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503 lines
12 KiB
503 lines
12 KiB
//
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// Cursor Manager
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//
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#ifndef _H_CM
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#define _H_CM
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//
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//
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// CONSTANTS
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//
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//
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//
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// Maximum cursor sizes.
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//
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#define CM_MAX_CURSOR_WIDTH 32
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#define CM_MAX_CURSOR_HEIGHT 32
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//
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// This is the maximum size of the cursor data for the combined 1bpp AND
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// mask and n bpp XOR mask. We currently allow for a 32x32 cursor at
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// 32bpp. In this case the AND mask consumes 32*32/8 bytes (128) and the
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// XOR mask consumes 32*32*4 bytes (4096). Total is 32*4 + 32*32*4, which
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// is (32*4)*(1 + 32), which is (32*4)*33
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//
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#define CM_MAX_CURSOR_DATA_SIZE \
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((CM_MAX_CURSOR_WIDTH/8) * CM_MAX_CURSOR_HEIGHT * 33)
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//
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// Thresholds for color intensity to distinguish between 24bpp colors which
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// map to black, white, or a hatch pattern
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//
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#define CM_WHITE_THRESHOLD (TSHR_UINT32)120000
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#define CM_BLACK_THRESHOLD (TSHR_UINT32)40000
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//
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// Shadow cursor tag constant declarations.
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//
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#define NTRUNCLETTERS 5 // For CreateAbbreviatedName - "A. B."
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#define MAX_CURSOR_TAG_FONT_NAME_LENGTH 64
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#define CURSOR_TAG_FONT_HEIGHT -11
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//
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// This defines the size of the tag.. careful if you change these
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// values... they must define a tag that fits in a hardcoded 32x32 bitmap.
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//
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#define TAGXOFF 8
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#define TAGYOFF 20
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#define TAGXSIZ 24
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#define TAGYSIZ 12
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typedef struct tag_curtaginfo
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{
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WORD cHeight;
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WORD cWidth;
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BYTE aAndBits[ 32 * 32 / 8 ];
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BITMAPINFO bmInfo; // includes foreground color
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RGBQUAD rgbBackground[1]; // describes background color
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BYTE aXorBits[ 32 * 32 / 8 ]; // packed bits follow BITMAPINFO, color table
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}
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CURTAGINFO, * PCURTAGINFO;
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typedef struct tagCACHEDCURSOR
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{
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HCURSOR hCursor;
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POINT hotSpot;
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}
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CACHEDCURSOR;
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typedef CACHEDCURSOR * PCACHEDCURSOR;
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//
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// Information about a remote party's cursor.
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//
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//
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//
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//
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// Calculates the number of bytes wide a cursor is given the width of the
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// cursor in pels. Cursors are 1bpp and word padded.
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//
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#define CM_BYTES_FROM_WIDTH(width) ((((width)+15)/16)*2)
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//
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//
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// TYPES
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//
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//
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//
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// A POINTL has 32-bit coords in both 16-bit and 32-bit code
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//
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typedef struct tagCM_SHAPE_HEADER
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{
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POINTL ptHotSpot;
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WORD cx;
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WORD cy;
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WORD cbRowWidth;
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BYTE cPlanes;
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BYTE cBitsPerPel;
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} CM_SHAPE_HEADER;
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typedef CM_SHAPE_HEADER FAR * LPCM_SHAPE_HEADER;
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typedef struct tagCM_SHAPE
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{
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CM_SHAPE_HEADER hdr;
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BYTE Masks[1]; // 1bpp AND mask, followed by n bpp XOR mask
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} CM_SHAPE;
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typedef CM_SHAPE FAR * LPCM_SHAPE;
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typedef struct tagCM_SHAPE_DATA
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{
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CM_SHAPE_HEADER hdr;
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BYTE data[CM_MAX_CURSOR_DATA_SIZE];
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}
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CM_SHAPE_DATA;
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typedef CM_SHAPE_DATA FAR * LPCM_SHAPE_DATA;
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// Structure: CM_FAST_DATA
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//
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// Description: Shared memory data - cursor description and usage flag
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//
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// cmCursorStamp - Cursor identifier: an integer written by the
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// display driver
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// bitmasks - RGB bitmasks for >8bpp cursors
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// colorTable - Color table for <= 8bpp cursors
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// cmCursorShapeData - Cursor definition (AND, XOR masks, etc)
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//
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//
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//
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// Note that a PALETTEENTRY is a DWORD, same in 16-bit and 32-bit code
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//
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typedef struct tagCM_FAST_DATA
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{
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DWORD cmCursorStamp;
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DWORD bitmasks[3];
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PALETTEENTRY colorTable[256];
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CM_SHAPE_DATA cmCursorShapeData;
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}
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CM_FAST_DATA;
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typedef CM_FAST_DATA FAR * LPCM_FAST_DATA;
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//
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//
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// MACROS
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//
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//
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#define CURSOR_AND_MASK_SIZE(pCursorShape) \
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((pCursorShape)->hdr.cbRowWidth * (pCursorShape)->hdr.cy)
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#define ROW_WORD_PAD(cbUnpaddedRow) \
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(((cbUnpaddedRow) + 1) & ~1)
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#define CURSOR_XOR_BITMAP_SIZE(pCursorShape) \
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(ROW_WORD_PAD(((pCursorShape)->hdr.cx * \
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(pCursorShape)->hdr.cBitsPerPel) / 8) * \
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(pCursorShape)->hdr.cy)
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#define CURSOR_DIB_BITS_SIZE(cx, cy, bpp) \
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(ROW_WORD_PAD(((cx) * (bpp))/8) * (cy))
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#define CURSORSHAPE_SIZE(pCursorShape) \
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sizeof(CM_SHAPE_HEADER) + \
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CURSOR_AND_MASK_SIZE(pCursorShape) + \
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CURSOR_XOR_BITMAP_SIZE(pCursorShape)
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//
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// Null cursor indications
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//
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#define CM_CURSOR_IS_NULL(pCursor) ((((pCursor)->hdr.cPlanes==(BYTE)0xFF) && \
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(pCursor)->hdr.cBitsPerPel == (BYTE)0xFF))
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#define CM_SET_NULL_CURSOR(pCursor) (pCursor)->hdr.cPlanes = 0xFF; \
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(pCursor)->hdr.cBitsPerPel = 0xFF;
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//
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// Expands a particular bit into a byte. The bits are zero-indexed and
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// numbered from the left. The allowable range for pos is 0 to 7
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// inclusive.
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//
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#define BIT_TO_BYTE(cbyte, pos) \
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( (BYTE) ((((cbyte) >> (7 - (pos))) & 0x01) ? 0xFF : 0x00))
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//
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// Get two bits from a byte. The bits are zero-indexed and numbered from
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// the left. The allowable range for pos is 0 to 3 inclusive.
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//
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#define GET_TWO_BITS(cbyte, pos) \
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( (BYTE) (((cbyte) >> (2 * (3 - (pos)))) & 0x03) )
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//
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// Return the maximum size of palette (in bytes) required for a DIB at a
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// given bpp. This is 2 ^ bpp for bpp < 8, or 0 for > 8 bpp
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//
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#define PALETTE_SIZE(BPP) (((BPP) > 8) ? 0 : ((1<<(BPP)) * sizeof(RGBQUAD)))
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//
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// Return a pointer to the actual bitmap bits within a DIB.
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//
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#define POINTER_TO_DIB_BITS(pDIB) \
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((void *) ((LPBYTE)(pDIB) + DIB_BITS_OFFSET(pDIB)) )
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//
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// Calculate the offset of the data bits in a DIB.
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//
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#define DIB_BITS_OFFSET(pDIB) \
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(PALETTE_SIZE((pDIB)->bmiHeader.biBitCount) + \
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sizeof(BITMAPINFOHEADER))
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//
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// Trace out info about a DIB. PH is a pointer to a BITMAPINFOHEADER
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//
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#define CAP_TRACE_DIB_DBG(PH, NAME) \
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TRACE_OUT(( "%s: %#.8lx, %ld x %ld, %hd bpp, %s encoded", \
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(NAME), (DWORD)(PH), (PH)->biWidth, (PH)->biHeight, (PH)->biBitCount,\
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((PH)->biCompression == BI_RLE8) ? "RLE8" \
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: (((PH)->biCompression == BI_RLE4) ? "RLE4" : "not")))
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//
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// Is the parameter a pointer to a Device Dependant Bitmap?
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//
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#define IS_DIB(PARAM) (*((LPWORD)(PARAM)) == 0x28)
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//
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// Driver supports color_cursors and async SetCursor. This value is taken
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// from the Win95 DDK.
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//
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#define C1_COLORCURSOR 0x0800
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//
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//
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// PROTOTYPES
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//
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//
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//
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// Specific values for OSI escape codes
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//
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#define CM_ESC(code) (OSI_CM_ESC_FIRST + code)
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#define CM_ESC_XFORM CM_ESC(0)
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//
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//
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// STRUCTURES
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//
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//
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// Structure: CM_DRV_XFORM_INFO
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//
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// Description: Structure passed from the share core to the display driver
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// to pass cursor transform data
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//
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typedef struct tagCM_DRV_XFORM_INFO
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{
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OSI_ESCAPE_HEADER header;
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//
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// Share core -> display driver.
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// Pointers to AND mask. Note that this user-space pointer is also
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// valid in the display driver realm (ring0 if NT, 16-bit if W95)
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//
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LPBYTE pANDMask;
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DWORD width;
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DWORD height;
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//
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// Driver -> share core.
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//
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DWORD result;
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} CM_DRV_XFORM_INFO;
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typedef CM_DRV_XFORM_INFO FAR * LPCM_DRV_XFORM_INFO;
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//
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//
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// PROTOTYPES
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//
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//
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#ifdef DLL_DISP
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//
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// Name: CM_DDProcessRequest
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//
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// Purpose: Process CM requests from the Share Core which have been
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// to the display driver through the DrvEscape mechanism.
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//
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// Returns: TRUE if the request is processed successfully,
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// FALSE otherwise.
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//
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// Params: IN pso - Pointer to surface object for our driver
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// IN cjIn - Size of the input data
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// IN pvIn - Pointer to the input data
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// IN cjOut - Size of the output data
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// IN/OUT pvOut - Pointer to the output data
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//
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#ifdef IS_16
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BOOL CM_DDProcessRequest(UINT fnEscape, LPOSI_ESCAPE_HEADER pResult,
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DWORD cbResult);
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#else
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ULONG CM_DDProcessRequest(SURFOBJ* pso,
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UINT cjIn,
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void * pvIn,
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UINT cjOut,
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void * pvOut);
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#endif
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#ifdef IS_16
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BOOL CM_DDInit(HDC);
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#else
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BOOL CM_DDInit(LPOSI_PDEV ppDev);
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#endif // IS_16
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#ifdef IS_16
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void CM_DDViewing(BOOL fViewers);
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#else
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void CM_DDViewing(SURFOBJ * pso, BOOL fViewers);
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#endif // IS_16
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//
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// Name: CM_DDTerm
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//
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// Purpose: Terminates the display driver component of the cursor
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// manager.
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//
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// Params: None.
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//
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void CM_DDTerm(void);
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#endif // DLL_DISP
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typedef void ( *PFNCMCOPYTOMONO) ( LPBYTE pSrc,
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LPBYTE pDst,
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UINT cx,
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UINT cy );
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//
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// Cursor type (as required by CMMaybeSendCursor). The values are:
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//
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// DEFAULTCURSOR - standard pointer
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// DISPLAYEDCURSOR - displayed (eg. bitmap) cursor
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//
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#define CM_CT_DEFAULTCURSOR 1
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#define CM_CT_DISPLAYEDCURSOR 2
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//
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// Types of displayed cursor:
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//
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// UNKNOWN - ONLY to be used by resyncing code
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// SYSTEMCURSOR - Standard windows cursor
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// BITMAPCURSOR - Displayed cursor
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//
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#define CM_CD_UNKNOWN 0
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#define CM_CD_SYSTEMCURSOR 1
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#define CM_CD_BITMAPCURSOR 2
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typedef struct tagCURSORDESCRIPTION
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{
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DWORD type;
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DWORD id;
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} CURSORDESCRIPTION;
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typedef CURSORDESCRIPTION FAR * LPCURSORDESCRIPTION;
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typedef struct tagCURSORIMAGE
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{
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WORD xHotSpot;
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WORD yHotSpot;
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BITMAPINFOHEADER crHeader;
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BYTE crMasks[1];
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} CURSORIMAGE;
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typedef CURSORIMAGE FAR *LPCURSORIMAGE;
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#ifndef DLL_DISP
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BOOL CMCreateAbbreviatedName(LPCSTR szTagName, LPSTR szBuf, UINT cbBuf);
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//
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// BOGUS LAURABU:
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// We should use normal GDI StretchBlts to get the bitmap bits, not
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// our own whacky pack/unpack code.
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//
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void CMCopy1bppTo1bpp( LPBYTE pSrc,
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LPBYTE pDst,
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UINT cx,
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UINT cy );
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void CMCopy4bppTo1bpp( LPBYTE pSrc,
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LPBYTE pDst,
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UINT cx,
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UINT cy );
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void CMCopy8bppTo1bpp( LPBYTE pSrc,
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LPBYTE pDst,
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UINT cx,
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UINT cy );
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void CMCopy16bppTo1bpp( LPBYTE pSrc,
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LPBYTE pDst,
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UINT cx,
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UINT cy );
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void CMCopy24bppTo1bpp( LPBYTE pSrc,
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LPBYTE pDst,
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UINT cx,
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UINT cy );
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BOOL CMGetMonoCursor( LPTSHR_UINT16 pcxWidth,
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LPTSHR_UINT16 pcyHeight,
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LPTSHR_UINT16 pxHotSpot,
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LPTSHR_UINT16 pyHotSpot,
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LPBYTE pANDBitmap,
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LPBYTE pXORBitmap );
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void CMGetCurrentCursor(LPCURSORDESCRIPTION pCursor);
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void CMCalculateColorCursorSize( LPCM_SHAPE pCursor,
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LPUINT pcbANDMaskSize,
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LPUINT pcbXORBitmapSize );
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BOOL CMGetMonoCursorDetails( LPCM_SHAPE pCursor,
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LPTSHR_UINT16 pcxWidth,
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LPTSHR_UINT16 pcyHeight,
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LPTSHR_UINT16 pxHotSpot,
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LPTSHR_UINT16 pyHotSpot,
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LPBYTE pANDBitmap,
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LPTSHR_UINT16 pcbANDBitmap,
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LPBYTE pXORBitmap,
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LPTSHR_UINT16 pcbXORBitmap );
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void CMRefreshWindowCursor(HWND window);
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BOOL CMGetCursorShape( LPCM_SHAPE * ppCursorShape,
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LPUINT pcbCursorDataSize );
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HWND CMGetControllingWindow(void);
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#define CM_SHM_START_READING &g_asSharedMemory->cmFast[\
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1 - g_asSharedMemory->fastPath.newBuffer]
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#define CM_SHM_STOP_READING
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#else
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#ifdef IS_16
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BOOL CMDDSetTransform(LPCM_DRV_XFORM_INFO pResult);
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void CMDDJiggleCursor(void);
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#else
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BOOL CMDDSetTransform(LPOSI_PDEV ppDev, LPCM_DRV_XFORM_INFO pXformInfo);
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#endif
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#define CM_SHM_START_WRITING SHM_StartAccess(SHM_CM_FAST)
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#define CM_SHM_STOP_WRITING SHM_StopAccess(SHM_CM_FAST)
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#endif // !DLL_DISP
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#endif // _H_CM
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