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/*
* Copyright (C) 2005-2018 Team Kodi
* This file is part of Kodi - https://kodi.tv
*
* SPDX-License-Identifier: GPL-2.0-or-later
* See LICENSES/README.md for more information.
*/
#include "WinSystemAndroidGLESContext.h"
#include "ServiceBroker.h"
#include "VideoSyncAndroid.h"
#include "cores/VideoPlayer/DVDCodecs/Video/DVDVideoCodec.h"
#include "settings/Settings.h"
#include "settings/SettingsComponent.h"
#include "threads/SingleLock.h"
#include "utils/log.h"
#include "windowing/WindowSystemFactory.h"
#include "platform/android/activity/XBMCApp.h"
#include <EGL/eglext.h>
#include <unistd.h>
#include "PlatformDefs.h"
void CWinSystemAndroidGLESContext::Register()
{
KODI::WINDOWING::CWindowSystemFactory::RegisterWindowSystem(CreateWinSystem);
}
std::unique_ptr<CWinSystemBase> CWinSystemAndroidGLESContext::CreateWinSystem()
{
return std::make_unique<CWinSystemAndroidGLESContext>();
}
bool CWinSystemAndroidGLESContext::InitWindowSystem()
{
if (!CWinSystemAndroid::InitWindowSystem())
{
return false;
}
if (!m_pGLContext.CreateDisplay(m_nativeDisplay))
{
return false;
}
if (!m_pGLContext.InitializeDisplay(EGL_OPENGL_ES_API))
{
return false;
}
if (!m_pGLContext.ChooseConfig(EGL_OPENGL_ES2_BIT))
{
return false;
}
m_hasHDRConfig = m_pGLContext.ChooseConfig(EGL_OPENGL_ES2_BIT, 0, true);
m_hasEGL_BT2020_PQ_Colorspace_Extension =
CEGLUtils::HasExtension(m_pGLContext.GetEGLDisplay(), "EGL_EXT_gl_colorspace_bt2020_pq");
m_hasEGL_ST2086_Extension =
CEGLUtils::HasExtension(m_pGLContext.GetEGLDisplay(), "EGL_EXT_surface_SMPTE2086_metadata");
bool hasEGLHDRExtensions = m_hasEGL_BT2020_PQ_Colorspace_Extension && m_hasEGL_ST2086_Extension;
CLog::Log(LOGDEBUG,
"CWinSystemAndroidGLESContext::InitWindowSystem: HDRConfig: {}, HDRExtensions: {}",
static_cast<int>(m_hasHDRConfig), static_cast<int>(hasEGLHDRExtensions));
CEGLAttributesVec contextAttribs;
contextAttribs.Add({{EGL_CONTEXT_CLIENT_VERSION, 2}});
if (!m_pGLContext.CreateContext(contextAttribs))
{
return false;
}
return true;
}
bool CWinSystemAndroidGLESContext::CreateNewWindow(const std::string& name,
bool fullScreen,
RESOLUTION_INFO& res)
{
m_pGLContext.DestroySurface();
if (!CWinSystemAndroid::CreateNewWindow(name, fullScreen, res))
{
return false;
}
if (!CreateSurface())
{
return false;
}
if (!m_pGLContext.BindContext())
{
return false;
}
return true;
}
bool CWinSystemAndroidGLESContext::ResizeWindow(int newWidth, int newHeight, int newLeft, int newTop)
{
CRenderSystemGLES::ResetRenderSystem(newWidth, newHeight);
return true;
}
bool CWinSystemAndroidGLESContext::SetFullScreen(bool fullScreen, RESOLUTION_INFO& res, bool blankOtherDisplays)
{
CreateNewWindow("", fullScreen, res);
CRenderSystemGLES::ResetRenderSystem(res.iWidth, res.iHeight);
return true;
}
void CWinSystemAndroidGLESContext::SetVSyncImpl(bool enable)
{
// We use Choreographer for timing
m_pGLContext.SetVSync(false);
}
void CWinSystemAndroidGLESContext::PresentRenderImpl(bool rendered)
{
if (!m_nativeWindow)
{
usleep(10000);
return;
}
// Mode change finalization was triggered by timer
if (IsHdmiModeTriggered())
SetHdmiState(true);
// Ignore EGL_BAD_SURFACE: It seems to happen during/after mode changes, but
// we can't actually do anything about it
if (rendered && !m_pGLContext.TrySwapBuffers())
CEGLUtils::Log(LOGERROR, "eglSwapBuffers failed");
CXBMCApp::Get().WaitVSync(1000);
}
float CWinSystemAndroidGLESContext::GetFrameLatencyAdjustment()
{
return CXBMCApp::Get().GetFrameLatencyMs();
}
EGLDisplay CWinSystemAndroidGLESContext::GetEGLDisplay() const
{
return m_pGLContext.GetEGLDisplay();
}
EGLSurface CWinSystemAndroidGLESContext::GetEGLSurface() const
{
return m_pGLContext.GetEGLSurface();
}
EGLContext CWinSystemAndroidGLESContext::GetEGLContext() const
{
return m_pGLContext.GetEGLContext();
}
EGLConfig CWinSystemAndroidGLESContext::GetEGLConfig() const
{
return m_pGLContext.GetEGLConfig();
}
std::unique_ptr<CVideoSync> CWinSystemAndroidGLESContext::GetVideoSync(void *clock)
{
std::unique_ptr<CVideoSync> pVSync(new CVideoSyncAndroid(clock));
return pVSync;
}
bool CWinSystemAndroidGLESContext::CreateSurface()
{
if (!m_pGLContext.CreateSurface(static_cast<EGLNativeWindowType>(m_nativeWindow->m_window),
m_HDRColorSpace))
{
if (m_HDRColorSpace != EGL_NONE)
{
m_HDRColorSpace = EGL_NONE;
m_displayMetadata = nullptr;
m_lightMetadata = nullptr;
if (!m_pGLContext.CreateSurface(static_cast<EGLNativeWindowType>(m_nativeWindow->m_window)))
return false;
}
else
return false;
}
#if EGL_EXT_surface_SMPTE2086_metadata
if (m_displayMetadata)
{
m_pGLContext.SurfaceAttrib(EGL_SMPTE2086_DISPLAY_PRIMARY_RX_EXT, static_cast<int>(av_q2d(m_displayMetadata->display_primaries[0][0]) * EGL_METADATA_SCALING_EXT + 0.5));
m_pGLContext.SurfaceAttrib(EGL_SMPTE2086_DISPLAY_PRIMARY_RY_EXT, static_cast<int>(av_q2d(m_displayMetadata->display_primaries[0][1]) * EGL_METADATA_SCALING_EXT + 0.5));
m_pGLContext.SurfaceAttrib(EGL_SMPTE2086_DISPLAY_PRIMARY_GX_EXT, static_cast<int>(av_q2d(m_displayMetadata->display_primaries[1][0]) * EGL_METADATA_SCALING_EXT + 0.5));
m_pGLContext.SurfaceAttrib(EGL_SMPTE2086_DISPLAY_PRIMARY_GY_EXT, static_cast<int>(av_q2d(m_displayMetadata->display_primaries[1][1]) * EGL_METADATA_SCALING_EXT + 0.5));
m_pGLContext.SurfaceAttrib(EGL_SMPTE2086_DISPLAY_PRIMARY_BX_EXT, static_cast<int>(av_q2d(m_displayMetadata->display_primaries[2][0]) * EGL_METADATA_SCALING_EXT + 0.5));
m_pGLContext.SurfaceAttrib(EGL_SMPTE2086_DISPLAY_PRIMARY_BY_EXT, static_cast<int>(av_q2d(m_displayMetadata->display_primaries[2][1]) * EGL_METADATA_SCALING_EXT + 0.5));
m_pGLContext.SurfaceAttrib(EGL_SMPTE2086_WHITE_POINT_X_EXT, static_cast<int>(av_q2d(m_displayMetadata->white_point[0]) * EGL_METADATA_SCALING_EXT + 0.5));
m_pGLContext.SurfaceAttrib(EGL_SMPTE2086_WHITE_POINT_Y_EXT, static_cast<int>(av_q2d(m_displayMetadata->white_point[1]) * EGL_METADATA_SCALING_EXT + 0.5));
m_pGLContext.SurfaceAttrib(EGL_SMPTE2086_MAX_LUMINANCE_EXT, static_cast<int>(av_q2d(m_displayMetadata->max_luminance) * EGL_METADATA_SCALING_EXT + 0.5));
m_pGLContext.SurfaceAttrib(EGL_SMPTE2086_MIN_LUMINANCE_EXT, static_cast<int>(av_q2d(m_displayMetadata->min_luminance) * EGL_METADATA_SCALING_EXT + 0.5));
}
if (m_lightMetadata)
{
m_pGLContext.SurfaceAttrib(EGL_CTA861_3_MAX_CONTENT_LIGHT_LEVEL_EXT, static_cast<int>(m_lightMetadata->MaxCLL * EGL_METADATA_SCALING_EXT));
m_pGLContext.SurfaceAttrib(EGL_CTA861_3_MAX_FRAME_AVERAGE_LEVEL_EXT, static_cast<int>(m_lightMetadata->MaxFALL * EGL_METADATA_SCALING_EXT));
}
#endif
return true;
}
bool CWinSystemAndroidGLESContext::IsHDRDisplay()
{
return m_hasHDRConfig && (m_hasEGL_BT2020_PQ_Colorspace_Extension || m_hasEGL_ST2086_Extension) &&
CWinSystemAndroid::IsHDRDisplay();
}
bool CWinSystemAndroidGLESContext::SetHDR(const VideoPicture* videoPicture)
{
if (!CWinSystemAndroid::IsHDRDisplay() || !CServiceBroker::GetSettingsComponent()->GetSettings()->GetBool(SETTING_WINSYSTEM_IS_HDR_DISPLAY))
return false;
EGLint HDRColorSpace = 0;
#if EGL_EXT_gl_colorspace_bt2020_linear
if (m_hasHDRConfig && m_hasEGL_BT2020_PQ_Colorspace_Extension && m_hasEGL_ST2086_Extension)
{
HDRColorSpace = EGL_NONE;
if (videoPicture && videoPicture->hasDisplayMetadata)
{
switch (videoPicture->color_space)
{
case AVCOL_SPC_BT2020_NCL:
case AVCOL_SPC_BT2020_CL:
case AVCOL_SPC_BT709:
HDRColorSpace = EGL_GL_COLORSPACE_BT2020_PQ_EXT;
break;
default:
m_displayMetadata = nullptr;
m_lightMetadata = nullptr;
}
}
else
{
m_displayMetadata = nullptr;
m_lightMetadata = nullptr;
}
if (HDRColorSpace != m_HDRColorSpace)
{
CLog::Log(LOGDEBUG, "CWinSystemAndroidGLESContext::SetHDR: ColorSpace: {}", HDRColorSpace);
m_HDRColorSpace = HDRColorSpace;
m_displayMetadata = m_HDRColorSpace == EGL_NONE ? nullptr : std::unique_ptr<AVMasteringDisplayMetadata>(new AVMasteringDisplayMetadata(videoPicture->displayMetadata));
// TODO: discuss with NVIDIA why this prevent turning HDR display off
//m_lightMetadata = !videoPicture || m_HDRColorSpace == EGL_NONE ? nullptr : std::unique_ptr<AVContentLightMetadata>(new AVContentLightMetadata(videoPicture->lightMetadata));
m_pGLContext.DestroySurface();
CreateSurface();
m_pGLContext.BindContext();
}
}
#endif
return m_HDRColorSpace == HDRColorSpace;
}
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