ES-DE/es-core/src/renderers/Renderer.cpp

//
//  Renderer.cpp
//
//  General rendering functions.
//

#include "renderers/Renderer.h"

#include "math/Transform4x4f.h"
#include "math/Vector2i.h"
#include "resources/ResourceManager.h"
#include "ImageIO.h"
#include "Log.h"
#include "Settings.h"

#include <SDL2/SDL.h>
#include <stack>

namespace Renderer
{
    static std::stack<Rect> clipStack;
    static SDL_Window* sdlWindow = nullptr;
    static int windowWidth = 0;
    static int windowHeight = 0;
    static int screenWidth = 0;
    static int screenHeight = 0;
    static int screenOffsetX = 0;
    static int screenOffsetY = 0;
    static int screenRotate = 0;
    static bool initialCursorState = 1;

    static void setIcon()
    {
        size_t width = 0;
        size_t height = 0;
        ResourceData resData = ResourceManager::getInstance()->
                getFileData(":/graphics/window_icon_256.png");
        std::vector<unsigned char> rawData =
                ImageIO::loadFromMemoryRGBA32(resData.ptr.get(), resData.length, width, height);

        if (!rawData.empty()) {
            ImageIO::flipPixelsVert(rawData.data(), width, height);

            #if SDL_BYTEORDER == SDL_BIG_ENDIAN
            unsigned int rmask = 0xFF000000;
            unsigned int gmask = 0x00FF0000;
            unsigned int bmask = 0x0000FF00;
            unsigned int amask = 0x000000FF;
            #else
            unsigned int rmask = 0x000000FF;
            unsigned int gmask = 0x0000FF00;
            unsigned int bmask = 0x00FF0000;
            unsigned int amask = 0xFF000000;
            #endif

            // Try creating SDL surface from logo data.
            SDL_Surface* logoSurface = SDL_CreateRGBSurfaceFrom((void*)rawData.data(),
                    (int)width, (int)height, 32, (int)(width * 4), rmask, gmask, bmask, amask);

            if (logoSurface != nullptr) {
                SDL_SetWindowIcon(sdlWindow, logoSurface);
                SDL_FreeSurface(logoSurface);
            }
        }
    }

    static bool createWindow()
    {
        LOG(LogInfo) << "Creating window...";

        if (SDL_Init(SDL_INIT_VIDEO) != 0) {
            LOG(LogError) << "Error initializing SDL!\n	" << SDL_GetError();
            return false;
        }

        initialCursorState = (SDL_ShowCursor(0) != 0);

        SDL_DisplayMode dispMode;
        SDL_GetDesktopDisplayMode(0, &dispMode);
        windowWidth = Settings::getInstance()->getInt("WindowWidth") ?
                Settings::getInstance()->getInt("WindowWidth") : dispMode.w;
        windowHeight = Settings::getInstance()->getInt("WindowHeight") ?
                Settings::getInstance()->getInt("WindowHeight")  : dispMode.h;
        screenWidth = Settings::getInstance()->getInt("ScreenWidth") ?
                Settings::getInstance()->getInt("ScreenWidth")   : windowWidth;
        screenHeight = Settings::getInstance()->getInt("ScreenHeight") ?
                Settings::getInstance()->getInt("ScreenHeight")  : windowHeight;
        screenOffsetX = Settings::getInstance()->getInt("ScreenOffsetX") ?
                Settings::getInstance()->getInt("ScreenOffsetX") : 0;
        screenOffsetY = Settings::getInstance()->getInt("ScreenOffsetY") ?
                Settings::getInstance()->getInt("ScreenOffsetY") : 0;
        screenRotate = Settings::getInstance()->getInt("ScreenRotate") ?
                Settings::getInstance()->getInt("ScreenRotate")  : 0;

        // Prevent ES window from minimizing when switching windows (when launching
        // games or when manually switching windows using task switcher).
        SDL_SetHint(SDL_HINT_VIDEO_MINIMIZE_ON_FOCUS_LOSS, "0");

        setupWindow();

        unsigned int windowFlags;

        #if defined(_WIN64)
        // For Windows, always set the mode to windowed, as full screen mode seems to
        // behave quite erratic. There may be a proper fix for this, but for now windowed
        // mode seems to behave well and it's almost completely seamless, especially with
        // a hidden taskbar.
        windowFlags = getWindowFlags();
        #else
        if (Settings::getInstance()->getBool("Windowed"))
            windowFlags = getWindowFlags();
        #if defined(__APPLE__)
        else
            // This seems to be the best fullscreen mode on macOS as the taskbar switcher
            // works etc. while still filling the entire screen with the application window.
            windowFlags = SDL_WINDOW_FULLSCREEN_DESKTOP | getWindowFlags();
        #else
        else if (Settings::getInstance()->getString("FullscreenMode") == "borderless")
            windowFlags = SDL_WINDOW_BORDERLESS | SDL_WINDOW_ALWAYS_ON_TOP | getWindowFlags();
        else
            windowFlags = SDL_WINDOW_FULLSCREEN | getWindowFlags();
        #endif
        #endif

        if ((sdlWindow = SDL_CreateWindow("EmulationStation", SDL_WINDOWPOS_UNDEFINED,
                SDL_WINDOWPOS_UNDEFINED, windowWidth, windowHeight, windowFlags)) == nullptr) {
            LOG(LogError) << "Couldn't create SDL window. " << SDL_GetError();
            return false;
        }

        LOG(LogInfo) << "Created window successfully.";

        createContext();
        setIcon();
        setSwapInterval();

        return true;
    }

    static void destroyWindow()
    {
        destroyContext();
        SDL_DestroyWindow(sdlWindow);

        sdlWindow = nullptr;

        SDL_ShowCursor(initialCursorState);
        SDL_Quit();
    }

    bool init()
    {
        if (!createWindow())
            return false;

        Transform4x4f projection = Transform4x4f::Identity();
        Rect viewport = Rect(0, 0, 0, 0);

        switch (screenRotate) {
            case 0: {
                viewport.x = screenOffsetX;
                viewport.y = screenOffsetY;
                viewport.w = screenWidth;
                viewport.h = screenHeight;
                projection.orthoProjection(0, screenWidth, screenHeight, 0, -1.0, 1.0);
            }
            break;
            case 1: {
                viewport.x = windowWidth - screenOffsetY - screenHeight;
                viewport.y = screenOffsetX;
                viewport.w = screenHeight;
                viewport.h = screenWidth;
                projection.orthoProjection(0, screenHeight, screenWidth, 0, -1.0, 1.0);
                projection.rotate((float)ES_DEG_TO_RAD(90), {0, 0, 1});
                projection.translate({0, screenHeight * -1.0f, 0});
            }
            break;
            case 2: {
                viewport.x = windowWidth  - screenOffsetX - screenWidth;
                viewport.y = windowHeight - screenOffsetY - screenHeight;
                viewport.w = screenWidth;
                viewport.h = screenHeight;
                projection.orthoProjection(0, screenWidth, screenHeight, 0, -1.0, 1.0);
                projection.rotate((float)ES_DEG_TO_RAD(180), {0, 0, 1});
                projection.translate({screenWidth * -1.0f, screenHeight * -1.0f, 0});
            }
            break;
            case 3: {
                viewport.x = screenOffsetY;
                viewport.y = windowHeight - screenOffsetX - screenWidth;
                viewport.w = screenHeight;
                viewport.h = screenWidth;
                projection.orthoProjection(0, screenHeight, screenWidth, 0, -1.0, 1.0);
                projection.rotate((float)ES_DEG_TO_RAD(270), {0, 0, 1});
                projection.translate({screenWidth * -1.0f, 0, 0});
            }
            break;
        }

        setViewport(viewport);
        setProjection(projection);
        swapBuffers();

        return true;
    }

    void deinit()
    {
        destroyWindow();
    }

    void pushClipRect(const Vector2i& _pos, const Vector2i& _size)
    {
        Rect box(_pos.x(), _pos.y(), _size.x(), _size.y());

        if (box.w == 0)
            box.w = screenWidth - box.x;
        if (box.h == 0)
            box.h = screenHeight - box.y;

        switch (screenRotate) {
            case 0: {
                box = Rect(screenOffsetX + box.x, screenOffsetY + box.y, box.w, box.h);
            }
            break;
            case 1: {
                box = Rect(windowWidth - screenOffsetY - box.y - box.h, screenOffsetX +
                        box.x, box.h, box.w);
            }
            break;
            case 2: {
                box = Rect(windowWidth - screenOffsetX - box.x - box.w, windowHeight -
                        screenOffsetY - box.y - box.h, box.w, box.h);
            }
            break;
            case 3: {
                box = Rect(screenOffsetY + box.y, windowHeight - screenOffsetX - box.x -
                        box.w, box.h, box.w);
            }
            break;
        }

        // Make sure the box fits within clipStack.top(), and clip further accordingly.
        if (clipStack.size()) {
            const Rect& top = clipStack.top();
            if ( top.x >  box.x) box.x = top.x;
            if ( top.y >  box.y) box.y = top.y;
            if ((top.x + top.w) < (box.x + box.w)) box.w = (top.x + top.w) - box.x;
            if ((top.y + top.h) < (box.y + box.h)) box.h = (top.y + top.h) - box.y;
        }

        if (box.w < 0) box.w = 0;
        if (box.h < 0) box.h = 0;

        clipStack.push(box);

        setScissor(box);
    }

    void popClipRect()
    {
        if (clipStack.empty()) {
            LOG(LogError) << "Tried to popClipRect while the stack was empty!";
            return;
        }

        clipStack.pop();

        if (clipStack.empty())
            setScissor(Rect(0, 0, 0, 0));
        else
            setScissor(clipStack.top());
    }

    void drawRect(
            const float _x,
            const float _y,
            const float _w,
            const float _h,
            const unsigned int _color,
            const unsigned int _colorEnd,
            bool horizontalGradient,
            const Blend::Factor _srcBlendFactor,
            const Blend::Factor _dstBlendFactor)
    {
        const unsigned int color = convertColor(_color);
        const unsigned int colorEnd = convertColor(_colorEnd);
        Vertex vertices[4];

        vertices[0] = { { _x     ,_y      }, { 0.0f, 0.0f }, color };
        vertices[1] = { { _x     ,_y + _h }, { 0.0f, 0.0f }, horizontalGradient ? colorEnd : color };
        vertices[2] = { { _x + _w,_y      }, { 0.0f, 0.0f }, horizontalGradient ? color : colorEnd };
        vertices[3] = { { _x + _w,_y + _h }, { 0.0f, 0.0f }, colorEnd };

        // Round vertices.
        for (int i = 0; i < 4; ++i)
            vertices[i].pos.round();

        bindTexture(0);
        drawTriangleStrips(vertices, 4, _srcBlendFactor, _dstBlendFactor);
    }

    SDL_Window* getSDLWindow() { return sdlWindow; }
    int getWindowWidth() { return windowWidth; }
    int getWindowHeight() { return windowHeight; }
    int getScreenWidth() { return screenWidth; }
    int getScreenHeight() { return screenHeight; }
    int getScreenOffsetX() { return screenOffsetX; }
    int getScreenOffsetY() { return screenOffsetY; }
    int getScreenRotate() { return screenRotate; }

} // Renderer::