OpenVulkano/examples/ExampleApps/TextExampleApp.cpp

/*
 * This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at https://mozilla.org/MPL/2.0/.
 */

#include "TextExampleApp.hpp"
#include "Scene/Scene.hpp"
#include "Scene/Shader/Shader.hpp"
#include "Scene/Geometry.hpp"
#include "Scene/TextDrawable.hpp"
#include "Scene/GeometryFactory.hpp"
#include "Scene/Material.hpp"
#include "Scene/Vertex.hpp"
#include "Scene/SimpleDrawable.hpp"
#include "Scene/UI/PerformanceInfo.hpp"
#include "Scene/UniformBuffer.hpp"
#include "Input/InputManager.hpp"
#include "Host/GraphicsAppManager.hpp"
#include "Host/GLFW/WindowGLFW.hpp"
#include "Host/ResourceLoader.hpp"
#include "Math/Math.hpp"
#include "Base/EngineConfiguration.hpp"
#include "Controller/FreeCamCameraController.hpp"
#include "Image/ImageLoaderPng.hpp"
#include "Scene/FontAtlasGenerator.hpp"
#include "Scene/IFontAtlasGenerator.hpp"
#include <filesystem>

#ifdef _WIN32
	#undef TRANSPARENT
#endif

namespace OpenVulkano
{
	using namespace Scene;
	using namespace Input;
	using namespace Math;
	namespace fs = std::filesystem;

	class TextExampleAppImpl final : public TextExampleApp
	{
	public:

		void Init() override
		{
			auto engineConfig = OpenVulkano::EngineConfiguration::GetEngineConfiguration();
			engineConfig->SetNumThreads(4);
			engineConfig->SetPreferFramebufferFormatSRGB(false);
			
			std::srand(1); // Fix seed for random numbers
			m_scene.Init();
			m_cam.Init(70, 16, 9, 0.1f, 100);
			m_scene.SetCamera(&m_cam);

			static std::vector<std::pair<std::string, TextConfig>> texts;
			texts.push_back(std::make_pair("ABab?.^{}_cdFGETG123)(", TextConfig()));
			texts.push_back(std::make_pair("Hello, World!", TextConfig()));
			texts.push_back(std::make_pair("\u0410\u0411\u0412\u041F", TextConfig()));
			texts.push_back(std::make_pair("Unsupported glyphs \u1E30\u1E31 are coming", TextConfig()));
			texts.push_back(std::make_pair("This is first line\nSecond gg line\nThird G line", TextConfig()));
			texts[0].second.applyBorder = true;
			texts[1].second.backgroundColor.a = 1;

			const int N = texts.size();
			auto& resourceLoader = ResourceLoader::GetInstance();
			const std::string fontPath = resourceLoader.GetResourcePath("Roboto-Regular.ttf");
			m_nodesPool.resize(N * 2);
			m_drawablesPool.resize(N * 2);
		
#ifdef MSDFGEN_AVAILABLE
			msdf_atlas::Charset charset = SdfFontAtlasGenerator::LoadAllGlyphs(fontPath);
			m_atlasGenerator.GenerateAtlas(fontPath, charset);
			m_msdfAtlasGenerator.GenerateAtlas(fontPath, charset);
#else 
			auto sdfMetadataInfo = resourceLoader.GetResource("sdf_atlas_packed");
			auto msdfMetadataInfo = resourceLoader.GetResource("msdf_atlas_packed.png");
#endif

			for (int i = 0; i < texts.size() * 2; i++)
			{
				int textIdx = i % texts.size();
				TextDrawable* t = nullptr;
#ifdef MSDFGEN_AVAILABLE
				if (i < texts.size()) 
				{ 
					t = new TextDrawable(&m_atlasGenerator, texts[textIdx].second); 
					t->SetShader(&TextDrawable::GetSdfDefaultShader());
				}
				else
				{ 
					t = new TextDrawable(&m_msdfAtlasGenerator, texts[textIdx].second); 
					t->SetShader(&TextDrawable::GetMsdfDefaultShader());
				}
#else
				if (i < texts.size()) 
				{
					t = new TextDrawable(sdfMetadataInfo, texts[textIdx].second); 
					t->SetShader(&TextDrawable::GetSdfDefaultShader());
				}
				else 
				{
					t = new TextDrawable(msdfMetadataInfo, texts[textIdx].second); 
					t->SetShader(&TextDrawable::GetMsdfDefaultShader());
				}
				// OR use separate texture + metadata file
				//auto metadataInfo = resourceLoader.GetResource("atlas_metadata");
				//auto data = resourceLoader.GetResource("roboto-regular-atlas.png");
				//Image::ImageLoaderPng loader;
				//static auto image = loader.loadData(reinterpret_cast<uint8_t*>(data.Data()), data.Size());
				//static Texture tex;
				//tex.resolution = image->resolution;
				//tex.textureBuffer = image->data.Data();
				//tex.format = image->dataFormat;
				//tex.size = image->data.Size(); // 1 channel
				//TextDrawable* t = new TextDrawable(metadataInfo, &tex, texts[i].second);
#endif // MSDFGEN_AVAILABLE 
				t->GenerateText(texts[textIdx].first);
				m_drawablesPool[i] = t;
				m_nodesPool[i].Init();
				m_nodesPool[i].SetMatrix(Math::Utils::translate(glm::mat4x4(1.f), Vector3f((i < texts.size() ? -5 : 15), 2 - textIdx * 2, 0)));
				m_nodesPool[i].AddDrawable(m_drawablesPool[i]);
				m_scene.GetRoot()->AddChild(&m_nodesPool[i]);
			}
			GetGraphicsAppManager()->GetRenderer()->SetScene(&m_scene);
			m_camController.Init(&m_cam);
			m_camController.SetDefaultKeybindings();
			m_camController.SetPosition({ 10, 0, 15 });
			m_camController.SetBoostFactor(5);
			
			std::shared_ptr<OpenVulkano::Scene::UI::PerformanceInfo> m_perfInfo =
			std::make_shared<OpenVulkano::Scene::UI::PerformanceInfo>();
			m_ui.AddElement(m_perfInfo);
			GetGraphicsAppManager()->GetRenderer()->SetActiveUi(&m_ui);
		}

		void Tick() override
		{
			m_camController.Tick();
		}

		void Close() override
		{
			for (SimpleDrawable* d: m_drawablesPool)
			{
				d->Close();
				delete d;
			}
		}

	private:
		OpenVulkano::Scene::Scene m_scene;
		PerspectiveCamera m_cam;
		OpenVulkano::FreeCamCameraController m_camController;
#ifdef MSDFGEN_AVAILABLE
		SdfFontAtlasGenerator m_atlasGenerator;
		MsdfFontAtlasGenerator m_msdfAtlasGenerator;
#endif
		std::vector<SimpleDrawable*> m_drawablesPool;
		std::vector<Node> m_nodesPool;
		Vector3f_SIMD m_position = { 0, 0, -10 };
		OpenVulkano::Scene::UI::SimpleUi m_ui;
		std::shared_ptr<OpenVulkano::Scene::UI::PerformanceInfo> m_perfInfo;
	};

	IGraphicsApp* TextExampleApp::Create() { return new TextExampleAppImpl(); }

	std::unique_ptr<IGraphicsApp> TextExampleApp::CreateUnique()
	{ 
		return std::make_unique<TextExampleAppImpl>();
	}

}

#pragma clang diagnostic pop
#pragma clang diagnostic pop