void ShaderShadowMapEngine::calcPointLightMatrices( Matrixr &matWorldToLight, Matrixr &matEyeToLight, const PointLight *pointL, const Matrixr &matEyeToWorld) { if(pointL->getBeacon() != NULL) pointL->getBeacon()->getToWorld(matWorldToLight); Matrixr matLightPos; matLightPos .setTranslate(pointL->getPosition()); matWorldToLight.mult (matLightPos ); matWorldToLight.invert ( ); matEyeToLight = matWorldToLight; matEyeToLight.mult(matEyeToWorld); }
/*! Calculates \a matWorldToLight and \a matEyeToLight for a directional light \a dirL and inverse viewing matrix \a matEyeToWorld. */ void ShaderShadowMapEngine::calcDirectionalLightMatrices( Matrixr &matWorldToLight, Matrixr &matEyeToLight, const DirectionalLight *dirL, const Matrixr &matEyeToWorld) { if(dirL->getBeacon() != NULL) dirL->getBeacon()->getToWorld(matWorldToLight); Quaternion rotLightDir (Vec3r(0.f, 0.f, 1.f), dirL->getDirection()); Matrixr matLightDir; matLightDir.setRotate(rotLightDir); matWorldToLight.mult (matLightDir); matWorldToLight.invert( ); matEyeToLight = matWorldToLight; matEyeToLight.mult(matEyeToWorld); }
/*! Calculates \a matWorldToLight and \a matEyeToLight for a spot light \a spotL and inverse viewing matrix \a matEyeToWorld. */ void ShaderShadowMapEngine::calcSpotLightMatrices( Matrixr &matWorldToLight, Matrixr &matEyeToLight, const SpotLight *spotL, const Matrixr &matEyeToWorld) { if(spotL->getBeacon() != NULL) spotL->getBeacon()->getToWorld(matWorldToLight); Matrixr matLightPos; matLightPos.setTranslate(spotL->getPosition()); Matrixr matLightDir; Quaternion rotLightDir(Vec3r(0.f, 0.f, 1.f), -spotL->getDirection()); matLightDir.setRotate(rotLightDir); matWorldToLight.mult (matLightPos); matWorldToLight.mult (matLightDir); matWorldToLight.invert( ); matEyeToLight = matWorldToLight; matEyeToLight.mult(matEyeToWorld); }