Create a texture to apply to a surface or as a reflection or refraction map.
Note: After the initial use of a texture, its dimensions, format, and type cannot be changed. Instead, call [page:.dispose]() on the texture and instantiate a new one.
// load a texture, set wrap mode to repeat
const texture = new THREE.TextureLoader().load( "textures/water.jpg" );
texture.wrapS = THREE.RepeatWrapping;
texture.wrapT = THREE.RepeatWrapping;
texture.repeat.set( 4, 4 );
Readonly - unique number for this texture instance.
Read-only flag to check if a given object is of type [name].
[link:http://en.wikipedia.org/wiki/Universally_unique_identifier UUID] of this object instance. This gets automatically assigned, so this shouldn't be edited.
Optional name of the object (doesn't need to be unique). Default is an empty string.
An image object, typically created using the [page:TextureLoader.load] method.
This can be any image (e.g., PNG, JPG, GIF, DDS) or video (e.g., MP4, OGG/OGV) type supported by three.js.
To use video as a texture you need to have a playing HTML5
video element as a source for your texture image and continuously update this texture
as long as video is playing - the [page:VideoTexture VideoTexture] class handles this automatically.
Array of user-specified mipmaps (optional).
How the image is applied to the object. An object type of [page:Textures THREE.UVMapping] is the default,
where the U,V coordinates are used to apply the map.
See the [page:Textures texture constants] page for other mapping types.
This defines how the texture is wrapped horizontally and corresponds to *U* in UV mapping.
The default is [page:Textures THREE.ClampToEdgeWrapping], where the edge is clamped to the outer edge texels.
The other two choices are [page:Textures THREE.RepeatWrapping] and [page:Textures THREE.MirroredRepeatWrapping].
See the [page:Textures texture constants] page for details.
This defines how the texture is wrapped vertically and corresponds to *V* in UV mapping.
The same choices are available as for [property:number wrapS].
NOTE: tiling of images in textures only functions if image dimensions are powers of two
(2, 4, 8, 16, 32, 64, 128, 256, 512, 1024, 2048, ...) in terms of pixels.
Individual dimensions need not be equal, but each must be a power of two.
This is a limitation of WebGL, not three.js.
How the texture is sampled when a texel covers more than one pixel. The default is
[page:Textures THREE.LinearFilter], which takes the four closest texels and bilinearly interpolates among them.
The other option is [page:Textures THREE.NearestFilter], which uses the value of the closest texel.
See the [page:Textures texture constants] page for details.
How the texture is sampled when a texel covers less than one pixel. The default is
[page:Textures THREE.LinearMipmapLinearFilter], which uses mipmapping and a trilinear filter.
See the [page:Textures texture constants] page for all possible choices.
The number of samples taken along the axis through the pixel that has the highest density of texels. By default, this value is 1. A higher value gives a less blurry result than a basic mipmap, at the cost of more texture samples being used. Use [page:WebGLRenderer.capabilities renderer.capabilities.getMaxAnisotropy]() to find the maximum valid anisotropy value for the GPU; this value is usually a power of 2.
The default is [page:Textures THREE.RGBAFormat].
See the [page:Textures texture constants] page for details of other formats.
The default value is obtained using a combination of [page:Texture.format .format] and
[page:Texture.type .type].
The GPU format allows the developer to specify how the data is going to be
stored on the GPU.
See the [page:Textures texture constants] page for details regarding all supported internal formats.
This must correspond to the [page:Texture.format .format]. The default is [page:Textures THREE.UnsignedByteType],
which will be used for most texture formats.
See the [page:Textures texture constants] page for details of other formats.
How much a single repetition of the texture is offset from the beginning, in each direction U and V. Typical range is `0.0` to `1.0`.
The below texture types share the `first` uv channel in the engine. The offset (and repeat) setting is evaluated according to the following priorities and then shared by those textures:
The below texture types share the `second` uv channel in the engine. The offset (and repeat) setting is evaluated according to the following priorities and then shared by those textures:
How many times the texture is repeated across the surface, in each direction U and V. If repeat is set greater than 1 in either direction, the corresponding Wrap parameter should also be set to [page:Textures THREE.RepeatWrapping] or [page:Textures THREE.MirroredRepeatWrapping] to achieve the desired tiling effect. Setting different repeat values for textures is restricted in the same way like [page:.offset].
How much the texture is rotated around the center point, in radians. Positive values are counter-clockwise. Default is `0`.
The point around which rotation occurs. A value of (0.5, 0.5) corresponds to the center of the texture. Default is (0, 0), the lower left.
Whether to update the texture's uv-transform [page:Texture.matrix .matrix] from the texture properties [page:Texture.offset .offset], [page:Texture.repeat .repeat], [page:Texture.rotation .rotation], and [page:Texture.center .center]. True by default. Set this to false if you are specifying the uv-transform matrix directly.
The uv-transform matrix for the texture. Updated by the renderer from the texture properties [page:Texture.offset .offset], [page:Texture.repeat .repeat], [page:Texture.rotation .rotation], and [page:Texture.center .center] when the texture's [page:Texture.matrixAutoUpdate .matrixAutoUpdate] property is true. When [page:Texture.matrixAutoUpdate .matrixAutoUpdate] property is false, this matrix may be set manually. Default is the identity matrix.
Whether to generate mipmaps (if possible) for a texture. True by default. Set this to false if you are creating mipmaps manually.
If set to `true`, the alpha channel, if present, is multiplied into the color channels when the texture is uploaded to the GPU. Default is `false`.
Note that this property has no effect for [link:https://developer.mozilla.org/en-US/docs/Web/API/ImageBitmap ImageBitmap].
You need to configure on bitmap creation instead. See [page:ImageBitmapLoader].
If set to `true`, the texture is flipped along the vertical axis when uploaded to the GPU. Default is `true`.
Note that this property has no effect for [link:https://developer.mozilla.org/en-US/docs/Web/API/ImageBitmap ImageBitmap].
You need to configure on bitmap creation instead. See [page:ImageBitmapLoader].
4 by default. Specifies the alignment requirements for the start of each pixel row in memory. The allowable values are 1 (byte-alignment), 2 (rows aligned to even-numbered bytes), 4 (word-alignment), and 8 (rows start on double-word boundaries). See [link:http://www.khronos.org/opengles/sdk/docs/man/xhtml/glPixelStorei.xml glPixelStorei] for more information.
[page:Textures THREE.LinearEncoding] is the default.
See the [page:Textures texture constants] page for details of other formats.
Note that if this value is changed on a texture after the material has been used,
it is necessary to trigger a Material.needsUpdate for this value to be realized in the shader.
This starts at `0` and counts how many times [page:Texture.needsUpdate .needsUpdate] is set to `true`.
A callback function, called when the texture is updated (e.g., when needsUpdate has been set to true and then the texture is used).
Set this to `true` to trigger an update next time the texture is used. Particularly important for setting the wrap mode.
An object that can be used to store custom data about the texture. It should not hold references to functions as these will not be cloned.
The data definition of a texture. A reference to the data source can be shared across textures. This is often useful in context of spritesheets where multiple textures render the same data but with different texture transformations.
[page:EventDispatcher EventDispatcher] methods are available on this class.
Update the texture's uv-transform [page:Texture.matrix .matrix] from the texture properties [page:Texture.offset .offset], [page:Texture.repeat .repeat], [page:Texture.rotation .rotation], and [page:Texture.center .center].
Make copy of the texture. Note this is not a "deep copy", the image is shared. Besides, cloning a texture does not automatically mark it for a texture upload. You have to set [page:Texture.needsUpdate .needsUpdate] to true as soon as its image property (the data source) is fully loaded or ready.
meta -- optional object containing metadata.
Convert the texture to three.js [link:https://github.com/mrdoob/three.js/wiki/JSON-Object-Scene-format-4 JSON Object/Scene format].
Frees the GPU-related resources allocated by this instance. Call this method whenever this instance is no longer used in your app.
Transform the uv based on the value of this texture's [page:Texture.offset .offset], [page:Texture.repeat .repeat], [page:Texture.wrapS .wrapS], [page:Texture.wrapT .wrapT] and [page:Texture.flipY .flipY] properties.
[link:https://github.com/mrdoob/three.js/blob/master/src/[path].js src/[path].js]