L_GetPixelData

#include "l_bitmap.h"

L_INT EXT_FUNCTION L_GetPixelData(pBitmap, pData, nRow, nCol, nSize)

pBITMAPHANDLE pBitmap;	/* pointer to the bitmap handle */
L_VOID L_FAR * pData;	/* pointer to a buffer */
L_INT nRow;	/* row number of the pixel */
L_INT nCol;	/* column number of the pixel */
L_INT nSize;	/* size of the buffer */

Gets the data of the specified pixel. No transformations are performed on the pixel data.

Parameter	Description
pBitmap	Pointer to the bitmap handle referencing the bitmap.
pData	Pointer to a buffer to be updated with the pixel data. This buffer should be able to store nSize bytes.
nRow	The row number of the pixel. This is a zero-based value.
nCol	The column number of the pixel. This is a zero-based value.
nSize	Size of the buffer pointed to by pData. The size should be large enough to contain the data for the pixel. The minimum size can be calculated with the following formula: (pBitmap->BitsPerPixel + 7) / 8.

Returns

SUCCESS	The function was successful.
< 1	An error occurred. Refer to Return Codes.

Comments

This function should be called only for 8, 16, 24, 32, 48 and 64-bit bitmaps. Here is how it works:

$image\sqrblit.gif$ For 8-bit bitmaps, this function will retrieve the palette index for the specified pixel.

$image\sqrblit.gif$ For 16-bit bitmaps, the function will retrieve the 2-byte value that forms the pixel.

$image\sqrblit.gif$ For grayscale 16-bit bitmaps, the data will contain the gray value. LowBit and HighBit members of the BITMAPHANDLE structure indicate the valid pixel data.

$image\sqrblit.gif$ For color 16-bit bitmaps, the data contains packed 5-bit R, G and B values. The high bit contains the alpha information. The Order member in BITMAPHANDLE structure determines whether the data is RGB or BGR.

$image\sqrblit.gif$ For 24-bit bitmaps, the function will retrieve the 3 bytes containing the pixel color. The Order member in BITMAPHANDLE structure determines whether the data is RGB or BGR.

$image\sqrblit.gif$ For 32-bit bitmaps, the function will retrieve the 4 bytes containing the pixel color and alpha information. The first 3 bytes contain the pixel color. The Order member in BITMAPHANDLE structure determines whether the data in the first 3 bytes is RGB or BGR. The 4th byte is the alpha channel information.

$image\sqrblit.gif$ For 48-bit bitmaps, the function will retrieve the 6 bytes containing the pixel color. The Order member in BITMAPHANDLE structure determines whether the data is RGB or BGR. Each color component is stored as a 16-bit value, where 0 corresponds to black and 0xFFFF corresponds to full white.

$image\sqrblit.gif$ For 64-bit bitmaps, the function will retrieve the 8 bytes containing the pixel color and alpha information. The Order member in BITMAPHANDLE structure determines whether the data in the first 6 bytes is RGB or BGR. Each color component is stored as a 16-bit value, where 0 corresponds to black and 0xFFFF corresponds to full white. The last two bytes contain the alpha information (also stored as a short value).

This function will return an error if nSize is smaller than it should be. The minimum value for nSize is indicated in a formula above.

Required DLLs and Libraries

LTKRN

For a listing of the exact DLLs and Libraries needed, based on the toolkit version, refer to Files To Be Included With Your Application.

Platforms

Windows 95 / 98 / Me, Windows 2000 / XP, Windows CE.

See Also

Functions:	L_AccessBitmap, L_ReleaseBitmap, L_GetBitmapRow, L_PutBitmapRow, L_GetBitmapRowCol, L_PutBitmapRowCol, L_GetPixelColor, L_PutPixelColor, L_PutPixelData
Topics:	Raster Image Functions: Getting and Setting Pixel Values
	Processing an Image

Example

/* This example uses L_GetPixelData and L_PutPixelData to swap the R and G values for a particular pixel. This example will work only with 24, 32, 48 and 64-bit bitmaps*/

L_VOID SwapRGBtoBGR(pBITMAPHANDLE pBitmap, L_INT nRow, L_INT nCol)
{
   L_UINT uVal;

   if(pBitmap->BitsPerPixel == 24 || pBitmap->BitsPerPixel == 32)
   {
      L_UCHAR aPixel[4]; // make it large enough for both bitmap types
      L_GetPixelData(pBitmap, aPixel, nRow, nCol, sizeof(aPixel));
      // swap the R and B values
      uVal = aPixel[0]; aPixel[0] = aPixel[2]; aPixel[2] = (L_UCHAR)uVal;
      // put back the transformed pixel
      L_PutPixelData(pBitmap, aPixel, nRow, nCol, sizeof(aPixel));
   }
   else if(pBitmap->BitsPerPixel == 48 || pBitmap->BitsPerPixel == 64)
   {
      L_UINT16 aPixel[4]; // make it large enough for both bitmap types
      L_GetPixelData(pBitmap, aPixel, nRow, nCol, sizeof(aPixel));
      // swap the R and B values
      uVal = aPixel[0]; aPixel[0] = aPixel[2]; aPixel[2] = (L_UINT16)uVal;
      // put back the transformed pixel
      L_PutPixelData(pBitmap, aPixel, nRow, nCol, sizeof(aPixel));
   }
}