dolphin/Source/Core/VideoCommon/FrameDumper.cpp

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// Copyright 2023 Dolphin Emulator Project
// SPDX-License-Identifier: GPL-2.0-or-later
#include "VideoCommon/FrameDumper.h"
#include "Common/Assert.h"
#include "Common/FileUtil.h"
#include "Common/Image.h"
#include "Core/Config/GraphicsSettings.h"
#include "Core/Config/MainSettings.h"
#include "VideoCommon/AbstractFramebuffer.h"
#include "VideoCommon/AbstractGfx.h"
#include "VideoCommon/AbstractStagingTexture.h"
#include "VideoCommon/AbstractTexture.h"
#include "VideoCommon/OnScreenDisplay.h"
#include "VideoCommon/Present.h"
#include "VideoCommon/VideoConfig.h"
static bool DumpFrameToPNG(const FrameData& frame, const std::string& file_name)
{
return Common::ConvertRGBAToRGBAndSavePNG(file_name, frame.data, frame.width, frame.height,
frame.stride,
Config::Get(Config::GFX_PNG_COMPRESSION_LEVEL));
}
FrameDumper::FrameDumper()
{
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m_frame_end_handle = AfterFrameEvent::Register([this] { FlushFrameDump(); }, "FrameDumper");
}
FrameDumper::~FrameDumper()
{
ShutdownFrameDumping();
}
void FrameDumper::DumpCurrentFrame(const AbstractTexture* src_texture,
const MathUtil::Rectangle<int>& src_rect,
const MathUtil::Rectangle<int>& target_rect, u64 ticks,
int frame_number)
{
int source_width = src_rect.GetWidth();
int source_height = src_rect.GetHeight();
int target_width = target_rect.GetWidth();
int target_height = target_rect.GetHeight();
// We only need to render a copy if we need to stretch/scale the XFB copy.
MathUtil::Rectangle<int> copy_rect = src_rect;
if (source_width != target_width || source_height != target_height)
{
if (!CheckFrameDumpRenderTexture(target_width, target_height))
return;
g_gfx->ScaleTexture(m_frame_dump_render_framebuffer.get(),
m_frame_dump_render_framebuffer->GetRect(), src_texture, src_rect);
src_texture = m_frame_dump_render_texture.get();
copy_rect = src_texture->GetRect();
}
if (!CheckFrameDumpReadbackTexture(target_width, target_height))
return;
m_frame_dump_readback_texture->CopyFromTexture(src_texture, copy_rect, 0, 0,
m_frame_dump_readback_texture->GetRect());
m_last_frame_state = m_ffmpeg_dump.FetchState(ticks, frame_number);
m_frame_dump_needs_flush = true;
}
bool FrameDumper::CheckFrameDumpRenderTexture(u32 target_width, u32 target_height)
{
// Ensure framebuffer exists (we lazily allocate it in case frame dumping isn't used).
// Or, resize texture if it isn't large enough to accommodate the current frame.
if (m_frame_dump_render_texture && m_frame_dump_render_texture->GetWidth() == target_width &&
m_frame_dump_render_texture->GetHeight() == target_height)
{
return true;
}
// Recreate texture, but release before creating so we don't temporarily use twice the RAM.
m_frame_dump_render_framebuffer.reset();
m_frame_dump_render_texture.reset();
m_frame_dump_render_texture = g_gfx->CreateTexture(
TextureConfig(target_width, target_height, 1, 1, 1, AbstractTextureFormat::RGBA8,
AbstractTextureFlag_RenderTarget),
"Frame dump render texture");
if (!m_frame_dump_render_texture)
{
PanicAlertFmt("Failed to allocate frame dump render texture");
return false;
}
m_frame_dump_render_framebuffer =
g_gfx->CreateFramebuffer(m_frame_dump_render_texture.get(), nullptr);
ASSERT(m_frame_dump_render_framebuffer);
return true;
}
bool FrameDumper::CheckFrameDumpReadbackTexture(u32 target_width, u32 target_height)
{
std::unique_ptr<AbstractStagingTexture>& rbtex = m_frame_dump_readback_texture;
if (rbtex && rbtex->GetWidth() == target_width && rbtex->GetHeight() == target_height)
return true;
rbtex.reset();
rbtex = g_gfx->CreateStagingTexture(
StagingTextureType::Readback,
TextureConfig(target_width, target_height, 1, 1, 1, AbstractTextureFormat::RGBA8, 0));
if (!rbtex)
return false;
return true;
}
void FrameDumper::FlushFrameDump()
{
if (!m_frame_dump_needs_flush)
return;
// Ensure dumping thread is done with output texture before swapping.
FinishFrameData();
std::swap(m_frame_dump_output_texture, m_frame_dump_readback_texture);
// Queue encoding of the last frame dumped.
auto& output = m_frame_dump_output_texture;
output->Flush();
if (output->Map())
{
DumpFrameData(reinterpret_cast<u8*>(output->GetMappedPointer()), output->GetConfig().width,
output->GetConfig().height, static_cast<int>(output->GetMappedStride()));
}
else
{
ERROR_LOG_FMT(VIDEO, "Failed to map texture for dumping.");
}
m_frame_dump_needs_flush = false;
// Shutdown frame dumping if it is no longer active.
if (!IsFrameDumping())
ShutdownFrameDumping();
}
void FrameDumper::ShutdownFrameDumping()
{
// Ensure the last queued readback has been sent to the encoder.
FlushFrameDump();
if (!m_frame_dump_thread_running.IsSet())
return;
// Ensure previous frame has been encoded.
FinishFrameData();
// Wake thread up, and wait for it to exit.
m_frame_dump_thread_running.Clear();
m_frame_dump_start.Set();
if (m_frame_dump_thread.joinable())
m_frame_dump_thread.join();
m_frame_dump_render_framebuffer.reset();
m_frame_dump_render_texture.reset();
m_frame_dump_readback_texture.reset();
m_frame_dump_output_texture.reset();
}
void FrameDumper::DumpFrameData(const u8* data, int w, int h, int stride)
{
m_frame_dump_data = FrameData{data, w, h, stride, m_last_frame_state};
if (!m_frame_dump_thread_running.IsSet())
{
if (m_frame_dump_thread.joinable())
m_frame_dump_thread.join();
m_frame_dump_thread_running.Set();
m_frame_dump_thread = std::thread(&FrameDumper::FrameDumpThreadFunc, this);
}
// Wake worker thread up.
m_frame_dump_start.Set();
m_frame_dump_frame_running = true;
}
void FrameDumper::FinishFrameData()
{
if (!m_frame_dump_frame_running)
return;
m_frame_dump_done.Wait();
m_frame_dump_frame_running = false;
m_frame_dump_output_texture->Unmap();
}
void FrameDumper::FrameDumpThreadFunc()
{
Common::SetCurrentThreadName("FrameDumping");
bool dump_to_ffmpeg = !g_ActiveConfig.bDumpFramesAsImages;
bool frame_dump_started = false;
// If Dolphin was compiled without ffmpeg, we only support dumping to images.
#if !defined(HAVE_FFMPEG)
if (dump_to_ffmpeg)
{
WARN_LOG_FMT(VIDEO, "FrameDump: Dolphin was not compiled with FFmpeg, using fallback option. "
"Frames will be saved as PNG images instead.");
dump_to_ffmpeg = false;
}
#endif
while (true)
{
m_frame_dump_start.Wait();
if (!m_frame_dump_thread_running.IsSet())
break;
auto frame = m_frame_dump_data;
// Save screenshot
if (m_screenshot_request.TestAndClear())
{
std::lock_guard<std::mutex> lk(m_screenshot_lock);
if (DumpFrameToPNG(frame, m_screenshot_name))
OSD::AddMessage("Screenshot saved to " + m_screenshot_name);
// Reset settings
m_screenshot_name.clear();
m_screenshot_completed.Set();
}
if (Config::Get(Config::MAIN_MOVIE_DUMP_FRAMES))
{
if (!frame_dump_started)
{
if (dump_to_ffmpeg)
frame_dump_started = StartFrameDumpToFFMPEG(frame);
else
frame_dump_started = StartFrameDumpToImage(frame);
// Stop frame dumping if we fail to start.
if (!frame_dump_started)
Config::SetCurrent(Config::MAIN_MOVIE_DUMP_FRAMES, false);
}
// If we failed to start frame dumping, don't write a frame.
if (frame_dump_started)
{
if (dump_to_ffmpeg)
DumpFrameToFFMPEG(frame);
else
DumpFrameToImage(frame);
}
}
m_frame_dump_done.Set();
}
if (frame_dump_started)
{
// No additional cleanup is needed when dumping to images.
if (dump_to_ffmpeg)
StopFrameDumpToFFMPEG();
}
}
#if defined(HAVE_FFMPEG)
bool FrameDumper::StartFrameDumpToFFMPEG(const FrameData& frame)
{
// If dumping started at boot, the start time must be set to the boot time to maintain audio sync.
// TODO: Perhaps we should care about this when starting dumping in the middle of emulation too,
// but it's less important there since the first frame to dump usually gets delivered quickly.
const u64 start_ticks = frame.state.frame_number == 0 ? 0 : frame.state.ticks;
return m_ffmpeg_dump.Start(frame.width, frame.height, start_ticks);
}
void FrameDumper::DumpFrameToFFMPEG(const FrameData& frame)
{
m_ffmpeg_dump.AddFrame(frame);
}
void FrameDumper::StopFrameDumpToFFMPEG()
{
m_ffmpeg_dump.Stop();
}
#else
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bool FrameDumper::StartFrameDumpToFFMPEG(const FrameData&)
{
return false;
}
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void FrameDumper::DumpFrameToFFMPEG(const FrameData&)
{
}
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void FrameDumper::StopFrameDumpToFFMPEG()
{
}
#endif // defined(HAVE_FFMPEG)
std::string FrameDumper::GetFrameDumpNextImageFileName() const
{
return fmt::format("{}framedump_{}.png", File::GetUserPath(D_DUMPFRAMES_IDX),
m_frame_dump_image_counter);
}
bool FrameDumper::StartFrameDumpToImage(const FrameData&)
{
m_frame_dump_image_counter = 1;
if (!Config::Get(Config::MAIN_MOVIE_DUMP_FRAMES_SILENT))
{
// Only check for the presence of the first image to confirm overwriting.
// A previous run will always have at least one image, and it's safe to assume that if the user
// has allowed the first image to be overwritten, this will apply any remaining images as well.
std::string filename = GetFrameDumpNextImageFileName();
if (File::Exists(filename))
{
if (!AskYesNoFmtT("Frame dump image(s) '{0}' already exists. Overwrite?", filename))
return false;
}
}
return true;
}
void FrameDumper::DumpFrameToImage(const FrameData& frame)
{
DumpFrameToPNG(frame, GetFrameDumpNextImageFileName());
m_frame_dump_image_counter++;
}
void FrameDumper::SaveScreenshot(std::string filename)
{
std::lock_guard<std::mutex> lk(m_screenshot_lock);
m_screenshot_name = std::move(filename);
m_screenshot_request.Set();
}
bool FrameDumper::IsFrameDumping() const
{
if (m_screenshot_request.IsSet())
return true;
if (Config::Get(Config::MAIN_MOVIE_DUMP_FRAMES))
return true;
return false;
}
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void FrameDumper::DoState(PointerWrap& p)
{
#ifdef HAVE_FFMPEG
m_ffmpeg_dump.DoState(p);
#endif
}
std::unique_ptr<FrameDumper> g_frame_dumper;