/*****************************************************************************\ Snes9x - Portable Super Nintendo Entertainment System (TM) emulator. This file is licensed under the Snes9x License. For further information, consult the LICENSE file in the root directory. \*****************************************************************************/ /* win32_display.cpp Contains most of the display related functions of the win32 port. Delegates relevant function calls to the currently selected IS9xDisplayOutput object. */ #include "../snes9x.h" #include "../ppu.h" #include "../font.h" #include "wsnes9x.h" #include "win32_display.h" #include "CDirect3D.h" #if DIRECTDRAW_SUPPORT #include "CDirectDraw.h" #endif #include "COpenGL.h" #include "CVulkan.h" #include "IS9xDisplayOutput.h" #include "../filter/hq2x.h" #include "../filter/2xsai.h" #include "../apu/apu.h" // available display output methods CDirect3D Direct3D; #if DIRECTDRAW_SUPPORT CDirectDraw DirectDraw; #endif COpenGL OpenGL; CVulkan VulkanDriver; SSurface Src = {0}; extern BYTE *ScreenBufferBlend; typedef HRESULT (*DWMFLUSHPROC)(); typedef HRESULT (*DWMISCOMPOSITIONENABLEDPROC)(BOOL *); DWMFLUSHPROC DwmFlushProc = NULL; DWMISCOMPOSITIONENABLEDPROC DwmIsCompositionEnabledProc = NULL; // Interface used to access the display output IS9xDisplayOutput *S9xDisplayOutput=&Direct3D; #ifndef max #define max(a,b) (((a) > (b)) ? (a) : (b)) #endif #ifndef min #define min(a,b) (((a) < (b)) ? (a) : (b)) #endif bool8 S9xDeinitUpdate (int, int); void DoAVIVideoFrame(); // cut off both top and bottom if overscan is disabled and game outputs extended height, // center image if overscan is enabled and game outputs regular height static void CheckOverscanOffset() { int lines_to_skip = 0; if (!Settings.ShowOverscan) { if (Src.Height == SNES_HEIGHT_EXTENDED) lines_to_skip = 7; else if (Src.Height == SNES_HEIGHT_EXTENDED << 1) lines_to_skip = 14; } else { if (Src.Height == SNES_HEIGHT) lines_to_skip = -8; else if (Src.Height == SNES_HEIGHT << 1) lines_to_skip = -16; } Src.Surface = (BYTE*)(GFX.Screen + lines_to_skip * (int)GFX.RealPPL); } /* WinRefreshDisplay repeats the last rendered frame */ void WinRefreshDisplay(void) { if(!Src.Width) return; CheckOverscanOffset(); SelectRenderMethod (); S9xDisplayOutput->Render(Src); GUI.FlipCounter++; } void WinChangeWindowSize(unsigned int newWidth, unsigned int newHeight) { S9xDisplayOutput->ChangeRenderSize(newWidth,newHeight); } /* WinDisplayReset initializes the currently selected display output and reinitializes the core graphics rendering ----- returns true if successful, false otherwise */ bool WinDisplayReset(void) { const TCHAR* driverNames[] = { TEXT("DirectDraw"), TEXT("Direct3D"), TEXT("OpenGL"), TEXT("Vulkan") }; static bool VulkanUsed = false; static bool OpenGLUsed = false; S9xDisplayOutput->DeInitialize(); switch(GUI.outputMethod) { default: case DIRECT3D: S9xDisplayOutput = &Direct3D; break; #if DIRECTDRAW_SUPPORT case DIRECTDRAW: S9xDisplayOutput = &DirectDraw; break; #endif case OPENGL: if (VulkanUsed) { MessageBox(GUI.hWnd, TEXT("Changing to OpenGL requires a restart if you've already used Vulkan"), TEXT("Snes9x Display Driver"), MB_OK); break; } S9xDisplayOutput = &OpenGL; break; case VULKAN: if (OpenGLUsed) { MessageBox(GUI.hWnd, TEXT("Changing to Vulkan requires a restart if you've already used OpenGL"), TEXT("Snes9x Display Driver"), MB_OK); break; } S9xDisplayOutput = &VulkanDriver; break; } bool initialized = S9xDisplayOutput->Initialize(GUI.hWnd); if (!initialized) { S9xDisplayOutput->DeInitialize(); Sleep(500); auto oldDriverName = driverNames[GUI.outputMethod]; if (GUI.outputMethod == VULKAN) { GUI.outputMethod = OPENGL; S9xDisplayOutput = &OpenGL; } else { GUI.outputMethod = DIRECT3D; S9xDisplayOutput = &Direct3D; } auto newDriverName = driverNames[GUI.outputMethod]; TCHAR msg[512]; _stprintf(msg, TEXT("Couldn't load selected driver: %s. Trying %s."), oldDriverName, newDriverName); MessageBox(GUI.hWnd, msg, TEXT("Snes9x Display Driver"), MB_OK | MB_ICONERROR); initialized = S9xDisplayOutput->Initialize(GUI.hWnd); } if (initialized) { if (S9xDisplayOutput == &VulkanDriver) VulkanUsed = true; if (S9xDisplayOutput == &OpenGL) OpenGLUsed = true; S9xGraphicsDeinit(); S9xSetWinPixelFormat(); S9xGraphicsInit(); if (GUI.DWMSync) { HMODULE dwmlib = LoadLibrary(TEXT("dwmapi")); DwmFlushProc = (DWMFLUSHPROC)GetProcAddress(dwmlib, "DwmFlush"); DwmIsCompositionEnabledProc = (DWMISCOMPOSITIONENABLEDPROC)GetProcAddress(dwmlib, "DwmIsCompositionEnabled"); if (!DwmFlushProc || !DwmIsCompositionEnabledProc) { MessageBox(GUI.hWnd, TEXT("Couldn't load DWM functions. DWM Sync is disabled."), TEXT("Warning"), MB_OK | MB_ICONWARNING); GUI.DWMSync = false; } } return true; } else { MessageBox (GUI.hWnd, Languages[ GUI.Language].errInitDD, TEXT("Snes9x - Display Failure"), MB_OK | MB_ICONSTOP); return false; } } void WinDisplayApplyChanges() { S9xDisplayOutput->ApplyDisplayChanges(); } RECT CalculateDisplayRect(unsigned int sourceWidth,unsigned int sourceHeight, unsigned int displayWidth,unsigned int displayHeight) { double xFactor; double yFactor; double minFactor; double renderWidthCalc,renderHeightCalc; int hExtend = Settings.ShowOverscan ? SNES_HEIGHT_EXTENDED : SNES_HEIGHT; double snesAspect = (double)GUI.AspectWidth/hExtend; RECT drawRect; if(GUI.Stretch) { if(GUI.AspectRatio) { if (GUI.IntegerScaling && sourceHeight > 0 && sourceHeight <= displayHeight && (int)(sourceHeight * snesAspect) <= displayWidth) { int h; for (h = sourceHeight * 2; h <= displayHeight && (int)(h * snesAspect) <= displayWidth; h += sourceHeight) {} h -= sourceHeight; drawRect.right = (LONG)(h * snesAspect); drawRect.bottom = h; } else { //fix for hi-res images with FILTER_NONE //where we need to correct the aspect ratio renderWidthCalc = (double)sourceWidth; renderHeightCalc = (double)sourceHeight; if (renderWidthCalc / renderHeightCalc > snesAspect) renderWidthCalc = renderHeightCalc * snesAspect; else if (renderWidthCalc / renderHeightCalc < snesAspect) renderHeightCalc = renderWidthCalc / snesAspect; xFactor = (double)displayWidth / renderWidthCalc; yFactor = (double)displayHeight / renderHeightCalc; minFactor = xFactor < yFactor ? xFactor : yFactor; drawRect.right = (LONG)(renderWidthCalc * minFactor); drawRect.bottom = (LONG)(renderHeightCalc * minFactor); } drawRect.left = (displayWidth - drawRect.right) / 2; drawRect.top = (displayHeight - drawRect.bottom) / 2; drawRect.right += drawRect.left; drawRect.bottom += drawRect.top; } else { drawRect.top = 0; drawRect.left = 0; drawRect.right = displayWidth; drawRect.bottom = displayHeight; } } else { drawRect.left = ((int)(displayWidth) - (int)sourceWidth) / 2; drawRect.top = ((int)(displayHeight) - (int)sourceHeight) / 2; if(!GUI.AlwaysCenterImage) { if(drawRect.left < 0) drawRect.left = 0; if(drawRect.top < 0) drawRect.top = 0; } drawRect.right = drawRect.left + sourceWidth; drawRect.bottom = drawRect.top + sourceHeight; } return drawRect; } bool8 S9xInitUpdate (void) { return (TRUE); } // only necessary for avi recording // TODO: check if this can be removed bool8 S9xContinueUpdate(int Width, int Height) { // called every other frame during interlace Src.Width = Width; if(Height%SNES_HEIGHT) Src.Height = Height; else { if(Height==SNES_HEIGHT) Src.Height=SNES_HEIGHT_EXTENDED; else Src.Height=SNES_HEIGHT_EXTENDED<<1; } Src.Pitch = GFX.Pitch; Src.Surface = (BYTE*)GFX.Screen; // avi writing DoAVIVideoFrame(); return true; } // do the actual rendering of a frame bool8 S9xDeinitUpdate (int Width, int Height) { Src.Width = Width; Src.Height = Height; Src.Pitch = GFX.Pitch; CheckOverscanOffset(); // avi writing DoAVIVideoFrame(); // Clear some of the old SNES rendered image // when the resolution becomes lower in x or y, // otherwise the image processors (filters) might access // some of the old rendered data at the edges. { static int LastWidth = 0; static int LastHeight = 0; if (Width < LastWidth) { const int hh = max(LastHeight, Height); for (int i = 0; i < hh; i++) memset (GFX.Screen + i * (GFX.Pitch>>1) + Width*1, 0, 4); } if (Height < LastHeight) { const int ww = max(LastWidth, Width); for (int i = Height; i < LastHeight ; i++) memset (GFX.Screen + i * (GFX.Pitch>>1), 0, ww * 2); // also old clear extended height stuff from drawing surface if((int)Src.Height > Height) for (int i = Height; i < (int)Src.Height ; i++) memset (Src.Surface + i * Src.Pitch, 0, Src.Pitch); } LastWidth = Width; LastHeight = Height; } if (GUI.DWMSync && GUI.outputMethod == OPENGL) { BOOL DWMEnabled = false; DwmIsCompositionEnabledProc(&DWMEnabled); if (GUI.FullScreen || !DWMEnabled) ((COpenGL *)S9xDisplayOutput)->SetSwapInterval(GUI.Vsync ? 1 : 0); else ((COpenGL *)S9xDisplayOutput)->SetSwapInterval(0); WinRefreshDisplay(); if (DWMEnabled && !GUI.FullScreen) DwmFlushProc(); } else { WinRefreshDisplay(); } return (true); } /* S9xSetWinPixelFormat sets default settings and calls the appropriate display object */ void S9xSetWinPixelFormat () { GUI.NeedDepthConvert = FALSE; GUI.DepthConverted = !GUI.NeedDepthConvert; S9xBlit2xSaIFilterDeinit(); S9xBlitHQ2xFilterDeinit(); S9xDisplayOutput->SetSnes9xColorFormat(); } char *ReadShaderFileContents(const TCHAR *filename) { HANDLE hFile; DWORD size; DWORD bytesRead; char *contents; hFile = CreateFile(filename, GENERIC_READ, FILE_SHARE_READ, NULL, OPEN_EXISTING, FILE_FLAG_SEQUENTIAL_SCAN , 0); if(hFile == INVALID_HANDLE_VALUE){ return NULL; } size = GetFileSize(hFile,NULL); contents = new char[size+1]; if(!ReadFile(hFile,contents,size,&bytesRead,NULL)) { CloseHandle(hFile); delete[] contents; return NULL; } CloseHandle(hFile); contents[size] = '\0'; return contents; } void ReduceToPath(TCHAR *filename) { for (int i = lstrlen(filename); i >= 0; i--) { if (IS_SLASH(filename[i])) { filename[i] = TEXT('\0'); break; } } } // TODO: abstract the following functions in some way - only necessary for directdraw /* DirectDraw only begin */ void SwitchToGDI() { #if DIRECTDRAW_SUPPORT if(GUI.outputMethod!=DIRECTDRAW) return; IPPU.ColorsChanged = true; DirectDraw.lpDD->FlipToGDISurface(); GUI.FlipCounter = 0; DirectDraw.lpDDSPrimary2->SetPalette (NULL); #endif } static void ClearSurface (LPDIRECTDRAWSURFACE2 lpDDSurface) { #if DIRECTDRAW_SUPPORT DDBLTFX fx; memset (&fx, 0, sizeof (fx)); fx.dwSize = sizeof (fx); while (lpDDSurface->Blt (NULL, DirectDraw.lpDDSPrimary2, NULL, DDBLT_WAIT, NULL) == DDERR_SURFACELOST) lpDDSurface->Restore (); #endif } void UpdateBackBuffer() { #if DIRECTDRAW_SUPPORT if (GUI.outputMethod==DIRECTDRAW && GUI.FullScreen) { SwitchToGDI(); DDBLTFX fx; memset (&fx, 0, sizeof (fx)); fx.dwSize = sizeof (fx); while (DirectDraw.lpDDSPrimary2->Blt (NULL, NULL, NULL, DDBLT_WAIT | DDBLT_COLORFILL, &fx) == DDERR_SURFACELOST) DirectDraw.lpDDSPrimary2->Restore (); if (GetMenu (GUI.hWnd) != NULL) DrawMenuBar (GUI.hWnd); GUI.FlipCounter = 0; DDSCAPS caps; caps.dwCaps = DDSCAPS_BACKBUFFER; LPDIRECTDRAWSURFACE2 pDDSurface; if (DirectDraw.lpDDSPrimary2->GetAttachedSurface (&caps, &pDDSurface) == DD_OK && pDDSurface != NULL) { ClearSurface (pDDSurface); DirectDraw.lpDDSPrimary2->Flip (NULL, GUI.Vsync?DDFLIP_WAIT:DDFLIP_NOVSYNC); while (DirectDraw.lpDDSPrimary2->GetFlipStatus (DDGFS_ISFLIPDONE) != DD_OK) Sleep (0); if(DirectDraw.doubleBuffered) ClearSurface (pDDSurface); } } else { if (GetMenu( GUI.hWnd) != NULL) DrawMenuBar (GUI.hWnd); } #endif } void RestoreGUIDisplay () { #if DIRECTDRAW_SUPPORT if(GUI.outputMethod!=DIRECTDRAW) return; S9xSetPause (PAUSE_RESTORE_GUI); if (GUI.FullScreen && (GUI.FullscreenMode.width < 640 || GUI.FullscreenMode.height < 400) && !DirectDraw.SetDisplayMode (640, 480, 1, 0, 60, !GUI.FullScreen, false)) { MessageBox (GUI.hWnd, Languages[ GUI.Language].errModeDD, TEXT("Snes9x - DirectDraw(1)"), MB_OK | MB_ICONSTOP); S9xClearPause (PAUSE_RESTORE_GUI); return; } SwitchToGDI(); S9xClearPause (PAUSE_RESTORE_GUI); #endif } void RestoreSNESDisplay () { #if DIRECTDRAW_SUPPORT if(GUI.outputMethod!=DIRECTDRAW) return; if (!DirectDraw.SetFullscreen(GUI.FullScreen)) { MessageBox (GUI.hWnd, Languages[ GUI.Language].errModeDD, TEXT("Snes9x - DirectDraw(4)"), MB_OK | MB_ICONSTOP); return; } UpdateBackBuffer(); #endif } /* DirectDraw only end */ void SaveMainWinPos() { WINDOWPLACEMENT wndPlacement={0}; wndPlacement.length = sizeof(WINDOWPLACEMENT); GetWindowPlacement(GUI.hWnd,&wndPlacement); GUI.window_maximized = wndPlacement.showCmd == SW_SHOWMAXIMIZED; if(!GUI.FullScreen && !GUI.EmulatedFullscreen) GUI.window_size = wndPlacement.rcNormalPosition; } void RestoreMainWinPos() { WINDOWPLACEMENT wndPlacement={0}; wndPlacement.length = sizeof(WINDOWPLACEMENT); wndPlacement.showCmd = GUI.window_maximized?SW_SHOWMAXIMIZED:SW_SHOWNORMAL; wndPlacement.rcNormalPosition = GUI.window_size; SetWindowPlacement(GUI.hWnd,&wndPlacement); } /* ToggleFullScreen switches between fullscreen and window mode and saves the window position if EmulateFullscreen is set we simply create a borderless window that spans the screen */ void ToggleFullScreen () { S9xSetPause (PAUSE_TOGGLE_FULL_SCREEN); SaveMainWinPos(); if(GUI.EmulateFullscreen) { HMONITOR hm; MONITORINFO mi; GUI.EmulatedFullscreen = !GUI.EmulatedFullscreen; if(GUI.EmulatedFullscreen) { if(GetMenu(GUI.hWnd)!=NULL) SetMenu(GUI.hWnd,NULL); SetWindowLongPtr (GUI.hWnd, GWL_STYLE, WS_POPUP|WS_VISIBLE); hm = MonitorFromWindow(GUI.hWnd,MONITOR_DEFAULTTONEAREST); mi.cbSize = sizeof(mi); GetMonitorInfo(hm,&mi); SetWindowPos (GUI.hWnd, HWND_TOP, mi.rcMonitor.left, mi.rcMonitor.top, mi.rcMonitor.right - mi.rcMonitor.left, mi.rcMonitor.bottom - mi.rcMonitor.top, SWP_DRAWFRAME|SWP_FRAMECHANGED); } else { SetWindowLongPtr( GUI.hWnd, GWL_STYLE, WS_POPUPWINDOW|WS_CAPTION| WS_THICKFRAME|WS_VISIBLE|WS_MINIMIZEBOX|WS_MAXIMIZEBOX); SetMenu(GUI.hWnd,GUI.hMenu); SetWindowPos (GUI.hWnd, HWND_NOTOPMOST, 0, 0, 0, 0, SWP_NOMOVE|SWP_NOSIZE|SWP_DRAWFRAME|SWP_FRAMECHANGED); RestoreMainWinPos(); } } else { GUI.FullScreen = !GUI.FullScreen; if(GUI.FullScreen) { if(GetMenu(GUI.hWnd)!=NULL) SetMenu(GUI.hWnd,NULL); SetWindowLongPtr(GUI.hWnd, GWL_STYLE, WS_POPUP | WS_VISIBLE | WS_CLIPCHILDREN | WS_CLIPSIBLINGS); SetWindowLongPtr(GUI.hWnd, GWL_EXSTYLE, 0); if(!S9xDisplayOutput->SetFullscreen(true)) GUI.FullScreen = false; else SetWindowPos(GUI.hWnd, HWND_TOPMOST, 0, 0, GUI.FullscreenMode.width, GUI.FullscreenMode.height, SWP_DRAWFRAME | SWP_FRAMECHANGED); } if(!GUI.FullScreen) { SetWindowLongPtr(GUI.hWnd, GWL_STYLE, WS_POPUPWINDOW|WS_CAPTION| WS_THICKFRAME|WS_VISIBLE|WS_MINIMIZEBOX|WS_MAXIMIZEBOX); SetWindowLongPtr(GUI.hWnd, GWL_EXSTYLE, WS_EX_ACCEPTFILES | WS_EX_APPWINDOW); SetMenu(GUI.hWnd,GUI.hMenu); S9xDisplayOutput->SetFullscreen(false); SetWindowPos (GUI.hWnd, HWND_NOTOPMOST, 0, 0, 0, 0, SWP_NOMOVE|SWP_NOSIZE|SWP_DRAWFRAME|SWP_FRAMECHANGED); RestoreMainWinPos(); } if (GUI.AutomaticInputRate) { int rate = WinGetAutomaticInputRate(); if (rate) { Settings.SoundInputRate = rate; S9xUpdateDynamicRate(1, 2); } } S9xGraphicsDeinit(); S9xSetWinPixelFormat (); S9xInitUpdate(); S9xGraphicsInit(); } IPPU.RenderThisFrame = true; S9xClearPause (PAUSE_TOGGLE_FULL_SCREEN); } /* S9xOpenSoundDevice ennumerates the available display modes of the currently selected output */ void WinEnumDisplayModes(std::vector *modeVector) { S9xDisplayOutput->EnumModes(modeVector); } double WinGetRefreshRate(void) { typedef LONG(WINAPI *PGDCBS) (UINT32, UINT32 *, UINT32 *); typedef LONG(WINAPI *PQDC) (UINT32, UINT32*, DISPLAYCONFIG_PATH_INFO *, UINT32*, DISPLAYCONFIG_MODE_INFO *, DISPLAYCONFIG_TOPOLOGY_ID *); static PGDCBS pGDCBS = NULL; static PQDC pQDC = NULL; static int firstrun = 1; if (firstrun) { HMODULE user32 = GetModuleHandleA("user32.dll"); pQDC = (PQDC) GetProcAddress(user32, "QueryDisplayConfig"); pGDCBS = (PGDCBS) GetProcAddress(user32, "GetDisplayConfigBufferSizes"); firstrun = 0; } double refreshRate = 0.0; if (!pGDCBS || !pQDC) return refreshRate; OSVERSIONINFO ovi; DISPLAYCONFIG_TOPOLOGY_ID topologyID; unsigned int numPathArrayElements = 0; unsigned int numModeInfoArrayElements = 0; DISPLAYCONFIG_PATH_INFO * pathInfoArray = NULL; DISPLAYCONFIG_MODE_INFO * modeInfoArray = NULL; int result = 0; ovi.dwOSVersionInfoSize = sizeof(OSVERSIONINFO); if (!GetVersionEx(&ovi)) return refreshRate; if (ovi.dwMajorVersion < 6 || (ovi.dwMajorVersion == 6 && ovi.dwMinorVersion < 1)) return refreshRate; result = pGDCBS(QDC_DATABASE_CURRENT, &numPathArrayElements, &numModeInfoArrayElements); if (result != ERROR_SUCCESS) return refreshRate; pathInfoArray = (DISPLAYCONFIG_PATH_INFO *) malloc(sizeof(DISPLAYCONFIG_PATH_INFO) * numPathArrayElements); modeInfoArray = (DISPLAYCONFIG_MODE_INFO *) malloc(sizeof(DISPLAYCONFIG_MODE_INFO) * numModeInfoArrayElements); result = pQDC(QDC_DATABASE_CURRENT, &numPathArrayElements, pathInfoArray, &numModeInfoArrayElements, modeInfoArray, &topologyID); if (result == ERROR_SUCCESS && numPathArrayElements >= 1) { refreshRate = (float)pathInfoArray[0].targetInfo.refreshRate.Numerator / pathInfoArray[0].targetInfo.refreshRate.Denominator; } free(modeInfoArray); free(pathInfoArray); return refreshRate; } int WinGetAutomaticInputRate(void) { double refreshRate = WinGetRefreshRate(); if (refreshRate == 0.0) return 0; // Try for a close multiple of 60hz if (refreshRate > 119.0 && refreshRate < 121.0) refreshRate /= 2.0; if (refreshRate > 179.0 && refreshRate < 181.0) refreshRate /= 3.0; if (refreshRate > 239.0 && refreshRate < 241.0) refreshRate /= 4.0; double newInputRate = refreshRate * 32040.0 / 60.09881389744051 + 0.5; if (newInputRate > 32040.0 * 1.05 || newInputRate < 32040.0 * 0.95) newInputRate = 0.0; return (int)newInputRate; } void WinThrottleFramerate() { static HANDLE throttle_timer = nullptr; static int64_t PCBase, PCFrameTime, PCFrameTimeNTSC, PCFrameTimePAL, PCStart, PCEnd; if (Settings.SkipFrames != AUTO_FRAMERATE) return; if (!throttle_timer) { QueryPerformanceFrequency((LARGE_INTEGER *)&PCBase); PCFrameTimeNTSC = (int64_t)(PCBase / NTSC_PROGRESSIVE_FRAME_RATE); PCFrameTimePAL = (int64_t)(PCBase / PAL_PROGRESSIVE_FRAME_RATE); throttle_timer = CreateWaitableTimer(NULL, true, NULL); QueryPerformanceCounter((LARGE_INTEGER *)&PCStart); } if (Settings.FrameTime == Settings.FrameTimeNTSC) PCFrameTime = PCFrameTimeNTSC; else if (Settings.FrameTime == Settings.FrameTimePAL) PCFrameTime = PCFrameTimePAL; else PCFrameTime = (__int64)(PCBase * Settings.FrameTime / 1e6); QueryPerformanceCounter((LARGE_INTEGER *)&PCEnd); int64_t time_left_us = ((PCFrameTime - (PCEnd - PCStart)) * 1000000) / PCBase; int64_t PCFrameTime_us = (int64_t)(PCFrameTime * 1000000.0 / PCBase); if (time_left_us < -PCFrameTime_us / 10) { QueryPerformanceCounter((LARGE_INTEGER *)&PCStart); return; } if (time_left_us > 0) { LARGE_INTEGER li; li.QuadPart = -time_left_us * 10; SetWaitableTimer(throttle_timer, &li, 0, NULL, NULL, false); WaitForSingleObject(throttle_timer, INFINITE); } PCStart += PCFrameTime; } std::vector *WinGetShaderParameters() { return S9xDisplayOutput->GetShaderParameters(); } std::function WinGetShaderSaveFunction() { return S9xDisplayOutput->GetShaderParametersSaveFunction(); } /* Depth conversion functions begin */ void Convert16To24 (SSurface *src, SSurface *dst, RECT *srect) { const int height = srect->bottom - srect->top; const int width = srect->right - srect->left; const int offset1 = srect->top * src->Pitch + srect->left * 2; const int offset2 = ((dst->Height - height) >> 1) * dst->Pitch + ((dst->Width - width) >> 1) * 3; const int snesWidth = src->Width; const int snesHeight = src->Height; const bool doubledX = (snesWidth >= width*2) ? true : false; const bool doubledY = (snesHeight >= height*2) ? true : false; for (int y = 0; y < height; y++) { uint16 *s = (uint16 *) ((uint8 *) src->Surface + (doubledY ? y*2 : y) * src->Pitch + offset1); uint8 *d = ((uint8 *) dst->Surface + y * dst->Pitch + offset2); #define Interp(c1, c2) \ (c1 == c2) ? c1 : \ (((((c1 & 0x07E0) + (c2 & 0x07E0)) >> 1) & 0x07E0) + \ ((((c1 & 0xF81F) + (c2 & 0xF81F)) >> 1) & 0xF81F)) if(y >= snesHeight) { // beyond SNES image - make the row black memset(d, 0, width*3); } else #ifdef LSB_FIRST if (GUI.RedShift < GUI.BlueShift) #else if (GUI.RedShift > GUI.BlueShift) #endif { // Order is RGB if(!doubledX) { for (int x = 0; x < width; x++) { uint32 pixel = *s++; *(d + 0) = (pixel >> (11 - 3)) & 0xf8; *(d + 1) = (pixel >> (6 - 3)) & 0xf8; *(d + 2) = (pixel & 0x1f) << 3; d += 3; } } else // high-res x, blend: { for (int x = 0; x < width; x++) { uint32 pixel = Interp(s[0],s[1]); s += 2; *(d + 0) = (pixel >> (11 - 3)) & 0xf8; *(d + 1) = (pixel >> (6 - 3)) & 0xf8; *(d + 2) = (pixel & 0x1f) << 3; d += 3; } } } else { // Order is BGR if(!doubledX) { for (int x = 0; x < width; x++) { uint32 pixel = *s++; *(d + 0) = (pixel & 0x1f) << 3; *(d + 1) = (pixel >> (6 - 3)) & 0xf8; *(d + 2) = (pixel >> (11 - 3)) & 0xf8; d += 3; } } else // high-res x, blend: { for (int x = 0; x < width; x++) { uint32 pixel = Interp(s[0],s[1]); s += 2; *(d + 0) = (pixel & 0x1f) << 3; *(d + 1) = (pixel >> (6 - 3)) & 0xf8; *(d + 2) = (pixel >> (11 - 3)) & 0xf8; d += 3; } } } } } void Convert16To32 (SSurface *src, SSurface *dst, RECT *srect) { int height = srect->bottom - srect->top; int width = srect->right - srect->left; int offset1 = srect->top * src->Pitch + srect->left * 2; int offset2 = 0;//((dst->Height - height) >> 1) * dst->Pitch + //((dst->Width - width) >> 1) * sizeof (uint32); for (int y = 0; y < height; y++) { uint16 *s = (uint16 *) ((uint8 *) src->Surface + y * src->Pitch + offset1); uint32 *d = (uint32 *) ((uint8 *) dst->Surface + y * dst->Pitch + offset2); for (int x = 0; x < width; x++) { uint32 pixel = *s++; *d++ = (((pixel >> 11) & 0x1f) << GUI.RedShift) | (((pixel >> 6) & 0x1f) << GUI.GreenShift) | ((pixel & 0x1f) << GUI.BlueShift); } } } void ConvertDepth (SSurface *src, SSurface *dst, RECT *srect) { // SNES image has been rendered in 16-bit, RGB565 format switch (GUI.ScreenDepth) { case 15: // is this right? case 16: break; case 24: Convert16To24 (src, dst, srect); break; case 32: Convert16To32 (src, dst, srect); break; } } /* Depth conversion functions end */