I am making an android project in opengl es that uses accelerometer to calculate change in specific axes and my aim is to rotate my spacecraftlike object's movement vector. The problem is that i can't understand the math behind rotation matrices. Default movement vector is 0,1,0 , means +y, so the object looks upward in the beginning. and i am trying to rotate its movement vector so i can move the object where it points. I can gather rotation changes in phone. xaxis : rotate[0], yaxis : rotate[1], zaxis : rotate[2]. How can i rotate my movement vector using rotation matrix ?
If you want to rotate a vector you should construct what is known as a rotation matrix. Rotation in 2DSay you want to rotate a vector or a point by θ, then trigonometry states that new coordinates are x' = x cos θ  y sin θ y' = x sin θ + y cos θ To demo this, let's take the cardinal axes of X and Y; when we rotate Xaxis 90 degrees in counterclockwise direction, we should end up with the Xaxis transformed into Yaxis. Xaxis as a unitvector is unit vector along X axis = <1, 0> x' = 1 cos 90  0 sin 90 = 0 y' = 1 sin 90 + 0 cos 90 = 1 New coordinates of the vector = <x', y'> = <0, 1> => Yaxis. When you understand this, creating a matrix to do this becomes simple. Matrix is just a mathematical tool to perform this in a comfortable, generalized way so that various transformations like rotation, scale and translation (moving) can be combined and performed in a single step, using one common method. From linear algebra, to rotate a point or vector in 2D, the matrix to be build is cos θ sin θ x = x cos θ  y sin θ = x' sin θ cos θ y x sin θ + y cos θ y' Rotation in 3DThat works in 2D, while in 3D we need to take in to account the 3rd axis. In 2D, rotating a vector around the origin (a point), simply means in 3D rotating it around the Zaxis (a line), since we're rotating around Zaxis it's coordinates should kept constant i.e. 0 (the rotation happens on the XY plane in 3D). In 3D rotating around Zaxis would be cos θ sin θ 0 x x cos θ  y sin θ x' sin θ cos θ 0 y = x sin θ + y cos θ = y'  0 0 1 z  z  z' around Yaxis would be  cos θ 0 sin θ x  x cos θ + z sin θ x'  0 1 0 y =  y  = y' sin θ 0 cos θ z x sin θ + z cos θ z' around Xaxis would be 1 0 0 x  x  x' 0 cos θ sin θ y = y cos θ  z sin θ = y' 0 sin θ cos θ z y sin θ + z cos θ z' Note that the axis around which rotation is done has no sin or cos elements in the matrix. Hope this makes the rotation case clear. CompositionThese matrices rotate an object as if the object is at a distance r = √(x² + y²) from the origin; lookup polar coordinates to know why. Usually in games an object is rotated, not around the origin/axis (which would be far from the object), but around the object's own pivot; hence you need to learn about translation too. You'd first translate (move) the object to origin (so that the origin would become the object's pivot, thereby making r = 0), perform the rotation with one of these matrices and then translate it back again to it's previous location. I urge you to read about linear and affine transformations and their composition to perform multiple transformations in one shot, before playing with transformations in code. Without understanding the basic maths behind it, debugging transformations would be a nightmare. I found this to be a very good tutorial. Note: This method of performing rotations follow Euler angles rotation system, which is simpler to teach and to grasp. This works perfectly fine for 2D and for simple 3D cases; but when rotation needs to be performed around all three axis at the same time then Euler angles are not sufficient for this due to an inherent deficiency in this system which manifests itself as Gimbal lock, people resort to Quaternions in such situations, which is more advanced than this but doesn't suffer from Gimbal locks when used rightly. 


Reference docs here: http://developer.android.com/reference/android/opengl/Matrix.html
You don't need to understand the math, the library functions will get the job done. 

