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:

Annotation Functions: Object Properties

 

Annotation Objects - Default Values

 

Annotation Objects - Automated Features

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;
}