmds.undoInfo(stateWithoutFlush=True)
def lookThrough(self, cam):
"""Look through given camera.
@param cam: path to camera
@return: None
"""
if system.isMaya():
dag = mc.ls(cam.transform, l=True)
mc.lookThru(dag)
else:
raise (NotImplementedError)
def set_camera_moving():
"""
Set the camera.
"""
#c = cmds.camera(rotation=[0,90,0], position=[100,0,0])
c = cmds.camera(rotation=[-28,45,0], position=[28, 21, 28])
panels = cmds.getPanel( all=True )
cmds.lookThru(c[0])
def _StartTest(self, testName):
cmds.file(force=True, new=True)
mayaUtils.loadPlugin("mayaUsdPlugin")
self._testName = testName
testFile = testUtils.getTestScene("camera", self._testName + ".usda")
mayaUtils.createProxyFromFile(testFile)
globalSelection = ufe.GlobalSelection.get()
globalSelection.clear()
cmds.lookThru('|stage|stageShape,/cam')
self.assertSnapshotClose('%s_unselected.png' % self._testName)
def clearScene(arg):
'''
Deletes all objects and shaders in the scene.
args: Dummy argument needed to satisfy the command interface.
On exit: All objects and shaders in the scene have been deleted, and the active camera
has been changed to the default "persp" camera.
'''
cmds.select(all = True)
cmds.delete()
cmds.lookThru("persp")
def lookThruPlayblastCam():
currentCamShape = get_current_camera()
currentPane = get_active_editor()
database.save_cache('selected_camera', currentCamShape)
database.save_cache('current_pane', currentPane)
cam = cmds.ls("syncSketchPlayer_camera*")
if cam:
cmds.lookThru(cam[0])
cmds.refresh(currentView=True)
else:
print "no syncSketchPlayer_camera found"
def testAnimatedUsdCamera(self):
self._StartTest('camera_xformOp_transform_rotateX')
# at time 1 look through the camera and we should see the cube
cmds.currentTime(1)
cmds.lookThru('|stage|stageShape,/cam')
self.assertSnapshotClose('%s_unselected.png' % self._testName)
# at time 2 the near clip plane increases and the cube is not drawn
cmds.currentTime(2)
self.assertSnapshotClose('%s_insideNearClipPlane.png' % self._testName)
# at time 3 the near clip plane is restored so the cube is drawn, and the camera moves
cmds.currentTime(3)
self.assertSnapshotClose('%s_cameraMoved.png' % self._testName)
def SetupCamera():
cam = cmds.camera()
cmds.lookThru(cam[0])
cmds.setAttr(cam[1] + ".renderable", True)
cmds.setAttr("persp.renderable", False)
cmds.setAttr("top.renderable", False)
cmds.setAttr("front.renderable", False)
cmds.setAttr("side.renderable", False)
cmds.select(cam[0])
cmds.rotate(-20.738, 48.547, -0.414)
cmds.move(24.026, 15.354, 21.047)
cmds.renderSettings(cam=cam[1])
def get_objs_in_camera_view(camera_name, min_frame, max_frame):
mc.lookThru(camera_name)
all_view_obj = []
view = omUI.M3dView.active3dView()
for frame in xrange(min_frame, max_frame + 1):
mc.currentTime(frame, edit=True)
om.MGlobal.selectFromScreen(0, 0, view.portWidth(), view.portHeight(),
om.MGlobal.kReplaceList)
all_view_obj.extend(mc.ls(sl=1))
all_view_obj = list(set(all_view_obj))
return all_view_obj
def runImportLight(self, arg=None):
title = 'Light Template'
allRefs = mc.file(q=True, r=True)
rigGrp = 'Rig:Geo_Grp'
selLight = str(self.ui.light_comboBox.currentText())
self.selLightPath = '%s/%s' % (self.lightRig, selLight)
if not mc.objExists('Light_Grp'):
if not self.selLightPath in allRefs:
mc.file(self.selLightPath, r=True, uns=True, dns=True)
mc.setAttr("vraySettings.relements_usereferenced", 1)
else:
self.messageBox('Warning', 'Light Rig Exists')
if not mc.objExists('cam_grp'):
if not self.turnTableCamera in allRefs:
mc.file(self.turnTableCamera, r=True, uns=True, dns=True)
mc.playbackOptions(min=1)
mc.playbackOptions(max=100)
mc.lookThru('turntable_cam')
mc.setAttr('turntable_camShape.renderable', 1)
allCams = mc.listCameras()
for eachCam in allCams:
shape = mc.listRelatives(eachCam, s=True)[0]
mc.setAttr('%s.renderable' % shape, 0)
if eachCam == 'turntable_cam':
mc.setAttr('%s.renderable' % shape, 1)
mc.setAttr('%s.displayFieldChart' % shape, 1)
mc.setAttr('%s.displayResolution' % shape, 1)
mc.setAttr('%s.overscan' % shape, 1.3)
mc.setAttr('%s.backgroundColor' % shape,
0.5,
0.5,
0.5,
type='double3')
# mc.eval('setAttr "turntable_camShape.backgroundColor" -type double3 0.5 0.5 0.5 ;')
if mc.objExists(rigGrp):
mc.select(rigGrp)
mm.eval('fitPanel -selected;')
mc.currentTime(9)
self.setStatus(title, True)
else:
self.messageBox('Warning', 'Turntable Camera Exists')
def __init__(self, camera=None):
self.__camera = camera
if not self.__camera:
self.__camera = mc.lookThru(q=1)
else:
mc.lookThru(self.__camera)
self.__hud_dict = get_hud_conf()
self.__huds = self.__hud_dict.keys()
self.__hud_color = self.__hud_dict["color"]
self.__huds.remove("color")
OpenMayaUI.MUiMessage.addCameraChangedCallback("modelPanel4",
cam_call_back)
def main():
panels = cmds.getPanel( all=True )
cmds.lookThru(c[0])
cmds.setKeyframe(c[0], attribute='translateY', t=['0sec',], value=20)
cmds.setKeyframe(c[0], attribute='translateY', t=['15sec',], value=0)
cmds.setKeyframe(c[0], attribute='translateZ', t=['3sec',], value=0)
cmds.setKeyframe(c[0], attribute='translateZ', t=['9sec',], value=20)
cmds.setKeyframe(c[0], attribute='rotateX', t=['0sec',], value=-90)
cmds.setKeyframe(c[0], attribute='rotateX', t=['15sec',], value=0)
def makeCamera(name_, environment):
'''
Creates a camera with the given background colour.
name_: The name the camera is given.
environment: The colour the backround for the camera will have.
On exit: A camera with the given background colour has been created and
made active.
'''
camera_ = cmds.camera(n = name_)
cmds.setAttr(camera_[1] + ".backgroundColor", environment[0], environment[1],environment[2])
cmds.camera(camera_[0], edit = True, position = [0,100,250], rotation = [-23,0,0])
cmds.lookThru(camera_[0])
def maintainCamera(panel, camera):
"""Context Manager to allow the client to set the current modelpanel to a
different camera temporary before setting back to the original camera.
:param panel: the maya model panel
:type panel: str
:param camera: the fullpathName of the camera.
:type camera: str
"""
view = om2ui.M3dView()
currentCamera = view.getM3dViewFromModelPanel(panel)
cmds.lookThru(panel, camera)
yield
cmds.lookThru(panel, currentCamera.fullPathName())
def setUI(self, mode, arg = None) :
# multi frame
multi = mc.checkBox('%s_multiCB' % self.ui, q = True, v = True)
if mode == 'getCurrentCamera' :
camera = mc.lookThru(q = True)
mc.textField('%s_crrCameraTX' % self.ui, e = True, tx = camera)
if mode == 'get2DCamera' :
camera = mc.lookThru(q = True)
mc.textField('%s_cameraTX' % self.ui, e = True, tx = camera)
if mode == 'getCurrentTime' :
if multi :
currentTime = str(int(mc.currentTime(q = True)))
currentTimes = self.checkMultiFrame()
if not currentTime in currentTimes :
text = (',').join(currentTimes)
text = (',').join([text, str(currentTime)])
mc.textField('%s_frameTX' % self.ui, e = True, tx = text)
else :
currentTime = int(mc.currentTime(q = True))
mc.textField('%s_frameTX' % self.ui, e = True, tx = currentTime)
if mode == 'getCurrentCameraOM' :
camera = mc.optionMenu('%s_crrCameraOM' % self.ui, q = True, v = True)
mc.textField('%s_crrCameraTX' % self.ui, e = True, tx = camera)
if mode == 'get2DCameraOM' :
camera = mc.optionMenu('%s_cameraOM' % self.ui, q = True, v = True)
mc.textField('%s_cameraTX' % self.ui, e = True, tx = camera)
if mode == 'getNewCamera' :
sel = mc.ls(sl = True)
if sel :
namespace = mayaTools.getNamespace(sel[0])
text = '%s_cam' % namespace
mc.textField('%s_newCameraTX' % self.ui, e = True, tx = text)
if mode == 'onAddLayers' :
mc.textScrollList('%s_renderLayerTSL' % self.ui, e = True, en = True)
if mode == 'offAddLayers' :
mc.textScrollList('%s_renderLayerTSL' % self.ui, e = True, en = False)
def OK_button(self):
input_file_name = self._example.name_line_edit_file.text()
out_file_name = self._example.name_line_edit_file1.text()
cmds.file(input_file_name, reference=True)
currentPose = self.countPose()
Start_Frame = self._example.name_line_edit_frame.text()
End_Frame = self._example.name_line_edit_to.text()
ComboBox_format_name1 = self._example.ComboBox_format.currentText()
ComboBox_format_name = str(ComboBox_format_name1)
ComboBox_resolution_value = self._example.ComboBox_resolution.currentText(
)
ComboBox_resolution_value1 = ComboBox_resolution_value.split("*", 1)
width_value = int(ComboBox_resolution_value1[0])
higth_value = int(ComboBox_resolution_value1[1])
camera_name = cmds.camera(p=(currentPose[0] * 2 + 5,
currentPose[1] * 2 + 5,
currentPose[2] * 2 + 5),
wci=(0, 0, 0))
cmds.move(currentPose[0], currentPose[1], currentPose[2],
camera_name[0] + ".scalePivot",
camera_name[0] + ".rotatePivot")
cmds.playbackOptions(min=int(Start_Frame), max=int(End_Frame))
cmds.rotate(0,
'0',
0,
camera_name[0],
pivot=(currentPose[0], currentPose[1], currentPose[2]))
cmds.setKeyframe(camera_name[0], at='rotateY', t=int(Start_Frame))
cmds.rotate(0,
'360',
0,
camera_name[0],
pivot=(currentPose[0], currentPose[1], currentPose[2]))
cmds.setKeyframe(camera_name[0], at='rotateY', t=int(End_Frame))
cmds.rotate("-17",
0,
0,
camera_name[0],
pivot=(currentPose[0], currentPose[1], currentPose[2]),
ws=1)
cmds.lookThru(camera_name[0])
cmds.playblast(p=60,
wh=(width_value, higth_value),
v=False,
format=ComboBox_format_name,
viewer=False,
f=out_file_name,
cc=1,
st=int(Start_Frame),
et=int(End_Frame))
def switchCamera(self, arg = None) :
cam3D = mc.textField('%s_crrCameraTX' % self.ui, q = True, tx = True)
cam2D = mc.textField('%s_cameraTX' % self.ui, q = True, tx = True)
print cam3D, cam2D
if cam3D and cam2D :
cam = {cam2D: cam3D, cam3D: cam2D}
setting = {cam3D: 'self.setRenderSetting()', cam2D: 'self.restoreRender()'}
currentCam = mc.lookThru(q = True)
if currentCam :
mc.lookThru(cam[currentCam])
eval(setting[currentCam])
def adjustLights(self, *args):
"""Function that looks through the next light for Camera adjustment"""
#Look through a light for easy adjustment
print("adjustLights called\n")
for l in self.lights:
if l == self.currentLight:
lxform = cmds.listRelatives(l, p=1)
print("DEBUG: looking thru: " + lxform[0])
cmds.lookThru("modelPanel4", lxform[0], nc=.001, fc=1000)
if self.currentLight == "keyLightShape":
self.currentLight = "fillLightShape"
elif self.currentLight == "fillLightShape":
self.currentLight = "backLightShape"
else:
self.currentLight = "keyLightShape"
def _maintain_camera(panel, camera):
state = {}
if not _in_standalone():
cmds.lookThru(panel, camera)
else:
state = dict((camera, cmds.getAttr(camera + ".rnd"))
for camera in cmds.ls(type="camera"))
cmds.setAttr(camera + ".rnd", True)
try:
yield
finally:
for camera, renderable in state.iteritems():
cmds.setAttr(camera + ".rnd", renderable)
def _maintain_camera(panel, camera):
state = {}
if not _in_standalone():
cmds.lookThru(panel, camera)
else:
state = dict((camera, cmds.getAttr(camera + ".rnd"))
for camera in cmds.ls(type="camera"))
cmds.setAttr(camera + ".rnd", True)
try:
yield
finally:
for camera, renderable in state.iteritems():
cmds.setAttr(camera + ".rnd", renderable)
def runImportLight(self, arg = None) :
title = 'Light Template'
allRefs = mc.file(q = True, r = True)
rigGrp = 'Rig:Geo_Grp'
selLight = str(self.ui.light_comboBox.currentText())
self.selLightPath = '%s/%s' % (self.lightRig, selLight)
if not mc.objExists('Light_Grp') :
if not self.selLightPath in allRefs :
mc.file(self.selLightPath,r=True, uns=True, dns=True )
mc.setAttr( "vraySettings.relements_usereferenced", 1)
else :
self.messageBox('Warning', 'Light Rig Exists')
if not mc.objExists('cam_grp') :
if not self.turnTableCamera in allRefs :
mc.file(self.turnTableCamera, r=True, uns=True, dns=True)
mc.playbackOptions( min=1 )
mc.playbackOptions( max=100 )
mc.lookThru('turntable_cam')
mc.setAttr('turntable_camShape.renderable', 1)
allCams = mc.listCameras()
for eachCam in allCams :
shape = mc.listRelatives(eachCam, s = True)[0]
mc.setAttr('%s.renderable' % shape, 0)
if eachCam == 'turntable_cam' :
mc.setAttr('%s.renderable' % shape, 1)
mc.setAttr('%s.displayFieldChart' % shape, 1)
mc.setAttr('%s.displayResolution' % shape, 1)
mc.setAttr('%s.overscan' % shape, 1.3)
mc.setAttr('%s.backgroundColor' % shape, 0.5, 0.5, 0.5, type = 'double3')
# mc.eval('setAttr "turntable_camShape.backgroundColor" -type double3 0.5 0.5 0.5 ;')
if mc.objExists(rigGrp) :
mc.select(rigGrp)
mm.eval('fitPanel -selected;')
mc.currentTime(9)
self.setStatus(title, True)
else :
self.messageBox('Warning', 'Turntable Camera Exists')
def CameraToPopDist( self ):
camPos = Vector(mc.xform(mc.lookThru(q=True),q=True,t=True))
if self.nearestRoot:
popPos = Vector(mc.objectCenter(self.nearestRoot))
else:
popPos = self.FindNearestObjectToCamera()
return (camPos-popPos).mag()
def duplicate_camera(self, camera=None, name="shotCam_#"):
camera = camera or self.name
duplicate = cmds.duplicate(camera, name=name + '_#')[0]
for attr in ('translate', 'rotate'):
cmds.setAttr(duplicate + '.' + attr, lock=0)
for ax in ('X', 'Y', 'Z'):
cmds.setAttr(duplicate + '.' + attr + ax, lock=0)
if (cmds.listRelatives(duplicate, parent=True)):
cmds.parent(duplicate, world=True)
cmds.lookThru(duplicate)
return duplicate
def lookThruAndFrame(obj):
"""
Looks through the given obj and moves the obj so that it frames the viewport objects.
:param obj: The camera or light object.
:return: None
"""
cmds.lookThru(obj)
# Position the active camera to view the active objects
pm.viewFit()
# Position cameraShape-1 to view all objects
pm.viewFit(obj, all=True)
# Fill 50 percent of the active view with active objects
pm.viewFit(f=0.5)
pm.viewFit(all=True)
def HbImportReCam(self, projectInfo, Name):
questSets = mc.optionMenu("EPNUM", q=True, v=True)
questEP = mc.optionMenu("EP", q=True, v=True)
AllObj = mc.ls(sl=1)
path = "//file-cluster/GDC/Projects/" + projectInfo + "/" + projectInfo + "_Scratch/TD/SetCam/" + questEP + "/" + questSets + "/"
questMat = mc.ls(Name.split(".")[0])
if len(questMat) == 0:
try:
file(path + Name.replace(".bmp", ".mb"), i=True)
mc.lookThru (Name.split(".")[0])
except:
pass
if len(questMat) != 0:
result = mc.confirmDialog(title='Confirm', message='there hase the same camera in the sences', button=['Yes'], defaultButton='Yes')
return
def createCtrl():
animFixCtrl=mc.textCurves(ch=0,o=1,f='Times New Roman|w400|h-1',t='AnimFixCtrl',n='Ctrl_AnimFix')
curveShapes=mc.listRelatives(animFixCtrl,allDescendents=1,type='nurbsCurve')
children=mc.listRelatives(animFixCtrl,children=1)
makeCurve=mc.listConnections(children[0],s=1)
mc.delete(makeCurve)
mc.makeIdentity(animFixCtrl,apply=1)
for i in curveShapes:
mc.parent(i,animFixCtrl,s=1,add=1)
mc.delete(children)
animFixCtrl=mc.rename(animFixCtrl,'animFixCtrl')
mc.setAttr(animFixCtrl+".overrideEnabled",1)
mc.setAttr(animFixCtrl+".overrideColor",17)
mc.setAttr("animFixCtrl.tx",keyable=0,channelBox=1)
mc.setAttr("animFixCtrl.ty",keyable=0,channelBox=1)
mc.setAttr("animFixCtrl.tz",keyable=0,channelBox=1)
mc.setAttr("animFixCtrl.rx",keyable=0,channelBox=1)
mc.setAttr("animFixCtrl.ry",keyable=0,channelBox=1)
mc.setAttr("animFixCtrl.rz",keyable=0,channelBox=1)
mc.setAttr("animFixCtrl.sx",keyable=0,channelBox=1)
mc.setAttr("animFixCtrl.sy",keyable=0,channelBox=1)
mc.setAttr("animFixCtrl.sz",keyable=0,channelBox=1)
mc.setAttr("animFixCtrl.v",keyable=0,channelBox=1)
activeCam=mc.lookThru(q=1)
ctrlGrp=mc.group(animFixCtrl,n='animFixCtrlGRP')
mainGrp=mc.group(em=1,n='animFixGrp')
mc.parent(ctrlGrp,activeCam)
mc.xform(ctrlGrp,a=1,os=1,t=[0.3,0.7,-5],ro=[0,0,0])
mc.parent(ctrlGrp,mainGrp)
mc.parentConstraint(activeCam,ctrlGrp,mo=1)
mc.select(animFixCtrl,r=1)
def lookThruAndFrame(obj):
"""
Looks through the given obj and moves the obj so that it frames the viewport objects.
:param obj: The camera or light object.
:return: None
"""
cmds.lookThru(obj)
# Position the active camera to view the active objects
pm.viewFit()
# Position cameraShape-1 to view all objects
pm.viewFit(obj, all=True)
# Fill 50 percent of the active view with active objects
pm.viewFit(f=0.5)
pm.viewFit(all=True)
def saveScreenshot(self, name, directory):
"""
Saves screenshot out to disk
Args:
name: Name of the screenshot
directory: Directory to save into
"""
# get camera, current position and focus object
cameraName = cmds.lookThru(q=True)
prevPosition = cmds.getAttr("{0}.translate".format(cameraName))
objName = cmds.ls(sl=True, l=True)
if objName:
objName = objName[0]
else:
cmds.error("No object has been selected")
# frame camera to object
cmds.viewFit() # 'f' on keyboard
distance = lib.distanceBetween(cameraName, objName)
frameDistance = distance * 0.5
cmds.dolly(cameraName, d=-frameDistance)
# take screenshot
screenshotDir = mnpr_system.renderFrame(os.path.join(directory, name),
100, 100, 1, ".jpg")
# bring camera back to normal
lib.setAttr(cameraName, "translate", prevPosition)
return screenshotDir
def get_object_of_shot(shot):
start_frame = int(mc.getAttr("%s.startFrame" % shot))
end_frame = int(mc.getAttr("%s.endFrame" % shot))
camera = mc.listConnections("%s.currentCamera" % shot)[0]
if not camera:
return
mc.lookThru(camera)
selected_objects = list()
for frame in xrange(start_frame, end_frame + 1):
select_current_view_objects.select_current_view_objects()
frame_selected_objects = mc.ls(sl=1, r=1)
selected_objects.extend(frame_selected_objects)
if selected_objects:
selected_objects.append(camera)
selected_objects = list(set(selected_objects))
return selected_objects
def getCam():
"""
"""
panel = cmds.getPanel(wf=True)
#cam = cmds.modelEditor(panel, q = True, camera = True)
cam = cmds.lookThru(q=True)
return cam
def TraceGesturePress( self ):
""" Procedure called on press """
if debug>0: print("begin PRESS")
# Clean up: if there are any locators or groups in the scene, delete them
if( len(mc.ls("locator*")) > 0 ):
mc.delete(mc.ls("locator*"))
if( len(mc.ls("*Grp")) > 0 ):
mc.delete(mc.ls("*Grp"))
# find the position of the mouse click
pressPosition = Vector( mc.draggerContext( 'TraceGesture', query=True, anchorPoint=True) )
camPos = self.CameraPosition()
viewAxis = self.CameraViewAxis()
closestObj2Cam = self.FindNearestObjectToCamera()
self.interactionPlane = Plane(viewAxis,closestObj2Cam)
pressPosition = self.FindRayPlaneIntersect( camPos, pressPosition, self.interactionPlane )
if debug > 0:
mc.group(n="traceGrp",empty=True)
loc = mc.spaceLocator(p=pressPosition)
mc.parent(loc,"traceGrp")
for root in self.xformRoots:
# remember whether (or not) the motion paths for a root were visible when the interaction started
self.motionPathsVisible[root] = mc.getAttr("%s_MotionTraces.visibility"%root)
# set up all the traces
self.trace[root].Clear()
# set the trace normal to the viewing normal of the camera
self.trace[root].normal = self.interactionPlane.normal #Vector( mc.xform(mc.lookThru(q=True), q=True, m=True)[8:11] )
self.trace[root].planePt = self.interactionPlane.point #closestObj2Cam
self.nearestRoot, rootDist = self.FindNearestRoot( pressPosition, self.interactionPlane )
mc.setAttr("%s_MotionTraces.visibility"%self.nearestRoot, 1) # vis the new display layer
# make a group to hold the trace locators
if debug > 0:
mc.group(name="trace%sGrp"%self.nearestRoot,empty=True)
loc = mc.spaceLocator(p=pressPosition)
mc.parent(loc,"trace%sGrp"%self.nearestRoot)
# reset the trace
self.trace[self.nearestRoot].Clear()
# start the timer
self.startTime = time.time()
# set the trace normal to the viewing normal of the camera
self.trace[self.nearestRoot].normal = Vector( mc.xform(mc.lookThru(q=True), q=True, m=True)[8:11] )
self.trace[self.nearestRoot].planePt = closestObj2Cam
# add the initial click position to the trace
self.trace[self.nearestRoot].AddPoint( pressPosition )
self.nearestPath, pathDist = self.FindNearestMotionPath( pressPosition, self.nearestRoot )
if not mc.draggerContext( 'TraceGesture', query=True, modifier=True) == "ctrl":
self.trace[self.nearestRoot].SetUpDTWs()
mc.refresh(currentView=True,force=True)
if debug>0: print("end PRESS")
def SetUpDTWs( self ):
""" Initializes the DTWs """
del self.dtws[:]
do_subsequence = True
selfData = [ [self.points[t].x, self.points[t].y, self.points[t].z] for t in sorted(self.points.keys()) ]
for joint in sorted(self.searchList.keys()):
jointMotionPath = self.searchList[joint]
currentCam = mc.lookThru(q=True)
camPos = Vector(mc.xform(currentCam,q=True,t=True))
otherData = [ Plane(self.normal,self.planePt).intersectWithRay( camPos, jointMotionPath.points[t] ).asList() for t in sorted(jointMotionPath.points.keys()) ]
self.dtws.append( DTW( selfData, otherData, do_subsequence ) )
def init():
"""Initiate camera name comparison."""
global customPBcamTmp
customPBcamTmp = ""
if customPBcam == "":
if check_camera_name() is False:
destroyWindow()
blast()
elif check_camera_name() is True:
draw_warning('DefaultCameraChecker', pbContinue, setTempCam)
else:
cmds.warning("Activate a viewport and try again.")
else:
activepanel = cmds.getPanel(withFocus=True)
cam = cmds.modelEditor(activepanel, query=True, camera=True)
cmds.lookThru(activepanel, customPBcam) # Global default PB cam
blast()
cmds.lookThru(activepanel, cam) # Return to original camera
def set_camera1():
"""
Set the camera.
"""
#c = cmds.camera(rotation=[0,90,0], position=[100,0,0])
c = cmds.camera(rotation=[60,90,0], position=[8, -7, 2])
panels = cmds.getPanel( all=True )
cmds.lookThru(c[0])
cmds.setKeyframe(c, attribute='translateX', t='0sec', value=8)
cmds.setKeyframe(c, attribute='translateY', t='0sec', value=-10)
cmds.setKeyframe(c, attribute='centerOfInterest', t='0sec', value=12)
cmds.setKeyframe(c, attribute='translateX', t='10sec', value=25)
cmds.setKeyframe(c, attribute='translateY', t='10sec', value=-40)
cmds.setKeyframe(c, attribute='centerOfInterest', t='10sec', value=45)
def runRemoveLight(self, arg = None) :
files = mc.file(q = True, r = True)
elements = mc.ls(type = 'VRayRenderElement')
if elements :
mc.delete(elements)
print 'Remove Elements %s' % elements
if self.selLightPath in files :
mc.file(self.selLightPath, rr=True)
print 'remove light rig'
else :
if mc.objExists('Light_Grp') :
path = mc.referenceQuery('Light_Grp', f = True)
mc.file(path, rr = True)
if self.turnTableCamera in files :
mc.file(self.turnTableCamera, rr=True)
mc.lookThru('persp')
print 'remove camera'
def set_camera2():
"""
Set the camera.
"""
c = cmds.camera(rotation=[0,90,0], position=[0,0,0])
panels = cmds.getPanel( all=True )
cmds.lookThru(c[0])
cmds.setKeyframe(c, attribute='translateX', t='0sec', value=100)
cmds.setKeyframe(c, attribute='translateY', t='0sec', value=0)
cmds.setKeyframe(c, attribute='translateZ', t='0sec', value=0)
cmds.setKeyframe(c, attribute='translateX', t='12sec', value=100)
cmds.setKeyframe(c, attribute='translateY', t='12sec', value=0)
cmds.setKeyframe(c, attribute='translateZ', t='12sec', value=60)
cmds.setKeyframe(c, attribute='translateX', t='20sec', value=18)
cmds.setKeyframe(c, attribute='translateY', t='20sec', value=-50)
cmds.setKeyframe(c, attribute='translateZ', t='20sec', value=100)
cmds.setKeyframe(c, attribute='rotateX', t='13.5sec', value=0)
cmds.setKeyframe(c, attribute='rotateX', t='20sec', value=75)
def ClosestTimeTo( self, point, plane=None ):
""" Returns the closest point in this trajectory to the given point in 3d space (or 2d if plane is defined) """
if not type(point) == Vector:
point = Vector(point)
if plane:
point = point.projectToPlane(plane.normal,planePt=plane.point)
minDist = float("inf")
ft = None
camPos = Vector( mc.xform(mc.lookThru(q=True), q=True, t=True) )
for i,t in enumerate(sorted(self.points.keys())):
p = self.points[t]
if plane:
p = p.projectToPlane(plane.normal,planePt=plane.point)
dist = (point-p).mag()
else:
ray = (p-camPos).norm() # build a ray from the camera to the path point in question
dist = ray.cross(point-p).mag()
if minDist > dist:
minDist = dist
ft = t
return ft # return the key of the closest point in the points dictionary
def pbContinue(makeDefault, makeDefaultMenu, *args):
"""Confirm playblasting."""
activepanel = cmds.getPanel(withFocus=True)
cam = cmds.modelEditor(activepanel, query=True, camera=True)
global customPBcam
if cmds.checkBox(makeDefault, query=True, value=True) is True:
customPBcam = customPBcamTmp
cmds.lookThru(activepanel, customPBcam) # Global default PB cam
blast()
cmds.lookThru(activepanel, cam) # Return to original camera
destroyWindow()
else:
if customPBcamTmp != "":
cmds.lookThru(activepanel, customPBcamTmp) # Temp PB cam
blast()
cmds.lookThru(activepanel, cam) # Return to original camera
destroyWindow()
else:
cmds.warning("Please select a camera from the dropdown menu")
def TraceGestureDrag( self ):
""" Procedure called on drag """
# find the current position of the mouse drag
if debug>0: print("begin DRAG")
if not mc.draggerContext( 'TraceGesture', query=True, modifier=True) == 'shift':
if self.nearestRoot in self.selectedMotions.keys():
for sm in self.selectedMotions[ self.nearestRoot ]:
if mc.objExists(sm):
mc.delete( sm )
del self.selectedMotions[ self.nearestRoot ]
currentCam = mc.lookThru(q=True)
camPos = Vector(mc.xform(currentCam,q=True,t=True))
dragPosition = Vector( mc.draggerContext( 'TraceGesture', query=True, dragPoint=True) )
dragPosition = self.FindRayPlaneIntersect( camPos, dragPosition, Plane(self.trace[self.nearestRoot].normal,self.trace[self.nearestRoot].planePt) )
# find the last recorded drag position
lastDragPosition = self.trace[self.nearestRoot].points[ sorted(self.trace[self.nearestRoot].points.keys())[-1] ]
# find the drag distance
dragDist = (dragPosition-lastDragPosition).mag()
# if far enough away from last drag position, add a new trace point and re-solve the DTWs
if dragDist > self.dragDensity :
self.trace[self.nearestRoot].AddPoint( dragPosition )
if debug > 0:
loc = mc.spaceLocator(p=dragPosition)
mc.parent(loc,"traceGrp")
if self.trace[self.nearestRoot].timespan and len(self.trace[self.nearestRoot].points) > 4*self.substeps and \
not mc.draggerContext( 'TraceGesture', query=True, modifier=True) == "ctrl":
if debug > 0: print "DTW solved to timespan of ",trace[nearestRoot].timespan
mc.currentTime( self.trace[self.nearestRoot].timespan[1] )
if dragDist > self.dragDensity:
mc.refresh(currentView=True,force=True)
elif dragDist > self.dragDensity:
if debug > 0: print "No DTW, attempting closest path... point..."
self.ScrubToNearestTimeOnPath( dragPosition, self.nearestRoot, self.nearestPath )
if debug>0: print("end DRAG")
def switch_persp_panel():
current_model = cmds.getPanel(wf=True)
current_camera = cmds.modelEditor(current_model,q=True,cam=True)
persp_cameras = cmds.listCameras(p=True)
print persp_cameras
try:
if(camera_type(current_camera) == "orthographic"):
cmds.lookThru("persp")
else:
if(len(persp_cameras) > 1):
for c,n in itu.pairwise(persp_cameras):
if(current_camera == c):
if(persp_cameras.index(c) == (len(persp_cameras)-1)):
cmds.lookThru(persp_cameras[0])
else:
print n
cmds.lookThru(n)
except:
print "No persp camera, create a new persp camera!"
second_degrees = 60 * minute_degrees
def set_keyframes(t):
cmds.setKeyframe(hours, attribute='rotateY', t=['0sec',], value=0)
cmds.setKeyframe(minutes, attribute='rotateY', t=['0sec',], value=0)
#cmds.setKeyframe(seconds, attribute='rotateY', t=['0sec',], value=0)
cmds.setKeyframe(hours, attribute='rotateY', t=[str(t) + 'sec',], value=hour_degrees)
cmds.setKeyframe(minutes, attribute='rotateY', t=[str(t) + 'sec',], value=minute_degrees)
#cmds.setKeyframe(seconds, attribute='rotateY', t=[str(t) + 'sec',], value=second_degrees)
set_keyframes(10)
cmds.lookThru('top')
"""
c1 = cmds.circle(nr=(0,1,0), c=(1,0,0), r=1)
c2 = cmds.circle(nr=(0,1,0), c=(-1,0,0), r=1)
c3 = cmds.circle(nr=(0,1,0), c=(0,0,1.7), r=1)
c4 = cmds.circle(nr=(0,1,0), c=(0,0,.5), r=2)
c5 = cmds.circle(nr=(0,1,0), c=(0,0,0), r=.5)
g = cmds.group(c1,c2,c3,name='g')
g2 = cmds.group(g,c4,c5,name='g2')
cmds.setKeyframe('g2', attribute='rotateY', t=['0sec',], value=0)
cmds.setKeyframe('g2', attribute='rotateY', t=['3sec',], value=720)
