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Right now, I got my camera working for moving forward and backwards.

I have a routine for my arrow keys that change the values of my camera variable which is used in the gluLookAt call.

gluLookAt(camera.ex,camera.ey, camera.ez,
    camera.cx,camera.cy,camera.cz,
    camera.x,camera.y,camera.z);


// Callback routine for non-ASCII key entry.
void specialKeyInput(int key, int x, int y)
{

if (key == GLUT_KEY_UP) camera.ez -= 0.1;
if (key == GLUT_KEY_DOWN) camera.ez += 0.1;
if (key == GLUT_KEY_LEFT) camera.cx -= 0.1;
if (key == GLUT_KEY_RIGHT) camera.cx += 0.1;

glutPostRedisplay();
}

The issue I'm facing with by doing this, is that even if I'm facing (say to the left), and I press the up key, I"m offsetting my camera.ez value instead of the correct camera.ex value. So my question is, how do you handle camera movements in OpenGL? Do I have to keep track of the "angle" I'm looking at, and do some trig?

share|improve this question
    
You trying to do something like this? –  genpfault Nov 2 '13 at 5:00
    
@genpfault yes I believe so. Although I'm not entirely sure how to follow that... –  Stupid.Fat.Cat Nov 2 '13 at 5:06

1 Answer 1

You should keep track of camera orientation to move your camera in correct coordinate system, i.e. local to the camera(model space). Also, to avoid gimbal lock, you should start using quaternions. The reason to use quaternions is when you are dealing with Euler angles it's important to follow correct rotation order otherwise you wont get what you want.

Here is simple example of quaternion-based first-person camera class using glm library:

class Camera
{
public:
    void move(glm::vec3 directions, glm::vec2 rotations, float frametime);
    // ... constructors etc.
private:
    glm::mat4 view_;
    glm::vec3 camera_pos_;
    glm::quat camera_orientation_;
    const float camera_speed_;
}

// move directions - (forward/backward/0, left/right/0, up/down/0). each direction could be 1, -1 or 0
// rotations - (horizontal_amount, vertical_amount)
void Camera::move(glm::vec3 directions, glm::vec2 rotations, float frametime)
{
    auto pitch = glm::quat(glm::vec3(-rotations.y, 0, 0.f));
    auto yaw = glm::quat(glm::vec3(0, -rotations.x, 0.f));

    camera_orientation_ = glm::normalize(yaw * camera_orientation_ * pitch);

    auto camera_roll_direction = camera_orientation_ * glm::vec3(0, 0, -1);
    auto camera_pitch_direction = camera_orientation_ * glm::vec3(-1, 0, 0);

    // forward/backward move - all axes could be affected
    camera_pos_ += directions[0] * camera_roll_direction * frametime * camera_speed_;
    // left and right strafe - only xz could be affected    
    camera_pos_ += directions[1] * camera_pitch_direction * frametime * camera_speed_;
    // up and down flying - only y-axis could be affected
    camera_pos_.y += directions[2] * frametime * camera_speed_;

    view_ = glm::lookAt(camera_pos_, camera_pos_ + camera_roll_direction,
                        glm::cross(camera_roll_direction, camera_pitch_direction));
}

And use it like this:

main_loop()
{
    //...
    glm::vec2 rotation;
    glm::vec3 directions;
    rotation.x = get_mouse_move_x_offset();
    rotation.y = get_mouse_move_y_offset();

    if(is_key_pressed(KEY_D)) directions.y = -1;
    if(is_key_pressed(KEY_A)) directions.y = 1;
    if(is_key_pressed(KEY_W)) directions.x = 1;
    if(is_key_pressed(KEY_S)) directions.x = -1;
    if(is_key_pressed(KEY_E)) directions.z = 1; 
    if(is_key_pressed(KEY_Q)) directions.z = -1;

    cam.move(directions, rotation, frametime); 
}

The order of yaw * camera_orientation_ * pitch multiplication is important because we need to apply yaw transformation in world-space and pitch transformation in model-space.

For more information about quaternions and rotations consider reading this tutorial.

share|improve this answer
    
Is it possible to not use any external libraries and to keep it "pure" as possible? I know this sounds like a silly requirement. –  Stupid.Fat.Cat Nov 2 '13 at 5:38
    
@Stupid.Fat.Cat you can implement quaternion and matrix classes relatively easy yourself, but I don't see any point of doing it, as long as you are not trying to achieve best performance possible. Also GLM is a header-only cross-platform library so you wont need any library files, just #include required headers –  yuyoyuppe Nov 2 '13 at 5:44
    
@Stupid.Fat.Cat Also you'll need to implement vectors and vector operations. glm::lookat just returns matrix that you'll need to pass to the vertex shader(if you are using opengl 3+). If you are using opengl 2.0 you can set your modelview matrix using glMatrixMode and glLoadMatrix functions. If you are not familiar with matrix transformations I strongly recommend you to learn about them. –  yuyoyuppe Nov 2 '13 at 6:02

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