/* ** win32video.cpp ** Code to let ZDoom draw to the screen ** **--------------------------------------------------------------------------- ** Copyright 1998-2006 Randy Heit ** All rights reserved. ** ** Redistribution and use in source and binary forms, with or without ** modification, are permitted provided that the following conditions ** are met: ** ** 1. Redistributions of source code must retain the above copyright ** notice, this list of conditions and the following disclaimer. ** 2. Redistributions in binary form must reproduce the above copyright ** notice, this list of conditions and the following disclaimer in the ** documentation and/or other materials provided with the distribution. ** 3. The name of the author may not be used to endorse or promote products ** derived from this software without specific prior written permission. ** ** THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR ** IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES ** OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. ** IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, ** INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT ** NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, ** DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY ** THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT ** (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF ** THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. **--------------------------------------------------------------------------- ** */ #ifdef _DEBUG #define D3D_DEBUG_INFO #endif #define DIRECTDRAW_VERSION 0x0300 #define DIRECT3D_VERSION 0x0900 #define _WIN32_WINNT 0x0501 #define WIN32_LEAN_AND_MEAN #include #include #include #include // HEADER FILES ------------------------------------------------------------ #define WIN32_LEAN_AND_MEAN #include #include #include #include #include #include "doomtype.h" #include "c_dispatch.h" #include "templates.h" #include "i_system.h" #include "i_video.h" #include "v_video.h" #include "v_pfx.h" #include "stats.h" #include "doomerrors.h" #include "m_argv.h" #include "r_defs.h" #include "v_text.h" #include "swrenderer/r_swrenderer.h" #include "version.h" #include "win32iface.h" #include "win32swiface.h" #include "optwin32.h" // MACROS ------------------------------------------------------------------ // TYPES ------------------------------------------------------------------- IMPLEMENT_CLASS(BaseWinFB, true, false) typedef IDirect3D9 *(WINAPI *DIRECT3DCREATE9FUNC)(UINT SDKVersion); typedef HRESULT (WINAPI *DIRECTDRAWCREATEFUNC)(GUID FAR *lpGUID, LPDIRECTDRAW FAR *lplpDD, IUnknown FAR *pUnkOuter); // PUBLIC FUNCTION PROTOTYPES ---------------------------------------------- void DoBlending (const PalEntry *from, PalEntry *to, int count, int r, int g, int b, int a); // PRIVATE FUNCTION PROTOTYPES --------------------------------------------- static void StopFPSLimit(); // EXTERNAL DATA DECLARATIONS ---------------------------------------------- extern HWND Window; extern IVideo *Video; extern BOOL AppActive; extern int SessionState; extern bool FullscreenReset; extern bool VidResizing; EXTERN_CVAR (Bool, fullscreen) EXTERN_CVAR (Float, Gamma) EXTERN_CVAR (Bool, cl_capfps) // PRIVATE DATA DEFINITIONS ------------------------------------------------ static HMODULE D3D9_dll; static HMODULE DDraw_dll; static UINT FPSLimitTimer; // PUBLIC DATA DEFINITIONS ------------------------------------------------- IDirectDraw2 *DDraw; IDirect3D9 *D3D; IDirect3DDevice9 *D3Device; HANDLE FPSLimitEvent; CVAR (Bool, vid_forceddraw, false, CVAR_ARCHIVE | CVAR_GLOBALCONFIG) CVAR (Int, vid_adapter, 1, CVAR_ARCHIVE | CVAR_GLOBALCONFIG) CUSTOM_CVAR (Int, vid_maxfps, 200, CVAR_ARCHIVE | CVAR_GLOBALCONFIG) { if (vid_maxfps < TICRATE && vid_maxfps != 0) { vid_maxfps = TICRATE; } else if (vid_maxfps > 1000) { vid_maxfps = 1000; } else if (cl_capfps == 0) { I_SetFPSLimit(vid_maxfps); } } #if VID_FILE_DEBUG FILE *dbg; #endif // CODE -------------------------------------------------------------------- Win32Video::Win32Video (int parm) : m_Modes (NULL), m_IsFullscreen (false), m_Adapter (D3DADAPTER_DEFAULT) { I_SetWndProc(); if (!InitD3D9()) { InitDDraw(); } } Win32Video::~Win32Video () { FreeModes (); if (DDraw != NULL) { if (m_IsFullscreen) { DDraw->SetCooperativeLevel (NULL, DDSCL_NORMAL); } DDraw->Release(); DDraw = NULL; } if (D3D != NULL) { D3D->Release(); D3D = NULL; } STOPLOG; } bool Win32Video::InitD3D9 () { DIRECT3DCREATE9FUNC direct3d_create_9; if (vid_forceddraw) { return false; } // Load the Direct3D 9 library. if ((D3D9_dll = LoadLibraryA ("d3d9.dll")) == NULL) { return false; } // Obtain an IDirect3D interface. if ((direct3d_create_9 = (DIRECT3DCREATE9FUNC)GetProcAddress (D3D9_dll, "Direct3DCreate9")) == NULL) { goto closelib; } if ((D3D = direct3d_create_9 (D3D_SDK_VERSION)) == NULL) { goto closelib; } // Select adapter. m_Adapter = (vid_adapter < 1 || (UINT)vid_adapter > D3D->GetAdapterCount()) ? D3DADAPTER_DEFAULT : (UINT)vid_adapter - 1u; // Check that we have at least PS 1.4 available. D3DCAPS9 devcaps; if (FAILED(D3D->GetDeviceCaps (m_Adapter, D3DDEVTYPE_HAL, &devcaps))) { goto d3drelease; } if ((devcaps.PixelShaderVersion & 0xFFFF) < 0x104) { goto d3drelease; } if (!(devcaps.Caps2 & D3DCAPS2_DYNAMICTEXTURES)) { goto d3drelease; } // Enumerate available display modes. FreeModes (); AddD3DModes (m_Adapter); AddD3DModes (m_Adapter); if (Args->CheckParm ("-2")) { // Force all modes to be pixel-doubled. ScaleModes (1); } else if (Args->CheckParm ("-4")) { // Force all modes to be pixel-quadrupled. ScaleModes (2); } else { AddLowResModes (); } AddLetterboxModes (); if (m_Modes == NULL) { // Too bad. We didn't find any modes for D3D9. We probably won't find any // for DDraw either... goto d3drelease; } return true; d3drelease: D3D->Release(); D3D = NULL; closelib: FreeLibrary (D3D9_dll); return false; } static HRESULT WINAPI EnumDDModesCB(LPDDSURFACEDESC desc, void *data) { ((Win32Video *)data)->AddMode(desc->dwWidth, desc->dwHeight, 8, desc->dwHeight, 0); return DDENUMRET_OK; } void Win32Video::InitDDraw () { DIRECTDRAWCREATEFUNC directdraw_create; LPDIRECTDRAW ddraw1; STARTLOG; HRESULT dderr; // Load the DirectDraw library. if ((DDraw_dll = LoadLibraryA ("ddraw.dll")) == NULL) { I_FatalError ("Could not load ddraw.dll"); } // Obtain an IDirectDraw interface. if ((directdraw_create = (DIRECTDRAWCREATEFUNC)GetProcAddress (DDraw_dll, "DirectDrawCreate")) == NULL) { I_FatalError ("The system file ddraw.dll is missing the DirectDrawCreate export"); } dderr = directdraw_create (NULL, &ddraw1, NULL); if (FAILED(dderr)) I_FatalError ("Could not create DirectDraw object: %08lx", dderr); dderr = ddraw1->QueryInterface (IID_IDirectDraw2, (LPVOID*)&DDraw); if (FAILED(dderr)) { ddraw1->Release (); DDraw = NULL; I_FatalError ("Could not initialize IDirectDraw2 interface: %08lx", dderr); } // Okay, we have the IDirectDraw2 interface now, so we can release the // really old-fashioned IDirectDraw one. ddraw1->Release (); DDraw->SetCooperativeLevel (Window, DDSCL_NORMAL); FreeModes (); dderr = DDraw->EnumDisplayModes (0, NULL, this, EnumDDModesCB); if (FAILED(dderr)) { DDraw->Release (); DDraw = NULL; I_FatalError ("Could not enumerate display modes: %08lx", dderr); } if (m_Modes == NULL) { DDraw->Release (); DDraw = NULL; I_FatalError ("DirectDraw returned no display modes.\n\n" "If you started " GAMENAME " from a fullscreen DOS box, run it from " "a DOS window instead. If that does not work, you may need to reboot."); } if (Args->CheckParm ("-2")) { // Force all modes to be pixel-doubled. ScaleModes(1); } else if (Args->CheckParm ("-4")) { // Force all modes to be pixel-quadrupled. ScaleModes(2); } else { if (OSPlatform == os_Win95) { // Windows 95 will let us use Mode X. If we didn't find any linear // modes in the loop above, add the Mode X modes here. AddMode (320, 200, 8, 200, 0); AddMode (320, 240, 8, 240, 0); } AddLowResModes (); } AddLetterboxModes (); } // Returns true if fullscreen, false otherwise bool Win32Video::GoFullscreen (bool yes) { static const char *const yestypes[2] = { "windowed", "fullscreen" }; HRESULT hr[2]; int count; // FIXME: Do this right for D3D. if (D3D != NULL) { return yes; } if (m_IsFullscreen == yes) return yes; for (count = 0; count < 2; ++count) { LOG1 ("fullscreen: %d\n", yes); hr[count] = DDraw->SetCooperativeLevel (Window, !yes ? DDSCL_NORMAL : DDSCL_ALLOWMODEX | DDSCL_ALLOWREBOOT | DDSCL_EXCLUSIVE | DDSCL_FULLSCREEN); if (SUCCEEDED(hr[count])) { if (count != 0) { // Ack! Cannot print because the screen does not exist right now. // Printf ("Setting %s mode failed. Error %08lx\n", // yestypes[!yes], hr[0]); } m_IsFullscreen = yes; return yes; } yes = !yes; } I_FatalError ("Could not set %s mode: %08lx\n" "Could not set %s mode: %08lx\n", yestypes[yes], hr[0], yestypes[!yes], hr[1]); // Appease the compiler, even though we never return if we get here. return false; } // Flips to the GDI surface and clears it void Win32Video::BlankForGDI () { static_cast (screen)->Blank (); } //========================================================================== // // Win32Video :: DumpAdapters // // Dumps the list of display adapters to the console. Only meaningful for // Direct3D. // //========================================================================== void Win32Video::DumpAdapters() { using OptWin32::GetMonitorInfoA; if (D3D == NULL) { Printf("Multi-monitor support requires Direct3D.\n"); return; } UINT num_adapters = D3D->GetAdapterCount(); for (UINT i = 0; i < num_adapters; ++i) { D3DADAPTER_IDENTIFIER9 ai; char moreinfo[64] = ""; if (FAILED(D3D->GetAdapterIdentifier(i, 0, &ai))) { continue; } // Strip trailing whitespace from adapter description. for (char *p = ai.Description + strlen(ai.Description) - 1; p >= ai.Description && isspace(*p); --p) { *p = '\0'; } HMONITOR hm = D3D->GetAdapterMonitor(i); MONITORINFOEX mi; mi.cbSize = sizeof(mi); assert(GetMonitorInfo); // Missing in NT4, but so is D3D if (GetMonitorInfo(hm, &mi)) { mysnprintf(moreinfo, countof(moreinfo), " [%ldx%ld @ (%ld,%ld)]%s", mi.rcMonitor.right - mi.rcMonitor.left, mi.rcMonitor.bottom - mi.rcMonitor.top, mi.rcMonitor.left, mi.rcMonitor.top, mi.dwFlags & MONITORINFOF_PRIMARY ? " (Primary)" : ""); } Printf("%s%u. %s%s\n", i == m_Adapter ? TEXTCOLOR_BOLD : "", i + 1, ai.Description, moreinfo); } } // Mode enumeration -------------------------------------------------------- void Win32Video::AddD3DModes (unsigned adapter) { for (D3DFORMAT format : { D3DFMT_X8R8G8B8, D3DFMT_R5G6B5}) { UINT modecount, i; D3DDISPLAYMODE mode; modecount = D3D->GetAdapterModeCount(adapter, format); for (i = 0; i < modecount; ++i) { if (D3D_OK == D3D->EnumAdapterModes(adapter, format, i, &mode)) { AddMode(mode.Width, mode.Height, 8, mode.Height, 0); } } } } //========================================================================== // // Win32Video :: AddLowResModes // // Recent NVidia drivers no longer support resolutions below 640x480, even // if you try to add them as a custom resolution. With D3DFB, pixel doubling // is quite easy to do and hardware-accelerated. If you have 1280x800, then // you can have 320x200, but don't be surprised if it shows up as widescreen // on a widescreen monitor, since that's what it is. // //========================================================================== void Win32Video::AddLowResModes() { ModeInfo *mode, *nextmode; for (mode = m_Modes; mode != NULL; mode = nextmode) { nextmode = mode->next; if (mode->realheight == mode->height && mode->doubling == 0 && mode->height >= 200*2 && mode->height <= 480*2 && mode->width >= 320*2 && mode->width <= 640*2) { AddMode (mode->width / 2, mode->height / 2, mode->bits, mode->height / 2, 1); } } for (mode = m_Modes; mode != NULL; mode = nextmode) { nextmode = mode->next; if (mode->realheight == mode->height && mode->doubling == 0 && mode->height >= 200*4 && mode->height <= 480*4 && mode->width >= 320*4 && mode->width <= 640*4) { AddMode (mode->width / 4, mode->height / 4, mode->bits, mode->height / 4, 2); } } } // Add 16:9 and 16:10 resolutions you can use in a window or letterboxed void Win32Video::AddLetterboxModes () { ModeInfo *mode, *nextmode; for (mode = m_Modes; mode != NULL; mode = nextmode) { nextmode = mode->next; if (mode->realheight == mode->height && mode->height * 4/3 == mode->width) { if (mode->width >= 360) { AddMode (mode->width, mode->width * 9/16, mode->bits, mode->height, mode->doubling); } if (mode->width > 640) { AddMode (mode->width, mode->width * 10/16, mode->bits, mode->height, mode->doubling); } } } } void Win32Video::AddMode (int x, int y, int bits, int y2, int doubling) { // Reject modes that do not meet certain criteria. if ((x & 1) != 0 || y > MAXHEIGHT || x > MAXWIDTH || y < 200 || x < 320) { return; } ModeInfo **probep = &m_Modes; ModeInfo *probe = m_Modes; // This mode may have been already added to the list because it is // enumerated multiple times at different refresh rates. If it's // not present, add it to the right spot in the list; otherwise, do nothing. // Modes are sorted first by width, then by height, then by depth. In each // case the order is ascending. for (; probe != 0; probep = &probe->next, probe = probe->next) { if (probe->width > x) break; if (probe->width < x) continue; // Width is equal if (probe->height > y) break; if (probe->height < y) continue; // Height is equal if (probe->bits > bits) break; if (probe->bits < bits) continue; // Bits is equal return; } *probep = new ModeInfo (x, y, bits, y2, doubling); (*probep)->next = probe; } void Win32Video::FreeModes () { ModeInfo *mode = m_Modes; while (mode) { ModeInfo *tempmode = mode; mode = mode->next; delete tempmode; } m_Modes = NULL; } // For every mode, set its scaling factor. Modes that end up with too // small a display area are discarded. void Win32Video::ScaleModes (int doubling) { ModeInfo *mode, **prev; prev = &m_Modes; mode = m_Modes; while (mode != NULL) { assert(mode->doubling == 0); mode->width >>= doubling; mode->height >>= doubling; mode->realheight >>= doubling; mode->doubling = doubling; if ((mode->width & 7) != 0 || mode->width < 320 || mode->height < 200) { // Mode became too small. Delete it. *prev = mode->next; delete mode; } else { prev = &mode->next; } mode = *prev; } } void Win32Video::StartModeIterator (int bits, bool fs) { m_IteratorMode = m_Modes; m_IteratorBits = bits; m_IteratorFS = fs; } bool Win32Video::NextMode (int *width, int *height, bool *letterbox) { if (m_IteratorMode) { while (m_IteratorMode && m_IteratorMode->bits != m_IteratorBits) { m_IteratorMode = m_IteratorMode->next; } if (m_IteratorMode) { *width = m_IteratorMode->width; *height = m_IteratorMode->height; if (letterbox != NULL) *letterbox = m_IteratorMode->realheight != m_IteratorMode->height; m_IteratorMode = m_IteratorMode->next; return true; } } return false; } DFrameBuffer *Win32Video::CreateFrameBuffer (int width, int height, bool bgra, bool fullscreen, DFrameBuffer *old) { static int retry = 0; static int owidth, oheight; BaseWinFB *fb; PalEntry flashColor; int flashAmount; if (fullscreen) { I_ClosestResolution(&width, &height, D3D ? 32 : 8); } LOG4 ("CreateFB %d %d %d %p\n", width, height, fullscreen, old); if (old != NULL) { // Reuse the old framebuffer if its attributes are the same BaseWinFB *fb = static_cast (old); if (fb->Width == width && fb->Height == height && fb->Windowed == !fullscreen && fb->Bgra == bgra) { return old; } old->GetFlash (flashColor, flashAmount); old->ObjectFlags |= OF_YesReallyDelete; if (old == screen) screen = NULL; delete old; } else { flashColor = 0; flashAmount = 0; } if (D3D != NULL) { fb = new D3DFB (m_Adapter, width, height, bgra, fullscreen); } else { fb = new DDrawFB (width, height, fullscreen); } LOG1 ("New fb created @ %p\n", fb); // If we could not create the framebuffer, try again with slightly // different parameters in this order: // 1. Try with the closest size // 2. Try in the opposite screen mode with the original size // 3. Try in the opposite screen mode with the closest size // This is a somewhat confusing mass of recursion here. while (fb == NULL || !fb->IsValid ()) { static HRESULT hr; if (fb != NULL) { if (retry == 0) { hr = fb->GetHR (); } fb->ObjectFlags |= OF_YesReallyDelete; delete fb; LOG1 ("fb is bad: %08lx\n", hr); } else { LOG ("Could not create fb at all\n"); } screen = NULL; LOG1 ("Retry number %d\n", retry); switch (retry) { case 0: owidth = width; oheight = height; case 2: // Try a different resolution. Hopefully that will work. I_ClosestResolution (&width, &height, 8); LOG2 ("Retry with size %d,%d\n", width, height); break; case 1: // Try changing fullscreen mode. Maybe that will work. width = owidth; height = oheight; fullscreen = !fullscreen; LOG1 ("Retry with fullscreen %d\n", fullscreen); break; default: // I give up! LOG3 ("Could not create new screen (%d x %d): %08lx", owidth, oheight, hr); I_FatalError ("Could not create new screen (%d x %d): %08lx", owidth, oheight, hr); } ++retry; fb = static_cast(CreateFrameBuffer (width, height, bgra, fullscreen, NULL)); } retry = 0; fb->SetFlash (flashColor, flashAmount); return fb; } void Win32Video::SetWindowedScale (float scale) { // FIXME } //========================================================================== // // BaseWinFB :: ScaleCoordsFromWindow // // Given coordinates in window space, return coordinates in what the game // thinks screen space is. // //========================================================================== void BaseWinFB::ScaleCoordsFromWindow(int16_t &x, int16_t &y) { RECT rect; int TrueHeight = GetTrueHeight(); if (GetClientRect(Window, &rect)) { x = int16_t(x * Width / (rect.right - rect.left)); y = int16_t(y * TrueHeight / (rect.bottom - rect.top)); } // Subtract letterboxing borders y -= (TrueHeight - Height) / 2; } //========================================================================== // // SetFPSLimit // // Initializes an event timer to fire at a rate of /sec. The video // update will wait for this timer to trigger before updating. // // Pass 0 as the limit for unlimited. // Pass a negative value for the limit to use the value of vid_maxfps. // //========================================================================== void I_SetFPSLimit(int limit) { if (limit < 0) { limit = vid_maxfps; } // Kill any leftover timer. if (FPSLimitTimer != 0) { timeKillEvent(FPSLimitTimer); FPSLimitTimer = 0; } if (limit == 0) { // no limit if (FPSLimitEvent != NULL) { CloseHandle(FPSLimitEvent); FPSLimitEvent = NULL; } DPrintf(DMSG_NOTIFY, "FPS timer disabled\n"); } else { if (FPSLimitEvent == NULL) { FPSLimitEvent = CreateEvent(NULL, FALSE, TRUE, NULL); if (FPSLimitEvent == NULL) { // Could not create event, so cannot use timer. Printf(DMSG_WARNING, "Failed to create FPS limitter event\n"); return; } } atterm(StopFPSLimit); // Set timer event as close as we can to limit/sec, in milliseconds. UINT period = 1000 / limit; FPSLimitTimer = timeSetEvent(period, 0, (LPTIMECALLBACK)FPSLimitEvent, 0, TIME_PERIODIC | TIME_CALLBACK_EVENT_SET); if (FPSLimitTimer == 0) { CloseHandle(FPSLimitEvent); FPSLimitEvent = NULL; Printf("Failed to create FPS limitter timer\n"); return; } DPrintf(DMSG_NOTIFY, "FPS timer set to %u ms\n", period); } } //========================================================================== // // StopFPSLimit // // Used for cleanup during application shutdown. // //========================================================================== static void StopFPSLimit() { I_SetFPSLimit(0); } void I_FPSLimit() { if (FPSLimitEvent != NULL) { WaitForSingleObject(FPSLimitEvent, 1000); } }