L_WatershedBitmap

#include "ltimgcor.h"

L_LTIMGCOR_API L_INT L_WatershedBitmap(pBitmap, ppPoints, pLengths, nSize)

Separates the image into different segments using the Watershed algorithm.

Parameters

pBITMAPHANDLE pBitmap

Pointer to the bitmap handle.

L_POINT** ppPoints

Holds the initial point/path that represents the point or path from which to segment the bitmap.

L_INT* pLengths

Number of points in each path.

L_INT nSize

Number of paths.

Returns

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

Comments

Each segment's pixels have the same color. The Watershed algorithm treats an image as if it were a topographic surface.

The dark areas are basins. The light areas are the ridges around the basins.

The user is responsible for determining the number of output segments and the location of each segment in the input array.

This function supports 8- and 16-bit grayscale and colored images and 24- and 32-bit colored images.

This function does not support 32-bit grayscale images.

This function supports signed/unsigned images.

Required DLLs and Libraries

Platforms

Win32, x64, Linux.

See Also

Functions

Topics

Example

This example loads a bitmap and applies Watershed segmentation.

L_INT WatershedBitmapExample(L_VOID) 
{ 
    L_INT nRet; 
    BITMAPHANDLE LeadBitmap;   /* Bitmap handle to hold the loaded image. */ 
    /* Load the bitmap, keeping the bits per pixel of the file */ 
    nRet = L_LoadBitmap (MAKE_IMAGE_PATH(TEXT("IMAGE3.dcm")), &LeadBitmap, sizeof(BITMAPHANDLE), 0, ORDER_BGR, NULL, NULL); 
    if(nRet !=SUCCESS) 
        return nRet; 
 
    /* Apply a WatershedBitmap filter */ 
    L_POINT* ppPoints[4] = {} ; 
    L_INT Lengths[4]  = {} ; 
    L_INT nSize = 4 ; 
 
    for(L_INT i = 0 ; i < nSize; i++) 
    { 
        Lengths[i]  = 2 ; 
        ppPoints[i] = (L_POINT*) malloc(Lengths[i]*sizeof(L_POINT)); 
        if ( ppPoints[i] == NULL ) 
        { 
            for( L_INT j = 0 ; j < nSize ; j++ ) 
            { 
                if ( ppPoints[j] != NULL ) 
                { 
                    free(ppPoints[j]) ; 
                } 
            } 
 
            if(LeadBitmap.Flags.Allocated) 
                L_FreeBitmap(&LeadBitmap); 
 
            return ERROR_NOT_ENOUGH_MEMORY ; 
        } 
    } 
 
    ppPoints[0][0].x = 35 ; ppPoints[0][0].y = 100 ; 
    ppPoints[0][1].x = 35 ; ppPoints[0][1].y = 200 ; 
 
    ppPoints[1][0].x = 180 ; ppPoints[1][0].y = 115 ; 
    ppPoints[1][1].x = 300 ; ppPoints[1][1].y = 115 ; 
 
    ppPoints[2][0].x = 235 ; ppPoints[2][0].y = 220 ; 
    ppPoints[2][1].x = 260 ; ppPoints[2][1].y = 220 ; 
 
    ppPoints[3][0].x = 180 ; ppPoints[3][0].y = 330 ; 
    ppPoints[3][1].x = 350 ; ppPoints[3][1].y = 330 ; 
 
    nRet = L_WatershedBitmap(&LeadBitmap, ppPoints, Lengths, nSize); 
 
    for( L_INT j = 0 ; j < nSize ; j++ ) 
    { 
        free(ppPoints[j]) ; 
    } 
 
    if(nRet == SUCCESS) 
        nRet = L_SaveBitmap(MAKE_IMAGE_PATH(TEXT("Result.BMP")), &LeadBitmap, FILE_BMP, 24, 0, NULL); 
 
    //free bitmap 
    if(LeadBitmap.Flags.Allocated) 
        L_FreeBitmap(&LeadBitmap) ; 
 
    return nRet ; 
} 

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