Esempio n. 1
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def create_circle_control(name, init_pos=None, radius=10, color=None, axis='z'):
    """
    Creates a circle control
    :param name: str
    :param init_pos: list(float, float, float) or None
    :param radius: float
    :param color: list(float, float, float) or rt.Point3
    :param axis: str
    """

    pos = init_pos or [0, 0, 0]
    if rt.classOf(pos) != rt.Point3:
        pos = rt.Point3(*pos)
    if color and rt.classOf(color) != rt.color:
        color = rt.color(*color)
    if not color:
        color = rt.yellow

    rt.setCommandPanelTaskMode(rt.Name('modify'))
    ctrl_name = rt.uniquename(name)
    base_circle = rt.circle(name=ctrl_name, radius=radius, steps=6, pos=pos)
    if str(axis).lower() == 'x':
        xform_mod = rt.xform()
        rt.addModifier(base_circle, xform_mod)
        rt.setProperty(xform_mod.gizmo, 'rotation', rt.eulerAngles(0, 90, 0))
    elif str(axis).lower() == 'y':
        xform_mod = rt.xform()
        rt.addModifier(base_circle, xform_mod)
        rt.setProperty(xform_mod.gizmo, 'rotation', rt.eulerAngles(90, 0, 0))
    base_circle.wirecolor = color
    rt.convertTo(base_circle, rt.SplineShape)

    return base_circle
Esempio n. 2
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def find_unique_name(obj_names=None, include_last_number=True, do_rename=False):

    def _find_unique_name(obj_name):
        node = node_utils.get_pymxs_node(obj_name)
        if not node:
            return obj_name
        unique = FindUniqueName(obj_name)
        unique.get_last_number(include_last_number)
        unique_name = unique.get()
        unique_name = rt.uniquename(unique_name)
        if do_rename:
            node.name = unique_name
            return node.name
        else:
            return unique_name

    if not obj_names:
        obj_names = [obj.name for obj in list(rt.selection)]

    if isinstance(obj_names, (tuple, list)):
        unique_names = list()
        for obj in enumerate(obj_names):
            unique_names.append(_find_unique_name(obj))
        return python.remove_dupes(unique_names)
    else:
        return rt.uniquename(obj_names)
Esempio n. 3
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 def _find_unique_name(obj_name):
     node = node_utils.get_pymxs_node(obj_name)
     if not node:
         return obj_name
     unique = FindUniqueName(obj_name)
     unique.get_last_number(include_last_number)
     unique_name = unique.get()
     unique_name = rt.uniquename(unique_name)
     if do_rename:
         node.name = unique_name
         return node.name
     else:
         return unique_name
Esempio n. 4
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def create_box_control(name, init_pos=None, length=10, width=10, height=10, color=None):
    """
    Creates a box control
    :param name: str
    :param init_pos:
    :param length:
    :param width:
    :param height:
    :param color:
    :return:
    """

    pos = init_pos or [0, 0, 0]
    if rt.classOf(pos) != rt.Point3:
        pos = rt.Point3(*pos)
    if color and rt.classOf(color) != rt.color:
        color = rt.color(*color)
    if not color:
        color = rt.yellow

    rt.setCommandPanelTaskMode(rt.Name('modify'))
    base_box = rt.Box(
        lengthsegs=1, widthsegs=1, heightsegs=1, length=length, width=width, height=height,
        mapcoords=True, pos=pos, isSelected=True)
    rt.select(base_box)
    rt.convertTo(base_box, rt.PolyMeshObject)
    rt.subobjectLevel = 2
    edge_bitarray = rt.BitArray()
    edge_indices = [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12]
    edge_bitarray.count = len(edge_indices)
    for i, index in enumerate(edge_indices):
        edge_bitarray[i] = index
    base_box.EditablePoly.SetSelection(rt.Name('Edge'), edge_bitarray)
    ctrl_name = rt.uniquename(name)
    base_box.EditablePoly.createShape(ctrl_name, False, base_box)
    rt.subobjectLevel = 0
    rt.delete(base_box)
    box_ctrl = rt.getNodeByName(ctrl_name)
    rt.convertTo(box_ctrl, rt.SplineShape)
    box_ctrl.wirecolor = color
    rt.CenterPivot(box_ctrl)
    transform.reset_xform_and_collapse(box_ctrl, freeze=True)

    return box_ctrl
Esempio n. 5
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def create_rectangle_control(name, init_pos=None, length=10.0, width=10.0, corner_radius=0.0, color=None, axis='z'):
    """
    Creates a rectangle control
    :param name: str
    :param init_pos:
    :param length:
    :param width:
    :param corner_radius:
    :param color:
    :param axis:
    :return:
    """

    pos = init_pos or [0, 0, 0]
    if rt.classOf(pos) != rt.Point3:
        pos = rt.Point3(*pos)
    if color and rt.classOf(color) != rt.color:
        color = rt.color(*color)
    if not color:
        color = rt.yellow

    rt.setCommandPanelTaskMode(rt.Name('modify'))
    ctrl_name = rt.uniquename(name)
    base_rectangle = rt.rectangle(name=ctrl_name, length=length, width=width, cornerRadius=corner_radius, pos=pos)
    base_rectangle.wirecolor = color
    if str(axis).lower() == 'x':
        xform_mod = rt.xform()
        rt.addModifier(base_rectangle, xform_mod)
        rt.setProperty(xform_mod.gizmo, 'rotation', rt.eulerAngles(0, 90, 0))
    elif str(axis).lower() == 'y':
        xform_mod = rt.xform()
        rt.addModifier(base_rectangle, xform_mod)
        rt.setProperty(xform_mod.gizmo, 'rotation', rt.eulerAngles(90, 0, 0))
    rt.convertTo(base_rectangle, rt.SplineShape)

    return base_rectangle
Esempio n. 6
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def renameselected(text):
    '''Rename all elements in selection'''
    if text != "":
        for i in rt.selection:
            i.name = rt.uniquename(text)
Esempio n. 7
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def create_end_bone(parent_bone,
                    name='newBone',
                    snap_to=None,
                    match_to=None,
                    parent=None,
                    **kwargs):
    """
    Creates and end bone
    :param parent_bone:
    :param snap_to:
    :param match_to:
    :param name:
    :param parent:
    :return:
    """

    length = kwargs.pop('length', 10)
    width = kwargs.pop('width', 10)
    height = kwargs.pop('height', 5)
    color = kwargs.pop('color', [7, 7, 11])
    main_axis = kwargs.pop('main_axis', 'z')
    extrude = kwargs.pop('extrude', True)
    freeze = kwargs.pop('freeze', False)

    parent_bone = node_utils.get_pymxs_node(parent_bone)
    snap_to = node_utils.get_pymxs_node(snap_to)
    match_to = node_utils.get_pymxs_node(match_to)
    parent = node_utils.get_pymxs_node(parent)

    if not parent_bone or not node_utils.node_exists(parent_bone.name):
        logger.error('Bone could not be created!')
        return False

    if color and rt.classOf(color) != rt.color:
        color = rt.color(*color)
    if not color:
        color = rt.color(7, 7, 11)

    bone_name = rt.uniquename(name)
    bone_box = rt.box(name=bone_name,
                      lengthsegs=1,
                      widthsegs=1,
                      heightsegs=1,
                      length=length,
                      width=width,
                      height=height,
                      mapcoords=True,
                      isSelected=True)
    bone_box.wirecolor = color
    bone_box.boneEnable = True
    bone_box.boneAxis = rt.Name(main_axis.lower())
    xform_utils.match_transforms(bone_box, parent_bone)

    rt.SetCommandPanelTaskMode(rt.Name('modify'))
    rt.convertTo(bone_box, rt.PolyMeshObject)
    rt.subobjectLevel = 1
    vertex_bitarray = rt.BitArray()
    vertex_indices = [1, 2, 3, 4]
    vertex_bitarray.count = len(vertex_indices)
    for i, index in enumerate(vertex_indices):
        vertex_bitarray[i] = index
    bone_box.EditablePoly.SetSelection(rt.Name('Vertex'), vertex_bitarray)
    bone_box.EditablePoly.collapse(rt.Name('Vertex'))
    bone_box.EditablePoly.SetSelection(rt.Name('Vertex'), rt.BitArray())
    if extrude:
        rt.subobjectLevel = 4
        vertex_bitarray = rt.BitArray()
        vertex_indices = [1]
        vertex_bitarray.count = len(vertex_indices)
        for i, index in enumerate(vertex_indices):
            vertex_bitarray[i] = index
        bone_box.EditablePoly.SetSelection(rt.Name('Face'), vertex_bitarray)
        bone_box.EditablePoly.extrudeFaces(height)
        bone_box.EditablePoly.SetSelection(rt.Name('Vertex'), rt.BitArray())
    rt.subobjectLevel = 0

    if snap_to:
        xform_utils.match_position(bone_box, snap_to)
    if match_to:
        xform_utils.match_transforms(bone_box, match_to)

    if parent:
        bone_box.parent = parent

    if freeze:
        xform_utils.freeze_transform(bone_box)

    return bone_box
Esempio n. 8
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def create_bone(root_node,
                name='new_bone',
                target_node=None,
                parent=None,
                **kwargs):

    length = kwargs.pop('length', 10)
    width = kwargs.pop('width', 10)
    height = kwargs.pop('height', 10)
    color = kwargs.pop('color', [7, 7, 11])
    main_axis = kwargs.pop('main_axis', 'z')
    flip_main_axis = kwargs.pop('flip_main_axis', False)
    main_rot_axis = kwargs.pop('main_rot_axis', 'y')
    flip_main_rot_axis = kwargs.pop('flip_main_rot_axis', False)
    freeze = kwargs.pop('freeze', False)

    root_node = node_utils.get_pymxs_node(root_node)
    target_node = node_utils.get_pymxs_node(target_node)
    parent = node_utils.get_pymxs_node(parent)

    if not root_node or not node_utils.node_exists(root_node.name):
        logger.error('Bone could not be created!')
        return False

    if color and rt.classOf(color) != rt.color:
        color = rt.color(*color)
    if not color:
        color = rt.color(7, 7, 11)

    bone_name = rt.uniquename(name)
    bone_box = rt.box(name=bone_name,
                      lengthsegs=1,
                      widthsegs=1,
                      heightsegs=1,
                      length=length,
                      width=width,
                      height=height,
                      mapcoords=True,
                      isSelected=True)
    bone_box.wirecolor = color
    bone_box.boneEnable = True
    bone_box.boneAxis = rt.Name(main_axis.lower())

    main_axis_index = 0
    main_rot_index = 0
    if main_axis.lower() == 'y':
        main_axis_index = 1
    elif main_axis.lower() == 'z':
        main_axis_index = 2
    if main_rot_axis.lower() == 'y':
        main_rot_index = 1
    elif main_rot_axis.lower() == 'z':
        main_rot_index = 2

    xform_utils.match_transforms(bone_box, root_node)
    if target_node and node_utils.node_exists(target_node.name):
        temp_helper = rt.Point(pos=rt.Point3(0, 0, 0))
        xform_utils.match_position(temp_helper, bone_box)
        look_at_controller = rt.LookAt_Constraint()
        rt.setPropertyController(temp_helper.controller, 'Rotation',
                                 look_at_controller)
        look_at_controller.appendTarget(target_node, 1)
        look_at_controller.target_axis = main_axis_index
        look_at_controller.upnode_axis = 1
        look_at_controller.StoUP_axis = main_rot_index
        look_at_controller.target_axisFlip = flip_main_axis
        look_at_controller.StoUP_axisFlip = flip_main_rot_axis
        xform_utils.match_transforms(bone_box, temp_helper)
        rt.delete(temp_helper)
        bone_box.height = rt.distance(root_node, target_node)

    if parent:
        bone_box.parent = parent

    if freeze:
        xform_utils.freeze_transform(bone_box)

    return bone_box