private ColorRGBA getAmbientColor(LightList lightList) { ambientLightColor.set(0, 0, 0, 1); for (int j = 0; j < lightList.size(); j++) { Light l = lightList.get(j); if (l instanceof AmbientLight) { ambientLightColor.addLocal(l.getColor()); } } ambientLightColor.a = 1.0f; return ambientLightColor; }
public void setLighting(LightList list) { // XXX: This is abuse of setLighting() to // apply fixed function bindings // and do other book keeping. if (list == null || list.size() == 0) { glDisable(GL_LIGHTING); applyFixedFuncBindings(false); setModelView(worldMatrix, viewMatrix); return; } // Number of lights set previously int numLightsSetPrev = lightList.size(); // If more than maxLights are defined, they will be ignored. // The GL1 renderer is not permitted to crash due to a // GL1 limitation. It must render anything that the GL2 renderer // can render (even incorrectly). lightList.clear(); materialAmbientColor.set(0, 0, 0, 0); for (int i = 0; i < list.size(); i++) { Light l = list.get(i); if (l.getType() == Light.Type.Ambient) { // Gather materialAmbientColor.addLocal(l.getColor()); } else { // Add to list lightList.add(l); // Once maximum lights reached, exit loop. if (lightList.size() >= maxLights) { break; } } } applyFixedFuncBindings(true); glEnable(GL_LIGHTING); fb16.clear(); fb16.put(materialAmbientColor.r) .put(materialAmbientColor.g) .put(materialAmbientColor.b) .put(1) .flip(); glLightModel(GL_LIGHT_MODEL_AMBIENT, fb16); if (context.matrixMode != GL_MODELVIEW) { glMatrixMode(GL_MODELVIEW); context.matrixMode = GL_MODELVIEW; } // Lights are already in world space, so just convert // them to view space. glLoadMatrix(storeMatrix(viewMatrix, fb16)); for (int i = 0; i < lightList.size(); i++) { int glLightIndex = GL_LIGHT0 + i; Light light = lightList.get(i); Light.Type lightType = light.getType(); ColorRGBA col = light.getColor(); Vector3f pos; // Enable the light glEnable(glLightIndex); // OGL spec states default value for light ambient is black switch (lightType) { case Directional: DirectionalLight dLight = (DirectionalLight) light; fb16.clear(); fb16.put(col.r).put(col.g).put(col.b).put(col.a).flip(); glLight(glLightIndex, GL_DIFFUSE, fb16); glLight(glLightIndex, GL_SPECULAR, fb16); pos = tempVec.set(dLight.getDirection()).negateLocal().normalizeLocal(); fb16.clear(); fb16.put(pos.x).put(pos.y).put(pos.z).put(0.0f).flip(); glLight(glLightIndex, GL_POSITION, fb16); glLightf(glLightIndex, GL_SPOT_CUTOFF, 180); break; case Point: PointLight pLight = (PointLight) light; fb16.clear(); fb16.put(col.r).put(col.g).put(col.b).put(col.a).flip(); glLight(glLightIndex, GL_DIFFUSE, fb16); glLight(glLightIndex, GL_SPECULAR, fb16); pos = pLight.getPosition(); fb16.clear(); fb16.put(pos.x).put(pos.y).put(pos.z).put(1.0f).flip(); glLight(glLightIndex, GL_POSITION, fb16); glLightf(glLightIndex, GL_SPOT_CUTOFF, 180); if (pLight.getRadius() > 0) { // Note: this doesn't follow the same attenuation model // as the one used in the lighting shader. glLightf(glLightIndex, GL_CONSTANT_ATTENUATION, 1); glLightf(glLightIndex, GL_LINEAR_ATTENUATION, pLight.getInvRadius() * 2); glLightf( glLightIndex, GL_QUADRATIC_ATTENUATION, pLight.getInvRadius() * pLight.getInvRadius()); } else { glLightf(glLightIndex, GL_CONSTANT_ATTENUATION, 1); glLightf(glLightIndex, GL_LINEAR_ATTENUATION, 0); glLightf(glLightIndex, GL_QUADRATIC_ATTENUATION, 0); } break; case Spot: SpotLight sLight = (SpotLight) light; fb16.clear(); fb16.put(col.r).put(col.g).put(col.b).put(col.a).flip(); glLight(glLightIndex, GL_DIFFUSE, fb16); glLight(glLightIndex, GL_SPECULAR, fb16); pos = sLight.getPosition(); fb16.clear(); fb16.put(pos.x).put(pos.y).put(pos.z).put(1.0f).flip(); glLight(glLightIndex, GL_POSITION, fb16); Vector3f dir = sLight.getDirection(); fb16.clear(); fb16.put(dir.x).put(dir.y).put(dir.z).put(1.0f).flip(); glLight(glLightIndex, GL_SPOT_DIRECTION, fb16); float outerAngleRad = sLight.getSpotOuterAngle(); float innerAngleRad = sLight.getSpotInnerAngle(); float spotCut = outerAngleRad * FastMath.RAD_TO_DEG; float spotExpo = 0.0f; if (outerAngleRad > 0) { spotExpo = (1.0f - (innerAngleRad / outerAngleRad)) * 128.0f; } glLightf(glLightIndex, GL_SPOT_CUTOFF, spotCut); glLightf(glLightIndex, GL_SPOT_EXPONENT, spotExpo); if (sLight.getSpotRange() > 0) { glLightf(glLightIndex, GL_LINEAR_ATTENUATION, sLight.getInvSpotRange()); } else { glLightf(glLightIndex, GL_LINEAR_ATTENUATION, 0); } break; default: throw new UnsupportedOperationException("Unrecognized light type: " + lightType); } } // Disable lights after the index for (int i = lightList.size(); i < numLightsSetPrev; i++) { glDisable(GL_LIGHT0 + i); } // This will set view matrix as well. setModelView(worldMatrix, viewMatrix); }