The WebGLRenderingContext.vertexAttribPointer()
method of the WebGL API binds the buffer currently bound to gl.ARRAY_BUFFER
to a generic vertex attribute of the current vertex buffer object and specifies its layout.
void gl.vertexAttribPointer(index, size, type, normalized, stride, offset);
index
GLuint
specifying the index of the vertex attribute that is to be modified.size
GLint
specifying the number of components per vertex attribute. Must be 1, 2, 3, or 4.type
GLenum
specifying the data type of each component in the array. Possible values: gl.BYTE
: signed 8-bit integer, with values in [-128, 127]gl.SHORT
: signed 16-bit integer, with values in [-32768, 32767]gl.UNSIGNED_BYTE
: unsigned 8-bit integer, with values in [0, 255]gl.UNSIGNED_SHORT
: unsigned 16-bit integer, with values in [0, 65535]gl.FLOAT
: 32-bit IEEE floating point numbergl.HALF_FLOAT
: 16-bit IEEE floating point numbernormalized
GLboolean
specifying whether integer data values should be normalized into a certain range when being casted to a float. gl.BYTE
and gl.SHORT
, normalizes the values to [-1, 1] if true.gl.UNSIGNED_BYTE
and gl.UNSIGNED_SHORT
, normalizes the values to [0, 1] if true.gl.FLOAT
and gl.HALF_FLOAT
, this parameter has no effect.stride
GLsizei
specifying the offset in bytes between the beginning of consecutive vertex attributes. Cannot be larger than 255. If stride is 0, the attribute is assumed to be tightly packed, that is, the attributes are not interleaved but each attribute is in a separate block, and the next vertex' attribute follows immediately after the current vertex.offset
GLintptr
specifying an offset in bytes of the first component in the vertex attribute array. Must be a multiple of the byte length of type
.None.
gl.INVALID_VALUE
error is thrown if offset
is negative.gl.INVALID_OPERATION
error is thrown if stride
and offset
are not multiples of the size of the data type.gl.INVALID_OPERATION
error is thrown if no WebGLBuffer is bound to the ARRAY_BUFFER target.gl.INVALID_OPERATION
error is thrown if this vertex attribute is defined as a integer in the vertex shader (e.g. uvec4
or ivec4
, instead of vec4
).Let's assume we want to render some 3D geometry, and for that we will need to supply our vertices to the Vertex Shader. Each vertex has a few attributes, like position, normal vector, or texture coordinate, that are defined in an ArrayBuffer
and will be supplied to the Vertex Buffer Object (VBO). First, we need to bind the WebGLBuffer
we want to use to gl.ARRAY_BUFFER
, then, with this method, gl.vertexAttribPointer()
, we specify in what order the attributes are stored, and what data type they are in. In addition, we need to include the stride, which is the total byte length of all attributes for one vertex. Also, we have to call gl.enableVertexAttribArray()
to tell WebGL that this attribute should be filled with data from our array buffer.
Usually, your 3D geometry is already in a certain binary format, so you need to read the specification of that specific format to figure out the memory layout. However, if you are designing the format yourself, or your geometry is in text files (like Wavefront .obj files) and must be converted into an ArrayBuffer
at runtime, you have free choice on how to structure the memory. For highest performance, interleave the attributes and use the smallest data type that still accurately represents your geometry.
The maximum number of vertex attributes depends on the graphics card, and you can call gl.getParameter(gl.MAX_VERTEX_ATTRIBS)
to get this value. On high-end graphics cards, the maximum is 16, on lower-end graphics cards, the value will be lower.
For each attribute, you must specify its index. This is independent from the location inside the array buffer, so your attributes can be sent in a different order than how they are stored in the array buffer. You have two options:
gl.bindAttribLocation()
to connect a named attribute from the vertex shader to the index you want to use. This must be done before calling gl.linkProgram()
. You can then provide this same index to gl.vertexAttribPointer()
.gl.getAttribLocation()
to find out the index, and then provide this index to gl.vertexAttribPointer()
.layout(location = 3) in vec4 position;
would set the "position"
attribute to index 3.While the ArrayBuffer
can be filled with both integers and floats, the attributes will always be converted to a float when they are sent to the vertex shader. If you need to use integers in your vertex shader code, you can either cast the float back to an integer in the vertex shader (e.g. (int) floatNumber
), or use gl.vertexAttribIPointer()
from WebGL2.
The vertex shader code may include a number of attributes, but we don't need to specify the values for each attribute. Instead, we can supply a default value that will be identical for all vertices. We can call
to tell WebGL to use the default value, while calling gl.disableVertexAttribArray()
gl.enableVertexAttribArray()
will read the values from the array buffer as specified with gl.vertexAttribPointer()
.
Similarily, if our vertex shader expects e.g. a 4-component attribute with vec4
but in our gl.vertexAttribPointer()
call we set the size
to 2
, then WebGL will set the first two components based on the array buffer, while the third and fourth components are taken from the default value.
The default value is vec4(0.0, 0.0, 0.0, 1.0)
by default but we can specify a different default value with
.gl.vertexAttrib[1234]f[v]()
For example, your vertex shader may be using a position and a color attribute. Most meshes have the color specified at a per-vertex level, but some meshes are of a uniform shade. For those meshes, it is not necessary to place the same color for each vertex into the array buffer, so you use gl.vertexAttrib4fv()
to set a constant color.
You can call gl.getVertexAttrib()
and gl.getVertexAttribOffset()
to get the current parameters for an attribute, e.g. the data type or whether the attribute should be normalized. Keep in mind that these WebGL functions have a slow performance and it is better to store the state inside your JavaScript application. However, these functions are great for debugging a WebGL context without touching the application code.
This example shows how to send your vertex attributes to the shader program. We use an imaginary data structure where the attributes of each vertex are stored interleaved with a length of 20 bytes per vertex:
For example, the following vertex:
{ "position": [1.0, 2.0, 1.5], "normal": [1.0, 0.0, 0.0], "texCoord": [0.5, 0.25] }
Will be stored in the array buffer as follows:
00 00 80 3F | 00 00 00 40 | 00 00 0C 3F | 7F | 00 | 00 | 00 | 7F FF | 3F FF |
First, we dynamically create the array buffer from JSON data using a DataView
. Note the use of true
because WebGL expects our data to be in little-endian.
//load geometry with fetch() and Response.json() const response = await fetch('assets/geometry.json'); const vertices = await response.json(); //Create array buffer const buffer = new ArrayBuffer(20 * vertices.length); //Fill array buffer const dv = new DataView(buffer); for (let i = 0; i < vertices.length; i++) { dv.setFloat32(20 * i, vertices[i].position[0], true); dv.setFloat32(20 * i + 4, vertices[i].position[1], true); dv.setFloat32(20 * i + 8, vertices[i].position[2], true); dv.setInt8(20 * i + 12, vertices[i].normal[0] * 0x7F); dv.setInt8(20 * i + 13, vertices[i].normal[1] * 0x7F); dv.setInt8(20 * i + 14, vertices[i].normal[2] * 0x7F); dv.setInt8(20 * i + 15, 0); dv.setUint16(20 * i + 16, vertices[i].texCoord[0] * 0xFFFF, true); dv.setUint16(20 * i + 18, vertices[i].texCoord[1] * 0xFFFF, true); }
For higher performance, we could also do the previous JSON to ArrayBuffer conversion on the server-side, e.g. with Node.js. Then we could load the binary file and interpret it as an array buffer:
const response = await fetch('assets/geometry.bin'); const buffer = await response.arrayBuffer();
First, we create a new Vertex Buffer Object (VBO) and supply it with our array buffer:
//Bind array buffer to a Vertex Buffer Object const vbo = gl.createBuffer(); gl.bindBuffer(gl.ARRAY_BUFFER, vbo); gl.bufferData(gl.ARRAY_BUFFER, buffer, gl.STATIC_DRAW);
Then, we specify the memory layout of the array buffer, either by setting the index ourselves:
//Describe the layout of the buffer: //1. position, not normalized gl.vertexAttribPointer(0, 3, gl.FLOAT, false, 20, 0); gl.enableVertexAttribArray(0); //2. normal vector, normalized to [-1, 1] gl.vertexAttribPointer(1, 4, gl.BYTE, true, 20, 12); gl.enableVertexAttribArray(1); //3. texture coordinates, normalized to [0, 1] gl.vertexAttribPointer(2, 2, gl.UNSIGNED_SHORT, true, 20, 16); gl.enableVertexAttribArray(2); //Set the attributes in the vertex shader to the same indices gl.bindAttribLocation(shaderProgram, 0, 'position'); gl.bindAttribLocation(shaderProgram, 1, 'normal'); gl.bindAttribLocation(shaderProgram, 2, 'texUV'); //Since the attribute indices have changed, we must re-link the shader //Note that this will reset all uniforms that were previously set. gl.linkProgram(shaderProgram);
Or we can use the index provided by the graphics card instead of setting the index ourselves; this avoids the re-linking of the shader program.
const locPosition = gl.getAttribLocation(shaderProgram, 'position'); gl.vertexAttribPointer(locPosition, 3, gl.FLOAT, false, 20, 0); gl.enableVertexAttribArray(locPosition); const locNormal = gl.getAttribLocation(shaderProgram, 'normal'); gl.vertexAttribPointer(locNormal, 4, gl.BYTE, true, 20, 12); gl.enableVertexAttribArray(locNormal); const locTexUV = gl.getAttribLocation(shaderProgram, 'texUV'); gl.vertexAttribPointer(locTexUV, 2, gl.UNSIGNED_SHORT, true, 20, 16); gl.enableVertexAttribArray(locTexUV);
Specification | Status | Comment |
---|---|---|
WebGL 1.0 The definition of 'vertexAttribPointer' in that specification. | Recommendation | Initial definition. |
OpenGL ES 2.0 The definition of 'glVertexAttribPointer' in that specification. | Standard | Man page of the OpenGL API. |
Desktop | ||||||
---|---|---|---|---|---|---|
Chrome | Edge | Firefox | Internet Explorer | Opera | Safari | |
Basic support | 9 | 12 | 4 | 11 | 12 | 5.1 |
Mobile | |||||||
---|---|---|---|---|---|---|---|
Android webview | Chrome for Android | Edge Mobile | Firefox for Android | Opera for Android | iOS Safari | Samsung Internet | |
Basic support | Yes | 25 | Yes | Yes | 12 | 8.1 | Yes |
WebGL2RenderingContext.vertexAttribIPointer()
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Licensed under the Creative Commons Attribution-ShareAlike License v2.5 or later.
https://developer.mozilla.org/en-US/docs/Web/API/WebGLRenderingContext/vertexAttribPointer