Texture* D3D10Texture::CreateGDITexture(unsigned int width, unsigned int height)
{
HRESULT err;
D3D10_TEXTURE2D_DESC td;
zero(&td, sizeof(td));
td.Width = width;
td.Height = height;
td.MipLevels = 1;
td.ArraySize = 1;
td.Format = DXGI_FORMAT_B8G8R8A8_UNORM;
td.BindFlags = D3D10_BIND_SHADER_RESOURCE|D3D10_BIND_RENDER_TARGET;
td.SampleDesc.Count = 1;
td.Usage = D3D10_USAGE_DEFAULT;
td.MiscFlags = D3D10_RESOURCE_MISC_GDI_COMPATIBLE;
LPBYTE lpData = NULL;
D3D10_SUBRESOURCE_DATA srd;
zero(&srd, sizeof(srd));
ID3D10Texture2D *texVal;
if(FAILED(err = GetD3D()->CreateTexture2D(&td, NULL, &texVal)))
{
AppWarning(TEXT("D3D10Texture::CreateGDITexture: CreateTexture2D failed, result = 0x%08lX"), err);
return NULL;
}
//------------------------------------------
D3D10_SHADER_RESOURCE_VIEW_DESC resourceDesc;
zero(&resourceDesc, sizeof(resourceDesc));
resourceDesc.Format = DXGI_FORMAT_B8G8R8A8_UNORM;
resourceDesc.ViewDimension = D3D10_SRV_DIMENSION_TEXTURE2D;
resourceDesc.Texture2D.MipLevels = 1;
ID3D10ShaderResourceView *resource;
if(FAILED(err = GetD3D()->CreateShaderResourceView(texVal, &resourceDesc, &resource)))
{
SafeRelease(texVal);
AppWarning(TEXT("D3D10Texture::CreateGDITexture: CreateShaderResourceView failed, result = 0x%08lX"), err);
return NULL;
}
//------------------------------------------
D3D10Texture *newTex = new D3D10Texture;
newTex->format = GS_BGRA;
newTex->resource = resource;
newTex->texture = texVal;
newTex->width = width;
newTex->height = height;
newTex->bGDICompatible = true;
return newTex;
}
SamplerState* D3D10SamplerState::CreateSamplerState(SamplerInfo &info)
{
D3D10_SAMPLER_DESC sampDesc;
zero(&sampDesc, sizeof(sampDesc));
sampDesc.AddressU = convertAddressMode[(UINT)info.addressU];
sampDesc.AddressV = convertAddressMode[(UINT)info.addressV];
sampDesc.AddressW = convertAddressMode[(UINT)info.addressW];
sampDesc.ComparisonFunc = D3D10_COMPARISON_ALWAYS;
sampDesc.Filter = convertFilter[(UINT)info.filter];
sampDesc.MaxAnisotropy = 1;//info.maxAnisotropy;
sampDesc.MaxLOD = FLT_MAX;
mcpy(sampDesc.BorderColor, info.borderColor.ptr, sizeof(Color4));
ID3D10SamplerState *state;
HRESULT err = GetD3D()->CreateSamplerState(&sampDesc, &state);
if(FAILED(err))
{
AppWarning(TEXT("D3D10SamplerState::CreateSamplerState: unable to create sampler state, result = %08lX"), err);
return NULL;
}
//-------------------------------------------
D3D10SamplerState *samplerState = new D3D10SamplerState;
samplerState->state = state;
mcpy(&samplerState->info, &info, sizeof(SamplerInfo));
return samplerState;
}
Shader *D3D10PixelShader::CreatePixelShaderFromBlob(ShaderBlob const &blob, CTSTR lpShader, CTSTR lpFileName)
{
ShaderProcessor shaderProcessor;
if (!shaderProcessor.ProcessShader(lpShader, lpFileName))
AppWarning(TEXT("Unable to process pixel shader '%s'"), lpFileName); //don't exit, leave it to the actual shader compiler to tell the errors
//-----------------------------------------------
if (!blob.size())
return nullptr;
ID3D11PixelShader *pShader;
HRESULT err = GetD3D()->CreatePixelShader(&blob.front(), blob.size(), NULL, &pShader);
if (FAILED(err))
{
CrashError(TEXT("Unable to create pixel shader '%s', result = %08lX"), lpFileName, err);
return NULL;
}
//-----------------------------------------------
D3D10PixelShader *shader = new D3D10PixelShader;
shader->pixelShader = pShader;
if (!shader->ProcessData(shaderProcessor, lpFileName))
{
delete shader;
return NULL;
}
return shader;
}
Shader* D3D10VertexShader::CreateVertexShaderFromBlob(ShaderBlob const &blob, CTSTR lpShader, CTSTR lpFileName)
{
ShaderProcessor shaderProcessor;
if (!shaderProcessor.ProcessShader(lpShader, lpFileName))
AppWarning(TEXT("Unable to process vertex shader '%s'"), lpFileName); //don't exit, leave it to the actual shader compiler to tell the errors
//-----------------------------------------------
if (!blob.size())
return nullptr;
ComPtr<ID3D11VertexShader> vShader;
ID3D11InputLayout *vShaderLayout;
HRESULT err = GetD3D()->CreateVertexShader(&blob.front(), blob.size(), NULL, vShader.Assign());
if (FAILED(err))
{
CrashError(TEXT("Unable to create vertex shader '%s', result = %08lX"), lpFileName, err);
return NULL;
}
err = GetD3D()->CreateInputLayout(shaderProcessor.generatedLayout.Array(), shaderProcessor.generatedLayout.Num(), &blob.front(), blob.size(), &vShaderLayout);
if (FAILED(err))
{
CrashError(TEXT("Unable to create vertex layout for vertex shader '%s', result = %08lX"), lpFileName, err);
return NULL;
}
//-----------------------------------------------
D3D10VertexShader *shader = new D3D10VertexShader;
shader->vertexShader = vShader.Detach();
shader->inputLayout = vShaderLayout;
if (!shader->ProcessData(shaderProcessor, lpFileName))
{
delete shader;
return NULL;
}
shader->bHasNormals = shaderProcessor.bHasNormals;
shader->bHasColors = shaderProcessor.bHasColors;
shader->bHasTangents = shaderProcessor.bHasTangents;
shader->nTextureCoords = shaderProcessor.numTextureCoords;
shader->hViewProj = shader->GetParameterByName(TEXT("ViewProj"));
return shader;
}
bool D3D10Shader::ProcessData(ShaderProcessor &processor, CTSTR lpFileName)
{
Params.TransferFrom(processor.Params);
Samplers.TransferFrom(processor.Samplers);
constantSize = 0;
for(UINT i=0; i<Params.Num(); i++)
{
ShaderParam ¶m = Params[i];
switch(param.type)
{
case Parameter_Bool:
case Parameter_Float:
case Parameter_Int: constantSize += sizeof(float); break;
case Parameter_Vector2: constantSize += sizeof(float)*2; break;
case Parameter_Vector: constantSize += sizeof(float)*3; break;
case Parameter_Vector4: constantSize += sizeof(float)*4; break;
case Parameter_Matrix3x3: constantSize += sizeof(float)*3*3; break;
case Parameter_Matrix: constantSize += sizeof(float)*4*4; break;
}
}
if(constantSize)
{
D3D11_BUFFER_DESC bd;
zero(&bd, sizeof(bd));
bd.ByteWidth = (constantSize+15)&0xFFFFFFF0; //align to 128bit boundry
bd.Usage = D3D11_USAGE_DYNAMIC;
bd.BindFlags = D3D11_BIND_CONSTANT_BUFFER;
bd.CPUAccessFlags = D3D11_CPU_ACCESS_WRITE;
HRESULT err = GetD3D()->CreateBuffer(&bd, NULL, &constantBuffer);
if(FAILED(err))
{
AppWarning(TEXT("Unable to create constant buffer for shader '%s', result = %08lX"), lpFileName, err);
return false;
}
}
LoadDefaults();
return true;
}
Texture* D3D10Texture::CreateShared(unsigned int width, unsigned int height)
{
HRESULT err;
AppWarning(TEXT("CREATESHARED1"));
D3D10_TEXTURE2D_DESC td;
zero(&td, sizeof(td));
td.Width = width;
td.Height = height;
td.MipLevels = 1;
td.ArraySize = 1;
td.Format = DXGI_FORMAT_B8G8R8A8_UNORM;
td.BindFlags = D3D10_BIND_SHADER_RESOURCE|D3D10_BIND_RENDER_TARGET;
td.SampleDesc.Count = 1;
td.Usage = D3D10_USAGE_DEFAULT;
td.CPUAccessFlags = 0;
td.MiscFlags = D3D10_RESOURCE_MISC_SHARED;
ID3D10Texture2D *texVal;
if(FAILED(err = GetD3D()->CreateTexture2D(&td, NULL, &texVal)))
{
AppWarning(TEXT("D3D10Texture::CreateShared: CreateTexture2D failed, result = 0x%08lX"), err);
return NULL;
}
//------------------------------------------
D3D10_SHADER_RESOURCE_VIEW_DESC resourceDesc;
zero(&resourceDesc, sizeof(resourceDesc));
resourceDesc.Format = DXGI_FORMAT_B8G8R8A8_UNORM;
resourceDesc.ViewDimension = D3D10_SRV_DIMENSION_TEXTURE2D;
resourceDesc.Texture2D.MipLevels = 1;
ID3D10ShaderResourceView *resource;
if(FAILED(err = GetD3D()->CreateShaderResourceView(texVal, &resourceDesc, &resource)))
{
SafeRelease(texVal);
AppWarning(TEXT("D3D10Texture::CreateShared: CreateShaderResourceView failed, result = 0x%08lX"), err);
return NULL;
}
//------------------------------------------
ID3D10RenderTargetView *view;
err = GetD3D()->CreateRenderTargetView(texVal, NULL, &view);
if(FAILED(err))
{
SafeRelease(texVal);
SafeRelease(resource);
AppWarning(TEXT("D3D10Texture::CreateShared: CreateRenderTargetView failed, result = 0x%08lX"), err);
return NULL;
}
//------------------------------------------
D3D10Texture *newTex = new D3D10Texture;
newTex->format = GS_BGRA;
newTex->resource = resource;
newTex->texture = texVal;
newTex->renderTarget = view;
newTex->width = width;
newTex->height = height;
return newTex;
}
Texture* D3D10Texture::CreateRenderTarget(unsigned int width, unsigned int height, GSColorFormat colorFormat, BOOL bGenMipMaps)
{
HRESULT err;
if(colorFormat >= GS_DXT1)
{
AppWarning(TEXT("D3D10Texture::CreateRenderTarget: tried to a blank DXT render target"));
return NULL;
}
DXGI_FORMAT format = convertFormat[(UINT)colorFormat];
D3D10_TEXTURE2D_DESC td;
zero(&td, sizeof(td));
td.Width = width;
td.Height = height;
td.MipLevels = bGenMipMaps ? 0 : 1;
td.ArraySize = 1;
td.Format = format;
td.BindFlags = D3D10_BIND_SHADER_RESOURCE|D3D10_BIND_RENDER_TARGET;
td.SampleDesc.Count = 1;
td.Usage = D3D10_USAGE_DEFAULT;
ID3D10Texture2D *texVal;
if(FAILED(err = GetD3D()->CreateTexture2D(&td, NULL, &texVal)))
{
AppWarning(TEXT("D3D10Texture::CreateRenderTarget: CreateTexture2D failed, result = 0x%08lX"), err);
return NULL;
}
//------------------------------------------
D3D10_SHADER_RESOURCE_VIEW_DESC resourceDesc;
zero(&resourceDesc, sizeof(resourceDesc));
resourceDesc.Format = format;
resourceDesc.ViewDimension = D3D10_SRV_DIMENSION_TEXTURE2D;
resourceDesc.Texture2D.MipLevels = bGenMipMaps ? -1 : 1;
ID3D10ShaderResourceView *resource;
if(FAILED(err = GetD3D()->CreateShaderResourceView(texVal, &resourceDesc, &resource)))
{
SafeRelease(texVal);
AppWarning(TEXT("D3D10Texture::CreateRenderTarget: CreateShaderResourceView failed, result = 0x%08lX"), err);
return NULL;
}
//------------------------------------------
ID3D10RenderTargetView *view;
err = GetD3D()->CreateRenderTargetView(texVal, NULL, &view);
if(FAILED(err))
{
SafeRelease(texVal);
SafeRelease(resource);
AppWarning(TEXT("D3D10Texture::CreateRenderTarget: CreateRenderTargetView failed, result = 0x%08lX"), err);
return NULL;
}
//------------------------------------------
D3D10Texture *newTex = new D3D10Texture;
newTex->format = colorFormat;
newTex->resource = resource;
newTex->texture = texVal;
newTex->renderTarget = view;
newTex->width = width;
newTex->height = height;
return newTex;
}
Texture* D3D10Texture::CreateFromFile(CTSTR lpFile, BOOL bBuildMipMaps)
{
HRESULT err;
D3DX10_IMAGE_INFO ii;
if(FAILED(D3DX10GetImageInfoFromFile(lpFile, NULL, &ii, NULL)))
{
AppWarning(TEXT("D3D10Texture::CreateFromFile: Could not get information about texture file '%s'"), lpFile);
return NULL;
}
//------------------------------------------
if(bBuildMipMaps && (!IsPow2(ii.Width) || !IsPow2(ii.Height)))
bBuildMipMaps = FALSE;
D3DX10_IMAGE_LOAD_INFO ili;
ili.Width = D3DX10_DEFAULT;
ili.Height = D3DX10_DEFAULT;
ili.Depth = D3DX10_DEFAULT;
ili.FirstMipLevel = D3DX10_DEFAULT;
ili.MipLevels = bBuildMipMaps ? 0 : 1;
ili.Usage = (D3D10_USAGE)D3DX10_DEFAULT;
ili.BindFlags = D3DX10_DEFAULT;
ili.CpuAccessFlags = D3DX10_DEFAULT;
ili.MiscFlags = D3DX10_DEFAULT;
ili.Format = (DXGI_FORMAT)D3DX10_DEFAULT;
ili.Filter = D3DX10_DEFAULT;
ili.MipFilter = D3DX10_DEFAULT;
ili.pSrcInfo = NULL;
ID3D10Resource *texResource;
if(FAILED(err = D3DX10CreateTextureFromFile(GetD3D(), lpFile, &ili, NULL, &texResource, NULL)))
{
AppWarning(TEXT("D3D10Texture::CreateFromFile: failed to load '%s'"), lpFile);
return NULL;
}
//------------------------------------------
D3D10_SHADER_RESOURCE_VIEW_DESC resourceDesc;
zero(&resourceDesc, sizeof(resourceDesc));
resourceDesc.Format = ii.Format;
resourceDesc.ViewDimension = D3D10_SRV_DIMENSION_TEXTURE2D;
resourceDesc.Texture2D.MipLevels = bBuildMipMaps ? -1 : 1;
ID3D10ShaderResourceView *resource;
if(FAILED(err = GetD3D()->CreateShaderResourceView(texResource, &resourceDesc, &resource)))
{
SafeRelease(texResource);
AppWarning(TEXT("D3D10Texture::CreateFromFile: CreateShaderResourceView failed, result = 0x%08lX"), err);
return NULL;
}
//------------------------------------------
ID3D10Texture2D *tex2D;
err = texResource->QueryInterface(__uuidof(ID3D10Texture2D), (void**)&tex2D);
if(FAILED(err))
{
SafeRelease(texResource);
SafeRelease(resource);
AppWarning(TEXT("D3D10Texture::CreateFromFile: could not query texture interface"));
return NULL;
}
texResource->Release();
//------------------------------------------
D3D10Texture *newTex = new D3D10Texture;
newTex->resource = resource;
newTex->texture = tex2D;
newTex->width = ii.Width;
newTex->height = ii.Height;
switch(ii.Format)
{
case DXGI_FORMAT_R8_UNORM: newTex->format = GS_ALPHA; break;
case DXGI_FORMAT_A8_UNORM: newTex->format = GS_GRAYSCALE; break;
case DXGI_FORMAT_B8G8R8X8_UNORM: newTex->format = GS_BGR; break;
case DXGI_FORMAT_B8G8R8A8_UNORM: newTex->format = GS_BGRA; break;
case DXGI_FORMAT_R8G8B8A8_UNORM: newTex->format = GS_RGBA; break;
case DXGI_FORMAT_R16G16B16A16_FLOAT: newTex->format = GS_RGBA16F; break;
case DXGI_FORMAT_R32G32B32A32_FLOAT: newTex->format = GS_RGBA32F; break;
case DXGI_FORMAT_BC1_UNORM: newTex->format = GS_DXT1; break;
case DXGI_FORMAT_BC2_UNORM: newTex->format = GS_DXT3; break;
case DXGI_FORMAT_BC3_UNORM: newTex->format = GS_DXT5; break;
default:
newTex->format = GS_UNKNOWNFORMAT;
}
return newTex;
}
Texture* D3D10Texture::CreateTexture(unsigned int width, unsigned int height, GSColorFormat colorFormat, void *lpData, BOOL bGenMipMaps, BOOL bStatic)
{
HRESULT err;
if(colorFormat >= GS_DXT1)
{
AppWarning(TEXT("D3D10Texture::CreateTexture: tried to create a blank DXT texture. Use CreateFromFile instead."));
return NULL;
}
DXGI_FORMAT format = convertFormat[(UINT)colorFormat];
if(bGenMipMaps && (!IsPow2(width) || !IsPow2(height)))
{
AppWarning(TEXT("D3D10Texture::CreateTexture: Cannot generate mipmaps for a non-power-of-two sized texture. Disabling mipmap generation."));
bGenMipMaps = FALSE;
}
D3D10_TEXTURE2D_DESC td;
zero(&td, sizeof(td));
td.Width = width;
td.Height = height;
td.MipLevels = bGenMipMaps ? 0 : 1;
td.ArraySize = 1;
td.Format = format;
td.BindFlags = D3D10_BIND_SHADER_RESOURCE;
td.SampleDesc.Count = 1;
td.Usage = bStatic ? D3D10_USAGE_DEFAULT : D3D10_USAGE_DYNAMIC;
td.CPUAccessFlags = bStatic ? 0 : D3D10_CPU_ACCESS_WRITE;
D3D10_SUBRESOURCE_DATA srd;
D3D10_SUBRESOURCE_DATA *lpSRD;
if(lpData)
{
srd.pSysMem = lpData;
srd.SysMemPitch = width*formatPitch[(UINT)colorFormat];
srd.SysMemSlicePitch = 0;
lpSRD = &srd;
}
else
lpSRD = NULL;
ID3D10Texture2D *texVal;
if(FAILED(err = GetD3D()->CreateTexture2D(&td, lpSRD, &texVal)))
{
AppWarning(TEXT("D3D10Texture::CreateTexture: CreateTexture2D failed, result = 0x%08lX"), err);
return NULL;
}
//------------------------------------------
D3D10_SHADER_RESOURCE_VIEW_DESC resourceDesc;
zero(&resourceDesc, sizeof(resourceDesc));
resourceDesc.Format = format;
resourceDesc.ViewDimension = D3D10_SRV_DIMENSION_TEXTURE2D;
resourceDesc.Texture2D.MipLevels = bGenMipMaps ? -1 : 1;
ID3D10ShaderResourceView *resource;
if(FAILED(err = GetD3D()->CreateShaderResourceView(texVal, &resourceDesc, &resource)))
{
SafeRelease(texVal);
AppWarning(TEXT("D3D10Texture::CreateTexture: CreateShaderResourceView failed, result = 0x%08lX"), err);
return NULL;
}
//------------------------------------------
D3D10Texture *newTex = new D3D10Texture;
newTex->format = colorFormat;
newTex->resource = resource;
newTex->texture = texVal;
newTex->bDynamic = !bStatic;
newTex->width = width;
newTex->height = height;
return newTex;
}
Texture* D3D10Texture::CreateFromSharedHandle(unsigned int width, unsigned int height, GSColorFormat colorFormat, HANDLE handle)
{
HRESULT err;
if(colorFormat >= GS_DXT1)
{
AppWarning(TEXT("D3D10Texture::CreateFromSharedHandle: tried to a blank DXT shared texture."));
return NULL;
}
if(!handle)
{
AppWarning(TEXT("D3D10Texture::CreateFromSharedHandle: NULL handle value."));
return NULL;
}
ID3D10Resource *tempResource;
if(FAILED(err = GetD3D()->OpenSharedResource(handle, __uuidof(ID3D10Resource), (void**)&tempResource)))
{
AppWarning(TEXT("D3D10Texture::CreateFromSharedHandle: Failed to open shared handle, result = 0x%08lX"), err);
return NULL;
}
ID3D10Texture2D *texVal;
if(FAILED(err = tempResource->QueryInterface(__uuidof(ID3D10Texture2D), (void**)&texVal)))
{
SafeRelease(tempResource);
AppWarning(TEXT("D3D10Texture::CreateFromSharedHandle: could not query interface, result = 0x%08lX"), err);
return NULL;
}
tempResource->Release();
//------------------------------------------
IDXGIKeyedMutex *km;
if(FAILED(err = texVal->QueryInterface(__uuidof(IDXGIKeyedMutex), (void**)&km)))
{
//SafeRelease(texVal);
AppWarning(TEXT("D3D10Texture::CreateFromSharedHandle: could not query keyed mutex interface, result = 0x%08lX"), err);
//return NULL;
}
//------------------------------------------
DXGI_FORMAT format = convertFormat[(UINT)colorFormat];
D3D10_SHADER_RESOURCE_VIEW_DESC resourceDesc;
zero(&resourceDesc, sizeof(resourceDesc));
resourceDesc.Format = format;
resourceDesc.ViewDimension = D3D10_SRV_DIMENSION_TEXTURE2D;
resourceDesc.Texture2D.MipLevels = 1;
ID3D10ShaderResourceView *resource;
if(FAILED(err = GetD3D()->CreateShaderResourceView(texVal, &resourceDesc, &resource)))
{
SafeRelease(texVal);
AppWarning(TEXT("D3D10Texture::CreateFromSharedHandle: CreateShaderResourceView failed, result = 0x%08lX"), err);
return NULL;
}
//------------------------------------------
D3D10Texture *newTex = new D3D10Texture;
newTex->format = colorFormat;
newTex->resource = resource;
newTex->texture = texVal;
newTex->keyedMutex = km;
newTex->bDynamic = false;
newTex->width = width;
newTex->height = height;
return newTex;
}
Shader* D3D10VertexShader::CreateVertexShader(CTSTR lpShader, CTSTR lpFileName)
{
String errorString;
ShaderProcessor shaderProcessor;
if(!shaderProcessor.ProcessShader(lpShader, lpFileName))
AppWarning(TEXT("Unable to process vertex shader '%s'"), lpFileName); //don't exit, leave it to the actual shader compiler to tell the errors
//-----------------------------------------------
D3D10System *d3d10Sys = static_cast<D3D10System*>(GS);
LPCSTR lpVSType = d3d10Sys->bDisableCompatibilityMode ? "vs_4_0" : "vs_4_0_level_9_3";
String cacheFilename = FormattedString(TEXT("%s/shaderCache/%s.blob"), OBSGetAppDataPath(), lpFileName).FindReplace(TEXT("\\"), TEXT("/"));
List<BYTE> shaderBuffer;
LPVOID shaderData;
SIZE_T shaderDataSize;
ID3D10Blob *errorMessages = NULL, *shaderBlob = NULL;
HRESULT err;
if(!OSFileExists(cacheFilename) || OSGetFileModificationTime(lpFileName) > OSGetFileModificationTime(cacheFilename))
{
LPSTR lpAnsiShader = tstr_createUTF8(lpShader);
LPSTR lpAnsiFileName = tstr_createUTF8(lpFileName);
err = D3DX10CompileFromMemory(lpAnsiShader, strlen(lpAnsiShader), lpAnsiFileName, NULL, NULL, "main", lpVSType, D3D10_SHADER_OPTIMIZATION_LEVEL3, 0, NULL, &shaderBlob, &errorMessages, NULL);
Free(lpAnsiFileName);
Free(lpAnsiShader);
if(FAILED(err))
{
if(errorMessages)
{
if(errorMessages->GetBufferSize())
{
LPSTR lpErrors = (LPSTR)errorMessages->GetBufferPointer();
Log(TEXT("Error compiling vertex shader '%s':\r\n\r\n%S\r\n"), lpFileName, lpErrors);
}
errorMessages->Release();
}
CrashError(TEXT("Compilation of vertex shader '%s' failed, result = %08lX"), lpFileName, err);
return NULL;
}
shaderData = shaderBlob->GetBufferPointer();
shaderDataSize = shaderBlob->GetBufferSize();
CreatePath(GetPathDirectory(cacheFilename));
XFile cacheFile(cacheFilename, XFILE_WRITE, XFILE_CREATEALWAYS);
cacheFile.Write(shaderData, (DWORD)shaderDataSize);
}
else
{
XFile cacheFile(cacheFilename, XFILE_READ | XFILE_SHARED, XFILE_OPENEXISTING);
shaderBuffer.SetSize((unsigned)cacheFile.GetFileSize());
cacheFile.Read(shaderBuffer.Array(), shaderBuffer.Num());
shaderData = shaderBuffer.Array();
shaderDataSize = shaderBuffer.Num();
}
//-----------------------------------------------
ID3D10VertexShader *vShader;
ID3D10InputLayout *vShaderLayout;
err = GetD3D()->CreateVertexShader(shaderData, shaderDataSize, &vShader);
if(FAILED(err))
{
CrashError(TEXT("Unable to create vertex shader '%s', result = %08lX"), lpFileName, err);
SafeRelease(shaderBlob);
return NULL;
}
err = GetD3D()->CreateInputLayout(shaderProcessor.generatedLayout.Array(), shaderProcessor.generatedLayout.Num(), shaderData, shaderDataSize, &vShaderLayout);
if(FAILED(err))
{
CrashError(TEXT("Unable to create vertex layout for vertex shader '%s', result = %08lX"), lpFileName, err);
SafeRelease(shaderBlob);
SafeRelease(vShader);
return NULL;
}
SafeRelease(shaderBlob);
//-----------------------------------------------
D3D10VertexShader *shader = new D3D10VertexShader;
shader->vertexShader = vShader;
shader->inputLayout = vShaderLayout;
if(!shader->ProcessData(shaderProcessor, lpFileName))
{
delete shader;
return NULL;
}
shader->bHasNormals = shaderProcessor.bHasNormals;
shader->bHasColors = shaderProcessor.bHasColors;
shader->bHasTangents = shaderProcessor.bHasTangents;
shader->nTextureCoords = shaderProcessor.numTextureCoords;
shader->hViewProj = shader->GetParameterByName(TEXT("ViewProj"));
return shader;
}
void OBS::Start(bool recordingOnly, bool replayBufferOnly)
{
if(bRunning && !bRecording && !bRecordingReplayBuffer) return;
int networkMode = AppConfig->GetInt(TEXT("Publish"), TEXT("Mode"), 2);
DWORD delayTime = (DWORD)AppConfig->GetInt(TEXT("Publish"), TEXT("Delay"));
if (bRecording && networkMode != 0) return;
if((bRecording || bRecordingReplayBuffer) && networkMode == 0 && delayTime == 0 && !recordingOnly && !replayBufferOnly) {
bFirstConnect = !bReconnecting;
if (network)
{
NetworkStream *net = network;
network = nullptr;
delete net;
}
network = CreateRTMPPublisher();
Log(TEXT("=====Stream Start (while recording): %s============================="), CurrentDateTimeString().Array());
bSentHeaders = false;
bStreaming = true;
ReportStartStreamingTrigger();
ConfigureStreamButtons();
return;
}
bStartingUp = true;
OSEnterMutex(hStartupShutdownMutex);
DisableMenusWhileStreaming(true);
scenesConfig.SaveTo(String() << lpAppDataPath << "\\scenes.xconfig");
scenesConfig.Save();
//-------------------------------------------------------------
fps = AppConfig->GetInt(TEXT("Video"), TEXT("FPS"), 30);
frameTime = 1000/fps;
//-------------------------------------------------------------
if(!bLoggedSystemStats)
{
LogSystemStats();
bLoggedSystemStats = TRUE;
}
OSCheckForBuggyDLLs();
//-------------------------------------------------------------
retryHookTest:
bool alreadyWarnedAboutModules = false;
if (OSIncompatibleModulesLoaded())
{
Log(TEXT("Incompatible modules (pre-D3D) detected."));
int ret = OBSMessageBox(hwndMain, Str("IncompatibleModules"), NULL, MB_ICONERROR | MB_ABORTRETRYIGNORE);
if (ret == IDABORT)
{
DisableMenusWhileStreaming(false);
OSLeaveMutex (hStartupShutdownMutex);
bStartingUp = false;
return;
}
else if (ret == IDRETRY)
{
goto retryHookTest;
}
alreadyWarnedAboutModules = true;
}
String strPatchesError;
if (OSIncompatiblePatchesLoaded(strPatchesError))
{
DisableMenusWhileStreaming(false);
OSLeaveMutex (hStartupShutdownMutex);
OBSMessageBox(hwndMain, strPatchesError.Array(), NULL, MB_ICONERROR);
Log(TEXT("Incompatible patches detected."));
bStartingUp = false;
return;
}
//check the user isn't trying to stream or record with no sources which is typically
//a configuration error
if (!bTestStream)
{
bool foundSource = false;
XElement *scenes = App->scenesConfig.GetElement(TEXT("scenes"));
if (scenes)
{
UINT numScenes = scenes->NumElements();
for (UINT i = 0; i<numScenes; i++)
{
XElement *sceneElement = scenes->GetElementByID(i);
XElement *sources = sceneElement->GetElement(TEXT("sources"));
if (sources && sources->NumElements())
{
foundSource = true;
break;
}
}
}
if (!foundSource)
{
if (OBSMessageBox(hwndMain, Str("NoSourcesFound"), NULL, MB_ICONWARNING|MB_YESNO) == IDNO)
{
DisableMenusWhileStreaming(false);
OSLeaveMutex(hStartupShutdownMutex);
bStartingUp = false;
return;
}
}
}
//-------------------------------------------------------------
String processPriority = AppConfig->GetString(TEXT("General"), TEXT("Priority"), TEXT("Normal"));
if (!scmp(processPriority, TEXT("Idle")))
SetPriorityClass(GetCurrentProcess(), IDLE_PRIORITY_CLASS);
else if (!scmp(processPriority, TEXT("Above Normal")))
SetPriorityClass(GetCurrentProcess(), ABOVE_NORMAL_PRIORITY_CLASS);
else if (!scmp(processPriority, TEXT("High")))
SetPriorityClass(GetCurrentProcess(), HIGH_PRIORITY_CLASS);
networkMode = AppConfig->GetInt(TEXT("Publish"), TEXT("Mode"), 2);
delayTime = (DWORD)AppConfig->GetInt(TEXT("Publish"), TEXT("Delay"));
String strError;
bFirstConnect = !bReconnecting;
if(bTestStream || recordingOnly || replayBufferOnly)
network = CreateNullNetwork();
else
{
switch(networkMode)
{
case 0: network = (delayTime > 0) ? CreateDelayedPublisher(delayTime) : CreateRTMPPublisher(); break;
case 1: network = CreateNullNetwork(); break;
}
}
if(!network)
{
DisableMenusWhileStreaming(false);
OSLeaveMutex (hStartupShutdownMutex);
if(!bReconnecting)
OBSMessageBox(hwndMain, strError, NULL, MB_ICONERROR);
else
OBSDialogBox(hinstMain, MAKEINTRESOURCE(IDD_RECONNECTING), hwndMain, OBS::ReconnectDialogProc);
bStartingUp = false;
return;
}
bReconnecting = false;
//-------------------------------------------------------------
Log(TEXT("=====Stream Start: %s==============================================="), CurrentDateTimeString().Array());
//-------------------------------------------------------------
bEnableProjectorCursor = GlobalConfig->GetInt(L"General", L"EnableProjectorCursor", 1) != 0;
bPleaseEnableProjector = bPleaseDisableProjector = false;
int monitorID = AppConfig->GetInt(TEXT("Video"), TEXT("Monitor"));
if(monitorID >= (int)monitors.Num())
monitorID = 0;
RECT &screenRect = monitors[monitorID].rect;
int defCX = screenRect.right - screenRect.left;
int defCY = screenRect.bottom - screenRect.top;
downscaleType = AppConfig->GetInt(TEXT("Video"), TEXT("Filter"), 0);
downscale = AppConfig->GetFloat(TEXT("Video"), TEXT("Downscale"), 1.0f);
baseCX = AppConfig->GetInt(TEXT("Video"), TEXT("BaseWidth"), defCX);
baseCY = AppConfig->GetInt(TEXT("Video"), TEXT("BaseHeight"), defCY);
baseCX = MIN(MAX(baseCX, 128), 4096);
baseCY = MIN(MAX(baseCY, 128), 4096);
scaleCX = UINT(double(baseCX) / double(downscale));
scaleCY = UINT(double(baseCY) / double(downscale));
//align width to 128bit for fast SSE YUV4:2:0 conversion
outputCX = scaleCX & 0xFFFFFFFC;
outputCY = scaleCY & 0xFFFFFFFE;
bUseMultithreadedOptimizations = AppConfig->GetInt(TEXT("General"), TEXT("UseMultithreadedOptimizations"), TRUE) != 0;
Log(TEXT(" Multithreaded optimizations: %s"), (CTSTR)(bUseMultithreadedOptimizations ? TEXT("On") : TEXT("Off")));
encoderSkipThreshold = GlobalConfig->GetInt(TEXT("Video"), TEXT("EncoderSkipThreshold"), fps/4);
//------------------------------------------------------------------
Log(TEXT(" Base resolution: %ux%u"), baseCX, baseCY);
Log(TEXT(" Output resolution: %ux%u"), outputCX, outputCY);
Log(TEXT("------------------------------------------"));
//------------------------------------------------------------------
GS = new D3D10System;
GS->Init();
//Thanks to ASUS OSD hooking the goddamn user mode driver framework (!!!!), we have to re-check for dangerous
//hooks after initializing D3D.
retryHookTestV2:
if (!alreadyWarnedAboutModules)
{
if (OSIncompatibleModulesLoaded())
{
Log(TEXT("Incompatible modules (post-D3D) detected."));
int ret = OBSMessageBox(hwndMain, Str("IncompatibleModules"), NULL, MB_ICONERROR | MB_ABORTRETRYIGNORE);
if (ret == IDABORT)
{
//FIXME: really need a better way to abort startup than this...
delete network;
delete GS;
DisableMenusWhileStreaming(false);
OSLeaveMutex (hStartupShutdownMutex);
bStartingUp = false;
return;
}
else if (ret == IDRETRY)
{
goto retryHookTestV2;
}
}
}
//-------------------------------------------------------------
mainVertexShader = CreateVertexShaderFromFile(TEXT("shaders/DrawTexture.vShader"));
mainPixelShader = CreatePixelShaderFromFile(TEXT("shaders/DrawTexture.pShader"));
solidVertexShader = CreateVertexShaderFromFile(TEXT("shaders/DrawSolid.vShader"));
solidPixelShader = CreatePixelShaderFromFile(TEXT("shaders/DrawSolid.pShader"));
if(!mainVertexShader || !mainPixelShader)
CrashError(TEXT("Unable to load DrawTexture shaders"));
if(!solidVertexShader || !solidPixelShader)
CrashError(TEXT("Unable to load DrawSolid shaders"));
//------------------------------------------------------------------
CTSTR lpShader;
if(CloseFloat(downscale, 1.0))
lpShader = TEXT("shaders/DrawYUVTexture.pShader");
else if(downscale < 2.01)
{
switch(downscaleType)
{
case 0: lpShader = TEXT("shaders/DownscaleBilinear1YUV.pShader"); break;
case 1: lpShader = TEXT("shaders/DownscaleBicubicYUV.pShader"); break;
case 2: lpShader = TEXT("shaders/DownscaleLanczos6tapYUV.pShader"); break;
}
}
else if(downscale < 3.01)
lpShader = TEXT("shaders/DownscaleBilinear9YUV.pShader");
else
CrashError(TEXT("Invalid downscale value (must be either 1.0, 1.5, 2.0, 2.25, or 3.0)"));
yuvScalePixelShader = CreatePixelShaderFromFile(lpShader);
if (!yuvScalePixelShader)
CrashError(TEXT("Unable to create shader from file %s"), lpShader);
//-------------------------------------------------------------
for(UINT i=0; i<NUM_RENDER_BUFFERS; i++)
{
mainRenderTextures[i] = CreateRenderTarget(baseCX, baseCY, GS_BGRA, FALSE);
yuvRenderTextures[i] = CreateRenderTarget(outputCX, outputCY, GS_BGRA, FALSE);
}
//-------------------------------------------------------------
D3D10_TEXTURE2D_DESC td;
zero(&td, sizeof(td));
td.Width = outputCX;
td.Height = outputCY;
td.Format = DXGI_FORMAT_B8G8R8A8_UNORM;
td.MipLevels = 1;
td.ArraySize = 1;
td.SampleDesc.Count = 1;
td.ArraySize = 1;
td.Usage = D3D10_USAGE_STAGING;
td.CPUAccessFlags = D3D10_CPU_ACCESS_READ;
for(UINT i=0; i<NUM_RENDER_BUFFERS; i++)
{
HRESULT err = GetD3D()->CreateTexture2D(&td, NULL, ©Textures[i]);
if(FAILED(err))
{
CrashError(TEXT("Unable to create copy texture"));
//todo - better error handling
}
}
//------------------------------------------------------------------
String strEncoder = AppConfig->GetString(TEXT("Audio Encoding"), TEXT("Codec"), TEXT("AAC"));
BOOL isAAC = strEncoder.CompareI(TEXT("AAC"));
UINT format = AppConfig->GetInt(L"Audio Encoding", L"Format", 1);
if (!isAAC)
format = 0;
switch (format) {
case 0: sampleRateHz = 44100; break;
default:
case 1: sampleRateHz = 48000; break;
}
Log(L"------------------------------------------");
Log(L"Audio Format: %u Hz", sampleRateHz);
//------------------------------------------------------------------
BOOL isStereo = AppConfig->GetInt(L"Audio Encoding", L"isStereo", 1);
switch (isStereo) {
case 0: audioChannels = 1; break;
default:
case 1: audioChannels = 2; break;
}
Log(L"------------------------------------------");
Log(L"Audio Channels: %u Ch", audioChannels);
//------------------------------------------------------------------
AudioDeviceList playbackDevices;
bool useInputDevices = AppConfig->GetInt(L"Audio", L"InputDevicesForDesktopSound", false) != 0;
GetAudioDevices(playbackDevices, useInputDevices ? ADT_RECORDING : ADT_PLAYBACK);
String strPlaybackDevice = AppConfig->GetString(TEXT("Audio"), TEXT("PlaybackDevice"), TEXT("Default"));
if(strPlaybackDevice.IsEmpty() || !playbackDevices.HasID(strPlaybackDevice))
{
//AppConfig->SetString(TEXT("Audio"), TEXT("PlaybackDevice"), TEXT("Default"));
strPlaybackDevice = TEXT("Default");
}
Log(TEXT("Playback device %s"), strPlaybackDevice.Array());
playbackDevices.FreeData();
desktopAudio = CreateAudioSource(false, strPlaybackDevice);
if(!desktopAudio) {
CrashError(TEXT("Cannot initialize desktop audio sound, more info in the log file."));
}
if (useInputDevices)
Log(L"Use Input Devices enabled, not recording standard desktop audio");
AudioDeviceList audioDevices;
GetAudioDevices(audioDevices, ADT_RECORDING, false, true);
String strDevice = AppConfig->GetString(TEXT("Audio"), TEXT("Device"), NULL);
if(strDevice.IsEmpty() || !audioDevices.HasID(strDevice))
{
//AppConfig->SetString(TEXT("Audio"), TEXT("Device"), TEXT("Disable"));
strDevice = TEXT("Disable");
}
audioDevices.FreeData();
String strDefaultMic;
bool bHasDefault = GetDefaultMicID(strDefaultMic);
if(strDevice.CompareI(TEXT("Disable")))
EnableWindow(GetDlgItem(hwndMain, ID_MICVOLUME), FALSE);
else
{
bool bUseDefault = strDevice.CompareI(TEXT("Default")) != 0;
if(!bUseDefault || bHasDefault)
{
if(bUseDefault)
strDevice = strDefaultMic;
micAudio = CreateAudioSource(true, strDevice);
if(!micAudio)
OBSMessageBox(hwndMain, Str("MicrophoneFailure"), NULL, 0);
else
{
int offset = AppConfig->GetInt(TEXT("Audio"), TEXT("MicTimeOffset"), 0);
Log(L"Mic time offset: %d", offset);
micAudio->SetTimeOffset(offset);
}
EnableWindow(GetDlgItem(hwndMain, ID_MICVOLUME), micAudio != NULL);
}
else
EnableWindow(GetDlgItem(hwndMain, ID_MICVOLUME), FALSE);
}
//-------------------------------------------------------------
bool bDisableEncoding = false;
if (bTestStream)
bDisableEncoding = GlobalConfig->GetInt(TEXT("General"), TEXT("DisablePreviewEncoding"), false) != 0;
//-------------------------------------------------------------
UINT bitRate = (UINT)AppConfig->GetInt(TEXT("Audio Encoding"), TEXT("Bitrate"), 96);
if (bDisableEncoding)
audioEncoder = CreateNullAudioEncoder();
else
#ifdef USE_AAC
if(isAAC) // && OSGetVersion() >= 7)
audioEncoder = CreateAACEncoder(bitRate);
else
#endif
audioEncoder = CreateMP3Encoder(bitRate);
//-------------------------------------------------------------
desktopVol = AppConfig->GetFloat(TEXT("Audio"), TEXT("DesktopVolume"), 1.0f);
micVol = AppConfig->GetFloat(TEXT("Audio"), TEXT("MicVolume"), 1.0f);
//-------------------------------------------------------------
bRunning = true;
if(sceneElement)
{
scene = CreateScene(sceneElement->GetString(TEXT("class")), sceneElement->GetElement(TEXT("data")));
XElement *sources = sceneElement->GetElement(TEXT("sources"));
if(sources)
{
UINT numSources = sources->NumElements();
for(UINT i=0; i<numSources; i++)
{
SceneItem *item = scene->AddImageSource(sources->GetElementByID(i));
if(item)
{
if(ListView_GetItemState(GetDlgItem(hwndMain, ID_SOURCES), i, LVIS_SELECTED) > 0)
item->Select(true);
}
}
}
scene->BeginScene();
unsigned int numSources = scene->sceneItems.Num();
for(UINT i=0; i<numSources; i++)
{
XElement *source = scene->sceneItems[i]->GetElement();
String className = source->GetString(TEXT("class"));
if(scene->sceneItems[i]->bRender && className == "GlobalSource") {
XElement *globalSourceData = source->GetElement(TEXT("data"));
String globalSourceName = globalSourceData->GetString(TEXT("name"));
if(App->GetGlobalSource(globalSourceName) != NULL) {
App->GetGlobalSource(globalSourceName)->GlobalSourceEnterScene();
}
}
}
}
if(scene && scene->HasMissingSources())
OBSMessageBox(hwndMain, Str("Scene.MissingSources"), NULL, 0);
//-------------------------------------------------------------
int maxBitRate = AppConfig->GetInt (TEXT("Video Encoding"), TEXT("MaxBitrate"), 1000);
int bufferSize = maxBitRate;
if (AppConfig->GetInt(L"Video Encoding", L"UseBufferSize", 0) != 0)
bufferSize = AppConfig->GetInt (TEXT("Video Encoding"), TEXT("BufferSize"), 1000);
int quality = AppConfig->GetInt (TEXT("Video Encoding"), TEXT("Quality"), 8);
String preset = AppConfig->GetString(TEXT("Video Encoding"), TEXT("Preset"), TEXT("veryfast"));
bUsing444 = false;//AppConfig->GetInt (TEXT("Video Encoding"), TEXT("Use444"), 0) != 0;
bUseCFR = AppConfig->GetInt(TEXT("Video Encoding"), TEXT("UseCFR"), 1) != 0;
//-------------------------------------------------------------
bufferingTime = GlobalConfig->GetInt(TEXT("General"), TEXT("SceneBufferingTime"), 700);
Log(TEXT("Scene buffering time set to %u"), bufferingTime);
//-------------------------------------------------------------
bForceMicMono = AppConfig->GetInt(TEXT("Audio"), TEXT("ForceMicMono")) != 0;
bRecievedFirstAudioFrame = false;
//hRequestAudioEvent = CreateSemaphore(NULL, 0, 0x7FFFFFFFL, NULL);
hSoundDataMutex = OSCreateMutex();
hSoundThread = OSCreateThread((XTHREAD)OBS::MainAudioThread, NULL);
//-------------------------------------------------------------
//if (!useInputDevices)
// StartBlankSoundPlayback(strPlaybackDevice);
//-------------------------------------------------------------
colorDesc.fullRange = false;
colorDesc.primaries = ColorPrimaries_BT709;
colorDesc.transfer = ColorTransfer_IEC6196621;
colorDesc.matrix = outputCX >= 1280 || outputCY > 576 ? ColorMatrix_BT709 : ColorMatrix_SMPTE170M;
videoEncoder = nullptr;
String videoEncoderErrors;
String vencoder = AppConfig->GetString(L"Video Encoding", L"Encoder");
if (bDisableEncoding)
videoEncoder = CreateNullVideoEncoder();
else if(vencoder == L"QSV")
videoEncoder = CreateQSVEncoder(fps, outputCX, outputCY, quality, preset, bUsing444, colorDesc, maxBitRate, bufferSize, bUseCFR, videoEncoderErrors);
else if(vencoder == L"NVENC")
videoEncoder = CreateNVENCEncoder(fps, outputCX, outputCY, quality, preset, bUsing444, colorDesc, maxBitRate, bufferSize, bUseCFR, videoEncoderErrors);
else
videoEncoder = CreateX264Encoder(fps, outputCX, outputCY, quality, preset, bUsing444, colorDesc, maxBitRate, bufferSize, bUseCFR);
if (!videoEncoder)
{
Log(L"Couldn't initialize encoder");
Stop(true);
if (videoEncoderErrors.IsEmpty())
videoEncoderErrors = Str("Encoder.InitFailed");
else
videoEncoderErrors = String(Str("Encoder.InitFailedWithReason")) + videoEncoderErrors;
OBSMessageBox(hwndMain, videoEncoderErrors.Array(), nullptr, MB_OK | MB_ICONERROR); //might want to defer localization until here to automatically
//output english localization to logfile
return;
}
if ((bStreaming = (!recordingOnly && !replayBufferOnly) && networkMode == 0)) ReportStartStreamingTrigger();
//-------------------------------------------------------------
// Ensure that the render frame is properly sized
ResizeRenderFrame(true);
//-------------------------------------------------------------
if ((!replayBufferOnly && !StartRecording(recordingOnly)) && !bStreaming)
{
Stop(true);
return;
}
//-------------------------------------------------------------
curFramePic = NULL;
bShutdownVideoThread = false;
bShutdownEncodeThread = false;
//ResetEvent(hVideoThread);
hEncodeThread = OSCreateThread((XTHREAD)OBS::EncodeThread, NULL);
hVideoThread = OSCreateThread((XTHREAD)OBS::MainCaptureThread, NULL);
EnableWindow(GetDlgItem(hwndMain, ID_SCENEEDITOR), TRUE);
//-------------------------------------------------------------
ReportStartStreamTrigger();
SystemParametersInfo(SPI_SETSCREENSAVEACTIVE, 0, 0, 0);
SetThreadExecutionState(ES_CONTINUOUS | ES_SYSTEM_REQUIRED | ES_AWAYMODE_REQUIRED | ES_DISPLAY_REQUIRED);
UpdateRenderViewMessage();
//update notification icon to reflect current status
UpdateNotificationAreaIcon();
OSLeaveMutex (hStartupShutdownMutex);
bStartingUp = false;
ConfigureStreamButtons();
}
Texture* D3D10Texture::CreateFromSharedHandle(unsigned int width, unsigned int height, HANDLE handle)
{
HRESULT err;
if(!handle)
{
AppWarning(TEXT("D3D10Texture::CreateFromSharedHandle: NULL handle value."));
return NULL;
}
ID3D10Resource *tempResource;
if(FAILED(err = GetD3D()->OpenSharedResource(handle, __uuidof(ID3D10Resource), (void**)&tempResource)))
{
AppWarning(TEXT("D3D10Texture::CreateFromSharedHandle: Failed to open shared handle, result = 0x%08lX"), err);
return NULL;
}
ID3D10Texture2D *texVal;
if(FAILED(err = tempResource->QueryInterface(__uuidof(ID3D10Texture2D), (void**)&texVal)))
{
SafeRelease(tempResource);
AppWarning(TEXT("D3D10Texture::CreateFromSharedHandle: could not query interface, result = 0x%08lX"), err);
return NULL;
}
tempResource->Release();
//------------------------------------------
D3D10_TEXTURE2D_DESC td;
texVal->GetDesc(&td);
//------------------------------------------
D3D10_SHADER_RESOURCE_VIEW_DESC resourceDesc;
zero(&resourceDesc, sizeof(resourceDesc));
resourceDesc.Format = td.Format;
//resourceDesc.ViewDimension = D3D10_SRV_DIMENSION_TEXTURE2D;
resourceDesc.Texture2D.MipLevels = 1;
//resourceDesc.ViewDimension = D3D10_1_SRV_DIMENSION_TEXTURE2D;
resourceDesc.ViewDimension = D3D_SRV_DIMENSION_TEXTURE2D;
ID3D10ShaderResourceView *resource = NULL;
if(FAILED(err = GetD3D()->CreateShaderResourceView(texVal, &resourceDesc, &resource)))
{
SafeRelease(texVal);
AppWarning(TEXT("D3D10Texture::CreateFromSharedHandle: CreateShaderResourceView failed, result = 0x%08lX"), err);
return NULL;
}
//------------------------------------------
D3D10Texture *newTex = new D3D10Texture;
newTex->format = GetGSFormatFromDXGIFormat(td.Format);;
newTex->resource = resource;
newTex->texture = texVal;
newTex->bDynamic = false;
newTex->width = width;
newTex->height = height;
return newTex;
}
//todo: this function is an abomination, this is just disgusting. fix it.
//...seriously, this is really, really horrible. I mean this is amazingly bad.
void OBS::MainCaptureLoop()
{
int curRenderTarget = 0, curYUVTexture = 0, curCopyTexture = 0;
int copyWait = NUM_RENDER_BUFFERS-1;
bSentHeaders = false;
bFirstAudioPacket = true;
bool bLogLongFramesProfile = GlobalConfig->GetInt(TEXT("General"), TEXT("LogLongFramesProfile"), LOGLONGFRAMESDEFAULT) != 0;
float logLongFramesProfilePercentage = GlobalConfig->GetFloat(TEXT("General"), TEXT("LogLongFramesProfilePercentage"), 10.f);
Vect2 baseSize = Vect2(float(baseCX), float(baseCY));
Vect2 outputSize = Vect2(float(outputCX), float(outputCY));
Vect2 scaleSize = Vect2(float(scaleCX), float(scaleCY));
HANDLE hScaleVal = yuvScalePixelShader->GetParameterByName(TEXT("baseDimensionI"));
//----------------------------------------
// x264 input buffers
int curOutBuffer = 0;
bool bUsingQSV = videoEncoder->isQSV();//GlobalConfig->GetInt(TEXT("Video Encoding"), TEXT("UseQSV")) != 0;
if(bUsingQSV)
bUsing444 = false;
EncoderPicture lastPic;
EncoderPicture outPics[NUM_OUT_BUFFERS];
DWORD outTimes[NUM_OUT_BUFFERS] = {0, 0, 0};
for(int i=0; i<NUM_OUT_BUFFERS; i++)
{
if(bUsingQSV)
{
outPics[i].mfxOut = new mfxFrameSurface1;
memset(outPics[i].mfxOut, 0, sizeof(mfxFrameSurface1));
mfxFrameData& data = outPics[i].mfxOut->Data;
videoEncoder->RequestBuffers(&data);
}
else
{
outPics[i].picOut = new x264_picture_t;
x264_picture_init(outPics[i].picOut);
}
}
if(bUsing444)
{
for(int i=0; i<NUM_OUT_BUFFERS; i++)
{
outPics[i].picOut->img.i_csp = X264_CSP_BGRA; //although the x264 input says BGR, x264 actually will expect packed UYV
outPics[i].picOut->img.i_plane = 1;
}
}
else
{
if(!bUsingQSV)
for(int i=0; i<NUM_OUT_BUFFERS; i++)
x264_picture_alloc(outPics[i].picOut, X264_CSP_NV12, outputCX, outputCY);
}
int bCongestionControl = AppConfig->GetInt (TEXT("Video Encoding"), TEXT("CongestionControl"), 0);
bool bDynamicBitrateSupported = App->GetVideoEncoder()->DynamicBitrateSupported();
int defaultBitRate = AppConfig->GetInt(TEXT("Video Encoding"), TEXT("MaxBitrate"), 1000);
int currentBitRate = defaultBitRate;
QWORD lastAdjustmentTime = 0;
UINT adjustmentStreamId = 0;
//----------------------------------------
// time/timestamp stuff
bufferedTimes.Clear();
ctsOffsets.Clear();
int bufferedFrames = 1; //to avoid constantly polling number of frames
#ifdef USE_100NS_TIME
QWORD streamTimeStart = GetQPCTime100NS();
QWORD frameTime100ns = 10000000/fps;
QWORD sleepTargetTime = 0;
bool bWasLaggedFrame = false;
#else
DWORD streamTimeStart = OSGetTime();
DWORD fpsTimeAdjust = 0;
#endif
totalStreamTime = 0;
lastAudioTimestamp = 0;
latestVideoTime = firstSceneTimestamp = GetQPCTimeMS();
DWORD fpsTimeNumerator = 1000-(frameTime*fps);
DWORD fpsTimeDenominator = fps;
DWORD cfrTime = 0;
DWORD cfrTimeAdjust = 0;
//----------------------------------------
// start audio capture streams
desktopAudio->StartCapture();
if(micAudio) micAudio->StartCapture();
//----------------------------------------
// status bar/statistics stuff
DWORD fpsCounter = 0;
int numLongFrames = 0;
int numTotalFrames = 0;
int numTotalDuplicatedFrames = 0;
bytesPerSec = 0;
captureFPS = 0;
curFramesDropped = 0;
curStrain = 0.0;
PostMessage(hwndMain, OBS_UPDATESTATUSBAR, 0, 0);
QWORD lastBytesSent[3] = {0, 0, 0};
DWORD lastFramesDropped = 0;
#ifdef USE_100NS_TIME
double bpsTime = 0.0;
#else
float bpsTime = 0.0f;
#endif
double lastStrain = 0.0f;
DWORD numSecondsWaited = 0;
//----------------------------------------
// 444->420 thread data
int numThreads = MAX(OSGetTotalCores()-2, 1);
HANDLE *h420Threads = (HANDLE*)Allocate(sizeof(HANDLE)*numThreads);
Convert444Data *convertInfo = (Convert444Data*)Allocate(sizeof(Convert444Data)*numThreads);
zero(h420Threads, sizeof(HANDLE)*numThreads);
zero(convertInfo, sizeof(Convert444Data)*numThreads);
for(int i=0; i<numThreads; i++)
{
convertInfo[i].width = outputCX;
convertInfo[i].height = outputCY;
convertInfo[i].hSignalConvert = CreateEvent(NULL, FALSE, FALSE, NULL);
convertInfo[i].hSignalComplete = CreateEvent(NULL, FALSE, FALSE, NULL);
convertInfo[i].bNV12 = bUsingQSV;
if(i == 0)
convertInfo[i].startY = 0;
else
convertInfo[i].startY = convertInfo[i-1].endY;
if(i == (numThreads-1))
convertInfo[i].endY = outputCY;
else
convertInfo[i].endY = ((outputCY/numThreads)*(i+1)) & 0xFFFFFFFE;
}
bool bFirstFrame = true;
bool bFirstImage = true;
bool bFirst420Encode = true;
bool bUseThreaded420 = bUseMultithreadedOptimizations && (OSGetTotalCores() > 1) && !bUsing444;
List<HANDLE> completeEvents;
if(bUseThreaded420)
{
for(int i=0; i<numThreads; i++)
{
h420Threads[i] = OSCreateThread((XTHREAD)Convert444Thread, convertInfo+i);
completeEvents << convertInfo[i].hSignalComplete;
}
}
//----------------------------------------
QWORD curStreamTime = 0, lastStreamTime, firstFrameTime = GetQPCTimeMS();
#ifdef USE_100NS_TIME
lastStreamTime = GetQPCTime100NS()-frameTime100ns;
#else
lastStreamTime = firstFrameTime-frameTime;
#endif
//bool bFirstAudioPacket = true;
List<ProfilerNode> threadedProfilers;
bool bUsingThreadedProfilers = false;
while(bRunning || bufferedFrames)
{
#ifdef USE_100NS_TIME
QWORD renderStartTime = GetQPCTime100NS();
totalStreamTime = DWORD((renderStartTime-streamTimeStart)/10000);
if(sleepTargetTime == 0 || bWasLaggedFrame)
sleepTargetTime = renderStartTime;
#else
DWORD renderStartTime = OSGetTime();
totalStreamTime = renderStartTime-streamTimeStart;
DWORD frameTimeAdjust = frameTime;
fpsTimeAdjust += fpsTimeNumerator;
if(fpsTimeAdjust > fpsTimeDenominator)
{
fpsTimeAdjust -= fpsTimeDenominator;
++frameTimeAdjust;
}
#endif
bool bRenderView = !IsIconic(hwndMain) && bRenderViewEnabled;
profileIn("frame");
#ifdef USE_100NS_TIME
QWORD qwTime = renderStartTime/10000;
latestVideoTime = qwTime;
QWORD frameDelta = renderStartTime-lastStreamTime;
double fSeconds = double(frameDelta)*0.0000001;
//Log(TEXT("frameDelta: %f"), fSeconds);
lastStreamTime = renderStartTime;
#else
QWORD qwTime = GetQPCTimeMS();
latestVideoTime = qwTime;
QWORD frameDelta = qwTime-lastStreamTime;
float fSeconds = float(frameDelta)*0.001f;
//Log(TEXT("frameDelta: %llu"), frameDelta);
lastStreamTime = qwTime;
#endif
bool bUpdateBPS = false;
profileIn("frame preprocessing and rendering");
//------------------------------------
if(bRequestKeyframe && keyframeWait > 0)
{
keyframeWait -= int(frameDelta);
if(keyframeWait <= 0)
{
GetVideoEncoder()->RequestKeyframe();
bRequestKeyframe = false;
}
}
if(!bPushToTalkDown && pushToTalkTimeLeft > 0)
{
pushToTalkTimeLeft -= int(frameDelta);
OSDebugOut(TEXT("time left: %d\r\n"), pushToTalkTimeLeft);
if(pushToTalkTimeLeft <= 0)
{
pushToTalkTimeLeft = 0;
bPushToTalkOn = false;
}
}
//------------------------------------
OSEnterMutex(hSceneMutex);
if(bResizeRenderView)
{
GS->ResizeView();
bResizeRenderView = false;
}
//------------------------------------
if(scene)
{
profileIn("scene->Preprocess");
scene->Preprocess();
for(UINT i=0; i<globalSources.Num(); i++)
globalSources[i].source->Preprocess();
profileOut;
scene->Tick(float(fSeconds));
for(UINT i=0; i<globalSources.Num(); i++)
globalSources[i].source->Tick(float(fSeconds));
}
//------------------------------------
QWORD curBytesSent = network->GetCurrentSentBytes();
curFramesDropped = network->NumDroppedFrames();
bpsTime += fSeconds;
if(bpsTime > 1.0f)
{
if(numSecondsWaited < 3)
++numSecondsWaited;
//bytesPerSec = DWORD(curBytesSent - lastBytesSent);
bytesPerSec = DWORD(curBytesSent - lastBytesSent[0]) / numSecondsWaited;
if(bpsTime > 2.0)
bpsTime = 0.0f;
else
bpsTime -= 1.0;
if(numSecondsWaited == 3)
{
lastBytesSent[0] = lastBytesSent[1];
lastBytesSent[1] = lastBytesSent[2];
lastBytesSent[2] = curBytesSent;
}
else
lastBytesSent[numSecondsWaited] = curBytesSent;
captureFPS = fpsCounter;
fpsCounter = 0;
bUpdateBPS = true;
}
fpsCounter++;
curStrain = network->GetPacketStrain();
EnableBlending(TRUE);
BlendFunction(GS_BLEND_SRCALPHA, GS_BLEND_INVSRCALPHA);
//------------------------------------
// render the mini render texture
LoadVertexShader(mainVertexShader);
LoadPixelShader(mainPixelShader);
SetRenderTarget(mainRenderTextures[curRenderTarget]);
Ortho(0.0f, baseSize.x, baseSize.y, 0.0f, -100.0f, 100.0f);
SetViewport(0, 0, baseSize.x, baseSize.y);
if(scene)
scene->Render();
//------------------------------------
if(bTransitioning)
{
if(!transitionTexture)
{
transitionTexture = CreateTexture(baseCX, baseCY, GS_BGRA, NULL, FALSE, TRUE);
if(transitionTexture)
{
D3D10Texture *d3dTransitionTex = static_cast<D3D10Texture*>(transitionTexture);
D3D10Texture *d3dSceneTex = static_cast<D3D10Texture*>(mainRenderTextures[lastRenderTarget]);
GetD3D()->CopyResource(d3dTransitionTex->texture, d3dSceneTex->texture);
}
else
bTransitioning = false;
}
else if(transitionAlpha >= 1.0f)
{
delete transitionTexture;
transitionTexture = NULL;
bTransitioning = false;
}
}
if(bTransitioning)
{
EnableBlending(TRUE);
transitionAlpha += float(fSeconds)*5.0f;
if(transitionAlpha > 1.0f)
transitionAlpha = 1.0f;
}
else
EnableBlending(FALSE);
//------------------------------------
// render the mini view thingy
if(bRenderView)
{
// Cache
const Vect2 renderFrameSize = GetRenderFrameSize();
const Vect2 renderFrameOffset = GetRenderFrameOffset();
const Vect2 renderFrameCtrlSize = GetRenderFrameControlSize();
SetRenderTarget(NULL);
LoadVertexShader(mainVertexShader);
LoadPixelShader(mainPixelShader);
Ortho(0.0f, renderFrameCtrlSize.x, renderFrameCtrlSize.y, 0.0f, -100.0f, 100.0f);
if(renderFrameCtrlSize.x != oldRenderFrameCtrlWidth || renderFrameCtrlSize.y != oldRenderFrameCtrlHeight)
{
// User is drag resizing the window. We don't recreate the swap chains so our coordinates are wrong
SetViewport(0.0f, 0.0f, (float)oldRenderFrameCtrlWidth, (float)oldRenderFrameCtrlHeight);
}
else
SetViewport(0.0f, 0.0f, renderFrameCtrlSize.x, renderFrameCtrlSize.y);
// Draw background (Black if fullscreen, window colour otherwise)
if(bFullscreenMode)
ClearColorBuffer(0x000000);
else
ClearColorBuffer(GetSysColor(COLOR_BTNFACE));
if(bTransitioning)
{
BlendFunction(GS_BLEND_ONE, GS_BLEND_ZERO);
DrawSprite(transitionTexture, 0xFFFFFFFF,
renderFrameOffset.x, renderFrameOffset.y,
renderFrameOffset.x + renderFrameSize.x, renderFrameOffset.y + renderFrameSize.y);
BlendFunction(GS_BLEND_FACTOR, GS_BLEND_INVFACTOR, transitionAlpha);
}
DrawSprite(mainRenderTextures[curRenderTarget], 0xFFFFFFFF,
renderFrameOffset.x, renderFrameOffset.y,
renderFrameOffset.x + renderFrameSize.x, renderFrameOffset.y + renderFrameSize.y);
//draw selections if in edit mode
if(bEditMode && !bSizeChanging)
{
if(scene) {
LoadVertexShader(solidVertexShader);
LoadPixelShader(solidPixelShader);
solidPixelShader->SetColor(solidPixelShader->GetParameter(0), 0xFF0000);
scene->RenderSelections(solidPixelShader);
}
}
}
else if(bForceRenderViewErase)
{
InvalidateRect(hwndRenderFrame, NULL, TRUE);
UpdateWindow(hwndRenderFrame);
bForceRenderViewErase = false;
}
//------------------------------------
// actual stream output
LoadVertexShader(mainVertexShader);
LoadPixelShader(yuvScalePixelShader);
Texture *yuvRenderTexture = yuvRenderTextures[curRenderTarget];
SetRenderTarget(yuvRenderTexture);
if(downscale < 2.01)
yuvScalePixelShader->SetVector2(hScaleVal, 1.0f/baseSize);
else if(downscale < 3.01)
yuvScalePixelShader->SetVector2(hScaleVal, 1.0f/(outputSize*3.0f));
Ortho(0.0f, outputSize.x, outputSize.y, 0.0f, -100.0f, 100.0f);
SetViewport(0.0f, 0.0f, outputSize.x, outputSize.y);
//why am I using scaleSize instead of outputSize for the texture?
//because outputSize can be trimmed by up to three pixels due to 128-bit alignment.
//using the scale function with outputSize can cause slightly inaccurate scaled images
if(bTransitioning)
{
BlendFunction(GS_BLEND_ONE, GS_BLEND_ZERO);
DrawSpriteEx(transitionTexture, 0xFFFFFFFF, 0.0f, 0.0f, scaleSize.x, scaleSize.y, 0.0f, 0.0f, 1.0f, 1.0f);
BlendFunction(GS_BLEND_FACTOR, GS_BLEND_INVFACTOR, transitionAlpha);
}
DrawSpriteEx(mainRenderTextures[curRenderTarget], 0xFFFFFFFF, 0.0f, 0.0f, outputSize.x, outputSize.y, 0.0f, 0.0f, 1.0f, 1.0f);
//------------------------------------
if(bRenderView && !copyWait)
static_cast<D3D10System*>(GS)->swap->Present(0, 0);
OSLeaveMutex(hSceneMutex);
profileOut;
//------------------------------------
// present/upload
profileIn("video encoding and uploading");
bool bEncode = true;
if(copyWait)
{
copyWait--;
bEncode = false;
}
else
{
//audio sometimes takes a bit to start -- do not start processing frames until audio has started capturing
if(!bRecievedFirstAudioFrame)
{
static bool bWarnedAboutNoAudio = false;
if (qwTime-firstFrameTime > 10000 && !bWarnedAboutNoAudio)
{
bWarnedAboutNoAudio = true;
//AddStreamInfo (TEXT ("WARNING: OBS is not receiving audio frames. Please check your audio devices."), StreamInfoPriority_Critical);
}
bEncode = false;
}
else if(bFirstFrame)
{
firstFrameTime = qwTime;
bFirstFrame = false;
}
if(!bEncode)
{
if(curYUVTexture == (NUM_RENDER_BUFFERS-1))
curYUVTexture = 0;
else
curYUVTexture++;
}
}
if(bEncode)
{
curStreamTime = qwTime-firstFrameTime;
UINT prevCopyTexture = (curCopyTexture == 0) ? NUM_RENDER_BUFFERS-1 : curCopyTexture-1;
ID3D10Texture2D *copyTexture = copyTextures[curCopyTexture];
profileIn("CopyResource");
if(!bFirst420Encode && bUseThreaded420)
{
WaitForMultipleObjects(completeEvents.Num(), completeEvents.Array(), TRUE, INFINITE);
copyTexture->Unmap(0);
}
D3D10Texture *d3dYUV = static_cast<D3D10Texture*>(yuvRenderTextures[curYUVTexture]);
GetD3D()->CopyResource(copyTexture, d3dYUV->texture);
profileOut;
ID3D10Texture2D *prevTexture = copyTextures[prevCopyTexture];
if(bFirstImage) //ignore the first frame
bFirstImage = false;
else
{
HRESULT result;
D3D10_MAPPED_TEXTURE2D map;
if(SUCCEEDED(result = prevTexture->Map(0, D3D10_MAP_READ, 0, &map)))
{
int prevOutBuffer = (curOutBuffer == 0) ? NUM_OUT_BUFFERS-1 : curOutBuffer-1;
int nextOutBuffer = (curOutBuffer == NUM_OUT_BUFFERS-1) ? 0 : curOutBuffer+1;
EncoderPicture &prevPicOut = outPics[prevOutBuffer];
EncoderPicture &picOut = outPics[curOutBuffer];
EncoderPicture &nextPicOut = outPics[nextOutBuffer];
if(!bUsing444)
{
profileIn("conversion to 4:2:0");
if(bUseThreaded420)
{
outTimes[nextOutBuffer] = (DWORD)curStreamTime;
bool firstRun = threadedProfilers.Num() == 0;
if(firstRun)
threadedProfilers.SetSize(numThreads);
for(int i=0; i<numThreads; i++)
{
convertInfo[i].input = (LPBYTE)map.pData;
convertInfo[i].inPitch = map.RowPitch;
if(bUsingQSV)
{
mfxFrameData& data = nextPicOut.mfxOut->Data;
videoEncoder->RequestBuffers(&data);
convertInfo[i].outPitch = data.Pitch;
convertInfo[i].output[0] = data.Y;
convertInfo[i].output[1] = data.UV;
}
else
{
convertInfo[i].output[0] = nextPicOut.picOut->img.plane[0];
convertInfo[i].output[1] = nextPicOut.picOut->img.plane[1];
convertInfo[i].output[2] = nextPicOut.picOut->img.plane[2];
}
if(!firstRun)
threadedProfilers[i].~ProfilerNode();
::new (&threadedProfilers[i]) ProfilerNode(TEXT("Convert444Threads"), true);
threadedProfilers[i].MonitorThread(h420Threads[i]);
bUsingThreadedProfilers = true;
SetEvent(convertInfo[i].hSignalConvert);
}
if(bFirst420Encode)
bFirst420Encode = bEncode = false;
}
else
{
outTimes[curOutBuffer] = (DWORD)curStreamTime;
if(bUsingQSV)
{
mfxFrameData& data = picOut.mfxOut->Data;
videoEncoder->RequestBuffers(&data);
LPBYTE output[] = {data.Y, data.UV};
Convert444toNV12((LPBYTE)map.pData, outputCX, map.RowPitch, data.Pitch, outputCY, 0, outputCY, output);
}
else
Convert444toNV12((LPBYTE)map.pData, outputCX, map.RowPitch, outputCX, outputCY, 0, outputCY, picOut.picOut->img.plane);
prevTexture->Unmap(0);
}
profileOut;
}
else
{
outTimes[curOutBuffer] = (DWORD)curStreamTime;
picOut.picOut->img.i_stride[0] = map.RowPitch;
picOut.picOut->img.plane[0] = (uint8_t*)map.pData;
}
if(bEncode)
{
DWORD curFrameTimestamp = outTimes[prevOutBuffer];
//Log(TEXT("curFrameTimestamp: %u"), curFrameTimestamp);
//------------------------------------
FrameProcessInfo frameInfo;
frameInfo.firstFrameTime = firstFrameTime;
frameInfo.prevTexture = prevTexture;
if(bDupeFrames)
{
while(cfrTime < curFrameTimestamp)
{
DWORD frameTimeAdjust = frameTime;
cfrTimeAdjust += fpsTimeNumerator;
if(cfrTimeAdjust > fpsTimeDenominator)
{
cfrTimeAdjust -= fpsTimeDenominator;
++frameTimeAdjust;
}
DWORD halfTime = (frameTimeAdjust+1)/2;
EncoderPicture &nextPic = (curFrameTimestamp-cfrTime <= halfTime) ? picOut : prevPicOut;
//Log(TEXT("cfrTime: %u, time: %u"), cfrTime, curFrameTimestamp);
//these lines are just for counting duped frames
if(nextPic == lastPic)
++numTotalDuplicatedFrames;
else
lastPic = nextPic;
frameInfo.pic = &nextPic;
if(bUsingQSV)
frameInfo.pic->mfxOut->Data.TimeStamp = cfrTime;
else
frameInfo.pic->picOut->i_pts = cfrTime;
frameInfo.frameTimestamp = cfrTime;
ProcessFrame(frameInfo);
cfrTime += frameTimeAdjust;
//Log(TEXT("cfrTime: %u, chi frame: %u"), cfrTime, (curFrameTimestamp-cfrTime <= halfTime));
}
}
else
{
if(bUsingQSV)
picOut.mfxOut->Data.TimeStamp = curFrameTimestamp;
else
picOut.picOut->i_pts = curFrameTimestamp;
frameInfo.pic = &picOut;
frameInfo.frameTimestamp = curFrameTimestamp;
ProcessFrame(frameInfo);
}
if (!bRunning)
bufferedFrames = videoEncoder->GetBufferedFrames ();
}
if(bUsing444)
{
prevTexture->Unmap(0);
}
curOutBuffer = nextOutBuffer;
}
else
{
//We have to crash, or we end up deadlocking the thread when the convert threads are never signalled
if (result == DXGI_ERROR_DEVICE_REMOVED)
{
String message;
HRESULT reason = GetD3D()->GetDeviceRemovedReason();
switch (reason)
{
case DXGI_ERROR_DEVICE_RESET:
case DXGI_ERROR_DEVICE_HUNG:
message = TEXT("Your video card or driver froze and was reset. Please check for possible hardware / driver issues.");
break;
case DXGI_ERROR_DEVICE_REMOVED:
message = TEXT("Your video card disappeared from the system. Please check for possible hardware / driver issues.");
break;
case DXGI_ERROR_DRIVER_INTERNAL_ERROR:
message = TEXT("Your video driver reported an internal error. Please check for possible hardware / driver issues.");
break;
case DXGI_ERROR_INVALID_CALL:
message = TEXT("Your video driver reported an invalid call. Please check for possible driver issues.");
break;
default:
message = TEXT("DXGI_ERROR_DEVICE_REMOVED");
break;
}
CrashError (TEXT("Texture->Map failed: 0x%08x 0x%08x\r\n\r\n%s"), result, reason, message.Array());
}
else
CrashError (TEXT("Texture->Map failed: 0x%08x"), result);
}
}
if(curCopyTexture == (NUM_RENDER_BUFFERS-1))
curCopyTexture = 0;
else
curCopyTexture++;
if(curYUVTexture == (NUM_RENDER_BUFFERS-1))
curYUVTexture = 0;
else
curYUVTexture++;
if (bCongestionControl && bDynamicBitrateSupported && !bTestStream)
{
if (curStrain > 25)
{
if (qwTime - lastAdjustmentTime > 1500)
{
if (currentBitRate > 100)
{
currentBitRate = (int)(currentBitRate * (1.0 - (curStrain / 400)));
App->GetVideoEncoder()->SetBitRate(currentBitRate, -1);
if (!adjustmentStreamId)
adjustmentStreamId = App->AddStreamInfo (FormattedString(TEXT("Congestion detected, dropping bitrate to %d kbps"), currentBitRate).Array(), StreamInfoPriority_Low);
else
App->SetStreamInfo(adjustmentStreamId, FormattedString(TEXT("Congestion detected, dropping bitrate to %d kbps"), currentBitRate).Array());
bUpdateBPS = true;
}
lastAdjustmentTime = qwTime;
}
}
else if (currentBitRate < defaultBitRate && curStrain < 5 && lastStrain < 5)
{
if (qwTime - lastAdjustmentTime > 5000)
{
if (currentBitRate < defaultBitRate)
{
currentBitRate += (int)(defaultBitRate * 0.05);
if (currentBitRate > defaultBitRate)
currentBitRate = defaultBitRate;
}
App->GetVideoEncoder()->SetBitRate(currentBitRate, -1);
/*if (!adjustmentStreamId)
App->AddStreamInfo (FormattedString(TEXT("Congestion clearing, raising bitrate to %d kbps"), currentBitRate).Array(), StreamInfoPriority_Low);
else
App->SetStreamInfo(adjustmentStreamId, FormattedString(TEXT("Congestion clearing, raising bitrate to %d kbps"), currentBitRate).Array());*/
bUpdateBPS = true;
lastAdjustmentTime = qwTime;
}
}
}
}
lastRenderTarget = curRenderTarget;
if(curRenderTarget == (NUM_RENDER_BUFFERS-1))
curRenderTarget = 0;
else
curRenderTarget++;
if(bUpdateBPS || !CloseDouble(curStrain, lastStrain) || curFramesDropped != lastFramesDropped)
{
PostMessage(hwndMain, OBS_UPDATESTATUSBAR, 0, 0);
lastStrain = curStrain;
lastFramesDropped = curFramesDropped;
}
//------------------------------------
// we're about to sleep so we should flush the d3d command queue
profileIn("flush");
GetD3D()->Flush();
profileOut;
profileOut; //video encoding and uploading
profileOut; //frame
//------------------------------------
// frame sync
#ifdef USE_100NS_TIME
QWORD renderStopTime = GetQPCTime100NS();
sleepTargetTime += frameTime100ns;
if(bWasLaggedFrame = (sleepTargetTime <= renderStopTime))
{
numLongFrames++;
if(bLogLongFramesProfile && (numLongFrames/float(max(1, numTotalFrames)) * 100.) > logLongFramesProfilePercentage)
DumpLastProfileData();
}
else
SleepTo(sleepTargetTime);
#else
DWORD renderStopTime = OSGetTime();
DWORD totalTime = renderStopTime-renderStartTime;
if(totalTime > frameTimeAdjust)
{
numLongFrames++;
if(bLogLongFramesProfile && (numLongFrames/float(max(1, numTotalFrames)) * 100.) > logLongFramesProfilePercentage)
DumpLastProfileData();
}
else if(totalTime < frameTimeAdjust)
OSSleep(frameTimeAdjust-totalTime);
#endif
//OSDebugOut(TEXT("Frame adjust time: %d, "), frameTimeAdjust-totalTime);
numTotalFrames++;
}
if(!bUsing444)
{
if(bUseThreaded420)
{
for(int i=0; i<numThreads; i++)
{
if(h420Threads[i])
{
convertInfo[i].bKillThread = true;
SetEvent(convertInfo[i].hSignalConvert);
if(bUsingThreadedProfilers)
threadedProfilers[i].~ProfilerNode();
OSTerminateThread(h420Threads[i], 10000);
h420Threads[i] = NULL;
}
if(convertInfo[i].hSignalConvert)
{
CloseHandle(convertInfo[i].hSignalConvert);
convertInfo[i].hSignalConvert = NULL;
}
if(convertInfo[i].hSignalComplete)
{
CloseHandle(convertInfo[i].hSignalComplete);
convertInfo[i].hSignalComplete = NULL;
}
}
if(!bFirst420Encode)
{
ID3D10Texture2D *copyTexture = copyTextures[curCopyTexture];
copyTexture->Unmap(0);
}
}
if(bUsingQSV)
for(int i = 0; i < NUM_OUT_BUFFERS; i++)
delete outPics[i].mfxOut;
else
for(int i=0; i<NUM_OUT_BUFFERS; i++)
{
x264_picture_clean(outPics[i].picOut);
delete outPics[i].picOut;
}
}
Free(h420Threads);
Free(convertInfo);
Log(TEXT("Total frames rendered: %d, number of frames that lagged: %d (%0.2f%%) (it's okay for some frames to lag)"), numTotalFrames, numLongFrames, (double(numLongFrames)/double(numTotalFrames))*100.0);
if(bDupeFrames)
Log(TEXT("Total duplicated frames: %d (%0.2f%%)"), numTotalDuplicatedFrames, (double(numTotalDuplicatedFrames)/double(numTotalFrames))*100.0);
}
void OBS::Start()
{
if(bRunning) return;
OSEnterMutex (hStartupShutdownMutex);
scenesConfig.Save();
//-------------------------------------------------------------
fps = AppConfig->GetInt(TEXT("Video"), TEXT("FPS"), 30);
frameTime = 1000/fps;
//-------------------------------------------------------------
if(!bLoggedSystemStats)
{
LogSystemStats();
bLoggedSystemStats = TRUE;
}
//-------------------------------------------------------------
if (OSIncompatibleModulesLoaded())
{
OSLeaveMutex (hStartupShutdownMutex);
MessageBox(hwndMain, Str("IncompatibleModules"), NULL, MB_ICONERROR);
Log(TEXT("Incompatible modules detected."));
return;
}
String strPatchesError;
if (OSIncompatiblePatchesLoaded(strPatchesError))
{
OSLeaveMutex (hStartupShutdownMutex);
MessageBox(hwndMain, strPatchesError.Array(), NULL, MB_ICONERROR);
Log(TEXT("Incompatible patches detected."));
return;
}
//-------------------------------------------------------------
int networkMode = AppConfig->GetInt(TEXT("Publish"), TEXT("Mode"), 2);
DWORD delayTime = (DWORD)AppConfig->GetInt(TEXT("Publish"), TEXT("Delay"));
String strError;
if(bTestStream)
network = CreateNullNetwork();
else
{
switch(networkMode)
{
case 0: network = (delayTime > 0) ? CreateDelayedPublisher(delayTime) : CreateRTMPPublisher(); break;
case 1: network = CreateNullNetwork(); break;
}
}
if(!network)
{
OSLeaveMutex (hStartupShutdownMutex);
if(!bReconnecting)
MessageBox(hwndMain, strError, NULL, MB_ICONERROR);
else
DialogBox(hinstMain, MAKEINTRESOURCE(IDD_RECONNECTING), hwndMain, OBS::ReconnectDialogProc);
return;
}
bReconnecting = false;
//-------------------------------------------------------------
Log(TEXT("=====Stream Start: %s==============================================="), CurrentDateTime().Array());
//-------------------------------------------------------------
int monitorID = AppConfig->GetInt(TEXT("Video"), TEXT("Monitor"));
if(monitorID >= (int)monitors.Num())
monitorID = 0;
RECT &screenRect = monitors[monitorID].rect;
int defCX = screenRect.right - screenRect.left;
int defCY = screenRect.bottom - screenRect.top;
downscaleType = AppConfig->GetInt(TEXT("Video"), TEXT("Filter"), 0);
downscale = AppConfig->GetFloat(TEXT("Video"), TEXT("Downscale"), 1.0f);
baseCX = AppConfig->GetInt(TEXT("Video"), TEXT("BaseWidth"), defCX);
baseCY = AppConfig->GetInt(TEXT("Video"), TEXT("BaseHeight"), defCY);
baseCX = MIN(MAX(baseCX, 128), 4096);
baseCY = MIN(MAX(baseCY, 128), 4096);
scaleCX = UINT(double(baseCX) / double(downscale));
scaleCY = UINT(double(baseCY) / double(downscale));
//align width to 128bit for fast SSE YUV4:2:0 conversion
outputCX = scaleCX & 0xFFFFFFFC;
outputCY = scaleCY & 0xFFFFFFFE;
bUseMultithreadedOptimizations = AppConfig->GetInt(TEXT("General"), TEXT("UseMultithreadedOptimizations"), TRUE) != 0;
Log(TEXT(" Multithreaded optimizations: %s"), (CTSTR)(bUseMultithreadedOptimizations ? TEXT("On") : TEXT("Off")));
GlobalConfig->SetInt(TEXT("Audio"), TEXT("GlobalAudioTimeAdjust"), 0);
//------------------------------------------------------------------
Log(TEXT(" Base resolution: %ux%u"), baseCX, baseCY);
Log(TEXT(" Output resolution: %ux%u"), outputCX, outputCY);
Log(TEXT("------------------------------------------"));
//------------------------------------------------------------------
GS = new D3D10System;
GS->Init();
//-------------------------------------------------------------
mainVertexShader = CreateVertexShaderFromFile(TEXT("shaders/DrawTexture.vShader"));
mainPixelShader = CreatePixelShaderFromFile(TEXT("shaders/DrawTexture.pShader"));
solidVertexShader = CreateVertexShaderFromFile(TEXT("shaders/DrawSolid.vShader"));
solidPixelShader = CreatePixelShaderFromFile(TEXT("shaders/DrawSolid.pShader"));
//------------------------------------------------------------------
CTSTR lpShader;
if(CloseFloat(downscale, 1.0))
lpShader = TEXT("shaders/DrawYUVTexture.pShader");
else if(downscale < 2.01)
{
switch(downscaleType)
{
case 0: lpShader = TEXT("shaders/DownscaleBilinear1YUV.pShader"); break;
case 1: lpShader = TEXT("shaders/DownscaleBicubicYUV.pShader"); break;
case 2: lpShader = TEXT("shaders/DownscaleLanczos6tapYUV.pShader"); break;
}
}
else if(downscale < 3.01)
lpShader = TEXT("shaders/DownscaleBilinear9YUV.pShader");
else
CrashError(TEXT("Invalid downscale value (must be either 1.0, 1.5, 2.0, 2.25, or 3.0)"));
yuvScalePixelShader = CreatePixelShaderFromFile(lpShader);
if (!yuvScalePixelShader)
CrashError(TEXT("Unable to create shader from file %s"), lpShader);
//-------------------------------------------------------------
for(UINT i=0; i<NUM_RENDER_BUFFERS; i++)
{
mainRenderTextures[i] = CreateRenderTarget(baseCX, baseCY, GS_BGRA, FALSE);
yuvRenderTextures[i] = CreateRenderTarget(outputCX, outputCY, GS_BGRA, FALSE);
}
//-------------------------------------------------------------
D3D10_TEXTURE2D_DESC td;
zero(&td, sizeof(td));
td.Width = outputCX;
td.Height = outputCY;
td.Format = DXGI_FORMAT_B8G8R8A8_UNORM;
td.MipLevels = 1;
td.ArraySize = 1;
td.SampleDesc.Count = 1;
td.ArraySize = 1;
td.Usage = D3D10_USAGE_STAGING;
td.CPUAccessFlags = D3D10_CPU_ACCESS_READ;
for(UINT i=0; i<NUM_RENDER_BUFFERS; i++)
{
HRESULT err = GetD3D()->CreateTexture2D(&td, NULL, ©Textures[i]);
if(FAILED(err))
{
CrashError(TEXT("Unable to create copy texture"));
//todo - better error handling
}
}
//-------------------------------------------------------------
AudioDeviceList playbackDevices;
GetAudioDevices(playbackDevices, ADT_PLAYBACK);
String strPlaybackDevice = AppConfig->GetString(TEXT("Audio"), TEXT("PlaybackDevice"), TEXT("Default"));
if(strPlaybackDevice.IsEmpty() || !playbackDevices.HasID(strPlaybackDevice))
{
AppConfig->SetString(TEXT("Audio"), TEXT("PlaybackDevice"), TEXT("Default"));
strPlaybackDevice = TEXT("Default");
}
Log(TEXT("Playback device %s"), strPlaybackDevice.Array());
playbackDevices.FreeData();
desktopAudio = CreateAudioSource(false, strPlaybackDevice);
if(!desktopAudio) {
CrashError(TEXT("Cannot initialize desktop audio sound, more info in the log file."));
}
AudioDeviceList audioDevices;
GetAudioDevices(audioDevices, ADT_RECORDING);
String strDevice = AppConfig->GetString(TEXT("Audio"), TEXT("Device"), NULL);
if(strDevice.IsEmpty() || !audioDevices.HasID(strDevice))
{
AppConfig->SetString(TEXT("Audio"), TEXT("Device"), TEXT("Disable"));
strDevice = TEXT("Disable");
}
audioDevices.FreeData();
String strDefaultMic;
bool bHasDefault = GetDefaultMicID(strDefaultMic);
if(strDevice.CompareI(TEXT("Disable")))
EnableWindow(GetDlgItem(hwndMain, ID_MICVOLUME), FALSE);
else
{
bool bUseDefault = strDevice.CompareI(TEXT("Default")) != 0;
if(!bUseDefault || bHasDefault)
{
if(bUseDefault)
strDevice = strDefaultMic;
micAudio = CreateAudioSource(true, strDevice);
if(!micAudio)
MessageBox(hwndMain, Str("MicrophoneFailure"), NULL, 0);
else
micAudio->SetTimeOffset(AppConfig->GetInt(TEXT("Audio"), TEXT("MicTimeOffset"), 0));
EnableWindow(GetDlgItem(hwndMain, ID_MICVOLUME), micAudio != NULL);
}
else
EnableWindow(GetDlgItem(hwndMain, ID_MICVOLUME), FALSE);
}
//-------------------------------------------------------------
UINT bitRate = (UINT)AppConfig->GetInt(TEXT("Audio Encoding"), TEXT("Bitrate"), 96);
String strEncoder = AppConfig->GetString(TEXT("Audio Encoding"), TEXT("Codec"), TEXT("AAC"));
#ifdef USE_AAC
if(strEncoder.CompareI(TEXT("AAC")) && OSGetVersion() >= 7)
audioEncoder = CreateAACEncoder(bitRate);
else
#endif
audioEncoder = CreateMP3Encoder(bitRate);
//-------------------------------------------------------------
desktopVol = AppConfig->GetFloat(TEXT("Audio"), TEXT("DesktopVolume"), 1.0f);
micVol = AppConfig->GetFloat(TEXT("Audio"), TEXT("MicVolume"), 1.0f);
//-------------------------------------------------------------
bRunning = true;
if(sceneElement)
{
scene = CreateScene(sceneElement->GetString(TEXT("class")), sceneElement->GetElement(TEXT("data")));
XElement *sources = sceneElement->GetElement(TEXT("sources"));
if(sources)
{
UINT numSources = sources->NumElements();
for(UINT i=0; i<numSources; i++)
{
SceneItem *item = scene->AddImageSource(sources->GetElementByID(i));
if(item)
{
if(ListView_GetItemState(GetDlgItem(hwndMain, ID_SOURCES), i, LVIS_SELECTED) > 0)
item->Select(true);
}
}
}
scene->BeginScene();
}
if(scene && scene->HasMissingSources())
MessageBox(hwndMain, Str("Scene.MissingSources"), NULL, 0);
//-------------------------------------------------------------
int maxBitRate = AppConfig->GetInt (TEXT("Video Encoding"), TEXT("MaxBitrate"), 1000);
int bufferSize = AppConfig->GetInt (TEXT("Video Encoding"), TEXT("BufferSize"), 1000);
int quality = AppConfig->GetInt (TEXT("Video Encoding"), TEXT("Quality"), 8);
String preset = AppConfig->GetString(TEXT("Video Encoding"), TEXT("Preset"), TEXT("veryfast"));
bUsing444 = AppConfig->GetInt (TEXT("Video Encoding"), TEXT("Use444"), 0) != 0;
bDupeFrames = AppConfig->GetInt(TEXT("Video Encoding"), TEXT("DupeFrames"), 1) != 0;
if(bUsing444)
bDupeFrames = bUseCFR = false;
else
{
bUseCFR = AppConfig->GetInt(TEXT("Video Encoding"), TEXT("UseCFR"), 0) != 0;
if(bUseCFR) bDupeFrames = true;
}
//-------------------------------------------------------------
bWriteToFile = networkMode == 1 || AppConfig->GetInt(TEXT("Publish"), TEXT("SaveToFile")) != 0;
String strOutputFile = AppConfig->GetString(TEXT("Publish"), TEXT("SavePath"));
strOutputFile.FindReplace(TEXT("\\"), TEXT("/"));
if (bWriteToFile)
{
OSFindData ofd;
HANDLE hFind = NULL;
bool bUseDateTimeName = true;
if(hFind = OSFindFirstFile(strOutputFile, ofd))
{
String strFileExtension = GetPathExtension(strOutputFile);
String strFileWithoutExtension = GetPathWithoutExtension(strOutputFile);
if(strFileExtension.IsValid() && !ofd.bDirectory)
{
String strNewFilePath;
UINT curFile = 0;
do
{
strNewFilePath.Clear() << strFileWithoutExtension << TEXT(" (") << FormattedString(TEXT("%02u"), ++curFile) << TEXT(").") << strFileExtension;
} while(OSFileExists(strNewFilePath));
strOutputFile = strNewFilePath;
bUseDateTimeName = false;
}
if(ofd.bDirectory)
strOutputFile.AppendChar('/');
OSFindClose(hFind);
}
if(bUseDateTimeName)
{
String strFileName = GetPathFileName(strOutputFile);
if(!strFileName.IsValid() || !IsSafeFilename(strFileName))
{
SYSTEMTIME st;
GetLocalTime(&st);
String strDirectory = GetPathDirectory(strOutputFile);
strOutputFile = FormattedString(TEXT("%s/%u-%02u-%02u-%02u%02u-%02u.mp4"), strDirectory.Array(), st.wYear, st.wMonth, st.wDay, st.wHour, st.wMinute, st.wSecond);
}
}
}
//-------------------------------------------------------------
bufferingTime = GlobalConfig->GetInt(TEXT("General"), TEXT("SceneBufferingTime"), 400);
//-------------------------------------------------------------
bForceMicMono = AppConfig->GetInt(TEXT("Audio"), TEXT("ForceMicMono")) != 0;
bRecievedFirstAudioFrame = false;
//hRequestAudioEvent = CreateSemaphore(NULL, 0, 0x7FFFFFFFL, NULL);
hSoundDataMutex = OSCreateMutex();
hSoundThread = OSCreateThread((XTHREAD)OBS::MainAudioThread, NULL);
//-------------------------------------------------------------
StartBlankSoundPlayback(strPlaybackDevice);
//-------------------------------------------------------------
ctsOffset = 0;
videoEncoder = CreateX264Encoder(fps, outputCX, outputCY, quality, preset, bUsing444, maxBitRate, bufferSize, bUseCFR, bDupeFrames);
//-------------------------------------------------------------
// Ensure that the render frame is properly sized
ResizeRenderFrame(true);
//-------------------------------------------------------------
if(!bTestStream && bWriteToFile && strOutputFile.IsValid())
{
String strFileExtension = GetPathExtension(strOutputFile);
if(strFileExtension.CompareI(TEXT("flv")))
fileStream = CreateFLVFileStream(strOutputFile);
else if(strFileExtension.CompareI(TEXT("mp4")))
fileStream = CreateMP4FileStream(strOutputFile);
}
//-------------------------------------------------------------
hMainThread = OSCreateThread((XTHREAD)OBS::MainCaptureThread, NULL);
if(bTestStream)
{
EnableWindow(GetDlgItem(hwndMain, ID_STARTSTOP), FALSE);
SetWindowText(GetDlgItem(hwndMain, ID_TESTSTREAM), Str("MainWindow.StopTest"));
}
else
{
EnableWindow(GetDlgItem(hwndMain, ID_TESTSTREAM), FALSE);
SetWindowText(GetDlgItem(hwndMain, ID_STARTSTOP), Str("MainWindow.StopStream"));
}
EnableWindow(GetDlgItem(hwndMain, ID_SCENEEDITOR), TRUE);
//-------------------------------------------------------------
ReportStartStreamTrigger();
SystemParametersInfo(SPI_SETSCREENSAVEACTIVE, 0, 0, 0);
SetThreadExecutionState(ES_CONTINUOUS | ES_SYSTEM_REQUIRED | ES_AWAYMODE_REQUIRED | ES_DISPLAY_REQUIRED);
UpdateRenderViewMessage();
//update notification icon to reflect current status
UpdateNotificationAreaIcon();
OSLeaveMutex (hStartupShutdownMutex);
}
Shader* D3D10VertexShader::CreateVertexShader(CTSTR lpShader, CTSTR lpFileName)
{
String errorString;
ShaderProcessor shaderProcessor;
if(!shaderProcessor.ProcessShader(lpShader, lpFileName))
AppWarning(TEXT("Unable to process vertex shader '%s'"), lpFileName); //don't exit, leave it to the actual shader compiler to tell the errors
//-----------------------------------------------
LPSTR lpAnsiShader = tstr_createUTF8(lpShader);
LPSTR lpAnsiFileName = tstr_createUTF8(lpFileName);
D3D10System *d3d10Sys = static_cast<D3D10System*>(GS);
LPCSTR lpVSType = d3d10Sys->bDisableCompatibilityMode ? "vs_4_0" : "vs_4_0_level_9_3";
ID3D10Blob *errorMessages = NULL, *shaderBlob = NULL;
HRESULT err = D3DX10CompileFromMemory(lpAnsiShader, strlen(lpAnsiShader), lpAnsiFileName, NULL, NULL, "main", lpVSType, D3D10_SHADER_OPTIMIZATION_LEVEL3, 0, NULL, &shaderBlob, &errorMessages, NULL);
Free(lpAnsiFileName);
Free(lpAnsiShader);
if(FAILED(err))
{
if(errorMessages)
{
if(errorMessages->GetBufferSize())
{
LPSTR lpErrors = (LPSTR)errorMessages->GetBufferPointer();
Log(TEXT("Error compiling vertex shader '%s':\r\n\r\n%S\r\n"), lpFileName, lpErrors);
}
errorMessages->Release();
}
CrashError(TEXT("Compilation of vertex shader '%s' failed, result = %08lX"), lpFileName, err);
return NULL;
}
//-----------------------------------------------
ID3D10VertexShader *vShader;
ID3D10InputLayout *vShaderLayout;
err = GetD3D()->CreateVertexShader(shaderBlob->GetBufferPointer(), shaderBlob->GetBufferSize(), &vShader);
if(FAILED(err))
{
CrashError(TEXT("Unable to create vertex shader '%s', result = %08lX"), lpFileName, err);
SafeRelease(shaderBlob);
return NULL;
}
err = GetD3D()->CreateInputLayout(shaderProcessor.generatedLayout.Array(), shaderProcessor.generatedLayout.Num(), shaderBlob->GetBufferPointer(), shaderBlob->GetBufferSize(), &vShaderLayout);
if(FAILED(err))
{
CrashError(TEXT("Unable to create vertex layout for vertex shader '%s', result = %08lX"), lpFileName, err);
SafeRelease(shaderBlob);
SafeRelease(vShader);
return NULL;
}
shaderBlob->Release();
//-----------------------------------------------
D3D10VertexShader *shader = new D3D10VertexShader;
shader->vertexShader = vShader;
shader->inputLayout = vShaderLayout;
if(!shader->ProcessData(shaderProcessor, lpFileName))
{
delete shader;
return NULL;
}
shader->bHasNormals = shaderProcessor.bHasNormals;
shader->bHasColors = shaderProcessor.bHasColors;
shader->bHasTangents = shaderProcessor.bHasTangents;
shader->nTextureCoords = shaderProcessor.numTextureCoords;
shader->hViewProj = shader->GetParameterByName(TEXT("ViewProj"));
return shader;
}
Shader* D3D10PixelShader::CreatePixelShader(CTSTR lpShader, CTSTR lpFileName)
{
String errorString;
ShaderProcessor shaderProcessor;
if(!shaderProcessor.ProcessShader(lpShader, lpFileName))
AppWarning(TEXT("Unable to process pixel shader '%s'"), lpFileName); //don't exit, leave it to the actual shader compiler to tell the errors
//-----------------------------------------------
LPSTR lpAnsiShader = tstr_createUTF8(lpShader);
LPSTR lpAnsiFileName = tstr_createUTF8(lpFileName);
D3D10System *d3d10Sys = static_cast<D3D10System*>(GS);
LPCSTR lpPSType = d3d10Sys->bDisableCompatibilityMode ? "ps_4_0" : "ps_4_0_level_9_3";
ID3D10Blob *errorMessages = NULL, *shaderBlob = NULL;
HRESULT err = D3DX10CompileFromMemory(lpAnsiShader, strlen(lpAnsiShader), lpAnsiFileName, NULL, NULL, "main", lpPSType, D3D10_SHADER_OPTIMIZATION_LEVEL3, 0, NULL, &shaderBlob, &errorMessages, NULL);
Free(lpAnsiFileName);
Free(lpAnsiShader);
if(FAILED(err))
{
if(errorMessages)
{
if(errorMessages->GetBufferSize())
{
LPSTR lpErrors = (LPSTR)errorMessages->GetBufferPointer();
Log(TEXT("Error compiling pixel shader '%s':\r\n\r\n%S\r\n"), lpFileName, lpErrors);
}
errorMessages->Release();
}
CrashError(TEXT("Compilation of pixel shader '%s' failed, result = %08lX"), lpFileName, err);
return NULL;
}
//-----------------------------------------------
ID3D10PixelShader *pShader;
err = GetD3D()->CreatePixelShader(shaderBlob->GetBufferPointer(), shaderBlob->GetBufferSize(), &pShader);
if(FAILED(err))
{
CrashError(TEXT("Unable to create pixel shader '%s', result = %08lX"), lpFileName, err);
SafeRelease(shaderBlob);
return NULL;
}
shaderBlob->Release();
//-----------------------------------------------
D3D10PixelShader *shader = new D3D10PixelShader;
shader->pixelShader = pShader;
if(!shader->ProcessData(shaderProcessor, lpFileName))
{
delete shader;
return NULL;
}
return shader;
}
VertexBuffer* D3D10VertexBuffer::CreateVertexBuffer(VBData *vbData, BOOL bStatic)
{
if(!vbData)
{
AppWarning(TEXT("D3D10VertexBuffer::CreateVertexBuffer: vbData NULL"));
return NULL;
}
HRESULT err;
D3D10VertexBuffer *buf = new D3D10VertexBuffer;
buf->numVerts = vbData->VertList.Num();
D3D10_BUFFER_DESC bd;
D3D10_SUBRESOURCE_DATA srd;
zero(&bd, sizeof(bd));
zero(&srd, sizeof(srd));
bd.Usage = bStatic ? D3D10_USAGE_DEFAULT : D3D10_USAGE_DYNAMIC;
bd.CPUAccessFlags = bStatic ? 0 : D3D10_CPU_ACCESS_WRITE;
bd.BindFlags = D3D10_BIND_VERTEX_BUFFER;
//----------------------------------------
buf->vertexSize = sizeof(Vect);
bd.ByteWidth = sizeof(Vect)*buf->numVerts;
srd.pSysMem = vbData->VertList.Array();
err = GetD3D()->CreateBuffer(&bd, &srd, &buf->vertexBuffer);
if(FAILED(err))
{
AppWarning(TEXT("D3D10VertexBuffer::CreateVertexBuffer: Failed to create the vertex portion of the vertex buffer, result = %08lX"), err);
delete buf;
return NULL;
}
//----------------------------------------
if(vbData->NormalList.Num())
{
buf->normalSize = sizeof(Vect);
bd.ByteWidth = sizeof(Vect)*buf->numVerts;
srd.pSysMem = vbData->NormalList.Array();
err = GetD3D()->CreateBuffer(&bd, &srd, &buf->normalBuffer);
if(FAILED(err))
{
AppWarning(TEXT("D3D10VertexBuffer::CreateVertexBuffer: Failed to create the normal portion of the vertex buffer, result = %08lX"), err);
delete buf;
return NULL;
}
}
//----------------------------------------
if(vbData->ColorList.Num())
{
buf->colorSize = sizeof(DWORD);
bd.ByteWidth = sizeof(DWORD)*buf->numVerts;
srd.pSysMem = vbData->ColorList.Array();
err = GetD3D()->CreateBuffer(&bd, &srd, &buf->colorBuffer);
if(FAILED(err))
{
AppWarning(TEXT("D3D10VertexBuffer::CreateVertexBuffer: Failed to create the color portion of the vertex buffer, result = %08lX"), err);
delete buf;
return NULL;
}
}
//----------------------------------------
if(vbData->TangentList.Num())
{
buf->tangentSize = sizeof(Vect);
bd.ByteWidth = sizeof(Vect)*buf->numVerts;
srd.pSysMem = vbData->TangentList.Array();
err = GetD3D()->CreateBuffer(&bd, &srd, &buf->tangentBuffer);
if(FAILED(err))
{
AppWarning(TEXT("D3D10VertexBuffer::CreateVertexBuffer: Failed to create the tangent portion of the vertex buffer, result = %08lX"), err);
delete buf;
return NULL;
}
}
//----------------------------------------
if(vbData->UVList.Num())
{
buf->UVBuffers.SetSize(vbData->UVList.Num());
buf->UVSizes.SetSize(vbData->UVList.Num());
for(UINT i=0; i<vbData->UVList.Num(); i++)
{
List<UVCoord> &textureVerts = vbData->UVList[i];
buf->UVSizes[i] = sizeof(UVCoord);
bd.ByteWidth = buf->UVSizes[i]*buf->numVerts;
srd.pSysMem = textureVerts.Array();
ID3D10Buffer *tvBuffer;
err = GetD3D()->CreateBuffer(&bd, &srd, &tvBuffer);
if(FAILED(err))
{
AppWarning(TEXT("D3D10VertexBuffer::CreateVertexBuffer: Failed to create the texture vertex %d portion of the vertex buffer, result = %08lX"), i, err);
delete buf;
return NULL;
}
buf->UVBuffers[i] = tvBuffer;
}
}
//----------------------------------------
buf->bDynamic = !bStatic;
if(bStatic)
{
delete vbData;
buf->data = NULL;
}
else
buf->data = vbData;
return buf;
}
//todo: this function is an abomination, this is just disgusting. fix it.
//...seriously, this is really, really horrible. I mean this is amazingly bad.
void OBS::MainCaptureLoop()
{
int curRenderTarget = 0, curYUVTexture = 0, curCopyTexture = 0;
int copyWait = NUM_RENDER_BUFFERS-1;
bSentHeaders = false;
bFirstAudioPacket = true;
bool bLogLongFramesProfile = GlobalConfig->GetInt(TEXT("General"), TEXT("LogLongFramesProfile"), LOGLONGFRAMESDEFAULT) != 0;
float logLongFramesProfilePercentage = GlobalConfig->GetFloat(TEXT("General"), TEXT("LogLongFramesProfilePercentage"), 10.f);
Vect2 baseSize = Vect2(float(baseCX), float(baseCY));
Vect2 outputSize = Vect2(float(outputCX), float(outputCY));
Vect2 scaleSize = Vect2(float(scaleCX), float(scaleCY));
HANDLE hMatrix = yuvScalePixelShader->GetParameterByName(TEXT("yuvMat"));
HANDLE hScaleVal = yuvScalePixelShader->GetParameterByName(TEXT("baseDimensionI"));
//----------------------------------------
// x264 input buffers
int curOutBuffer = 0;
bool bUsingQSV = videoEncoder->isQSV();//GlobalConfig->GetInt(TEXT("Video Encoding"), TEXT("UseQSV")) != 0;
bUsing444 = false;
EncoderPicture lastPic;
EncoderPicture outPics[NUM_OUT_BUFFERS];
for(int i=0; i<NUM_OUT_BUFFERS; i++)
{
if(bUsingQSV)
{
outPics[i].mfxOut = new mfxFrameSurface1;
memset(outPics[i].mfxOut, 0, sizeof(mfxFrameSurface1));
mfxFrameData& data = outPics[i].mfxOut->Data;
videoEncoder->RequestBuffers(&data);
}
else
{
outPics[i].picOut = new x264_picture_t;
x264_picture_init(outPics[i].picOut);
}
}
if(bUsing444)
{
for(int i=0; i<NUM_OUT_BUFFERS; i++)
{
outPics[i].picOut->img.i_csp = X264_CSP_BGRA; //although the x264 input says BGR, x264 actually will expect packed UYV
outPics[i].picOut->img.i_plane = 1;
}
}
else
{
if(!bUsingQSV)
for(int i=0; i<NUM_OUT_BUFFERS; i++)
x264_picture_alloc(outPics[i].picOut, X264_CSP_NV12, outputCX, outputCY);
}
int bCongestionControl = AppConfig->GetInt (TEXT("Video Encoding"), TEXT("CongestionControl"), 0);
bool bDynamicBitrateSupported = App->GetVideoEncoder()->DynamicBitrateSupported();
int defaultBitRate = AppConfig->GetInt(TEXT("Video Encoding"), TEXT("MaxBitrate"), 1000);
int currentBitRate = defaultBitRate;
QWORD lastAdjustmentTime = 0;
UINT adjustmentStreamId = 0;
//std::unique_ptr<ProfilerNode> encodeThreadProfiler;
//----------------------------------------
// time/timestamp stuff
bool bWasLaggedFrame = false;
totalStreamTime = 0;
lastAudioTimestamp = 0;
//----------------------------------------
// start audio capture streams
desktopAudio->StartCapture();
if(micAudio) micAudio->StartCapture();
//----------------------------------------
// status bar/statistics stuff
DWORD fpsCounter = 0;
int numLongFrames = 0;
int numTotalFrames = 0;
bytesPerSec = 0;
captureFPS = 0;
curFramesDropped = 0;
curStrain = 0.0;
PostMessage(hwndMain, OBS_UPDATESTATUSBAR, 0, 0);
QWORD lastBytesSent[3] = {0, 0, 0};
DWORD lastFramesDropped = 0;
double bpsTime = 0.0;
double lastStrain = 0.0f;
DWORD numSecondsWaited = 0;
//----------------------------------------
// 444->420 thread data
int numThreads = MAX(OSGetTotalCores()-2, 1);
HANDLE *h420Threads = (HANDLE*)Allocate(sizeof(HANDLE)*numThreads);
Convert444Data *convertInfo = (Convert444Data*)Allocate(sizeof(Convert444Data)*numThreads);
zero(h420Threads, sizeof(HANDLE)*numThreads);
zero(convertInfo, sizeof(Convert444Data)*numThreads);
for(int i=0; i<numThreads; i++)
{
convertInfo[i].width = outputCX;
convertInfo[i].height = outputCY;
convertInfo[i].hSignalConvert = CreateEvent(NULL, FALSE, FALSE, NULL);
convertInfo[i].hSignalComplete = CreateEvent(NULL, FALSE, FALSE, NULL);
convertInfo[i].bNV12 = bUsingQSV;
convertInfo[i].numThreads = numThreads;
if(i == 0)
convertInfo[i].startY = 0;
else
convertInfo[i].startY = convertInfo[i-1].endY;
if(i == (numThreads-1))
convertInfo[i].endY = outputCY;
else
convertInfo[i].endY = ((outputCY/numThreads)*(i+1)) & 0xFFFFFFFE;
}
bool bEncode;
bool bFirstFrame = true;
bool bFirstImage = true;
bool bFirstEncode = true;
bool bUseThreaded420 = bUseMultithreadedOptimizations && (OSGetTotalCores() > 1) && !bUsing444;
List<HANDLE> completeEvents;
if(bUseThreaded420)
{
for(int i=0; i<numThreads; i++)
{
h420Threads[i] = OSCreateThread((XTHREAD)Convert444Thread, convertInfo+i);
completeEvents << convertInfo[i].hSignalComplete;
}
}
//----------------------------------------
QWORD streamTimeStart = GetQPCTimeNS();
QWORD lastStreamTime = 0;
QWORD firstFrameTimeMS = streamTimeStart/1000000;
QWORD frameLengthNS = 1000000000/fps;
while(WaitForSingleObject(hVideoEvent, INFINITE) == WAIT_OBJECT_0)
{
if (bShutdownVideoThread)
break;
QWORD renderStartTime = GetQPCTimeNS();
totalStreamTime = DWORD((renderStartTime-streamTimeStart)/1000000);
bool bRenderView = !IsIconic(hwndMain) && bRenderViewEnabled;
QWORD renderStartTimeMS = renderStartTime/1000000;
QWORD curStreamTime = latestVideoTimeNS;
if (!lastStreamTime)
lastStreamTime = curStreamTime-frameLengthNS;
QWORD frameDelta = curStreamTime-lastStreamTime;
//if (!lastStreamTime)
// lastStreamTime = renderStartTime-frameLengthNS;
//QWORD frameDelta = renderStartTime-lastStreamTime;
double fSeconds = double(frameDelta)*0.000000001;
//lastStreamTime = renderStartTime;
bool bUpdateBPS = false;
profileIn("video thread frame");
//Log(TEXT("Stream Time: %llu"), curStreamTime);
//Log(TEXT("frameDelta: %lf"), fSeconds);
//------------------------------------
if(bRequestKeyframe && keyframeWait > 0)
{
keyframeWait -= int(frameDelta);
if(keyframeWait <= 0)
{
GetVideoEncoder()->RequestKeyframe();
bRequestKeyframe = false;
}
}
if(!pushToTalkDown && pushToTalkTimeLeft > 0)
{
pushToTalkTimeLeft -= int(frameDelta);
OSDebugOut(TEXT("time left: %d\r\n"), pushToTalkTimeLeft);
if(pushToTalkTimeLeft <= 0)
{
pushToTalkTimeLeft = 0;
bPushToTalkOn = false;
}
}
//------------------------------------
OSEnterMutex(hSceneMutex);
if (bPleaseEnableProjector)
ActuallyEnableProjector();
else if(bPleaseDisableProjector)
DisableProjector();
if(bResizeRenderView)
{
GS->ResizeView();
bResizeRenderView = false;
}
//------------------------------------
if(scene)
{
profileIn("scene->Preprocess");
scene->Preprocess();
for(UINT i=0; i<globalSources.Num(); i++)
globalSources[i].source->Preprocess();
profileOut;
scene->Tick(float(fSeconds));
for(UINT i=0; i<globalSources.Num(); i++)
globalSources[i].source->Tick(float(fSeconds));
}
//------------------------------------
QWORD curBytesSent = 0;
if (network) {
curBytesSent = network->GetCurrentSentBytes();
curFramesDropped = network->NumDroppedFrames();
} else if (numSecondsWaited) {
//reset stats if the network disappears
bytesPerSec = 0;
bpsTime = 0;
numSecondsWaited = 0;
curBytesSent = 0;
zero(lastBytesSent, sizeof(lastBytesSent));
}
bpsTime += fSeconds;
if(bpsTime > 1.0f)
{
if(numSecondsWaited < 3)
++numSecondsWaited;
//bytesPerSec = DWORD(curBytesSent - lastBytesSent);
bytesPerSec = DWORD(curBytesSent - lastBytesSent[0]) / numSecondsWaited;
if(bpsTime > 2.0)
bpsTime = 0.0f;
else
bpsTime -= 1.0;
if(numSecondsWaited == 3)
{
lastBytesSent[0] = lastBytesSent[1];
lastBytesSent[1] = lastBytesSent[2];
lastBytesSent[2] = curBytesSent;
}
else
lastBytesSent[numSecondsWaited] = curBytesSent;
captureFPS = fpsCounter;
fpsCounter = 0;
bUpdateBPS = true;
}
fpsCounter++;
if(network) curStrain = network->GetPacketStrain();
EnableBlending(TRUE);
BlendFunction(GS_BLEND_SRCALPHA, GS_BLEND_INVSRCALPHA);
//------------------------------------
// render the mini render texture
LoadVertexShader(mainVertexShader);
LoadPixelShader(mainPixelShader);
SetRenderTarget(mainRenderTextures[curRenderTarget]);
Ortho(0.0f, baseSize.x, baseSize.y, 0.0f, -100.0f, 100.0f);
SetViewport(0, 0, baseSize.x, baseSize.y);
if(scene)
scene->Render();
//------------------------------------
if(bTransitioning)
{
if(!transitionTexture)
{
transitionTexture = CreateTexture(baseCX, baseCY, GS_BGRA, NULL, FALSE, TRUE);
if(transitionTexture)
{
D3D10Texture *d3dTransitionTex = static_cast<D3D10Texture*>(transitionTexture);
D3D10Texture *d3dSceneTex = static_cast<D3D10Texture*>(mainRenderTextures[lastRenderTarget]);
GetD3D()->CopyResource(d3dTransitionTex->texture, d3dSceneTex->texture);
}
else
bTransitioning = false;
}
else if(transitionAlpha >= 1.0f)
{
delete transitionTexture;
transitionTexture = NULL;
bTransitioning = false;
}
}
if(bTransitioning)
{
EnableBlending(TRUE);
transitionAlpha += float(fSeconds)*5.0f;
if(transitionAlpha > 1.0f)
transitionAlpha = 1.0f;
}
else
EnableBlending(FALSE);
//------------------------------------
// render the mini view thingy
if (bProjector) {
SetRenderTarget(projectorTexture);
Vect2 renderFrameSize, renderFrameOffset;
Vect2 projectorSize = Vect2(float(projectorWidth), float(projectorHeight));
float projectorAspect = (projectorSize.x / projectorSize.y);
float baseAspect = (baseSize.x / baseSize.y);
if (projectorAspect < baseAspect) {
float fProjectorWidth = float(projectorWidth);
renderFrameSize = Vect2(fProjectorWidth, fProjectorWidth / baseAspect);
renderFrameOffset = Vect2(0.0f, (projectorSize.y-renderFrameSize.y) * 0.5f);
} else {
float fProjectorHeight = float(projectorHeight);
renderFrameSize = Vect2(fProjectorHeight * baseAspect, fProjectorHeight);
renderFrameOffset = Vect2((projectorSize.x-renderFrameSize.x) * 0.5f, 0.0f);
}
DrawPreview(renderFrameSize, renderFrameOffset, projectorSize, curRenderTarget, Preview_Projector);
SetRenderTarget(NULL);
}
if(bRenderView)
{
// Cache
const Vect2 renderFrameSize = GetRenderFrameSize();
const Vect2 renderFrameOffset = GetRenderFrameOffset();
const Vect2 renderFrameCtrlSize = GetRenderFrameControlSize();
SetRenderTarget(NULL);
DrawPreview(renderFrameSize, renderFrameOffset, renderFrameCtrlSize, curRenderTarget,
bFullscreenMode ? Preview_Fullscreen : Preview_Standard);
//draw selections if in edit mode
if(bEditMode && !bSizeChanging)
{
if(scene) {
LoadVertexShader(solidVertexShader);
LoadPixelShader(solidPixelShader);
solidPixelShader->SetColor(solidPixelShader->GetParameter(0), 0xFF0000);
scene->RenderSelections(solidPixelShader);
}
}
}
else if(bForceRenderViewErase)
{
InvalidateRect(hwndRenderFrame, NULL, TRUE);
UpdateWindow(hwndRenderFrame);
bForceRenderViewErase = false;
}
//------------------------------------
// actual stream output
LoadVertexShader(mainVertexShader);
LoadPixelShader(yuvScalePixelShader);
Texture *yuvRenderTexture = yuvRenderTextures[curRenderTarget];
SetRenderTarget(yuvRenderTexture);
switch(colorDesc.matrix)
{
case ColorMatrix_GBR:
yuvScalePixelShader->SetMatrix(hMatrix, colorDesc.fullRange ? (float*)yuvFullMat[0] : (float*)yuvMat[0]);
break;
case ColorMatrix_YCgCo:
yuvScalePixelShader->SetMatrix(hMatrix, colorDesc.fullRange ? (float*)yuvFullMat[1] : (float*)yuvMat[1]);
break;
case ColorMatrix_BT2020NCL:
yuvScalePixelShader->SetMatrix(hMatrix, colorDesc.fullRange ? (float*)yuvFullMat[2] : (float*)yuvMat[2]);
break;
case ColorMatrix_BT709:
yuvScalePixelShader->SetMatrix(hMatrix, colorDesc.fullRange ? (float*)yuvFullMat[3] : (float*)yuvMat[3]);
break;
case ColorMatrix_SMPTE240M:
yuvScalePixelShader->SetMatrix(hMatrix, colorDesc.fullRange ? (float*)yuvFullMat[4] : (float*)yuvMat[4]);
break;
default:
yuvScalePixelShader->SetMatrix(hMatrix, colorDesc.fullRange ? (float*)yuvFullMat[5] : (float*)yuvMat[5]);
}
if(downscale < 2.01)
yuvScalePixelShader->SetVector2(hScaleVal, 1.0f/baseSize);
else if(downscale < 3.01)
yuvScalePixelShader->SetVector2(hScaleVal, 1.0f/(outputSize*3.0f));
Ortho(0.0f, outputSize.x, outputSize.y, 0.0f, -100.0f, 100.0f);
SetViewport(0.0f, 0.0f, outputSize.x, outputSize.y);
//why am I using scaleSize instead of outputSize for the texture?
//because outputSize can be trimmed by up to three pixels due to 128-bit alignment.
//using the scale function with outputSize can cause slightly inaccurate scaled images
if(bTransitioning)
{
BlendFunction(GS_BLEND_ONE, GS_BLEND_ZERO);
DrawSpriteEx(transitionTexture, 0xFFFFFFFF, 0.0f, 0.0f, scaleSize.x, scaleSize.y, 0.0f, 0.0f, 1.0f, 1.0f);
BlendFunction(GS_BLEND_FACTOR, GS_BLEND_INVFACTOR, transitionAlpha);
}
DrawSpriteEx(mainRenderTextures[curRenderTarget], 0xFFFFFFFF, 0.0f, 0.0f, outputSize.x, outputSize.y, 0.0f, 0.0f, 1.0f, 1.0f);
//------------------------------------
if (bProjector && !copyWait)
projectorSwap->Present(0, 0);
if(bRenderView && !copyWait)
static_cast<D3D10System*>(GS)->swap->Present(0, 0);
OSLeaveMutex(hSceneMutex);
//------------------------------------
// present/upload
profileIn("GPU download and conversion");
bEncode = true;
if(copyWait)
{
copyWait--;
bEncode = false;
}
else
{
//audio sometimes takes a bit to start -- do not start processing frames until audio has started capturing
if(!bRecievedFirstAudioFrame)
{
static bool bWarnedAboutNoAudio = false;
if (renderStartTimeMS-firstFrameTimeMS > 10000 && !bWarnedAboutNoAudio)
{
bWarnedAboutNoAudio = true;
//AddStreamInfo (TEXT ("WARNING: OBS is not receiving audio frames. Please check your audio devices."), StreamInfoPriority_Critical);
}
bEncode = false;
}
else if(bFirstFrame)
{
firstFrameTimestamp = lastStreamTime/1000000;
bFirstFrame = false;
}
if(!bEncode)
{
if(curYUVTexture == (NUM_RENDER_BUFFERS-1))
curYUVTexture = 0;
else
curYUVTexture++;
}
}
lastStreamTime = curStreamTime;
if(bEncode)
{
UINT prevCopyTexture = (curCopyTexture == 0) ? NUM_RENDER_BUFFERS-1 : curCopyTexture-1;
ID3D10Texture2D *copyTexture = copyTextures[curCopyTexture];
profileIn("CopyResource");
if(!bFirstEncode && bUseThreaded420)
{
WaitForMultipleObjects(completeEvents.Num(), completeEvents.Array(), TRUE, INFINITE);
copyTexture->Unmap(0);
}
D3D10Texture *d3dYUV = static_cast<D3D10Texture*>(yuvRenderTextures[curYUVTexture]);
GetD3D()->CopyResource(copyTexture, d3dYUV->texture);
profileOut;
ID3D10Texture2D *prevTexture = copyTextures[prevCopyTexture];
if(bFirstImage) //ignore the first frame
bFirstImage = false;
else
{
HRESULT result;
D3D10_MAPPED_TEXTURE2D map;
if(SUCCEEDED(result = prevTexture->Map(0, D3D10_MAP_READ, 0, &map)))
{
int prevOutBuffer = (curOutBuffer == 0) ? NUM_OUT_BUFFERS-1 : curOutBuffer-1;
int nextOutBuffer = (curOutBuffer == NUM_OUT_BUFFERS-1) ? 0 : curOutBuffer+1;
EncoderPicture &prevPicOut = outPics[prevOutBuffer];
EncoderPicture &picOut = outPics[curOutBuffer];
EncoderPicture &nextPicOut = outPics[nextOutBuffer];
if(!bUsing444)
{
profileIn("conversion to 4:2:0");
if(bUseThreaded420)
{
for(int i=0; i<numThreads; i++)
{
convertInfo[i].input = (LPBYTE)map.pData;
convertInfo[i].inPitch = map.RowPitch;
if(bUsingQSV)
{
mfxFrameData& data = nextPicOut.mfxOut->Data;
videoEncoder->RequestBuffers(&data);
convertInfo[i].outPitch = data.Pitch;
convertInfo[i].output[0] = data.Y;
convertInfo[i].output[1] = data.UV;
}
else
{
convertInfo[i].output[0] = nextPicOut.picOut->img.plane[0];
convertInfo[i].output[1] = nextPicOut.picOut->img.plane[1];
convertInfo[i].output[2] = nextPicOut.picOut->img.plane[2];
}
SetEvent(convertInfo[i].hSignalConvert);
}
if(bFirstEncode)
bFirstEncode = bEncode = false;
}
else
{
if(bUsingQSV)
{
mfxFrameData& data = picOut.mfxOut->Data;
videoEncoder->RequestBuffers(&data);
LPBYTE output[] = {data.Y, data.UV};
Convert444toNV12((LPBYTE)map.pData, outputCX, map.RowPitch, data.Pitch, outputCY, 0, outputCY, output);
}
else
Convert444toNV12((LPBYTE)map.pData, outputCX, map.RowPitch, outputCX, outputCY, 0, outputCY, picOut.picOut->img.plane);
prevTexture->Unmap(0);
}
profileOut;
}
if(bEncode)
{
//encodeThreadProfiler.reset(::new ProfilerNode(TEXT("EncodeThread"), true));
//encodeThreadProfiler->MonitorThread(hEncodeThread);
curFramePic = &picOut;
}
curOutBuffer = nextOutBuffer;
}
else
{
//We have to crash, or we end up deadlocking the thread when the convert threads are never signalled
if (result == DXGI_ERROR_DEVICE_REMOVED)
{
String message;
HRESULT reason = GetD3D()->GetDeviceRemovedReason();
switch (reason)
{
case DXGI_ERROR_DEVICE_RESET:
case DXGI_ERROR_DEVICE_HUNG:
message = TEXT("Your video card or driver froze and was reset. Please check for possible hardware / driver issues.");
break;
case DXGI_ERROR_DEVICE_REMOVED:
message = TEXT("Your video card disappeared from the system. Please check for possible hardware / driver issues.");
break;
case DXGI_ERROR_DRIVER_INTERNAL_ERROR:
message = TEXT("Your video driver reported an internal error. Please check for possible hardware / driver issues.");
break;
case DXGI_ERROR_INVALID_CALL:
message = TEXT("Your video driver reported an invalid call. Please check for possible driver issues.");
break;
default:
message = TEXT("DXGI_ERROR_DEVICE_REMOVED");
break;
}
message << TEXT(" This error can also occur if you have enabled opencl in x264 custom settings.");
CrashError (TEXT("Texture->Map failed: 0x%08x 0x%08x\r\n\r\n%s"), result, reason, message.Array());
}
else
CrashError (TEXT("Texture->Map failed: 0x%08x"), result);
}
}
if(curCopyTexture == (NUM_RENDER_BUFFERS-1))
curCopyTexture = 0;
else
curCopyTexture++;
if(curYUVTexture == (NUM_RENDER_BUFFERS-1))
curYUVTexture = 0;
else
curYUVTexture++;
if (bCongestionControl && bDynamicBitrateSupported && !bTestStream && totalStreamTime > 15000)
{
if (curStrain > 25)
{
if (renderStartTimeMS - lastAdjustmentTime > 1500)
{
if (currentBitRate > 100)
{
currentBitRate = (int)(currentBitRate * (1.0 - (curStrain / 400)));
App->GetVideoEncoder()->SetBitRate(currentBitRate, -1);
if (!adjustmentStreamId)
adjustmentStreamId = App->AddStreamInfo (FormattedString(TEXT("Congestion detected, dropping bitrate to %d kbps"), currentBitRate).Array(), StreamInfoPriority_Low);
else
App->SetStreamInfo(adjustmentStreamId, FormattedString(TEXT("Congestion detected, dropping bitrate to %d kbps"), currentBitRate).Array());
bUpdateBPS = true;
}
lastAdjustmentTime = renderStartTimeMS;
}
}
else if (currentBitRate < defaultBitRate && curStrain < 5 && lastStrain < 5)
{
if (renderStartTimeMS - lastAdjustmentTime > 5000)
{
if (currentBitRate < defaultBitRate)
{
currentBitRate += (int)(defaultBitRate * 0.05);
if (currentBitRate > defaultBitRate)
currentBitRate = defaultBitRate;
}
App->GetVideoEncoder()->SetBitRate(currentBitRate, -1);
/*if (!adjustmentStreamId)
App->AddStreamInfo (FormattedString(TEXT("Congestion clearing, raising bitrate to %d kbps"), currentBitRate).Array(), StreamInfoPriority_Low);
else
App->SetStreamInfo(adjustmentStreamId, FormattedString(TEXT("Congestion clearing, raising bitrate to %d kbps"), currentBitRate).Array());*/
App->RemoveStreamInfo(adjustmentStreamId);
adjustmentStreamId = 0;
bUpdateBPS = true;
lastAdjustmentTime = renderStartTimeMS;
}
}
}
}
lastRenderTarget = curRenderTarget;
if(curRenderTarget == (NUM_RENDER_BUFFERS-1))
curRenderTarget = 0;
else
curRenderTarget++;
if(bUpdateBPS || !CloseDouble(curStrain, lastStrain) || curFramesDropped != lastFramesDropped)
{
PostMessage(hwndMain, OBS_UPDATESTATUSBAR, 0, 0);
lastStrain = curStrain;
lastFramesDropped = curFramesDropped;
}
//------------------------------------
// we're about to sleep so we should flush the d3d command queue
profileIn("flush");
GetD3D()->Flush();
profileOut;
profileOut;
profileOut; //frame
//------------------------------------
// frame sync
//QWORD renderStopTime = GetQPCTimeNS();
if(bWasLaggedFrame = (frameDelta > frameLengthNS))
{
numLongFrames++;
if(bLogLongFramesProfile && (numLongFrames/float(max(1, numTotalFrames)) * 100.) > logLongFramesProfilePercentage)
DumpLastProfileData();
}
//OSDebugOut(TEXT("Frame adjust time: %d, "), frameTimeAdjust-totalTime);
numTotalFrames++;
}
DisableProjector();
//encodeThreadProfiler.reset();
if(!bUsing444)
{
if(bUseThreaded420)
{
for(int i=0; i<numThreads; i++)
{
if(h420Threads[i])
{
convertInfo[i].bKillThread = true;
SetEvent(convertInfo[i].hSignalConvert);
OSTerminateThread(h420Threads[i], 10000);
h420Threads[i] = NULL;
}
if(convertInfo[i].hSignalConvert)
{
CloseHandle(convertInfo[i].hSignalConvert);
convertInfo[i].hSignalConvert = NULL;
}
if(convertInfo[i].hSignalComplete)
{
CloseHandle(convertInfo[i].hSignalComplete);
convertInfo[i].hSignalComplete = NULL;
}
}
if(!bFirstEncode)
{
ID3D10Texture2D *copyTexture = copyTextures[curCopyTexture];
copyTexture->Unmap(0);
}
}
if(bUsingQSV)
for(int i = 0; i < NUM_OUT_BUFFERS; i++)
delete outPics[i].mfxOut;
else
for(int i=0; i<NUM_OUT_BUFFERS; i++)
{
x264_picture_clean(outPics[i].picOut);
delete outPics[i].picOut;
}
}
Free(h420Threads);
Free(convertInfo);
Log(TEXT("Total frames rendered: %d, number of late frames: %d (%0.2f%%) (it's okay for some frames to be late)"), numTotalFrames, numLongFrames, (numTotalFrames > 0) ? (double(numLongFrames)/double(numTotalFrames))*100.0 : 0.0f);
}
void OBS::Start()
{
if(bRunning) return;
OSEnterMutex (hStartupShutdownMutex);
scenesConfig.Save();
//-------------------------------------------------------------
fps = AppConfig->GetInt(TEXT("Video"), TEXT("FPS"), 30);
frameTime = 1000/fps;
//-------------------------------------------------------------
if(!bLoggedSystemStats)
{
LogSystemStats();
bLoggedSystemStats = TRUE;
}
OSCheckForBuggyDLLs();
//-------------------------------------------------------------
retryHookTest:
bool alreadyWarnedAboutModules = false;
if (OSIncompatibleModulesLoaded())
{
Log(TEXT("Incompatible modules (pre-D3D) detected."));
int ret = MessageBox(hwndMain, Str("IncompatibleModules"), NULL, MB_ICONERROR | MB_ABORTRETRYIGNORE);
if (ret == IDABORT)
{
OSLeaveMutex (hStartupShutdownMutex);
return;
}
else if (ret == IDRETRY)
{
goto retryHookTest;
}
alreadyWarnedAboutModules = true;
}
String strPatchesError;
if (OSIncompatiblePatchesLoaded(strPatchesError))
{
OSLeaveMutex (hStartupShutdownMutex);
MessageBox(hwndMain, strPatchesError.Array(), NULL, MB_ICONERROR);
Log(TEXT("Incompatible patches detected."));
return;
}
//-------------------------------------------------------------
String processPriority = AppConfig->GetString(TEXT("General"), TEXT("Priority"), TEXT("Normal"));
if (!scmp(processPriority, TEXT("Idle")))
SetPriorityClass(GetCurrentProcess(), IDLE_PRIORITY_CLASS);
else if (!scmp(processPriority, TEXT("Above Normal")))
SetPriorityClass(GetCurrentProcess(), ABOVE_NORMAL_PRIORITY_CLASS);
else if (!scmp(processPriority, TEXT("High")))
SetPriorityClass(GetCurrentProcess(), HIGH_PRIORITY_CLASS);
int networkMode = AppConfig->GetInt(TEXT("Publish"), TEXT("Mode"), 2);
DWORD delayTime = (DWORD)AppConfig->GetInt(TEXT("Publish"), TEXT("Delay"));
String strError;
bFirstConnect = !bReconnecting;
if(bTestStream)
network = CreateNullNetwork();
else
{
switch(networkMode)
{
case 0: network = (delayTime > 0) ? CreateDelayedPublisher(delayTime) : CreateRTMPPublisher(); break;
case 1: network = CreateNullNetwork(); break;
}
}
if(!network)
{
OSLeaveMutex (hStartupShutdownMutex);
if(!bReconnecting)
MessageBox(hwndMain, strError, NULL, MB_ICONERROR);
else
DialogBox(hinstMain, MAKEINTRESOURCE(IDD_RECONNECTING), hwndMain, OBS::ReconnectDialogProc);
return;
}
bReconnecting = false;
//-------------------------------------------------------------
Log(TEXT("=====Stream Start: %s==============================================="), CurrentDateTimeString().Array());
//-------------------------------------------------------------
bEnableProjectorCursor = GlobalConfig->GetInt(L"General", L"EnableProjectorCursor", 1) != 0;
bPleaseEnableProjector = bPleaseDisableProjector = false;
int monitorID = AppConfig->GetInt(TEXT("Video"), TEXT("Monitor"));
if(monitorID >= (int)monitors.Num())
monitorID = 0;
RECT &screenRect = monitors[monitorID].rect;
int defCX = screenRect.right - screenRect.left;
int defCY = screenRect.bottom - screenRect.top;
downscaleType = AppConfig->GetInt(TEXT("Video"), TEXT("Filter"), 0);
downscale = AppConfig->GetFloat(TEXT("Video"), TEXT("Downscale"), 1.0f);
baseCX = AppConfig->GetInt(TEXT("Video"), TEXT("BaseWidth"), defCX);
baseCY = AppConfig->GetInt(TEXT("Video"), TEXT("BaseHeight"), defCY);
baseCX = MIN(MAX(baseCX, 128), 4096);
baseCY = MIN(MAX(baseCY, 128), 4096);
scaleCX = UINT(double(baseCX) / double(downscale));
scaleCY = UINT(double(baseCY) / double(downscale));
//align width to 128bit for fast SSE YUV4:2:0 conversion
outputCX = scaleCX & 0xFFFFFFFC;
outputCY = scaleCY & 0xFFFFFFFE;
bUseMultithreadedOptimizations = AppConfig->GetInt(TEXT("General"), TEXT("UseMultithreadedOptimizations"), TRUE) != 0;
Log(TEXT(" Multithreaded optimizations: %s"), (CTSTR)(bUseMultithreadedOptimizations ? TEXT("On") : TEXT("Off")));
encoderSkipThreshold = GlobalConfig->GetInt(TEXT("Video"), TEXT("EncoderSkipThreshold"), fps/4);
//------------------------------------------------------------------
Log(TEXT(" Base resolution: %ux%u"), baseCX, baseCY);
Log(TEXT(" Output resolution: %ux%u"), outputCX, outputCY);
Log(TEXT("------------------------------------------"));
//------------------------------------------------------------------
GS = new D3D10System;
GS->Init();
//Thanks to ASUS OSD hooking the goddamn user mode driver framework (!!!!), we have to re-check for dangerous
//hooks after initializing D3D.
retryHookTestV2:
if (!alreadyWarnedAboutModules)
{
if (OSIncompatibleModulesLoaded())
{
Log(TEXT("Incompatible modules (post-D3D) detected."));
int ret = MessageBox(hwndMain, Str("IncompatibleModules"), NULL, MB_ICONERROR | MB_ABORTRETRYIGNORE);
if (ret == IDABORT)
{
//FIXME: really need a better way to abort startup than this...
delete network;
delete GS;
OSLeaveMutex (hStartupShutdownMutex);
return;
}
else if (ret == IDRETRY)
{
goto retryHookTestV2;
}
}
}
//-------------------------------------------------------------
mainVertexShader = CreateVertexShaderFromFile(TEXT("shaders/DrawTexture.vShader"));
mainPixelShader = CreatePixelShaderFromFile(TEXT("shaders/DrawTexture.pShader"));
solidVertexShader = CreateVertexShaderFromFile(TEXT("shaders/DrawSolid.vShader"));
solidPixelShader = CreatePixelShaderFromFile(TEXT("shaders/DrawSolid.pShader"));
if(!mainVertexShader || !mainPixelShader)
CrashError(TEXT("Unable to load DrawTexture shaders"));
if(!solidVertexShader || !solidPixelShader)
CrashError(TEXT("Unable to load DrawSolid shaders"));
//------------------------------------------------------------------
CTSTR lpShader;
if(CloseFloat(downscale, 1.0))
lpShader = TEXT("shaders/DrawYUVTexture.pShader");
else if(downscale < 2.01)
{
switch(downscaleType)
{
case 0: lpShader = TEXT("shaders/DownscaleBilinear1YUV.pShader"); break;
case 1: lpShader = TEXT("shaders/DownscaleBicubicYUV.pShader"); break;
case 2: lpShader = TEXT("shaders/DownscaleLanczos6tapYUV.pShader"); break;
}
}
else if(downscale < 3.01)
lpShader = TEXT("shaders/DownscaleBilinear9YUV.pShader");
else
CrashError(TEXT("Invalid downscale value (must be either 1.0, 1.5, 2.0, 2.25, or 3.0)"));
yuvScalePixelShader = CreatePixelShaderFromFile(lpShader);
if (!yuvScalePixelShader)
CrashError(TEXT("Unable to create shader from file %s"), lpShader);
//-------------------------------------------------------------
for(UINT i=0; i<NUM_RENDER_BUFFERS; i++)
{
mainRenderTextures[i] = CreateRenderTarget(baseCX, baseCY, GS_BGRA, FALSE);
yuvRenderTextures[i] = CreateRenderTarget(outputCX, outputCY, GS_BGRA, FALSE);
}
//-------------------------------------------------------------
D3D10_TEXTURE2D_DESC td;
zero(&td, sizeof(td));
td.Width = outputCX;
td.Height = outputCY;
td.Format = DXGI_FORMAT_B8G8R8A8_UNORM;
td.MipLevels = 1;
td.ArraySize = 1;
td.SampleDesc.Count = 1;
td.ArraySize = 1;
td.Usage = D3D10_USAGE_STAGING;
td.CPUAccessFlags = D3D10_CPU_ACCESS_READ;
for(UINT i=0; i<NUM_RENDER_BUFFERS; i++)
{
HRESULT err = GetD3D()->CreateTexture2D(&td, NULL, ©Textures[i]);
if(FAILED(err))
{
CrashError(TEXT("Unable to create copy texture"));
//todo - better error handling
}
}
//------------------------------------------------------------------
UINT format = AppConfig->GetInt(L"Audio Encoding", L"Format", 1);
switch (format) {
case 0: sampleRateHz = 44100; break;
default:
case 1: sampleRateHz = 48000; break;
}
Log(L"------------------------------------------");
Log(L"Audio Format: %uhz", sampleRateHz);
//------------------------------------------------------------------
AudioDeviceList playbackDevices;
GetAudioDevices(playbackDevices, ADT_PLAYBACK);
String strPlaybackDevice = AppConfig->GetString(TEXT("Audio"), TEXT("PlaybackDevice"), TEXT("Default"));
if(strPlaybackDevice.IsEmpty() || !playbackDevices.HasID(strPlaybackDevice))
{
AppConfig->SetString(TEXT("Audio"), TEXT("PlaybackDevice"), TEXT("Default"));
strPlaybackDevice = TEXT("Default");
}
Log(TEXT("Playback device %s"), strPlaybackDevice.Array());
playbackDevices.FreeData();
desktopAudio = CreateAudioSource(false, strPlaybackDevice);
if(!desktopAudio) {
CrashError(TEXT("Cannot initialize desktop audio sound, more info in the log file."));
}
AudioDeviceList audioDevices;
GetAudioDevices(audioDevices, ADT_RECORDING);
String strDevice = AppConfig->GetString(TEXT("Audio"), TEXT("Device"), NULL);
if(strDevice.IsEmpty() || !audioDevices.HasID(strDevice))
{
AppConfig->SetString(TEXT("Audio"), TEXT("Device"), TEXT("Disable"));
strDevice = TEXT("Disable");
}
audioDevices.FreeData();
String strDefaultMic;
bool bHasDefault = GetDefaultMicID(strDefaultMic);
if(strDevice.CompareI(TEXT("Disable")))
EnableWindow(GetDlgItem(hwndMain, ID_MICVOLUME), FALSE);
else
{
bool bUseDefault = strDevice.CompareI(TEXT("Default")) != 0;
if(!bUseDefault || bHasDefault)
{
if(bUseDefault)
strDevice = strDefaultMic;
micAudio = CreateAudioSource(true, strDevice);
if(!micAudio)
MessageBox(hwndMain, Str("MicrophoneFailure"), NULL, 0);
else
micAudio->SetTimeOffset(AppConfig->GetInt(TEXT("Audio"), TEXT("MicTimeOffset"), 0));
EnableWindow(GetDlgItem(hwndMain, ID_MICVOLUME), micAudio != NULL);
}
else
EnableWindow(GetDlgItem(hwndMain, ID_MICVOLUME), FALSE);
}
//-------------------------------------------------------------
bool bDisableEncoding = false;
if (bTestStream)
bDisableEncoding = GlobalConfig->GetInt(TEXT("General"), TEXT("DisablePreviewEncoding"), false) != 0;
//-------------------------------------------------------------
UINT bitRate = (UINT)AppConfig->GetInt(TEXT("Audio Encoding"), TEXT("Bitrate"), 96);
String strEncoder = AppConfig->GetString(TEXT("Audio Encoding"), TEXT("Codec"), TEXT("AAC"));
if (bDisableEncoding)
audioEncoder = CreateNullAudioEncoder();
else
#ifdef USE_AAC
if(strEncoder.CompareI(TEXT("AAC")))// && OSGetVersion() >= 7)
audioEncoder = CreateAACEncoder(bitRate);
else
#endif
audioEncoder = CreateMP3Encoder(bitRate);
//-------------------------------------------------------------
desktopVol = AppConfig->GetFloat(TEXT("Audio"), TEXT("DesktopVolume"), 1.0f);
micVol = AppConfig->GetFloat(TEXT("Audio"), TEXT("MicVolume"), 1.0f);
//-------------------------------------------------------------
bRunning = true;
if(sceneElement)
{
scene = CreateScene(sceneElement->GetString(TEXT("class")), sceneElement->GetElement(TEXT("data")));
XElement *sources = sceneElement->GetElement(TEXT("sources"));
if(sources)
{
UINT numSources = sources->NumElements();
for(UINT i=0; i<numSources; i++)
{
SceneItem *item = scene->AddImageSource(sources->GetElementByID(i));
if(item)
{
if(ListView_GetItemState(GetDlgItem(hwndMain, ID_SOURCES), i, LVIS_SELECTED) > 0)
item->Select(true);
}
}
}
scene->BeginScene();
}
if(scene && scene->HasMissingSources())
MessageBox(hwndMain, Str("Scene.MissingSources"), NULL, 0);
//-------------------------------------------------------------
int maxBitRate = AppConfig->GetInt (TEXT("Video Encoding"), TEXT("MaxBitrate"), 1000);
int bufferSize = AppConfig->GetInt (TEXT("Video Encoding"), TEXT("BufferSize"), 1000);
int quality = AppConfig->GetInt (TEXT("Video Encoding"), TEXT("Quality"), 8);
String preset = AppConfig->GetString(TEXT("Video Encoding"), TEXT("Preset"), TEXT("veryfast"));
bUsing444 = false;//AppConfig->GetInt (TEXT("Video Encoding"), TEXT("Use444"), 0) != 0;
bUseCFR = AppConfig->GetInt(TEXT("Video Encoding"), TEXT("UseCFR"), 1) != 0;
//-------------------------------------------------------------
bWriteToFile = networkMode == 1 || AppConfig->GetInt(TEXT("Publish"), TEXT("SaveToFile")) != 0;
String strOutputFile = AppConfig->GetString(TEXT("Publish"), TEXT("SavePath"));
strOutputFile.FindReplace(TEXT("\\"), TEXT("/"));
if (bWriteToFile)
{
OSFindData ofd;
HANDLE hFind = NULL;
bool bUseDateTimeName = true;
bool bOverwrite = GlobalConfig->GetInt(L"General", L"OverwriteRecordings", false) != 0;
if(!bOverwrite && (hFind = OSFindFirstFile(strOutputFile, ofd)))
{
String strFileExtension = GetPathExtension(strOutputFile);
String strFileWithoutExtension = GetPathWithoutExtension(strOutputFile);
if(strFileExtension.IsValid() && !ofd.bDirectory)
{
String strNewFilePath;
UINT curFile = 0;
do
{
strNewFilePath.Clear() << strFileWithoutExtension << TEXT(" (") << FormattedString(TEXT("%02u"), ++curFile) << TEXT(").") << strFileExtension;
} while(OSFileExists(strNewFilePath));
strOutputFile = strNewFilePath;
bUseDateTimeName = false;
}
if(ofd.bDirectory)
strOutputFile.AppendChar('/');
OSFindClose(hFind);
}
if(bUseDateTimeName)
{
String strFileName = GetPathFileName(strOutputFile);
if(!strFileName.IsValid() || !IsSafeFilename(strFileName))
{
SYSTEMTIME st;
GetLocalTime(&st);
String strDirectory = GetPathDirectory(strOutputFile),
extension = GetPathExtension(strOutputFile);
if(extension.IsEmpty())
extension = TEXT("mp4");
strOutputFile = FormattedString(TEXT("%s/%u-%02u-%02u-%02u%02u-%02u.%s"), strDirectory.Array(), st.wYear, st.wMonth, st.wDay, st.wHour, st.wMinute, st.wSecond, extension.Array());
}
}
}
//-------------------------------------------------------------
bufferingTime = GlobalConfig->GetInt(TEXT("General"), TEXT("SceneBufferingTime"), 700);
Log(TEXT("Scene buffering time set to %u"), bufferingTime);
//-------------------------------------------------------------
bForceMicMono = AppConfig->GetInt(TEXT("Audio"), TEXT("ForceMicMono")) != 0;
bRecievedFirstAudioFrame = false;
//hRequestAudioEvent = CreateSemaphore(NULL, 0, 0x7FFFFFFFL, NULL);
hSoundDataMutex = OSCreateMutex();
hSoundThread = OSCreateThread((XTHREAD)OBS::MainAudioThread, NULL);
//-------------------------------------------------------------
StartBlankSoundPlayback(strPlaybackDevice);
//-------------------------------------------------------------
colorDesc.fullRange = false;
colorDesc.primaries = ColorPrimaries_BT709;
colorDesc.transfer = ColorTransfer_IEC6196621;
colorDesc.matrix = outputCX >= 1280 || outputCY > 576 ? ColorMatrix_BT709 : ColorMatrix_SMPTE170M;
videoEncoder = nullptr;
if (bDisableEncoding)
videoEncoder = CreateNullVideoEncoder();
else if(AppConfig->GetInt(TEXT("Video Encoding"), TEXT("UseQSV")) != 0)
videoEncoder = CreateQSVEncoder(fps, outputCX, outputCY, quality, preset, bUsing444, colorDesc, maxBitRate, bufferSize, bUseCFR);
if(!videoEncoder)
videoEncoder = CreateX264Encoder(fps, outputCX, outputCY, quality, preset, bUsing444, colorDesc, maxBitRate, bufferSize, bUseCFR);
//-------------------------------------------------------------
// Ensure that the render frame is properly sized
ResizeRenderFrame(true);
//-------------------------------------------------------------
if(!bTestStream && bWriteToFile && strOutputFile.IsValid())
{
String strFileExtension = GetPathExtension(strOutputFile);
if(strFileExtension.CompareI(TEXT("flv")))
fileStream = CreateFLVFileStream(strOutputFile);
else if(strFileExtension.CompareI(TEXT("mp4")))
fileStream = CreateMP4FileStream(strOutputFile);
if(!fileStream)
{
Log(TEXT("Warning - OBSCapture::Start: Unable to create the file stream. Check the file path in Broadcast Settings."));
MessageBox(hwndMain, Str("Capture.Start.FileStream.Warning"), Str("Capture.Start.FileStream.WarningCaption"), MB_OK | MB_ICONWARNING);
}
}
//-------------------------------------------------------------
curFramePic = NULL;
bShutdownVideoThread = false;
bShutdownEncodeThread = false;
//ResetEvent(hVideoThread);
hEncodeThread = OSCreateThread((XTHREAD)OBS::EncodeThread, NULL);
hVideoThread = OSCreateThread((XTHREAD)OBS::MainCaptureThread, NULL);
if(bTestStream)
{
EnableWindow(GetDlgItem(hwndMain, ID_STARTSTOP), FALSE);
SetWindowText(GetDlgItem(hwndMain, ID_TESTSTREAM), Str("MainWindow.StopTest"));
}
else
{
EnableWindow(GetDlgItem(hwndMain, ID_TESTSTREAM), FALSE);
SetWindowText(GetDlgItem(hwndMain, ID_STARTSTOP), Str("MainWindow.StopStream"));
}
EnableWindow(GetDlgItem(hwndMain, ID_SCENEEDITOR), TRUE);
//-------------------------------------------------------------
ReportStartStreamTrigger();
SystemParametersInfo(SPI_SETSCREENSAVEACTIVE, 0, 0, 0);
SetThreadExecutionState(ES_CONTINUOUS | ES_SYSTEM_REQUIRED | ES_AWAYMODE_REQUIRED | ES_DISPLAY_REQUIRED);
UpdateRenderViewMessage();
//update notification icon to reflect current status
UpdateNotificationAreaIcon();
OSLeaveMutex (hStartupShutdownMutex);
}
//todo: this function is an abomination, this is just disgusting. fix it.
//...seriously, this is really, really horrible. I mean this is amazingly bad.
void OBS::MainCaptureLoop()
{
int curRenderTarget = 0, curYUVTexture = 0, curCopyTexture = 0;
int copyWait = NUM_RENDER_BUFFERS-1;
bSentHeaders = false;
bFirstAudioPacket = true;
Vect2 baseSize = Vect2(float(baseCX), float(baseCY));
Vect2 outputSize = Vect2(float(outputCX), float(outputCY));
Vect2 scaleSize = Vect2(float(scaleCX), float(scaleCY));
HANDLE hScaleVal = yuvScalePixelShader->GetParameterByName(TEXT("baseDimensionI"));
LPVOID nullBuff = NULL;
//----------------------------------------
// x264 input buffers
int curOutBuffer = 0;
x264_picture_t *lastPic = NULL;
x264_picture_t outPics[NUM_OUT_BUFFERS];
DWORD outTimes[NUM_OUT_BUFFERS] = {0, 0, 0};
for(int i=0; i<NUM_OUT_BUFFERS; i++)
x264_picture_init(&outPics[i]);
if(bUsing444)
{
for(int i=0; i<NUM_OUT_BUFFERS; i++)
{
outPics[i].img.i_csp = X264_CSP_BGRA; //although the x264 input says BGR, x264 actually will expect packed UYV
outPics[i].img.i_plane = 1;
}
}
else
{
for(int i=0; i<NUM_OUT_BUFFERS; i++)
x264_picture_alloc(&outPics[i], X264_CSP_I420, outputCX, outputCY);
}
//----------------------------------------
// time/timestamp stuff
LARGE_INTEGER clockFreq;
QueryPerformanceFrequency(&clockFreq);
bufferedTimes.Clear();
ctsOffsets.Clear();
#ifdef USE_100NS_TIME
QWORD streamTimeStart = GetQPCTime100NS(clockFreq.QuadPart);
QWORD frameTime100ns = 10000000/fps;
QWORD sleepTargetTime = 0;
bool bWasLaggedFrame = false;
#else
DWORD streamTimeStart = OSGetTime();
#endif
totalStreamTime = 0;
lastAudioTimestamp = 0;
latestVideoTime = firstSceneTimestamp = GetQPCTimeMS(clockFreq.QuadPart);
DWORD fpsTimeNumerator = 1000-(frameTime*fps);
DWORD fpsTimeDenominator = fps;
DWORD fpsTimeAdjust = 0;
DWORD cfrTime = 0;
DWORD cfrTimeAdjust = 0;
//----------------------------------------
// start audio capture streams
desktopAudio->StartCapture();
if(micAudio) micAudio->StartCapture();
//----------------------------------------
// status bar/statistics stuff
DWORD fpsCounter = 0;
int numLongFrames = 0;
int numTotalFrames = 0;
int numTotalDuplicatedFrames = 0;
bytesPerSec = 0;
captureFPS = 0;
curFramesDropped = 0;
curStrain = 0.0;
PostMessage(hwndMain, OBS_UPDATESTATUSBAR, 0, 0);
QWORD lastBytesSent[3] = {0, 0, 0};
DWORD lastFramesDropped = 0;
#ifdef USE_100NS_TIME
double bpsTime = 0.0;
#else
float bpsTime = 0.0f;
#endif
double lastStrain = 0.0f;
DWORD numSecondsWaited = 0;
//----------------------------------------
// 444->420 thread data
int numThreads = MAX(OSGetTotalCores()-2, 1);
HANDLE *h420Threads = (HANDLE*)Allocate(sizeof(HANDLE)*numThreads);
Convert444Data *convertInfo = (Convert444Data*)Allocate(sizeof(Convert444Data)*numThreads);
zero(h420Threads, sizeof(HANDLE)*numThreads);
zero(convertInfo, sizeof(Convert444Data)*numThreads);
for(int i=0; i<numThreads; i++)
{
convertInfo[i].width = outputCX;
convertInfo[i].height = outputCY;
convertInfo[i].hSignalConvert = CreateEvent(NULL, FALSE, FALSE, NULL);
convertInfo[i].hSignalComplete = CreateEvent(NULL, FALSE, FALSE, NULL);
if(i == 0)
convertInfo[i].startY = 0;
else
convertInfo[i].startY = convertInfo[i-1].endY;
if(i == (numThreads-1))
convertInfo[i].endY = outputCY;
else
convertInfo[i].endY = ((outputCY/numThreads)*(i+1)) & 0xFFFFFFFE;
}
bool bFirstFrame = true;
bool bFirstImage = true;
bool bFirst420Encode = true;
bool bUseThreaded420 = bUseMultithreadedOptimizations && (OSGetTotalCores() > 1) && !bUsing444;
List<HANDLE> completeEvents;
if(bUseThreaded420)
{
for(int i=0; i<numThreads; i++)
{
h420Threads[i] = OSCreateThread((XTHREAD)Convert444Thread, convertInfo+i);
completeEvents << convertInfo[i].hSignalComplete;
}
}
//----------------------------------------
QWORD curStreamTime = 0, lastStreamTime, firstFrameTime = GetQPCTimeMS(clockFreq.QuadPart);
lastStreamTime = firstFrameTime-frameTime;
bool bFirstAudioPacket = true;
while(bRunning)
{
#ifdef USE_100NS_TIME
QWORD renderStartTime = GetQPCTime100NS(clockFreq.QuadPart);
if(sleepTargetTime == 0 || bWasLaggedFrame)
sleepTargetTime = renderStartTime;
#else
DWORD renderStartTime = OSGetTime();
totalStreamTime = renderStartTime-streamTimeStart;
DWORD frameTimeAdjust = frameTime;
fpsTimeAdjust += fpsTimeNumerator;
if(fpsTimeAdjust > fpsTimeDenominator)
{
fpsTimeAdjust -= fpsTimeDenominator;
++frameTimeAdjust;
}
#endif
bool bRenderView = !IsIconic(hwndMain) && bRenderViewEnabled;
profileIn("frame");
#ifdef USE_100NS_TIME
QWORD qwTime = renderStartTime/10000;
latestVideoTime = qwTime;
QWORD frameDelta = renderStartTime-lastStreamTime;
double fSeconds = double(frameDelta)*0.0000001;
//Log(TEXT("frameDelta: %f"), fSeconds);
lastStreamTime = renderStartTime;
#else
QWORD qwTime = GetQPCTimeMS(clockFreq.QuadPart);
latestVideoTime = qwTime;
QWORD frameDelta = qwTime-lastStreamTime;
float fSeconds = float(frameDelta)*0.001f;
//Log(TEXT("frameDelta: %llu"), frameDelta);
lastStreamTime = qwTime;
#endif
//------------------------------------
if(bRequestKeyframe && keyframeWait > 0)
{
keyframeWait -= int(frameDelta);
if(keyframeWait <= 0)
{
GetVideoEncoder()->RequestKeyframe();
bRequestKeyframe = false;
}
}
if(!bPushToTalkDown && pushToTalkTimeLeft > 0)
{
pushToTalkTimeLeft -= int(frameDelta);
OSDebugOut(TEXT("time left: %d\r\n"), pushToTalkTimeLeft);
if(pushToTalkTimeLeft <= 0)
{
pushToTalkTimeLeft = 0;
bPushToTalkOn = false;
}
}
//------------------------------------
OSEnterMutex(hSceneMutex);
if(bResizeRenderView)
{
GS->ResizeView();
bResizeRenderView = false;
}
//------------------------------------
if(scene)
{
profileIn("scene->Preprocess");
scene->Preprocess();
for(UINT i=0; i<globalSources.Num(); i++)
globalSources[i].source->Preprocess();
profileOut;
scene->Tick(float(fSeconds));
for(UINT i=0; i<globalSources.Num(); i++)
globalSources[i].source->Tick(float(fSeconds));
}
//------------------------------------
QWORD curBytesSent = network->GetCurrentSentBytes();
curFramesDropped = network->NumDroppedFrames();
bool bUpdateBPS = false;
bpsTime += fSeconds;
if(bpsTime > 1.0f)
{
if(numSecondsWaited < 3)
++numSecondsWaited;
//bytesPerSec = DWORD(curBytesSent - lastBytesSent);
bytesPerSec = DWORD(curBytesSent - lastBytesSent[0]) / numSecondsWaited;
if(bpsTime > 2.0)
bpsTime = 0.0f;
else
bpsTime -= 1.0;
if(numSecondsWaited == 3)
{
lastBytesSent[0] = lastBytesSent[1];
lastBytesSent[1] = lastBytesSent[2];
lastBytesSent[2] = curBytesSent;
}
else
lastBytesSent[numSecondsWaited] = curBytesSent;
captureFPS = fpsCounter;
fpsCounter = 0;
bUpdateBPS = true;
}
fpsCounter++;
curStrain = network->GetPacketStrain();
EnableBlending(TRUE);
BlendFunction(GS_BLEND_SRCALPHA, GS_BLEND_INVSRCALPHA);
//------------------------------------
// render the mini render texture
LoadVertexShader(mainVertexShader);
LoadPixelShader(mainPixelShader);
SetRenderTarget(mainRenderTextures[curRenderTarget]);
Ortho(0.0f, baseSize.x, baseSize.y, 0.0f, -100.0f, 100.0f);
SetViewport(0, 0, baseSize.x, baseSize.y);
if(scene)
scene->Render();
//------------------------------------
if(bTransitioning)
{
if(!transitionTexture)
{
transitionTexture = CreateTexture(baseCX, baseCY, GS_BGRA, NULL, FALSE, TRUE);
if(transitionTexture)
{
D3D10Texture *d3dTransitionTex = static_cast<D3D10Texture*>(transitionTexture);
D3D10Texture *d3dSceneTex = static_cast<D3D10Texture*>(mainRenderTextures[lastRenderTarget]);
GetD3D()->CopyResource(d3dTransitionTex->texture, d3dSceneTex->texture);
}
else
bTransitioning = false;
}
else if(transitionAlpha >= 1.0f)
{
delete transitionTexture;
transitionTexture = NULL;
bTransitioning = false;
}
}
if(bTransitioning)
{
EnableBlending(TRUE);
transitionAlpha += float(fSeconds)*5.0f;
if(transitionAlpha > 1.0f)
transitionAlpha = 1.0f;
}
else
EnableBlending(FALSE);
//------------------------------------
// render the mini view thingy
if(bRenderView)
{
Vect2 renderFrameSize = Vect2(float(renderFrameWidth), float(renderFrameHeight));
SetRenderTarget(NULL);
LoadVertexShader(mainVertexShader);
LoadPixelShader(mainPixelShader);
Ortho(0.0f, renderFrameSize.x, renderFrameSize.y, 0.0f, -100.0f, 100.0f);
SetViewport(0.0f, 0.0f, renderFrameSize.x, renderFrameSize.y);
if(bTransitioning)
{
BlendFunction(GS_BLEND_ONE, GS_BLEND_ZERO);
if(renderFrameIn1To1Mode)
DrawSprite(transitionTexture, 0xFFFFFFFF, 0.0f, 0.0f, outputSize.x, outputSize.y);
else
DrawSprite(transitionTexture, 0xFFFFFFFF, 0.0f, 0.0f, renderFrameSize.x, renderFrameSize.y);
BlendFunction(GS_BLEND_FACTOR, GS_BLEND_INVFACTOR, transitionAlpha);
}
if(renderFrameIn1To1Mode)
DrawSprite(mainRenderTextures[curRenderTarget], 0xFFFFFFFF, 0.0f, 0.0f, outputSize.x, outputSize.y);
else
DrawSprite(mainRenderTextures[curRenderTarget], 0xFFFFFFFF, 0.0f, 0.0f, renderFrameSize.x, renderFrameSize.y);
Ortho(0.0f, renderFrameSize.x, renderFrameSize.y, 0.0f, -100.0f, 100.0f);
//draw selections if in edit mode
if(bEditMode && !bSizeChanging)
{
LoadVertexShader(solidVertexShader);
LoadPixelShader(solidPixelShader);
solidPixelShader->SetColor(solidPixelShader->GetParameter(0), 0xFFFF0000);
if(renderFrameIn1To1Mode)
Ortho(0.0f, renderFrameSize.x * downscale, renderFrameSize.y * downscale, 0.0f, -100.0f, 100.0f);
else
Ortho(0.0f, baseSize.x, baseSize.y, 0.0f, -100.0f, 100.0f);
if(scene)
scene->RenderSelections();
}
}
else if(bForceRenderViewErase)
{
InvalidateRect(hwndRenderFrame, NULL, TRUE);
UpdateWindow(hwndRenderFrame);
bForceRenderViewErase = false;
}
//------------------------------------
// actual stream output
LoadVertexShader(mainVertexShader);
LoadPixelShader(yuvScalePixelShader);
Texture *yuvRenderTexture = yuvRenderTextures[curRenderTarget];
SetRenderTarget(yuvRenderTexture);
yuvScalePixelShader->SetVector2(hScaleVal, 1.0f/baseSize);
Ortho(0.0f, outputSize.x, outputSize.y, 0.0f, -100.0f, 100.0f);
SetViewport(0.0f, 0.0f, outputSize.x, outputSize.y);
//why am I using scaleSize instead of outputSize for the texture?
//because outputSize can be trimmed by up to three pixels due to 128-bit alignment.
//using the scale function with outputSize can cause slightly inaccurate scaled images
if(bTransitioning)
{
BlendFunction(GS_BLEND_ONE, GS_BLEND_ZERO);
DrawSpriteEx(transitionTexture, 0xFFFFFFFF, 0.0f, 0.0f, scaleSize.x, scaleSize.y, 0.0f, 0.0f, scaleSize.x, scaleSize.y);
BlendFunction(GS_BLEND_FACTOR, GS_BLEND_INVFACTOR, transitionAlpha);
}
DrawSpriteEx(mainRenderTextures[curRenderTarget], 0xFFFFFFFF, 0.0f, 0.0f, outputSize.x, outputSize.y, 0.0f, 0.0f, outputSize.x, outputSize.y);
//------------------------------------
if(bRenderView && !copyWait)
static_cast<D3D10System*>(GS)->swap->Present(0, 0);
OSLeaveMutex(hSceneMutex);
//------------------------------------
// present/upload
profileIn("video encoding and uploading");
bool bEncode = true;
if(copyWait)
{
copyWait--;
bEncode = false;
}
else
{
//audio sometimes takes a bit to start -- do not start processing frames until audio has started capturing
if(!bRecievedFirstAudioFrame)
bEncode = false;
else if(bFirstFrame)
{
firstFrameTime = qwTime;
bFirstFrame = false;
}
if(!bEncode)
{
if(curYUVTexture == (NUM_RENDER_BUFFERS-1))
curYUVTexture = 0;
else
curYUVTexture++;
}
}
if(bEncode)
{
curStreamTime = qwTime-firstFrameTime;
UINT prevCopyTexture = (curCopyTexture == 0) ? NUM_RENDER_BUFFERS-1 : curCopyTexture-1;
ID3D10Texture2D *copyTexture = copyTextures[curCopyTexture];
profileIn("CopyResource");
if(!bFirst420Encode && bUseThreaded420)
{
WaitForMultipleObjects(completeEvents.Num(), completeEvents.Array(), TRUE, INFINITE);
copyTexture->Unmap(0);
}
D3D10Texture *d3dYUV = static_cast<D3D10Texture*>(yuvRenderTextures[curYUVTexture]);
GetD3D()->CopyResource(copyTexture, d3dYUV->texture);
profileOut;
ID3D10Texture2D *prevTexture = copyTextures[prevCopyTexture];
if(bFirstImage) //ignore the first frame
bFirstImage = false;
else
{
HRESULT result;
D3D10_MAPPED_TEXTURE2D map;
if(SUCCEEDED(result = prevTexture->Map(0, D3D10_MAP_READ, 0, &map)))
{
int prevOutBuffer = (curOutBuffer == 0) ? NUM_OUT_BUFFERS-1 : curOutBuffer-1;
int nextOutBuffer = (curOutBuffer == NUM_OUT_BUFFERS-1) ? 0 : curOutBuffer+1;
x264_picture_t &prevPicOut = outPics[prevOutBuffer];
x264_picture_t &picOut = outPics[curOutBuffer];
x264_picture_t &nextPicOut = outPics[nextOutBuffer];
if(!bUsing444)
{
profileIn("conversion to 4:2:0");
if(bUseThreaded420)
{
outTimes[nextOutBuffer] = (DWORD)curStreamTime;
for(int i=0; i<numThreads; i++)
{
convertInfo[i].input = (LPBYTE)map.pData;
convertInfo[i].pitch = map.RowPitch;
convertInfo[i].output[0] = nextPicOut.img.plane[0];
convertInfo[i].output[1] = nextPicOut.img.plane[1];
convertInfo[i].output[2] = nextPicOut.img.plane[2];
SetEvent(convertInfo[i].hSignalConvert);
}
if(bFirst420Encode)
bFirst420Encode = bEncode = false;
}
else
{
outTimes[curOutBuffer] = (DWORD)curStreamTime;
Convert444to420((LPBYTE)map.pData, outputCX, map.RowPitch, outputCY, 0, outputCY, picOut.img.plane, SSE2Available());
prevTexture->Unmap(0);
}
profileOut;
}
else
{
outTimes[curOutBuffer] = (DWORD)curStreamTime;
picOut.img.i_stride[0] = map.RowPitch;
picOut.img.plane[0] = (uint8_t*)map.pData;
}
if(bEncode)
{
DWORD curFrameTimestamp = outTimes[prevOutBuffer];
//Log(TEXT("curFrameTimestamp: %u"), curFrameTimestamp);
//------------------------------------
FrameProcessInfo frameInfo;
frameInfo.firstFrameTime = firstFrameTime;
frameInfo.prevTexture = prevTexture;
if(bUseCFR)
{
while(cfrTime < curFrameTimestamp)
{
DWORD frameTimeAdjust = frameTime;
cfrTimeAdjust += fpsTimeNumerator;
if(cfrTimeAdjust > fpsTimeDenominator)
{
cfrTimeAdjust -= fpsTimeDenominator;
++frameTimeAdjust;
}
DWORD halfTime = (frameTimeAdjust+1)/2;
x264_picture_t *nextPic = (curFrameTimestamp-cfrTime <= halfTime) ? &picOut : &prevPicOut;
//Log(TEXT("cfrTime: %u, time: %u"), cfrTime, curFrameTimestamp);
//these lines are just for counting duped frames
if(nextPic == lastPic)
++numTotalDuplicatedFrames;
else
lastPic = nextPic;
frameInfo.picOut = nextPic;
frameInfo.picOut->i_pts = cfrTime;
frameInfo.frameTimestamp = cfrTime;
ProcessFrame(frameInfo);
cfrTime += frameTimeAdjust;
//Log(TEXT("cfrTime: %u, chi frame: %u"), cfrTime, (curFrameTimestamp-cfrTime <= halfTime));
}
}
else
{
picOut.i_pts = curFrameTimestamp;
frameInfo.picOut = &picOut;
frameInfo.frameTimestamp = curFrameTimestamp;
ProcessFrame(frameInfo);
}
}
curOutBuffer = nextOutBuffer;
}
else
{
//We have to crash, or we end up deadlocking the thread when the convert threads are never signalled
CrashError (TEXT("Texture->Map failed: 0x%08x"), result);
}
}
if(curCopyTexture == (NUM_RENDER_BUFFERS-1))
curCopyTexture = 0;
else
curCopyTexture++;
if(curYUVTexture == (NUM_RENDER_BUFFERS-1))
curYUVTexture = 0;
else
curYUVTexture++;
}
lastRenderTarget = curRenderTarget;
if(curRenderTarget == (NUM_RENDER_BUFFERS-1))
curRenderTarget = 0;
else
curRenderTarget++;
if(bUpdateBPS || !CloseDouble(curStrain, lastStrain) || curFramesDropped != lastFramesDropped)
{
PostMessage(hwndMain, OBS_UPDATESTATUSBAR, 0, 0);
lastStrain = curStrain;
lastFramesDropped = curFramesDropped;
}
profileOut;
profileOut;
//------------------------------------
// get audio while sleeping or capturing
//ReleaseSemaphore(hRequestAudioEvent, 1, NULL);
//------------------------------------
// frame sync
#ifdef USE_100NS_TIME
QWORD renderStopTime = GetQPCTime100NS(clockFreq.QuadPart);
sleepTargetTime += frameTime100ns;
if(bWasLaggedFrame = (sleepTargetTime <= renderStopTime))
numLongFrames++;
else
SleepTo(clockFreq.QuadPart, sleepTargetTime);
#else
DWORD renderStopTime = OSGetTime();
DWORD totalTime = renderStopTime-renderStartTime;
if(totalTime > frameTimeAdjust)
numLongFrames++;
else if(totalTime < frameTimeAdjust)
OSSleep(frameTimeAdjust-totalTime);
#endif
//OSDebugOut(TEXT("Frame adjust time: %d, "), frameTimeAdjust-totalTime);
numTotalFrames++;
}
if(!bUsing444)
{
if(bUseThreaded420)
{
for(int i=0; i<numThreads; i++)
{
if(h420Threads[i])
{
convertInfo[i].bKillThread = true;
SetEvent(convertInfo[i].hSignalConvert);
OSTerminateThread(h420Threads[i], 10000);
h420Threads[i] = NULL;
}
if(convertInfo[i].hSignalConvert)
{
CloseHandle(convertInfo[i].hSignalConvert);
convertInfo[i].hSignalConvert = NULL;
}
if(convertInfo[i].hSignalComplete)
{
CloseHandle(convertInfo[i].hSignalComplete);
convertInfo[i].hSignalComplete = NULL;
}
}
if(!bFirst420Encode)
{
ID3D10Texture2D *copyTexture = copyTextures[curCopyTexture];
copyTexture->Unmap(0);
}
}
for(int i=0; i<NUM_OUT_BUFFERS; i++)
x264_picture_clean(&outPics[i]);
}
Free(h420Threads);
Free(convertInfo);
Log(TEXT("Total frames rendered: %d, number of frames that lagged: %d (%0.2f%%) (it's okay for some frames to lag)"), numTotalFrames, numLongFrames, (double(numLongFrames)/double(numTotalFrames))*100.0);
if(bUseCFR)
Log(TEXT("Total duplicated CFR frames: %d"), numTotalDuplicatedFrames);
}
