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Available in LEADTOOLS Imaging Pro, Vector, Document, and Medical Imaging toolkits. |
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Available in LEADTOOLS Imaging Pro, Vector, Document, and Medical Imaging toolkits. |
#include "ltwrappr.h"
L_INT LICCProfile::ConvertCLUTToBuffer(pData, pIccCLUT, nPrecision, nDataSize)
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L_UCHAR * pData; |
/* pointer to a buffer */ |
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L_VOID * pIccCLUT; |
/* pointer to a structure */ |
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L_INT nPrecision; |
/* precision of the data */ |
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L_SSIZE_T nDataSize; |
/* size of the data */ |
Converts the information in an ICC_CLUT8 or ICC_CLUT16 structure into one buffer of sequential data.
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Parameter |
Description |
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pData |
Pointer to a buffer to be updated with the converted information as one buffer of sequential bytes. |
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pIccCLUT |
Pointer to an ICC_CLUT8 or ICC_CLUT16 structure that contains the information to be converted into one buffer of sequential data. |
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nPrecision |
Value that represents the number of bytes for each element of the data pointed to by pData member of the pIccCLUT parameter. Possible values are: |
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Value |
Meaning |
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1 |
Used if the pIccCLUT parameter is of ICC_CLUT8 structure. |
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2 |
Used if the pIccCLUT parameter is of ICC_CLUT16 structure. |
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nDataSize |
Size in bytes, of the structure pointed to by pIccCLUT, for versioning. Use either sizeof(ICC_CLUT8) or sizeof(ICC_CLUT16). |
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Returns
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SUCCESS |
The function was successful. |
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< 1 |
An error occurred. Refer to Return Codes. |
Comments
The pData pointer must be allocated by the user. Its size must be equal to the size, in bytes, of the structure pointed to by the pIccCLUT parameter; otherwise an error may occur and corrupted data will return.
The size of pData buffer can be calculated as follows: 16 + 1 + 3 + nDataSize. For more information on how to calculate the nDataSize, refer to the ICC.1:2004-10 specification pages 48 or 51 in the www.color.org website.
Required DLLs and Libraries
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LTCLR For a listing of the exact DLLs and Libraries needed, based on the toolkit version, refer to Files To Be Included With Your Application. |
See Also
Example
/* This example fills an ICC_CLUT16 structure and then converts it into a buffer */
void CICCProfileDlg::OnConvertCLUTToBuffer()
{
LICCProfile ICCProfile;
L_UCHAR * dstBuffer;
ICC_CLUT16 iccCLUT16;
L_INT nCntr, nRet;
L_SSIZE_T nDataSize,
L_INT nDataSize, nCntr, nRet;
memset(&iccCLUT16, 0, sizeof(ICC_CLUT16));
// each data element in
// the pData pointer is 2 bytes in size
iccCLUT16.uPrecision = 2;
// the number of items in the grid points array is
// the number of input channels. If assume that
// the number of channels is 2
iccCLUT16.NumOfGridPoints[0] = 0;
iccCLUT16.NumOfGridPoints[1] = 1;
// the size of the data buffer is
// all the data in the NumOfGridPoints array, multiplied by
// the number of output channels, multiplied by the precision
nDataSize = 1;
for (nCntr = 0; nCntr < 2; nCntr++)
nDataSize = iccCLUT16.NumOfGridPoints[nCntr];
// assume 3 output channels
nDataSize *= 3 * iccCLUT16.uPrecision;
// allocate the data pointer
iccCLUT16.pData = (L_IccUInt16Number *) GlobalAllocPtr(GHND, nDataSize *sizeof(L_IccUInt16Number));
if (iccCLUT16.pData == NULL)
return;
// fill it with the needed information. For example, to clear it
memset(iccCLUT16.pData, 0, nDataSize);
// then add the byte count for the NumOfGridPoints and Precision and Pad bytes
nDataSize += 16 + 1 + 3;
// now allocate the destination buffer
dstBuffer = (L_UCHAR *) GlobalAllocPtr(GHND, nDataSize * sizeof(L_UCHAR));
if (dstBuffer == NULL)
return;
// after that call the conversion function
nRet = ICCProfile.ConvertCLUTToBuffer(dstBuffer, (L_VOID *) &iccCLUT16, iccCLUT16.uPrecision, nDataSize);
}
