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I've been trying to emulate gluLookAt functionality, but with Quaternions. Each of my game object have a TranslationComponent. This component stores the object's position (glm::vec3), rotation (glm::quat) and scale (glm::vec3). The camera calculates its position each tick doing the following:

// UP = glm::vec3(0,1,0); 
//FORWARD = glm::vec3(0,0,1);
cameraPosition = playerPosition - (UP * distanceUP) - (FORWARD * distanceAway);

This position code works as expexted, the camera is place 3 metres behind the player and 1 metre up. Now, the camera's Quaternion is set to the follow:

//Looking at the player's feet  
cameraRotation = quatFromToRotation(FORWARD, playerPosition); 

The rendering engine now takes these values and generates the ViewMatrix (camera) and the ModelMatrix (player) and then renders the scene. The code looks like this:

 glm::mat4 viewTranslationMatrix = 
         glm::translate(glm::mat4(1.0f), cameraTransform->getPosition());
 glm::mat4 viewScaleMatrix = 
         glm::scale(glm::mat4(1.0f), cameraTransform->getScale());
 glm::mat4 viewRotationMatrix = 

 viewMatrix = viewTranslationMatrix * viewRotationMatrix * viewScaleMatrix;

quatFromToRotation(glm::vec3 from, glm::vec3 to) is defined as the following:

glm::quat quatFromToRotation(glm::vec3 from, glm::vec3 to)
    from = glm::normalize(from); to = glm::normalize(to);

    float cosTheta = glm::dot(from, to);
    glm::vec3 rotationAxis;

    if (cosTheta < -1 + 0.001f)
        rotationAxis = glm::cross(glm::vec3(0.0f, 0.0f, 1.0f), from);
        if (glm::length2(rotationAxis) < 0.01f)
            rotationAxis = glm::cross(glm::vec3(1.0f, 0.0f, 0.0f), from);

        rotationAxis = glm::normalize(rotationAxis);
        return glm::angleAxis(180.0f, rotationAxis);

    rotationAxis = glm::cross(from, to);

    float s = sqrt((1.0f + cosTheta) * 2.0f);
    float invis = 1.0f / s;

    return glm::quat(
            s * 0.5f,
            rotationAxis.x * invis,
            rotationAxis.y * invis,
            rotationAxis.z * invis

What I'm having troubles with is the fact the cameraRotation isn't being set correctly. No matter where the player is, the camera's forward is always (0,0,-1)

share|improve this question
Where / how do you compute the camera's forward? – Floris Jan 17 '14 at 4:01
Assuming FORWARD is a direction and not a position, I do not think this is quite what you want... what about quatToFromRotation (playerPosition + FORWARD, playerPosition);? – Andon M. Coleman Jan 17 '14 at 4:50
Also, the function you listed in your code is quatFromToRotation (...), which is different from what you discussed in the body of your text. – Andon M. Coleman Jan 17 '14 at 4:58
Ah, yes, that was a typo. I edited it. – Brett Jan 17 '14 at 5:07
Just to note, glm has a function equivalent to gluLookAt() in functionality, named glm::lookAt() and defined in <glm/gtc/matrix_transform.hpp>. For more info, check the glm manual and search for "lookAt". You'll find the function documentation there. – chbaker0 Jan 17 '14 at 5:11
up vote 1 down vote accepted

Your problem is in the line

//Looking at the player's feet  
cameraRotation = quatToFromRotation(FORWARD, playerPosition);

You need to look from the camera position to the player's feet - not from "one meter above the player" (assuming the player is at (0,0,0) when you initially do this). Replace FORWARD with cameraPosition:

cameraRotation = quatToFromRotation(cameraPosition, playerPosition);

EDIT I believe you have an error in your quatToFromRotation function as well. See for a very nice explanation (and some pseudo code) of quaternion rotation.

share|improve this answer
Doing so will face the camera in some direction that I cannot even tell the orientation. With the player at (0,0,0) and the camera at (0,2,-3) the quaternion is (0.00513127, 0, -0, 0.999987). I'm not vastly experienced with quaternions, so I don't know exactly what this number means. I tried using glm::lookAt while setting the position to the cameras position and the target to the players, and everything worked correctly. Which leads me to believe that quatFromToRotation is giving me an incorrect rotation. – Brett Jan 17 '14 at 4:40
Quaternions are interesting animals. If you look at the last three elements and normalize them, they are the axis along which you are rotating (almost exactly [0 0 1] but not quite); the angle of rotation is derived by solving cos(theta/2) = q(0) - so theta = 2 * acos(q(0)). I would have expected rotation about the X axis for your geometry, not the Z axis. Where did quatFromRotation come from? – Floris Jan 18 '14 at 15:23
The rotation was kind of weird, I think you're right and it is against the X axis. Originally, I had wrote the algorithm myself, but I was experiencing a problem relative to this one. So, I decide to use the algorithm here:… – Brett Jan 19 '14 at 7:30

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