EllipsoidSurfaceAppearance

var primitive = new Cesium.Primitive({
  geometryInstances : new Cesium.GeometryInstance({
    geometry : new Cesium.PolygonGeometry({
      vertexFormat : Cesium.EllipsoidSurfaceAppearance.VERTEX_FORMAT,
      // ...
    })
  }),
  appearance : new Cesium.EllipsoidSurfaceAppearance({
    material : Cesium.Material.fromType('Stripe')
  })
});

Members

<readonly> aboveGround

When true, the geometry is expected to be on the ellipsoid's surface - not at a constant height above it - so EllipsoidSurfaceAppearance#renderState has backface culling enabled.

Default Value:

• false

<readonly> closed

When true, the geometry is expected to be closed so EllipsoidSurfaceAppearance#renderState has backface culling enabled. If the viewer enters the geometry, it will not be visible.

Default Value:

• true

<readonly> faceForward

When true, the fragment shader flips the surface normal as needed to ensure that the normal faces the viewer to avoid dark spots. This is useful when both sides of a geometry should be shaded like WallGeometry.

Default Value:

• true

<readonly> flat

When true, flat shading is used in the fragment shader, which means lighting is not taking into account.

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 EllipsoidSurfaceAppearance#material, EllipsoidSurfaceAppearance#flat, and EllipsoidSurfaceAppearance#faceForward. Use EllipsoidSurfaceAppearance#getFragmentShaderSource to get the full source.

getFragmentShaderSource

Procedurally creates the full GLSL fragment shader source. For EllipsoidSurfaceAppearance, this is derived from EllipsoidSurfaceAppearance#fragmentShaderSource, EllipsoidSurfaceAppearance#flat, and EllipsoidSurfaceAppearance#faceForward.

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 EllipsoidSurfaceAppearance#translucent and Material#isTranslucent.

material :Material

The material used to determine the fragment color. Unlike other EllipsoidSurfaceAppearance 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 EllipsoidSurfaceAppearance instance, or it is set implicitly via EllipsoidSurfaceAppearance#translucent and EllipsoidSurfaceAppearance#aboveGround.

<readonly> translucent

When true, the geometry is expected to appear translucent so EllipsoidSurfaceAppearance#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 EllipsoidSurfaceAppearance instances are compatible with, which requires only position and st attributes. Other attributes are procedurally computed in the fragment shader.