Eigen perspective projection matrix

I'm trying to create a perspective projection matrix for OpenGL. I know how to do it with a `float[16]` but for consistencies sake I'd like to use an Eigen matrix.

The formula is:

``````    [ xScale   0                 0                        0               ]
P = [   0    yScale              0                        0               ]
[   0      0    -(zFar+zNear)/(zFar-zNear) -2*zNear*zFar/(zFar-zNear) ]
[   0      0                -1                        0               ]
``````

Where:

``````yScale = cot(fovY/2)
xScale = yScale/aspectRatio
``````

Since the formula is column-major and c-arrays are defined row-major, you would define a `float[16]` matrix with:

``````float P[16] = {
xScale, 0, 0, 0,
0, yScale, 0, 0,
0, 0, -(zFar+zNear)/(zFar-zNear), -1
0, 0, -2*zNear*zFar/(zFar-zNear), 0
};
``````

So how exactly would I create a matrix like this with Eigen? Would I use an `Eigen::Affine3f` or a `Eigen::Matrix4f`? Looking at the documentation, it's not apparent to me how to set individual cell values.

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In your case, the simplest is to use the comma initializer syntax:

``````Eigen::Matrix4f pmat;
pmat << xScale, 0, 0, 0,
0, yScale, 0, 0,
0, 0, -(zFar+zNear)/(zFar-zNear), -1,
0, 0, -2*zNear*zFar/(zFar-zNear), 0;
``````
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Eigen's Matrix4f is column-major, so I think it should be the transpose of this. (Eigen can be configured to be row-major like C 2D arrays with template parameters, but the Matrix4f is column-major.) – darklon Aug 18 '14 at 20:36
The comma initializer mechanism is agnostic to storage order. – ggael Aug 21 '14 at 20:31

Setting individual cell values can be done simply with a paren, e.g. Matrix(0,0) = xScale; .

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