Improve title screen

6 years ago · d258d9ebc6
--- a/CMakeLists.txt
+++ b/CMakeLists.txt
@ -106,6 +106,8 @@ set(EXECUTABLE_SOURCES
 	${EXECUTABLE_SOURCE_DIR}/states/title-state.cpp
 	${EXECUTABLE_SOURCE_DIR}/states/main-menu-state.hpp
 	${EXECUTABLE_SOURCE_DIR}/states/main-menu-state.cpp
 	${EXECUTABLE_SOURCE_DIR}/states/play-state.hpp
 	${EXECUTABLE_SOURCE_DIR}/states/play-state.cpp
 	${EXECUTABLE_SOURCE_DIR}/ui/ui.hpp
 	${EXECUTABLE_SOURCE_DIR}/ui/ui.cpp
 	${EXECUTABLE_SOURCE_DIR}/ui/tween.hpp
--- a/+ 1
+++ b/+ 1
@ -1 +1 @@
 Subproject commit 5c2d9e19f18fd4085ee0aa4096aa4d63e9e3edef
 Subproject commit 1e82819229df7c2113938a1bc0ea35b6f3335493
--- a/src/application.cpp
+++ b/src/application.cpp
@ -25,6 +25,7 @@
 #include "states/splash-state.hpp"
 #include "states/title-state.hpp"
 #include "states/main-menu-state.hpp"
 #include "states/play-state.hpp"
 #include "debug.hpp"
 #include "camera-controller.hpp"
 #include <cstdlib>
@ -316,6 +317,7 @@ Application::Application(int argc, char* argv[]):
 	splashState = new SplashState(this);
 	titleState = new TitleState(this);
 	mainMenuState = new MainMenuState(this);
 	playState = new PlayState(this);
 	
 	// Setup loaders
 	textureLoader = new TextureLoader();
@ -561,13 +563,21 @@ bool Application::loadScene()

 bool Application::loadUI()
 {
 	// Load menu font
 	menuFont = new Font(512, 512);
 	// Load fonts
 	FontLoader* fontLoader = new FontLoader();
 	
 	menuFont = new Font(512, 512);
 	if (!fontLoader->load("data/fonts/Varela-Regular.ttf", fontSizePX, menuFont))
 	{
 		std::cerr << "Failed to load font" << std::endl;
 		std::cerr << "Failed to load menu font" << std::endl;
 	}
 	
 	copyrightFont = new Font(256, 256);
 	if (!fontLoader->load("data/fonts/Varela-Regular.ttf", (int)(fontSizePX * 0.8f + 0.5f), copyrightFont))
 	{
 		std::cerr << "Failed to load copyright font" << std::endl;
 	}
 	
 	delete fontLoader;
 	
 	// Load UI textures
@ -575,14 +585,16 @@ bool Application::loadUI()
 	textureLoader->setCubemap(false);
 	textureLoader->setMipmapChain(false);
 	textureLoader->setMaxAnisotropy(1.0f);
 	splashTexture = textureLoader->load("data/textures/splash.png");
 	titleTexture = textureLoader->load("data/textures/title.png");
 	splashTexture = textureLoader->load("data/textures/ui-splash.png");
 	titleTexture = textureLoader->load("data/textures/ui-title.png");
 	levelActiveTexture = textureLoader->load("data/textures/ui-level-active.png");
 	levelInactiveTexture = textureLoader->load("data/textures/ui-level-inactive.png");
 	levelConnectorTexture = textureLoader->load("data/textures/ui-level-connector.png");
 	
 	// Get strings
 	std::string pressAnyKeyString;
 	std::string copyrightString;
 	std::string versionString;
 	std::string backString;
 	std::string challengeString;
 	std::string experimentString;
@ -598,6 +610,8 @@ bool Application::loadUI()
 	std::string returnToMainMenuString;
 	std::string quitToDesktopString;
 	strings.get("press-any-key", &pressAnyKeyString);
 	strings.get("copyright", &copyrightString);
 	strings.get("version", &versionString);
 	strings.get("back", &backString);
 	strings.get("challenge", &challengeString);
 	strings.get("experiment", &experimentString);
@ -643,26 +657,38 @@ bool Application::loadUI()
 	titleImage = new UIImage();
 	titleImage->setAnchor(Vector2(0.5f, 0.0f));
 	titleImage->setDimensions(Vector2(titleTexture->getWidth(), titleTexture->getHeight()));
 	titleImage->setTranslation(Vector2(0.0f, (int)(height * (1.0f / 3.0f) - titleTexture->getHeight())));
 	titleImage->setTranslation(Vector2(0.0f, (int)(height * (1.0f / 4.0f) - titleTexture->getHeight() * 0.5f)));
 	titleImage->setTexture(titleTexture);
 	titleImage->setVisible(false);
 	uiRootElement->addChild(titleImage);
 	
 	/*
 	copyrightImage = new UIImage();
 	copyrightImage->setAnchor(Vector2(0.5f, 1.0f));
 	copyrightImage->setDimensions(Vector2(copyrightTextureWidth, copyrightTextureHeight));
 	copyrightImage->setTranslation(Vector2(-.5f, (int)(-height * (1.0f / 10.0f) - copyrightTextureHeight * 0.5f)));
 	copyrightImage->setTexture(nullptr);
 	copyrightImage->setVisible(false);
 	uiRootElement->addChild(copyrightImage);
 	*/
 	// Create Title screen info element
 	titleScreenInfoContainer = new UIContainer();
 	titleScreenInfoContainer->setDimensions(Vector2(width, height));
 	titleScreenInfoContainer->setVisible(false);
 	uiRootElement->addChild(titleScreenInfoContainer);
 	
 	// Create copyright element
 	copyrightLabel = new UILabel();
 	copyrightLabel->setAnchor(Vector2(0.0f, 1.0f));
 	copyrightLabel->setFont(copyrightFont);
 	copyrightLabel->setTranslation(Vector2((int)(width * 0.025f), (int)(-height * 0.025f)));
 	copyrightLabel->setText(copyrightString);
 	titleScreenInfoContainer->addChild(copyrightLabel);
 	
 	// Create version element
 	versionLabel = new UILabel();
 	versionLabel->setAnchor(Vector2(1.0f, 1.0f));
 	versionLabel->setFont(copyrightFont);
 	versionLabel->setTranslation(Vector2((int)(-width * 0.025f), (int)(-height * 0.025f)));
 	versionLabel->setText(versionString);
 	titleScreenInfoContainer->addChild(versionLabel);
 	
 	// Create "Press any key" element
 	anyKeyLabel = new UILabel();
 	anyKeyLabel->setAnchor(Vector2(0.5f, 1.0f));
 	anyKeyLabel->setFont(menuFont);
 	anyKeyLabel->setTranslation(Vector2(0.0f, (int)(-height * (1.0f / 3.0f)/* - menuFont->getMetrics().getHeight() * 0.5f*/)));
 	anyKeyLabel->setTranslation(Vector2(0.0f, (int)(-height * (1.0f / 4.0f) - menuFont->getMetrics().getHeight() * 0.5f)));
 	anyKeyLabel->setText(pressAnyKeyString);
 	anyKeyLabel->setVisible(false);
 	uiRootElement->addChild(anyKeyLabel);
@ -871,11 +897,11 @@ bool Application::loadUI()
 	tweener->addTween(titleFadeOutTween);
 	
 	// Setup copyright tween
 	copyrightFadeInTween = new Tween<Vector4>(EaseFunction::IN_CUBIC, 0.0f, 1.0f, Vector4(1.0f, 1.0f, 1.0f, 0.0f), Vector4(0.0f, 0.0f, 0.0f, 1.0f));
 	copyrightFadeInTween->setUpdateCallback(std::bind(UIElement::setTintColor, copyrightImage, std::placeholders::_1));
 	copyrightFadeInTween = new Tween<Vector4>(EaseFunction::IN_CUBIC, 0.0f, 1.0f, Vector4(0.0f, 0.0f, 0.0f, 0.0f), Vector4(0.0f, 0.0f, 0.0f, 0.5f));
 	copyrightFadeInTween->setUpdateCallback(std::bind(UIElement::setTintColor, titleScreenInfoContainer, std::placeholders::_1));
 	tweener->addTween(copyrightFadeInTween);
 	copyrightFadeOutTween = new Tween<Vector4>(EaseFunction::OUT_CUBIC, 0.0f, 0.25f, Vector4(1.0f, 1.0f, 1.0f, 1.0f), Vector4(0.0f, 0.0f, 0.0f, -1.0f));
 	copyrightFadeOutTween->setUpdateCallback(std::bind(UIElement::setTintColor, copyrightImage, std::placeholders::_1));
 	copyrightFadeOutTween = new Tween<Vector4>(EaseFunction::OUT_CUBIC, 0.0f, 0.25f, Vector4(0.0f, 0.0f, 0.0f, 0.5f), Vector4(0.0f, 0.0f, 0.0f, -0.5f));
 	copyrightFadeOutTween->setUpdateCallback(std::bind(UIElement::setTintColor, titleScreenInfoContainer, std::placeholders::_1));
 	tweener->addTween(copyrightFadeOutTween);
 	
 	// Setup "Press any key" tween
@ -896,7 +922,7 @@ bool Application::loadUI()
 	Vector4 menuFadeOutDeltaColor = Vector4(0.0f, 0.0f, 0.0f, -1.0f);
 	float menuSlideInDuration = 0.35f;
 	Vector2 menuSlideInStartTranslation = Vector2(-64.0f, 0.0f);
 	Vector2 menuSlideInDeltaTranslation = Vector2(128.0f, 0.0f);
 	Vector2 menuSlideInDeltaTranslation = Vector2((int)(64.0f + width / 8.0f), 0.0f);
 	
 	float levelSelectorSlideInDuration = 0.35f;
 	Vector2 levelSelectorSlideInStartTranslation = Vector2(0.0f, levelActiveTexture->getHeight());
--- a/src/application.hpp
+++ b/src/application.hpp
@ -42,6 +42,7 @@ class LoadingState;
 class SplashState;
 class TitleState;
 class MainMenuState;
 class PlayState;
 class CameraController;
 class SurfaceCameraController;
 class TunnelCameraController;
@ -129,6 +130,7 @@ public:
 	SplashState* splashState;
 	TitleState* titleState;
 	MainMenuState* mainMenuState;
 	PlayState* playState;
 	
 	// Scene
 	Scene scene;
@ -213,6 +215,7 @@ public:
 	float fontSizePT;
 	float fontSizePX;
 	Font* menuFont;
 	Font* copyrightFont;
 	
 	// UI textures
 	Texture* splashTexture;
@ -228,7 +231,11 @@ public:
 	UIImage* blackoutImage;
 	UIImage* splashImage;
 	UIImage* titleImage;
 	UIImage* copyrightImage;
 	
 	UIContainer* titleScreenInfoContainer;
 	UILabel* copyrightLabel;
 	UILabel* versionLabel;
 	
 	UILabel* anyKeyLabel;
 	UILabel* menuSelectorLabel;
 	UIContainer* mainMenuContainer;
--- a/src/states/experiment-state.cpp
+++ b/src/states/experiment-state.cpp
@ -1,545 +0,0 @@
 /*
 * Copyright (C) 2017  Christopher J. Howard
 *
 * This file is part of Antkeeper Source Code.
 *
 * Antkeeper Source Code is free software: you can redistribute it and/or modify
 * it under the terms of the GNU General Public License as published by
 * the Free Software Foundation, either version 3 of the License, or
 * (at your option) any later version.
 *
 * Antkeeper Source Code is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with Antkeeper Source Code.  If not, see <http://www.gnu.org/licenses/>.
 */

 #include "experiment-state.hpp"
 #include "../application.hpp"
 #include "../camera-controller.hpp"
 #include "../ui/ui.hpp"
 #include <iostream>
 #include <SDL.h>

 ExperimentState::ExperimentState(Application* application):
 	ApplicationState(application)
 {}

 ExperimentState::~ExperimentState()
 {}

 void drawShaft(LineBatcher* lineBatcher, const Shaft* shaft);

 void drawChamber(LineBatcher* lineBatcher, const Chamber* chamber)
 {
 	float helixAngle = chamber->parent->getHelixAngle(chamber->relativeDepth);
 	float minAngle = helixAngle - chamber->centralAngle * 0.5f;
 	float maxAngle = helixAngle + chamber->centralAngle * 0.5f;
 		
 	// Find position on helix 
 	Vector3 helixPosition = chamber->parent->getHelixPosition(chamber->relativeDepth);
 	helixPosition.y = -helixPosition.y;
 	
 	// Move annulus toward helix by the inner radius
 	Vector3 helixDirection = glm::normalize(Vector3(std::cos(helixAngle), 0.0f, std::sin(helixAngle)));
 	Vector3 offset = helixPosition - helixDirection * (chamber->innerRadius - chamber->parent->shaftRadius);
 		
 	int stepCount = 10;
 	float angleStep = chamber->centralAngle / (float)stepCount;
 	for (int i = 0; i < stepCount; ++i)
 	{
 		float angle0 = minAngle + angleStep * (float)i;
 		float angle1 = minAngle + angleStep * (float)(i + 1);
 		
 		float x0 = std::cos(angle0);
 		float z0 = std::sin(angle0);
 		float x1 = std::cos(angle1);
 		float z1 = std::sin(angle1);
 		
 		Vector3 innerStart;
 		innerStart.x = x0 * chamber->innerRadius;
 		innerStart.y = 0.0f;
 		innerStart.z = z0 * chamber->innerRadius;
 		
 		Vector3 outerStart;
 		outerStart.x = x0 * chamber->outerRadius;
 		outerStart.y = 0.0f;
 		outerStart.z = z0 * chamber->outerRadius;
 		
 		Vector3 innerEnd;
 		innerEnd.x = x1 * chamber->innerRadius;
 		innerEnd.y = 0.0f;
 		innerEnd.z = z1 * chamber->innerRadius;
 		
 		Vector3 outerEnd;
 		outerEnd.x = x1 * chamber->outerRadius;
 		outerEnd.y = 0.0f;
 		outerEnd.z = z1 * chamber->outerRadius;
 		
 		lineBatcher->draw(offset + innerStart, offset + innerEnd);
 		lineBatcher->draw(offset + outerStart, offset + outerEnd);
 	}
 	
 	Vector3 leftWallStart;
 	leftWallStart.x = std::cos(minAngle) * chamber->innerRadius;
 	leftWallStart.y = 0.0f;
 	leftWallStart.z = std::sin(minAngle) * chamber->innerRadius;
 	
 	Vector3 leftWallEnd;
 	leftWallEnd.x = std::cos(minAngle) * chamber->outerRadius;
 	leftWallEnd.y = 0.0f;
 	leftWallEnd.z = std::sin(minAngle) * chamber->outerRadius;
 	
 	Vector3 rightWallStart;
 	rightWallStart.x = std::cos(maxAngle) * chamber->innerRadius;
 	rightWallStart.y = 0.0f;
 	rightWallStart.z = std::sin(maxAngle) * chamber->innerRadius;
 	
 	Vector3 rightWallEnd;
 	rightWallEnd.x = std::cos(maxAngle) * chamber->outerRadius;
 	rightWallEnd.y = 0.0f;
 	rightWallEnd.z = std::sin(maxAngle) * chamber->outerRadius;
 	
 	lineBatcher->draw(offset + leftWallStart, offset + leftWallEnd);
 	lineBatcher->draw(offset + rightWallStart, offset + rightWallEnd);
 	
 	if (chamber->child != nullptr)
 	{
 		drawShaft(lineBatcher, chamber->child);
 	}
 }

 void drawShaft(LineBatcher* lineBatcher, const Shaft* shaft)
 {
 	// Draw helix
 	int stepCount = 50;
 	float depthStep = shaft->shaftDepth / (float)stepCount;
 	for (int i = 0; i < stepCount; ++i)
 	{
 		Vector3 start = shaft->getHelixPosition((float)i * depthStep);
 		Vector3 end = shaft->getHelixPosition((float)(i + 1) * depthStep);
 		
 		start.y = -start.y;
 		end.y = -end.y;
 		
 		lineBatcher->draw(start, end);
 	}
 	
 	// Draw children
 	for (const Chamber* chamber: shaft->children)
 	{
 		drawChamber(lineBatcher, chamber);
 	}
 }


 void ExperimentState::generateNest()
 {
 	NestParameters params;
 	
 	params.randomSeed = std::rand();
 	
 	params.maxShaftGeneration = 2;
 	params.minShaftRadius = 0.0f;
 	params.maxShaftRadius = 0.0f;
 	params.minShaftDepth = 4.0f;
 	params.maxShaftDepth = 6.0f;
 	params.minShaftHelixRadius = 0.1f;
 	params.maxShaftHelixRadius = 1.0f;
 	params.minShaftHelixPitch = 0.25f;
 	params.maxShaftHelixPitch = 0.75f;
 	params.minShaftChamberCount = 1;
 	params.maxShaftChamberCount = 5;
 	params.minShaftChamberPitch = 0.5f;
 	params.maxShaftChamberPitch = 2.0f;
 	
 	params.minChamberInnerRadius = 0.2f;
 	params.maxChamberInnerRadius = 0.2f;
 	params.minChamberOuterRadius = 0.5f;
 	params.maxChamberOuterRadius = 0.5f;
 	params.minChamberCentralAngle = glm::radians(240.0f);
 	params.maxChamberCentralAngle = glm::radians(240.0f);
 	
 	nest.setParameters(params);
 	nest.generate();
 	
 	// Draw nest
 	application->lineBatcher->setColor(Vector4(1.0f));
 	application->lineBatcher->setWidth(0.015f);
 	application->lineBatcher->begin();
 	drawShaft(application->lineBatcher, nest.getRootShaft());
 	application->lineBatcher->end();
 }

 void ExperimentState::enter()
 {
 	std::cout << "Entering ExperimentState..." << std::endl;
 	
 	std::srand(std::time(0));
 	
 	// BG
 	application->bgBatch.resize(1);
 	BillboardBatch::Range* bgRange = application->bgBatch.addRange();
 	bgRange->start = 0;
 	bgRange->length = 1;
 	Billboard* bgBillboard = application->bgBatch.getBillboard(0);
 	bgBillboard->setDimensions(Vector2(1.0f, 1.0f));
 	bgBillboard->setTranslation(Vector3(0.5f, 0.5f, 0.0f));
 	bgBillboard->setTintColor(Vector4(1, 0, 0, 1));
 	application->bgBatch.update();
 	
 	application->vignettePass.setRenderTarget(&application->defaultRenderTarget);
 	application->bgCompositor.addPass(&application->vignettePass);
 	application->bgCompositor.load(nullptr);
 	application->bgCamera.setOrthographic(0, 1.0f, 1.0f, 0, -1.0f, 1.0f);
 	application->bgCamera.lookAt(glm::vec3(0), glm::vec3(0, 0, -1), glm::vec3(0, 1, 0));
 	application->bgCamera.setCompositor(&application->bgCompositor);
 	application->bgCamera.setCompositeIndex(0);
 	
 	application->bgScene.addLayer();
 	application->bgScene.getLayer(0)->addObject(&application->bgCamera);
 	application->bgScene.getLayer(0)->addObject(&application->bgBatch);

 	SceneLayer* terrainLayer = application->scene.addLayer();
 	SceneLayer* objectsLayer = application->scene.addLayer();
 	
 	terrainLayer->addObject(&application->camera);

 	
 	objectsLayer->addObject(&application->camera);
 	objectsLayer->addObject(application->antModelInstance);
 	objectsLayer->addObject(application->lineBatcher->getBatch());
 	
 	// Create terrain
 	terrain.create(16, 16, Vector3(150.0f));
 	terrainLayer->addObject(terrain.getSurfaceModel()->createInstance());
 	terrainLayer->addObject(terrain.getSubsurfaceModel()->createInstance());
 	
 	DirectionalLight* lightA = new DirectionalLight();
 	DirectionalLight* lightB = new DirectionalLight();
 	DirectionalLight* lightC = new DirectionalLight();
 	lightA->setColor(glm::vec3(1.0f));
 	lightB->setColor(glm::vec3(0.25f));
 	lightC->setColor(glm::vec3(1.0f, 1.0f, 1.0f));
 	lightA->setDirection(glm::normalize(glm::vec3(0.0, -0.8, -0.2)));
 	lightB->setDirection(glm::normalize(glm::vec3(1.0, -.2, 0.0f)));
 	lightC->setDirection(glm::normalize(glm::vec3(0.0, 1.0, 0.0)));
 	terrainLayer->addObject(lightA);
 	terrainLayer->addObject(lightB);
 	terrainLayer->addObject(lightC);
 	objectsLayer->addObject(lightA);
 	objectsLayer->addObject(lightB);
 	objectsLayer->addObject(lightC);
 	
 	
 	// Load compositor
 	application->defaultCompositor.unload();
 	RenderQueue renderQueue;
 	const std::list<SceneObject*>* objects = terrainLayer->getObjects();
 	for (const SceneObject* object: *objects)
 		renderQueue.queue(object);
 	objects = objectsLayer->getObjects();
 	for (const SceneObject* object: *objects)
 		renderQueue.queue(object);
 	RenderContext renderContext;
 	renderContext.camera = nullptr;
 	renderContext.layer = objectsLayer;
 	renderContext.queue = &renderQueue;
 	application->defaultCompositor.load(&renderContext);
 	
 	application->camera.setPerspective(
 		glm::radians(25.0f),
 		(float)application->width / (float)application->height,
 		0.5f,
 		2000.0f);
 	
 	// Setup camera controller
 	application->surfaceCam->setCamera(&application->camera);
 	application->surfaceCam->setFocalPoint(Vector3(0.0f));
 	application->surfaceCam->setFocalDistance(10.0f);
 	application->surfaceCam->setElevation(glm::radians(90.0f * (3.0f / 4.0f)));
 	application->surfaceCam->setAzimuth(glm::radians(45.0f));
 	application->surfaceCam->setTargetFocalPoint(application->surfaceCam->getFocalPoint());
 	application->surfaceCam->setTargetFocalDistance(application->surfaceCam->getFocalDistance());
 	application->surfaceCam->setTargetElevation(application->surfaceCam->getElevation());
 	application->surfaceCam->setTargetAzimuth(application->surfaceCam->getAzimuth());
 	application->surfaceCam->update(0.0f);
 	
 	application->pauseMenuContainer->setVisible(false);
 	application->pauseMenuContainer->setActive(false);
 	
 	// Generate nest
 	generateNest();
 	
 	dragging = oldDragging = false;
 	
 	application->inputManager->addWindowObserver(this);
 	application->mouse->addMouseButtonObserver(this);
 	windowResized(application->width, application->height);
 	
 	// Start timer
 	timer.start();
 }

 void ExperimentState::execute()
 {	
 	// Calculate delta time (in seconds)
 	float dt = static_cast<float>(timer.microseconds().count()) / 1000000.0f;
 	timer.reset();
 	
 	// Update controls
 	application->menuControlProfile->update();
 	application->gameControlProfile->update();
 	
 	// Update input
 	oldDragging = dragging;
 	application->inputManager->update();
 	
 	// Check if application was closed
 	if (application->inputManager->wasClosed() || application->escape.isTriggered())
 	{
 		application->close(EXIT_SUCCESS);
 		return;
 	}
 	
 	// Check if fullscreen was toggled
 	if (application->toggleFullscreen.isTriggered() && !application->toggleFullscreen.wasTriggered())
 	{
 		application->changeFullscreen();
 	}
 	
 	// Move camera
 	Vector2 movementVector(0.0f);
 	if (application->cameraMoveLeft.isTriggered())
 		movementVector.x -= application->cameraMoveLeft.getCurrentValue();
 	if (application->cameraMoveRight.isTriggered())
 		movementVector.x += application->cameraMoveRight.getCurrentValue();
 	if (application->cameraMoveForward.isTriggered())
 		movementVector.y -= application->cameraMoveForward.getCurrentValue();
 	if (application->cameraMoveBack.isTriggered())
 		movementVector.y += application->cameraMoveBack.getCurrentValue();
 	if (movementVector.x != 0.0f || movementVector.y != 0.0f)
 	{
 		movementVector *= 0.005f * application->surfaceCam->getFocalDistance() * dt / (1.0f / 60.0f);
 		application->surfaceCam->move(movementVector);
 	}
 	
 	// Rotate camera
 	/*
 	if (application->cameraRotateCW.isTriggered() && !application->cameraRotateCW.wasTriggered())
 		application->surfaceCam->rotate(glm::radians(-90.0f));
 	if (application->cameraRotateCCW.isTriggered() && !application->cameraRotateCCW.wasTriggered())
 		application->surfaceCam->rotate(glm::radians(90.0f));
 	*/
 	
 	float rotationSpeed = glm::radians(3.0f) * dt / (1.0f / 60.0f);
 	if (application->cameraRotateCW.isTriggered())
 		application->surfaceCam->rotate(-rotationSpeed);
 	if (application->cameraRotateCCW.isTriggered())
 		application->surfaceCam->rotate(rotationSpeed);
 	
 	
 	// Zoom camera
 	float zoomFactor = application->surfaceCam->getFocalDistance() / 20.0f * dt / (1.0f / 60.0f);
 	if (application->cameraZoomIn.isTriggered())
 		application->surfaceCam->zoom(zoomFactor * application->cameraZoomIn.getCurrentValue());
 	if (application->cameraZoomOut.isTriggered())
 		application->surfaceCam->zoom(-zoomFactor * application->cameraZoomOut.getCurrentValue());
 	
 	// Enforce camera focal distance constraints
 	float minFocalDistance = 2.5f;
 	float maxFocalDistance = 1000.0f;
 	if (application->surfaceCam->getTargetFocalDistance() > maxFocalDistance)
 	{
 		application->surfaceCam->setTargetFocalDistance(maxFocalDistance);
 	}
 	else if (application->surfaceCam->getTargetFocalDistance() < minFocalDistance)
 	{
 		application->surfaceCam->setTargetFocalDistance(minFocalDistance);
 	}
 	
 	// Enforce camera focal point constraints
 	float worldSize = 150.0f;
 	Vector3 boundsMin = Vector3(-worldSize * 0.5f, 0.0f, -worldSize * 0.5f);
 	Vector3 boundsMax = Vector3(worldSize * 0.5f, 0.0f, worldSize * 0.5f);
 	Vector3 targetFocalPoint = application->surfaceCam->getTargetFocalPoint();
 	targetFocalPoint.x = std::max(boundsMin.x, std::min(boundsMax.x, targetFocalPoint.x));
 	targetFocalPoint.z = std::max(boundsMin.z, std::min(boundsMax.z, targetFocalPoint.z));
 	application->surfaceCam->setTargetFocalPoint(targetFocalPoint);
 	
 	// Fixed camera angles
 	float overheadViewElevation = glm::radians(90.0f * (3.0f / 4.0f));
 	float tiltedViewElevation = glm::radians(30.0f);
 	float nestViewElevation = glm::radians(0.0f);
 	
 	// Toggle overhead view
 	if (!application->cameraNestView)
 	{
 		if (application->cameraToggleOverheadView.isTriggered() && !application->cameraToggleOverheadView.wasTriggered())
 		{
 			application->cameraOverheadView = !application->cameraOverheadView;
 			float elevation = (application->cameraOverheadView) ? overheadViewElevation : tiltedViewElevation;
 			application->surfaceCam->setTargetElevation(elevation);
 		}
 	}
 	
 	// Toggle nest view
 	if (application->cameraToggleNestView.isTriggered() && !application->cameraToggleNestView.wasTriggered())
 	{
 		application->cameraNestView = !application->cameraNestView;
 		float elevation = (application->cameraNestView) ? nestViewElevation : (application->cameraOverheadView) ? overheadViewElevation : tiltedViewElevation;
 		application->surfaceCam->setTargetElevation(elevation);
 	}
 	
 	if (application->menuSelect.isTriggered() && !application->menuSelect.wasTriggered())
 	{
 		generateNest();
 	}
 	
 	application->surfaceCam->update(dt);
 	
 	// Picking
 // Pick!!!
 	glm::ivec2 mousePosition = application->mouse->getCurrentPosition();
 	mousePosition.y = application->height - mousePosition.y;
 	Vector4 viewport(0.0f, 0.0f, application->width, application->height);
 	Vector3 mouseNear = application->camera.unproject(Vector3(mousePosition.x, mousePosition.y, 0.0f), viewport);
 	Vector3 mouseFar = application->camera.unproject(Vector3(mousePosition.x, mousePosition.y, 1.0f), viewport);
 	
 	Ray pickingRay;
 	pickingRay.origin = mouseNear;
 	pickingRay.direction = glm::normalize(mouseFar - mouseNear);
 	Vector3 pick;

 	
 	/*
 	if (dragging)
 	{
 		auto result = pickingRay.intersects(*terrain.getSurfaceMesh());
 		if (std::get<0>(result))
 		{
 			pick = pickingRay.extrapolate(std::get<1>(result));
 		}
 		else
 		{
 			Plane plane;
 			plane.set(Vector3(0, 1, 0), Vector3(0.0f));
 			auto result = pickingRay.intersects(plane);
 			pick = pickingRay.extrapolate(std::get<1>(result));
 		}
 		
 		Transform xf = Transform::getIdentity();
 		xf.translation = pick;
 		application->antModelInstance->setTransform(xf);
 		
 		if (!oldDragging)
 		{
 			dragStart = pick;
 		}
 		
 		dragEnd = pick;
 		
 		Vector3 dragMin;
 		dragMin.x = std::min(dragStart.x, dragEnd.x);
 		dragMin.y = std::min(dragStart.y, dragEnd.y);
 		dragMin.z = std::min(dragStart.z, dragEnd.z);
 		
 		Vector3 dragMax;
 		dragMax.x = std::max(dragStart.x, dragEnd.x);
 		dragMax.y = std::max(dragStart.y, dragEnd.y);
 		dragMax.z = std::max(dragStart.z, dragEnd.z);
 		
 		float halfWorldSize = worldSize * 0.5f;
 		application->clippingPlaneOffsets[0] = Vector3(dragMax.x, -halfWorldSize, 0.0f);
 		application->clippingPlaneOffsets[1] = Vector3(0.0f, -halfWorldSize, dragMin.z);
 		application->clippingPlaneOffsets[2] = Vector3(dragMin.x, -halfWorldSize, 0.0f);
 		application->clippingPlaneOffsets[3] = Vector3(0.0f, -halfWorldSize, dragMax.z);
 	}
 	*/
 	
 	
 	// Calculate clipping planes
 	
 	float halfWorldSize = worldSize * 0.5f;
 	
 	
 	
 	application->lineBatcher->getBatch()->update();
 	
 	// Perform tweening
 	application->tweener->update(dt);
 	
 	// Update UI
 	application->uiRootElement->update();
 	
 	// Clear to black
 	glClear(GL_DEPTH_BUFFER_BIT | GL_STENCIL_BUFFER_BIT);
 	
 	// Render background
 	application->renderer.render(application->bgScene);
 	
 	// Render scene
 	application->renderer.render(application->scene);
 	
 	// Form billboard batch for UI then render UI scene
 	application->uiBatcher->batch(application->uiBatch, application->uiRootElement);
 	application->renderer.render(application->uiScene);
 	
 	// Swap buffers
 	SDL_GL_SwapWindow(application->window);
 }

 void ExperimentState::exit()
 {
 	std::cout << "Exiting ExperimentState..." << std::endl;
 	application->inputManager->removeWindowObserver(this);
 }

 void ExperimentState::windowClosed()
 {
 	application->close(EXIT_SUCCESS);
 }

 void ExperimentState::windowResized(int width, int height)
 {
 	// Update application dimensions
 	application->width = width;
 	application->height = height;
 	if (application->fullscreen)
 	{
 		application->fullscreenWidth = width;
 		application->fullscreenHeight = height;
 	}
 	else
 	{
 		application->windowedWidth = width;
 		application->windowedHeight = height;
 	}
 	
 	// Setup default render target
 	application->defaultRenderTarget.width = application->width;
 	application->defaultRenderTarget.height = application->height;
 	
 	// UI camera
 	application->uiCamera.setOrthographic(0, application->width, application->height, 0, -1.0f, 1.0f);
 	
 	// 3D camera
 	application->camera.setPerspective(
 		glm::radians(25.0f),
 		(float)application->width / (float)application->height,
 		0.5f,
 		2000.0f);
 }

 void ExperimentState::mouseButtonPressed(int button, int x, int y)
 {
 	dragging = true;
 }

 void ExperimentState::mouseButtonReleased(int button, int x, int y)
 {
 	dragging = false;
 }
--- a/src/states/play-state.cpp
+++ b/src/states/play-state.cpp
@ -0,0 +1,50 @@
 /*
 * Copyright (C) 2017  Christopher J. Howard
 *
 * This file is part of Antkeeper Source Code.
 *
 * Antkeeper Source Code is free software: you can redistribute it and/or modify
 * it under the terms of the GNU General Public License as published by
 * the Free Software Foundation, either version 3 of the License, or
 * (at your option) any later version.
 *
 * Antkeeper Source Code is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with Antkeeper Source Code.  If not, see <http://www.gnu.org/licenses/>.
 */

 #include "play-state.hpp"
 #include "../application.hpp"

 PlayState::PlayState(Application* application):
 	ApplicationState(application)
 {}

 PlayState::~PlayState()
 {}

 void PlayState::enter()
 {
 	// Start fade-in
 	application->fadeInTween->start();
 }

 void PlayState::execute()
 {
 }

 void PlayState::exit()
 {
 }

 void PlayState::mouseButtonPressed(int button, int x, int y)
 {
 }

 void PlayState::mouseButtonReleased(int button, int x, int y)
 {
 }
--- a/src/states/experiment-state.hpp
+++ b/src/states/experiment-state.hpp
@ -17,43 +17,27 @@
 * along with Antkeeper Source Code.  If not, see <http://www.gnu.org/licenses/>.
 */

 #ifndef EXPERIMENT_STATE_HPP
 #define EXPERIMENT_STATE_HPP
 #ifndef PLAY_STATE_HPP
 #define PLAY_STATE_HPP

 #include "../application-state.hpp"
 #include "../input.hpp"
 #include "../debug.hpp"
 #include "../game/nest.hpp"
 #include "../game/terrain.hpp"

 #include <emergent/emergent.hpp>
 using namespace Emergent;

 class ExperimentState: public ApplicationState, public WindowObserver, public MouseButtonObserver
 class PlayState: public ApplicationState, public MouseButtonObserver
 {
 public:
 	ExperimentState(Application* application);
 	virtual ~ExperimentState();
 	PlayState(Application* application);
 	virtual ~PlayState();
 	
 	virtual void enter();
 	virtual void execute();
 	virtual void exit();
 	
 	virtual void windowClosed();
 	virtual void windowResized(int width, int height);
 	virtual void mouseButtonPressed(int button, int x, int y);
 	virtual void mouseButtonReleased(int button, int x, int y);
 	
 	void generateNest();
 	
 private:
 	Timer timer;	
 	Nest nest;
 	Terrain terrain;
 	bool dragging;
 	bool oldDragging;
 	Vector3 dragStart;
 	Vector3 dragEnd;
 };

 #endif // EXPERIMENT_STATE_HPP
 #endif // PLAY_STATE_HPP
--- a/src/states/title-state.cpp
+++ b/src/states/title-state.cpp
@ -156,6 +156,8 @@ void TitleState::execute()
 		{
 			application->titleImage->setVisible(true);
 			application->titleFadeInTween->start();
 			application->titleScreenInfoContainer->setVisible(true);
 			application->copyrightFadeInTween->start();
 		}
 		
 		if (stateTime >= pressAnyKeyDelay && !application->anyKeyLabel->isVisible())
@ -206,6 +208,9 @@ void TitleState::execute()
 					application->titleImage->setTintColor(Vector4(1.0f));
 					application->anyKeyFadeInTween->start();
 					application->anyKeyLabel->setVisible(true);
 					application->copyrightFadeInTween->stop();
 					application->titleScreenInfoContainer->setVisible(true);
 					application->titleScreenInfoContainer->setTintColor(Vector4(0.0f, 0.0f, 0.0f, 0.5f));
 				}
 				else if (substate == 1)
 				{
@ -216,6 +221,8 @@ void TitleState::execute()
 					application->anyKeyFadeInTween->stop();
 					application->anyKeyFadeOutTween->stop();
 					application->anyKeyLabel->setVisible(false);
 					application->copyrightFadeInTween->stop();
 					application->copyrightFadeOutTween->start();
 					
 					application->antHillZoomInTween->start();
 					
@ -231,6 +238,10 @@ void TitleState::execute()

 void TitleState::exit()
 {
 	application->titleImage->setVisible(false);
 	application->anyKeyLabel->setVisible(false);
 	application->titleScreenInfoContainer->setVisible(false);
 	
 	// Remove objects from scene
 	application->defaultLayer->removeObject(&application->antHillModelInstance);