WebGLRenderingContext: enableVertexAttribArray() method
Baseline Widely available
This feature is well established and works across many devices and browser versions. It’s been available across browsers since July 2015.
The WebGLRenderingContext
method
enableVertexAttribArray()
, part of the WebGL API, turns on the generic vertex
attribute array at the specified index into the list of attribute arrays.
Note: You can disable the attribute array by calling
disableVertexAttribArray()
.
In WebGL, values that apply to a specific vertex are stored in attributes. These are only available to the JavaScript code and the vertex shader. Attributes are referenced by an index number into the list of attributes maintained by the GPU. Some vertex attribute indices may have predefined purposes, depending on the platform and/or the GPU. Others are assigned by the WebGL layer when you create the attributes.
Either way, since attributes cannot be used unless enabled, and are disabled by
default, you need to call enableVertexAttribArray()
to enable individual
attributes so that they can be used. Once that's been done, other methods can be used to
access the attribute, including vertexAttribPointer()
, vertexAttrib*()
, and getVertexAttrib()
.
Syntax
enableVertexAttribArray(index)
Parameters
index
-
A
GLuint
specifying the index number that uniquely identifies the vertex attribute to enable. If you know the name of the attribute but not its index, you can get the index by callinggetAttribLocation()
.
Return value
None (undefined
).
Errors
To check for errors after calling enableVertexAttribArray()
, call
getError()
.
WebGLRenderingContext.INVALID_VALUE
-
The specified
index
is invalid; that is, it's greater than or equal to the maximum number of entries permitted in the context's vertex attribute list, as indicated by the value ofWebGLRenderingContext.MAX_VERTEX_ATTRIBS
.
Examples
This code — a snippet taken from the full example A basic 2D WebGL animation example — shows the use of enableVertexArray()
to activate
the attribute that will be used by the WebGL layer to pass individual vertexes from the
vertex buffer into the vertex shader function.
gl.bindBuffer(gl.ARRAY_BUFFER, vertexBuffer);
aVertexPosition = gl.getAttribLocation(shaderProgram, "aVertexPosition");
gl.enableVertexAttribArray(aVertexPosition);
gl.vertexAttribPointer(
aVertexPosition,
vertexNumComponents,
gl.FLOAT,
false,
0,
0,
);
gl.drawArrays(gl.TRIANGLES, 0, vertexCount);
Note: This code snippet is taken from the function animateScene()
in "A basic 2D WebGL animation example." See
that article for the full sample and to see the resulting animation in action.
This code sets the buffer of vertexes that will be used to draw the triangles of the
shape by calling bindBuffer()
. Then
the vertex position attribute's index is obtained from the shader program by calling
getAttribLocation()
.
With the index of the vertex position attribute now available in
aVertexPosition
, we call enableVertexAttribArray()
to enable
the position attribute so it can be used by the shader program (in particular, by the
vertex shader).
Then the vertex buffer is bound to the aVertexPosition
attribute by
calling vertexAttribPointer()
. This step is not obvious, since this binding is almost a
side effect. But as a result, accessing aVertexPosition
now obtains data
from the vertex buffer.
With the association in place between the vertex buffer for our shape and the
aVertexPosition
attribute used to deliver vertexes one by one into the
vertex shader, we're ready to draw the shape by calling
drawArrays()
.
Specifications
Specification |
---|
WebGL Specification # 5.14.10 |
Browser compatibility
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