A standard physically based material, using Metallic-Roughness
workflow.
Physically based rendering (PBR) has recently become the standard in many
3D applications, such as
[link:https://blogs.unity3d.com/2014/10/29/physically-based-shading-in-unity-5-a-primer/ Unity],
[link:https://docs.unrealengine.com/latest/INT/Engine/Rendering/Materials/PhysicallyBased/ Unreal] and
[link:http://area.autodesk.com/blogs/the-3ds-max-blog/what039s-new-for-rendering-in-3ds-max-2017 3D Studio Max].
This approach differs from older approaches in that instead of using
approximations for the way in which light interacts with a surface, a
physically correct model is used. The idea is that, instead of tweaking
materials to look good under specific lighting, a material can be created
that will react 'correctly' under all lighting scenarios.
In practice this gives a more accurate and realistic looking result than
the [page:MeshLambertMaterial] or [page:MeshPhongMaterial], at the cost of
being somewhat more computationally expensive. [name] uses per-fragment
shading.
Note that for best results you should always specify an [page:.envMap environment map]
when using this material.
For a non-technical introduction to the concept of PBR and how to set up a
PBR material, check out these articles by the people at
[link:https://www.marmoset.co marmoset]:
Technical details of the approach used in three.js (and most other PBR systems) can be found is this [link:https://media.disneyanimation.com/uploads/production/publication_asset/48/asset/s2012_pbs_disney_brdf_notes_v3.pdf paper from Disney] (pdf), by Brent Burley.
[page:Object parameters] - (optional) an object with one or more
properties defining the material's appearance. Any property of the
material (including any property inherited from [page:Material]) can be
passed in here.
The exception is the property [page:Hexadecimal color], which can be
passed in as a hexadecimal string and is `0xffffff` (white) by default.
[page:Color.set]( color ) is called internally.
See the base [page:Material] class for common properties.
The alpha map is a grayscale texture that controls the opacity across the
surface (black: fully transparent; white: fully opaque). Default is
null.
Only the color of the texture is used, ignoring the alpha channel if one
exists. For RGB and RGBA textures, the [page:WebGLRenderer WebGL] renderer
will use the green channel when sampling this texture due to the extra bit
of precision provided for green in DXT-compressed and uncompressed RGB 565
formats. Luminance-only and luminance/alpha textures will also still work
as expected.
The red channel of this texture is used as the ambient occlusion map. Default is null. The aoMap requires a second set of UVs.
Intensity of the ambient occlusion effect. Default is `1`. Zero is no occlusion effect.
The texture to create a bump map. The black and white values map to the perceived depth in relation to the lights. Bump doesn't actually affect the geometry of the object, only the lighting. If a normal map is defined this will be ignored.
How much the bump map affects the material. Typical ranges are 0-1. Default is `1`.
[page:Color] of the material, by default set to white (0xffffff).
An object of the form:
{ 'STANDARD': '' };
This is used by the [page:WebGLRenderer] for selecting shaders.
The displacement map affects the position of the mesh's vertices. Unlike other maps which only affect the light and shade of the material the displaced vertices can cast shadows, block other objects, and otherwise act as real geometry. The displacement texture is an image where the value of each pixel (white being the highest) is mapped against, and repositions, the vertices of the mesh.
How much the displacement map affects the mesh (where black is no displacement, and white is maximum displacement). Without a displacement map set, this value is not applied. Default is `1`.
The offset of the displacement map's values on the mesh's vertices. Without a displacement map set, this value is not applied. Default is `0`.
Emissive (light) color of the material, essentially a solid color unaffected by other lighting. Default is black.
Set emissive (glow) map. Default is null. The emissive map color is modulated by the emissive color and the emissive intensity. If you have an emissive map, be sure to set the emissive color to something other than black.
Intensity of the emissive light. Modulates the emissive color. Default is 1.
The environment map. To ensure a physically correct rendering, you should only add environment maps which were preprocessed by [page:PMREMGenerator]. Default is null.
The rotation of the environment map in radians. Default is `(0,0,0)`.
Scales the effect of the environment map by multiplying its color.
Define whether the material is rendered with flat shading. Default is false.
Whether the material is affected by fog. Default is `true`.
Read-only flag to check if a given object is of type [name].
The light map. Default is null. The lightMap requires a second set of UVs.
Intensity of the baked light. Default is `1`.
The color map. May optionally include an alpha channel, typically combined with [page:Material.transparent .transparent] or [page:Material.alphaTest .alphaTest]. Default is null. The texture map color is modulated by the diffuse [page:.color].
How much the material is like a metal. Non-metallic materials such as wood or stone use `0.0`, metallic use `1.0`, with nothing (usually) in between. Default is `0.0`. A value between `0.0` and `1.0` could be used for a rusty metal look. If metalnessMap is also provided, both values are multiplied.
The blue channel of this texture is used to alter the metalness of the material.
The texture to create a normal map. The RGB values affect the surface normal for each pixel fragment and change the way the color is lit. Normal maps do not change the actual shape of the surface, only the lighting. In case the material has a normal map authored using the left handed convention, the y component of normalScale should be negated to compensate for the different handedness.
The type of normal map.
Options are [page:constant THREE.TangentSpaceNormalMap] (default), and
[page:constant THREE.ObjectSpaceNormalMap].
How much the normal map affects the material. Typical ranges are 0-1. Default is a [page:Vector2] set to (1,1).
How rough the material appears. `0.0` means a smooth mirror reflection, `1.0` means fully diffuse. Default is `1.0`. If roughnessMap is also provided, both values are multiplied.
The green channel of this texture is used to alter the roughness of the material.
Render geometry as wireframe. Default is `false` (i.e. render as flat polygons).
Define appearance of line ends. Possible values are "butt", "round" and
"square". Default is 'round'.
This corresponds to the
[link:https://developer.mozilla.org/en/docs/Web/API/CanvasRenderingContext2D/lineCap 2D Canvas lineCap]
property and it is ignored by the [page:WebGLRenderer WebGL] renderer.
Define appearance of line joints. Possible values are "round", "bevel" and
"miter". Default is 'round'.
This corresponds to the
[link:https://developer.mozilla.org/en/docs/Web/API/CanvasRenderingContext2D/lineJoin 2D Canvas lineJoin]
property and it is ignored by the [page:WebGLRenderer WebGL] renderer.
Controls wireframe thickness. Default is `1`.
Due to limitations of the
[link:https://www.khronos.org/registry/OpenGL/specs/gl/glspec46.core.pdf OpenGL Core Profile]
with the [page:WebGLRenderer WebGL] renderer on most
platforms linewidth will always be `1` regardless of the set value.
See the base [page:Material] class for common methods.
[link:https://github.com/mrdoob/three.js/blob/master/src/[path].js src/[path].js]