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kc3-lang/angle/src/libGLESv2/entry_points_egl.cpp
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Author :
Jamie Madill
Date : 2017-11-14 12:43:40
Hash : 5ad52994
Message : Add generator for EGL proc table. This should improve ANGLE startup time by avoiding creating a large std::map filled with the entry points. BUG=chromium:781460 Change-Id: I20cfdb10b99844d0f60759dda73b729991dc60fe Reviewed-on: https://chromium-review.googlesource.com/768209 Reviewed-by: Geoff Lang <geofflang@chromium.org> Reviewed-by: Antoine Labour <piman@chromium.org> Commit-Queue: Jamie Madill <jmadill@chromium.org>
- src/libGLESv2/entry_points_egl.cpp
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// // Copyright(c) 2014 The ANGLE Project Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // // entry_points_egl.cpp : Implements the EGL entry points. #include "libGLESv2/entry_points_egl.h" #include "common/debug.h" #include "common/version.h" #include "libANGLE/Context.h" #include "libANGLE/Display.h" #include "libANGLE/Surface.h" #include "libANGLE/Texture.h" #include "libANGLE/Thread.h" #include "libANGLE/queryutils.h" #include "libANGLE/validationEGL.h" #include "libGLESv2/global_state.h" #include "libGLESv2/proc_table.h" #include <EGL/eglext.h> namespace egl { namespace { bool CompareProc(const ProcEntry &a, const char *b) { return strcmp(a.first, b) < 0; } void ClipConfigs(const std::vector<const Config *> &filteredConfigs, EGLConfig *output_configs, EGLint config_size, EGLint *num_config) { EGLint result_size = static_cast<EGLint>(filteredConfigs.size()); if (output_configs) { result_size = std::max(std::min(result_size, config_size), 0); for (EGLint i = 0; i < result_size; i++) { output_configs[i] = const_cast<Config *>(filteredConfigs[i]); } } *num_config = result_size; } } // anonymous namespace // EGL 1.0 EGLint EGLAPIENTRY GetError(void) { EVENT("()"); Thread *thread = GetCurrentThread(); EGLint error = thread->getError(); thread->setError(NoError()); return error; } EGLDisplay EGLAPIENTRY GetDisplay(EGLNativeDisplayType display_id) { EVENT("(EGLNativeDisplayType display_id = 0x%0.8p)", display_id); return Display::GetDisplayFromNativeDisplay(display_id, AttributeMap()); } EGLBoolean EGLAPIENTRY Initialize(EGLDisplay dpy, EGLint *major, EGLint *minor) { EVENT("(EGLDisplay dpy = 0x%0.8p, EGLint *major = 0x%0.8p, EGLint *minor = 0x%0.8p)", dpy, major, minor); Thread *thread = GetCurrentThread(); Display *display = static_cast<Display *>(dpy); if (dpy == EGL_NO_DISPLAY || !Display::isValidDisplay(display)) { thread->setError(EglBadDisplay()); return EGL_FALSE; } Error error = display->initialize(); if (error.isError()) { thread->setError(error); return EGL_FALSE; } if (major) *major = 1; if (minor) *minor = 4; thread->setError(NoError()); return EGL_TRUE; } EGLBoolean EGLAPIENTRY Terminate(EGLDisplay dpy) { EVENT("(EGLDisplay dpy = 0x%0.8p)", dpy); Thread *thread = GetCurrentThread(); Display *display = static_cast<Display *>(dpy); if (dpy == EGL_NO_DISPLAY || !Display::isValidDisplay(display)) { thread->setError(EglBadDisplay()); return EGL_FALSE; } if (display->isValidContext(thread->getContext())) { thread->setCurrent(nullptr); } Error error = display->terminate(); if (error.isError()) { thread->setError(error); return EGL_FALSE; } thread->setError(NoError()); return EGL_TRUE; } const char *EGLAPIENTRY QueryString(EGLDisplay dpy, EGLint name) { EVENT("(EGLDisplay dpy = 0x%0.8p, EGLint name = %d)", dpy, name); Thread *thread = GetCurrentThread(); Display *display = static_cast<Display *>(dpy); if (!(display == EGL_NO_DISPLAY && name == EGL_EXTENSIONS)) { Error error = ValidateDisplay(display); if (error.isError()) { thread->setError(error); return nullptr; } } const char *result; switch (name) { case EGL_CLIENT_APIS: result = "OpenGL_ES"; break; case EGL_EXTENSIONS: if (display == EGL_NO_DISPLAY) { result = Display::GetClientExtensionString().c_str(); } else { result = display->getExtensionString().c_str(); } break; case EGL_VENDOR: result = display->getVendorString().c_str(); break; case EGL_VERSION: result = "1.4 (ANGLE " ANGLE_VERSION_STRING ")"; break; default: thread->setError(EglBadParameter()); return nullptr; } thread->setError(NoError()); return result; } EGLBoolean EGLAPIENTRY GetConfigs(EGLDisplay dpy, EGLConfig *configs, EGLint config_size, EGLint *num_config) { EVENT( "(EGLDisplay dpy = 0x%0.8p, EGLConfig *configs = 0x%0.8p, " "EGLint config_size = %d, EGLint *num_config = 0x%0.8p)", dpy, configs, config_size, num_config); Thread *thread = GetCurrentThread(); Display *display = static_cast<Display *>(dpy); Error error = ValidateGetConfigs(display, config_size, num_config); if (error.isError()) { thread->setError(error); return EGL_FALSE; } ClipConfigs(display->getConfigs(AttributeMap()), configs, config_size, num_config); thread->setError(NoError()); return EGL_TRUE; } EGLBoolean EGLAPIENTRY ChooseConfig(EGLDisplay dpy, const EGLint *attrib_list, EGLConfig *configs, EGLint config_size, EGLint *num_config) { EVENT( "(EGLDisplay dpy = 0x%0.8p, const EGLint *attrib_list = 0x%0.8p, " "EGLConfig *configs = 0x%0.8p, EGLint config_size = %d, EGLint *num_config = 0x%0.8p)", dpy, attrib_list, configs, config_size, num_config); Thread *thread = GetCurrentThread(); Display *display = static_cast<Display *>(dpy); AttributeMap attribMap = AttributeMap::CreateFromIntArray(attrib_list); Error error = ValidateChooseConfig(display, attribMap, config_size, num_config); if (error.isError()) { thread->setError(error); return EGL_FALSE; } ClipConfigs(display->getConfigs(attribMap), configs, config_size, num_config); thread->setError(NoError()); return EGL_TRUE; } EGLBoolean EGLAPIENTRY GetConfigAttrib(EGLDisplay dpy, EGLConfig config, EGLint attribute, EGLint *value) { EVENT( "(EGLDisplay dpy = 0x%0.8p, EGLConfig config = 0x%0.8p, EGLint attribute = %d, EGLint " "*value = 0x%0.8p)", dpy, config, attribute, value); Thread *thread = GetCurrentThread(); Display *display = static_cast<Display *>(dpy); Config *configuration = static_cast<Config *>(config); Error error = ValidateGetConfigAttrib(display, configuration, attribute); if (error.isError()) { thread->setError(error); return EGL_FALSE; } QueryConfigAttrib(configuration, attribute, value); thread->setError(NoError()); return EGL_TRUE; } EGLSurface EGLAPIENTRY CreateWindowSurface(EGLDisplay dpy, EGLConfig config, EGLNativeWindowType win, const EGLint *attrib_list) { EVENT( "(EGLDisplay dpy = 0x%0.8p, EGLConfig config = 0x%0.8p, EGLNativeWindowType win = 0x%0.8p, " "const EGLint *attrib_list = 0x%0.8p)", dpy, config, win, attrib_list); Thread *thread = GetCurrentThread(); Display *display = static_cast<Display *>(dpy); Config *configuration = static_cast<Config *>(config); AttributeMap attributes = AttributeMap::CreateFromIntArray(attrib_list); Error error = ValidateCreateWindowSurface(display, configuration, win, attributes); if (error.isError()) { thread->setError(error); return EGL_NO_SURFACE; } egl::Surface *surface = nullptr; error = display->createWindowSurface(configuration, win, attributes, &surface); if (error.isError()) { thread->setError(error); return EGL_NO_SURFACE; } return static_cast<EGLSurface>(surface); } EGLSurface EGLAPIENTRY CreatePbufferSurface(EGLDisplay dpy, EGLConfig config, const EGLint *attrib_list) { EVENT( "(EGLDisplay dpy = 0x%0.8p, EGLConfig config = 0x%0.8p, const EGLint *attrib_list = " "0x%0.8p)", dpy, config, attrib_list); Thread *thread = GetCurrentThread(); Display *display = static_cast<Display *>(dpy); Config *configuration = static_cast<Config *>(config); AttributeMap attributes = AttributeMap::CreateFromIntArray(attrib_list); Error error = ValidateCreatePbufferSurface(display, configuration, attributes); if (error.isError()) { thread->setError(error); return EGL_NO_SURFACE; } egl::Surface *surface = nullptr; error = display->createPbufferSurface(configuration, attributes, &surface); if (error.isError()) { thread->setError(error); return EGL_NO_SURFACE; } return static_cast<EGLSurface>(surface); } EGLSurface EGLAPIENTRY CreatePixmapSurface(EGLDisplay dpy, EGLConfig config, EGLNativePixmapType pixmap, const EGLint *attrib_list) { EVENT( "(EGLDisplay dpy = 0x%0.8p, EGLConfig config = 0x%0.8p, EGLNativePixmapType pixmap = " "0x%0.8p, " "const EGLint *attrib_list = 0x%0.8p)", dpy, config, pixmap, attrib_list); Thread *thread = GetCurrentThread(); Display *display = static_cast<Display *>(dpy); Config *configuration = static_cast<Config *>(config); Error error = ValidateConfig(display, configuration); if (error.isError()) { thread->setError(error); return EGL_NO_SURFACE; } UNIMPLEMENTED(); // FIXME thread->setError(NoError()); return EGL_NO_SURFACE; } EGLBoolean EGLAPIENTRY DestroySurface(EGLDisplay dpy, EGLSurface surface) { EVENT("(EGLDisplay dpy = 0x%0.8p, EGLSurface surface = 0x%0.8p)", dpy, surface); Thread *thread = GetCurrentThread(); Display *display = static_cast<Display *>(dpy); Surface *eglSurface = static_cast<Surface *>(surface); Error error = ValidateSurface(display, eglSurface); if (error.isError()) { thread->setError(error); return EGL_FALSE; } if (surface == EGL_NO_SURFACE) { thread->setError(EglBadSurface()); return EGL_FALSE; } error = display->destroySurface(reinterpret_cast<Surface *>(surface)); if (error.isError()) { thread->setError(error); return EGL_FALSE; } thread->setError(NoError()); return EGL_TRUE; } EGLBoolean EGLAPIENTRY QuerySurface(EGLDisplay dpy, EGLSurface surface, EGLint attribute, EGLint *value) { EVENT( "(EGLDisplay dpy = 0x%0.8p, EGLSurface surface = 0x%0.8p, EGLint attribute = %d, EGLint " "*value = 0x%0.8p)", dpy, surface, attribute, value); Thread *thread = GetCurrentThread(); const Display *display = static_cast<const Display *>(dpy); const Surface *eglSurface = static_cast<const Surface *>(surface); Error error = ValidateQuerySurface(display, eglSurface, attribute, value); if (error.isError()) { thread->setError(error); return EGL_FALSE; } QuerySurfaceAttrib(eglSurface, attribute, value); thread->setError(NoError()); return EGL_TRUE; } EGLContext EGLAPIENTRY CreateContext(EGLDisplay dpy, EGLConfig config, EGLContext share_context, const EGLint *attrib_list) { EVENT( "(EGLDisplay dpy = 0x%0.8p, EGLConfig config = 0x%0.8p, EGLContext share_context = " "0x%0.8p, " "const EGLint *attrib_list = 0x%0.8p)", dpy, config, share_context, attrib_list); Thread *thread = GetCurrentThread(); Display *display = static_cast<Display *>(dpy); Config *configuration = static_cast<Config *>(config); gl::Context *sharedGLContext = static_cast<gl::Context *>(share_context); AttributeMap attributes = AttributeMap::CreateFromIntArray(attrib_list); Error error = ValidateCreateContext(display, configuration, sharedGLContext, attributes); if (error.isError()) { thread->setError(error); return EGL_NO_CONTEXT; } gl::Context *context = nullptr; error = display->createContext(configuration, sharedGLContext, attributes, &context); if (error.isError()) { thread->setError(error); return EGL_NO_CONTEXT; } thread->setError(NoError()); return static_cast<EGLContext>(context); } EGLBoolean EGLAPIENTRY DestroyContext(EGLDisplay dpy, EGLContext ctx) { EVENT("(EGLDisplay dpy = 0x%0.8p, EGLContext ctx = 0x%0.8p)", dpy, ctx); Thread *thread = GetCurrentThread(); Display *display = static_cast<Display *>(dpy); gl::Context *context = static_cast<gl::Context *>(ctx); Error error = ValidateContext(display, context); if (error.isError()) { thread->setError(error); return EGL_FALSE; } if (ctx == EGL_NO_CONTEXT) { thread->setError(EglBadContext()); return EGL_FALSE; } if (context == thread->getContext()) { thread->setCurrent(nullptr); } error = display->destroyContext(context); if (error.isError()) { thread->setError(error); return EGL_FALSE; } thread->setError(NoError()); return EGL_TRUE; } EGLBoolean EGLAPIENTRY MakeCurrent(EGLDisplay dpy, EGLSurface draw, EGLSurface read, EGLContext ctx) { EVENT( "(EGLDisplay dpy = 0x%0.8p, EGLSurface draw = 0x%0.8p, EGLSurface read = 0x%0.8p, " "EGLContext ctx = 0x%0.8p)", dpy, draw, read, ctx); Thread *thread = GetCurrentThread(); Display *display = static_cast<Display *>(dpy); gl::Context *context = static_cast<gl::Context *>(ctx); Error error = ValidateMakeCurrent(display, draw, read, context); if (error.isError()) { thread->setError(error); return EGL_FALSE; } Surface *readSurface = static_cast<Surface *>(read); Surface *drawSurface = static_cast<Surface *>(draw); Error makeCurrentError = display->makeCurrent(drawSurface, readSurface, context); if (makeCurrentError.isError()) { thread->setError(makeCurrentError); return EGL_FALSE; } gl::Context *previousContext = thread->getContext(); thread->setCurrent(context); // Release the surface from the previously-current context, to allow // destroyed surfaces to delete themselves. if (previousContext != nullptr && context != previousContext) { auto err = previousContext->releaseSurface(display); if (err.isError()) { thread->setError(err); return EGL_FALSE; } } thread->setError(NoError()); return EGL_TRUE; } EGLSurface EGLAPIENTRY GetCurrentSurface(EGLint readdraw) { EVENT("(EGLint readdraw = %d)", readdraw); Thread *thread = GetCurrentThread(); if (readdraw == EGL_READ) { thread->setError(NoError()); return thread->getCurrentReadSurface(); } else if (readdraw == EGL_DRAW) { thread->setError(NoError()); return thread->getCurrentDrawSurface(); } else { thread->setError(EglBadParameter()); return EGL_NO_SURFACE; } } EGLDisplay EGLAPIENTRY GetCurrentDisplay(void) { EVENT("()"); Thread *thread = GetCurrentThread(); thread->setError(NoError()); if (thread->getContext() != nullptr) { return thread->getContext()->getCurrentDisplay(); } return EGL_NO_DISPLAY; } EGLBoolean EGLAPIENTRY QueryContext(EGLDisplay dpy, EGLContext ctx, EGLint attribute, EGLint *value) { EVENT( "(EGLDisplay dpy = 0x%0.8p, EGLContext ctx = 0x%0.8p, EGLint attribute = %d, EGLint *value " "= 0x%0.8p)", dpy, ctx, attribute, value); Thread *thread = GetCurrentThread(); Display *display = static_cast<Display *>(dpy); gl::Context *context = static_cast<gl::Context *>(ctx); Error error = ValidateQueryContext(display, context, attribute, value); if (error.isError()) { thread->setError(error); return EGL_FALSE; } QueryContextAttrib(context, attribute, value); thread->setError(NoError()); return EGL_TRUE; } EGLBoolean EGLAPIENTRY WaitGL(void) { EVENT("()"); Thread *thread = GetCurrentThread(); Display *display = thread->getCurrentDisplay(); Error error = ValidateDisplay(display); if (error.isError()) { thread->setError(error); return EGL_FALSE; } // eglWaitGL like calling eglWaitClient with the OpenGL ES API bound. Since we only implement // OpenGL ES we can do the call directly. error = display->waitClient(thread->getContext()); if (error.isError()) { thread->setError(error); return EGL_FALSE; } thread->setError(NoError()); return EGL_TRUE; } EGLBoolean EGLAPIENTRY WaitNative(EGLint engine) { EVENT("(EGLint engine = %d)", engine); Thread *thread = GetCurrentThread(); Display *display = thread->getCurrentDisplay(); Error error = ValidateDisplay(display); if (error.isError()) { thread->setError(error); return EGL_FALSE; } if (engine != EGL_CORE_NATIVE_ENGINE) { thread->setError(EglBadParameter() << "the 'engine' parameter has an unrecognized value"); } error = display->waitNative(thread->getContext(), engine); if (error.isError()) { thread->setError(error); return EGL_FALSE; } thread->setError(NoError()); return EGL_TRUE; } EGLBoolean EGLAPIENTRY SwapBuffers(EGLDisplay dpy, EGLSurface surface) { EVENT("(EGLDisplay dpy = 0x%0.8p, EGLSurface surface = 0x%0.8p)", dpy, surface); Thread *thread = GetCurrentThread(); Display *display = static_cast<Display *>(dpy); Surface *eglSurface = (Surface *)surface; Error error = ValidateSurface(display, eglSurface); if (error.isError()) { thread->setError(error); return EGL_FALSE; } if (display->testDeviceLost()) { thread->setError(EglContextLost()); return EGL_FALSE; } if (surface == EGL_NO_SURFACE) { thread->setError(EglBadSurface()); return EGL_FALSE; } if (!thread->getContext() || thread->getCurrentDrawSurface() != eglSurface) { thread->setError(EglBadSurface()); return EGL_FALSE; } error = eglSurface->swap(thread->getContext()); if (error.isError()) { thread->setError(error); return EGL_FALSE; } thread->setError(NoError()); return EGL_TRUE; } EGLBoolean EGLAPIENTRY CopyBuffers(EGLDisplay dpy, EGLSurface surface, EGLNativePixmapType target) { EVENT( "(EGLDisplay dpy = 0x%0.8p, EGLSurface surface = 0x%0.8p, EGLNativePixmapType target = " "0x%0.8p)", dpy, surface, target); Thread *thread = GetCurrentThread(); Display *display = static_cast<Display *>(dpy); Surface *eglSurface = static_cast<Surface *>(surface); Error error = ValidateSurface(display, eglSurface); if (error.isError()) { thread->setError(error); return EGL_FALSE; } if (display->testDeviceLost()) { thread->setError(EglContextLost()); return EGL_FALSE; } UNIMPLEMENTED(); // FIXME thread->setError(NoError()); return 0; } // EGL 1.1 EGLBoolean EGLAPIENTRY BindTexImage(EGLDisplay dpy, EGLSurface surface, EGLint buffer) { EVENT("(EGLDisplay dpy = 0x%0.8p, EGLSurface surface = 0x%0.8p, EGLint buffer = %d)", dpy, surface, buffer); Thread *thread = GetCurrentThread(); Display *display = static_cast<Display *>(dpy); Surface *eglSurface = static_cast<Surface *>(surface); Error error = ValidateSurface(display, eglSurface); if (error.isError()) { thread->setError(error); return EGL_FALSE; } if (buffer != EGL_BACK_BUFFER) { thread->setError(EglBadParameter()); return EGL_FALSE; } if (surface == EGL_NO_SURFACE || eglSurface->getType() == EGL_WINDOW_BIT) { thread->setError(EglBadSurface()); return EGL_FALSE; } if (eglSurface->getBoundTexture()) { thread->setError(EglBadAccess()); return EGL_FALSE; } if (eglSurface->getTextureFormat() == EGL_NO_TEXTURE) { thread->setError(EglBadMatch()); return EGL_FALSE; } gl::Context *context = thread->getContext(); if (context) { gl::Texture *textureObject = context->getTargetTexture(GL_TEXTURE_2D); ASSERT(textureObject != nullptr); if (textureObject->getImmutableFormat()) { thread->setError(EglBadMatch()); return EGL_FALSE; } error = eglSurface->bindTexImage(context, textureObject, buffer); if (error.isError()) { thread->setError(error); return EGL_FALSE; } } thread->setError(NoError()); return EGL_TRUE; } EGLBoolean EGLAPIENTRY SurfaceAttrib(EGLDisplay dpy, EGLSurface surface, EGLint attribute, EGLint value) { EVENT( "(EGLDisplay dpy = 0x%0.8p, EGLSurface surface = 0x%0.8p, EGLint attribute = %d, EGLint " "value = %d)", dpy, surface, attribute, value); Thread *thread = GetCurrentThread(); Display *display = static_cast<Display *>(dpy); Surface *eglSurface = static_cast<Surface *>(surface); Error error = ValidateSurfaceAttrib(display, eglSurface, attribute, value); if (error.isError()) { thread->setError(error); return EGL_FALSE; } SetSurfaceAttrib(eglSurface, attribute, value); thread->setError(NoError()); return EGL_TRUE; } EGLBoolean EGLAPIENTRY ReleaseTexImage(EGLDisplay dpy, EGLSurface surface, EGLint buffer) { EVENT("(EGLDisplay dpy = 0x%0.8p, EGLSurface surface = 0x%0.8p, EGLint buffer = %d)", dpy, surface, buffer); Thread *thread = GetCurrentThread(); Display *display = static_cast<Display *>(dpy); Surface *eglSurface = static_cast<Surface *>(surface); Error error = ValidateSurface(display, eglSurface); if (error.isError()) { thread->setError(error); return EGL_FALSE; } if (buffer != EGL_BACK_BUFFER) { thread->setError(EglBadParameter()); return EGL_FALSE; } if (surface == EGL_NO_SURFACE || eglSurface->getType() == EGL_WINDOW_BIT) { thread->setError(EglBadSurface()); return EGL_FALSE; } if (eglSurface->getTextureFormat() == EGL_NO_TEXTURE) { thread->setError(EglBadMatch()); return EGL_FALSE; } gl::Texture *texture = eglSurface->getBoundTexture(); if (texture) { error = eglSurface->releaseTexImage(thread->getContext(), buffer); if (error.isError()) { thread->setError(error); return EGL_FALSE; } } thread->setError(NoError()); return EGL_TRUE; } EGLBoolean EGLAPIENTRY SwapInterval(EGLDisplay dpy, EGLint interval) { EVENT("(EGLDisplay dpy = 0x%0.8p, EGLint interval = %d)", dpy, interval); Thread *thread = GetCurrentThread(); Display *display = static_cast<Display *>(dpy); Error error = ValidateDisplay(display); if (error.isError()) { thread->setError(error); return EGL_FALSE; } Surface *draw_surface = static_cast<Surface *>(thread->getCurrentDrawSurface()); if (draw_surface == nullptr) { thread->setError(EglBadSurface()); return EGL_FALSE; } const egl::Config *surfaceConfig = draw_surface->getConfig(); EGLint clampedInterval = std::min(std::max(interval, surfaceConfig->minSwapInterval), surfaceConfig->maxSwapInterval); draw_surface->setSwapInterval(clampedInterval); thread->setError(NoError()); return EGL_TRUE; } // EGL 1.2 EGLBoolean EGLAPIENTRY BindAPI(EGLenum api) { EVENT("(EGLenum api = 0x%X)", api); Thread *thread = GetCurrentThread(); switch (api) { case EGL_OPENGL_API: case EGL_OPENVG_API: thread->setError(EglBadParameter()); return EGL_FALSE; // Not supported by this implementation case EGL_OPENGL_ES_API: break; default: thread->setError(EglBadParameter()); return EGL_FALSE; } thread->setAPI(api); thread->setError(NoError()); return EGL_TRUE; } EGLenum EGLAPIENTRY QueryAPI(void) { EVENT("()"); Thread *thread = GetCurrentThread(); EGLenum API = thread->getAPI(); thread->setError(NoError()); return API; } EGLSurface EGLAPIENTRY CreatePbufferFromClientBuffer(EGLDisplay dpy, EGLenum buftype, EGLClientBuffer buffer, EGLConfig config, const EGLint *attrib_list) { EVENT( "(EGLDisplay dpy = 0x%0.8p, EGLenum buftype = 0x%X, EGLClientBuffer buffer = 0x%0.8p, " "EGLConfig config = 0x%0.8p, const EGLint *attrib_list = 0x%0.8p)", dpy, buftype, buffer, config, attrib_list); Thread *thread = GetCurrentThread(); Display *display = static_cast<Display *>(dpy); Config *configuration = static_cast<Config *>(config); AttributeMap attributes = AttributeMap::CreateFromIntArray(attrib_list); Error error = ValidateCreatePbufferFromClientBuffer(display, buftype, buffer, configuration, attributes); if (error.isError()) { thread->setError(error); return EGL_NO_SURFACE; } egl::Surface *surface = nullptr; error = display->createPbufferFromClientBuffer(configuration, buftype, buffer, attributes, &surface); if (error.isError()) { thread->setError(error); return EGL_NO_SURFACE; } return static_cast<EGLSurface>(surface); } EGLBoolean EGLAPIENTRY ReleaseThread(void) { EVENT("()"); Thread *thread = GetCurrentThread(); MakeCurrent(EGL_NO_DISPLAY, EGL_NO_CONTEXT, EGL_NO_SURFACE, EGL_NO_SURFACE); thread->setError(NoError()); return EGL_TRUE; } EGLBoolean EGLAPIENTRY WaitClient(void) { EVENT("()"); Thread *thread = GetCurrentThread(); Display *display = thread->getCurrentDisplay(); Error error = ValidateDisplay(display); if (error.isError()) { thread->setError(error); return EGL_FALSE; } error = display->waitClient(thread->getContext()); if (error.isError()) { thread->setError(error); return EGL_FALSE; } thread->setError(NoError()); return EGL_TRUE; } // EGL 1.4 EGLContext EGLAPIENTRY GetCurrentContext(void) { EVENT("()"); Thread *thread = GetCurrentThread(); gl::Context *context = thread->getContext(); thread->setError(NoError()); return static_cast<EGLContext>(context); } // EGL 1.5 EGLSync EGLAPIENTRY CreateSync(EGLDisplay dpy, EGLenum type, const EGLAttrib *attrib_list) { EVENT("(EGLDisplay dpy = 0x%0.8p, EGLenum type = 0x%X, const EGLint* attrib_list = 0x%0.8p)", dpy, type, attrib_list); Thread *thread = GetCurrentThread(); UNIMPLEMENTED(); thread->setError(EglBadDisplay() << "eglCreateSync unimplemented."); return EGL_NO_SYNC; } EGLBoolean EGLAPIENTRY DestroySync(EGLDisplay dpy, EGLSync sync) { EVENT("(EGLDisplay dpy = 0x%0.8p, EGLSync sync = 0x%0.8p)", dpy, sync); Thread *thread = GetCurrentThread(); UNIMPLEMENTED(); thread->setError(EglBadDisplay() << "eglDestroySync unimplemented."); return EGL_FALSE; } EGLint EGLAPIENTRY ClientWaitSync(EGLDisplay dpy, EGLSync sync, EGLint flags, EGLTime timeout) { EVENT( "(EGLDisplay dpy = 0x%0.8p, EGLSync sync = 0x%0.8p, EGLint flags = 0x%X, EGLTime timeout = " "%d)", dpy, sync, flags, timeout); Thread *thread = GetCurrentThread(); UNIMPLEMENTED(); thread->setError(EglBadDisplay() << "eglClientWaitSync unimplemented."); return 0; } EGLBoolean EGLAPIENTRY GetSyncAttrib(EGLDisplay dpy, EGLSync sync, EGLint attribute, EGLAttrib *value) { EVENT( "(EGLDisplay dpy = 0x%0.8p, EGLSync sync = 0x%0.8p, EGLint attribute = 0x%X, EGLAttrib " "*value = 0x%0.8p)", dpy, sync, attribute, value); Thread *thread = GetCurrentThread(); UNIMPLEMENTED(); thread->setError(EglBadDisplay() << "eglSyncAttrib unimplemented."); return EGL_FALSE; } EGLImage EGLAPIENTRY CreateImage(EGLDisplay dpy, EGLContext ctx, EGLenum target, EGLClientBuffer buffer, const EGLAttrib *attrib_list) { EVENT( "(EGLDisplay dpy = 0x%0.8p, EGLContext ctx = 0x%0.8p, EGLenum target = 0x%X, " "EGLClientBuffer buffer = 0x%0.8p, const EGLAttrib *attrib_list = 0x%0.8p)", dpy, ctx, target, buffer, attrib_list); Thread *thread = GetCurrentThread(); UNIMPLEMENTED(); thread->setError(EglBadDisplay() << "eglCreateImage unimplemented."); return EGL_NO_IMAGE; } EGLBoolean EGLAPIENTRY DestroyImage(EGLDisplay dpy, EGLImage image) { EVENT("(EGLDisplay dpy = 0x%0.8p, EGLImage image = 0x%0.8p)", dpy, image); Thread *thread = GetCurrentThread(); UNIMPLEMENTED(); thread->setError(EglBadDisplay() << "eglDestroyImage unimplemented."); return EGL_FALSE; } EGLDisplay EGLAPIENTRY GetPlatformDisplay(EGLenum platform, void *native_display, const EGLAttrib *attrib_list) { EVENT( "(EGLenum platform = %d, void* native_display = 0x%0.8p, const EGLint* attrib_list = " "0x%0.8p)", platform, native_display, attrib_list); Thread *thread = GetCurrentThread(); Error err = ValidateGetPlatformDisplay(platform, native_display, attrib_list); thread->setError(err); if (err.isError()) { return EGL_NO_DISPLAY; } const auto &attribMap = AttributeMap::CreateFromAttribArray(attrib_list); if (platform == EGL_PLATFORM_ANGLE_ANGLE) { return Display::GetDisplayFromNativeDisplay( gl::bitCast<EGLNativeDisplayType>(native_display), attribMap); } else if (platform == EGL_PLATFORM_DEVICE_EXT) { Device *eglDevice = reinterpret_cast<Device *>(native_display); return Display::GetDisplayFromDevice(eglDevice, attribMap); } else { UNREACHABLE(); return EGL_NO_DISPLAY; } } EGLSurface EGLAPIENTRY CreatePlatformWindowSurface(EGLDisplay dpy, EGLConfig config, void *native_window, const EGLAttrib *attrib_list) { EVENT( "(EGLDisplay dpy = 0x%0.8p, EGLConfig config = 0x%0.8p, void* native_window = 0x%0.8p, " "const EGLint* attrib_list = 0x%0.8p)", dpy, config, native_window, attrib_list); Thread *thread = GetCurrentThread(); UNIMPLEMENTED(); thread->setError(EglBadDisplay() << "eglCreatePlatformWindowSurface unimplemented."); return EGL_NO_SURFACE; } EGLSurface EGLAPIENTRY CreatePlatformPixmapSurface(EGLDisplay dpy, EGLConfig config, void *native_pixmap, const EGLAttrib *attrib_list) { EVENT( "(EGLDisplay dpy = 0x%0.8p, EGLConfig config = 0x%0.8p, void* native_pixmap = 0x%0.8p, " "const EGLint* attrib_list = 0x%0.8p)", dpy, config, native_pixmap, attrib_list); Thread *thread = GetCurrentThread(); UNIMPLEMENTED(); thread->setError(EglBadDisplay() << "eglCreatePlatformPixmapSurface unimplemented."); return EGL_NO_SURFACE; } EGLBoolean EGLAPIENTRY WaitSync(EGLDisplay dpy, EGLSync sync, EGLint flags) { EVENT("(EGLDisplay dpy = 0x%0.8p, EGLSync sync = 0x%0.8p, EGLint flags = 0x%X)", dpy, sync, flags); Thread *thread = GetCurrentThread(); UNIMPLEMENTED(); thread->setError(EglBadDisplay() << "eglWaitSync unimplemented."); return EGL_FALSE; } __eglMustCastToProperFunctionPointerType EGLAPIENTRY GetProcAddress(const char *procname) { EVENT("(const char *procname = \"%s\")", procname); Thread *thread = GetCurrentThread(); ProcEntry *entry = std::lower_bound(&g_procTable[0], &g_procTable[g_numProcs], procname, CompareProc); thread->setError(NoError()); if (entry == &g_procTable[g_numProcs] || strcmp(entry->first, procname) != 0) { return nullptr; } return entry->second; } }