Exemplo n.º 1
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def play_scrub(multiplier):
    import time
    from PySide2.QtGui import QCursor

    mouse_last = hou.getenv("mouse", "0")
    mouse_last = float(mouse_last)
    mouse_now = QCursor().pos()

    time_now = time.time()
    time_last = hou.getenv("time", "0")
    time_last = float(time_last)
    time_diff = time_now - time_last

    mouse_now = round(mouse_now.x() / 10)

    if time_diff > 0.1:
        mouse_last = mouse_now

    skip = mouse_last - mouse_now
    skip = skip * multiplier
    if abs(skip) > 20:
        skip = skip * 2

    frame_now = hou.frame()
    frame_now = hou.frame() - skip
    hou.setFrame(frame_now)

    hou.putenv("mouse", str(mouse_now))
    hou.putenv("time", str(time_now))
Exemplo n.º 2
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def frame(node):
    fWrite = '.0001'
    fLoad = '.0001'
    if node:
        f = hou.frame()
        if node.parm("frame"):
            f = float(node.evalParm("frame"))

        timeRange = hou.playbar.timelineRange()
        if node.parm("f1"):
            f1 = float(int(node.evalParm("f1")))
        else:
            f1 = timeRange[0]
        if node.parm("f2"):
            f2 = float(int(node.evalParm("f2")))
        else:
            f2 = timeRange[1]
        if node.parm("f3"):
            f3 = float(node.evalParm("f3"))
        else:
            f = 1

        fClampWrite = max(min(hou.frame(), f2), f1)
        fClampLoad = max(min(f, f2), f1)
        fIntWrite = "." + str(int(float(fClampWrite))).zfill(4)
        fIntLoad = "." + str(int(float(fClampLoad))).zfill(4)
        fDecWrite = str(fClampWrite % 1).strip("0")
        fDecLoad = str(fClampLoad % 1).strip("0")
        fWrite = fIntWrite + ("" if
                              (float(fClampWrite) % 1 == 0) else fDecWrite)
        fLoad = fIntLoad + ("" if (float(fClampLoad) % 1 == 0) else fDecLoad)

    return fWrite, fLoad
Exemplo n.º 3
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def _getFrameRangeFromRopRecurse(rop):
    """Helper function for _getFrameRangeFromRop().

    Recursively traverses nodes to find the desired frame range.
    """
    import hou

    start_frame = None
    end_frame = None
    frame_incr = None

    if rop.type().name() == "merge":

        # For Merge ROPs,
        # the start frame is the min. start frame of its inputs,
        # the end frame is the max. end frame of its inputs,
        # and the increment is the min. increment of its inputs.
        for input_rop in rop.inputs():
            in_start, in_end, in_inc = _getFrameRangeFromRopRecurse(input_rop)
            if start_frame is None or in_start < start_frame:
                start_frame = in_start
            if end_frame is None or in_end > end_frame:
                end_frame = in_end
            if frame_incr is None or in_inc < frame_incr:
                frame_incr = in_inc
    elif rop.type().name() == "fetch":
        # Get the frame range from the fetched ROP.
        source_rop = _getFetchedROP(rop)
        start_frame, end_frame, frame_incr = \
            _getFrameRangeFromRopRecurse(source_rop)
    else:
        # Get the start, end and increment frame values.
        # If trange absent, we assume the full range.
        if (rop.parm('trange') is not None) and (rop.evalParm("trange") == 0):
            start_frame = int(hou.frame())
            end_frame = int(hou.frame())
            frame_incr = 1
        elif rop.parmTuple("f") is not None:
            start_frame = int(rop.evalParm("f1"))
            end_frame = int(rop.evalParm("f2"))
            frame_incr = int(rop.evalParm("f3"))
        else:
            # The node does not have a frame range parameter set.
            # Try searching for the frame range on its input nodes.
            for input_node in rop.inputs():
                start_frame, end_frame, frame_incr = \
                    _getFrameRangeFromRopRecurse(input_node)
                if start_frame is not None:
                    break

    if frame_incr is not None and frame_incr <= 0:
        frame_incr = 1

    return (start_frame, end_frame, frame_incr)
Exemplo n.º 4
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 def update_object(self, node_object, node_context):
     self.cache_node.node = node_object
     self.cache_node.context = node_context
     self.cache_node.f_range = node_object.parm("trange").eval()
     self.cache_node.frame_increment = node_object.parm("f3").eval()
     self.cache_node.file_path = node_object.parm("sopoutput").rawValue()
     if node_context == "SOP":
         self.cache_node.file_path = node_object.parent().parm(
             "file").rawValue()
     if self.cache_node.f_range:
         self.cache_node.frame_start = int(node_object.parm("f1").eval())
         self.cache_node.frame_end = int(node_object.parm("f2").eval())
     else:
         self.cache_node.frame_start = int(hou.frame())
         self.cache_node.frame_end = int(hou.frame())
Exemplo n.º 5
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def get_current_frame():
    """
    Return current Maya frame set in time slider
    :return: int
    """

    return hou.frame()
Exemplo n.º 6
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def cache_path(mode='path'):
    node = hou.pwd()

    name = node.evalParm('cache_name')

    if node.evalParm('enable_version'):
        ver = '_v{0:0>3}'.format(node.evalParm('version'))
    else:
        ver = ''

    if node.evalParm('trange') > 0:
        frame = '.{0:0>4}'.format(int(hou.frame()))
    else:
        frame = ''

    ext = node.evalParm('ext')

    full_name = '{name}{ver}{frame}{ext}'.format(name=name,
                                                 ver=ver,
                                                 frame=frame,
                                                 ext=ext)

    path = util.fix_path(os.path.join(node.evalParm('cache_dir'), full_name))

    if mode == 'path':
        return path
    elif mode == 'name':
        return full_name
    else:
        return
Exemplo n.º 7
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    def deleteExistingGhostAtFrame(self, ghost_geo_folder, ghost_mat_folder,
                                   ghosts):
        """Deletes a ghost at the current frame.

        INPUTS:
        ghosts -- selected objects
        ghost_mat_folder -- ghost shader network folder
        ghost_geo_folder -- ghost folder
        """
        with hou.undos.group("Delete Ghost"):
            current_frame = hou.frame()
            for ghost in ghosts:
                ghost_name = ghost.name()
                existing_ghost_mat = hou.node(
                    '/obj/InBetween_ghost_folder/ghost_shaders/' + ghost_name +
                    '_ghost_mat' + '_frame_' + str(current_frame))
                if existing_ghost_mat:
                    for node in ghost_geo_folder.glob(ghost_name + "*" +
                                                      '_frame_' +
                                                      str(current_frame)):
                        node.destroy()
                    for mat in ghost_mat_folder.glob(ghost_name +
                                                     '_ghost_mat' + '_frame_' +
                                                     str(current_frame)):
                        mat.destroy()
Exemplo n.º 8
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    def destroy_archive(self):
        """Remove the archives of the disk and its dependencies."""
        if not self.saveto_parm.eval(): return
        user_confirm = hou.ui.displayConfirmation(
            'Do you want to remove cached archive(s)?',
            severity=hou.severityType.Warning,
            title='pxrlightarrays')
        if not user_confirm: return

        delayed_archive = self.find_node(parent=hou.node('/shop'),
                                         node_type='pxrdelayedreadarchive::22')
        if delayed_archive:
            geo_archive = self.find_node(parent=hou.node('/obj'),
                                         node_type='geo',
                                         archive=delayed_archive)
            if geo_archive:
                geo_archive.destroy()
            delayed_archive.destroy()

        with hou.InterruptableOperation(
                'Performing', 'Removing archive(s)',
                open_interrupt_dialog=True) as operation:
            if self.time_range:
                for current_frame in self.frame_range:
                    percent = current_frame / float(len(self.frame_range))
                    operation.updateLongProgress(percent,
                                                 'Frame: %s' % current_frame)
                    saveto_parm = self.saveto_parm.evalAtFrame(current_frame)
                    if os.path.exists(saveto_parm):
                        os.remove(saveto_parm)
            else:
                operation.updateLongProgress(1, 'Frame: %s' % hou.frame())
                if os.path.exists(self.saveto_parm.eval()):
                    os.remove(self.saveto_parm.eval())
Exemplo n.º 9
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    def set_frame_range(self, start_frame=1, end_frame=100, adjust_frame_range=False):
        """sets the frame range
        """
        # --------------------------------------------
        # set the timeline
        current_frame = hou.frame()
        if current_frame < start_frame:
            hou.setFrame(start_frame)
        elif current_frame > end_frame:
            hou.setFrame(end_frame)

        # for now use hscript, the python version is not implemented yet
        hou.hscript(
            'tset `(' + str(start_frame) + '-1)/$FPS` `' + str(
                end_frame) + '/$FPS`'
        )

        # --------------------------------------------
        # Set the render nodes frame ranges if any
        # get the out nodes
        output_nodes = self.get_output_nodes()

        for output_node in output_nodes:
            output_node.setParms(
                {'trange': 0, 'f1': start_frame, 'f2': end_frame, 'f3': 1}
            )
Exemplo n.º 10
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  def fetch_data_from_mantra_node(input_node):
    """Collects data form Mantra input node.

    Assumes that input node is Mantra node

    Args:
      input_node: hou.Node, Mantra node.

    Returns:
      {str, object}, Submission parameters.
    """
    output_picture = input_node.parm('vm_picture').unexpandedString()

    result = dict(
      output_filename=os.path.basename(output_picture),
      renderer='mantra',
      renderer_version=hou.applicationVersion(),
      render_current_frame=False
    )

    if input_node.parm('trange').evalAsString() == 'off':
      current_frame = hou.frame()
      result['frame_begin'] = current_frame
      result['frame_end'] = current_frame
      result['step'] = 1
      # Resolution limits only apply to non- and limited-commercial, so "Render Current Frame"
      # isn't needed otherwise.
      result['render_current_frame'] = (hou.licenseCategory() != hou.licenseCategoryType.Commercial)
    else:
      result['frame_begin'] = input_node.parm('f1').eval()
      result['frame_end'] = input_node.parm('f2').eval()
      result['step'] = input_node.parm('f3').eval()

    return result
Exemplo n.º 11
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    def render(self, preview=True):
        renderFolder = hou.getenv('HIP') + '/render'
        if not os.path.exists(renderFolder):
            os.makedirs(renderFolder)

        prevFrame = hou.frame()
        prevDelay = self.pane.delay()
        prevUpdateTime = self.pane.updateTime()
        prevPreview = self.pane.isPreviewOn()

        self.pane.setDelay(0)
        self.pane.setUpdateTime(0.2)
        self.pane.setPreview(preview)

        start = self.frames[0]
        end = self.frames[1] + 1
        inc = self.frames[2]

        for frame in range(start, end, inc):
            hou.setFrame(frame)
            self.pane.resumeRender()
            time.sleep(self.renderTime)
            self.pane.pauseRender()
            self.saveFrame(frame)

        hou.setFrame(prevFrame)
        self.pane.setDelay(prevDelay)
        self.pane.setUpdateTime(prevUpdateTime)
        self.pane.setPreview(prevPreview)
Exemplo n.º 12
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  def fetch_data_from_arnold_node(input_node):
    """Collects data form Arnold input node.

    Assumes that input node is Arnold node

    Args:
      input_node: hou.Node, Arnold node.

    Returns:
      {str, object}, Submission parameters.
    """
    output_picture = input_node.parm('ar_picture').unexpandedString()

    result = dict(
      output_filename=os.path.basename(output_picture),
      renderer='arnold'
    )

    if input_node.parm('trange').evalAsString() == 'off':
      current_frame = hou.frame()
      result['frame_begin'] = current_frame
      result['frame_end'] = current_frame
      result['step'] = 1
    else:
      result['frame_begin'] = input_node.parm('f1').eval()
      result['frame_end'] = input_node.parm('f2').eval()
      result['step'] = input_node.parm('f3').eval()

    return result
Exemplo n.º 13
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    def saveprojectAs(self):
        cur_desktop = hou.ui.curDesktop()
        scene = cur_desktop.paneTabOfType(hou.paneTabType.SceneViewer)
        a = hou.hipFile.name()

        k = a.split('/')
        hip = ''

        hip = hou.ui.selectFile(title='Save',
                                file_type=hou.fileType.Hip,
                                start_directory=self.projpath)
        if hip != '':
            hou.hipFile.save(file_name=hip)

        f = hou.frame()
        fn = hou.hipFile.basename().split('.')
        del fn[-1]
        filename = '.'.join(fn)
        path = hou.hipFile.path().split('/')
        del path[-1]
        filepath = '/'.join(path) + '/_thumbnails/' + filename + '.jpg'
        newpath = '/'.join(path) + '/_thumbnails'
        if not os.path.exists(newpath):
            os.makedirs(newpath)

        flip_options = scene.flipbookSettings().stash()
        flip_options.frameRange((f, f))
        flip_options.useResolution(1)
        flip_options.resolution((500, 500))
        flip_options.output(filepath)
        scene.flipbook(scene.curViewport(), flip_options)
        self.CreateInterface()
Exemplo n.º 14
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    def set_frame_range(self,
                        start_frame=1,
                        end_frame=100,
                        adjust_frame_range=False):
        """sets the frame range
        """
        # --------------------------------------------
        # set the timeline
        current_frame = hou.frame()
        if current_frame < start_frame:
            hou.setFrame(start_frame)
        elif current_frame > end_frame:
            hou.setFrame(end_frame)

        # for now use hscript, the python version is not implemented yet
        hou.hscript('tset `(' + str(start_frame) + '-1)/$FPS` `' +
                    str(end_frame) + '/$FPS`')

        # --------------------------------------------
        # Set the render nodes frame ranges if any
        # get the out nodes
        output_nodes = self.get_output_nodes()

        for output_node in output_nodes:
            output_node.setParms({
                'trange': 0,
                'f1': start_frame,
                'f2': end_frame,
                'f3': 1
            })
Exemplo n.º 15
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    def save_edit(self):
        _current_hip = hou.hipFile.name()
        if len(_current_hip.split("/")) ==0:
            pass
        else:
            # 截图功能
            _current_desktop = hou.ui.curDesktop()
            _scene_viewer = _current_desktop.paneTabOfType(hou.paneTabType.SceneViewer)

            _current_frame = hou.frame()
            _jpg_path = hou.hipFile.name().split(".")[0]
            _jpg_file_path = _jpg_path+".jpg"

            #getFlipbook
            _flip_options = _scene_viewer.flipbookSettings().stash()

            #SetFlipbook
            _flip_options.frameRange((_current_frame,_current_frame))
            _flip_options.outputToMPlay(0)
            _flip_options.useResolution(1)
            _flip_options.resolution((500,500))
            _flip_options.output(_jpg_file_path)

            #RunFlipbook
            _scene_viewer.flipbook(_scene_viewer.curViewport(), _flip_options)

            if self.text2.textColor().rgb()==4294901760:
                _documentation_path = _jpg_path+".txt"
                _documentation_text = self.text2.toPlainText()
                _f = open(_documentation_path, 'w')
                _f.write(_documentation_text)
                _f.close()
            else:
                pass
Exemplo n.º 16
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    def fetch_data_from_mantra_node(input_node):
        """Collects data form Mantra input node.

    Assumes that input node is Mantra node

    Args:
      input_node: hou.Node, Mantra node.

    Returns:
      {str, object}, Submission parameters.
    """
        output_picture = input_node.parm('vm_picture').unexpandedString()

        result = dict(output_filename=os.path.basename(output_picture),
                      renderer='mantra',
                      renderer_version=hou.applicationVersion(),
                      render_current_frame=False)

        if input_node.parm('trange').evalAsString() == 'off':
            current_frame = hou.frame()
            result['frame_begin'] = current_frame
            result['frame_end'] = current_frame
            result['step'] = 1
            # Resolution limits only apply to non- and limited-commercial, so "Render Current Frame"
            # isn't needed otherwise.
            result['render_current_frame'] = (
                hou.licenseCategory() != hou.licenseCategoryType.Commercial)
        else:
            result['frame_begin'] = input_node.parm('f1').eval()
            result['frame_end'] = input_node.parm('f2').eval()
            result['step'] = input_node.parm('f3').eval()

        return result
Exemplo n.º 17
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def build_scriptargs(node=None):
    """Build relevant scriptargs for this action.

    :param node: Optionally rendering node.
    :type node: hou.RopNode
    :return: Data related to the running script parm.
    :rtype: dict

    """
    frame_range = None

    if node is not None:
        trange_parm = node.parm("trange")

        if trange_parm is not None:
            if trange_parm.evalAsString() != "off":
                frame_range = node.evalParmTuple("f")

    scriptargs = {
        "node": node,
        "frame": hou.frame(),
        "frame_range": frame_range,
        "time": time.time(),
    }

    if node is not None:
        scriptargs["path"] = _get_target_file(node)

    return scriptargs
Exemplo n.º 18
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    def pickGhostColor(self, color, alpha):
        """Change the color of the current ghost.

        INPUT:
        color -- color object from Color Editor
        alpha -- alpha from Color Editor
        """
        new_color = QtGui.QColor.fromRgbF(color.rgb()[0],
                                          color.rgb()[1],
                                          color.rgb()[2])
        self.ghostColorLabel.setStyleSheet("QLabel {background-color: " +
                                           new_color.name() + ";}")
        if hou.node("/obj/InBetween_ghost_folder/ghost_shaders/"):
            current_frame = hou.frame()
            ghost_mat_folder = hou.node(
                "/obj/InBetween_ghost_folder/ghost_shaders/")
            for shader in ghost_mat_folder.children():
                shader_frame = shader.name().split("_")[-1]
                if shader_frame == str(current_frame):
                    shader.setParms({
                        "ogl_specx":
                        self.ghostColorLabel.palette().color(
                            QtGui.QPalette.Base).redF(),
                        "ogl_specy":
                        self.ghostColorLabel.palette().color(
                            QtGui.QPalette.Base).greenF(),
                        "ogl_specz":
                        self.ghostColorLabel.palette().color(
                            QtGui.QPalette.Base).blueF()
                    })
Exemplo n.º 19
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def build_scriptargs(node=None):
    """Build relevant scriptargs for this action.

    :param node: Optionally rendering node.
    :type node: hou.RopNode
    :return: Data related to the running script parm.
    :rtype: dict

    """
    frame_range = None

    if node is not None:
        trange_parm = node.parm("trange")

        if trange_parm is not None:
            if trange_parm.evalAsString() != "off":
                frame_range = node.evalParmTuple("f")

    scriptargs = {
        "node": node,
        "frame": hou.frame(),
        "frame_range": frame_range,
        "time": time.time(),
    }

    if node is not None:
        scriptargs["path"] = _get_target_file(node)

    return scriptargs
Exemplo n.º 20
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    def process(self, context):

        for instance in context:

            # Skip invalid instance families
            if "render" not in instance.data.get("families", []):
                continue

            node = instance[0]

            # Get expected output files.
            files = []
            if node.parm("trange").eval() == 0:
                frame = int(hou.frame())
                files.append(node.parm("vm_picture").evalAtFrame(frame))
            else:
                start = node.parm("f1").eval()
                end = node.parm("f2").eval()
                step = node.parm("f3").eval()
                for frame in range(int(start), int(end) + 1, int(step)):
                    files.append(node.parm("vm_picture").evalAtFrame(frame))

            # Get extension
            ext = os.path.splitext(files[0])[1]

            # Create output collection.
            collections = clique.assemble(files, minimum_items=1)[0]
            collection = None
            for col in collections:
                if col.format("{tail}") == ext:
                    collection = col

            if collection:
                instance.data["render"] = collection.format()
Exemplo n.º 21
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    def calculateValue(self, param):
        """Calculate the new key value based on the nieghbour key values and slider value coef.
        
        INPUTS:
        param -- current param

        OUTPUTS:
        calculatedValue -- new value
        """
        currentFrame = hou.frame()
        self.deleteOldKeyframe(param)
        coef = float(self.valueSlider.value()
                     ) / 100  #calculate a coefficient from a slider value
        prevKey = param.keyframesBefore(currentFrame)[
            -1]  #get value from the previous key
        nextKey = param.keyframesAfter(currentFrame)[
            0]  #get value from the next key

        if prevKey.expression() == "constant()" or nextKey.expression(
        ) == "constant()":  #if keyframe type is constant
            calculatedValue = self.getValueFromConstant(
                param
            )  #convert nieghbours to linear and get current parameter value
        else:
            calculatedValue = param.eval(
            )  #set the new key value to current parameter value

        if coef > 0:
            calculatedValue += (nextKey.value() - calculatedValue) * abs(coef)
        elif coef < 0:
            calculatedValue -= (calculatedValue - prevKey.value()) * abs(coef)
        else:
            calculatedValue = param.eval()

        return calculatedValue
Exemplo n.º 22
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    def getBetweenKeyValue(self, param):
        """Calculate a value for the new key.
        
        INPUTS:
        param -- current param

        OUTPUTS:
        betweenKeyValue -- new value
        """
        currentFrame = hou.frame()
        keysBefore = param.keyframesBefore(currentFrame)  #get previous keys
        keysAfter = param.keyframesAfter(currentFrame)  #get next keys

        #check if there's only one nieghbour key or no keys
        if keysBefore == () or keysAfter == ():
            betweenKeyValue = param.eval()

        #check if there's a key at current frame and no neighbour
        elif (keysBefore[-1].frame() == currentFrame and len(keysBefore)
              == 1) or (keysAfter[0].frame() == currentFrame
                        and len(keysAfter) == 1):
            betweenKeyValue = param.eval()
        else:
            betweenKeyValue = self.calculateValue(param)

        return betweenKeyValue
Exemplo n.º 23
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    def blend(self, blend):
        animEdit = None
        for pane in hou.ui.currentPaneTabs():
            if pane.type() == hou.paneTabType.ChannelEditor:
                animEdit = pane

        if animEdit:
            graph = animEdit.graph()
            keyframes = graph.selectedKeyframes()
            # if there are keyframes selected
            # tween those
            if keyframes:
                for parm in keyframes.keys():
                    for key in keyframes[parm]:
                        tween(parm, key.frame(), blend)
                return

        # otherwise, just use the scoped / visible channels at the current time
        scope = hou.hscript("chscope")[0]
        for x in scope.split():
            chan = hou.parm(x)
            # only operate on channels that are visible in the graph editor
            if chan.isSelected():
                with hou.undos.group('tweenmachine'):
                    tween(chan, hou.frame(), blend)
Exemplo n.º 24
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def _getFrameRangeFromRop(rop):
    """Return a 3-tuple of start_frame, end_frame and frame_increment
    for the render frame range in the given ROP node."""
    start_frame, end_frame, frame_incr = _getFrameRangeFromRopRecurse(rop)

    # If a frame range could not be found then just return the current frame
    # as the frame range.
    if start_frame is None or end_frame is None or frame_incr is None:
        print ("Warning: Could not determine frame range from '%s' node." \
              " Using current frame instead.") % rop.path()

        import hou
        start_frame = int(hou.frame())
        end_frame = int(hou.frame())
        frame_incr = 1

    return start_frame, end_frame, frame_incr
Exemplo n.º 25
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def getJobParameters( afnode, subblock = False, frame_range = None, prefix = ''):
   if VERBOSE: print 'Getting Job Parameters from "%s":' % afnode.path()

   # Process frame range:
   if frame_range is None:
      frame_first   = hou.frame()
      frame_last    = frame_first
      frame_inc     = 1
      frame_pertask = 1
   else:
      frame_first, frame_last, frame_inc, frame_pertask = frame_range
   trange = afnode.parm('trange')
   if int(trange.eval()) > 0:
      frame_first   = int( afnode.parm('f1').eval())
      frame_last    = int( afnode.parm('f2').eval())
      frame_inc     = int( afnode.parm('f3').eval())
      frame_pertask = int( afnode.parm('frame_pertask').eval())
   frame_range = frame_first, frame_last, frame_inc, frame_pertask

   params = []
   connections = []
   connections.extend( afnode.inputs())
   nodes = []
   for node in connections:
      if node is not None:
         nodes.append( node)
   if afnode.parm('cmd_add').eval(): nodes.append(None)
   nodes.reverse()
   dependmask = ''
   prevparams = []
   for node in nodes:
      if node and node.isBypassed(): continue
      newparams = []
      if node and node.type().name() == 'afanasy':
         newprefix = node.name()
         if prefix != '': newprefix = prefix + '_' + newprefix
         newparams = getJobParameters( node, True, frame_range, newprefix)
         dependmask = newprefix + '_.*'
         if newparams is None: return None
      else:
         newparams = getBlockParameters( afnode, node, subblock, prefix, frame_range)
         if newparams is None: return None
         dependmask = newparams[0].name
         for param in newparams:
            if not param.valid: return None
      if len(newparams): params.extend(newparams)
      else: return None
      
      if not afnode.parm('independent').eval() and dependmask != '':
         for prevparam in prevparams:
            prevparam.addDependMask( dependmask)

      prevparams = newparams

   # Last parameter needed to generate a job.
   if not subblock: params.append( BlockParameters( afnode, None, False, '', frame_range, True))
   
   return params
Exemplo n.º 26
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def keysAtFrame(node, frame=hou.frame()):

    result = ()

    for p in node.parms():
        if p.keyframesInRange(frame, frame):
            result += (p, )

    return result
Exemplo n.º 27
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def playrange_extend_spacing(direction):
    # list_sf, list_f = sim_cache_framelists()
    # index = sim_cache_precedent_index(  hou.playbar.playbackRange()[0]  )
    # index = max (index + direction, 0)

    # frame_start = list_f[index]
    # frame_end   = hou.playbar.playbackRange()[1]
    # hou.playbar.setPlaybackRange( frame_start, frame_end )

    if direction == -1:
        frame_start = hou.frame()
        frame_end = hou.playbar.playbackRange()[1]

    if direction == 1:
        frame_end = hou.playbar.playbackRange()[0]
        frame_start = hou.frame()

    hou.playbar.setPlaybackRange(frame_start, frame_end)
Exemplo n.º 28
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def buildScriptArgs(node=None):
    """Build relevant scriptargs for this action."""
    scriptargs = {
        "node": node,
        "frame": hou.frame(),
        "time": time.time(),
    }

    return scriptargs
Exemplo n.º 29
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 def take_viewport_screenshot(self, output_path, extension):
     """
     Take a screenshot of the viewport.
     Save the image at the given path with the given extension.
     """
     camera_path = self.get_viewport_camera()
     frame = hou.frame()
     hou.hscript("viewwrite -f %d %d %s '%s'" %
                 (frame, frame, camera_path, output_path))
     self.software_print("Generated screenshot at path " + output_path)
Exemplo n.º 30
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 def deleteOldKeyframe(self, param):
     """Delete old key at current frame.
     INPUTS:
     param -- parameter which keys must be deleted
     """
     currentFrame = hou.frame()
     for key in param.keyframes():  #check all keys at given parm
         if key.frame(
         ) == currentFrame:  #if its frame is the same as current
             param.deleteKeyframeAtFrame(currentFrame)
Exemplo n.º 31
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    def process(self, instance):
        import math

        import hou

        node = instance[0]
        collection = instance.data["collection"]

        job_data = {}
        plugin_data = {}
        if "deadlineData" in instance.data:
            job_data = instance.data["deadlineData"]["job"].copy()
            plugin_data = instance.data["deadlineData"]["plugin"].copy()

        # Setting job data.
        job_data["Plugin"] = "Houdini"

        # Replace houdini frame padding with Deadline padding
        fmt = "{head}" + "#" * collection.padding + "{tail}"
        job_data["OutputFilename0"] = collection.format(fmt)
        job_data["Priority"] = instance.data["deadlinePriority"]
        job_data["Pool"] = instance.data["deadlinePool"]
        job_data["ConcurrentTasks"] = instance.data["deadlineConcurrentTasks"]

        # Frame range
        start_frame = int(node.parm("f1").eval())
        end_frame = int(node.parm("f2").eval())
        step_frame = int(node.parm("f3").eval())

        if node.parm("trange").eval() == 0:
            start_frame = end_frame = int(hou.frame())

        job_data["Frames"] = "{0}-{1}x{2}".format(start_frame, end_frame,
                                                  step_frame)

        # Chunk size
        job_data["ChunkSize"] = instance.data["deadlineChunkSize"]
        if len(list(collection)) == 1:
            job_data["ChunkSize"] = str(end_frame)
        else:
            tasks = (end_frame - start_frame + 1.0) / step_frame
            chunks = (end_frame - start_frame + 1.0) / job_data["ChunkSize"]
            # Deadline can only handle 5000 tasks maximum
            if tasks > 5000 and chunks > 5000:
                job_data["ChunkSize"] = str(int(math.ceil(tasks / 5000.0)))

        # Setting plugin data
        plugin_data["OutputDriver"] = node.path()
        plugin_data["Version"] = str(hou.applicationVersion()[0])
        plugin_data["IgnoreInputs"] = "0"
        plugin_data["SceneFile"] = instance.context.data["currentFile"]

        # Setting data
        data = {"job": job_data, "plugin": plugin_data}
        instance.data["deadlineData"] = data
Exemplo n.º 32
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    def ghostShaderCreate(self, ghost_mat_folder, ghost_name):
        """Create a shader for a new ghost.
        
        INPUTS:
        ghost_mat_folder -- ghost shader network folder
        ghost_name -- object name from which a new ghost is created

        OUTPUTS:
        ghost_shader -- new ghost shader node
        """
        with hou.undos.group("Create Ghost Shader"):
            current_frame = hou.frame()
            ghost_shader = ghost_mat_folder.createNode(
                'vopmaterial',
                node_name=ghost_name + "_ghost_mat" + '_frame_' +
                str(current_frame))
            parm_group = ghost_shader.parmTemplateGroup()
            parm_folder = hou.FolderParmTemplate("folder", "OpenGL")
            parm_folder.addParmTemplate(
                hou.FloatParmTemplate("ogl_spec", "Specular", 3))
            parm_folder.addParmTemplate(
                hou.FloatParmTemplate("ogl_transparency", "Transparency", 1))
            parm_folder.addParmTemplate(
                hou.FloatParmTemplate("ogl_ior", "IOR", 1))
            parm_folder.addParmTemplate(
                hou.FloatParmTemplate("ogl_spec_intensity", "Intensity", 1))
            parm_folder.addParmTemplate(
                hou.FloatParmTemplate("ogl_rough", "Roughness", 1))
            parm_group.append(parm_folder)
            ghost_shader.setParmTemplateGroup(parm_group)
            ghost_shader.setParms({
                "ogl_specx":
                self.ghostColorLabel.palette().color(
                    QtGui.QPalette.Base).redF(),
                "ogl_specy":
                self.ghostColorLabel.palette().color(
                    QtGui.QPalette.Base).greenF(),
                "ogl_specz":
                self.ghostColorLabel.palette().color(
                    QtGui.QPalette.Base).blueF(),
                "ogl_transparency":
                1,
                "ogl_ior":
                1.06,
                "ogl_spec_intensity":
                5,
                "ogl_rough":
                0
            })
            ghost_shader.moveToGoodPosition()
            return ghost_shader
Exemplo n.º 33
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def get_time_commandline(node: hou.Node):
    time_type = node.parm("time_type").evalAsString()

    time = 0.0
    (frame_start, frame_end, _) = node.parmTuple("f").eval()
    frame = hou.frame()

    if time_type == "range":
        time = (frame - frame_start) / (frame_end - frame_start)
    elif time_type == "range_loop":
        time = (frame - frame_start) / (frame_end - frame_start + 1.0)
    elif time_type == "custom":
        time = node.evalParm("time")

    return ["--set-value", f"$time@{time}"]
Exemplo n.º 34
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    def set_frame_range(self, start_frame=1, end_frame=100, adjust_frame_range=False):
        """sets the frame range
        """
        # --------------------------------------------
        # set the timeline
        current_frame = hou.frame()
        if current_frame < start_frame:
            hou.setFrame(start_frame)
        elif current_frame > end_frame:
            hou.setFrame(end_frame)

        # for now use hscript, the python version is not implemented yet
        hou.hscript(
            'tset `(' + str(start_frame) + '-1)/$FPS` `' + str(
                end_frame) + '/$FPS`'
        )
    def process(self, context):
        import os

        import hou

        import clique

        for instance in context:

            # Skip invalid instance families
            if "render" not in instance.data.get("families", []):
                continue

            node = instance[0]

            # Get expected output files.
            files = []
            if node.parm("trange").eval() == 0:
                frame = int(hou.frame())
                files.append(node.parm("vm_picture").evalAtFrame(frame))
            else:
                start = node.parm("f1").eval()
                end = node.parm("f2").eval()
                step = node.parm("f3").eval()
                for frame in range(int(start), int(end) + 1, int(step)):
                    files.append(node.parm("vm_picture").evalAtFrame(frame))

            # Get extension
            ext = os.path.splitext(files[0])[1]

            # Create output collection.
            collections = clique.assemble(files, minimum_items=1)[0]
            collection = None
            for col in collections:
                if col.format("{tail}") == ext:
                    collection = col

            if collection:
                instance.data["render"] = collection.format()
Exemplo n.º 36
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def getJobParameters(afnode, subblock=False, frame_range=None, prefix=""):
    if VERBOSE:
        print('Getting Job Parameters from "%s":' % afnode.path())

    # Process frame range:
    if frame_range is None:
        frame_first = hou.frame()
        frame_last = frame_first
        frame_inc = 1
    else:
        frame_first, frame_last, frame_inc = frame_range

    trange = afnode.parm("trange")

    if int(trange.eval()) > 0:
        frame_first = int(afnode.parm("f1").eval())
        frame_last = int(afnode.parm("f2").eval())
        frame_inc = int(afnode.parm("f3").eval())

    frame_range = frame_first, frame_last, frame_inc

    params = []
    connections = []
    connections.extend(afnode.inputs())
    nodes = []

    for node in connections:
        if node is not None:
            nodes.append(node)

    output_driver_path = afnode.parm("output_driver").eval()
    if output_driver_path:
        output_driver = hou.node(output_driver_path)
        if output_driver:
            nodes.insert(0, output_driver)
        else:
            hou.ui.displayMessage('Can`t find output drive node: "%s"' % output_driver_path)

    if afnode.parm("cmd_mode").eval():
        nodes.append(None)

    nodes.reverse()
    dependmask = ""
    prevparams = []
    for node in nodes:
        if node and node.isBypassed():
            continue

        newparams = []

        if node and node.type().name() == "afanasy":
            newprefix = node.name()

            if prefix != "":
                newprefix = prefix + "_" + newprefix

            newparams = getJobParameters(node, True, frame_range, newprefix)
            dependmask = newprefix + "_.*"

            if newparams is None:
                return None
        else:
            newparams = getBlockParameters(afnode, node, subblock, prefix, frame_range)

            if newparams is None:
                return None

            dependmask = newparams[0].name
            for param in newparams:
                if not param.valid:
                    return None

        if len(newparams):
            params.extend(newparams)
        else:
            return None

        if not afnode.parm("independent").eval() and dependmask != "":
            for prevparam in prevparams:
                prevparam.addDependMask(dependmask)

        prevparams = newparams

    # Last parameter needed to generate a job.
    if not subblock:
        params.append(BlockParameters(afnode, None, False, "", frame_range, True))

    return params
Exemplo n.º 37
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def render(node):

    prescript = '''
import KrakatoaSR
import random
ri = KrakatoaSR.Ri()
'''
    option = optionScript(node)

    framebegin = 'ri.FrameBegin({0})\n'.format(int(hou.frame()))

    cam = hou.node(node.parm('camera').eval())

    outpath = node.parm('vm_picture').eval()
    display = 'ri.Display( "{outpath}", "file", "rgba" )'.format(outpath=outpath)
    print(display)

    resx,resy = cam.parmTuple('res').eval()
    aspect = cam.parm('aspect').eval()
    format = "ri.Format( {x}, {y}, {aspect} )".format(x=resx, y=resy, aspect=aspect)
    print(format)


    aperture = cam.parm('aperture').eval()
    aperture = min(aperture, aperture/resx*resy) # krakatoa uses renderman style
    focal = cam.parm('focal').eval()

    fov = math.degrees(2*math.atan(aperture/2/focal))
    camtrans = cam.worldTransform().inverted()*hou.Matrix4([[1,0,0,0],[0,1,0,0],[0,0,-1,0],[0,0,0,1]])
    camtrans = [str(i) for i in camtrans.asTuple()]
    cam_projection = 'ri.Projection( "perspective", "fov", {fov} )'.format(fov=fov)
    cam_transform = 'ri.Transform({transmatrix})'.format(transmatrix=','.join(camtrans))

    worldbegin = '\nri.WorldBegin()'

    #Surface!
    # In houdini : object.worldTransform()

    prtfile = node.parm('scene_prt').evalAsString()
    objectscript = '''ri.AttributeBegin()
ri.Surface( "Isotropic" )
ri.Transform(1,0,0,0,  0,1,0,0,  0,0,1,0,  0,0,0,1)
ri.PointsFile("{0}")
ri.AttributeEnd()

'''.format(prtfile)
    
    worldend = 'ri.WorldEnd()'
    frameend = 'ri.FrameEnd()'

    ss = [] #scene script
    ss.append(prescript)
    ss.append(option)
    ss.append(framebegin)
    ss.append(display)
    ss.append(format)
    ss.append(cam_projection)
    ss.append(cam_transform)
    ss.append(worldbegin)
    ss.append(lightScript(node))
    ss.append(objectscript)
    ss.append(worldend)
    ss.append(frameend)
    
    # make prt
    try:
        tmpobj = hou.node('/obj/tmp_krakatoa')
        tmpsop = tmpgeo.node('krakatoa_export')
    except:
        tmpobj = hou.node('/obj').createNode('geo')
        tmpobj.setName('tmp_krakatoa')
        tmpsop = tmpobj.createNode('object_merge')
        tmpsop.setName('krakatoa_export')

    ksops = hou.node('/obj').glob('krakatoa*')
    ksops = [i for i in ksops if i.isDisplayFlagSet()]
    tmpsop.parm('numobj').set(len(ksops))
    for i, s in enumerate(ksops):
        parmname = 'objpath'+str(i+1)
        tmpsop.parm(parmname).set(s.path())
    tmpgeo = tmpsop.geometry()
    tmpgeo.saveToFile(prtfile)
    tmpobj.destroy() # for debug turn this off

    # make scene description
    scenefile = node.parm('scene_description').evalAsString()
    with open(scenefile, 'w') as f:
        f.write('\n'.join(ss))
    output,error = subprocess.Popen(['python', scenefile],stdout = subprocess.PIPE, stderr= subprocess.PIPE).communicate()
    print(error)
Exemplo n.º 38
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	def __init__(self, afnode, ropnode, subblock, prefix, frame_range, for_job_only=False):
		if VERBOSE == 2:
			if ropnode:
				print('Initializing block parameters for "%s" from "%s"' %
					  (ropnode.path(), afnode.path()))
			else:
				print('Initializing command block parameters from "%s"' %
					  afnode.path())

		# Init parameters:
		self.valid = False
		self.afnode = afnode
		self.ropnode = None
		self.subblock = subblock
		self.frame_pertask = 1
		self.frame_sequential = 1
		self.prefix = prefix
		self.preview = ''
		self.name = ''
		self.type = ''
		self.parser = ''
		self.cmd = ''
		self.cmd_useprefix = True
		self.dependmask = ''
		self.fullrangedepend = False
		self.numeric = True
		self.frame_first, self.frame_last, self.frame_inc = frame_range
		self.tasks_names = []
		self.tasks_cmds = []
		self.tasks_previews = []
		# Parameters to restore ROP changes:
		self.soho_foreground = None
		self.soho_outputmode = None
		# ############################################################################
		# Dict of parameters to restore ROP changes: added by DavidPower
		self.param_restoreList = {}
		# ############################################################################

		# Get parameters:
		self.frame_pertask = int(afnode.parm('frame_pertask').eval())
		self.frame_sequential = int(afnode.parm('frame_sequential').eval())
		self.job_name = str(afnode.parm('job_name').eval())
		self.start_paused = int(afnode.parm('start_paused').eval())
		self.platform = str(afnode.parm('platform').eval())
		self.subtaskdepend = int(afnode.parm('subtaskdepend').eval())
		self.parser = self.afnode.parm('override_parser').eval()
		self.priority = -1
		self.max_runtasks = -1
		self.maxperhost = -1
		self.maxruntime = -1
		self.capacity = -1
		self.capacity_min = -1
		self.capacity_max = -1
		self.hosts_mask = ''
		self.hosts_mask_exclude = ''
		self.depend_mask = ''
		self.depend_mask_global = ''

		if afnode.parm('enable_extended_parameters').eval():
			self.priority = int(afnode.parm('priority').eval())
			self.max_runtasks = int(afnode.parm('max_runtasks').eval())
			self.maxperhost = int(afnode.parm('maxperhost').eval())
			self.maxruntime = int(afnode.parm('maxruntime').eval())
			self.capacity = int(afnode.parm('capacity').eval())
			self.capacity_min = int(
				afnode.parm('capacity_coefficient1').eval())
			self.capacity_max = int(
				afnode.parm('capacity_coefficient2').eval())
			self.hosts_mask = str(afnode.parm('hosts_mask').eval())
			self.hosts_mask_exclude = str(
				afnode.parm('hosts_mask_exclude').eval())
			self.depend_mask = str(afnode.parm('depend_mask').eval())
			self.depend_mask_global = str(
				afnode.parm('depend_mask_global').eval())

		# Process frame range:
		opname = afnode.path()
		if afnode.parm('trange').eval() > 1:
			self.fullrangedepend = True

		if ropnode:
			opname = ropnode.path()
			trange = ropnode.parm('trange')

			if trange is not None:
				if int(trange.eval()) > 0:
					if ropnode.parm('f1') is not None:
						self.frame_first = int(ropnode.parm('f1').eval())

					if ropnode.parm('f2') is not None:
						self.frame_last = int(ropnode.parm('f2').eval())

					if ropnode.parm('f3') is not None:
						self.frame_inc = int(ropnode.parm('f3').eval())

				if int(trange.eval()) > 1:
					self.fullrangedepend = True

		if self.frame_last < self.frame_first:
			hou.ui.displayMessage('Last frame < first frame for "%s"' % opname)
			return

		if self.frame_inc < 1:
			hou.ui.displayMessage('Frame increment < 1 for "%s"' % opname)
			return

		if self.frame_pertask < 1:
			hou.ui.displayMessage('Frames per task < 1 for "%s"' % opname)
			return

		# Process output driver type to construct a command:
		if ropnode:
			self.type = 'hbatch'

			if not isinstance(ropnode, hou.RopNode):
				hou.ui.displayMessage(
					'"%s" is not a ROP node' % ropnode.path()
				)
				return

			self.ropnode = ropnode
			self.name = str(ropnode.name())

			if self.prefix != '':
				self.name = '%s_%s' % (self.prefix, self.name)
			# Block type and preview:
			roptype = ropnode.type().name()

			if roptype == 'ifd':
				if not ropnode.parm('soho_outputmode').eval():
					self.type = 'hbatch_mantra'

				vm_picture = ropnode.parm('vm_picture')

				if vm_picture is not None:
					self.preview = \
						afcommon.patternFromPaths(
							vm_picture.evalAsStringAtFrame(self.frame_first),
							vm_picture.evalAsStringAtFrame(self.frame_last)
						)
			elif roptype == 'rib':
				self.type = 'hbatch_prman'

			# Block command:
			self.cmd = 'hrender_af'
			if afnode.parm('ignore_inputs').eval():
				self.cmd += ' -i'

			if self.capacity_min != -1 or self.capacity_max != -1:
				self.cmd += ' --numcpus ' + services.service.str_capacity

			self.cmd += ' -s @#@ -e @#@ --by %d -t "%s"' % (
				self.frame_inc, afnode.parm('take').eval()
			)

			self.cmd += ' "%(hipfilename)s"'
			self.cmd += ' "%s"' % ropnode.path()

			# Override service:
			override_service = self.afnode.parm('override_service').eval()
			if override_service is not None and len(override_service):
				self.type = override_service

		else:
			# Custom command driver:
			if int(afnode.parm('cmd_mode').eval()):
				# Command:
				cmd = self.afnode.parm('cmd_cmd')
				self.cmd = afcommon.patternFromPaths(
					cmd.evalAsStringAtFrame(self.frame_first),
					cmd.evalAsStringAtFrame(self.frame_last)
				)

				# Name:
				self.name = self.afnode.parm('cmd_name').eval()
				if self.name is None or self.name == '':
					self.name = self.cmd.split(' ')[0]

				# Service:
				self.type = self.afnode.parm('cmd_service').eval()
				if self.type is None or self.type == '':
					self.type = self.cmd.split(' ')[0]
				# Parser:
				self.parser = self.afnode.parm('cmd_parser').eval()

				# Prefix:
				self.cmd_useprefix = \
					int(self.afnode.parm('cmd_use_afcmdprefix').eval())

			elif not for_job_only:
				hou.ui.displayMessage('Can\'t process "%s"' % afnode.path())
				return

		# Try to set driver foreground mode
		if ropnode:
			trange = ropnode.parm('trange')
			soho_foreground = ropnode.parm('soho_foreground')
			if trange is not None and int(trange.eval()) == 0:
				
				# ############################################################################
				# fixed [Render Current Frame] error
				# added by DavidPower
				# ############################################################################
				self.frame_first = int(hou.frame())
				self.frame_last = int(hou.frame())
				# ############################################################################

				if soho_foreground is not None:
					if soho_foreground.eval() == 0:
						try:
							soho_foreground.set(1)
							self.soho_foreground = 0
						except:  # TODO: too broad exception clause
							hou.ui.displayMessage(
								'Set "Block Until Render Complete" on "%s" '
								'node' % ropnode.path()
							)
							return

		# Try to create output folder:
		if self.preview != '' and afnode.parm('check_output_folder').eval():
			folder = os.path.dirname( self.preview)
			if not os.path.isdir( folder):
				if hou.ui.displayMessage( folder, buttons=('Create','Abort'),default_choice=0,close_choice=1,
					title='Output Folder Does Not Exist',details=folder) == 0:
					try:
						os.makedirs(folder)
					except Exception as e:
						hou.ui.displayMessage( folder, buttons=('Abort',),default_choice=0,close_choice=1,
							title='Error Creating Output Folder',details=str(e))
						return
					if not os.path.isdir( folder):
						hou.ui.displayMessage( folder, buttons=('Abort',),default_choice=0,close_choice=1,
							title='Can`t Create Output Folder',details=folder)
						return
				else:
					return

		self.valid = True
Exemplo n.º 39
0
Arquivo: afanasy.py Projeto: CGRU/cgru
def getJobParameters(afnode, subblock=False, frame_range=None, prefix=''):
    if VERBOSE:
        print('Getting Job Parameters from "%s":' % afnode.path())

    # Process frame range:
    if frame_range is None:
        frame_first = int(hou.frame())
        frame_last = frame_first
        frame_inc = 1
    else:
        frame_first, frame_last, frame_inc = frame_range

    trange = afnode.parm('trange')

    if int(trange.eval()) > 0:
        frame_first = int(afnode.parm('f1').eval())
        frame_last = int(afnode.parm('f2').eval())
        frame_inc = int(afnode.parm('f3').eval())

    frame_range = frame_first, frame_last, frame_inc

    params = []
    connections = []
    connections.extend(afnode.inputs())
    nodes = []

    for node in connections:
        if node is not None:
            nodes.append(node)

    output_driver_path = afnode.parm('output_driver').eval()
    if output_driver_path:
        output_driver = hou.node(output_driver_path)
        if output_driver:
            nodes.insert(0, output_driver)
        else:
            hou.ui.displayMessage('Can`t find output drive node: "%s"' % output_driver_path)

    if afnode.parm('cmd_mode').eval():
        nodes.append(None)

    nodes.reverse()
    dependmask = ''
    prevparams = []
    for node in nodes:
        if node and node.isBypassed():
            continue

        newparams = []

        if node and node.type().name() == 'afanasy':
            newprefix = node.name()

            if prefix != '':
                newprefix = prefix + '_' + newprefix

            newparams = getJobParameters(node, True, frame_range, newprefix)
            dependmask = newprefix + '_.*'

            if newparams is None:
                return None

        elif node and node.type().name() == "wedge":
            wedgednode = None
            if node.inputs():
                wedgednode = node.inputs()[0]
            else:
                wedgednode = node.node(node.parm("driver").eval())
            if wedgednode == None:
                return None

            numWedges = computeWedge( node, node.type().name()) # we can remove nodetype check
            names = node.hdaModule().getwedgenames(node)
            for wedge in range(numWedges):
                # switching wedges like houdini do to get valid filenames
                hou.hscript('set WEDGE = ' + names[wedge])
                hou.hscript('set WEDGENUM = ' + str(wedge))
                hou.hscript('varchange')
                #add wedged node to next block
                block = getBlockParameters(afnode, wedgednode, subblock, "{}_{}".format(node.name(),wedge), frame_range)[0]
                block.auxargs += " --wedge " + node.path() + " --wedgenum " + str(wedge)
                newparams.append(block)
            # clear environment
            hou.hscript('set WEDGE = ')
            hou.hscript('set WEDGENUM = ')
            hou.hscript('varchange')

        else:
            newparams = \
                getBlockParameters(afnode, node, subblock, prefix, frame_range)

            if newparams is None:
                return None

            dependmask = newparams[0].name
            for param in newparams:
                if not param.valid:
                    param.doPost()
                    return None

        if len(newparams):
            params.extend(newparams)
        else:
            return None

        if not afnode.parm('independent').eval() and dependmask != '':
            for prevparam in prevparams:
                prevparam.addDependMask(dependmask)

        prevparams = newparams

    # Last parameter needed to generate a job.
    if not subblock:
        params.append(
            BlockParameters(afnode, None, False, '', frame_range, True)
        )

    return params