#include #include #include #include #include #include "dxgi_adapter.h" #include "dxgi_output.h" #include "dxgi_swapchain.h" #include "../dxvk/dxvk_format.h" namespace dxvk { DxgiOutput::DxgiOutput( const Com& adapter, HMONITOR monitor) : m_adapter(adapter), m_monitor(monitor) { // Init output data if necessary if (FAILED(m_adapter->GetOutputData(m_monitor, nullptr))) { DXGI_VK_OUTPUT_DATA outputData; outputData.FrameStats = DXGI_FRAME_STATISTICS(); outputData.GammaCurve.Scale = { 1.0f, 1.0f, 1.0f }; outputData.GammaCurve.Offset = { 0.0f, 0.0f, 0.0f }; for (uint32_t i = 0; i < DXGI_VK_GAMMA_CP_COUNT; i++) { const float value = GammaControlPointLocation(i); outputData.GammaCurve.GammaCurve[i] = { value, value, value }; } outputData.GammaDirty = FALSE; m_adapter->SetOutputData(m_monitor, &outputData); } } DxgiOutput::~DxgiOutput() { } HRESULT STDMETHODCALLTYPE DxgiOutput::QueryInterface(REFIID riid, void** ppvObject) { *ppvObject = nullptr; if (riid == __uuidof(IUnknown) || riid == __uuidof(IDXGIObject) || riid == __uuidof(IDXGIOutput)) { *ppvObject = ref(this); return S_OK; } Logger::warn("DxgiOutput::QueryInterface: Unknown interface query"); Logger::warn(str::format(riid)); return E_NOINTERFACE; } HRESULT STDMETHODCALLTYPE DxgiOutput::GetParent(REFIID riid, void **ppParent) { return m_adapter->QueryInterface(riid, ppParent); } HRESULT STDMETHODCALLTYPE DxgiOutput::FindClosestMatchingMode( const DXGI_MODE_DESC *pModeToMatch, DXGI_MODE_DESC *pClosestMatch, IUnknown *pConcernedDevice) { if (pModeToMatch == nullptr || pClosestMatch == nullptr) return DXGI_ERROR_INVALID_CALL; if (pModeToMatch->Format == DXGI_FORMAT_UNKNOWN && pConcernedDevice == nullptr) return DXGI_ERROR_INVALID_CALL; // If no format was specified, fall back to a standard // SRGB format, which is supported on all devices. DXGI_FORMAT targetFormat = pModeToMatch->Format; if (targetFormat == DXGI_FORMAT_UNKNOWN) targetFormat = DXGI_FORMAT_R8G8B8A8_UNORM_SRGB; UINT targetRefreshRate = 0; if (pModeToMatch->RefreshRate.Denominator != 0) { targetRefreshRate = pModeToMatch->RefreshRate.Numerator / pModeToMatch->RefreshRate.Denominator; } // List all supported modes and filter // out those we don't actually need UINT modeCount = 0; GetDisplayModeList(targetFormat, DXGI_ENUM_MODES_SCALING, &modeCount, nullptr); if (modeCount == 0) { Logger::err("DXGI: FindClosestMatchingMode: No modes found"); return DXGI_ERROR_NOT_FOUND; } std::vector modes(modeCount); GetDisplayModeList(targetFormat, DXGI_ENUM_MODES_SCALING, &modeCount, modes.data()); for (auto it = modes.begin(); it != modes.end(); ) { bool skipMode = false; // Remove modes with a different refresh rate if (targetRefreshRate != 0) { UINT modeRefreshRate = it->RefreshRate.Numerator / it->RefreshRate.Denominator; skipMode |= modeRefreshRate != targetRefreshRate; } // Remove modes with incorrect scaling if (pModeToMatch->Scaling != DXGI_MODE_SCALING_UNSPECIFIED) skipMode |= it->Scaling != pModeToMatch->Scaling; it = skipMode ? modes.erase(it) : ++it; } // No matching modes found if (modes.size() == 0) return DXGI_ERROR_NOT_FOUND; // If no valid resolution is specified, find the // closest match for the current display resolution UINT targetWidth = pModeToMatch->Width; UINT targetHeight = pModeToMatch->Height; if (targetWidth == 0 || targetHeight == 0) { DXGI_MODE_DESC activeMode = { }; GetDisplayMode(&activeMode, ENUM_CURRENT_SETTINGS); targetWidth = activeMode.Width; targetHeight = activeMode.Height; } // Select mode with minimal height+width difference UINT minDifference = std::numeric_limits::max(); for (auto mode : modes) { UINT currDifference = std::abs(int(targetWidth - mode.Width)) + std::abs(int(targetHeight - mode.Height)); if (currDifference <= minDifference) { minDifference = currDifference; *pClosestMatch = mode; } } return S_OK; } HRESULT STDMETHODCALLTYPE DxgiOutput::GetDesc(DXGI_OUTPUT_DESC *pDesc) { if (pDesc == nullptr) return DXGI_ERROR_INVALID_CALL; ::MONITORINFOEXW monInfo; monInfo.cbSize = sizeof(monInfo); if (!::GetMonitorInfoW(m_monitor, reinterpret_cast(&monInfo))) { Logger::err("DXGI: Failed to query monitor info"); return E_FAIL; } std::memcpy(pDesc->DeviceName, monInfo.szDevice, std::size(pDesc->DeviceName)); pDesc->DesktopCoordinates = monInfo.rcMonitor; pDesc->AttachedToDesktop = 1; pDesc->Rotation = DXGI_MODE_ROTATION_UNSPECIFIED; pDesc->Monitor = m_monitor; return S_OK; } HRESULT STDMETHODCALLTYPE DxgiOutput::GetDisplayModeList( DXGI_FORMAT EnumFormat, UINT Flags, UINT *pNumModes, DXGI_MODE_DESC *pDesc) { if (pNumModes == nullptr) return DXGI_ERROR_INVALID_CALL; // Query monitor info to get the device name ::MONITORINFOEXW monInfo; monInfo.cbSize = sizeof(monInfo); if (!::GetMonitorInfoW(m_monitor, reinterpret_cast(&monInfo))) { Logger::err("DXGI: Failed to query monitor info"); return E_FAIL; } // Walk over all modes that the display supports and // return those that match the requested format etc. DEVMODEW devMode; uint32_t srcModeId = 0; uint32_t dstModeId = 0; std::vector modeList; while (::EnumDisplaySettingsW(monInfo.szDevice, srcModeId++, &devMode)) { // Skip interlaced modes altogether if (devMode.dmDisplayFlags & DM_INTERLACED) continue; // Skip modes with incompatible formats if (devMode.dmBitsPerPel != GetFormatBpp(EnumFormat)) continue; if (pDesc != nullptr) { DXGI_MODE_DESC mode; mode.Width = devMode.dmPelsWidth; mode.Height = devMode.dmPelsHeight; mode.RefreshRate = { devMode.dmDisplayFrequency * 1000, 1000 }; mode.Format = EnumFormat; mode.ScanlineOrdering = DXGI_MODE_SCANLINE_ORDER_PROGRESSIVE; mode.Scaling = DXGI_MODE_SCALING_UNSPECIFIED; modeList.push_back(mode); } dstModeId += 1; } // Sort display modes by width, height and refresh rate, // in that order. Some games rely on correct ordering. std::sort(modeList.begin(), modeList.end(), [] (const DXGI_MODE_DESC& a, const DXGI_MODE_DESC& b) { if (a.Width < b.Width) return true; if (a.Width > b.Width) return false; if (a.Height < b.Height) return true; if (a.Height > b.Height) return false; return (a.RefreshRate.Numerator / a.RefreshRate.Denominator) < (b.RefreshRate.Numerator / b.RefreshRate.Denominator); }); // If requested, write out the first set of display // modes to the destination array. if (pDesc != nullptr) { for (uint32_t i = 0; i < *pNumModes && i < dstModeId; i++) pDesc[i] = modeList[i]; if (dstModeId > *pNumModes) return DXGI_ERROR_MORE_DATA; } *pNumModes = dstModeId; return S_OK; } HRESULT STDMETHODCALLTYPE DxgiOutput::GetDisplaySurfaceData(IDXGISurface* pDestination) { Logger::err("DxgiOutput::GetDisplaySurfaceData: Not implemented"); return E_NOTIMPL; } HRESULT STDMETHODCALLTYPE DxgiOutput::GetFrameStatistics(DXGI_FRAME_STATISTICS* pStats) { DXGI_VK_OUTPUT_DATA outputData; if (FAILED(m_adapter->GetOutputData(m_monitor, &outputData))) { Logger::err("DXGI: Failed to query output data"); return E_FAIL; } *pStats = outputData.FrameStats; return S_OK; } HRESULT STDMETHODCALLTYPE DxgiOutput::GetGammaControl(DXGI_GAMMA_CONTROL* pArray) { DXGI_VK_OUTPUT_DATA outputData; if (FAILED(m_adapter->GetOutputData(m_monitor, &outputData))) { Logger::err("DXGI: Failed to query output data"); return E_FAIL; } *pArray = outputData.GammaCurve; return S_OK; } HRESULT STDMETHODCALLTYPE DxgiOutput::GetGammaControlCapabilities(DXGI_GAMMA_CONTROL_CAPABILITIES* pGammaCaps) { pGammaCaps->ScaleAndOffsetSupported = FALSE; pGammaCaps->MaxConvertedValue = 1.0f; pGammaCaps->MinConvertedValue = 0.0f; pGammaCaps->NumGammaControlPoints = DXGI_VK_GAMMA_CP_COUNT; for (uint32_t i = 0; i < pGammaCaps->NumGammaControlPoints; i++) pGammaCaps->ControlPointPositions[i] = GammaControlPointLocation(i); return S_OK; } void STDMETHODCALLTYPE DxgiOutput::ReleaseOwnership() { Logger::warn("DxgiOutput::ReleaseOwnership: Stub"); } HRESULT STDMETHODCALLTYPE DxgiOutput::SetDisplaySurface(IDXGISurface* pScanoutSurface) { Logger::err("DxgiOutput::SetDisplaySurface: Not implemented"); return E_NOTIMPL; } HRESULT STDMETHODCALLTYPE DxgiOutput::SetGammaControl(const DXGI_GAMMA_CONTROL* pArray) { DXGI_VK_OUTPUT_DATA outputData; if (FAILED(m_adapter->GetOutputData(m_monitor, &outputData))) { Logger::err("DXGI: Failed to query output data"); return E_FAIL; } outputData.GammaCurve = *pArray; outputData.GammaDirty = TRUE; if (FAILED(m_adapter->SetOutputData(m_monitor, &outputData))) { Logger::err("DXGI: Failed to update output data"); return E_FAIL; } return S_OK; } HRESULT STDMETHODCALLTYPE DxgiOutput::TakeOwnership( IUnknown *pDevice, BOOL Exclusive) { Logger::warn("DxgiOutput::TakeOwnership: Stub"); return S_OK; } HRESULT STDMETHODCALLTYPE DxgiOutput::WaitForVBlank() { Logger::warn("DxgiOutput::WaitForVBlank: Stub"); return S_OK; } HRESULT DxgiOutput::GetDisplayMode(DXGI_MODE_DESC* pMode, DWORD ModeNum) { ::MONITORINFOEXW monInfo; monInfo.cbSize = sizeof(monInfo); if (!::GetMonitorInfoW(m_monitor, reinterpret_cast(&monInfo))) { Logger::err("DXGI: Failed to query monitor info"); return E_FAIL; } DEVMODEW devMode = { }; devMode.dmSize = sizeof(devMode); if (!::EnumDisplaySettingsW(monInfo.szDevice, ModeNum, &devMode)) return DXGI_ERROR_NOT_FOUND; pMode->Width = devMode.dmPelsWidth; pMode->Height = devMode.dmPelsHeight; pMode->RefreshRate = { devMode.dmDisplayFrequency, 1 }; pMode->Format = DXGI_FORMAT_R8G8B8A8_UNORM_SRGB; // FIXME pMode->ScanlineOrdering = DXGI_MODE_SCANLINE_ORDER_PROGRESSIVE; pMode->Scaling = DXGI_MODE_SCALING_UNSPECIFIED; return S_OK; } HRESULT DxgiOutput::SetDisplayMode(const DXGI_MODE_DESC* pMode) { ::MONITORINFOEXW monInfo; monInfo.cbSize = sizeof(monInfo); if (!::GetMonitorInfoW(m_monitor, reinterpret_cast(&monInfo))) { Logger::err("DXGI: Failed to query monitor info"); return E_FAIL; } DEVMODEW devMode = { }; devMode.dmSize = sizeof(devMode); devMode.dmFields = DM_PELSWIDTH | DM_PELSHEIGHT | DM_BITSPERPEL; devMode.dmPelsWidth = pMode->Width; devMode.dmPelsHeight = pMode->Height; devMode.dmBitsPerPel = GetFormatBpp(pMode->Format); if (pMode->RefreshRate.Numerator != 0) { devMode.dmFields |= DM_DISPLAYFREQUENCY; devMode.dmDisplayFrequency = pMode->RefreshRate.Numerator / pMode->RefreshRate.Denominator; } Logger::info(str::format("DXGI: Setting display mode: ", devMode.dmPelsWidth, "x", devMode.dmPelsHeight, "@", devMode.dmDisplayFrequency)); LONG status = ::ChangeDisplaySettingsExW( monInfo.szDevice, &devMode, nullptr, CDS_FULLSCREEN, nullptr); return status == DISP_CHANGE_SUCCESSFUL ? S_OK : DXGI_ERROR_NOT_CURRENTLY_AVAILABLE;; } uint32_t DxgiOutput::GetFormatBpp(DXGI_FORMAT Format) const { DXGI_VK_FORMAT_INFO formatInfo = m_adapter->LookupFormat(Format, DXGI_VK_FORMAT_MODE_ANY); return imageFormatInfo(formatInfo.Format)->elementSize * 8; } }