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599 lines
20 KiB
599 lines
20 KiB
/******************************Module*Header*******************************\
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*
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* *******************
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* * GDI SAMPLE CODE *
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* *******************
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*
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* Module Name: screen.c
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*
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* Initializes the GDIINFO and DEVINFO structures for DrvEnablePDEV.
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*
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* Copyright (c) 1992-1998 Microsoft Corporation
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\**************************************************************************/
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#include "driver.h"
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#define SYSTM_LOGFONT {16,7,0,0,700,0,0,0,ANSI_CHARSET,OUT_DEFAULT_PRECIS,CLIP_DEFAULT_PRECIS,DEFAULT_QUALITY,VARIABLE_PITCH | FF_DONTCARE,L"System"}
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#define HELVE_LOGFONT {12,9,0,0,400,0,0,0,ANSI_CHARSET,OUT_DEFAULT_PRECIS,CLIP_STROKE_PRECIS,PROOF_QUALITY,VARIABLE_PITCH | FF_DONTCARE,L"MS Sans Serif"}
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#define COURI_LOGFONT {12,9,0,0,400,0,0,0,ANSI_CHARSET,OUT_DEFAULT_PRECIS,CLIP_STROKE_PRECIS,PROOF_QUALITY,FIXED_PITCH | FF_DONTCARE, L"Courier"}
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// This is the basic devinfo for a default driver. This is used as a base and customized based
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// on information passed back from the miniport driver.
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const DEVINFO gDevInfoFrameBuffer = {
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( GCAPS_OPAQUERECT
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| GCAPS_MONO_DITHER
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), /* Graphics capabilities */
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SYSTM_LOGFONT, /* Default font description */
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HELVE_LOGFONT, /* ANSI variable font description */
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COURI_LOGFONT, /* ANSI fixed font description */
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0, /* Count of device fonts */
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0, /* Preferred DIB format */
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8, /* Width of color dither */
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8, /* Height of color dither */
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0 /* Default palette to use for this device */
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};
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/******************************Public*Routine******************************\
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* bInitSURF
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*
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* Enables the surface. Maps the frame buffer into memory.
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*
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\**************************************************************************/
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BOOL bInitSURF(PPDEV ppdev, BOOL bFirst)
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{
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DWORD returnedDataLength;
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DWORD MaxWidth, MaxHeight;
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VIDEO_MEMORY videoMemory;
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VIDEO_MEMORY_INFORMATION videoMemoryInformation;
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ULONG RemappingNeeded = 0;
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//
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// Set the current mode into the hardware.
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//
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if (EngDeviceIoControl(ppdev->hDriver,
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IOCTL_VIDEO_SET_CURRENT_MODE,
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&(ppdev->ulMode),
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sizeof(ULONG),
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&RemappingNeeded,
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sizeof(ULONG),
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&returnedDataLength))
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{
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DISPDBG((1, "DISP bInitSURF failed IOCTL_SET_MODE\n"));
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return(FALSE);
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}
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//
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// If this is the first time we enable the surface we need to map in the
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// memory also.
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//
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if (bFirst || RemappingNeeded)
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{
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videoMemory.RequestedVirtualAddress = NULL;
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if (EngDeviceIoControl(ppdev->hDriver,
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IOCTL_VIDEO_MAP_VIDEO_MEMORY,
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&videoMemory,
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sizeof(VIDEO_MEMORY),
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&videoMemoryInformation,
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sizeof(VIDEO_MEMORY_INFORMATION),
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&returnedDataLength))
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{
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DISPDBG((1, "DISP bInitSURF failed IOCTL_VIDEO_MAP\n"));
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return(FALSE);
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}
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ppdev->pjScreen = (PBYTE)(videoMemoryInformation.FrameBufferBase);
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if (videoMemoryInformation.FrameBufferBase !=
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videoMemoryInformation.VideoRamBase)
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{
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DISPDBG((0, "VideoRamBase does not correspond to FrameBufferBase\n"));
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}
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//
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// Make sure we can access this video memory
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//
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*(PULONG)(ppdev->pjScreen) = 0xaa55aa55;
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if (*(PULONG)(ppdev->pjScreen) != 0xaa55aa55) {
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DISPDBG((1, "Frame buffer memory is not accessible.\n"));
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return(FALSE);
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}
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ppdev->cScreenSize = videoMemoryInformation.VideoRamLength;
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//
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// Initialize the head of the offscreen list to NULL.
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//
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ppdev->pOffscreenList = NULL;
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// It's a hardware pointer; set up pointer attributes.
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MaxHeight = ppdev->PointerCapabilities.MaxHeight;
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// Allocate space for two DIBs (data/mask) for the pointer. If this
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// device supports a color Pointer, we will allocate a larger bitmap.
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// If this is a color bitmap we allocate for the largest possible
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// bitmap because we have no idea of what the pixel depth might be.
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// Width rounded up to nearest byte multiple
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if (!(ppdev->PointerCapabilities.Flags & VIDEO_MODE_COLOR_POINTER))
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{
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MaxWidth = (ppdev->PointerCapabilities.MaxWidth + 7) / 8;
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}
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else
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{
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MaxWidth = ppdev->PointerCapabilities.MaxWidth * sizeof(DWORD);
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}
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ppdev->cjPointerAttributes =
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sizeof(VIDEO_POINTER_ATTRIBUTES) +
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((sizeof(UCHAR) * MaxWidth * MaxHeight) * 2);
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ppdev->pPointerAttributes = (PVIDEO_POINTER_ATTRIBUTES)
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EngAllocMem(0, ppdev->cjPointerAttributes, ALLOC_TAG);
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if (ppdev->pPointerAttributes == NULL) {
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DISPDBG((0, "bInitPointer EngAllocMem failed\n"));
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return(FALSE);
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}
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ppdev->pPointerAttributes->Flags = ppdev->PointerCapabilities.Flags;
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ppdev->pPointerAttributes->WidthInBytes = MaxWidth;
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ppdev->pPointerAttributes->Width = ppdev->PointerCapabilities.MaxWidth;
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ppdev->pPointerAttributes->Height = MaxHeight;
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ppdev->pPointerAttributes->Column = 0;
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ppdev->pPointerAttributes->Row = 0;
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ppdev->pPointerAttributes->Enable = 0;
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}
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return(TRUE);
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}
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/******************************Public*Routine******************************\
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* vDisableSURF
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*
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* Disable the surface. Un-Maps the frame in memory.
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*
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\**************************************************************************/
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VOID vDisableSURF(PPDEV ppdev)
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{
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DWORD returnedDataLength;
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VIDEO_MEMORY videoMemory;
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videoMemory.RequestedVirtualAddress = (PVOID) ppdev->pjScreen;
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if (EngDeviceIoControl(ppdev->hDriver,
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IOCTL_VIDEO_UNMAP_VIDEO_MEMORY,
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&videoMemory,
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sizeof(VIDEO_MEMORY),
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NULL,
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0,
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&returnedDataLength))
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{
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DISPDBG((0, "DISP vDisableSURF failed IOCTL_VIDEO_UNMAP\n"));
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}
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}
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/******************************Public*Routine******************************\
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* bInitPDEV
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*
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* Determine the mode we should be in based on the DEVMODE passed in.
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* Query mini-port to get information needed to fill in the DevInfo and the
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* GdiInfo .
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*
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\**************************************************************************/
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BOOL bInitPDEV(
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PPDEV ppdev,
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DEVMODEW *pDevMode,
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GDIINFO *pGdiInfo,
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DEVINFO *pDevInfo)
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{
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ULONG cModes;
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PVIDEO_MODE_INFORMATION pVideoBuffer, pVideoModeSelected, pVideoTemp;
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VIDEO_COLOR_CAPABILITIES colorCapabilities;
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ULONG ulTemp;
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BOOL bSelectDefault;
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ULONG cbModeSize;
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//
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// calls the miniport to get mode information.
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//
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cModes = getAvailableModes(ppdev->hDriver, &pVideoBuffer, &cbModeSize);
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if (cModes == 0)
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{
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return(FALSE);
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}
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//
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// Now see if the requested mode has a match in that table.
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//
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pVideoModeSelected = NULL;
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pVideoTemp = pVideoBuffer;
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if ((pDevMode->dmPelsWidth == 0) &&
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(pDevMode->dmPelsHeight == 0) &&
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(pDevMode->dmBitsPerPel == 0) &&
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(pDevMode->dmDisplayFrequency == 0))
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{
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DISPDBG((2, "Default mode requested"));
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bSelectDefault = TRUE;
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}
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else
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{
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DISPDBG((2, "Requested mode...\n"));
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DISPDBG((2, " Screen width -- %li\n", pDevMode->dmPelsWidth));
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DISPDBG((2, " Screen height -- %li\n", pDevMode->dmPelsHeight));
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DISPDBG((2, " Bits per pel -- %li\n", pDevMode->dmBitsPerPel));
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DISPDBG((2, " Frequency -- %li\n", pDevMode->dmDisplayFrequency));
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bSelectDefault = FALSE;
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}
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while (cModes--)
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{
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if (pVideoTemp->Length != 0)
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{
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if (bSelectDefault ||
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((pVideoTemp->VisScreenWidth == pDevMode->dmPelsWidth) &&
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(pVideoTemp->VisScreenHeight == pDevMode->dmPelsHeight) &&
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(pVideoTemp->BitsPerPlane *
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pVideoTemp->NumberOfPlanes == pDevMode->dmBitsPerPel) &&
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(pVideoTemp->Frequency == pDevMode->dmDisplayFrequency)))
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{
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pVideoModeSelected = pVideoTemp;
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DISPDBG((3, "Found a match\n")) ;
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break;
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}
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}
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pVideoTemp = (PVIDEO_MODE_INFORMATION)
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(((PUCHAR)pVideoTemp) + cbModeSize);
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}
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//
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// If no mode has been found, return an error
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//
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if (pVideoModeSelected == NULL)
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{
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EngFreeMem(pVideoBuffer);
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DISPDBG((0,"DISP bInitPDEV failed - no valid modes\n"));
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return(FALSE);
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}
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//
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// Fill in the GDIINFO data structure with the information returned from
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// the kernel driver.
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//
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ppdev->ulMode = pVideoModeSelected->ModeIndex;
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ppdev->cxScreen = pVideoModeSelected->VisScreenWidth;
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ppdev->cyScreen = pVideoModeSelected->VisScreenHeight;
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ppdev->ulBitCount = pVideoModeSelected->BitsPerPlane *
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pVideoModeSelected->NumberOfPlanes;
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ppdev->lDeltaScreen = pVideoModeSelected->ScreenStride;
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ppdev->flRed = pVideoModeSelected->RedMask;
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ppdev->flGreen = pVideoModeSelected->GreenMask;
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ppdev->flBlue = pVideoModeSelected->BlueMask;
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pGdiInfo->ulVersion = GDI_DRIVER_VERSION;
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pGdiInfo->ulTechnology = DT_RASDISPLAY;
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pGdiInfo->ulHorzSize = pVideoModeSelected->XMillimeter;
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pGdiInfo->ulVertSize = pVideoModeSelected->YMillimeter;
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pGdiInfo->ulHorzRes = ppdev->cxScreen;
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pGdiInfo->ulVertRes = ppdev->cyScreen;
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pGdiInfo->ulPanningHorzRes = ppdev->cxScreen;
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pGdiInfo->ulPanningVertRes = ppdev->cyScreen;
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pGdiInfo->cBitsPixel = pVideoModeSelected->BitsPerPlane;
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pGdiInfo->cPlanes = pVideoModeSelected->NumberOfPlanes;
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pGdiInfo->ulVRefresh = pVideoModeSelected->Frequency;
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pGdiInfo->ulBltAlignment = 1; // We don't have accelerated screen-
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// to-screen blts, and any
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// window alignment is okay
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pGdiInfo->ulLogPixelsX = pDevMode->dmLogPixels;
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pGdiInfo->ulLogPixelsY = pDevMode->dmLogPixels;
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#ifdef MIPS
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if (ppdev->ulBitCount == 8)
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pGdiInfo->flTextCaps = (TC_RA_ABLE | TC_SCROLLBLT);
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else
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#endif
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pGdiInfo->flTextCaps = TC_RA_ABLE;
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pGdiInfo->flRaster = 0; // flRaster is reserved by DDI
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pGdiInfo->ulDACRed = pVideoModeSelected->NumberRedBits;
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pGdiInfo->ulDACGreen = pVideoModeSelected->NumberGreenBits;
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pGdiInfo->ulDACBlue = pVideoModeSelected->NumberBlueBits;
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pGdiInfo->ulAspectX = 0x24; // One-to-one aspect ratio
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pGdiInfo->ulAspectY = 0x24;
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pGdiInfo->ulAspectXY = 0x33;
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pGdiInfo->xStyleStep = 1; // A style unit is 3 pels
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pGdiInfo->yStyleStep = 1;
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pGdiInfo->denStyleStep = 3;
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pGdiInfo->ptlPhysOffset.x = 0;
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pGdiInfo->ptlPhysOffset.y = 0;
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pGdiInfo->szlPhysSize.cx = 0;
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pGdiInfo->szlPhysSize.cy = 0;
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// RGB and CMY color info.
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//
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// try to get it from the miniport.
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// if the miniport doesn ot support this feature, use defaults.
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//
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if (EngDeviceIoControl(ppdev->hDriver,
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IOCTL_VIDEO_QUERY_COLOR_CAPABILITIES,
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NULL,
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0,
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&colorCapabilities,
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sizeof(VIDEO_COLOR_CAPABILITIES),
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&ulTemp))
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{
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DISPDBG((2, "getcolorCapabilities failed \n"));
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pGdiInfo->ciDevice.Red.x = 6700;
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pGdiInfo->ciDevice.Red.y = 3300;
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pGdiInfo->ciDevice.Red.Y = 0;
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pGdiInfo->ciDevice.Green.x = 2100;
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pGdiInfo->ciDevice.Green.y = 7100;
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pGdiInfo->ciDevice.Green.Y = 0;
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pGdiInfo->ciDevice.Blue.x = 1400;
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pGdiInfo->ciDevice.Blue.y = 800;
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pGdiInfo->ciDevice.Blue.Y = 0;
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pGdiInfo->ciDevice.AlignmentWhite.x = 3127;
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pGdiInfo->ciDevice.AlignmentWhite.y = 3290;
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pGdiInfo->ciDevice.AlignmentWhite.Y = 0;
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pGdiInfo->ciDevice.RedGamma = 20000;
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pGdiInfo->ciDevice.GreenGamma = 20000;
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pGdiInfo->ciDevice.BlueGamma = 20000;
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}
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else
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{
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pGdiInfo->ciDevice.Red.x = colorCapabilities.RedChromaticity_x;
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pGdiInfo->ciDevice.Red.y = colorCapabilities.RedChromaticity_y;
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pGdiInfo->ciDevice.Red.Y = 0;
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pGdiInfo->ciDevice.Green.x = colorCapabilities.GreenChromaticity_x;
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pGdiInfo->ciDevice.Green.y = colorCapabilities.GreenChromaticity_y;
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pGdiInfo->ciDevice.Green.Y = 0;
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pGdiInfo->ciDevice.Blue.x = colorCapabilities.BlueChromaticity_x;
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pGdiInfo->ciDevice.Blue.y = colorCapabilities.BlueChromaticity_y;
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pGdiInfo->ciDevice.Blue.Y = 0;
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pGdiInfo->ciDevice.AlignmentWhite.x = colorCapabilities.WhiteChromaticity_x;
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pGdiInfo->ciDevice.AlignmentWhite.y = colorCapabilities.WhiteChromaticity_y;
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pGdiInfo->ciDevice.AlignmentWhite.Y = colorCapabilities.WhiteChromaticity_Y;
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// if we have a color device store the three color gamma values,
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// otherwise store the unique gamma value in all three.
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if (colorCapabilities.AttributeFlags & VIDEO_DEVICE_COLOR)
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{
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pGdiInfo->ciDevice.RedGamma = colorCapabilities.RedGamma;
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pGdiInfo->ciDevice.GreenGamma = colorCapabilities.GreenGamma;
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pGdiInfo->ciDevice.BlueGamma = colorCapabilities.BlueGamma;
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}
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else
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{
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pGdiInfo->ciDevice.RedGamma = colorCapabilities.WhiteGamma;
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pGdiInfo->ciDevice.GreenGamma = colorCapabilities.WhiteGamma;
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pGdiInfo->ciDevice.BlueGamma = colorCapabilities.WhiteGamma;
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}
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};
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pGdiInfo->ciDevice.Cyan.x = 0;
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pGdiInfo->ciDevice.Cyan.y = 0;
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pGdiInfo->ciDevice.Cyan.Y = 0;
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pGdiInfo->ciDevice.Magenta.x = 0;
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pGdiInfo->ciDevice.Magenta.y = 0;
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pGdiInfo->ciDevice.Magenta.Y = 0;
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pGdiInfo->ciDevice.Yellow.x = 0;
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pGdiInfo->ciDevice.Yellow.y = 0;
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pGdiInfo->ciDevice.Yellow.Y = 0;
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// No dye correction for raster displays.
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pGdiInfo->ciDevice.MagentaInCyanDye = 0;
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pGdiInfo->ciDevice.YellowInCyanDye = 0;
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pGdiInfo->ciDevice.CyanInMagentaDye = 0;
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pGdiInfo->ciDevice.YellowInMagentaDye = 0;
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pGdiInfo->ciDevice.CyanInYellowDye = 0;
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pGdiInfo->ciDevice.MagentaInYellowDye = 0;
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pGdiInfo->ulDevicePelsDPI = 0; // For printers only
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pGdiInfo->ulPrimaryOrder = PRIMARY_ORDER_CBA;
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// Note: this should be modified later to take into account the size
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// of the display and the resolution.
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pGdiInfo->ulHTPatternSize = HT_PATSIZE_4x4_M;
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pGdiInfo->flHTFlags = HT_FLAG_ADDITIVE_PRIMS;
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// Fill in the basic devinfo structure
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*pDevInfo = gDevInfoFrameBuffer;
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// Fill in the rest of the devinfo and GdiInfo structures.
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if (ppdev->ulBitCount == 8)
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{
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// It is Palette Managed.
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pGdiInfo->ulNumColors = 20;
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pGdiInfo->ulNumPalReg = 1 << ppdev->ulBitCount;
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pDevInfo->flGraphicsCaps |= (GCAPS_PALMANAGED | GCAPS_COLOR_DITHER);
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pGdiInfo->ulHTOutputFormat = HT_FORMAT_8BPP;
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pDevInfo->iDitherFormat = BMF_8BPP;
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// Assuming palette is orthogonal - all colors are same size.
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ppdev->cPaletteShift = 8 - pGdiInfo->ulDACRed;
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}
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else
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{
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pGdiInfo->ulNumColors = (ULONG) (-1);
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pGdiInfo->ulNumPalReg = 0;
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if (ppdev->ulBitCount == 16)
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{
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pGdiInfo->ulHTOutputFormat = HT_FORMAT_16BPP;
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pDevInfo->iDitherFormat = BMF_16BPP;
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}
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else if (ppdev->ulBitCount == 24)
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{
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pGdiInfo->ulHTOutputFormat = HT_FORMAT_24BPP;
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pDevInfo->iDitherFormat = BMF_24BPP;
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}
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else
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{
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pGdiInfo->ulHTOutputFormat = HT_FORMAT_32BPP;
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pDevInfo->iDitherFormat = BMF_32BPP;
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}
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}
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EngFreeMem(pVideoBuffer);
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return(TRUE);
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}
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/******************************Public*Routine******************************\
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* getAvailableModes
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*
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* Calls the miniport to get the list of modes supported by the kernel driver,
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* and returns the list of modes supported by the diplay driver among those
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*
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* returns the number of entries in the videomode buffer.
|
|
* 0 means no modes are supported by the miniport or that an error occured.
|
|
*
|
|
* NOTE: the buffer must be freed up by the caller.
|
|
*
|
|
\**************************************************************************/
|
|
|
|
DWORD getAvailableModes(
|
|
HANDLE hDriver,
|
|
PVIDEO_MODE_INFORMATION *modeInformation,
|
|
DWORD *cbModeSize)
|
|
{
|
|
ULONG ulTemp;
|
|
VIDEO_NUM_MODES modes;
|
|
PVIDEO_MODE_INFORMATION pVideoTemp;
|
|
|
|
//
|
|
// Get the number of modes supported by the mini-port
|
|
//
|
|
|
|
if (EngDeviceIoControl(hDriver,
|
|
IOCTL_VIDEO_QUERY_NUM_AVAIL_MODES,
|
|
NULL,
|
|
0,
|
|
&modes,
|
|
sizeof(VIDEO_NUM_MODES),
|
|
&ulTemp))
|
|
{
|
|
DISPDBG((0, "getAvailableModes failed VIDEO_QUERY_NUM_AVAIL_MODES\n"));
|
|
return(0);
|
|
}
|
|
|
|
*cbModeSize = modes.ModeInformationLength;
|
|
|
|
//
|
|
// Allocate the buffer for the mini-port to write the modes in.
|
|
//
|
|
|
|
*modeInformation = (PVIDEO_MODE_INFORMATION)
|
|
EngAllocMem(0, modes.NumModes *
|
|
modes.ModeInformationLength, ALLOC_TAG);
|
|
|
|
if (*modeInformation == (PVIDEO_MODE_INFORMATION) NULL)
|
|
{
|
|
DISPDBG((0, "getAvailableModes failed EngAllocMem\n"));
|
|
|
|
return 0;
|
|
}
|
|
|
|
//
|
|
// Ask the mini-port to fill in the available modes.
|
|
//
|
|
|
|
if (EngDeviceIoControl(hDriver,
|
|
IOCTL_VIDEO_QUERY_AVAIL_MODES,
|
|
NULL,
|
|
0,
|
|
*modeInformation,
|
|
modes.NumModes * modes.ModeInformationLength,
|
|
&ulTemp))
|
|
{
|
|
|
|
DISPDBG((0, "getAvailableModes failed VIDEO_QUERY_AVAIL_MODES\n"));
|
|
|
|
EngFreeMem(*modeInformation);
|
|
*modeInformation = (PVIDEO_MODE_INFORMATION) NULL;
|
|
|
|
return(0);
|
|
}
|
|
|
|
//
|
|
// Now see which of these modes are supported by the display driver.
|
|
// As an internal mechanism, set the length to 0 for the modes we
|
|
// DO NOT support.
|
|
//
|
|
|
|
ulTemp = modes.NumModes;
|
|
pVideoTemp = *modeInformation;
|
|
|
|
//
|
|
// Mode is rejected if it is not one plane, or not graphics, or is not
|
|
// one of 8, 16 or 32 bits per pel.
|
|
//
|
|
|
|
while (ulTemp--)
|
|
{
|
|
if ((pVideoTemp->NumberOfPlanes != 1 ) ||
|
|
!(pVideoTemp->AttributeFlags & VIDEO_MODE_GRAPHICS) ||
|
|
(pVideoTemp->AttributeFlags & VIDEO_MODE_BANKED) ||
|
|
((pVideoTemp->BitsPerPlane != 8) &&
|
|
(pVideoTemp->BitsPerPlane != 16) &&
|
|
(pVideoTemp->BitsPerPlane != 24) &&
|
|
(pVideoTemp->BitsPerPlane != 32)))
|
|
{
|
|
pVideoTemp->Length = 0;
|
|
}
|
|
|
|
pVideoTemp = (PVIDEO_MODE_INFORMATION)
|
|
(((PUCHAR)pVideoTemp) + modes.ModeInformationLength);
|
|
}
|
|
|
|
return modes.NumModes;
|
|
|
|
}
|