void UberShader::ApplyCamera(const glm::mat4 &projection, const glm::mat4 &view, const glm::mat4 &model) {
Device *dev = Device::GetInstance();
RenderState *render_dev = &dev->render_state();
const Material &material = render_dev->LastMaterial();
Shader &shader = Load(material.props);
//world-view-projection
//world, view, projection 같은것을 등록할수 잇으면 등록하기
glm::mat4 mvp = glm::mat4(1.0f);
mvp *= projection;
mvp *= view;
mvp *= model;
shader.SetUniformMatrix(kMVPHandleName, mvp);
shader.SetUniformMatrix(kModelHandleName, model);
shader.SetUniformMatrix(kProjectionHandleName, projection);
shader.SetUniformMatrix(kViewHandleName, view);
shader.SetUniformMatrix(kModelViewHandleName, view * model);
//빛 계산에는 normal계산 뒤집는 행렬이 필요하다
glm::mat4 modelview_mat4(view * model);
glm::mat4 modelview_mat4_inv = glm::inverse(modelview_mat4);
glm::mat4 modelview_mat4_inv_transpose = glm::transpose(modelview_mat4_inv);
shader.SetUniformMatrix(kMVInvTransposeHandleName, modelview_mat4_inv_transpose);
const glm::vec3 eye = MatrixHelper::ViewPos(view);
const glm::vec3 up = MatrixHelper::ViewUpVec(view);
const glm::vec3 dir = MatrixHelper::ViewDirVec(view);
glm::vec3 view_side = glm::cross(dir, up);
glm::vec4 view_side_vec(view_side.x, view_side.y, view_side.z, 1.0f);
shader.SetUniformVector(kViewSideHandleName, view_side);
glm::vec4 eye_vec(eye.x, eye.y, eye.z, 1.0f);
shader.SetUniformVector(kViewPositionHandleName, eye_vec);
glm::vec4 up_vec(up.x, up.y, up.z, 1.0f);
shader.SetUniformVector(kViewUpHandleName, up_vec);
glm::vec4 dir_vec(dir.x, dir.y, dir.z, 1.0f);
shader.SetUniformVector(kViewDirHandleName, dir_vec);
}
/// dot product of unit length vector toward camera
/// and surface normal (ignoring creases):
double eye_vec_dot_norm() const { return eye_vec() * norm(); }
