LEADTOOLS Raster imaging C++ Class library help
| LEADTOOLS Raster Imaging C++ Class Library Help > Classes and Member Functions > LBitmap > LBitmap Member Functions > LBitmap::RemapIntensity |
#include "ltwrappr.h"
virtual L_INT LBitmap::RemapIntensity(pLUT, uLUTLen, uFlags)
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L_INT * pLUT; |
/* table of uLUTLen integers containing lookup values */ |
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L_UINT uLUTLen; |
/* length of the lookup table */ |
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L_UINT uFlags; |
/* flag that indicates the color channel to be affected */ |
Uses a lookup table to change the class object's bitmap intensity values. You can apply the change to red, green, blue, or all color channels.
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Parameter |
Description |
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pLUT |
Table of uLUTLen integers containing lookup values. |
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uLUTLen |
Length of the lookup table. Possible values are: |
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If the REMAP_NORMAL flag is used in the uFlags parameter |
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2^(HighBit - LowBit + 1) |
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If the REMAP_NORMAL flag is not used in the uFlags parameter |
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Value |
Meaning |
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65536 |
16-bit / sample image |
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4096 |
12-bit / sample image |
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256 |
8-bit / sample image |
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uFlags |
Flags that indicate: |
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You can combine values of each group when appropriate by using a bitwise OR ( | ). The following are valid values: |
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Flags indicate the color plane to update: |
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Value |
Meaning |
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CHANNEL_MASTER |
[0] All channels. |
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CHANNEL_RED |
[1] Red channel only. |
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CHANNEL_GREEN |
[2] Green channel only. |
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CHANNEL_BLUE |
[3] Blue channel only. |
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Flag indicates whether to change the high bit or not: |
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REMAP_CHANGEHIGHBIT |
[0x0010] Change the high bit of the bitmap (pBitmap->HighBit) according to the used data in the pLUT. |
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Flag indicates whether pLUT contains normal data: |
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REMAP_NORMAL |
[0x0100] The data in the pLUT is normal data, in this case the uLUTLen should be equal to 2^(HighBit - LowBit + 1). |
Returns
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SUCCESS |
The function was successful. |
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< 1 |
An error occurred. Refer to Return Codes. |
Comments
The current intensity values correspond to the table indexes. The values of the entries are the new values to be applied.
This function supports 12 and 16-bit grayscale and 48 and 64-bit color images. Support for 12 and 16-bit grayscale and 48 and 64-bit color images is available only in the Document/Medical toolkits.
The bitmap intensity level range depends on the resolution of the image. For 64-bit, 48-bit, and 16-bit bitmaps, the intensity levels range form 0 to 2^16-1. For 12-bit bitmaps, the intensity levels range from 0 to 2^12-1. For other resolutions, the intensity levels range from 0 to 255.
Be sure that pLUT contains the number of the bitmap intensity levels. For example if the bitmap is 16-bit (the maximum bitmap intensity level is 2^16 1).
This function can be used to implement end user features such as Photoshop Curves.
To update a status bar or detect a user interrupt during execution of this function, refer to LBase::EnableStatusCallback.
This function supports signed data images.
This function does not support 32-bit grayscale images. It returns the error code ERROR_GRAY32_UNSUPPORTED if a 32-bit grayscale image is passed to this function.
Required DLLs and Libraries
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LTDIS For a listing of the exact DLLs and Libraries needed, based on the toolkit version, refer to Files To Be Included With Your Application. |
Win32, x64.
See Also
Example
L_INT LBitmap__RemapIntensityExample(LBitmap & Bitmap, L_TCHAR * pszFile)
{
L_INT nRet;
L_UINT LookupTable[256];
nRet =Bitmap.Load(pszFile);
if(nRet !=SUCCESS)
return nRet;
LookupTable[0] = 255;
LookupTable[255] = 0;
nRet =Bitmap.GetFunctionalLookupTable((L_INT*)LookupTable, 256, 0, 255, 0,
FLT_LINEAR);
if(nRet !=SUCCESS)
return nRet;
nRet =Bitmap.RemapIntensity((L_INT*)LookupTable, 256, CHANNEL_MASTER);
if(nRet !=SUCCESS)
return nRet;
return SUCCESS;
}
L_INT LBitmap__RemapIntensity_Signed_Example(LBitmap & Bitmap)
{
L_INT nRet;
L_INT * pLookupTable = NULL; /* Array to hold lookup table*/
L_INT nMaxValue, nMinValue;
L_INT nLutLen;
nLutLen = 1 << (Bitmap.GetHandle()->HighBit - Bitmap.GetHandle()->LowBit + 1);//Get the real LUT length
if(!Bitmap.GetHandle()->Flags.Signed)
return FAILURE; //The image should be signed
nMinValue = -1 * nLutLen/2; //This is the lowest expected value.
nMaxValue = nLutLen/2 - 1; //This is the highest expected value.
pLookupTable = (L_INT *) malloc(nLutLen * sizeof(L_INT));
if(pLookupTable == NULL)
return ERROR_NO_MEMORY;
memset(pLookupTable, 0, nLutLen * sizeof(L_INT));
/*Get Lookup table where the array calculated by the linear function for all the items of the array is from 0 - nLutLen*/
if(nMinValue < 0)
pLookupTable[nMinValue + nLutLen] = nLutLen/2 - 1;
else
pLookupTable[nMinValue] = nLutLen/2 - 1;
if(nMaxValue < 0)
pLookupTable[nMaxValue + nLutLen] = -1 * nLutLen/2;
else
pLookupTable[nMaxValue] = -1 * nLutLen/2;
//Generate a negative LUT.
nRet = Bitmap.GetFunctionalLookupTable(pLookupTable, nLutLen, -1 * nLutLen/2, nLutLen/2 - 1, 1, FLT_LINEAR|FLT_SIGNED);
if(nRet !=SUCCESS)
return nRet;
//Invert the Image.
nRet = Bitmap.RemapIntensity(pLookupTable, (L_UINT)nLutLen, CHANNEL_MASTER|REMAP_NORMAL);
if(nRet !=SUCCESS)
return nRet;
return SUCCESS;
}
