コード例 #1
0
def create_text(pos, message):
    """Create a text."""
    tex = rt.text()
    tex.size = Y_STEP
    tex.text = message
    tex.position = rt.Point3(pos.x, pos.y - OBJECT_DIMENSION, pos.z)
    tex.wirecolor = rt.Color(255, 128, 255)
コード例 #2
0
def create_text(xpos, ypos, rot, message):
    """Create a visible label on the ground for a given teapot"""
    tex = rt.text()
    tex.size = 10
    tex.text = message
    tex.position = rt.Point3(xpos, ypos, 0)
    tex.rotation = rot
    tex.wireColor = rt.Color(255, 128, 255)
コード例 #3
0
def main():
    """Create a mesh, color it, and output information about its maps."""
    # reset the scene
    rt.resetMaxFile(rt.Name('noPrompt'))
    # create a mesh
    mesh = make_pyramid_mesh()
    print("Updating the color per vertex channel")
    rt.setNumCPVVerts(mesh, 2)
    rt.buildVCFaces(mesh)
    rt.setVertColor(mesh, 1, rt.Color(255, 0, 0))
    rt.setVertColor(mesh, 2, rt.Color(0, 0, 255))
    rt.setVCFace(mesh, 1, rt.Point3(1, 1, 2))
    rt.setVCFace(mesh, 2, rt.Point3(1, 2, 2))
    rt.setVCFace(mesh, 3, rt.Point3(2, 2, 2))
    rt.setVCFace(mesh, 4, rt.Point3(1, 1, 1))
    rt.setCVertMode(mesh, True)
    rt.update(mesh)
    output_channels(mesh)
コード例 #4
0
def solid_material(color):
    """Create a material."""
    material = rt.StandardMaterial()
    material.Ambient = color
    material.Diffuse = color
    material.Specular = rt.Color(255, 255, 255)
    material.Shininess = 50.0
    material.ShinyStrength = 70.0
    material.SpecularLevel = 70.0
    return material
コード例 #5
0
ファイル: curves.py プロジェクト: tpDcc/tpDcc-dccs-max
def create_curve_shape(
        curve_data, curve_size=1.0, translate_offset=(0.0, 0.0, 0.0),
        scale=(1.0, 1.0, 1.0), axis_order='XYZ', color=None, mirror=None):
    """
    Creates a NURBS curve based on the given curve data
    :param curve_data: dict, data, {"shapeName": {"cvs": [], "knots":[], "degree": int, "form": int, "matrix": []}}
    will be created
    :return: tuple(MObject, list(MObject)), tuple containing the parent MObject and the list of MObject shapes
    """

    translate_offset = CurveCV(translate_offset)
    scale = CurveCV(scale)
    order = [{'X': 0, 'Y': 1, 'Z': 2}[x] for x in axis_order]

    curves_to_create = OrderedDict()
    for shape_name, shape_data in curve_data.items():
        curves_to_create[shape_name] = list()
        shape_parent = shape_data.get('shape_parent', None)
        if shape_parent:
            if shape_parent in curves_to_create:
                curves_to_create[shape_parent].append(shape_name)

    created_curves = list()

    nurbs_set = rt.NURBSSet()
    for shape_name, shape_children in curves_to_create.items():
        if shape_name not in created_curves:
            _, new_shapes = _create_curve(shape_name, curve_data[shape_name], curve_size, translate_offset, scale,
                                          order, mirror, nurbs_set=nurbs_set)
    n = rt.NURBSNode(nurbs_set, name='nurbs01')

    # TODO: Here we need to support both colors between 1.0 and 255, this is hacky way. Find a better solution.
    if color:
        if all(i > 1.0 for i in color):
            n.wirecolor = rt.Color(*color)
        else:
            color = [i * 255 for i in color]
            n.wirecolor = rt.Color(*color)

    return n
コード例 #6
0
'''
from pymxs import runtime as rt  # pylint: disable=import-error


def create_sphere():
    """Create a sphere of radius 5."""
    return rt.sphere(radius=5)


def solid_material(color):
    """Create a material."""
    material = rt.StandardMaterial()
    material.Ambient = color
    material.Diffuse = color
    material.Specular = rt.Color(255, 255, 255)
    material.Shininess = 50.0
    material.ShinyStrength = 70.0
    material.SpecularLevel = 70.0
    return material


def apply_material_to_nodes(material, nodes=rt.rootnode.children):
    """Apply a material to multiple nodes."""
    for node in nodes:
        node.Material = material


create_sphere()
MAT = solid_material(rt.Color(0, 0, 255))
apply_material_to_nodes(MAT)