Converts a LEAD Technologies vector handle into an enhanced Windows metafile (EMF). When this function is completed, there are two copies of the drawing in memory: the EMF and the original LEAD vector. Freeing one will not affect the other.
#include "ltvkrn.h"
L_LVKRN_API L_HENHMETAFILE L_VecConvertToEMF(hDC, pVector, pRect, uDPI)
Handle to the device context responsible for the conversion.
Pointer to a vector handle that references the vector image to be converted.
Points to a RECT structure that specifies the dimensions (in .01-millimeter units) of the picture to be stored in the enhanced metafile. If this parameter is NULL, the vector toolkit computes the dimensions of the smallest rectangle that surrounds the vector drawing. The pRect parameter should be provided where possible.
Dots per inch that will be used in the conversion.
Value | Meaning |
---|---|
!NULL | A handle to the EMF. |
NULL | An error occurred. |
This function allocates an EMF handle and copies the LEAD vector to the EMF.
If this function is called with pRect containing these values:
pRect->left = 0;
pRect->top = 0;
pRect->right = 1000;
pRect->bottom = 1000;
This is very helpful when printing. For example, determine the printers printable area in millimeters. Divide that value by 100 and pass the resulting value as the right and bottom members of the RECT structure. The resulting EMF will have the same logical size as the printer, resulting in high image quality when printing the EMF file.
This example loads a vector drawing,
converts it to an enhanced meta file and returns the handle to the EMF.
L_LTVKRNTEX_API HENHMETAFILE VecConvertToEMFExample(
HWND hWnd,
L_TCHAR* pszFile,
L_INT* nRet)
{
VECTORHANDLE TmpVector; /* Vector handle for initial loading */
HENHMETAFILE hEMF; /* Handle to enhanced meta file */
HDC hDC; /* Load the drawing */
*nRet = L_VecLoadFile ( pszFile, &TmpVector, NULL, NULL );
if(*nRet != SUCCESS)
return NULL;
/* Convert to EMF */
hDC = GetDC( hWnd );
hEMF = L_VecConvertToEMF(hDC, &TmpVector, NULL, 96 );
ReleaseDC( hWnd, hDC );
if (hEMF != NULL)
{
/* Free the vector */
*nRet = L_VecFree( &TmpVector );
return hEMF;
}
*nRet = FAILURE;
return NULL;
}