纹理常量（Texture Constants）

映射模式


		THREE.UVMapping
		THREE.CubeReflectionMapping
		THREE.CubeRefractionMapping
		THREE.EquirectangularReflectionMapping
		THREE.EquirectangularRefractionMapping
		THREE.CubeUVReflectionMapping
		THREE.CubeUVRefractionMapping

这些常量定义了纹理贴图的映射模式。
[page:Constant UVMapping]是默认值，纹理使用网格的坐标来进行映射。

其它的值定义了环境映射的类型。

[page:Constant CubeReflectionMapping] 和 [page:Constant CubeRefractionMapping] 用于 [page:CubeTexture CubeTexture] —— 由6个纹理组合而成，每个纹理都是立方体的一个面。对于[page:CubeTexture CubeTexture]来说，[page:Constant CubeReflectionMapping]是其默认值。

[page:Constant EquirectangularReflectionMapping] 和 [page:Constant EquirectangularRefractionMapping] 用于等距圆柱投影的环境贴图，也被叫做经纬线映射贴图。等距圆柱投影贴图表示沿着其水平中线360°的视角，以及沿着其垂直轴向180°的视角。贴图顶部和底部的边缘分别对应于它所映射的球体的北极和南极。

请查看示例：[example:webgl_materials_envmaps materials / envmaps] 。

包裹模式


		THREE.RepeatWrapping
		THREE.ClampToEdgeWrapping
		THREE.MirroredRepeatWrapping

这些常量定义了纹理贴图的 [page:Texture.wrapS wrapS] 和 [page:Texture.wrapT wrapT] 属性，定义了水平和垂直方向上纹理的包裹方式。

使用[page:constant RepeatWrapping]，纹理将简单地重复到无穷大。 With [page:constant RepeatWrapping] the texture will simply repeat to infinity.

[page:constant ClampToEdgeWrapping]是默认值，纹理中的最后一个像素将延伸到网格的边缘。

使用[page:constant MirroredRepeatWrapping]，纹理将重复到无穷大，在每次重复时将进行镜像。

放大滤镜（Magnification Filters）


		THREE.NearestFilter
		THREE.LinearFilter

这些常量用于纹理的[page:Texture.magFilter magFilter]属性，它们定义了当被纹理化的像素映射到小于或者等于1纹理元素（texel）的区域时，将要使用的纹理放大函数。

[page:constant NearestFilter]返回与指定纹理坐标（在曼哈顿距离之内）最接近的纹理元素的值。

[page:constant LinearFilter]是默认值，返回距离指定的纹理坐标最近的四个纹理元素的加权平均值，并且可以包含纹理的其他部分中，被包裹或者被重复的项目，具体取决于 [page:Texture.wrapS wrapS] 和 [page:Texture.wrapT wrapT] 的值，and on the exact mapping。

缩小滤镜（Minification Filters）


		THREE.NearestFilter
		THREE.NearestMipmapNearestFilter
		THREE.NearestMipmapLinearFilter
		THREE.LinearFilter
		THREE.LinearMipmapNearestFilter
		THREE.LinearMipmapLinearFilter

这些常量用于纹理的[page:Texture.minFilter minFilter]属性，它们定义了当被纹理化的像素映射到大于1纹理元素（texel）的区域时，将要使用的纹理缩小函数。

除了[page:constant NearestFilter] 和 [page:constant LinearFilter]，下面的四个函数也可以用于缩小：

[page:constant NearestMipmapNearestFilter]选择与被纹理化像素的尺寸最匹配的mipmap，并以[page:constant NearestFilter]（最靠近像素中心的纹理元素）为标准来生成纹理值。

[page:constant NearestMipmapLinearFilter]选择与被纹理化像素的尺寸最接近的两个mipmap，并以[page:constant NearestFilter]为标准来从每个mipmap中生成纹理值。最终的纹理值是这两个值的加权平均值。

[page:constant LinearMipmapNearestFilter]选择与被纹理化像素的尺寸最匹配的mipmap，并以[page:constant LinearFilter]（最靠近像素中心的四个纹理元素的加权平均值）为标准来生成纹理值。

[page:constant LinearMipmapLinearFilter]是默认值，它选择与被纹理化像素的尺寸最接近的两个mipmap，并以[page:constant LinearFilter]为标准来从每个mipmap中生成纹理值。最终的纹理值是这两个值的加权平均值。

请查看示例：[example:webgl_materials_texture_filters materials / texture / filters]。

类型


		THREE.UnsignedByteType
		THREE.ByteType
		THREE.ShortType
		THREE.UnsignedShortType
		THREE.IntType
		THREE.UnsignedIntType
		THREE.FloatType
		THREE.HalfFloatType
		THREE.UnsignedShort4444Type
		THREE.UnsignedShort5551Type
		THREE.UnsignedShort565Type
		THREE.UnsignedInt248Type

这些常量用于纹理的[page:Texture.type type]属性，这些属性必须与正确的格式相对应。详情请查看下方。

[page:constant UnsignedByteType] 是默认值。

格式


		THREE.AlphaFormat
		THREE.RedFormat
		THREE.RedIntegerFormat
		THREE.RGFormat
		THREE.RGIntegerFormat
		THREE.RGBFormat
		THREE.RGBIntegerFormat
		THREE.RGBAFormat
		THREE.RGBAIntegerFormat
		THREE.LuminanceFormat
		THREE.LuminanceAlphaFormat
		THREE.RGBEFormat
		THREE.DepthFormat
		THREE.DepthStencilFormat

这些常量用于纹理的[page:Texture.format format]属性，它们定义了shader（着色器）将如何读取的2D纹理或者*texels*（纹理元素）的元素。.

[page:constant AlphaFormat] 丢弃红、绿、蓝分量，仅读取Alpha分量。

[page:constant RedFormat] discards the green and blue components and reads just the red component.

[page:constant RedIntegerFormat] discards the green and blue components and reads just the red component. The texels are read as integers instead of floating point. (can only be used with a WebGL 2 rendering context).

[page:constant RGFormat] discards the alpha, and blue components and reads the red, and green components. (can only be used with a WebGL 2 rendering context).

[page:constant RGIntegerFormat] discards the alpha, and blue components and reads the red, and green components. The texels are read as integers instead of floating point. (can only be used with a WebGL 2 rendering context).

[page:constant RGBFormat] 丢弃Alpha分量，仅读取红、绿、蓝分量。

[page:constant RGBIntegerFormat] discards the alpha components and reads the red, green and blue components. (can only be used with a WebGL 2 rendering context).

[page:constant RGBAFormat] 是默认值，它将读取红、绿、蓝和Alpha分量。

[page:constant RGBAIntegerFormat] is the default and reads the red, green, blue and alpha components. The texels are read as integers instead of floating point. (can only be used with a WebGL 2 rendering context).

[page:constant LuminanceFormat] 将每个元素作为单独的亮度分量来读取。将其转换为范围限制在[0,1]区间的浮点数，然后通过将亮度值放入红、绿、蓝通道，并将1.0赋给Alpha通道，来组装成一个RGBA元素。

[page:constant LuminanceAlphaFormat] 将每个元素同时作为亮度分量和Alpha分量来读取。和上面[page:constant LuminanceFormat]的处理过程是一致的，除了Alpha分量具有除了*1.0*以外的值。

[page:constant RGBEFormat] 与 [page:constant RGBAFormat] 是相同的。

[page:constant DepthFormat]将每个元素作为单独的深度值来读取，将其转换为范围限制在[0,1]区间的浮点数。它是[page:DepthTexture DepthTexture]的默认值。

[page:constant DepthStencilFormat]将每个元素同时作为一对深度值和模板值来读取。其中的深度分量解释为[page:constant DepthFormat]。模板分量基于深度+模板的内部格式来进行解释。

请注意，纹理必须具有正确的[page:Texture.type type]设置，正如上一节所描述的那样。请参阅[link:https://developer.mozilla.org/en/docs/Web/API/WebGLRenderingContext/texImage2D WebGLRenderingContext.texImage2D] 来获得有关详细信息。

DDS / ST3C 压缩纹理格式


		THREE.RGB_S3TC_DXT1_Format
		THREE.RGBA_S3TC_DXT1_Format
		THREE.RGBA_S3TC_DXT3_Format
		THREE.RGBA_S3TC_DXT5_Format

要使用[page:CompressedTexture CompressedTexture]中的[page:Texture.format format]属性，需要获得[link:https://www.khronos.org/registry/webgl/extensions/WEBGL_compressed_texture_s3tc/ WEBGL_compressed_texture_s3tc] 扩展的支持。

通过这个扩展，这里的四种[link:https://en.wikipedia.org/wiki/S3_Texture_Compression S3TC]格式将可以使用：
[page:constant RGB_S3TC_DXT1_Format]：RGB图像格式的DXT1压缩图像。 [page:constant RGBA_S3TC_DXT1_Format]：RGB图像格式的DXT1压缩图像，Alpha仅具有是/否透明两个值。
[page:constant RGBA_S3TC_DXT3_Format]：RGBA图像格式的DXT3压缩图像，和32位RGBA纹理贴图相比，它提供了4:1的压缩比。
[page:constant RGBA_S3TC_DXT5_Format]：RGBA图像格式的DXT5压缩图像，它也提供了4:1的压缩比，但与DX3格式的不同之处在于其Alpha是如何被压缩的。

PVRTC 压缩纹理格式（PVRTC Compressed Texture Formats）


		THREE.RGB_PVRTC_4BPPV1_Format
		THREE.RGB_PVRTC_2BPPV1_Format
		THREE.RGBA_PVRTC_4BPPV1_Format
		THREE.RGBA_PVRTC_2BPPV1_Format

要使用[page:CompressedTexture CompressedTexture]中的[page:Texture.format format]属性，需要获得 [link:https://www.khronos.org/registry/webgl/extensions/WEBGL_compressed_texture_pvrtc/ WEBGL_compressed_texture_pvrtc] 扩展的支持。
PVRTC通常只在具有PowerVR芯片的移动设备上可用，这些设备主要是苹果设备。

通过这个扩展，这里的四种[link:https://en.wikipedia.org/wiki/PVRTC PVRTC]格式将可以使用：
[page:constant RGB_PVRTC_4BPPV1_Format]：4位模式下的RGB压缩，每4x4像素一个块。
[page:constant RGB_PVRTC_2BPPV1_Format]：2位模式下的RGB压缩，每8x4像素一个块。
[page:constant RGBA_PVRTC_4BPPV1_Format]: 4位模式下的RGBA压缩，每4x4像素一个块。
[page:constant RGBA_PVRTC_2BPPV1_Format]: 2位模式下的RGB压缩，每8x4像素一个块。

ETC 压缩纹理格式


		THREE.RGB_ETC1_Format
		THREE.RGB_ETC2_Format
		THREE.RGBA_ETC2_EAC_Format

For use with a [page:CompressedTexture CompressedTexture]'s [page:Texture.format format] property, these require support for the [link:https://www.khronos.org/registry/webgl/extensions/WEBGL_compressed_texture_etc1/ WEBGL_compressed_texture_etc1] (ETC1) or [link:https://www.khronos.org/registry/webgl/extensions/WEBGL_compressed_texture_etc/ WEBGL_compressed_texture_etc] (ETC2) extensions.

ASTC Compressed Texture Format


		THREE.RGBA_ASTC_4x4_Format
		THREE.RGBA_ASTC_5x4_Format
		THREE.RGBA_ASTC_5x5_Format
		THREE.RGBA_ASTC_6x5_Format
		THREE.RGBA_ASTC_6x6_Format
		THREE.RGBA_ASTC_8x5_Format
		THREE.RGBA_ASTC_8x6_Format
		THREE.RGBA_ASTC_8x8_Format
		THREE.RGBA_ASTC_10x5_Format
		THREE.RGBA_ASTC_10x6_Format
		THREE.RGBA_ASTC_10x8_Format
		THREE.RGBA_ASTC_10x10_Format
		THREE.RGBA_ASTC_12x10_Format
		THREE.RGBA_ASTC_12x12_Format
		THREE.SRGB8_ALPHA8_ASTC_4x4_Format
		THREE.SRGB8_ALPHA8_ASTC_5x4_Format
		THREE.SRGB8_ALPHA8_ASTC_5x5_Format
		THREE.SRGB8_ALPHA8_ASTC_6x5_Format
		THREE.SRGB8_ALPHA8_ASTC_6x6_Format
		THREE.SRGB8_ALPHA8_ASTC_8x5_Format
		THREE.SRGB8_ALPHA8_ASTC_8x6_Format
		THREE.SRGB8_ALPHA8_ASTC_8x8_Format
		THREE.SRGB8_ALPHA8_ASTC_10x5_Format
		THREE.SRGB8_ALPHA8_ASTC_10x6_Format
		THREE.SRGB8_ALPHA8_ASTC_10x8_Format
		THREE.SRGB8_ALPHA8_ASTC_10x10_Format
		THREE.SRGB8_ALPHA8_ASTC_12x10_Format
		THREE.SRGB8_ALPHA8_ASTC_12x12_Format

Internal Formats


	'ALPHA'
	'RGB'
	'RGBA'
	'LUMINANCE'
	'LUMINANCE_ALPHA'
	'RED_INTEGER'
	'R8'
	'R8_SNORM'
	'R8I'
	'R8UI'
	'R16I'
	'R16UI'
	'R16F'
	'R32I'
	'R32UI'
	'R32F'
	'RG8'
	'RG8_SNORM'
	'RG8I'
	'RG8UI'
	'RG16I'
	'RG16UI'
	'RG16F'
	'RG32I'
	'RG32UI'
	'RG32F'
	'RGB565'
	'RGB8'
	'RGB8_SNORM'
	'RGB8I'
	'RGB8UI'
	'RGB16I'
	'RGB16UI'
	'RGB16F'
	'RGB32I'
	'RGB32UI'
	'RGB32F'
	'RGB9_E5'
	'SRGB8'
	'R11F_G11F_B10F'
	'RGBA4'
	'RGBA8'
	'RGBA8_SNORM'
	'RGBA8I'
	'RGBA8UI'
	'RGBA16I'
	'RGBA16UI'
	'RGBA16F'
	'RGBA32I'
	'RGBA32UI'
	'RGBA32F'
	'RGB5_A1'
	'RGB10_A2'
	'RGB10_A2UI'
	'SRGB8_ALPHA8'
	'DEPTH_COMPONENT16'
	'DEPTH_COMPONENT24'
	'DEPTH_COMPONENT32F'
	'DEPTH24_STENCIL8'
	'DEPTH32F_STENCIL8'

Heads up: changing the internal format of a texture will only affect the texture when using a WebGL 2 rendering context.

For use with a texture's [page:Texture.internalFormat internalFormat] property, these define how elements of a texture, or *texels*, are stored on the GPU.

[page:constant R8] stores the red component on 8 bits.

[page:constant R8_SNORM] stores the red component on 8 bits. The component is stored as normalized.

[page:constant R8I] stores the red component on 8 bits. The component is stored as an integer.

[page:constant R8UI] stores the red component on 8 bits. The component is stored as an unsigned integer.

[page:constant R16I] stores the red component on 16 bits. The component is stored as an integer.

[page:constant R16UI] stores the red component on 16 bits. The component is stored as an unsigned integer.

[page:constant R16F] stores the red component on 16 bits. The component is stored as floating point.

[page:constant R32I] stores the red component on 32 bits. The component is stored as an integer.

[page:constant R32UI] stores the red component on 32 bits. The component is stored as an unsigned integer.

[page:constant R32F] stores the red component on 32 bits. The component is stored as floating point.

[page:constant RG8] stores the red and green components on 8 bits each.

[page:constant RG8_SNORM] stores the red and green components on 8 bits each. Every component is stored as normalized.

[page:constant RG8I] stores the red and green components on 8 bits each. Every component is stored as an integer.

[page:constant RG8UI] stores the red and green components on 8 bits each. Every component is stored as an unsigned integer.

[page:constant RG16I] stores the red and green components on 16 bits each. Every component is stored as an integer.

[page:constant RG16UI] stores the red and green components on 16 bits each. Every component is stored as an unsigned integer.

[page:constant RG16F] stores the red and green components on 16 bits each. Every component is stored as floating point.

[page:constant RG32I] stores the red and green components on 32 bits each. Every component is stored as an integer.

[page:constant RG32UI] stores the red and green components on 32 bits. Every component is stored as an unsigned integer.

[page:constant RG32F] stores the red and green components on 32 bits. Every component is stored as floating point.

[page:constant RGB8] stores the red, green, and blue components on 8 bits each. [page:constant RGB8_SNORM] stores the red, green, and blue components on 8 bits each. Every component is stored as normalized.

[page:constant RGB8I] stores the red, green, and blue components on 8 bits each. Every component is stored as an integer.

[page:constant RGB8UI] stores the red, green, and blue components on 8 bits each. Every component is stored as an unsigned integer.

[page:constant RGB16I] stores the red, green, and blue components on 16 bits each. Every component is stored as an integer.

[page:constant RGB16UI] stores the red, green, and blue components on 16 bits each. Every component is stored as an unsigned integer.

[page:constant RGB16F] stores the red, green, and blue components on 16 bits each. Every component is stored as floating point

[page:constant RGB32I] stores the red, green, and blue components on 32 bits each. Every component is stored as an integer.

[page:constant RGB32UI] stores the red, green, and blue components on 32 bits each. Every component is stored as an unsigned integer.

[page:constant RGB32F] stores the red, green, and blue components on 32 bits each. Every component is stored as floating point

[page:constant R11F_G11F_B10F] stores the red, green, and blue components respectively on 11 bits, 11 bits, and 10bits. Every component is stored as floating point.

[page:constant RGB565] stores the red, green, and blue components respectively on 5 bits, 6 bits, and 5 bits.

[page:constant RGB9_E5] stores the red, green, and blue components on 9 bits each.

[page:constant RGBA8] stores the red, green, blue, and alpha components on 8 bits each.

[page:constant RGBA8_SNORM] stores the red, green, blue, and alpha components on 8 bits. Every component is stored as normalized.

[page:constant RGBA8I] stores the red, green, blue, and alpha components on 8 bits each. Every component is stored as an integer.

[page:constant RGBA8UI] stores the red, green, blue, and alpha components on 8 bits. Every component is stored as an unsigned integer.

[page:constant RGBA16I] stores the red, green, blue, and alpha components on 16 bits. Every component is stored as an integer.

[page:constant RGBA16UI] stores the red, green, blue, and alpha components on 16 bits. Every component is stored as an unsigned integer.

[page:constant RGBA16F] stores the red, green, blue, and alpha components on 16 bits. Every component is stored as floating point.

[page:constant RGBA32I] stores the red, green, blue, and alpha components on 32 bits. Every component is stored as an integer.

[page:constant RGBA32UI] stores the red, green, blue, and alpha components on 32 bits. Every component is stored as an unsigned integer.

[page:constant RGBA32F] stores the red, green, blue, and alpha components on 32 bits. Every component is stored as floating point.

[page:constant RGB5_A1] stores the red, green, blue, and alpha components respectively on 5 bits, 5 bits, 5 bits, and 1 bit.

[page:constant RGB10_A2] stores the red, green, blue, and alpha components respectively on 10 bits, 10 bits, 10 bits and 2 bits.

[page:constant RGB10_A2UI] stores the red, green, blue, and alpha components respectively on 10 bits, 10 bits, 10 bits and 2 bits. Every component is stored as an unsigned integer.

[page:constant SRGB8] stores the red, green, and blue components on 8 bits each.

[page:constant SRGB8_ALPHA8] stores the red, green, blue, and alpha components on 8 bits each.

[page:constant DEPTH_COMPONENT16] stores the depth component on 16bits.

[page:constant DEPTH_COMPONENT24] stores the depth component on 24bits.

[page:constant DEPTH_COMPONENT32F] stores the depth component on 32bits. The component is stored as floating point.

[page:constant DEPTH24_STENCIL8] stores the depth, and stencil components respectively on 24 bits and 8 bits. The stencil component is stored as an unsigned integer.

[page:constant DEPTH32F_STENCIL8] stores the depth, and stencil components respectively on 32 bits and 8 bits. The depth component is stored as floating point, and the stencil component as an unsigned integer.

Note that the texture must have the correct [page:Texture.type type] set, as well as the correct [page:Texture.format format]. See [link:https://developer.mozilla.org/en/docs/Web/API/WebGLRenderingContext/texImage2D WebGLRenderingContext.texImage2D], and [link:https://developer.mozilla.org/en-US/docs/Web/API/WebGL2RenderingContext/texImage3D WebGL2RenderingContext.texImage3D], for more details regarding the possible combination of [page:Texture.format format], [page:Texture.internalFormat internalFormat], and [page:Texture.type type].

For more in-depth information regarding internal formats, you can also refer directly to the [link:https://www.khronos.org/registry/webgl/specs/latest/2.0/ WebGL2 Specification] and to the [link:https://www.khronos.org/registry/OpenGL/specs/es/3.0/es_spec_3.0.pdf OpenGL ES 3.0 Specification].

编码


		THREE.LinearEncoding
		THREE.sRGBEncoding
		THREE.GammaEncoding
		THREE.RGBEEncoding
		THREE.LogLuvEncoding
		THREE.RGBM7Encoding
		THREE.RGBM16Encoding
		THREE.RGBDEncoding
		THREE.BasicDepthPacking
		THREE.RGBADepthPacking

这些常量用于纹理的[page:Texture.encoding encoding]属性。

如果编码类型在纹理已被一个材质使用之后发生了改变，你需要来设置[page:Material.needsUpdate Material.needsUpdate]为*true*来使得材质重新编译。

[page:constant LinearEncoding]是默认值。除此之外的其他值仅在材质的贴图、envMap和emissiveMap中有效。

源代码

[link:https://github.com/mrdoob/three.js/blob/master/src/constants.js src/constants.js]