#include "boo/IWindow.hpp" #include "boo/IApplication.hpp" #include "boo/IGraphicsContext.hpp" #include "boo/audiodev/IAudioVoiceEngine.hpp" #include "boo/graphicsdev/GL.hpp" #include "boo/graphicsdev/glew.h" #include "lib/Common.hpp" #if BOO_HAS_VULKAN #include "boo/graphicsdev/Vulkan.hpp" #include #endif #include #include #include #include #include #include #include #include #include #include #include #define XK_MISCELLANY #define XK_XKB_KEYS #define XK_LATIN1 #include #include #include #include #include #include #include "lib/x11/XlibCommon.hpp" #define REF_DPMM 3.78138 #define FS_ATOM "_NET_WM_STATE_FULLSCREEN" #define MWM_HINTS_FUNCTIONS (1L << 0) #define MWM_HINTS_DECORATIONS (1L << 1) #define MWM_DECOR_BORDER (1L << 1) #define MWM_DECOR_RESIZEH (1L << 2) #define MWM_DECOR_TITLE (1L << 3) #define MWM_DECOR_MENU (1L << 4) #define MWM_DECOR_MINIMIZE (1L << 5) #define MWM_DECOR_MAXIMIZE (1L << 6) #define MWM_FUNC_RESIZE (1L << 1) #define MWM_FUNC_MOVE (1L << 2) #define MWM_FUNC_MINIMIZE (1L << 3) #define MWM_FUNC_MAXIMIZE (1L << 4) #define MWM_FUNC_CLOSE (1L << 5) #undef None #undef False #undef True using glXCreateContextAttribsARBProc = GLXContext (*)(Display*, GLXFBConfig, GLXContext, Bool, const int*); static glXCreateContextAttribsARBProc glXCreateContextAttribsARB = 0; static bool s_glxError; static int ctxErrorHandler(Display* dpy, XErrorEvent* ev) { s_glxError = true; return 0; } static const int ContextAttribList[7][7] = { {GLX_CONTEXT_MAJOR_VERSION_ARB, 4, GLX_CONTEXT_MINOR_VERSION_ARB, 5, GLX_CONTEXT_PROFILE_MASK_ARB, GLX_CONTEXT_CORE_PROFILE_BIT_ARB, 0}, {GLX_CONTEXT_MAJOR_VERSION_ARB, 4, GLX_CONTEXT_MINOR_VERSION_ARB, 4, GLX_CONTEXT_PROFILE_MASK_ARB, GLX_CONTEXT_CORE_PROFILE_BIT_ARB, 0}, {GLX_CONTEXT_MAJOR_VERSION_ARB, 4, GLX_CONTEXT_MINOR_VERSION_ARB, 3, GLX_CONTEXT_PROFILE_MASK_ARB, GLX_CONTEXT_CORE_PROFILE_BIT_ARB, 0}, {GLX_CONTEXT_MAJOR_VERSION_ARB, 4, GLX_CONTEXT_MINOR_VERSION_ARB, 2, GLX_CONTEXT_PROFILE_MASK_ARB, GLX_CONTEXT_CORE_PROFILE_BIT_ARB, 0}, {GLX_CONTEXT_MAJOR_VERSION_ARB, 4, GLX_CONTEXT_MINOR_VERSION_ARB, 1, GLX_CONTEXT_PROFILE_MASK_ARB, GLX_CONTEXT_CORE_PROFILE_BIT_ARB, 0}, {GLX_CONTEXT_MAJOR_VERSION_ARB, 4, GLX_CONTEXT_MINOR_VERSION_ARB, 0, GLX_CONTEXT_PROFILE_MASK_ARB, GLX_CONTEXT_CORE_PROFILE_BIT_ARB, 0}, {GLX_CONTEXT_MAJOR_VERSION_ARB, 3, GLX_CONTEXT_MINOR_VERSION_ARB, 3, GLX_CONTEXT_PROFILE_MASK_ARB, GLX_CONTEXT_CORE_PROFILE_BIT_ARB, 0}, }; extern "C" const uint8_t MAINICON_NETWM[]; extern "C" const size_t MAINICON_NETWM_SZ; namespace boo { static logvisor::Module Log("boo::WindowXlib"); std::unique_ptr _NewGLCommandQueue(IGraphicsContext* parent, GLContext* glCtx); std::unique_ptr _NewGLDataFactory(IGraphicsContext* parent, GLContext* glCtx); #if BOO_HAS_VULKAN std::unique_ptr _NewVulkanCommandQueue(VulkanContext* ctx, VulkanContext::Window* windowCtx, IGraphicsContext* parent); std::unique_ptr _NewVulkanDataFactory(IGraphicsContext* parent, VulkanContext* ctx); #endif void _XlibUpdateLastGlxCtx(GLXContext lastGlxCtx); void GLXExtensionCheck(); void GLXEnableVSync(Display* disp, GLXWindow drawable); extern int XINPUT_OPCODE; static std::string translateUTF8(XKeyEvent* ev, XIC xIC) { char chs[512]; KeySym ks; Status stat; int len = Xutf8LookupString(xIC, ev, chs, 512, &ks, &stat); if (len > 1 && (stat == XLookupChars || stat == XLookupBoth)) return std::string(chs, len); return std::string(); } static char translateKeysym(XKeyEvent* ev, ESpecialKey& specialSym, EModifierKey& modifierSym) { KeySym sym = XLookupKeysym(ev, 0); specialSym = ESpecialKey::None; modifierSym = EModifierKey::None; if (sym >= XK_F1 && sym <= XK_F12) specialSym = ESpecialKey(int(ESpecialKey::F1) + sym - XK_F1); else if (sym == XK_Escape) specialSym = ESpecialKey::Esc; else if (sym == XK_Return) specialSym = ESpecialKey::Enter; else if (sym == XK_BackSpace) specialSym = ESpecialKey::Backspace; else if (sym == XK_Insert) specialSym = ESpecialKey::Insert; else if (sym == XK_Delete) specialSym = ESpecialKey::Delete; else if (sym == XK_Home) specialSym = ESpecialKey::Home; else if (sym == XK_End) specialSym = ESpecialKey::End; else if (sym == XK_Page_Up) specialSym = ESpecialKey::PgUp; else if (sym == XK_Page_Down) specialSym = ESpecialKey::PgDown; else if (sym == XK_Left) specialSym = ESpecialKey::Left; else if (sym == XK_Right) specialSym = ESpecialKey::Right; else if (sym == XK_Up) specialSym = ESpecialKey::Up; else if (sym == XK_Down) specialSym = ESpecialKey::Down; else if (sym == XK_Shift_L || sym == XK_Shift_R) modifierSym = EModifierKey::Shift; else if (sym == XK_Control_L || sym == XK_Control_R) modifierSym = EModifierKey::Ctrl; else if (sym == XK_Alt_L || sym == XK_Alt_R) modifierSym = EModifierKey::Alt; else { char ch = 0; KeySym ks; XLookupString(ev, (char*)&ch, 1, &ks, nullptr); return ch; } return 0; } static EModifierKey translateModifiers(unsigned state) { EModifierKey retval = EModifierKey::None; if (state & ShiftMask) retval |= EModifierKey::Shift; if (state & ControlMask) retval |= EModifierKey::Ctrl; if (state & Mod1Mask) retval |= EModifierKey::Alt; return retval; } static EMouseButton translateButton(unsigned detail) { switch (detail) { case 1: return EMouseButton::Primary; case 3: return EMouseButton::Secondary; case 2: return EMouseButton::Middle; case 8: return EMouseButton::Aux1; case 9: return EMouseButton::Aux2; default: break; } return EMouseButton::None; } struct XlibAtoms { Atom m_wmProtocols = 0; Atom m_wmDeleteWindow = 0; Atom m_netSupported = 0; Atom m_netwmName = 0; Atom m_netwmPid = 0; Atom m_netwmIcon = 0; Atom m_netwmIconName = 0; Atom m_netwmState = 0; Atom m_netwmStateFullscreen = 0; Atom m_netwmStateAdd = 0; Atom m_netwmStateRemove = 0; Atom m_motifWmHints = 0; Atom m_targets = 0; Atom m_clipboard = 0; Atom m_clipdata = 0; Atom m_utf8String = 0; Atom m_imagePng = 0; XlibAtoms(Display* disp) { m_wmProtocols = XInternAtom(disp, "WM_PROTOCOLS", true); m_wmDeleteWindow = XInternAtom(disp, "WM_DELETE_WINDOW", true); m_netSupported = XInternAtom(disp, "_NET_SUPPORTED", true); m_netwmName = XInternAtom(disp, "_NET_WM_NAME", false); m_netwmPid = XInternAtom(disp, "_NET_WM_PID", false); m_netwmIcon = XInternAtom(disp, "_NET_WM_ICON", false); m_netwmIconName = XInternAtom(disp, "_NET_WM_ICON_NAME", false); m_netwmState = XInternAtom(disp, "_NET_WM_STATE", false); m_netwmStateFullscreen = XInternAtom(disp, "_NET_WM_STATE_FULLSCREEN", false); m_netwmStateAdd = XInternAtom(disp, "_NET_WM_STATE_ADD", false); m_netwmStateRemove = XInternAtom(disp, "_NET_WM_STATE_REMOVE", false); m_motifWmHints = XInternAtom(disp, "_MOTIF_WM_HINTS", true); m_targets = XInternAtom(disp, "TARGETS", false); m_clipboard = XInternAtom(disp, "CLIPBOARD", false); m_clipdata = XInternAtom(disp, "CLIPDATA", false); m_utf8String = XInternAtom(disp, "UTF8_STRING", false); m_imagePng = XInternAtom(disp, "image/png", false); } }; static XlibAtoms* S_ATOMS = nullptr; static Atom GetClipboardTypeAtom(EClipboardType t) { switch (t) { case EClipboardType::String: return XA_STRING; case EClipboardType::UTF8String: return S_ATOMS->m_utf8String; case EClipboardType::PNGImage: return S_ATOMS->m_imagePng; default: return 0; } } static void genFrameDefault(Screen* screen, int& xOut, int& yOut, int& wOut, int& hOut) { float width = screen->width * 2.0 / 3.0; float height = screen->height * 2.0 / 3.0; xOut = (screen->width - width) / 2.0; yOut = (screen->height - height) / 2.0; wOut = width; hOut = height; } static void genFrameDefault(XRRMonitorInfo* screen, int& xOut, int& yOut, int& wOut, int& hOut) { float width = screen->width * 2.0 / 3.0; float height = screen->height * 2.0 / 3.0; xOut = (screen->width - width) / 2.0 + screen->x; yOut = (screen->height - height) / 2.0 + screen->y; wOut = width; hOut = height; } struct GraphicsContextXlib : IGraphicsContext { EGraphicsAPI m_api; EPixelFormat m_pf; uint32_t m_drawSamples; IWindow* m_parentWindow; GLContext* m_glCtx; Display* m_xDisp; GraphicsContextXlib(EGraphicsAPI api, EPixelFormat pf, IWindow* parentWindow, Display* disp, GLContext* glCtx) : m_api(api), m_pf(pf), m_parentWindow(parentWindow), m_glCtx(glCtx), m_xDisp(disp) {} virtual void destroy() = 0; virtual void resized(const SWindowRect& rect) = 0; }; struct GraphicsContextXlibGLX : GraphicsContextXlib { GLXContext m_lastCtx = 0; GLXFBConfig m_fbconfig = 0; int m_visualid = 0; int m_attribIdx = 0; GLXWindow m_glxWindow = 0; GLXContext m_glxCtx = 0; std::unique_ptr m_dataFactory; std::unique_ptr m_commandQueue; GLXContext m_mainCtx = 0; GLXContext m_loadCtx = 0; public: IWindowCallback* m_callback; GraphicsContextXlibGLX(EGraphicsAPI api, IWindow* parentWindow, Display* display, int defaultScreen, GLXContext lastCtx, uint32_t& visualIdOut, GLContext* glCtx) : GraphicsContextXlib(api, glCtx->m_deepColor ? EPixelFormat::RGBA16 : EPixelFormat::RGBA8, parentWindow, display, glCtx) , m_lastCtx(lastCtx) { m_dataFactory = _NewGLDataFactory(this, m_glCtx); /* Query framebuffer configurations */ GLXFBConfig* fbConfigs = nullptr; int numFBConfigs = 0; fbConfigs = glXGetFBConfigs(display, defaultScreen, &numFBConfigs); if (!fbConfigs || numFBConfigs == 0) { Log.report(logvisor::Fatal, fmt("glXGetFBConfigs failed")); return; } for (int i = 0; i < numFBConfigs; ++i) { GLXFBConfig config = fbConfigs[i]; int visualId, depthSize, colorSize, doubleBuffer; glXGetFBConfigAttrib(display, config, GLX_VISUAL_ID, &visualId); glXGetFBConfigAttrib(display, config, GLX_DEPTH_SIZE, &depthSize); glXGetFBConfigAttrib(display, config, GLX_BUFFER_SIZE, &colorSize); glXGetFBConfigAttrib(display, config, GLX_DOUBLEBUFFER, &doubleBuffer); /* Double-buffer only */ if (!doubleBuffer || !visualId) continue; if (m_pf == EPixelFormat::RGBA8 && colorSize >= 32) { m_fbconfig = config; m_visualid = visualId; break; } else if (m_pf == EPixelFormat::RGBA16) { if (colorSize >= 64) { m_fbconfig = config; m_visualid = visualId; break; } else if (!m_visualid && colorSize >= 32) { m_fbconfig = config; m_visualid = visualId; } } else if (m_pf == EPixelFormat::RGBA8_Z24 && colorSize >= 32 && depthSize >= 24) { m_fbconfig = config; m_visualid = visualId; break; } else if (m_pf == EPixelFormat::RGBAF32 && colorSize >= 128) { m_fbconfig = config; m_visualid = visualId; break; } else if (m_pf == EPixelFormat::RGBAF32_Z24 && colorSize >= 128 && depthSize >= 24) { m_fbconfig = config; m_visualid = visualId; break; } } XFree(fbConfigs); if (!m_fbconfig) { Log.report(logvisor::Fatal, fmt("unable to find suitable pixel format")); return; } visualIdOut = m_visualid; } void destroy() override { if (m_glxCtx) { glXDestroyContext(m_xDisp, m_glxCtx); m_glxCtx = nullptr; } if (m_glxWindow) { glXDestroyWindow(m_xDisp, m_glxWindow); m_glxWindow = 0; } if (m_loadCtx) { glXDestroyContext(m_xDisp, m_loadCtx); m_loadCtx = nullptr; } } ~GraphicsContextXlibGLX() override { destroy(); } void resized(const SWindowRect& rect) override {} void _setCallback(IWindowCallback* cb) override { m_callback = cb; } EGraphicsAPI getAPI() const override { return m_api; } EPixelFormat getPixelFormat() const override { return m_pf; } void setPixelFormat(EPixelFormat pf) override { if (pf > EPixelFormat::RGBAF32_Z24) return; m_pf = pf; } bool initializeContext(void*) override { if (!glXCreateContextAttribsARB) { glXCreateContextAttribsARB = (glXCreateContextAttribsARBProc)glXGetProcAddressARB((const GLubyte*)"glXCreateContextAttribsARB"); if (!glXCreateContextAttribsARB) Log.report(logvisor::Fatal, fmt("unable to resolve glXCreateContextAttribsARB")); } s_glxError = false; XErrorHandler oldHandler = XSetErrorHandler(ctxErrorHandler); for (m_attribIdx = 0; m_attribIdx < int(std::extent_v); ++m_attribIdx) { m_glxCtx = glXCreateContextAttribsARB(m_xDisp, m_fbconfig, m_lastCtx, true, ContextAttribList[m_attribIdx]); if (m_glxCtx) break; } XSetErrorHandler(oldHandler); if (!m_glxCtx) Log.report(logvisor::Fatal, fmt("unable to make new GLX context")); m_glxWindow = glXCreateWindow(m_xDisp, m_fbconfig, m_parentWindow->getPlatformHandle(), nullptr); if (!m_glxWindow) Log.report(logvisor::Fatal, fmt("unable to make new GLX window")); _XlibUpdateLastGlxCtx(m_glxCtx); if (!glXMakeCurrent(m_xDisp, DefaultRootWindow(m_xDisp), m_glxCtx)) Log.report(logvisor::Fatal, fmt("unable to make GLX context current")); if (glewInit() != GLEW_OK) Log.report(logvisor::Fatal, fmt("glewInit failed")); glXMakeCurrent(m_xDisp, 0, 0); XUnlockDisplay(m_xDisp); m_commandQueue = _NewGLCommandQueue(this, m_glCtx); m_commandQueue->startRenderer(); XLockDisplay(m_xDisp); return true; } void makeCurrent() override { XLockDisplay(m_xDisp); if (!glXMakeContextCurrent(m_xDisp, m_glxWindow, m_glxWindow, m_glxCtx)) Log.report(logvisor::Fatal, fmt("unable to make GLX context current")); XUnlockDisplay(m_xDisp); } void postInit() override { GLXExtensionCheck(); XLockDisplay(m_xDisp); GLXEnableVSync(m_xDisp, m_glxWindow); XUnlockDisplay(m_xDisp); } IGraphicsCommandQueue* getCommandQueue() override { return m_commandQueue.get(); } IGraphicsDataFactory* getDataFactory() override { return m_dataFactory.get(); } IGraphicsDataFactory* getMainContextDataFactory() override { XLockDisplay(m_xDisp); if (!m_mainCtx) { s_glxError = false; XErrorHandler oldHandler = XSetErrorHandler(ctxErrorHandler); m_mainCtx = glXCreateContextAttribsARB(m_xDisp, m_fbconfig, m_glxCtx, true, ContextAttribList[m_attribIdx]); XSetErrorHandler(oldHandler); if (!m_mainCtx) Log.report(logvisor::Fatal, fmt("unable to make main GLX context")); } if (!glXMakeContextCurrent(m_xDisp, m_glxWindow, m_glxWindow, m_mainCtx)) Log.report(logvisor::Fatal, fmt("unable to make main GLX context current")); XUnlockDisplay(m_xDisp); return getDataFactory(); } IGraphicsDataFactory* getLoadContextDataFactory() override { XLockDisplay(m_xDisp); if (!m_loadCtx) { s_glxError = false; XErrorHandler oldHandler = XSetErrorHandler(ctxErrorHandler); m_loadCtx = glXCreateContextAttribsARB(m_xDisp, m_fbconfig, m_glxCtx, true, ContextAttribList[m_attribIdx]); XSetErrorHandler(oldHandler); if (!m_loadCtx) Log.report(logvisor::Fatal, fmt("unable to make load GLX context")); } if (!glXMakeContextCurrent(m_xDisp, m_glxWindow, m_glxWindow, m_loadCtx)) Log.report(logvisor::Fatal, fmt("unable to make load GLX context current")); XUnlockDisplay(m_xDisp); return getDataFactory(); } void present() override { glXSwapBuffers(m_xDisp, m_glxWindow); } }; #if BOO_HAS_VULKAN struct GraphicsContextXlibVulkan : GraphicsContextXlib { xcb_connection_t* m_xcbConn; VulkanContext* m_ctx; VkSurfaceKHR m_surface = VK_NULL_HANDLE; VkFormat m_format = VK_FORMAT_UNDEFINED; VkColorSpaceKHR m_colorspace; GLXFBConfig m_fbconfig = 0; int m_visualid = 0; std::unique_ptr m_dataFactory; std::unique_ptr m_commandQueue; static void ThrowIfFailed(VkResult res) { if (res != VK_SUCCESS) Log.report(logvisor::Fatal, fmt("{}\n"), res); } public: IWindowCallback* m_callback; GraphicsContextXlibVulkan(IWindow* parentWindow, Display* display, xcb_connection_t* xcbConn, int defaultScreen, VulkanContext* ctx, uint32_t& visualIdOut, GLContext* glCtx) : GraphicsContextXlib(EGraphicsAPI::Vulkan, ctx->m_deepColor ? EPixelFormat::RGBA16 : EPixelFormat::RGBA8, parentWindow, display, glCtx) , m_xcbConn(xcbConn) , m_ctx(ctx) { Screen* screen = ScreenOfDisplay(display, defaultScreen); m_visualid = screen->root_visual->visualid; visualIdOut = screen->root_visual->visualid; } void destroy() override { VulkanContext::Window& m_windowCtx = *m_ctx->m_windows[m_parentWindow]; m_windowCtx.m_swapChains[0].destroy(m_ctx->m_dev); m_windowCtx.m_swapChains[1].destroy(m_ctx->m_dev); if (m_surface) { vk::DestroySurfaceKHR(m_ctx->m_instance, m_surface, nullptr); m_surface = VK_NULL_HANDLE; } } ~GraphicsContextXlibVulkan() override { destroy(); } VulkanContext::Window* m_windowCtx = nullptr; void resized(const SWindowRect& rect) override { if (m_windowCtx) m_ctx->resizeSwapChain(*m_windowCtx, m_surface, m_format, m_colorspace, rect); } void _setCallback(IWindowCallback* cb) override { m_callback = cb; } EGraphicsAPI getAPI() const override { return m_api; } EPixelFormat getPixelFormat() const override { return m_pf; } void setPixelFormat(EPixelFormat pf) override { if (pf > EPixelFormat::RGBAF32_Z24) return; m_pf = pf; } bool initializeContext(void* getVkProc) override { if (m_ctx->m_instance == VK_NULL_HANDLE) m_ctx->initVulkan(APP->getUniqueName(), PFN_vkGetInstanceProcAddr(getVkProc)); if (!m_ctx->enumerateDevices()) return false; m_windowCtx = m_ctx->m_windows.emplace(std::make_pair(m_parentWindow, std::make_unique())) .first->second.get(); VkXcbSurfaceCreateInfoKHR surfaceInfo = {}; surfaceInfo.sType = VK_STRUCTURE_TYPE_XCB_SURFACE_CREATE_INFO_KHR; surfaceInfo.connection = m_xcbConn; surfaceInfo.window = m_parentWindow->getPlatformHandle(); ThrowIfFailed(vk::CreateXcbSurfaceKHR(m_ctx->m_instance, &surfaceInfo, nullptr, &m_surface)); /* Iterate over each queue to learn whether it supports presenting */ VkBool32* supportsPresent = (VkBool32*)malloc(m_ctx->m_queueCount * sizeof(VkBool32)); for (uint32_t i = 0; i < m_ctx->m_queueCount; ++i) vk::GetPhysicalDeviceSurfaceSupportKHR(m_ctx->m_gpus[0], i, m_surface, &supportsPresent[i]); /* Search for a graphics queue and a present queue in the array of queue * families, try to find one that supports both */ if (m_ctx->m_graphicsQueueFamilyIndex == UINT32_MAX) { /* First window, init device */ for (uint32_t i = 0; i < m_ctx->m_queueCount; ++i) { if ((m_ctx->m_queueProps[i].queueFlags & VK_QUEUE_GRAPHICS_BIT) != 0) { if (supportsPresent[i] == VK_TRUE) { m_ctx->m_graphicsQueueFamilyIndex = i; } } } /* Generate error if could not find a queue that supports both a graphics * and present */ if (m_ctx->m_graphicsQueueFamilyIndex == UINT32_MAX) Log.report(logvisor::Fatal, fmt("Could not find a queue that supports both graphics and present")); m_ctx->initDevice(); } else { /* Subsequent window, verify present */ if (supportsPresent[m_ctx->m_graphicsQueueFamilyIndex] == VK_FALSE) Log.report(logvisor::Fatal, fmt("subsequent surface doesn't support present")); } free(supportsPresent); if (!vk::GetPhysicalDeviceXcbPresentationSupportKHR(m_ctx->m_gpus[0], m_ctx->m_graphicsQueueFamilyIndex, m_xcbConn, m_visualid)) { Log.report(logvisor::Fatal, fmt("XCB visual doesn't support vulkan present")); return false; } /* Get the list of VkFormats that are supported */ uint32_t formatCount; ThrowIfFailed(vk::GetPhysicalDeviceSurfaceFormatsKHR(m_ctx->m_gpus[0], m_surface, &formatCount, nullptr)); std::vector surfFormats(formatCount); ThrowIfFailed( vk::GetPhysicalDeviceSurfaceFormatsKHR(m_ctx->m_gpus[0], m_surface, &formatCount, surfFormats.data())); /* If the format list includes just one entry of VK_FORMAT_UNDEFINED, * the surface has no preferred format. Otherwise, at least one * supported format will be returned. */ if (formatCount >= 1) { if (m_ctx->m_deepColor) { for (uint32_t i = 0; i < formatCount; ++i) { if (surfFormats[i].format == VK_FORMAT_R16G16B16A16_UNORM) { m_format = surfFormats[i].format; m_colorspace = surfFormats[i].colorSpace; break; } } } if (m_format == VK_FORMAT_UNDEFINED) { for (uint32_t i = 0; i < formatCount; ++i) { if (surfFormats[i].format == VK_FORMAT_B8G8R8A8_UNORM || surfFormats[i].format == VK_FORMAT_R8G8B8A8_UNORM) { m_format = surfFormats[i].format; m_colorspace = surfFormats[i].colorSpace; break; } } } } else Log.report(logvisor::Fatal, fmt("no surface formats available for Vulkan swapchain")); if (m_format == VK_FORMAT_UNDEFINED) Log.report(logvisor::Fatal, fmt("no UNORM formats available for Vulkan swapchain")); m_ctx->initSwapChain(*m_windowCtx, m_surface, m_format, m_colorspace); m_dataFactory = _NewVulkanDataFactory(this, m_ctx); m_commandQueue = _NewVulkanCommandQueue(m_ctx, m_ctx->m_windows[m_parentWindow].get(), this); m_commandQueue->startRenderer(); return true; } void makeCurrent() override {} void postInit() override {} IGraphicsCommandQueue* getCommandQueue() override { return m_commandQueue.get(); } IGraphicsDataFactory* getDataFactory() override { return m_dataFactory.get(); } IGraphicsDataFactory* getMainContextDataFactory() override { return getDataFactory(); } IGraphicsDataFactory* getLoadContextDataFactory() override { return getDataFactory(); } void present() override {} }; #endif class WindowXlib final : public IWindow { Display* m_xDisp; IWindowCallback* m_callback; Colormap m_colormapId; Window m_windowId; XIMStyle m_bestStyle; XIC m_xIC = nullptr; std::unique_ptr m_gfxCtx; uint32_t m_visualId; struct timespec m_waitPeriod = {0, static_cast(1000000000.0/60.0)}; struct timespec m_lastWaitTime = {}; /* Key state trackers (for auto-repeat detection) */ std::unordered_set m_charKeys; std::unordered_set m_specialKeys; std::unordered_set m_modKeys; /* Last known input device id (0xffff if not yet set) */ int m_lastInputID = 0xffff; ETouchType m_touchType = ETouchType::None; /* Scroll valuators */ int m_hScrollValuator = -1; int m_vScrollValuator = -1; double m_hScrollLast = 0.0; double m_vScrollLast = 0.0; /* Cached window rectangle (to avoid repeated X queries) */ boo::SWindowRect m_wrect; float m_pixelFactor; bool m_inFs = false; /* Cached window style */ EWindowStyle m_styleFlags; /* Current cursor enum */ EMouseCursor m_cursor = EMouseCursor::None; bool m_cursorWait = false; static Cursor GetXCursor(EMouseCursor cur) { switch (cur) { case EMouseCursor::Pointer: return X_CURSORS.m_pointer; case EMouseCursor::HorizontalArrow: return X_CURSORS.m_hArrow; case EMouseCursor::VerticalArrow: return X_CURSORS.m_vArrow; case EMouseCursor::IBeam: return X_CURSORS.m_ibeam; case EMouseCursor::Crosshairs: return X_CURSORS.m_crosshairs; default: break; } return X_CURSORS.m_pointer; } bool m_openGL = false; public: WindowXlib(std::string_view title, Display* display, void* xcbConn, int defaultScreen, XIM xIM, XIMStyle bestInputStyle, XFontSet fontset, GLXContext lastCtx, void* vulkanHandle, GLContext* glCtx) : m_xDisp(display), m_callback(nullptr), m_bestStyle(bestInputStyle) { BOO_MSAN_NO_INTERCEPT if (!S_ATOMS) S_ATOMS = new XlibAtoms(display); for (int i = 1; i >= 0; --i) { #if BOO_HAS_VULKAN if (vulkanHandle && i == 1) { m_gfxCtx.reset(new GraphicsContextXlibVulkan(this, display, (xcb_connection_t*)xcbConn, defaultScreen, &g_VulkanContext, m_visualId, glCtx)); } else #endif { i = 0; m_gfxCtx.reset(new GraphicsContextXlibGLX(IGraphicsContext::EGraphicsAPI::OpenGL3_3, this, display, defaultScreen, lastCtx, m_visualId, glCtx)); m_openGL = true; Log.report(logvisor::Warning, fmt("OPENGL HAS BEEN DEPRECATED, IT IS HIGHLY RECOMMENDED TO BUILD AND USE VULKAN INSTEAD")); } XVisualInfo visTemplate; visTemplate.screen = defaultScreen; int numVisuals; XVisualInfo* visualList = XGetVisualInfo(display, VisualScreenMask, &visTemplate, &numVisuals); Visual* selectedVisual = nullptr; for (int i = 0; i < numVisuals; ++i) { if (visualList[i].visualid == m_visualId) { selectedVisual = visualList[i].visual; break; } } XFree(visualList); /* Create colormap */ Screen* screen = ScreenOfDisplay(display, defaultScreen); m_colormapId = XCreateColormap(m_xDisp, screen->root, selectedVisual, AllocNone); /* Create window */ int x, y, w, h; int nmonitors = 0; XRRMonitorInfo* mInfo = XRRGetMonitors(m_xDisp, screen->root, true, &nmonitors); BOO_MSAN_UNPOISON(mInfo, sizeof(XRRMonitorInfo) * nmonitors); if (nmonitors) { genFrameDefault(mInfo, x, y, w, h); m_pixelFactor = mInfo->width / (float)mInfo->mwidth / REF_DPMM; } else { genFrameDefault(screen, x, y, w, h); m_pixelFactor = screen->width / (float)screen->mwidth / REF_DPMM; } XRRFreeMonitors(mInfo); XSetWindowAttributes swa; swa.colormap = m_colormapId; swa.border_pixmap = 0; swa.event_mask = FocusChangeMask | KeyPressMask | KeyReleaseMask | ButtonPressMask | ButtonReleaseMask | PointerMotionMask | ExposureMask | StructureNotifyMask | LeaveWindowMask | EnterWindowMask; m_windowId = XCreateWindow(display, screen->root, x, y, w, h, 10, CopyFromParent, CopyFromParent, selectedVisual, CWBorderPixel | CWEventMask | CWColormap, &swa); /* * Now go create an IC using the style we chose. * Also set the window and fontset attributes now. */ if (xIM) { XPoint pt = {0, 0}; XVaNestedList nlist; m_xIC = XCreateIC(xIM, XNInputStyle, bestInputStyle, XNClientWindow, m_windowId, XNFocusWindow, m_windowId, XNPreeditAttributes, nlist = XVaCreateNestedList(0, XNSpotLocation, &pt, XNFontSet, fontset, nullptr), nullptr); XFree(nlist); long im_event_mask; XGetICValues(m_xIC, XNFilterEvents, &im_event_mask, nullptr); XSelectInput(display, m_windowId, swa.event_mask | im_event_mask); XSetICFocus(m_xIC); } /* The XInput 2.1 extension enables per-pixel smooth scrolling trackpads */ XIEventMask mask = {XIAllMasterDevices, XIMaskLen(XI_LASTEVENT)}; mask.mask = (unsigned char*)malloc(mask.mask_len); memset(mask.mask, 0, mask.mask_len); /* XISetMask(mask.mask, XI_Motion); Can't do this without losing mouse move events :( */ XISetMask(mask.mask, XI_TouchBegin); XISetMask(mask.mask, XI_TouchUpdate); XISetMask(mask.mask, XI_TouchEnd); XISelectEvents(m_xDisp, m_windowId, &mask, 1); free(mask.mask); /* Register netwm extension atom for window closing */ XSetWMProtocols(m_xDisp, m_windowId, &S_ATOMS->m_wmDeleteWindow, 1); /* Set the title of the window */ if (S_ATOMS->m_netwmName) { XChangeProperty(m_xDisp, m_windowId, S_ATOMS->m_netwmName, S_ATOMS->m_utf8String, 8, PropModeReplace, (unsigned char*)title.data(), title.length()); } XStoreName(m_xDisp, m_windowId, title.data()); /* Set the title of the window icon */ XChangeProperty(m_xDisp, m_windowId, XA_WM_ICON_NAME, XA_STRING, 8, PropModeReplace, (unsigned char*)title.data(), title.length()); /* Add window icon */ if (MAINICON_NETWM_SZ && S_ATOMS->m_netwmIcon) { XChangeProperty(m_xDisp, m_windowId, S_ATOMS->m_netwmIcon, XA_CARDINAL, 32, PropModeReplace, MAINICON_NETWM, MAINICON_NETWM_SZ / sizeof(unsigned long)); } /* Set the pid of the window */ if (S_ATOMS->m_netwmPid) { pid_t pid = getpid(); XChangeProperty(m_xDisp, m_windowId, S_ATOMS->m_netwmPid, XA_CARDINAL, 32, PropModeReplace, (unsigned char*)&pid, 1); } /* Initialize context */ XMapWindow(m_xDisp, m_windowId); setStyle(EWindowStyle::Default); setCursor(EMouseCursor::Pointer); setWindowFrameDefault(); double hz = getWindowRefreshRate(); uint64_t nanos = uint64_t(1000000000.0 / hz); m_waitPeriod = {nanos / 1000000000, nanos % 1000000000}; XFlush(m_xDisp); if (!m_gfxCtx->initializeContext(vulkanHandle)) { XUnmapWindow(m_xDisp, m_windowId); XDestroyWindow(m_xDisp, m_windowId); XFreeColormap(m_xDisp, m_colormapId); continue; } break; } } ~WindowXlib() override { _cleanup(); if (APP) APP->_deletedWindow(this); } void setCallback(IWindowCallback* cb) override { XLockDisplay(m_xDisp); m_callback = cb; XUnlockDisplay(m_xDisp); } void closeWindow() override { // TODO: Free window resources and prevent further access XLockDisplay(m_xDisp); XUnmapWindow(m_xDisp, m_windowId); XUnlockDisplay(m_xDisp); } void showWindow() override { XLockDisplay(m_xDisp); XMapWindow(m_xDisp, m_windowId); XUnlockDisplay(m_xDisp); } void hideWindow() override { XLockDisplay(m_xDisp); XUnmapWindow(m_xDisp, m_windowId); XUnlockDisplay(m_xDisp); } std::string getTitle() override { unsigned long nitems; Atom actualType; int actualFormat; unsigned long bytes; unsigned char* string = nullptr; XLockDisplay(m_xDisp); int ret = XGetWindowProperty(m_xDisp, m_windowId, XA_WM_NAME, 0, ~0l, false, XA_STRING, &actualType, &actualFormat, &nitems, &bytes, &string); XUnlockDisplay(m_xDisp); if (ret == Success) { std::string retval((const char*)string); XFree(string); return retval; } return std::string(); } void setTitle(std::string_view title) override { XLockDisplay(m_xDisp); /* Set the title of the window */ if (S_ATOMS->m_netwmName) { XChangeProperty(m_xDisp, m_windowId, S_ATOMS->m_netwmName, S_ATOMS->m_utf8String, 8, PropModeReplace, (unsigned char*)title.data(), title.length()); } XStoreName(m_xDisp, m_windowId, title.data()); /* Set the title of the window icon */ XChangeProperty(m_xDisp, m_windowId, XA_WM_ICON_NAME, XA_STRING, 8, PropModeReplace, (unsigned char*)title.data(), title.length()); XUnlockDisplay(m_xDisp); } void setCursor(EMouseCursor cursor) override { if (cursor == m_cursor && !m_cursorWait) return; m_cursor = cursor; XLockDisplay(m_xDisp); XDefineCursor(m_xDisp, m_windowId, GetXCursor(cursor)); XUnlockDisplay(m_xDisp); } void setWaitCursor(bool wait) override { if (wait && !m_cursorWait) { XLockDisplay(m_xDisp); XDefineCursor(m_xDisp, m_windowId, X_CURSORS.m_wait); XUnlockDisplay(m_xDisp); m_cursorWait = true; } else if (!wait && m_cursorWait) { setCursor(m_cursor); m_cursorWait = false; } } static double calculateRefreshRate(const XRRModeInfo& mi) { if (mi.hTotal && mi.vTotal) return double(mi.dotClock) / (double(mi.hTotal) * double(mi.vTotal)); else return 60.0; } double getWindowRefreshRate() const override { BOO_MSAN_NO_INTERCEPT double ret = 60.0; int nmonitors; Screen* screen = DefaultScreenOfDisplay(m_xDisp); XRRMonitorInfo* mInfo = XRRGetMonitors(m_xDisp, screen->root, true, &nmonitors); BOO_MSAN_UNPOISON(mInfo, sizeof(XRRMonitorInfo) * nmonitors); if (nmonitors) { XRRScreenResources* res = XRRGetScreenResourcesCurrent(m_xDisp, screen->root); XRROutputInfo* oinfo = XRRGetOutputInfo(m_xDisp, res, *mInfo->outputs); XRRCrtcInfo* ci = XRRGetCrtcInfo(m_xDisp, res, oinfo->crtc); for (int i = 0; i < res->nmode; ++i) { const XRRModeInfo& mode = res->modes[i]; BOO_MSAN_UNPOISON(&mode, sizeof(XRRModeInfo)); if (mode.id == ci->mode) { ret = calculateRefreshRate(mode); break; } } XRRFreeCrtcInfo(ci); XRRFreeOutputInfo(oinfo); XRRFreeScreenResources(res); } XRRFreeMonitors(mInfo); return ret; } void setWindowFrameDefault() override { BOO_MSAN_NO_INTERCEPT int x, y, w, h, nmonitors; Screen* screen = DefaultScreenOfDisplay(m_xDisp); XRRMonitorInfo* mInfo = XRRGetMonitors(m_xDisp, screen->root, true, &nmonitors); BOO_MSAN_UNPOISON(mInfo, sizeof(XRRMonitorInfo) * nmonitors); if (nmonitors) genFrameDefault(mInfo, x, y, w, h); else genFrameDefault(screen, x, y, w, h); XRRFreeMonitors(mInfo); XWindowChanges values = {(int)x, (int)y, (int)w, (int)h}; XLockDisplay(m_xDisp); XConfigureWindow(m_xDisp, m_windowId, CWX | CWY | CWWidth | CWHeight, &values); XUnlockDisplay(m_xDisp); } void getWindowFrame(float& xOut, float& yOut, float& wOut, float& hOut) const override { BOO_MSAN_NO_INTERCEPT XWindowAttributes attrs = {}; XLockDisplay(m_xDisp); XGetWindowAttributes(m_xDisp, m_windowId, &attrs); XUnlockDisplay(m_xDisp); xOut = attrs.x; yOut = attrs.y; wOut = attrs.width; hOut = attrs.height; } void getWindowFrame(int& xOut, int& yOut, int& wOut, int& hOut) const override { BOO_MSAN_NO_INTERCEPT XWindowAttributes attrs = {}; XLockDisplay(m_xDisp); XGetWindowAttributes(m_xDisp, m_windowId, &attrs); XUnlockDisplay(m_xDisp); xOut = attrs.x; yOut = attrs.y; wOut = attrs.width; hOut = attrs.height; } void setWindowFrame(float x, float y, float w, float h) override { BOO_MSAN_NO_INTERCEPT XWindowChanges values = {(int)x, (int)y, (int)w, (int)h}; XLockDisplay(m_xDisp); XConfigureWindow(m_xDisp, m_windowId, CWX | CWY | CWWidth | CWHeight, &values); XUnlockDisplay(m_xDisp); } void setWindowFrame(int x, int y, int w, int h) override { BOO_MSAN_NO_INTERCEPT XWindowChanges values = {x, y, w, h}; XLockDisplay(m_xDisp); XConfigureWindow(m_xDisp, m_windowId, CWX | CWY | CWWidth | CWHeight, &values); XUnlockDisplay(m_xDisp); } float getVirtualPixelFactor() const override { return m_pixelFactor; } bool isFullscreen() const override { return m_inFs; unsigned long nitems; Atom actualType; int actualFormat; unsigned long bytes; Atom* vals = nullptr; bool fullscreen = false; XLockDisplay(m_xDisp); int ret = XGetWindowProperty(m_xDisp, m_windowId, S_ATOMS->m_netwmState, 0, ~0l, false, XA_ATOM, &actualType, &actualFormat, &nitems, &bytes, (unsigned char**)&vals); XUnlockDisplay(m_xDisp); if (ret == Success) { for (unsigned long i = 0; i < nitems; ++i) { if (vals[i] == S_ATOMS->m_netwmStateFullscreen) { fullscreen = true; break; } } XFree(vals); return fullscreen; } return false; } void setStyle(EWindowStyle style) override { struct { unsigned long flags; unsigned long functions; unsigned long decorations; long inputMode; unsigned long status; } wmHints = {0}; if (S_ATOMS->m_motifWmHints) { wmHints.flags = MWM_HINTS_DECORATIONS | MWM_HINTS_FUNCTIONS; if (True(style & EWindowStyle::Titlebar)) { wmHints.decorations |= MWM_DECOR_BORDER | MWM_DECOR_TITLE | MWM_DECOR_MINIMIZE | MWM_DECOR_MENU; wmHints.functions |= MWM_FUNC_MOVE | MWM_FUNC_MINIMIZE; } if (True(style & EWindowStyle::Resize)) { wmHints.decorations |= MWM_DECOR_MAXIMIZE | MWM_DECOR_RESIZEH; wmHints.functions |= MWM_FUNC_RESIZE | MWM_FUNC_MAXIMIZE; } if (True(style & EWindowStyle::Close)) wmHints.functions |= MWM_FUNC_CLOSE; XLockDisplay(m_xDisp); XChangeProperty(m_xDisp, m_windowId, S_ATOMS->m_motifWmHints, S_ATOMS->m_motifWmHints, 32, PropModeReplace, (unsigned char*)&wmHints, 5); XUnlockDisplay(m_xDisp); } m_styleFlags = style; } EWindowStyle getStyle() const override { return m_styleFlags; } void setFullscreen(bool fs) override { if (fs == m_inFs) return; XEvent fsEvent = {0}; fsEvent.xclient.type = ClientMessage; fsEvent.xclient.serial = 0; fsEvent.xclient.send_event = true; fsEvent.xclient.window = m_windowId; fsEvent.xclient.message_type = S_ATOMS->m_netwmState; fsEvent.xclient.format = 32; fsEvent.xclient.data.l[0] = fs; fsEvent.xclient.data.l[1] = S_ATOMS->m_netwmStateFullscreen; fsEvent.xclient.data.l[2] = 0; XLockDisplay(m_xDisp); XSendEvent(m_xDisp, DefaultRootWindow(m_xDisp), false, StructureNotifyMask | SubstructureRedirectMask, (XEvent*)&fsEvent); XUnlockDisplay(m_xDisp); m_inFs = fs; } struct ClipData { EClipboardType m_type = EClipboardType::None; std::unique_ptr m_data; size_t m_sz = 0; void clear() { m_type = EClipboardType::None; m_data.reset(); m_sz = 0; } } m_clipData; void claimKeyboardFocus(const int coord[2]) override { if (m_xIC) { XLockDisplay(m_xDisp); if (!coord) { XUnsetICFocus(m_xIC); XUnlockDisplay(m_xDisp); return; } getWindowFrame(m_wrect.location[0], m_wrect.location[1], m_wrect.size[0], m_wrect.size[1]); XPoint pt = {short(coord[0]), short(m_wrect.size[1] - coord[1])}; XVaNestedList list = XVaCreateNestedList(0, XNSpotLocation, &pt, nullptr); XSetICValues(m_xIC, XNPreeditAttributes, list, nullptr); XFree(list); XSetICFocus(m_xIC); XUnlockDisplay(m_xDisp); } } bool clipboardCopy(EClipboardType type, const uint8_t* data, size_t sz) override { Atom xType = GetClipboardTypeAtom(type); if (!xType) return false; XLockDisplay(m_xDisp); m_clipData.m_type = type; m_clipData.m_data.reset(new uint8_t[sz]); m_clipData.m_sz = sz; memcpy(m_clipData.m_data.get(), data, sz); XSetSelectionOwner(m_xDisp, S_ATOMS->m_clipboard, m_windowId, CurrentTime); XUnlockDisplay(m_xDisp); return true; } std::unique_ptr clipboardPaste(EClipboardType type, size_t& sz) override { Atom xType = GetClipboardTypeAtom(type); if (!xType) return {}; XLockDisplay(m_xDisp); XConvertSelection(m_xDisp, S_ATOMS->m_clipboard, xType, S_ATOMS->m_clipdata, m_windowId, CurrentTime); XFlush(m_xDisp); XEvent event; for (int i = 0; i < 20; ++i) { if (XCheckTypedWindowEvent(m_xDisp, m_windowId, SelectionNotify, &event)) { if (event.xselection.property != 0) { XSync(m_xDisp, false); unsigned long nitems, rem; int format; unsigned char* data; Atom type; // Atom t1 = S_ATOMS->m_clipboard; // Atom t2 = S_ATOMS->m_clipdata; if (XGetWindowProperty(m_xDisp, m_windowId, S_ATOMS->m_clipdata, 0, 32, false, AnyPropertyType, &type, &format, &nitems, &rem, &data)) { Log.report(logvisor::Fatal, fmt("Clipboard allocation failed")); XUnlockDisplay(m_xDisp); return {}; } if (rem != 0) { Log.report(logvisor::Fatal, fmt("partial clipboard read")); XUnlockDisplay(m_xDisp); return {}; } sz = nitems * format / 8; std::unique_ptr ret(new uint8_t[sz]); memcpy(ret.get(), data, sz); XFree(data); XUnlockDisplay(m_xDisp); return ret; } XUnlockDisplay(m_xDisp); return {}; } if (XCheckTypedWindowEvent(m_xDisp, m_windowId, SelectionRequest, &event) && event.xselectionrequest.owner == m_windowId) handleSelectionRequest(&event.xselectionrequest); if (XCheckTypedWindowEvent(m_xDisp, m_windowId, SelectionClear, &event) && event.xselectionclear.window == m_windowId) m_clipData.clear(); std::this_thread::sleep_for(std::chrono::milliseconds(100)); } XUnlockDisplay(m_xDisp); return {}; } void handleSelectionRequest(XSelectionRequestEvent* se) { XEvent reply; reply.xselection.type = SelectionNotify; reply.xselection.display = m_xDisp; reply.xselection.requestor = se->requestor; reply.xselection.selection = se->selection; reply.xselection.target = se->target; reply.xselection.time = se->time; reply.xselection.property = se->property; if (se->target == S_ATOMS->m_targets) { Atom ValidTargets[] = {GetClipboardTypeAtom(m_clipData.m_type)}; XChangeProperty(m_xDisp, se->requestor, se->property, XA_ATOM, 32, 0, (unsigned char*)ValidTargets, m_clipData.m_type != EClipboardType::None); } else { if (se->target == GetClipboardTypeAtom(m_clipData.m_type)) { XChangeProperty(m_xDisp, se->requestor, se->property, se->target, 8, PropModeReplace, m_clipData.m_data.get(), m_clipData.m_sz); } else reply.xselection.property = 0; } XSendEvent(m_xDisp, se->requestor, false, 0, &reply); } #define NSEC_PER_SEC 1000000000 static void set_normalized_timespec(struct timespec& ts, time_t sec, int64_t nsec) { while (nsec >= NSEC_PER_SEC) { nsec -= NSEC_PER_SEC; ++sec; } while (nsec < 0) { nsec += NSEC_PER_SEC; --sec; } ts.tv_sec = sec; ts.tv_nsec = nsec; } static struct timespec timespec_add(const struct timespec& lhs, const struct timespec& rhs) { struct timespec ts_delta; set_normalized_timespec(ts_delta, lhs.tv_sec + rhs.tv_sec, lhs.tv_nsec + rhs.tv_nsec); return ts_delta; } static struct timespec timespec_sub(const struct timespec& lhs, const struct timespec& rhs) { struct timespec ts_delta; set_normalized_timespec(ts_delta, lhs.tv_sec - rhs.tv_sec, lhs.tv_nsec - rhs.tv_nsec); return ts_delta; } static inline long int timespec_compare(const struct timespec& lhs, const struct timespec& rhs) { if (lhs.tv_sec < rhs.tv_sec) return -1; if (lhs.tv_sec > rhs.tv_sec) return 1; return lhs.tv_nsec - rhs.tv_nsec; } int waitForRetrace() override { BOO_MSAN_NO_INTERCEPT struct timespec tp = {}; clock_gettime(CLOCK_REALTIME, &tp); if (!m_lastWaitTime.tv_sec) { /* Initialize reference point */ sched_param prio = {75}; sched_setscheduler(0, SCHED_RR, &prio); m_lastWaitTime = tp; return 0; } m_lastWaitTime = timespec_add(m_lastWaitTime, m_waitPeriod); long int comp = timespec_compare(m_lastWaitTime, tp); if (comp == 0) { /* Exactly at the due date */ return 1; } else if (comp > 0) { /* Not at due date yet, sleep here */ struct timespec wait_time = timespec_sub(m_lastWaitTime, tp); while (nanosleep(&wait_time, &wait_time)) {} return 1; } else { /* Missed due date, assign next one and return passed cycle count */ int cycles = 0; do { m_lastWaitTime = timespec_add(m_lastWaitTime, m_waitPeriod); ++cycles; } while (timespec_compare(m_lastWaitTime, tp) < 0); return cycles; } } uintptr_t getPlatformHandle() const override { return (uintptr_t)m_windowId; } void _pointingDeviceChanged(int deviceId) { int nDevices; XIDeviceInfo* devices = XIQueryDevice(m_xDisp, deviceId, &nDevices); for (int i = 0; i < nDevices; ++i) { XIDeviceInfo* device = &devices[i]; /* First iterate classes for scrollables */ int hScroll = -1; int vScroll = -1; m_hScrollLast = 0.0; m_vScrollLast = 0.0; m_hScrollValuator = -1; m_vScrollValuator = -1; for (int j = 0; j < device->num_classes; ++j) { XIAnyClassInfo* dclass = device->classes[j]; if (dclass->type == XIScrollClass) { XIScrollClassInfo* scrollClass = (XIScrollClassInfo*)dclass; if (scrollClass->scroll_type == XIScrollTypeVertical) vScroll = scrollClass->number; else if (scrollClass->scroll_type == XIScrollTypeHorizontal) hScroll = scrollClass->number; } } /* Next iterate for touch and scroll valuators */ for (int j = 0; j < device->num_classes; ++j) { XIAnyClassInfo* dclass = device->classes[j]; if (dclass->type == XIValuatorClass) { XIValuatorClassInfo* valClass = (XIValuatorClassInfo*)dclass; if (valClass->number == vScroll) { m_vScrollLast = valClass->value; m_vScrollValuator = vScroll; } else if (valClass->number == hScroll) { m_hScrollLast = valClass->value; m_hScrollValuator = hScroll; } } else if (dclass->type == XITouchClass) { XITouchClassInfo* touchClass = (XITouchClassInfo*)dclass; if (touchClass->mode == XIDirectTouch) m_touchType = ETouchType::Display; else if (touchClass->mode == XIDependentTouch) m_touchType = ETouchType::Trackpad; else m_touchType = ETouchType::None; } } } XIFreeDeviceInfo(devices); m_lastInputID = deviceId; } SWindowCoord MakeButtonEventCoord(XEvent* event) const { int x = event->xbutton.x; int y = m_wrect.size[1] - event->xbutton.y; return {{x, y}, {int(x / m_pixelFactor), int(y / m_pixelFactor)}, {x / float(m_wrect.size[0]), y / float(m_wrect.size[1])}}; } SWindowCoord MakeMotionEventCoord(XEvent* event) const { int x = event->xmotion.x; int y = m_wrect.size[1] - event->xmotion.y; return {{x, y}, {int(x / m_pixelFactor), int(y / m_pixelFactor)}, {x / float(m_wrect.size[0]), y / float(m_wrect.size[1])}}; } SWindowCoord MakeCrossingEventCoord(XEvent* event) const { int x = event->xcrossing.x; int y = m_wrect.size[1] - event->xcrossing.y; return {{x, y}, {int(x / m_pixelFactor), int(y / m_pixelFactor)}, {x / float(m_wrect.size[0]), y / float(m_wrect.size[1])}}; } #if 0 /* This procedure sets the application's size constraints and returns * the IM's preferred size for either the Preedit or Status areas, * depending on the value of the name argument. The area argument is * used to pass the constraints and to return the preferred size. */ void GetPreferredGeometry(const char* name, XRectangle* area) { XVaNestedList list; list = XVaCreateNestedList(0, XNAreaNeeded, area, nullptr); /* set the constraints */ XSetICValues(m_xIC, name, list, nullptr); /* query the preferred size */ XGetICValues(m_xIC, name, list, nullptr); XFree(list); } /* This procedure sets the geometry of either the Preedit or Status * Areas, depending on the value of the name argument. */ void SetGeometry(const char* name, XRectangle* area) { XVaNestedList list; list = XVaCreateNestedList(0, XNArea, area, nullptr); XSetICValues(m_xIC, name, list, nullptr); XFree(list); } #endif bool _incomingEvent(void* e) override { XEvent* event = (XEvent*)e; switch (event->type) { case SelectionRequest: { handleSelectionRequest(&event->xselectionrequest); return false; } case ClientMessage: { if (Atom(event->xclient.data.l[0]) == S_ATOMS->m_wmDeleteWindow && m_callback) { m_callback->destroyed(); m_callback = nullptr; return true; } return false; } case Expose: { Window nw = 0; XWindowAttributes wxa = {}; int x = 0, y = 0; XTranslateCoordinates(m_xDisp, m_windowId, DefaultRootWindow(m_xDisp), event->xexpose.x, event->xexpose.y, &x, &y, &nw); XGetWindowAttributes(m_xDisp, m_windowId, &wxa); m_wrect.location[0] = x - wxa.x; m_wrect.location[1] = y - wxa.y; #if 0 /* This breaks with GNOME, why? */ m_wrect.size[0] = event->xexpose.width; m_wrect.size[1] = event->xexpose.height; #else m_wrect.size[0] = wxa.width; m_wrect.size[1] = wxa.height; #endif if (m_callback) { XUnlockDisplay(m_xDisp); m_gfxCtx->resized(m_wrect); m_callback->resized(m_wrect, m_openGL); XLockDisplay(m_xDisp); } return false; } case ConfigureNotify: { Window nw = 0; XWindowAttributes wxa = {}; int x = 0, y = 0; XTranslateCoordinates(m_xDisp, m_windowId, DefaultRootWindow(m_xDisp), event->xconfigure.x, event->xconfigure.y, &x, &y, &nw); XGetWindowAttributes(m_xDisp, m_windowId, &wxa); m_wrect.location[0] = x - wxa.x; m_wrect.location[1] = y - wxa.y; m_wrect.size[0] = event->xconfigure.width; m_wrect.size[1] = event->xconfigure.height; if (m_callback) m_callback->windowMoved(m_wrect); return false; } case KeyPress: { if (m_callback) { ESpecialKey specialKey; EModifierKey modifierKey; unsigned int state = event->xkey.state; event->xkey.state &= ~ControlMask; ITextInputCallback* inputCb = m_callback->getTextInputCallback(); if (m_xIC) { std::string utf8Frag = translateUTF8(&event->xkey, m_xIC); if (utf8Frag.size()) { if (inputCb) inputCb->insertText(utf8Frag); return false; } } char charCode = translateKeysym(&event->xkey, specialKey, modifierKey); EModifierKey modifierMask = translateModifiers(state); if (charCode) { if (inputCb && False(modifierMask & (EModifierKey::Ctrl | EModifierKey::Command))) inputCb->insertText(std::string(1, charCode)); bool isRepeat = m_charKeys.find(charCode) != m_charKeys.cend(); m_callback->charKeyDown(charCode, modifierMask, isRepeat); if (!isRepeat) m_charKeys.insert(charCode); } else if (specialKey != ESpecialKey::None) { bool isRepeat = m_specialKeys.find((unsigned long)specialKey) != m_specialKeys.cend(); m_callback->specialKeyDown(specialKey, modifierMask, isRepeat); if (!isRepeat) m_specialKeys.insert((unsigned long)specialKey); } else if (True(modifierKey)) { bool isRepeat = m_modKeys.find((unsigned long)modifierKey) != m_modKeys.cend(); m_callback->modKeyDown(modifierKey, isRepeat); if (!isRepeat) m_modKeys.insert((unsigned long)modifierKey); } } return false; } case KeyRelease: { if (m_callback) { ESpecialKey specialKey; EModifierKey modifierKey; unsigned int state = event->xkey.state; event->xkey.state &= ~ControlMask; char charCode = translateKeysym(&event->xkey, specialKey, modifierKey); EModifierKey modifierMask = translateModifiers(state); if (charCode) { m_charKeys.erase(charCode); m_callback->charKeyUp(charCode, modifierMask); } else if (specialKey != ESpecialKey::None) { m_specialKeys.erase((unsigned long)specialKey); m_callback->specialKeyUp(specialKey, modifierMask); } else if (True(modifierKey)) { m_modKeys.erase((unsigned long)modifierKey); m_callback->modKeyUp(modifierKey); } } return false; } case ButtonPress: { if (m_callback) { getWindowFrame(m_wrect.location[0], m_wrect.location[1], m_wrect.size[0], m_wrect.size[1]); EMouseButton button = translateButton(event->xbutton.button); if (button != EMouseButton::None) { EModifierKey modifierMask = translateModifiers(event->xbutton.state); m_callback->mouseDown(MakeButtonEventCoord(event), (EMouseButton)button, (EModifierKey)modifierMask); } /* Also handle legacy scroll events here */ if (event->xbutton.button >= 4 && event->xbutton.button <= 7 && m_hScrollValuator == -1 && m_vScrollValuator == -1) { SScrollDelta scrollDelta = {{0.0, 0.0}, false}; if (event->xbutton.button == 4) scrollDelta.delta[1] = 1.0; else if (event->xbutton.button == 5) scrollDelta.delta[1] = -1.0; else if (event->xbutton.button == 6) scrollDelta.delta[0] = 1.0; else if (event->xbutton.button == 7) scrollDelta.delta[0] = -1.0; m_callback->scroll(MakeButtonEventCoord(event), scrollDelta); } } return false; } case ButtonRelease: { if (m_callback) { getWindowFrame(m_wrect.location[0], m_wrect.location[1], m_wrect.size[0], m_wrect.size[1]); EMouseButton button = translateButton(event->xbutton.button); if (button != EMouseButton::None) { EModifierKey modifierMask = translateModifiers(event->xbutton.state); m_callback->mouseUp(MakeButtonEventCoord(event), (EMouseButton)button, (EModifierKey)modifierMask); } } return false; } case FocusIn: { if (m_callback) m_callback->focusGained(); return false; } case FocusOut: { if (m_callback) m_callback->focusLost(); return false; } case MotionNotify: { if (m_callback) { getWindowFrame(m_wrect.location[0], m_wrect.location[1], m_wrect.size[0], m_wrect.size[1]); m_callback->mouseMove(MakeMotionEventCoord(event)); } return false; } case EnterNotify: { if (m_callback) { getWindowFrame(m_wrect.location[0], m_wrect.location[1], m_wrect.size[0], m_wrect.size[1]); m_callback->mouseEnter(MakeCrossingEventCoord(event)); } return false; } case LeaveNotify: { if (m_callback) { getWindowFrame(m_wrect.location[0], m_wrect.location[1], m_wrect.size[0], m_wrect.size[1]); m_callback->mouseLeave(MakeCrossingEventCoord(event)); } return false; } case GenericEvent: { if (event->xgeneric.extension == XINPUT_OPCODE) { getWindowFrame(m_wrect.location[0], m_wrect.location[1], m_wrect.size[0], m_wrect.size[1]); switch (event->xgeneric.evtype) { case XI_Motion: { fmt::print(stderr, fmt("motion\n")); XIDeviceEvent* ev = (XIDeviceEvent*)event; if (m_lastInputID != ev->deviceid) _pointingDeviceChanged(ev->deviceid); int cv = 0; double newScroll[2] = {m_hScrollLast, m_vScrollLast}; bool didScroll = false; for (int i = 0; i < ev->valuators.mask_len * 8; ++i) { if (XIMaskIsSet(ev->valuators.mask, i)) { if (i == m_hScrollValuator) { newScroll[0] = ev->valuators.values[cv]; didScroll = true; } else if (i == m_vScrollValuator) { newScroll[1] = ev->valuators.values[cv]; didScroll = true; } ++cv; } } SScrollDelta scrollDelta = {{newScroll[0] - m_hScrollLast, newScroll[1] - m_vScrollLast}, true}; m_hScrollLast = newScroll[0]; m_vScrollLast = newScroll[1]; if (m_callback && didScroll) { int event_x = int(ev->event_x) >> 16; int event_y = m_wrect.size[1] - (int(ev->event_y) >> 16); SWindowCoord coord = {{event_x, event_y}, {int(event_x / m_pixelFactor), int(event_y / m_pixelFactor)}, {event_x / float(m_wrect.size[0]), event_y / float(m_wrect.size[1])}}; m_callback->scroll(coord, scrollDelta); } return false; } case XI_TouchBegin: { XIDeviceEvent* ev = (XIDeviceEvent*)event; if (m_lastInputID != ev->deviceid) _pointingDeviceChanged(ev->deviceid); int cv = 0; double vals[32] = {}; for (int i = 0; i < ev->valuators.mask_len * 8 && i < 32; ++i) { if (XIMaskIsSet(ev->valuators.mask, i)) { vals[i] = ev->valuators.values[cv]; ++cv; } } STouchCoord coord = {{vals[0], vals[1]}}; if (m_callback) m_callback->touchDown(coord, ev->detail); return false; } case XI_TouchUpdate: { XIDeviceEvent* ev = (XIDeviceEvent*)event; if (m_lastInputID != ev->deviceid) _pointingDeviceChanged(ev->deviceid); int cv = 0; double vals[32] = {}; for (int i = 0; i < ev->valuators.mask_len * 8 && i < 32; ++i) { if (XIMaskIsSet(ev->valuators.mask, i)) { vals[i] = ev->valuators.values[cv]; ++cv; } } STouchCoord coord = {{vals[0], vals[1]}}; if (m_callback) m_callback->touchMove(coord, ev->detail); return false; } case XI_TouchEnd: { XIDeviceEvent* ev = (XIDeviceEvent*)event; if (m_lastInputID != ev->deviceid) _pointingDeviceChanged(ev->deviceid); int cv = 0; double vals[32] = {}; for (int i = 0; i < ev->valuators.mask_len * 8 && i < 32; ++i) { if (XIMaskIsSet(ev->valuators.mask, i)) { vals[i] = ev->valuators.values[cv]; ++cv; } } STouchCoord coord = {{vals[0], vals[1]}}; if (m_callback) m_callback->touchUp(coord, ev->detail); return false; } } } } } return false; } void _cleanup() override { if (m_gfxCtx) { XLockDisplay(m_xDisp); m_gfxCtx->destroy(); m_gfxCtx.reset(); XUnmapWindow(m_xDisp, m_windowId); XDestroyWindow(m_xDisp, m_windowId); XFreeColormap(m_xDisp, m_colormapId); XUnlockDisplay(m_xDisp); } } ETouchType getTouchType() const override { return m_touchType; } IGraphicsCommandQueue* getCommandQueue() override { return m_gfxCtx->getCommandQueue(); } IGraphicsDataFactory* getDataFactory() override { return m_gfxCtx->getDataFactory(); } IGraphicsDataFactory* getMainContextDataFactory() override { return m_gfxCtx->getMainContextDataFactory(); } IGraphicsDataFactory* getLoadContextDataFactory() override { return m_gfxCtx->getLoadContextDataFactory(); } bool _isWindowMapped() { XWindowAttributes attr; XLockDisplay(m_xDisp); XGetWindowAttributes(m_xDisp, m_windowId, &attr); XUnlockDisplay(m_xDisp); return attr.map_state != IsUnmapped; } }; std::shared_ptr _WindowXlibNew(std::string_view title, Display* display, void* xcbConn, int defaultScreen, XIM xIM, XIMStyle bestInputStyle, XFontSet fontset, GLXContext lastCtx, void* vulkanHandle, GLContext* glCtx) { std::shared_ptr ret = std::make_shared(title, display, xcbConn, defaultScreen, xIM, bestInputStyle, fontset, lastCtx, vulkanHandle, glCtx); return ret; } } // namespace boo