L_HolePunchRemoveBitmap
#include "l_bitmap.h"
L_LTIMGCOR_API L_INT L_HolePunchRemoveBitmap(pBitmap, pHolePunch, pfnCallback, pUserData, uFlags)
pBITMAPHANDLE pBitmap; |
/* pointer to the bitmap */ |
pHOLEPUNCH pHolePunch; |
/* pointer to a structure */ |
HOLEPUNCHREMOVECALLBACK pfnCallback; |
/* optional callback function */ |
L_VOID *pUserData; |
/* pointer to more parameters for the callback */ |
L_UINT32 uFlags; |
/* flags */ |
Finds and removes hole punches.
Parameter |
Description |
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pBitmap |
Pointer to the bitmap handle referencing the bitmap from which to remove hole punches. |
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pHolePunch |
Pointer to the HOLEPUNCH structure that LEADTOOLS uses to remove hole punches. |
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pfnCallback |
Optional callback function for additional processing. |
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The callback function must adhere to the function prototype described in HOLEPUNCHREMOVECALLBACK Function. |
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pUserData |
Void pointer that you can use to pass one or more additional parameters that the callback function needs. |
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To use this feature, assign a value to a variable or create a structure that contains as many fields as you need. Then, in this parameter, pass the address of the variable or structure, casting it to L_VOID *. The callback function, which receives the address in its own pUserData parameter, can cast it to a pointer of the appropriate data type to access your variable or structure. |
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If the additional parameters are not needed, you can pass NULL in this parameter. |
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uFlags |
A flag that determine the method used to detect the Hole punch, possible values are: |
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Flags |
Meaning |
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HOLEPUNCH_NORMAL_DETECTION |
[0x00000000] Use Normal Hole Punch Detection |
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HOLEPUNCH_ADVANCED_DETECTION |
[0x00010000] Use Advanced Hole Punch Detection to return more accurate results |
Returns
SUCCESS |
The function was successful. |
< 1 |
An error occurred. Refer to Return Codes. |
Comments
This function detects and removes hole punch marks that are common in scanned documents.
The behavior of this function can be modified by overriding HOLEPUNCHREMOVECALLBACK.
This function does not support signed data images. It returns the error code ERROR_SIGNED_DATA_NOT_SUPPORTED if a signed data image is passed to this function.
This function works only on 1-bit black and white 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.
Hole punch configurations may consist of 2 or more holes.
If a region is selected, only the selected region will be changed by this function. If no region is selected, the whole image will be processed.
Before calling this function, ensure that the hole punch is free of any other stray marks. If you do not, L_HolePunchRemoveBitmap will not recognize the hole.
For example, this image must have the vertical line removed. You can use L_LineRemoveBitmap to remove any horizontal or vertical lines from the image. Use other Document Cleanup functions to remove other imaging artifacts such as dots, blobs, borders, inverted text, bumps and nicks. This will have the added benefit of making your image smaller when compressed. | |
Once cleaned, L_HolePunchRemoveBitmap will be able to identify and remove the hole punch mark.
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Required DLLs and Libraries
LTIMGCOR 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
Win32, x64.
See Also
Example
This example returns a windows region corresponding to hole punches. For the example, a windows region is returned and converted to a LEAD region but in practice it would easier and faster to just return a LEAD region. The HOLEPUNCH_USE_DPI flag instructs the API to determine the size of the hole punches based on the image DPI The image is modified. A callback is used to display information about each hole punch removed. The callback does NOT return a region.
#if defined (LEADTOOLS_V16_OR_LATER) L_INT EXT_CALLBACK HolePunchRemoveCB(HRGN hRgn, PRECT pBoundingRect, L_INT32 iHoleIndex, L_INT32 iHoleTotalCount, L_INT32 iWhiteCount, L_INT32 iBlackCount, L_VOID* pUserData) { UNREFERENCED_PARAMETER(pUserData); L_TCHAR szMsg[200]; RECT rcRect; GetRgnBox(hRgn, &rcRect); wsprintf( szMsg, TEXT("Region Bounds: left=%d, right=%d, top=%d, bottom=%d \n"), rcRect.left, rcRect.right, rcRect.top, rcRect.bottom); OutputDebugString(szMsg); DeleteObject(hRgn); wsprintf(szMsg, TEXT("Bounds[%d,%d][%d,%d]\tHole[%d] of [%d]\tWhiteCount[%d]\tBlackCount[%d]\n"), pBoundingRect->left, pBoundingRect->top, pBoundingRect->right, pBoundingRect->bottom, iHoleIndex, iHoleTotalCount, iWhiteCount, iBlackCount); OutputDebugString(szMsg); return SUCCESS_REMOVE; } L_INT HolePunchRemoveBitmapExample(pBITMAPHANDLE pBitmap) { L_INT32 nRet; HOLEPUNCH hr; BITMAPHANDLE BitmapRegion; memset(&BitmapRegion, 0, sizeof(BITMAPHANDLE)); hr.uStructSize = sizeof(HOLEPUNCH); hr.iLocation = HOLEPUNCH_LEFT; hr.iMinHoleCount = 2; hr.iMaxHoleCount = 4; hr.pBitmapRegion = &BitmapRegion; hr.uBitmapStructSize = sizeof(BITMAPHANDLE); hr.uFlags = HOLEPUNCH_SINGLE_REGION | HOLEPUNCH_USE_DPI | HOLEPUNCH_USE_COUNT | HOLEPUNCH_USE_LOCATION | HOLEPUNCH_CALLBACK_REGION; nRet = L_HolePunchRemoveBitmap( pBitmap, &hr, HolePunchRemoveCB, NULL, 0); if (nRet == SUCCESS) { RECT rectRgn; GetRgnBox(hr.hRgn, &rectRgn); if (!IsRectEmpty(&rectRgn)) { L_SetBitmapRgnHandle(pBitmap, NULL, hr.hRgn, L_RGN_SET); DeleteObject(hr.hRgn); hr.hRgn = NULL; } } else { return nRet; } return SUCCESS; } #else L_INT EXT_CALLBACK HolePunchRemoveCB(HRGN hRgn, PRECT pBoundingRect, L_INT32 iHoleIndex, L_INT32 iHoleTotalCount, L_INT32 iWhiteCount, L_INT32 iBlackCount, L_VOID* pUserData) { UNREFERENCED_PARAMETER(pUserData); L_TCHAR szMsg[200]; RECT rcRect; GetRgnBox(hRgn, &rcRect); wsprintf( szMsg, TEXT("Region Bounds: left=%d, right=%d, top=%d, bottom=%d \n"), rcRect.left, rcRect.right, rcRect.top, rcRect.bottom); OutputDebugString(szMsg); DeleteObject(hRgn); wsprintf(szMsg, TEXT("Bounds[%d,%d][%d,%d]\tHole[%d] of [%d]\tWhiteCount[%d]\tBlackCount[%d]\n"), pBoundingRect->left, pBoundingRect->top, pBoundingRect->right, pBoundingRect->bottom, iHoleIndex, iHoleTotalCount, iWhiteCount, iBlackCount); OutputDebugString(szMsg); return SUCCESS_REMOVE; } L_INT HolePunchRemoveBitmapExample(pBITMAPHANDLE pBitmap) { L_INT32 nRet; HOLEPUNCH hr; BITMAPHANDLE BitmapRegion; memset(&BitmapRegion, 0, sizeof(BITMAPHANDLE)); hr.uStructSize = sizeof(HOLEPUNCH); hr.iLocation = HOLEPUNCH_LEFT; hr.iMinHoleCount = 2; hr.iMaxHoleCount = 4; hr.pBitmapRegion = &BitmapRegion; hr.uBitmapStructSize = sizeof(BITMAPHANDLE); hr.uFlags = HOLEPUNCH_SINGLE_REGION | HOLEPUNCH_USE_DPI | HOLEPUNCH_USE_COUNT | HOLEPUNCH_USE_LOCATION | HOLEPUNCH_CALLBACK_REGION; nRet = L_HolePunchRemoveBitmap( pBitmap, &hr, HolePunchRemoveCB, NULL); if (nRet == SUCCESS) { RECT rectRgn; GetRgnBox(hr.hRgn, &rectRgn); if (!IsRectEmpty(&rectRgn)) { L_SetBitmapRgnHandle(pBitmap, NULL, hr.hRgn, L_RGN_SET); DeleteObject(hr.hRgn); hr.hRgn = NULL; } } else { return nRet; } return SUCCESS; } #endif // LEADTOOLS_V16_OR_LATER