PolylineMaterialAppearance

new PolylineMaterialAppearance

An appearance for PolylineGeometry that supports shading with materials.

Parameters:

Name	Type	Argument	Default	Description
`options.translucent`	Boolean	<optional>	true	When `true`, the geometry is expected to appear translucent so PolylineMaterialAppearance#renderState has alpha blending enabled.
`options.material`	Material	<optional>	Material.ColorType	The material used to determine the fragment color.
`options.vertexShaderSource`	String	<optional>	undefined	Optional GLSL vertex shader source to override the default vertex shader.
`options.fragmentShaderSource`	String	<optional>	undefined	Optional GLSL fragment shader source to override the default fragment shader.
`options.renderState`	RenderState	<optional>	undefined	Optional render state to override the default render state.

Example

var primitive = new Cesium.Primitive({
  geometryInstances : new Cesium.GeometryInstance({
    geometry : new Cesium.PolylineGeometry({
      positions : ellipsoid.cartographicArrayToCartesianArray([
        Cesium.Cartographic.fromDegrees(0.0, 0.0),
        Cesium.Cartographic.fromDegrees(5.0, 0.0)
      ]),
      width : 10.0,
      vertexFormat : Cesium.PolylineMaterialAppearance.VERTEX_FORMAT
    })
  }),
  appearance : new Cesium.PolylineMaterialAppearance({
    material : Cesium.Material.fromType('Color')
  })
}));

See:

Fabric

Source:

ineMaterialAppearance.js

Members

<readonly> closed

When true, the geometry is expected to be closed so PolylineMaterialAppearance#renderState has backface culling enabled.

Default Value:

false

<readonly> fragmentShaderSource :String

The GLSL source code for the fragment shader. The full fragment shader source is built procedurally taking into account PolylineMaterialAppearance#material. Use PolylineMaterialAppearance#getFragmentShaderSource to get the full source.

getFragmentShaderSource

Procedurally creates the full GLSL fragment shader source. For PolylineMaterialAppearance, this is derived from PolylineMaterialAppearance#fragmentShaderSource and PolylineMaterialAppearance#material.

getRenderState

Creates a render state. This is not the final RenderState instance; instead, it can contain a subset of render state properties identical to renderState passed to Context#createRenderState.

isTranslucent

Determines if the geometry is translucent based on PolylineMaterialAppearance#translucent and Material#isTranslucent.

material :Material

The material used to determine the fragment color. Unlike other PolylineMaterialAppearance properties, this is not read-only, so an appearance's material can change on the fly.

Default Value:

Material.ColorType

See:

Fabric

<readonly> renderState :Object

The render state. This is not the final RenderState instance; instead, it can contain a subset of render state properties identical to renderState passed to Context#createRenderState.

The render state can be explicitly defined when constructing a PolylineMaterialAppearance instance, or it is set implicitly via PolylineMaterialAppearance#translucent and PolylineMaterialAppearance#closed.

<readonly> translucent

When true, the geometry is expected to appear translucent so PolylineMaterialAppearance#renderState has alpha blending enabled.

Default Value:

true

<readonly> vertexFormat :VertexFormat

The VertexFormat that this appearance instance is compatible with. A geometry can have more vertex attributes and still be compatible - at a potential performance cost - but it can't have less.

<readonly> vertexShaderSource :String

The GLSL source code for the vertex shader.

<static, constant> VERTEX_FORMAT :VertexFormat

The VertexFormat that all PolylineMaterialAppearance instances are compatible with. This requires position and st attributes.