LAnnAutomation::GetPointOptions
#include "ltwrappr.h"
virtual L_INT LAnnAutomation::GetPointOptions(pPointOptions, uStructSize)
pANNPOINTOPTIONS pPointOptions; |
/* pointer to an ANNPOINTOPTIONS structure that specifies various point options */ |
L_UINT uStructSize; |
/* Size in bytes, of the structure pointed to by pPointOptions, for versioning. Use sizeof(ANNPOINTOPTIONS). */ |
Gets the options for the specified Automation annotation object. This function is available in the Document/Medical Toolkits.
Parameter |
Description |
pPointOptions |
Pointer to an ANNPOINTOPTIONS structure to be updated with the various point appearance options for the specified annotation object. |
uStructSize |
Size in bytes, of the structure pointed to by pPointOptions, for versioning. Use sizeof(ANNPOINTOPTIONS). |
Returns
SUCCESS |
The function was successful. |
< 1 |
An error occurred. Refer to Return Codes. |
Comments
Use this function to get the point appearance options of an annotation automation object. To use this function, declare a variable a type ANNPOINTOPTIONS, and pass the address of this variable as the second argument. For more information, see the documentation for the structure ANNPOINTOPTIONS.
Required DLLs and Libraries
LTANN 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
Functions: |
LAnnPoint::GetPredefinedBitmap, LAnnEncrypt::GetEncryptOptions, LAnnEncrypt::SetEncryptOptions, Class Members |
Topics: |
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Example
// This example toggles the appearance of a point annotation object
// The appearance toggles between bitmap and circle
L_INT LAnnAutomation_GetPointOptionsExample(LAnnAutomation *pLAutomation) { L_INT nRet; HMETAFILE hMetafile1=0; HMETAFILE hMetafile2=0; ANNPOINTOPTIONS PointOptions; L_UINT uObjectType; UNREFERENCED_PARAMETER(hMetafile1); UNREFERENCED_PARAMETER(hMetafile2); uObjectType = pLAutomation->GetType(); if (uObjectType != ANNOBJECT_AUTOMATION) { MessageBox(NULL, TEXT("This object is not a point object."), TEXT("Error"), MB_OK); return FAILURE; } memset(&PointOptions, 0, sizeof(ANNPOINTOPTIONS)); PointOptions.uStructSize = sizeof(ANNPOINTOPTIONS); PointOptions.uFlags = ANNPOINT_ALL; nRet = pLAutomation->GetPointOptions(&PointOptions, sizeof(PointOptions)); if(nRet != SUCCESS) return nRet; if (PointOptions.bPointUseBitmap) { // Change point appearance to a circle PointOptions.uStructSize = sizeof(ANNPOINTOPTIONS); PointOptions.bPointUseBitmap = FALSE; PointOptions.bPointFixedSize = FALSE; PointOptions.bPointTransparentFill = FALSE; PointOptions.crPointBorderColor = RGB(0,0,0); PointOptions.crPointFillColor = RGB(255, 255, 0); PointOptions.nPointRadius = 12; PointOptions.nReserved = 0; PointOptions.uFlags = ANNPOINT_USE_BITMAP | ANNPOINT_RADIUS | ANNPOINT_BORDER_COLOR | ANNPOINT_FILL_COLOR | ANNPOINT_TRANSPARENT_FILL | ANNPOINT_FIXED_SIZE; } else { // Change point appearance to a bitmap PointOptions.uStructSize = sizeof(ANNPOINTOPTIONS); PointOptions.bPointUseBitmap = TRUE; PointOptions.bPointBitmapTransparent = TRUE; PointOptions.crPointBitmapTransparentColor = RGB(255,255,255); PointOptions.nReserved = 0; } nRet = pLAutomation->SetPointOptions(&PointOptions, 0); if(nRet != SUCCESS) return nRet; return SUCCESS; }