コード例 #1
0
def add_parametric_color_ramp() -> bpy.types.NodeGroup:
    group = bpy.data.node_groups.new(type="ShaderNodeTree", name="Parametric Color Ramp")

    # Input

    input_node = group.nodes.new(type="NodeGroupInput")
    group.inputs.new("NodeSocketFloatFactor", "Fac")
    group.inputs.new("NodeSocketColor", "Color1")
    group.inputs.new("NodeSocketColor", "Color2")
    group.inputs.new("NodeSocketFloatFactor", "Pos1")
    group.inputs.new("NodeSocketFloatFactor", "Pos2")

    set_socket_value_range(group.inputs["Fac"], default_value=0.5)
    set_socket_value_range(group.inputs["Pos1"], default_value=0.0)
    set_socket_value_range(group.inputs["Pos2"], default_value=1.0)

    # Math

    denominator_subtract_node = group.nodes.new(type="ShaderNodeMath")
    denominator_subtract_node.operation = "SUBTRACT"
    denominator_subtract_node.use_clamp = True

    numerator_subtract_node = group.nodes.new(type="ShaderNodeMath")
    numerator_subtract_node.operation = "SUBTRACT"
    numerator_subtract_node.use_clamp = True

    divide_node = group.nodes.new(type="ShaderNodeMath")
    divide_node.operation = "DIVIDE"
    divide_node.use_clamp = True

    group.links.new(input_node.outputs["Pos2"], denominator_subtract_node.inputs[0])
    group.links.new(input_node.outputs["Fac"], denominator_subtract_node.inputs[1])

    group.links.new(input_node.outputs["Pos2"], numerator_subtract_node.inputs[0])
    group.links.new(input_node.outputs["Pos1"], numerator_subtract_node.inputs[1])

    group.links.new(denominator_subtract_node.outputs["Value"], divide_node.inputs[0])
    group.links.new(numerator_subtract_node.outputs["Value"], divide_node.inputs[1])

    # Mixing

    mix_node = group.nodes.new(type="ShaderNodeMixRGB")

    group.links.new(divide_node.outputs["Value"], mix_node.inputs["Fac"])
    group.links.new(input_node.outputs["Color2"], mix_node.inputs[1])
    group.links.new(input_node.outputs["Color1"], mix_node.inputs[2])

    # Output

    output_node = group.nodes.new(type="NodeGroupOutput")
    group.outputs.new("NodeSocketColor", "Color")

    group.links.new(mix_node.outputs["Color"], output_node.inputs["Color"])

    # Return

    arrange_nodes(group)

    return group
コード例 #2
0
def add_peeling_paint_metal_node_group() -> bpy.types.NodeGroup:
    group = bpy.data.node_groups.new(type="ShaderNodeTree",
                                     name="Peeling Paint Metal")

    input_node = group.nodes.new(type="NodeGroupInput")
    group.inputs.new("NodeSocketColor", "Paint Color")
    group.inputs.new("NodeSocketColor", "Metal Color")
    group.inputs.new("NodeSocketFloat", "Scale")
    group.inputs.new("NodeSocketFloat", "Detail")
    group.inputs.new("NodeSocketFloat", "Distortion")
    group.inputs.new("NodeSocketFloatFactor", "Threshold")

    set_socket_value_range(group.inputs["Scale"],
                           default_value=4.5,
                           min_value=0.0,
                           max_value=1000.0)
    set_socket_value_range(group.inputs["Detail"],
                           default_value=8.0,
                           min_value=0.0,
                           max_value=16.0)
    set_socket_value_range(group.inputs["Distortion"],
                           default_value=0.5,
                           min_value=0.0,
                           max_value=1000.0)
    set_socket_value_range(group.inputs["Threshold"], default_value=0.42)

    group.inputs["Paint Color"].default_value = (0.152, 0.524, 0.067, 1.000)
    group.inputs["Metal Color"].default_value = (0.062, 0.015, 0.011, 1.000)

    tex_coord_node = group.nodes.new(type="ShaderNodeTexCoord")
    mapping_node = group.nodes.new(type="ShaderNodeMapping")

    group.links.new(tex_coord_node.outputs["Object"],
                    mapping_node.inputs["Vector"])

    # Peeling region segmentation

    peeling_noise_node = group.nodes.new(type="ShaderNodeTexNoise")

    group.links.new(mapping_node.outputs["Vector"],
                    peeling_noise_node.inputs["Vector"])
    group.links.new(input_node.outputs["Scale"],
                    peeling_noise_node.inputs["Scale"])
    group.links.new(input_node.outputs["Detail"],
                    peeling_noise_node.inputs["Detail"])
    group.links.new(input_node.outputs["Distortion"],
                    peeling_noise_node.inputs["Distortion"])

    peeling_threshold_node = create_parametric_color_ramp_node(group)
    peeling_threshold_node.inputs["Color1"].default_value = (0.0, 0.0, 0.0,
                                                             1.0)
    peeling_threshold_node.inputs["Color2"].default_value = (1.0, 1.0, 1.0,
                                                             1.0)

    # Base color

    epsilon_subtract_node = group.nodes.new(type="ShaderNodeMath")
    epsilon_subtract_node.operation = "SUBTRACT"
    epsilon_subtract_node.inputs[1].default_value = 0.001

    group.links.new(input_node.outputs["Threshold"],
                    epsilon_subtract_node.inputs[0])

    group.links.new(peeling_noise_node.outputs["Fac"],
                    peeling_threshold_node.inputs["Fac"])
    group.links.new(epsilon_subtract_node.outputs["Value"],
                    peeling_threshold_node.inputs["Pos1"])
    group.links.new(input_node.outputs["Threshold"],
                    peeling_threshold_node.inputs["Pos2"])

    color_mix_node = group.nodes.new(type="ShaderNodeMixRGB")
    group.links.new(peeling_threshold_node.outputs["Color"],
                    color_mix_node.inputs["Fac"])
    group.links.new(input_node.outputs["Metal Color"],
                    color_mix_node.inputs[1])
    group.links.new(input_node.outputs["Paint Color"],
                    color_mix_node.inputs[2])

    # Ambient occulusion

    epsilon_add_node = group.nodes.new(type="ShaderNodeMath")
    epsilon_add_node.operation = "ADD"
    epsilon_add_node.inputs[1].default_value = 0.010

    group.links.new(input_node.outputs["Threshold"],
                    epsilon_add_node.inputs[0])

    fallout_subtract_node = group.nodes.new(type="ShaderNodeMath")
    fallout_subtract_node.operation = "SUBTRACT"
    fallout_subtract_node.inputs[1].default_value = 0.060

    group.links.new(input_node.outputs["Threshold"],
                    fallout_subtract_node.inputs[0])

    ao_node = create_tri_parametric_color_ramp_node(group)
    ao_node.inputs["Color1"].default_value = (1.0, 1.0, 1.0, 1.0)
    ao_node.inputs["Color2"].default_value = (0.0, 0.0, 0.0, 1.0)
    ao_node.inputs["Color3"].default_value = (1.0, 1.0, 1.0, 1.0)

    group.links.new(peeling_noise_node.outputs["Fac"], ao_node.inputs["Fac"])
    group.links.new(fallout_subtract_node.outputs["Value"],
                    ao_node.inputs["Pos1"])
    group.links.new(input_node.outputs["Threshold"], ao_node.inputs["Pos2"])
    group.links.new(epsilon_add_node.outputs["Value"], ao_node.inputs["Pos3"])

    ao_mix_node = group.nodes.new(type="ShaderNodeMixRGB")
    ao_mix_node.blend_type = "MULTIPLY"
    ao_mix_node.inputs["Fac"].default_value = 1.0

    group.links.new(color_mix_node.outputs["Color"], ao_mix_node.inputs[1])
    group.links.new(ao_node.outputs["Color"], ao_mix_node.inputs[2])

    # Metallic

    metallic_node = group.nodes.new(type="ShaderNodeMixRGB")
    metallic_node.inputs["Color1"].default_value = (1.0, 1.0, 1.0, 1.0)
    metallic_node.inputs["Color2"].default_value = (0.0, 0.0, 0.0, 1.0)

    group.links.new(peeling_threshold_node.outputs["Color"],
                    metallic_node.inputs["Fac"])

    # Roughness

    roughness_node = group.nodes.new(type="ShaderNodeMixRGB")
    roughness_node.inputs["Color1"].default_value = (0.50, 0.50, 0.50, 1.0)
    roughness_node.inputs["Color2"].default_value = (0.05, 0.05, 0.05, 1.0)

    group.links.new(peeling_threshold_node.outputs["Color"],
                    roughness_node.inputs["Fac"])

    # Bump

    height_node = create_tri_parametric_color_ramp_node(group)
    height_node.inputs["Color1"].default_value = (0.0, 0.0, 0.0, 1.0)
    height_node.inputs["Color2"].default_value = (1.0, 1.0, 1.0, 1.0)
    height_node.inputs["Color3"].default_value = (0.5, 0.5, 0.5, 1.0)

    height_peak_add_node = group.nodes.new(type="ShaderNodeMath")
    height_peak_add_node.operation = "ADD"
    height_peak_add_node.inputs[1].default_value = 0.005

    height_tail_add_node = group.nodes.new(type="ShaderNodeMath")
    height_tail_add_node.operation = "ADD"
    height_tail_add_node.inputs[1].default_value = 0.025

    group.links.new(input_node.outputs["Threshold"],
                    height_peak_add_node.inputs[0])
    group.links.new(input_node.outputs["Threshold"],
                    height_tail_add_node.inputs[0])
    group.links.new(peeling_noise_node.outputs["Fac"],
                    height_node.inputs["Fac"])
    group.links.new(input_node.outputs["Threshold"],
                    height_node.inputs["Pos1"])
    group.links.new(height_peak_add_node.outputs["Value"],
                    height_node.inputs["Pos2"])
    group.links.new(height_tail_add_node.outputs["Value"],
                    height_node.inputs["Pos3"])

    bump_node = group.nodes.new(type="ShaderNodeBump")
    group.links.new(height_node.outputs["Color"], bump_node.inputs["Height"])

    # Output

    output_node = group.nodes.new("NodeGroupOutput")
    group.outputs.new("NodeSocketColor", "Color")
    group.outputs.new("NodeSocketColor", "Metallic")
    group.outputs.new("NodeSocketColor", "Roughness")
    group.outputs.new("NodeSocketVectorDirection", "Bump")

    group.links.new(ao_mix_node.outputs["Color"], output_node.inputs["Color"])
    group.links.new(metallic_node.outputs["Color"],
                    output_node.inputs["Metallic"])
    group.links.new(roughness_node.outputs["Color"],
                    output_node.inputs["Roughness"])
    group.links.new(bump_node.outputs["Normal"], output_node.inputs["Bump"])

    arrange_nodes(group)

    return group
コード例 #3
0
ファイル: composition.py プロジェクト: bsridatta/Blender-Pose
def add_split_tone_node_group() -> bpy.types.NodeGroup:
    group = bpy.data.node_groups.new(type="CompositorNodeTree", name="SplitToneSub")

    input_node = group.nodes.new("NodeGroupInput")
    group.inputs.new("NodeSocketColor", "Image")
    group.inputs.new("NodeSocketFloat", "Hue")
    group.inputs.new("NodeSocketFloat", "Saturation")

    solid_node = group.nodes.new(type="CompositorNodeCombHSVA")
    solid_node.inputs["S"].default_value = 1.0
    solid_node.inputs["V"].default_value = 1.0
    solid_node.inputs["A"].default_value = 1.0

    input_sep_node = group.nodes.new(type="CompositorNodeSepHSVA")

    overlay_node = group.nodes.new(type="CompositorNodeMixRGB")
    overlay_node.blend_type = 'OVERLAY'

    overlay_sep_node = group.nodes.new(type="CompositorNodeSepHSVA")

    comb_node = group.nodes.new(type="CompositorNodeCombHSVA")

    output_node = group.nodes.new("NodeGroupOutput")
    group.outputs.new("NodeSocketColor", "Image")

    group.links.new(input_node.outputs["Hue"], solid_node.inputs["H"])
    group.links.new(input_node.outputs["Saturation"], overlay_node.inputs["Fac"])
    group.links.new(input_node.outputs["Image"], overlay_node.inputs[1])
    group.links.new(solid_node.outputs["Image"], overlay_node.inputs[2])
    group.links.new(overlay_node.outputs["Image"], overlay_sep_node.inputs["Image"])
    group.links.new(input_node.outputs["Image"], input_sep_node.inputs["Image"])
    group.links.new(overlay_sep_node.outputs["H"], comb_node.inputs["H"])
    group.links.new(overlay_sep_node.outputs["S"], comb_node.inputs["S"])
    group.links.new(input_sep_node.outputs["V"], comb_node.inputs["V"])
    group.links.new(input_sep_node.outputs["A"], comb_node.inputs["A"])
    group.links.new(comb_node.outputs["Image"], output_node.inputs["Image"])

    arrange_nodes(group)

    # --------------------------------------------------------------------------

    group = bpy.data.node_groups.new(type="CompositorNodeTree", name="SplitTone")

    input_node = group.nodes.new("NodeGroupInput")

    group.inputs.new("NodeSocketColor", "Image")
    group.inputs.new("NodeSocketFloat", "HighlightsHue")
    group.inputs.new("NodeSocketFloat", "HighlightsSaturation")
    group.inputs.new("NodeSocketFloat", "ShadowsHue")
    group.inputs.new("NodeSocketFloat", "ShadowsSaturation")
    group.inputs.new("NodeSocketFloatFactor", "Balance")

    set_socket_value_range(group.inputs["HighlightsHue"])
    set_socket_value_range(group.inputs["HighlightsSaturation"])
    set_socket_value_range(group.inputs["ShadowsHue"])
    set_socket_value_range(group.inputs["ShadowsSaturation"])
    set_socket_value_range(group.inputs["Balance"], default_value=0.5)

    input_sep_node = group.nodes.new(type="CompositorNodeSepHSVA")

    subtract_node = group.nodes.new(type="CompositorNodeMath")
    subtract_node.inputs[0].default_value = 1.0
    subtract_node.operation = 'SUBTRACT'
    subtract_node.use_clamp = True

    multiply_node = group.nodes.new(type="CompositorNodeMath")
    multiply_node.inputs[1].default_value = 2.0
    multiply_node.operation = 'MULTIPLY'
    multiply_node.use_clamp = False

    power_node = group.nodes.new(type="CompositorNodeMath")
    power_node.operation = 'POWER'
    power_node.use_clamp = True

    shadows_node = group.nodes.new(type='CompositorNodeGroup')
    shadows_node.name = "Shadows"
    shadows_node.node_tree = bpy.data.node_groups["SplitToneSub"]

    highlights_node = group.nodes.new(type='CompositorNodeGroup')
    highlights_node.name = "Highlights"
    highlights_node.node_tree = bpy.data.node_groups["SplitToneSub"]

    comb_node = group.nodes.new(type="CompositorNodeMixRGB")
    comb_node.use_clamp = False

    output_node = group.nodes.new("NodeGroupOutput")
    group.outputs.new("NodeSocketColor", "Image")

    group.links.new(input_node.outputs["Image"], input_sep_node.inputs["Image"])
    group.links.new(input_node.outputs["Image"], shadows_node.inputs["Image"])
    group.links.new(input_node.outputs["ShadowsHue"], shadows_node.inputs["Hue"])
    group.links.new(input_node.outputs["ShadowsSaturation"], shadows_node.inputs["Saturation"])
    group.links.new(input_node.outputs["Image"], highlights_node.inputs["Image"])
    group.links.new(input_node.outputs["HighlightsHue"], highlights_node.inputs["Hue"])
    group.links.new(input_node.outputs["HighlightsSaturation"], highlights_node.inputs["Saturation"])
    group.links.new(input_node.outputs["Balance"], subtract_node.inputs[1])
    group.links.new(subtract_node.outputs["Value"], multiply_node.inputs[0])
    group.links.new(input_sep_node.outputs["V"], power_node.inputs[0])
    group.links.new(multiply_node.outputs["Value"], power_node.inputs[1])
    group.links.new(power_node.outputs["Value"], comb_node.inputs["Fac"])
    group.links.new(shadows_node.outputs["Image"], comb_node.inputs[1])
    group.links.new(highlights_node.outputs["Image"], comb_node.inputs[2])
    group.links.new(comb_node.outputs["Image"], output_node.inputs["Image"])

    arrange_nodes(group)

    return group