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As I spin my mouse CW the objects on the screen rotate CCW, and vice versa. It's not a huge bug but it seems wrong.

I'm using Eigen for quaternions and vectors so the issue should just fall under the code I have posted.

Camera:

#include <Eigen/Dense>
#include <cstring>
#include <math.h>

typedef Eigen::Vector3f vec3;
typedef Eigen::Quaternionf Quaternion;

namespace vec
{
    //
    // Constants
    //
    const vec3 i(1, 0, 0);
    const vec3 j(0, 1, 0);
    const vec3 k(0, 0, 1);
    const vec3 zero(0, 0, 0);
    const vec3 ones(1, 1, 1);
}

class Camera 
{
void init();

void moveX(float dist);
void moveY(float dist);
void moveZ(float dist);

void rotateX(float radians); //yaw
void rotateY(float radians); //pitch
void rotateZ(float radians); //roll

void moveLeft(float dist);
void moveForward(float dist);
void moveUp(float dist);

void rotateLeft(float radians); //yaw
void rotateUp(float radians); //pitch
void rollLeft(float radians); //roll

void setPosition(const vec3 &pos);
void setDirection(const vec3 &dir);
void lookAt(const vec3 &pos); //changes direction

// Camera Vectors
vec3 left() const;
vec3 right() const;
vec3 up() const;
vec3 down() const;
vec3 forward() const;
vec3 backward() const;
const vec3 &pos() const;

protected:
    Quaternion mRotation;
    vec3 mPos;

    void rotateL(float radians, const vec3 &axis);
    void rotateR(float radians, const vec3 &axis);
};

Implementation:

void Camera::init()
{
    mPos.setZero();
    mRotation.setIdentity();
}

inline void Camera::rotateL(float radians, const vec3 &axis)
{
    Quaternion q(Eigen::AngleAxis<float>(radians, axis));
    mRotation = (q * mRotation).normalized();
}

inline void Camera::rotateR(float radians, const vec3 &axis)
{
    Quaternion q(Eigen::AngleAxis<float>(radians, axis));
    mRotation = (mRotation * q).normalized();
}

void Camera::moveX(float dist)
{
    mPos.x() += dist;
}

void Camera::moveY(float dist)
{
    mPos.y() += dist;
}

void Camera::moveZ(float dist)
{
    mPos.z() += dist;
}

void Camera::rotateX(float radians)
{
    rotateL(radians, vec::i);
}

void Camera::rotateY(float radians)
{
    rotateL(radians, vec::j);
}

void Camera::rotateZ(float radians)
{
    rotateL(radians, vec::k);
}

void Camera::moveLeft(float dist)
{
    mPos += dist * left();
}

void Camera::moveUp(float dist)
{
    mPos += dist * up();
}

void Camera::moveForward(float dist)
{
    mPos += dist * forward();
}

void Camera::rotateLeft(float radians)
{
    rotateL(radians, up());
}

void Camera::rotateUp(float radians)
{
    rotateL(radians, left());
}

void Camera::rollLeft(float radians)
{
    rotateL(radians, forward());
}

void Camera::setPosition(const vec3 &pos) 
{
    mPos = pos;
}

void Camera::setDirection(const vec3 &dir)
{
    mRotation.setFromTwoVectors(vec::k, dir);
    mRotation.normalize();
}

void Camera::lookAt(const vec3 &pos)
{
    setDirection(mPos - pos);
}

// Camera Vectors
vec3 Camera::left() const
{
    return mRotation._transformVector(vec::i);
}

vec3 Camera::right() const
{
    return -left();
}

vec3 Camera::up() const
{
    return mRotation._transformVector(vec::j);
}

vec3 Camera::down() const
{
    return -up();
}

vec3 Camera::forward() const
{
    return mRotation._transformVector(vec::k);
}

vec3 Camera::backward() const
{
    return -forward();
}

const vec3 &Camera::pos() const
{
    return mPos;
}

Updates Functions:

void App::onMouseMotion(int x, int y, int dx, int dy)
{
    cam.rotateUp(dy * ROTATE_SCALE); 
    cam.rotateLeft(-dx * ROTATE_SCALE);
}


void App::update()
{
    cam.moveLeft(((int)Keyboard::isKeyDown('a')) * MOVE_SCALE * mDt);
    cam.moveLeft(((int)Keyboard::isKeyDown('d')) * -MOVE_SCALE * mDt);
    cam.moveForward(((int)Keyboard::isKeyDown('w')) * MOVE_SCALE * mDt);
    cam.moveForward(((int)Keyboard::isKeyDown('s')) * -MOVE_SCALE * mDt);

    cam.rollLeft(((int)Keyboard::isKeyDown('q')) * -ROLL_SCALE * mDt);
    cam.rollLeft(((int)Keyboard::isKeyDown('e')) * ROLL_SCALE * mDt);
}

I've read that some issues are due to combining Quaternions on the incorrect side... such as Q*R instead of R*Q. Switching the X axis as suggested here definitely doesn't help.

I'd also appreciate any suggestions with my implementation. I've consider switching to matrices for rotations but normalizing and combining them is more expensive.

share|improve this question
up vote 1 down vote accepted

That is a normal behavior when you are doing repeated application of rotations. You can see it in some applications or games that allow free rotation.

  1. Hold your arm in in front of you. "Forward" is your fingers. "Up" is the back of your hand.
  2. Tilt it upwards about 30°.
  3. From it's new orientation, tilt it left about 30°.
  4. From it's new orientation, tilt it down about 30°.
  5. From it's new orientation, tilt it right about 30°.

What you see is that the hand is now facing about the same direction, but is rolled slightly counter-clockwise.

This might seem strange to humans, since we are used to a fixed up-direction.

share|improve this answer
    
I suppose I don't have a lot of experience in games where free rotation is available. It wouldn't be possible to tell if it was an issue in flight sims either since you'd always be moving. I guess the way I imagined it left/up as being equiv to X/Y... but they're relative in my case. – ffhighwind Jun 2 '13 at 0:46
    
Even after swapping it to rotateX and rotateY it still has the issue... so I think it's something else. Will try to a single float yaw/pitch/roll or just use Eulers with a min/max pitch. – ffhighwind Jun 2 '13 at 13:20

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