#include "WaterAspectPreviewRenderer.h" #include "BasePreview.h" #include "Scenery.h" #include "WaterDefinition.h" #include "CameraDefinition.h" #include "WaterRenderer.h" /*static double _getWaterHeight(Renderer*) { return 0.0; } static void _getLightingStatus(Renderer* renderer, LightStatus* status, Vector3, int) { LightDefinition light; bool lighting = *(bool*)renderer->customData[0]; light.color = COLOR_WHITE; light.direction.x = 0.0; light.direction.y = -0.4794; light.direction.z = -0.8776; light.altered = 0; if (lighting) { light.reflection = 1.0; } else { light.reflection = 0.0; } lightingPushLight(status, &light); } static double _getPrecision(Renderer*, Vector3) { return 0.000001; }*/ WaterAspectPreviewRenderer::WaterAspectPreviewRenderer(WaterDefinition* definition): definition(definition) { lighting = true; background = 2; customData[0] = &lighting; customData[1] = &background; } void WaterAspectPreviewRenderer::bindEvent(BasePreview* preview) { preview->configScaling(10.0, 1000.0, 10.0, 250.0); //configScrolling(-30.0, 30.0, 0.0, -20.0, 20.0, 0.0); // TODO Translation preview->addChoice("bg", "Background", QStringList("None") << "Grid" << "Sinusoid", 2); preview->addToggle("light", "Light reflection", true); //preview->configHdrToneMapping(true); } void WaterAspectPreviewRenderer::updateEvent() { getScenery()->setWater(definition); getScenery()->getCamera()->setTarget(VECTOR_ZERO); prepare(); //terrain->getWaterHeight = _getWaterHeight; //atmosphere->getLightingStatus = _getLightingStatus; //getPrecision = _getPrecision; } void WaterAspectPreviewRenderer::cameraEvent(double, double, double scaling) { Vector3 camera_location(0.0, scaling, -10.0 * scaling); getScenery()->getCamera()->setLocation(camera_location); render_camera->setLocation(camera_location); } Color WaterAspectPreviewRenderer::getColor2D(double x, double y, double scaling) { Vector3 eye, look; double target_x, target_z; eye = render_camera->getLocation(); look = Vector3(x * 0.01 / scaling, -y * 0.01 / scaling - 0.3, 1.0).normalize(); if (look.y > -0.0001) { return rayWalking(eye, look, 0, 0, 0, 0).hit_color; } target_x = eye.x - look.x * eye.y / look.y; target_z = eye.z - look.z * eye.y / look.y; if (target_z > 0.0) { return rayWalking(eye, look, 0, 0, 0, 0).hit_color; } return getWaterRenderer()->getResult(target_x, target_z).final; } void WaterAspectPreviewRenderer::toggleChangeEvent(const std::string &key, bool value) { if (key == "light") { lighting = value; } } void WaterAspectPreviewRenderer::choiceChangeEvent(const std::string &key, int position) { if (key == "bg") { background = position; } } RayCastingResult WaterAspectPreviewRenderer::rayWalking(const Vector3 &location, const Vector3 &direction, int, int, int, int) { RayCastingResult result; double x, y; result.hit = 1; if (direction.z < 0.0001) { result.hit_color = COLOR_WHITE; result.hit_location = location; } else { x = location.x + direction.x * (0.0 - location.z) / direction.z; y = location.y + direction.y * (0.0 - location.z) / direction.z; switch (background) { case 1: result.hit_color = (((int) ceil(x * 0.2) % 2 == 0) ^ ((int) ceil(y * 0.2 - 0.5) % 2 == 0)) ? COLOR_WHITE : COLOR_BLACK; break; case 2: result.hit_color = (y * 0.1 > x * 0.03 + sin(x - M_PI_2)) ? COLOR_WHITE : COLOR_BLACK; break; default: result.hit_color = COLOR_WHITE; } result.hit_location.x = x; result.hit_location.y = y; result.hit_location.z = 0.0; if (result.hit_location.y < 0.0) { double lighting_depth = getScenery()->getWater()->lighting_depth; if (result.hit_location.y < -lighting_depth) { result.hit_color = COLOR_BLACK; } else { double attenuation = -result.hit_location.y / lighting_depth; result.hit_color.r *= 1.0 - attenuation; result.hit_color.g *= 1.0 - attenuation; result.hit_color.b *= 1.0 - attenuation; } } } return result; }