示例#1
0
void RiftRenderer::UpdateDeviceRotation()
{

    if (pSensor) {

        OVR::Quatf hmdOrient = SFusion->GetOrientation();

        OVR::Vector3f x_vec = hmdOrient.Rotate(OVR::Vector3f(1, 0, 0));
        OVR::Vector3f y_vec = hmdOrient.Rotate(OVR::Vector3f(0, 1, 0));
        OVR::Vector3f z_vec = hmdOrient.Rotate(OVR::Vector3f(0, 0, -1)); //OpenGL - forward is along negative z-axis

        right = QVector3D(x_vec.x, x_vec.y, x_vec.z);
        up = QVector3D(y_vec.x, y_vec.y, y_vec.z);
        forward = QVector3D(z_vec.x, z_vec.y, z_vec.z);

    }    
    else { //otherwise we apply no extra rotation (identity)

        right = QVector3D(1, 0, 0);
        up = QVector3D(0, 1, 0);
        forward = QVector3D(0, 0, -1);

    }


}
示例#2
0
OVR_PUBLIC_FUNCTION(ovrTrackerPose) ovr_GetTrackerPose(ovrSession session, unsigned int trackerPoseIndex)
{
	ovrTrackerPose pose = { 0 };

	// Get the index for this tracker.
	vr::TrackedDeviceIndex_t trackers[vr::k_unMaxTrackedDeviceCount];
	g_VRSystem->GetSortedTrackedDeviceIndicesOfClass(vr::TrackedDeviceClass_TrackingReference, trackers, vr::k_unMaxTrackedDeviceCount);
	vr::TrackedDeviceIndex_t index = trackers[trackerPoseIndex];

	// Set the flags
	pose.TrackerFlags = 0;
	if (session->poses[index].bDeviceIsConnected)
		pose.TrackerFlags |= ovrTracker_Connected;
	if (session->poses[index].bPoseIsValid)
		pose.TrackerFlags |= ovrTracker_PoseTracked;

	// Convert the pose
	OVR::Matrix4f matrix;
	if (session->poses[index].bPoseIsValid)
		matrix = REV_HmdMatrixToOVRMatrix(session->poses[index].mDeviceToAbsoluteTracking);
	OVR::Quatf quat = OVR::Quatf(matrix);
	pose.Pose.Orientation = quat;
	pose.Pose.Position = matrix.GetTranslation();

	// Level the pose
	float yaw;
	quat.GetYawPitchRoll(&yaw, nullptr, nullptr);
	pose.LeveledPose.Orientation = OVR::Quatf(OVR::Axis_Y, yaw);
	pose.LeveledPose.Position = matrix.GetTranslation();

	return pose;
}
示例#3
0
文件: main.cpp 项目: 4og/guacamole
gua::math::mat4 const get_oculus_transform(OVR::SensorFusion* sensor) {
  OVR::Quatf orient = sensor->GetPredictedOrientation();
  OVR::Matrix4f mat(orient.Inverted());
  return gua::math::mat4( mat.M[0][0], mat.M[0][1], mat.M[0][2], mat.M[0][3],
                          mat.M[1][0], mat.M[1][1], mat.M[1][2], mat.M[1][3],
                          mat.M[2][0], mat.M[2][1], mat.M[2][2], mat.M[2][3],
                          mat.M[3][0], mat.M[3][1], mat.M[3][2], mat.M[3][3]);
}
示例#4
0
mat4 OVR_SDL2_app::view() const
{
    // Orientation of the head

    OVR::Quatf q = OVR::Quatf(pose[eye].Orientation);
    mat4 O = getMatrix4f(OVR::Matrix4f(q.Inverted()));

    // Offset of the head from the center of the world

    mat4 P = translation(vec3(-pose[eye].Position.x,
                              -pose[eye].Position.y,
                              -pose[eye].Position.z));

    // return E * O * P;
    return O * P;
}
示例#5
0
void OculusHMD::prepareForDraw()
{
    OVR::Quatf ovrQuat = m_system->SFusion.GetOrientation();

    OVR::Vector3f OVRaxis;
    float angle;
    ovrQuat.GetAxisAngle(&OVRaxis, &angle);

    glm::vec3 axis =glm::vec3(OVRaxis.x, OVRaxis.y, OVRaxis.z);

    glm::quat orientation = glm::angleAxis(glm::degrees(angle), glm::normalize(axis));

    glm::vec3 parentPos = glm::vec3(parentNode()->worldTransform() * glm::vec4(0,0,0,1));

    m_boneTracker->setOrientation(glm::mat3_cast(orientation));


    RenderToTextureDisplay::prepareForDraw();
}
glm::quat fromOVR( OVR::Quatf quat )
{
	OVR::Vector3f OVRaxis;
	float angle;
	quat.GetAxisAngle(&OVRaxis, &angle);

	//convert axis type
	glm::vec3 axis = glm::vec3(OVRaxis.x, OVRaxis.y, OVRaxis.z);

	//construct glm orientation quaternion
	glm::quat orientation = glm::angleAxis(glm::degrees(angle), glm::normalize(axis));

	return orientation;
}
示例#7
0
///@todo Even though this function shares most of its code with client rendering,
/// which appears to work fine, it is non-convergable. It appears that the projection
/// matrices for each eye are too far apart? Could be modelview...
void RiftAppSkeleton::display_stereo_undistorted() //const
{
    ovrHmd hmd = m_Hmd;
    if (hmd == NULL)
        return;

    //ovrFrameTiming hmdFrameTiming =
    ovrHmd_BeginFrameTiming(hmd, 0);

    bindFBO(m_renderBuffer, m_fboScale);

    glClearColor(0.0f, 0.0f, 0.0f, 0.0f);
    glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT);

    for (int eyeIndex = 0; eyeIndex < ovrEye_Count; eyeIndex++)
    {
        ovrEyeType eye = hmd->EyeRenderOrder[eyeIndex];
        ovrPosef eyePose = ovrHmd_GetEyePose(hmd, eye);

        const ovrGLTexture& otex = l_EyeTexture[eye];
        const ovrRecti& rvp = otex.OGL.Header.RenderViewport;
        const ovrRecti rsc = {
            static_cast<int>(m_fboScale * rvp.Pos.x),
            static_cast<int>(m_fboScale * rvp.Pos.y),
            static_cast<int>(m_fboScale * rvp.Size.w),
            static_cast<int>(m_fboScale * rvp.Size.h)
        };
        glViewport(rsc.Pos.x, rsc.Pos.y, rsc.Size.w, rsc.Size.h);

        OVR::Quatf orientation = OVR::Quatf(eyePose.Orientation);
        OVR::Matrix4f proj = ovrMatrix4f_Projection(
            m_EyeRenderDesc[eye].Fov,
            0.01f, 10000.0f, true);

        //m_EyeRenderDesc[eye].DistortedViewport;
        OVR::Vector3f EyePos = m_chassisPos;
        OVR::Matrix4f view = OVR::Matrix4f(orientation.Inverted())
            * OVR::Matrix4f::RotationY(m_chassisYaw)
            * OVR::Matrix4f::Translation(-EyePos);
        OVR::Matrix4f eyeview = OVR::Matrix4f::Translation(m_EyeRenderDesc[eye].ViewAdjust) * view;

        _resetGLState();

        _DrawScenes(&eyeview.Transposed().M[0][0], &proj.Transposed().M[0][0], rvp);
    }
    unbindFBO();

    glClearColor(0.0f, 0.0f, 0.0f, 0.0f);
    glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT);
    glDisable(GL_DEPTH_TEST);
    glDisable(GL_CULL_FACE);

    // Present FBO to screen
    const GLuint prog = m_presentFbo.prog();
    glUseProgram(prog);
    m_presentFbo.bindVAO();
    {
        glActiveTexture(GL_TEXTURE0);
        glBindTexture(GL_TEXTURE_2D, m_renderBuffer.tex);
        glUniform1i(m_presentFbo.GetUniLoc("fboTex"), 0);

        // This is the only uniform that changes per-frame
        glUniform1f(m_presentFbo.GetUniLoc("fboScale"), m_fboScale);

        glDrawArrays(GL_TRIANGLE_FAN, 0, 4);
    }
    glBindVertexArray(0);
    glUseProgram(0);

    ovrHmd_EndFrameTiming(hmd);
}