Branch :
// GENERATED FILE - DO NOT EDIT.
// Generated by generate_entry_points.py using data from egl.xml.
//
// Copyright 2020 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_autogen.cpp:
// Defines the EGL entry points.
#include "libGLESv2/entry_points_egl_autogen.h"
#include "libGLESv2/entry_points_egl_ext_autogen.h"
#include "libANGLE/capture/capture_egl_autogen.h"
#include "libANGLE/entry_points_utils.h"
#include "libANGLE/validationEGL_autogen.h"
#include "libGLESv2/egl_context_lock_impl.h"
#include "libGLESv2/egl_ext_stubs_autogen.h"
#include "libGLESv2/egl_stubs_autogen.h"
#include "libGLESv2/global_state.h"
using namespace egl;
extern "C" {
// EGL 1.0
EGLBoolean EGLAPIENTRY EGL_ChooseConfig(EGLDisplay dpy,
const EGLint *attrib_list,
EGLConfig *configs,
EGLint config_size,
EGLint *num_config)
{
Thread *thread = egl::GetCurrentThread();
EGLBoolean returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(ChooseConfig,
"dpy = 0x%016" PRIxPTR ", attrib_list = 0x%016" PRIxPTR
", configs = 0x%016" PRIxPTR ", config_size = %d, num_config = 0x%016" PRIxPTR "",
(uintptr_t)dpy, (uintptr_t)attrib_list, (uintptr_t)configs, config_size,
(uintptr_t)num_config);
egl::Display *dpyPacked = PackParam<egl::Display *>(dpy);
const AttributeMap &attrib_listPacked = PackParam<const AttributeMap &>(attrib_list);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(ChooseConfig, thread, dpyPacked);
ANGLE_EGL_VALIDATE(thread, ChooseConfig, GetDisplayIfValid(dpyPacked), EGLBoolean,
dpyPacked, attrib_listPacked, configs, config_size, num_config);
returnValue = ChooseConfig(thread, dpyPacked, attrib_listPacked, configs, config_size,
num_config);
}
ANGLE_CAPTURE_EGL(ChooseConfig, true, thread, dpyPacked, attrib_listPacked, configs,
config_size, num_config, returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
EGLBoolean EGLAPIENTRY EGL_CopyBuffers(EGLDisplay dpy,
EGLSurface surface,
EGLNativePixmapType target)
{
Thread *thread = egl::GetCurrentThread();
EGLBoolean returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(CopyBuffers,
"dpy = 0x%016" PRIxPTR ", surface = 0x%016" PRIxPTR ", target = 0x%016" PRIxPTR
"",
(uintptr_t)dpy, (uintptr_t)surface, (uintptr_t)target);
egl::Display *dpyPacked = PackParam<egl::Display *>(dpy);
SurfaceID surfacePacked = PackParam<SurfaceID>(surface);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(CopyBuffers, thread, dpyPacked);
ANGLE_EGL_VALIDATE(thread, CopyBuffers, GetDisplayIfValid(dpyPacked), EGLBoolean,
dpyPacked, surfacePacked, target);
returnValue = CopyBuffers(thread, dpyPacked, surfacePacked, target);
}
ANGLE_CAPTURE_EGL(CopyBuffers, true, thread, dpyPacked, surfacePacked, target, returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
EGLContext EGLAPIENTRY EGL_CreateContext(EGLDisplay dpy,
EGLConfig config,
EGLContext share_context,
const EGLint *attrib_list)
{
Thread *thread = egl::GetCurrentThread();
EGLContext returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(CreateContext,
"dpy = 0x%016" PRIxPTR ", config = 0x%016" PRIxPTR
", share_context = 0x%016" PRIxPTR ", attrib_list = 0x%016" PRIxPTR "",
(uintptr_t)dpy, (uintptr_t)config, (uintptr_t)share_context,
(uintptr_t)attrib_list);
egl::Display *dpyPacked = PackParam<egl::Display *>(dpy);
egl::Config *configPacked = PackParam<egl::Config *>(config);
gl::ContextID share_contextPacked = PackParam<gl::ContextID>(share_context);
const AttributeMap &attrib_listPacked = PackParam<const AttributeMap &>(attrib_list);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(CreateContext, thread, dpyPacked, share_contextPacked);
ANGLE_EGL_VALIDATE(thread, CreateContext, GetDisplayIfValid(dpyPacked), EGLContext,
dpyPacked, configPacked, share_contextPacked, attrib_listPacked);
returnValue = CreateContext(thread, dpyPacked, configPacked, share_contextPacked,
attrib_listPacked);
}
ANGLE_CAPTURE_EGL(CreateContext, true, thread, dpyPacked, configPacked, share_contextPacked,
attrib_listPacked, returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
EGLSurface EGLAPIENTRY EGL_CreatePbufferSurface(EGLDisplay dpy,
EGLConfig config,
const EGLint *attrib_list)
{
Thread *thread = egl::GetCurrentThread();
EGLSurface returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(CreatePbufferSurface,
"dpy = 0x%016" PRIxPTR ", config = 0x%016" PRIxPTR
", attrib_list = 0x%016" PRIxPTR "",
(uintptr_t)dpy, (uintptr_t)config, (uintptr_t)attrib_list);
egl::Display *dpyPacked = PackParam<egl::Display *>(dpy);
egl::Config *configPacked = PackParam<egl::Config *>(config);
const AttributeMap &attrib_listPacked = PackParam<const AttributeMap &>(attrib_list);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(CreatePbufferSurface, thread, dpyPacked);
ANGLE_EGL_VALIDATE(thread, CreatePbufferSurface, GetDisplayIfValid(dpyPacked),
EGLSurface, dpyPacked, configPacked, attrib_listPacked);
returnValue = CreatePbufferSurface(thread, dpyPacked, configPacked, attrib_listPacked);
}
ANGLE_CAPTURE_EGL(CreatePbufferSurface, true, thread, dpyPacked, configPacked,
attrib_listPacked, returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
EGLSurface EGLAPIENTRY EGL_CreatePixmapSurface(EGLDisplay dpy,
EGLConfig config,
EGLNativePixmapType pixmap,
const EGLint *attrib_list)
{
Thread *thread = egl::GetCurrentThread();
EGLSurface returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(CreatePixmapSurface,
"dpy = 0x%016" PRIxPTR ", config = 0x%016" PRIxPTR ", pixmap = 0x%016" PRIxPTR
", attrib_list = 0x%016" PRIxPTR "",
(uintptr_t)dpy, (uintptr_t)config, (uintptr_t)pixmap, (uintptr_t)attrib_list);
egl::Display *dpyPacked = PackParam<egl::Display *>(dpy);
egl::Config *configPacked = PackParam<egl::Config *>(config);
const AttributeMap &attrib_listPacked = PackParam<const AttributeMap &>(attrib_list);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(CreatePixmapSurface, thread, dpyPacked);
ANGLE_EGL_VALIDATE(thread, CreatePixmapSurface, GetDisplayIfValid(dpyPacked),
EGLSurface, dpyPacked, configPacked, pixmap, attrib_listPacked);
returnValue =
CreatePixmapSurface(thread, dpyPacked, configPacked, pixmap, attrib_listPacked);
}
ANGLE_CAPTURE_EGL(CreatePixmapSurface, true, thread, dpyPacked, configPacked, pixmap,
attrib_listPacked, returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
EGLSurface EGLAPIENTRY EGL_CreateWindowSurface(EGLDisplay dpy,
EGLConfig config,
EGLNativeWindowType win,
const EGLint *attrib_list)
{
Thread *thread = egl::GetCurrentThread();
EGLSurface returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(CreateWindowSurface,
"dpy = 0x%016" PRIxPTR ", config = 0x%016" PRIxPTR ", win = 0x%016" PRIxPTR
", attrib_list = 0x%016" PRIxPTR "",
(uintptr_t)dpy, (uintptr_t)config, (uintptr_t)win, (uintptr_t)attrib_list);
egl::Display *dpyPacked = PackParam<egl::Display *>(dpy);
egl::Config *configPacked = PackParam<egl::Config *>(config);
const AttributeMap &attrib_listPacked = PackParam<const AttributeMap &>(attrib_list);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(CreateWindowSurface, thread, dpyPacked);
ANGLE_EGL_VALIDATE(thread, CreateWindowSurface, GetDisplayIfValid(dpyPacked),
EGLSurface, dpyPacked, configPacked, win, attrib_listPacked);
returnValue =
CreateWindowSurface(thread, dpyPacked, configPacked, win, attrib_listPacked);
}
ANGLE_CAPTURE_EGL(CreateWindowSurface, true, thread, dpyPacked, configPacked, win,
attrib_listPacked, returnValue);
}
egl::Display::GetCurrentThreadUnlockedTailCall()->run(nullptr);
return returnValue;
}
EGLBoolean EGLAPIENTRY EGL_DestroyContext(EGLDisplay dpy, EGLContext ctx)
{
Thread *thread = egl::GetCurrentThread();
EGLBoolean returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(DestroyContext, "dpy = 0x%016" PRIxPTR ", ctx = 0x%016" PRIxPTR "",
(uintptr_t)dpy, (uintptr_t)ctx);
egl::Display *dpyPacked = PackParam<egl::Display *>(dpy);
gl::ContextID ctxPacked = PackParam<gl::ContextID>(ctx);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(DestroyContext, thread, dpyPacked, ctxPacked);
ANGLE_EGL_VALIDATE(thread, DestroyContext, GetDisplayIfValid(dpyPacked), EGLBoolean,
dpyPacked, ctxPacked);
returnValue = DestroyContext(thread, dpyPacked, ctxPacked);
}
ANGLE_CAPTURE_EGL(DestroyContext, true, thread, dpyPacked, ctxPacked, returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
EGLBoolean EGLAPIENTRY EGL_DestroySurface(EGLDisplay dpy, EGLSurface surface)
{
Thread *thread = egl::GetCurrentThread();
EGLBoolean returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(DestroySurface, "dpy = 0x%016" PRIxPTR ", surface = 0x%016" PRIxPTR "",
(uintptr_t)dpy, (uintptr_t)surface);
egl::Display *dpyPacked = PackParam<egl::Display *>(dpy);
SurfaceID surfacePacked = PackParam<SurfaceID>(surface);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(DestroySurface, thread, dpyPacked);
ANGLE_EGL_VALIDATE(thread, DestroySurface, GetDisplayIfValid(dpyPacked), EGLBoolean,
dpyPacked, surfacePacked);
returnValue = DestroySurface(thread, dpyPacked, surfacePacked);
}
ANGLE_CAPTURE_EGL(DestroySurface, true, thread, dpyPacked, surfacePacked, returnValue);
}
egl::Display::GetCurrentThreadUnlockedTailCall()->run(nullptr);
return returnValue;
}
EGLBoolean EGLAPIENTRY EGL_GetConfigAttrib(EGLDisplay dpy,
EGLConfig config,
EGLint attribute,
EGLint *value)
{
Thread *thread = egl::GetCurrentThread();
EGLBoolean returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(GetConfigAttrib,
"dpy = 0x%016" PRIxPTR ", config = 0x%016" PRIxPTR
", attribute = %d, value = 0x%016" PRIxPTR "",
(uintptr_t)dpy, (uintptr_t)config, attribute, (uintptr_t)value);
egl::Display *dpyPacked = PackParam<egl::Display *>(dpy);
egl::Config *configPacked = PackParam<egl::Config *>(config);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(GetConfigAttrib, thread, dpyPacked, attribute);
ANGLE_EGL_VALIDATE(thread, GetConfigAttrib, GetDisplayIfValid(dpyPacked), EGLBoolean,
dpyPacked, configPacked, attribute, value);
returnValue = GetConfigAttrib(thread, dpyPacked, configPacked, attribute, value);
}
ANGLE_CAPTURE_EGL(GetConfigAttrib, true, thread, dpyPacked, configPacked, attribute, value,
returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
EGLBoolean EGLAPIENTRY EGL_GetConfigs(EGLDisplay dpy,
EGLConfig *configs,
EGLint config_size,
EGLint *num_config)
{
Thread *thread = egl::GetCurrentThread();
EGLBoolean returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(GetConfigs,
"dpy = 0x%016" PRIxPTR ", configs = 0x%016" PRIxPTR
", config_size = %d, num_config = 0x%016" PRIxPTR "",
(uintptr_t)dpy, (uintptr_t)configs, config_size, (uintptr_t)num_config);
egl::Display *dpyPacked = PackParam<egl::Display *>(dpy);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(GetConfigs, thread, dpyPacked);
ANGLE_EGL_VALIDATE(thread, GetConfigs, GetDisplayIfValid(dpyPacked), EGLBoolean,
dpyPacked, configs, config_size, num_config);
returnValue = GetConfigs(thread, dpyPacked, configs, config_size, num_config);
}
ANGLE_CAPTURE_EGL(GetConfigs, true, thread, dpyPacked, configs, config_size, num_config,
returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
EGLDisplay EGLAPIENTRY EGL_GetCurrentDisplay()
{
Thread *thread = egl::GetCurrentThread();
EGLDisplay returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(GetCurrentDisplay, "");
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(GetCurrentDisplay, thread);
ANGLE_EGL_VALIDATE(thread, GetCurrentDisplay, nullptr, EGLDisplay);
returnValue = GetCurrentDisplay(thread);
}
ANGLE_CAPTURE_EGL(GetCurrentDisplay, true, thread, returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
EGLSurface EGLAPIENTRY EGL_GetCurrentSurface(EGLint readdraw)
{
Thread *thread = egl::GetCurrentThread();
EGLSurface returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(GetCurrentSurface, "readdraw = %d", readdraw);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(GetCurrentSurface, thread);
ANGLE_EGL_VALIDATE(thread, GetCurrentSurface, nullptr, EGLSurface, readdraw);
returnValue = GetCurrentSurface(thread, readdraw);
}
ANGLE_CAPTURE_EGL(GetCurrentSurface, true, thread, readdraw, returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
EGLDisplay EGLAPIENTRY EGL_GetDisplay(EGLNativeDisplayType display_id)
{
Thread *thread = egl::GetCurrentThread();
EGLDisplay returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(GetDisplay, "display_id = 0x%016" PRIxPTR "", (uintptr_t)display_id);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(GetDisplay, thread);
ANGLE_EGL_VALIDATE(thread, GetDisplay, nullptr, EGLDisplay, display_id);
returnValue = GetDisplay(thread, display_id);
}
ANGLE_CAPTURE_EGL(GetDisplay, true, thread, display_id, returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
EGLint EGLAPIENTRY EGL_GetError()
{
Thread *thread = egl::GetCurrentThread();
EGLint returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(GetError, "");
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(GetError, thread);
ANGLE_EGL_VALIDATE(thread, GetError, nullptr, EGLint);
returnValue = GetError(thread);
}
ANGLE_CAPTURE_EGL(GetError, true, thread, returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
__eglMustCastToProperFunctionPointerType EGLAPIENTRY EGL_GetProcAddress(const char *procname)
{
Thread *thread = egl::GetCurrentThread();
__eglMustCastToProperFunctionPointerType returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(GetProcAddress, "procname = 0x%016" PRIxPTR "", (uintptr_t)procname);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(GetProcAddress, thread);
ANGLE_EGL_VALIDATE(thread, GetProcAddress, nullptr,
__eglMustCastToProperFunctionPointerType, procname);
returnValue = GetProcAddress(thread, procname);
}
ANGLE_CAPTURE_EGL(GetProcAddress, true, thread, procname, returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
EGLBoolean EGLAPIENTRY EGL_Initialize(EGLDisplay dpy, EGLint *major, EGLint *minor)
{
Thread *thread = egl::GetCurrentThread();
EGLBoolean returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(Initialize,
"dpy = 0x%016" PRIxPTR ", major = 0x%016" PRIxPTR ", minor = 0x%016" PRIxPTR "",
(uintptr_t)dpy, (uintptr_t)major, (uintptr_t)minor);
egl::Display *dpyPacked = PackParam<egl::Display *>(dpy);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(Initialize, thread, dpyPacked);
ANGLE_EGL_VALIDATE(thread, Initialize, GetDisplayIfValid(dpyPacked), EGLBoolean,
dpyPacked, major, minor);
returnValue = Initialize(thread, dpyPacked, major, minor);
}
ANGLE_CAPTURE_EGL(Initialize, true, thread, dpyPacked, major, minor, returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
EGLBoolean EGLAPIENTRY EGL_MakeCurrent(EGLDisplay dpy,
EGLSurface draw,
EGLSurface read,
EGLContext ctx)
{
Thread *thread = egl::GetCurrentThread();
EGLBoolean returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(MakeCurrent,
"dpy = 0x%016" PRIxPTR ", draw = 0x%016" PRIxPTR ", read = 0x%016" PRIxPTR
", ctx = 0x%016" PRIxPTR "",
(uintptr_t)dpy, (uintptr_t)draw, (uintptr_t)read, (uintptr_t)ctx);
egl::Display *dpyPacked = PackParam<egl::Display *>(dpy);
SurfaceID drawPacked = PackParam<SurfaceID>(draw);
SurfaceID readPacked = PackParam<SurfaceID>(read);
gl::ContextID ctxPacked = PackParam<gl::ContextID>(ctx);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(MakeCurrent, thread, dpyPacked, ctxPacked);
ANGLE_EGL_VALIDATE(thread, MakeCurrent, GetDisplayIfValid(dpyPacked), EGLBoolean,
dpyPacked, drawPacked, readPacked, ctxPacked);
returnValue = MakeCurrent(thread, dpyPacked, drawPacked, readPacked, ctxPacked);
}
ANGLE_CAPTURE_EGL(MakeCurrent, true, thread, dpyPacked, drawPacked, readPacked, ctxPacked,
returnValue);
}
egl::Display::GetCurrentThreadUnlockedTailCall()->run(nullptr);
return returnValue;
}
EGLBoolean EGLAPIENTRY EGL_QueryContext(EGLDisplay dpy,
EGLContext ctx,
EGLint attribute,
EGLint *value)
{
Thread *thread = egl::GetCurrentThread();
EGLBoolean returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(QueryContext,
"dpy = 0x%016" PRIxPTR ", ctx = 0x%016" PRIxPTR
", attribute = %d, value = 0x%016" PRIxPTR "",
(uintptr_t)dpy, (uintptr_t)ctx, attribute, (uintptr_t)value);
egl::Display *dpyPacked = PackParam<egl::Display *>(dpy);
gl::ContextID ctxPacked = PackParam<gl::ContextID>(ctx);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(QueryContext, thread, dpyPacked, ctxPacked, attribute);
ANGLE_EGL_VALIDATE(thread, QueryContext, GetDisplayIfValid(dpyPacked), EGLBoolean,
dpyPacked, ctxPacked, attribute, value);
returnValue = QueryContext(thread, dpyPacked, ctxPacked, attribute, value);
}
ANGLE_CAPTURE_EGL(QueryContext, true, thread, dpyPacked, ctxPacked, attribute, value,
returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
const char *EGLAPIENTRY EGL_QueryString(EGLDisplay dpy, EGLint name)
{
Thread *thread = egl::GetCurrentThread();
const char *returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(QueryString, "dpy = 0x%016" PRIxPTR ", name = %d", (uintptr_t)dpy, name);
egl::Display *dpyPacked = PackParam<egl::Display *>(dpy);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(QueryString, thread, dpyPacked);
ANGLE_EGL_VALIDATE(thread, QueryString, GetDisplayIfValid(dpyPacked), const char *,
dpyPacked, name);
returnValue = QueryString(thread, dpyPacked, name);
}
ANGLE_CAPTURE_EGL(QueryString, true, thread, dpyPacked, name, returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
EGLBoolean EGLAPIENTRY EGL_QuerySurface(EGLDisplay dpy,
EGLSurface surface,
EGLint attribute,
EGLint *value)
{
Thread *thread = egl::GetCurrentThread();
EGLBoolean returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(QuerySurface,
"dpy = 0x%016" PRIxPTR ", surface = 0x%016" PRIxPTR
", attribute = %d, value = 0x%016" PRIxPTR "",
(uintptr_t)dpy, (uintptr_t)surface, attribute, (uintptr_t)value);
egl::Display *dpyPacked = PackParam<egl::Display *>(dpy);
SurfaceID surfacePacked = PackParam<SurfaceID>(surface);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(QuerySurface, thread, dpyPacked, attribute);
ANGLE_EGL_VALIDATE(thread, QuerySurface, GetDisplayIfValid(dpyPacked), EGLBoolean,
dpyPacked, surfacePacked, attribute, value);
returnValue = QuerySurface(thread, dpyPacked, surfacePacked, attribute, value);
}
ANGLE_CAPTURE_EGL(QuerySurface, true, thread, dpyPacked, surfacePacked, attribute, value,
returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
EGLBoolean EGLAPIENTRY EGL_SwapBuffers(EGLDisplay dpy, EGLSurface surface)
{
ANGLE_EGLBOOLEAN_TRY(EGL_PrepareSwapBuffersANGLE(dpy, surface));
Thread *thread = egl::GetCurrentThread();
EGLBoolean returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(SwapBuffers, "dpy = 0x%016" PRIxPTR ", surface = 0x%016" PRIxPTR "",
(uintptr_t)dpy, (uintptr_t)surface);
egl::Display *dpyPacked = PackParam<egl::Display *>(dpy);
SurfaceID surfacePacked = PackParam<SurfaceID>(surface);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(SwapBuffers, thread, dpyPacked);
ANGLE_EGL_VALIDATE(thread, SwapBuffers, GetDisplayIfValid(dpyPacked), EGLBoolean,
dpyPacked, surfacePacked);
returnValue = SwapBuffers(thread, dpyPacked, surfacePacked);
}
ANGLE_CAPTURE_EGL(SwapBuffers, true, thread, dpyPacked, surfacePacked, returnValue);
}
egl::Display::GetCurrentThreadUnlockedTailCall()->run(nullptr);
return returnValue;
}
EGLBoolean EGLAPIENTRY EGL_Terminate(EGLDisplay dpy)
{
Thread *thread = egl::GetCurrentThread();
EGLBoolean returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(Terminate, "dpy = 0x%016" PRIxPTR "", (uintptr_t)dpy);
egl::Display *dpyPacked = PackParam<egl::Display *>(dpy);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(Terminate, thread, dpyPacked);
ANGLE_EGL_VALIDATE(thread, Terminate, GetDisplayIfValid(dpyPacked), EGLBoolean,
dpyPacked);
returnValue = Terminate(thread, dpyPacked);
}
ANGLE_CAPTURE_EGL(Terminate, true, thread, dpyPacked, returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
EGLBoolean EGLAPIENTRY EGL_WaitGL()
{
Thread *thread = egl::GetCurrentThread();
EGLBoolean returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(WaitGL, "");
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(WaitGL, thread);
ANGLE_EGL_VALIDATE(thread, WaitGL, nullptr, EGLBoolean);
returnValue = WaitGL(thread);
}
ANGLE_CAPTURE_EGL(WaitGL, true, thread, returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
EGLBoolean EGLAPIENTRY EGL_WaitNative(EGLint engine)
{
Thread *thread = egl::GetCurrentThread();
EGLBoolean returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(WaitNative, "engine = %d", engine);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(WaitNative, thread);
ANGLE_EGL_VALIDATE(thread, WaitNative, nullptr, EGLBoolean, engine);
returnValue = WaitNative(thread, engine);
}
ANGLE_CAPTURE_EGL(WaitNative, true, thread, engine, returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
// EGL 1.1
EGLBoolean EGLAPIENTRY EGL_BindTexImage(EGLDisplay dpy, EGLSurface surface, EGLint buffer)
{
Thread *thread = egl::GetCurrentThread();
EGLBoolean returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(BindTexImage, "dpy = 0x%016" PRIxPTR ", surface = 0x%016" PRIxPTR ", buffer = %d",
(uintptr_t)dpy, (uintptr_t)surface, buffer);
egl::Display *dpyPacked = PackParam<egl::Display *>(dpy);
SurfaceID surfacePacked = PackParam<SurfaceID>(surface);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(BindTexImage, thread, dpyPacked);
ANGLE_EGL_VALIDATE(thread, BindTexImage, GetDisplayIfValid(dpyPacked), EGLBoolean,
dpyPacked, surfacePacked, buffer);
returnValue = BindTexImage(thread, dpyPacked, surfacePacked, buffer);
}
ANGLE_CAPTURE_EGL(BindTexImage, true, thread, dpyPacked, surfacePacked, buffer,
returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
EGLBoolean EGLAPIENTRY EGL_ReleaseTexImage(EGLDisplay dpy, EGLSurface surface, EGLint buffer)
{
Thread *thread = egl::GetCurrentThread();
EGLBoolean returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(ReleaseTexImage,
"dpy = 0x%016" PRIxPTR ", surface = 0x%016" PRIxPTR ", buffer = %d",
(uintptr_t)dpy, (uintptr_t)surface, buffer);
egl::Display *dpyPacked = PackParam<egl::Display *>(dpy);
SurfaceID surfacePacked = PackParam<SurfaceID>(surface);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(ReleaseTexImage, thread, dpyPacked);
ANGLE_EGL_VALIDATE(thread, ReleaseTexImage, GetDisplayIfValid(dpyPacked), EGLBoolean,
dpyPacked, surfacePacked, buffer);
returnValue = ReleaseTexImage(thread, dpyPacked, surfacePacked, buffer);
}
ANGLE_CAPTURE_EGL(ReleaseTexImage, true, thread, dpyPacked, surfacePacked, buffer,
returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
EGLBoolean EGLAPIENTRY EGL_SurfaceAttrib(EGLDisplay dpy,
EGLSurface surface,
EGLint attribute,
EGLint value)
{
Thread *thread = egl::GetCurrentThread();
EGLBoolean returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(SurfaceAttrib,
"dpy = 0x%016" PRIxPTR ", surface = 0x%016" PRIxPTR
", attribute = %d, value = %d",
(uintptr_t)dpy, (uintptr_t)surface, attribute, value);
egl::Display *dpyPacked = PackParam<egl::Display *>(dpy);
SurfaceID surfacePacked = PackParam<SurfaceID>(surface);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(SurfaceAttrib, thread, dpyPacked, attribute);
ANGLE_EGL_VALIDATE(thread, SurfaceAttrib, GetDisplayIfValid(dpyPacked), EGLBoolean,
dpyPacked, surfacePacked, attribute, value);
returnValue = SurfaceAttrib(thread, dpyPacked, surfacePacked, attribute, value);
}
ANGLE_CAPTURE_EGL(SurfaceAttrib, true, thread, dpyPacked, surfacePacked, attribute, value,
returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
EGLBoolean EGLAPIENTRY EGL_SwapInterval(EGLDisplay dpy, EGLint interval)
{
Thread *thread = egl::GetCurrentThread();
EGLBoolean returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(SwapInterval, "dpy = 0x%016" PRIxPTR ", interval = %d", (uintptr_t)dpy, interval);
egl::Display *dpyPacked = PackParam<egl::Display *>(dpy);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(SwapInterval, thread, dpyPacked);
ANGLE_EGL_VALIDATE(thread, SwapInterval, GetDisplayIfValid(dpyPacked), EGLBoolean,
dpyPacked, interval);
returnValue = SwapInterval(thread, dpyPacked, interval);
}
ANGLE_CAPTURE_EGL(SwapInterval, true, thread, dpyPacked, interval, returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
// EGL 1.2
EGLBoolean EGLAPIENTRY EGL_BindAPI(EGLenum api)
{
Thread *thread = egl::GetCurrentThread();
EGLBoolean returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(BindAPI, "api = 0x%X", api);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(BindAPI, thread);
ANGLE_EGL_VALIDATE(thread, BindAPI, nullptr, EGLBoolean, api);
returnValue = BindAPI(thread, api);
}
ANGLE_CAPTURE_EGL(BindAPI, true, thread, api, returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
EGLSurface EGLAPIENTRY EGL_CreatePbufferFromClientBuffer(EGLDisplay dpy,
EGLenum buftype,
EGLClientBuffer buffer,
EGLConfig config,
const EGLint *attrib_list)
{
Thread *thread = egl::GetCurrentThread();
EGLSurface returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(CreatePbufferFromClientBuffer,
"dpy = 0x%016" PRIxPTR ", buftype = 0x%X, buffer = 0x%016" PRIxPTR
", config = 0x%016" PRIxPTR ", attrib_list = 0x%016" PRIxPTR "",
(uintptr_t)dpy, buftype, (uintptr_t)buffer, (uintptr_t)config,
(uintptr_t)attrib_list);
egl::Display *dpyPacked = PackParam<egl::Display *>(dpy);
egl::Config *configPacked = PackParam<egl::Config *>(config);
const AttributeMap &attrib_listPacked = PackParam<const AttributeMap &>(attrib_list);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(CreatePbufferFromClientBuffer, thread, dpyPacked);
ANGLE_EGL_VALIDATE(thread, CreatePbufferFromClientBuffer, GetDisplayIfValid(dpyPacked),
EGLSurface, dpyPacked, buftype, buffer, configPacked,
attrib_listPacked);
returnValue = CreatePbufferFromClientBuffer(thread, dpyPacked, buftype, buffer,
configPacked, attrib_listPacked);
}
ANGLE_CAPTURE_EGL(CreatePbufferFromClientBuffer, true, thread, dpyPacked, buftype, buffer,
configPacked, attrib_listPacked, returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
EGLenum EGLAPIENTRY EGL_QueryAPI()
{
Thread *thread = egl::GetCurrentThread();
EGLenum returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(QueryAPI, "");
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(QueryAPI, thread);
ANGLE_EGL_VALIDATE(thread, QueryAPI, nullptr, EGLenum);
returnValue = QueryAPI(thread);
}
ANGLE_CAPTURE_EGL(QueryAPI, true, thread, returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
EGLBoolean EGLAPIENTRY EGL_ReleaseThread()
{
Thread *thread = egl::GetCurrentThread();
EGLBoolean returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(ReleaseThread, "");
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(ReleaseThread, thread);
ANGLE_EGL_VALIDATE(thread, ReleaseThread, nullptr, EGLBoolean);
returnValue = ReleaseThread(thread);
}
ANGLE_CAPTURE_EGL(ReleaseThread, true, thread, returnValue);
}
egl::Display::GetCurrentThreadUnlockedTailCall()->run(nullptr);
return returnValue;
}
EGLBoolean EGLAPIENTRY EGL_WaitClient()
{
Thread *thread = egl::GetCurrentThread();
EGLBoolean returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(WaitClient, "");
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(WaitClient, thread);
ANGLE_EGL_VALIDATE(thread, WaitClient, nullptr, EGLBoolean);
returnValue = WaitClient(thread);
}
ANGLE_CAPTURE_EGL(WaitClient, true, thread, returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
// EGL 1.4
EGLContext EGLAPIENTRY EGL_GetCurrentContext()
{
Thread *thread = egl::GetCurrentThread();
EGLContext returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(GetCurrentContext, "");
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(GetCurrentContext, thread);
ANGLE_EGL_VALIDATE(thread, GetCurrentContext, nullptr, EGLContext);
returnValue = GetCurrentContext(thread);
}
ANGLE_CAPTURE_EGL(GetCurrentContext, true, thread, returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
// EGL 1.5
EGLint EGLAPIENTRY EGL_ClientWaitSync(EGLDisplay dpy, EGLSync sync, EGLint flags, EGLTime timeout)
{
Thread *thread = egl::GetCurrentThread();
EGLint returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(ClientWaitSync,
"dpy = 0x%016" PRIxPTR ", sync = 0x%016" PRIxPTR ", flags = %d, timeout = %llu",
(uintptr_t)dpy, (uintptr_t)sync, flags, static_cast<unsigned long long>(timeout));
egl::Display *dpyPacked = PackParam<egl::Display *>(dpy);
egl::SyncID syncPacked = PackParam<egl::SyncID>(sync);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(ClientWaitSync, thread, dpyPacked);
ANGLE_EGL_VALIDATE(thread, ClientWaitSync, GetDisplayIfValid(dpyPacked), EGLint,
dpyPacked, syncPacked, flags, timeout);
returnValue = ClientWaitSync(thread, dpyPacked, syncPacked, flags, timeout);
}
ANGLE_CAPTURE_EGL(ClientWaitSync, true, thread, dpyPacked, syncPacked, flags, timeout,
returnValue);
}
egl::Display::GetCurrentThreadUnlockedTailCall()->run(&returnValue);
return returnValue;
}
EGLImage EGLAPIENTRY EGL_CreateImage(EGLDisplay dpy,
EGLContext ctx,
EGLenum target,
EGLClientBuffer buffer,
const EGLAttrib *attrib_list)
{
Thread *thread = egl::GetCurrentThread();
EGLImage returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(CreateImage,
"dpy = 0x%016" PRIxPTR ", ctx = 0x%016" PRIxPTR
", target = 0x%X, buffer = 0x%016" PRIxPTR ", attrib_list = 0x%016" PRIxPTR "",
(uintptr_t)dpy, (uintptr_t)ctx, target, (uintptr_t)buffer,
(uintptr_t)attrib_list);
egl::Display *dpyPacked = PackParam<egl::Display *>(dpy);
gl::ContextID ctxPacked = PackParam<gl::ContextID>(ctx);
const AttributeMap &attrib_listPacked = PackParam<const AttributeMap &>(attrib_list);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(CreateImage, thread, dpyPacked, ctxPacked);
ANGLE_EGL_VALIDATE(thread, CreateImage, GetDisplayIfValid(dpyPacked), EGLImage,
dpyPacked, ctxPacked, target, buffer, attrib_listPacked);
returnValue =
CreateImage(thread, dpyPacked, ctxPacked, target, buffer, attrib_listPacked);
}
ANGLE_CAPTURE_EGL(CreateImage, true, thread, dpyPacked, ctxPacked, target, buffer,
attrib_listPacked, returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
EGLSurface EGLAPIENTRY EGL_CreatePlatformPixmapSurface(EGLDisplay dpy,
EGLConfig config,
void *native_pixmap,
const EGLAttrib *attrib_list)
{
Thread *thread = egl::GetCurrentThread();
EGLSurface returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(CreatePlatformPixmapSurface,
"dpy = 0x%016" PRIxPTR ", config = 0x%016" PRIxPTR
", native_pixmap = 0x%016" PRIxPTR ", attrib_list = 0x%016" PRIxPTR "",
(uintptr_t)dpy, (uintptr_t)config, (uintptr_t)native_pixmap,
(uintptr_t)attrib_list);
egl::Display *dpyPacked = PackParam<egl::Display *>(dpy);
egl::Config *configPacked = PackParam<egl::Config *>(config);
const AttributeMap &attrib_listPacked = PackParam<const AttributeMap &>(attrib_list);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(CreatePlatformPixmapSurface, thread, dpyPacked);
ANGLE_EGL_VALIDATE(thread, CreatePlatformPixmapSurface, GetDisplayIfValid(dpyPacked),
EGLSurface, dpyPacked, configPacked, native_pixmap,
attrib_listPacked);
returnValue = CreatePlatformPixmapSurface(thread, dpyPacked, configPacked,
native_pixmap, attrib_listPacked);
}
ANGLE_CAPTURE_EGL(CreatePlatformPixmapSurface, true, thread, dpyPacked, configPacked,
native_pixmap, attrib_listPacked, returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
EGLSurface EGLAPIENTRY EGL_CreatePlatformWindowSurface(EGLDisplay dpy,
EGLConfig config,
void *native_window,
const EGLAttrib *attrib_list)
{
Thread *thread = egl::GetCurrentThread();
EGLSurface returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(CreatePlatformWindowSurface,
"dpy = 0x%016" PRIxPTR ", config = 0x%016" PRIxPTR
", native_window = 0x%016" PRIxPTR ", attrib_list = 0x%016" PRIxPTR "",
(uintptr_t)dpy, (uintptr_t)config, (uintptr_t)native_window,
(uintptr_t)attrib_list);
egl::Display *dpyPacked = PackParam<egl::Display *>(dpy);
egl::Config *configPacked = PackParam<egl::Config *>(config);
const AttributeMap &attrib_listPacked = PackParam<const AttributeMap &>(attrib_list);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(CreatePlatformWindowSurface, thread, dpyPacked);
ANGLE_EGL_VALIDATE(thread, CreatePlatformWindowSurface, GetDisplayIfValid(dpyPacked),
EGLSurface, dpyPacked, configPacked, native_window,
attrib_listPacked);
returnValue = CreatePlatformWindowSurface(thread, dpyPacked, configPacked,
native_window, attrib_listPacked);
}
ANGLE_CAPTURE_EGL(CreatePlatformWindowSurface, true, thread, dpyPacked, configPacked,
native_window, attrib_listPacked, returnValue);
}
egl::Display::GetCurrentThreadUnlockedTailCall()->run(nullptr);
return returnValue;
}
EGLSync EGLAPIENTRY EGL_CreateSync(EGLDisplay dpy, EGLenum type, const EGLAttrib *attrib_list)
{
Thread *thread = egl::GetCurrentThread();
EGLSync returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(CreateSync,
"dpy = 0x%016" PRIxPTR ", type = 0x%X, attrib_list = 0x%016" PRIxPTR "",
(uintptr_t)dpy, type, (uintptr_t)attrib_list);
egl::Display *dpyPacked = PackParam<egl::Display *>(dpy);
const AttributeMap &attrib_listPacked = PackParam<const AttributeMap &>(attrib_list);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(CreateSync, thread, dpyPacked);
ANGLE_EGL_VALIDATE(thread, CreateSync, GetDisplayIfValid(dpyPacked), EGLSync, dpyPacked,
type, attrib_listPacked);
returnValue = CreateSync(thread, dpyPacked, type, attrib_listPacked);
}
ANGLE_CAPTURE_EGL(CreateSync, true, thread, dpyPacked, type, attrib_listPacked,
returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
EGLBoolean EGLAPIENTRY EGL_DestroyImage(EGLDisplay dpy, EGLImage image)
{
Thread *thread = egl::GetCurrentThread();
EGLBoolean returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(DestroyImage, "dpy = 0x%016" PRIxPTR ", image = 0x%016" PRIxPTR "",
(uintptr_t)dpy, (uintptr_t)image);
egl::Display *dpyPacked = PackParam<egl::Display *>(dpy);
ImageID imagePacked = PackParam<ImageID>(image);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(DestroyImage, thread, dpyPacked);
ANGLE_EGL_VALIDATE(thread, DestroyImage, GetDisplayIfValid(dpyPacked), EGLBoolean,
dpyPacked, imagePacked);
returnValue = DestroyImage(thread, dpyPacked, imagePacked);
}
ANGLE_CAPTURE_EGL(DestroyImage, true, thread, dpyPacked, imagePacked, returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
EGLBoolean EGLAPIENTRY EGL_DestroySync(EGLDisplay dpy, EGLSync sync)
{
Thread *thread = egl::GetCurrentThread();
EGLBoolean returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(DestroySync, "dpy = 0x%016" PRIxPTR ", sync = 0x%016" PRIxPTR "", (uintptr_t)dpy,
(uintptr_t)sync);
egl::Display *dpyPacked = PackParam<egl::Display *>(dpy);
egl::SyncID syncPacked = PackParam<egl::SyncID>(sync);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(DestroySync, thread, dpyPacked);
ANGLE_EGL_VALIDATE(thread, DestroySync, GetDisplayIfValid(dpyPacked), EGLBoolean,
dpyPacked, syncPacked);
returnValue = DestroySync(thread, dpyPacked, syncPacked);
}
ANGLE_CAPTURE_EGL(DestroySync, true, thread, dpyPacked, syncPacked, returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
EGLDisplay EGLAPIENTRY EGL_GetPlatformDisplay(EGLenum platform,
void *native_display,
const EGLAttrib *attrib_list)
{
Thread *thread = egl::GetCurrentThread();
EGLDisplay returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(GetPlatformDisplay,
"platform = 0x%X, native_display = 0x%016" PRIxPTR
", attrib_list = 0x%016" PRIxPTR "",
platform, (uintptr_t)native_display, (uintptr_t)attrib_list);
const AttributeMap &attrib_listPacked = PackParam<const AttributeMap &>(attrib_list);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(GetPlatformDisplay, thread);
ANGLE_EGL_VALIDATE(thread, GetPlatformDisplay, nullptr, EGLDisplay, platform,
native_display, attrib_listPacked);
returnValue = GetPlatformDisplay(thread, platform, native_display, attrib_listPacked);
}
ANGLE_CAPTURE_EGL(GetPlatformDisplay, true, thread, platform, native_display,
attrib_listPacked, returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
EGLBoolean EGLAPIENTRY EGL_GetSyncAttrib(EGLDisplay dpy,
EGLSync sync,
EGLint attribute,
EGLAttrib *value)
{
Thread *thread = egl::GetCurrentThread();
EGLBoolean returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(GetSyncAttrib,
"dpy = 0x%016" PRIxPTR ", sync = 0x%016" PRIxPTR
", attribute = %d, value = 0x%016" PRIxPTR "",
(uintptr_t)dpy, (uintptr_t)sync, attribute, (uintptr_t)value);
egl::Display *dpyPacked = PackParam<egl::Display *>(dpy);
egl::SyncID syncPacked = PackParam<egl::SyncID>(sync);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(GetSyncAttrib, thread, dpyPacked, attribute);
ANGLE_EGL_VALIDATE(thread, GetSyncAttrib, GetDisplayIfValid(dpyPacked), EGLBoolean,
dpyPacked, syncPacked, attribute, value);
returnValue = GetSyncAttrib(thread, dpyPacked, syncPacked, attribute, value);
}
ANGLE_CAPTURE_EGL(GetSyncAttrib, true, thread, dpyPacked, syncPacked, attribute, value,
returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
EGLBoolean EGLAPIENTRY EGL_WaitSync(EGLDisplay dpy, EGLSync sync, EGLint flags)
{
Thread *thread = egl::GetCurrentThread();
EGLBoolean returnValue;
{
ANGLE_SCOPED_GLOBAL_LOCK();
EGL_EVENT(WaitSync, "dpy = 0x%016" PRIxPTR ", sync = 0x%016" PRIxPTR ", flags = %d",
(uintptr_t)dpy, (uintptr_t)sync, flags);
egl::Display *dpyPacked = PackParam<egl::Display *>(dpy);
egl::SyncID syncPacked = PackParam<egl::SyncID>(sync);
{
ANGLE_EGL_SCOPED_CONTEXT_LOCK(WaitSync, thread, dpyPacked);
ANGLE_EGL_VALIDATE(thread, WaitSync, GetDisplayIfValid(dpyPacked), EGLBoolean,
dpyPacked, syncPacked, flags);
returnValue = WaitSync(thread, dpyPacked, syncPacked, flags);
}
ANGLE_CAPTURE_EGL(WaitSync, true, thread, dpyPacked, syncPacked, flags, returnValue);
}
ASSERT(!egl::Display::GetCurrentThreadUnlockedTailCall()->any());
return returnValue;
}
} // extern "C"