LAnnCurveClosed::GetPoints

#include "ltwrappr.h"

virtual L_INT LAnnCurveClosed::GetPoints(pPoints)

pANNPOINT pPoints;

/* pointer to the array */

Fills the specified array of ANNPOINT structures with the vertices of the annotation object. This function is available in the Document/Medical Toolkits.

Parameter

Description

pPoints

Pointer to the array that this function will fill with the vertices of the object.

Returns

SUCCESS

The function was successful.

< 1

An error occurred. Refer to Return Codes.

Comments

You can use the LAnnCurveClosed::GetPointCount function to determine the required size of the array before calling this function.

The ANNPOINT structure is like a Windows POINT structure, except that it uses double-precision floating point values.

Coordinates of an object's points are relative to its container object. The coordinates are interpreted using the container's scaling factors and offsets, which are described in Low-Level Coordinate System for Annotations.

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:

Class Members

Topics:

Annotation Functions: Getting and Setting Geometric Properties

 

Annotation Functions: Using Window Coordinates to Define an Object

Example

This example gets the points for an object, shrinks the object by 1/2

and then puts the points back to the object.

L_INT LAnnCurveClosed_GetPointsExample(HWND hwnd, LAnnContainer& LeadContainer, 
																			L_BOOL fDoubleClick, L_INT x, L_INT y, L_UINT keyFlags)
{
   UNREFERENCED_PARAMETER(keyFlags);
   UNREFERENCED_PARAMETER(fDoubleClick);
   UNREFERENCED_PARAMETER(hwnd);
   L_INT nRet;
   HANNOBJECT     hObject; // Local variable for the annotation object 
   POINT          PointToTest; // The point in the window's client area to test 
   L_UINT         TestResult; // Result of the test 
   pANNPOINT pPoints; // Pointer to the points in the object
   L_UINT  uCount;  // Number of points in the object 
   L_INT  i;
   ANNRECT rcDefine;// Defining rectangle for the object 
   L_DOUBLE cx; // Center x point
   L_DOUBLE cy; // Center y point
   LBuffer LeadBuffer ;
   ANNHITTESTINFO HitTestInfo; 
   memset(&HitTestInfo, 0, sizeof(ANNHITTESTINFO)); 
   HitTestInfo.uStructSize = sizeof(ANNHITTESTINFO); 
   
   // Did we hit an object? 
   // Use incoming coordinates to specify the point to test 
   PointToTest.x = x;
   PointToTest.y = y;
   // Get the object at the specified point 
   nRet = LeadContainer.HitTest( &PointToTest, &TestResult, &hObject, &HitTestInfo, sizeof(ANNHITTESTINFO));
   if(nRet != SUCCESS)
      return nRet;
   if ( TestResult == ANNHIT_BODY )
   {
      LAnnCurveClosed   LeadCurveClosed(hObject) ;
      // first, get the # of points in the object
      uCount = LeadCurveClosed.GetPointCount();
      LeadBuffer.Reallocate(sizeof(ANNPOINT) * uCount);
      pPoints = (pANNPOINT)LeadBuffer.Lock() ;
      // Now, get the points 
      nRet = LeadCurveClosed.GetPoints(pPoints);
      if(nRet != SUCCESS)
         return nRet;
      
      // Get the defining rect, and find the center point
      nRet = LeadCurveClosed.GetRect ( &rcDefine );
      if(nRet != SUCCESS)
         return nRet;
      cx = (rcDefine.right + rcDefine.left) / 2;
      cy = (rcDefine.bottom + rcDefine.top) / 2;
      for (i=0; i<(L_INT)uCount; i++)
      {
         pPoints[i].x += (cx - pPoints[i].x) / 2;
         pPoints[i].y += (cy - pPoints[i].y) / 2;
      }
      // Put the new points back into the object
      nRet = LeadCurveClosed.SetPoints ( pPoints, uCount);
      if(nRet != SUCCESS)
         return nRet;
      LeadBuffer.Unlock() ;
   }
   else
      return FAILURE; 
   return SUCCESS;
}