pcsx2/plugins/GSdx/GSCapture.cpp

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/*
* Copyright (C) 2007-2009 Gabest
* http://www.gabest.org
*
* This Program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2, or (at your option)
* any later version.
*
* This Program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with GNU Make; see the file COPYING. If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA USA.
* http://www.gnu.org/copyleft/gpl.html
*
*/
#include "stdafx.h"
#include "GSCapture.h"
#include "GSPng.h"
#include "GSUtil.h"
#ifdef _WIN32
//
// GSSource
//
#ifdef __INTEL_COMPILER
interface __declspec(uuid("59C193BB-C520-41F3-BC1D-E245B80A86FA"))
#else
[uuid("59C193BB-C520-41F3-BC1D-E245B80A86FA")] interface
#endif
IGSSource : public IUnknown
{
STDMETHOD(DeliverNewSegment)() PURE;
STDMETHOD(DeliverFrame)(const void* bits, int pitch, bool rgba) PURE;
STDMETHOD(DeliverEOS)() PURE;
};
#ifdef __INTEL_COMPILER
class __declspec(uuid("F8BB6F4F-0965-4ED4-BA74-C6A01E6E6C77"))
#else
[uuid("F8BB6F4F-0965-4ED4-BA74-C6A01E6E6C77")] class
#endif
GSSource : public CBaseFilter, private CCritSec, public IGSSource
{
GSVector2i m_size;
REFERENCE_TIME m_atpf;
REFERENCE_TIME m_now;
STDMETHODIMP NonDelegatingQueryInterface(REFIID riid, void** ppv)
{
return
riid == __uuidof(IGSSource) ? GetInterface((IGSSource*)this, ppv) :
__super::NonDelegatingQueryInterface(riid, ppv);
}
class GSSourceOutputPin : public CBaseOutputPin
{
GSVector2i m_size;
vector<CMediaType> m_mts;
public:
GSSourceOutputPin(const GSVector2i& size, REFERENCE_TIME atpf, CBaseFilter* pFilter, CCritSec* pLock, HRESULT& hr, int colorspace)
: CBaseOutputPin("GSSourceOutputPin", pFilter, pLock, &hr, L"Output")
, m_size(size)
{
CMediaType mt;
mt.majortype = MEDIATYPE_Video;
mt.formattype = FORMAT_VideoInfo;
VIDEOINFOHEADER vih;
memset(&vih, 0, sizeof(vih));
vih.AvgTimePerFrame = atpf;
vih.bmiHeader.biSize = sizeof(vih.bmiHeader);
vih.bmiHeader.biWidth = m_size.x;
vih.bmiHeader.biHeight = m_size.y;
// YUY2
mt.subtype = MEDIASUBTYPE_YUY2;
mt.lSampleSize = m_size.x * m_size.y * 2;
vih.bmiHeader.biCompression = '2YUY';
vih.bmiHeader.biPlanes = 1;
vih.bmiHeader.biBitCount = 16;
vih.bmiHeader.biSizeImage = m_size.x * m_size.y * 2;
mt.SetFormat((uint8*)&vih, sizeof(vih));
m_mts.push_back(mt);
// RGB32
mt.subtype = MEDIASUBTYPE_RGB32;
mt.lSampleSize = m_size.x * m_size.y * 4;
vih.bmiHeader.biCompression = BI_RGB;
vih.bmiHeader.biPlanes = 1;
vih.bmiHeader.biBitCount = 32;
vih.bmiHeader.biSizeImage = m_size.x * m_size.y * 4;
mt.SetFormat((uint8*)&vih, sizeof(vih));
if(colorspace == 1) m_mts.insert(m_mts.begin(), mt);
else m_mts.push_back(mt);
}
HRESULT GSSourceOutputPin::DecideBufferSize(IMemAllocator* pAlloc, ALLOCATOR_PROPERTIES* pProperties)
{
ASSERT(pAlloc && pProperties);
HRESULT hr;
pProperties->cBuffers = 1;
pProperties->cbBuffer = m_mt.lSampleSize;
ALLOCATOR_PROPERTIES Actual;
if(FAILED(hr = pAlloc->SetProperties(pProperties, &Actual)))
{
return hr;
}
if(Actual.cbBuffer < pProperties->cbBuffer)
{
return E_FAIL;
}
ASSERT(Actual.cBuffers == pProperties->cBuffers);
return S_OK;
}
HRESULT CheckMediaType(const CMediaType* pmt)
{
for(vector<CMediaType>::iterator i = m_mts.begin(); i != m_mts.end(); i++)
{
if(i->majortype == pmt->majortype && i->subtype == pmt->subtype)
{
return S_OK;
}
}
return E_FAIL;
}
HRESULT GetMediaType(int i, CMediaType* pmt)
{
CheckPointer(pmt, E_POINTER);
if(i < 0) return E_INVALIDARG;
if(i > 1) return VFW_S_NO_MORE_ITEMS;
*pmt = m_mts[i];
return S_OK;
}
STDMETHODIMP Notify(IBaseFilter* pSender, Quality q)
{
return E_NOTIMPL;
}
const CMediaType& CurrentMediaType()
{
return m_mt;
}
};
GSSourceOutputPin* m_output;
public:
GSSource(int w, int h, float fps, IUnknown* pUnk, HRESULT& hr, int colorspace)
: CBaseFilter(NAME("GSSource"), pUnk, this, __uuidof(this), &hr)
, m_output(NULL)
, m_size(w, h)
, m_atpf((REFERENCE_TIME)(10000000.0f / fps))
, m_now(0)
{
m_output = new GSSourceOutputPin(m_size, m_atpf, this, this, hr, colorspace);
}
virtual ~GSSource()
{
delete m_output;
}
DECLARE_IUNKNOWN;
int GetPinCount()
{
return 1;
}
CBasePin* GetPin(int n)
{
return n == 0 ? m_output : NULL;
}
// IGSSource
STDMETHODIMP DeliverNewSegment()
{
m_now = 0;
return m_output->DeliverNewSegment(0, _I64_MAX, 1.0);
}
STDMETHODIMP DeliverFrame(const void* bits, int pitch, bool rgba)
{
if(!m_output || !m_output->IsConnected())
{
return E_UNEXPECTED;
}
CComPtr<IMediaSample> sample;
if(FAILED(m_output->GetDeliveryBuffer(&sample, NULL, NULL, 0)))
{
return E_FAIL;
}
REFERENCE_TIME start = m_now;
REFERENCE_TIME stop = m_now + m_atpf;
sample->SetTime(&start, &stop);
sample->SetSyncPoint(TRUE);
const CMediaType& mt = m_output->CurrentMediaType();
uint8* src = (uint8*)bits;
uint8* dst = NULL;
sample->GetPointer(&dst);
int w = m_size.x;
int h = m_size.y;
int srcpitch = pitch;
if(mt.subtype == MEDIASUBTYPE_YUY2)
{
int dstpitch = ((VIDEOINFOHEADER*)mt.Format())->bmiHeader.biWidth * 2;
GSVector4 ys(0.257f, 0.504f, 0.098f, 0.0f);
GSVector4 us(-0.148f / 2, -0.291f / 2, 0.439f / 2, 0.0f);
GSVector4 vs(0.439f / 2, -0.368f / 2, -0.071f / 2, 0.0f);
if(!rgba)
{
ys = ys.zyxw();
us = us.zyxw();
vs = vs.zyxw();
}
const GSVector4 offset(16, 128, 16, 128);
for(int j = 0; j < h; j++, dst += dstpitch, src += srcpitch)
{
uint32* s = (uint32*)src;
uint16* d = (uint16*)dst;
for(int i = 0; i < w; i += 2)
{
GSVector4 c0 = GSVector4::rgba32(s[i + 0]);
GSVector4 c1 = GSVector4::rgba32(s[i + 1]);
GSVector4 c2 = c0 + c1;
GSVector4 lo = (c0 * ys).hadd(c2 * us);
GSVector4 hi = (c1 * ys).hadd(c2 * vs);
GSVector4 c = lo.hadd(hi) + offset;
*((uint32*)&d[i]) = GSVector4i(c).rgba32();
}
}
}
else if(mt.subtype == MEDIASUBTYPE_RGB32)
{
int dstpitch = ((VIDEOINFOHEADER*)mt.Format())->bmiHeader.biWidth * 4;
dst += dstpitch * (h - 1);
dstpitch = -dstpitch;
for(int j = 0; j < h; j++, dst += dstpitch, src += srcpitch)
{
if(rgba)
{
#if _M_SSE >= 0x301
GSVector4i* s = (GSVector4i*)src;
GSVector4i* d = (GSVector4i*)dst;
GSVector4i mask(2, 1, 0, 3, 6, 5, 4, 7, 10, 9, 8, 11, 14, 13, 12, 15);
for(int i = 0, w4 = w >> 2; i < w4; i++)
{
d[i] = s[i].shuffle8(mask);
}
#else
GSVector4i* s = (GSVector4i*)src;
GSVector4i* d = (GSVector4i*)dst;
for(int i = 0, w4 = w >> 2; i < w4; i++)
{
d[i] = ((s[i] & 0x00ff0000) >> 16) | ((s[i] & 0x000000ff) << 16) | (s[i] & 0x0000ff00);
}
#endif
}
else
{
memcpy(dst, src, w * 4);
}
}
}
else
{
return E_FAIL;
}
if(FAILED(m_output->Deliver(sample)))
{
return E_FAIL;
}
m_now = stop;
return S_OK;
}
STDMETHODIMP DeliverEOS()
{
return m_output->DeliverEndOfStream();
}
};
#define BeginEnumPins(pBaseFilter, pEnumPins, pPin) \
{CComPtr<IEnumPins> pEnumPins; \
if(pBaseFilter && SUCCEEDED(pBaseFilter->EnumPins(&pEnumPins))) \
{ \
for(CComPtr<IPin> pPin; S_OK == pEnumPins->Next(1, &pPin, 0); pPin = NULL) \
{ \
#define EndEnumPins }}}
static IPin* GetFirstPin(IBaseFilter* pBF, PIN_DIRECTION dir)
{
if(!pBF) return(NULL);
BeginEnumPins(pBF, pEP, pPin)
{
PIN_DIRECTION dir2;
pPin->QueryDirection(&dir2);
if(dir == dir2)
{
IPin* pRet = pPin.Detach();
pRet->Release();
return(pRet);
}
}
EndEnumPins
return(NULL);
}
#endif
//
// GSCapture
//
GSCapture::GSCapture()
: m_capturing(false), m_frame(0)
, m_out_dir("/tmp/GSdx_Capture") // FIXME Later add an option
{
m_out_dir = theApp.GetConfigS("capture_out_dir");
m_threads = theApp.GetConfigI("capture_threads");
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#if defined(__unix__)
m_compression_level = theApp.GetConfigI("png_compression_level");
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#endif
}
GSCapture::~GSCapture()
{
EndCapture();
}
bool GSCapture::BeginCapture(float fps, GSVector2i recomendedResolution, float aspect)
{
printf("Recomended resolution: %d x %d, DAR for muxing: %.4f\n", recomendedResolution.x, recomendedResolution.y, aspect);
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std::lock_guard<std::recursive_mutex> lock(m_lock);
ASSERT(fps != 0);
EndCapture();
#ifdef _WIN32
GSCaptureDlg dlg;
if(IDOK != dlg.DoModal()) return false;
m_size.x = (dlg.m_width + 7) & ~7;
m_size.y = (dlg.m_height + 7) & ~7;
wstring fn(dlg.m_filename.begin(), dlg.m_filename.end());
//
HRESULT hr;
CComPtr<ICaptureGraphBuilder2> cgb;
CComPtr<IBaseFilter> mux;
if(FAILED(hr = m_graph.CoCreateInstance(CLSID_FilterGraph))
|| FAILED(hr = cgb.CoCreateInstance(CLSID_CaptureGraphBuilder2))
|| FAILED(hr = cgb->SetFiltergraph(m_graph))
|| FAILED(hr = cgb->SetOutputFileName(&MEDIASUBTYPE_Avi, fn.c_str(), &mux, NULL)))
{
return false;
}
m_src = new GSSource(m_size.x, m_size.y, fps, NULL, hr, dlg.m_colorspace);
if (dlg.m_enc==0)
{
if (FAILED(hr = m_graph->AddFilter(m_src, L"Source")))
return false;
if (FAILED(hr = m_graph->ConnectDirect(GetFirstPin(m_src, PINDIR_OUTPUT), GetFirstPin(mux, PINDIR_INPUT), NULL)))
return false;
}
else
{
if(FAILED(hr = m_graph->AddFilter(m_src, L"Source"))
|| FAILED(hr = m_graph->AddFilter(dlg.m_enc, L"Encoder")))
{
return false;
}
if(FAILED(hr = m_graph->ConnectDirect(GetFirstPin(m_src, PINDIR_OUTPUT), GetFirstPin(dlg.m_enc, PINDIR_INPUT), NULL))
|| FAILED(hr = m_graph->ConnectDirect(GetFirstPin(dlg.m_enc, PINDIR_OUTPUT), GetFirstPin(mux, PINDIR_INPUT), NULL)))
{
return false;
}
}
BeginEnumFilters(m_graph, pEF, pBF)
{
CFilterInfo fi;
pBF->QueryFilterInfo(&fi);
wstring s(fi.achName);
printf("Filter [%p]: %s\n", pBF.p, string(s.begin(), s.end()).c_str());
BeginEnumPins(pBF, pEP, pPin)
{
CComPtr<IPin> pPinTo;
pPin->ConnectedTo(&pPinTo);
CPinInfo pi;
pPin->QueryPinInfo(&pi);
wstring s(pi.achName);
printf("- Pin [%p - %p]: %s (%s)\n", pPin.p, pPinTo.p, string(s.begin(), s.end()).c_str(), pi.dir ? "out" : "in");
BeginEnumMediaTypes(pPin, pEMT, pmt)
{
}
EndEnumMediaTypes(pmt)
}
EndEnumPins
}
EndEnumFilters
hr = CComQIPtr<IMediaControl>(m_graph)->Run();
CComQIPtr<IGSSource>(m_src)->DeliverNewSegment();
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#elif defined(__unix__)
// Note I think it doesn't support multiple depth creation
GSmkdir(m_out_dir.c_str());
// Really cheap recording
m_frame = 0;
// Add option !!!
m_size.x = theApp.GetConfigI("CaptureWidth");
m_size.y = theApp.GetConfigI("CaptureHeight");
for(int i = 0; i < m_threads; i++) {
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m_workers.push_back(std::unique_ptr<GSPng::Worker>(new GSPng::Worker()));
}
#endif
m_capturing = true;
return true;
}
bool GSCapture::DeliverFrame(const void* bits, int pitch, bool rgba)
{
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std::lock_guard<std::recursive_mutex> lock(m_lock);
if(bits == NULL || pitch == 0)
{
ASSERT(0);
return false;
}
#ifdef _WIN32
if(m_src)
{
CComQIPtr<IGSSource>(m_src)->DeliverFrame(bits, pitch, rgba);
return true;
}
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#elif defined(__unix__)
std::string out_file = m_out_dir + format("/frame.%010d.png", m_frame);
//GSPng::Save(GSPng::RGB_PNG, out_file, (uint8*)bits, m_size.x, m_size.y, pitch, m_compression_level);
m_workers[m_frame%m_threads]->Push(shared_ptr<GSPng::Transaction>(new GSPng::Transaction(GSPng::RGB_PNG, out_file, static_cast<const uint8*>(bits), m_size.x, m_size.y, pitch, m_compression_level)));
m_frame++;
#endif
return false;
}
bool GSCapture::EndCapture()
{
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std::lock_guard<std::recursive_mutex> lock(m_lock);
#ifdef _WIN32
if(m_src)
{
CComQIPtr<IGSSource>(m_src)->DeliverEOS();
m_src = NULL;
}
if(m_graph)
{
CComQIPtr<IMediaControl>(m_graph)->Stop();
m_graph = NULL;
}
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#elif defined(__unix__)
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// XXX Might not be necessary to wait
for(size_t i = 0; i < m_workers.size(); i++) {
m_workers[i]->Wait();
}
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m_workers.clear();
m_frame = 0;
#endif
m_capturing = false;
return true;
}