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434 lines
12 KiB
434 lines
12 KiB
/******************************Module*Header*******************************\
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* Module Name: pointer.c
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*
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* This module contains the hardware Pointer support.
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*
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* Copyright (c) 1992-1995 Microsoft Corporation
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* Copyright (c) 1993-1995 Weitek Corporation
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\**************************************************************************/
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#include "precomp.h"
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/******************************Public*Routine******************************\
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* BOOL bCopyMonoPointer
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*
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* Copies two monochrome masks into a buffer of the maximum size handled by the
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* miniport, with any extra bits set to 0. The masks are converted to topdown
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* form if they aren't already. Returns TRUE if we can handle this pointer in
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* hardware, FALSE if not.
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*
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\**************************************************************************/
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BOOL bCopyMonoPointer(
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PDEV* ppdev,
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SURFOBJ* pso)
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{
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ULONG cy;
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BYTE* pjSrcAnd;
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BYTE* pjSrcXor;
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LONG lDeltaSrc;
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LONG lDeltaDst;
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LONG lSrcWidthInBytes;
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ULONG cxSrc;
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ULONG cySrc;
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ULONG cxSrcBytes;
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BYTE* pjDstAnd;
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BYTE* pjDstXor;
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PVIDEO_POINTER_ATTRIBUTES pPointerAttributes;
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pPointerAttributes = ppdev->pPointerAttributes;
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cxSrc = pso->sizlBitmap.cx;
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cySrc = pso->sizlBitmap.cy;
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pjDstAnd = pPointerAttributes->Pixels;
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pjDstXor = pPointerAttributes->Pixels;
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// Make sure the new pointer isn't too big to handle
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// (*2 because both masks are in there)
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if ((cxSrc > ppdev->PointerCapabilities.MaxWidth) ||
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(cySrc > (ppdev->PointerCapabilities.MaxHeight * 2)))
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{
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return(FALSE);
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}
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pjDstXor += ((ppdev->PointerCapabilities.MaxWidth + 7) / 8) *
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pPointerAttributes->Height;
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// Set the desk and mask to 0xff
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RtlFillMemory(pjDstAnd, pPointerAttributes->WidthInBytes *
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pPointerAttributes->Height, 0xFF);
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// Zero the dest XOR mask
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RtlZeroMemory(pjDstXor, pPointerAttributes->WidthInBytes *
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pPointerAttributes->Height);
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cxSrcBytes = (cxSrc + 7) / 8;
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if ((lDeltaSrc = pso->lDelta) < 0)
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{
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lSrcWidthInBytes = -lDeltaSrc;
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}
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else
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{
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lSrcWidthInBytes = lDeltaSrc;
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}
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pjSrcAnd = (BYTE*) pso->pvScan0;
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// Height of just AND mask
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cySrc = cySrc / 2;
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// Point to XOR mask
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pjSrcXor = pjSrcAnd + (cySrc * lDeltaSrc);
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// Offset from end of one dest scan to start of next
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lDeltaDst = pPointerAttributes->WidthInBytes;
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for (cy = 0; cy < cySrc; ++cy)
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{
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RtlCopyMemory(pjDstAnd, pjSrcAnd, cxSrcBytes);
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RtlCopyMemory(pjDstXor, pjSrcXor, cxSrcBytes);
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// Point to next source and dest scans
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pjSrcAnd += lDeltaSrc;
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pjSrcXor += lDeltaSrc;
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pjDstAnd += lDeltaDst;
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pjDstXor += lDeltaDst;
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}
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return(TRUE);
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}
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/******************************Public*Routine******************************\
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* BOOL bSetHardwarePointerShape
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*
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* Changes the shape of the Hardware Pointer.
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*
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* Returns: True if successful, False if Pointer shape can't be hardware.
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*
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\**************************************************************************/
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BOOL bSetHardwarePointerShape(
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SURFOBJ* pso,
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SURFOBJ* psoMask,
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SURFOBJ* psoColor,
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XLATEOBJ* pxlo,
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LONG x,
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LONG y,
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FLONG fl)
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{
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PDEV* ppdev;
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DWORD returnedDataLength;
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PVIDEO_POINTER_ATTRIBUTES pPointerAttributes;
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ppdev = (PDEV*) pso->dhpdev;
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pPointerAttributes = ppdev->pPointerAttributes;
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// Don't make any assumptions about the pointer flags.
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pPointerAttributes->Flags = 0;
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// We don't support color pointers.
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if (psoColor != NULL)
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{
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return(FALSE);
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}
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if ((ppdev->PointerCapabilities.Flags & VIDEO_MODE_MONO_POINTER) &&
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bCopyMonoPointer(ppdev, psoMask))
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{
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pPointerAttributes->Flags |= VIDEO_MODE_MONO_POINTER;
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}
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else
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{
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return(FALSE);
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}
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// Initialize Pointer attributes and position
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pPointerAttributes->Column = (SHORT)(x - ppdev->ptlHotSpot.x);
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pPointerAttributes->Row = (SHORT)(y - ppdev->ptlHotSpot.y);
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pPointerAttributes->Enable = 1;
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if (fl & SPS_ANIMATESTART)
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{
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pPointerAttributes->Flags |= VIDEO_MODE_ANIMATE_START;
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}
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else if (fl & SPS_ANIMATEUPDATE)
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{
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pPointerAttributes->Flags |= VIDEO_MODE_ANIMATE_UPDATE;
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}
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// Set the new Pointer shape.
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CP_WAIT(ppdev, ppdev->pjBase);
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if (EngDeviceIoControl(ppdev->hDriver, IOCTL_VIDEO_SET_POINTER_ATTR,
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pPointerAttributes, ppdev->cjPointerAttributes, NULL, 0,
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&returnedDataLength))
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{
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DISPDBG((0, "Failed IOCTL_VIDEO_SET_POINTER_ATTR call"));
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return(FALSE);
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}
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return(TRUE);
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}
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/******************************Public*Routine******************************\
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* VOID DrvMovePointer
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*
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* Moves the hardware pointer to a new position.
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*
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\**************************************************************************/
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VOID DrvMovePointer(
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SURFOBJ* pso,
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LONG x,
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LONG y,
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RECTL* prcl)
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{
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PDEV* ppdev;
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DWORD returnedDataLength;
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VIDEO_POINTER_POSITION NewPointerPosition;
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ppdev = (PDEV*) pso->dhpdev;
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// We don't use the exclusion rectangle because we only support
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// hardware Pointers. If we were doing our own Pointer simulations
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// we would want to update prcl so that the engine would call us
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// to exclude out pointer before drawing to the pixels in prcl.
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CP_WAIT(ppdev, ppdev->pjBase);
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if (x == -1)
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{
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// A new position of (-1,-1) means hide the pointer.
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if (EngDeviceIoControl(ppdev->hDriver,IOCTL_VIDEO_DISABLE_POINTER,
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NULL, 0, NULL, 0, &returnedDataLength))
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{
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// Not the end of the world, print warning in checked build.
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DISPDBG((0, "Failed IOCTL_VIDEO_DISABLE_POINTER"));
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}
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}
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else
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{
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NewPointerPosition.Column = (SHORT) x - (SHORT) (ppdev->ptlHotSpot.x);
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NewPointerPosition.Row = (SHORT) y - (SHORT) (ppdev->ptlHotSpot.y);
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// Call NT screen driver to move Pointer.
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if (EngDeviceIoControl(ppdev->hDriver, IOCTL_VIDEO_SET_POINTER_POSITION,
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&NewPointerPosition, sizeof(VIDEO_POINTER_POSITION), NULL,
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0, &returnedDataLength))
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{
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// Not the end of the world, print warning in checked build.
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DISPDBG((0, "Failed IOCTL_VIDEO_SET_POINTER_POSITION"));
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}
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}
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}
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/******************************Public*Routine******************************\
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* ULONG DrvSetPointerShape
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*
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* Sets the new pointer shape.
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*
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\**************************************************************************/
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ULONG DrvSetPointerShape(
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SURFOBJ* pso,
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SURFOBJ* psoMask,
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SURFOBJ* psoColor,
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XLATEOBJ* pxlo,
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LONG xHot,
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LONG yHot,
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LONG x,
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LONG y,
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RECTL* prcl,
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FLONG fl)
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{
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PDEV* ppdev;
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DWORD returnedDataLength;
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ppdev = (PDEV*) pso->dhpdev;
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// We don't use the exclusion rectangle because we only support
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// hardware Pointers. If we were doing our own Pointer simulations
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// we would want to update prcl so that the engine would call us
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// to exclude out pointer before drawing to the pixels in prcl.
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if (ppdev->pPointerAttributes == (PVIDEO_POINTER_ATTRIBUTES) NULL)
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{
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// Mini-port has no hardware Pointer support.
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return(SPS_DECLINE);
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}
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// See if we are being asked to hide the pointer
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// !!! Wrong
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if (psoMask == (SURFOBJ *) NULL)
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{
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CP_WAIT(ppdev, ppdev->pjBase);
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if (EngDeviceIoControl(ppdev->hDriver, IOCTL_VIDEO_DISABLE_POINTER,
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NULL, 0, NULL, 0, &returnedDataLength))
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{
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// It should never be possible to fail.
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DISPDBG((0, "Failed IOCTL_VIDEO_DISABLE_POINTER"));
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}
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return(TRUE); // !!! Wrong
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}
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ppdev->ptlHotSpot.x = xHot;
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ppdev->ptlHotSpot.y = yHot;
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if (!bSetHardwarePointerShape(pso,psoMask,psoColor,pxlo,x,y,fl))
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{
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if (ppdev->bHwPointerActive)
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{
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ppdev->bHwPointerActive = FALSE;
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CP_WAIT(ppdev, ppdev->pjBase);
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if (EngDeviceIoControl(ppdev->hDriver,
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IOCTL_VIDEO_DISABLE_POINTER, NULL, 0, NULL, 0,
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&returnedDataLength))
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{
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DISPDBG((0, "Failed IOCTL_VIDEO_DISABLE_POINTER"));
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}
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}
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// Mini-port declines to realize this Pointer
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return(SPS_DECLINE);
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}
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else
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{
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ppdev->bHwPointerActive = TRUE;
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}
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return(SPS_ACCEPT_NOEXCLUDE);
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}
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/******************************Public*Routine******************************\
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* VOID vDisablePointer
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*
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\**************************************************************************/
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VOID vDisablePointer(
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PDEV* ppdev)
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{
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EngFreeMem(ppdev->pPointerAttributes);
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}
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/******************************Public*Routine******************************\
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* VOID vAssertModePointer
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*
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\**************************************************************************/
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VOID vAssertModePointer(
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PDEV* ppdev,
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BOOL bEnable)
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{
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}
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/******************************Public*Routine******************************\
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* BOOL bEnablePointer
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*
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* Note: We can return TRUE, as long as pPointerAttributes is set to NULL,
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* and we will make due with a software cursor.
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*
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\**************************************************************************/
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BOOL bEnablePointer(
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PDEV* ppdev)
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{
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DWORD returnedDataLength;
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DWORD MaxWidth;
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DWORD MaxHeight;
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VIDEO_POINTER_ATTRIBUTES* pPointerAttributes;
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ppdev->pPointerAttributes = NULL;
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ppdev->cjPointerAttributes = 0;
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// Ask the miniport whether it provides pointer support.
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if (EngDeviceIoControl(ppdev->hDriver,
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IOCTL_VIDEO_QUERY_POINTER_CAPABILITIES, &ppdev->ulMode,
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sizeof(PVIDEO_MODE), &ppdev->PointerCapabilities,
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sizeof(ppdev->PointerCapabilities), &returnedDataLength))
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{
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return(TRUE);
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}
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// If neither mono nor color hardware pointer is supported, there's no
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// hardware pointer support and we're done.
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if ((!(ppdev->PointerCapabilities.Flags & VIDEO_MODE_MONO_POINTER)) &&
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(!(ppdev->PointerCapabilities.Flags & VIDEO_MODE_COLOR_POINTER)))
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{
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return(TRUE);
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}
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// Note: The buffer itself is allocated after we set the
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// mode. At that time we know the pixel depth and we can
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// allocate the correct size for the color pointer if supported.
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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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pPointerAttributes = (PVIDEO_POINTER_ATTRIBUTES)
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EngAllocMem(FL_ZERO_MEMORY,
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ppdev->cjPointerAttributes, ALLOC_TAG);
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if (pPointerAttributes == NULL)
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{
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return(TRUE);
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}
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pPointerAttributes->WidthInBytes = MaxWidth;
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pPointerAttributes->Width = ppdev->PointerCapabilities.MaxWidth;
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pPointerAttributes->Height = MaxHeight;
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pPointerAttributes->Column = 0;
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pPointerAttributes->Row = 0;
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pPointerAttributes->Enable = 0;
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ppdev->pPointerAttributes = pPointerAttributes;
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return(TRUE);
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}
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