Im working on a project where i want to generate a 3D mesh to represent a certain amount of data.

To create this mesh i want to use transformation Matrixes, so i created a class based upon the mathematical algorithms found on a couple of websites.

Everything seems to work, scale/translation but as soon as im rotating a mesh on its x-axis its starts to deform after 2 to 3 complete rotations. It feels like my scale values are increasing which transforms my mesh. I'm struggling with this problem for a couple of days but i can't figure out what's going wrong.

To make things more clear you can download my complete setup here.

I defined the coordinates of a box and put them through the transformation matrix before writing them to the screen

This is the formula for rotating my object

```
void appendRotation(float inXAngle, float inYAngle, float inZAngle, PVector inPivot ) {
boolean setPivot = false;
if (inPivot.x != 0 || inPivot.y != 0 || inPivot.z != 0) {
setPivot = true;
}
// If a setPivot = true, translate the position
if (setPivot) {
// Translations for the different axises need to be set different
if (inPivot.x != 0) { this.appendTranslation(inPivot.x,0,0); }
if (inPivot.y != 0) { this.appendTranslation(0,inPivot.y,0); }
if (inPivot.z != 0) { this.appendTranslation(0,0,inPivot.z); }
}
// Create a rotationmatrix
Matrix3D rotationMatrix = new Matrix3D();
// xsin en xcos
float xSinCal = sin(radians(inXAngle));
float xCosCal = cos(radians(inXAngle));
// ysin en ycos
float ySinCal = sin(radians(inYAngle));
float yCosCal = cos(radians(inYAngle));
// zsin en zcos
float zSinCal = sin(radians(inZAngle));
float zCosCal = cos(radians(inZAngle));
// Rotate around x
rotationMatrix.setIdentity();
// --
rotationMatrix.matrix[1][1] = xCosCal;
rotationMatrix.matrix[1][2] = xSinCal;
rotationMatrix.matrix[2][1] = -xSinCal;
rotationMatrix.matrix[2][2] = xCosCal;
// Add rotation to the basis matrix
this.multiplyWith(rotationMatrix);
// Rotate around y
rotationMatrix.setIdentity();
// --
rotationMatrix.matrix[0][0] = yCosCal;
rotationMatrix.matrix[0][2] = -ySinCal;
rotationMatrix.matrix[2][0] = ySinCal;
rotationMatrix.matrix[2][2] = yCosCal;
// Add rotation to the basis matrix
this.multiplyWith(rotationMatrix);
// Rotate around z
rotationMatrix.setIdentity();
// --
rotationMatrix.matrix[0][0] = zCosCal;
rotationMatrix.matrix[0][1] = zSinCal;
rotationMatrix.matrix[1][0] = -zSinCal;
rotationMatrix.matrix[1][1] = zCosCal;
// Add rotation to the basis matrix
this.multiplyWith(rotationMatrix);
// Untranslate the position
if (setPivot) {
// Translations for the different axises need to be set different
if (inPivot.x != 0) { this.appendTranslation(-inPivot.x,0,0); }
if (inPivot.y != 0) { this.appendTranslation(0,-inPivot.y,0); }
if (inPivot.z != 0) { this.appendTranslation(0,0,-inPivot.z); }
}
}
```

Does anyone have a clue?