# OpenGL/GLM - Calculating frustum problems

I am trying to calculate my frustum to do some simple bounding box tests.

Here is my function:

``````void CFrustum::calculateFrustum(glm::mat4* mat)
{
// Calculate the LEFT side
m_Frustum[LEFT][A] = *glm::value_ptr(mat[0][3]) + *glm::value_ptr(mat[0][0]);
m_Frustum[LEFT][B] = *glm::value_ptr(mat[1][3]) + *glm::value_ptr(mat[1][0]);
m_Frustum[LEFT][C] = *glm::value_ptr(mat[2][3]) + *glm::value_ptr(mat[2][0]);
m_Frustum[LEFT][D] = *glm::value_ptr(mat[3][3]) + *glm::value_ptr(mat[3][0]);

// Calculate the RIGHT side
m_Frustum[RIGHT][A] = *glm::value_ptr(mat[0][3]) - *glm::value_ptr(mat[0][0]);
m_Frustum[RIGHT][B] = *glm::value_ptr(mat[1][3]) - *glm::value_ptr(mat[1][0]);
m_Frustum[RIGHT][C] = *glm::value_ptr(mat[2][3]) - *glm::value_ptr(mat[2][0]);
m_Frustum[RIGHT][D] = *glm::value_ptr(mat[3][3]) - *glm::value_ptr(mat[3][0]);

// Calculate the TOP side
m_Frustum[TOP][A] = *glm::value_ptr(mat[0][3]) - *glm::value_ptr(mat[0][1]);
m_Frustum[TOP][B] = *glm::value_ptr(mat[1][3]) - *glm::value_ptr(mat[1][1]);
m_Frustum[TOP][C] = *glm::value_ptr(mat[2][3]) - *glm::value_ptr(mat[2][1]);
m_Frustum[TOP][D] = *glm::value_ptr(mat[3][3]) - *glm::value_ptr(mat[3][1]);

// Calculate the BOTTOM side
m_Frustum[BOTTOM][A] = *glm::value_ptr(mat[0][3]) + *glm::value_ptr(mat[0][1]);
m_Frustum[BOTTOM][B] = *glm::value_ptr(mat[1][3]) + *glm::value_ptr(mat[1][1]);
m_Frustum[BOTTOM][C] = *glm::value_ptr(mat[2][3]) + *glm::value_ptr(mat[2][1]);
m_Frustum[BOTTOM][D] = *glm::value_ptr(mat[3][3]) + *glm::value_ptr(mat[3][1]);

// Calculate the FRONT side
m_Frustum[FRONT][A] = *glm::value_ptr(mat[0][3]) + *glm::value_ptr(mat[0][2]);
m_Frustum[FRONT][B] = *glm::value_ptr(mat[1][3]) + *glm::value_ptr(mat[1][2]);
m_Frustum[FRONT][C] = *glm::value_ptr(mat[2][3]) + *glm::value_ptr(mat[2][2]);
m_Frustum[FRONT][D] = *glm::value_ptr(mat[3][3]) + *glm::value_ptr(mat[3][2]);

// Calculate the BACK side
m_Frustum[BACK][A] = *glm::value_ptr(mat[0][3]) - *glm::value_ptr(mat[0][2]);
m_Frustum[BACK][B] = *glm::value_ptr(mat[1][3]) - *glm::value_ptr(mat[1][2]);
m_Frustum[BACK][C] = *glm::value_ptr(mat[2][3]) - *glm::value_ptr(mat[2][2]);
m_Frustum[BACK][D] = *glm::value_ptr(mat[3][3]) - *glm::value_ptr(mat[3][2]);

// Normalize all the sides
NormalizePlane(m_Frustum, LEFT);
NormalizePlane(m_Frustum, RIGHT);
NormalizePlane(m_Frustum, TOP);
NormalizePlane(m_Frustum, BOTTOM);
NormalizePlane(m_Frustum, FRONT);
NormalizePlane(m_Frustum, BACK);
}
``````

Now before anyone tells me that I have the wrong order for the column/row, I have tried them both with no luck.

I switched over from the fixed function mode of getting my matrices like this:

``````glGetFloatv( GL_PROJECTION_MATRIX, proj );

glGetFloatv( GL_MODELVIEW_MATRIX, modl );
``````

To actually passing in a matrix. The only thing I am rendering at this point is world vertices and I suspect the problem is that my bounding box locations are not taking into account the offset of where I am in the world due.

Here is my matrix creation:

``````cameraMatrix = glm::lookAt(position, position+direction, up);
projectionMatrix = glm::perspective(50.0f, 4.0f / 3.0f, 0.1f, 1000.f);
viewMatrix = projectionMatrix * cameraMatrix;
``````

Because the only thing I am rendering now is global vertices with absolute positions, I don't use a model matrix for anything.

I am sure my box vs frustum code is correct. Does anyone see an error with my calculation code or know that I do in fact need to transform my binding box vertices?

Thank you.

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