L_AnnCalibrateRulerSuccessive

#include "l_bitmap.h"

L_LTANN_API L_INT L_AnnCalibrateRulerSuccessive (hObject, dCalibrateLength, uCalibrateUnit)

HANNOBJECT hObject;

/* handle to an ANNOBJECT_RULER object */

L_DOUBLE dCalibrateLength;

/* length to assign to the ruler */

L_UINT uCalibrateUnit;

/* units of the length */

Calibrates an ANNOBJECT_RULER annotation object.

Parameter

Description

hObject

Handle to an ANNOBJECT_RULER object.

dCalibrateLength

Length to be assigned to the ruler.

uCalibrateUnit

Units of the length. Possible values are:

 

Value

Meaning

 

ANNUNIT_INCHES

[0] Inches.

 

ANNUNIT_FEET

[1] Feet.

 

ANNUNIT_YARDS

[2] Yards.

 

ANNUNIT_MICROMETERS

[3] Micrometers.

 

ANNUNIT_MILLIMETERS

[4] Millimeters.

 

ANNUNIT_CENTIMETERS

[5] Centimeters.

 

ANNUNIT_METERS

[6] Meters.

Returns

SUCCESS

The function was successful.

< 1

An error occurred. Refer to Return Codes.

Comments

Use this function in conjunction with L_AnnCalibrateRuler to calibrate an ANNOBJECT_RULER object. This function is used to assign any existing ANNOBJECT_RULER object to a specific length.

Note that this function only works on ANNOBJECT_RULER objects, but can be used to indirectly calibrate other objects.

Calibrating the ANNOBJECT_RULER annotation object can be accomplished in two different ways:

1. Specifying one ruler length and a DPI ratio.  This is accomplished by calling L_AnnCalibrateRuler. For more on the DPI ratio, see the L_AnnCalibrateRuler.

2. Specifying two ruler lengths.  This is accomplished first by calling L_AnnCalibrateRuler (specifying 1.0 for the dDpiRatioXtoY parameter), changing the orientation of the ruler, and then calling L_AnnCalibrateRulerSuccessive.  Typically, this method is used when a user wants to calibrate a ruler by a horizontal calibration, followed by a vertical calibration.  Note that when using this method, the two ruler calibrations can be on ruler(s) of ANY angle.  The only requirement the two calibrations must be on rulers that do not have the same orientation (angle between the ruler and the X-axis).

While this function only works on ANNOBJECT_RULER objects, it can be used indirectly to calibrate any or all ruler objects, including ANNOBJECT_POLYRULER, ANNOBJECT_CROSSPRODUCT, and ANNOBJECT_POLYRULER. To do this, calibrate an ANNOBJECT_RULER object, get the resulting resolutions, and assign this resolution to all objects in the container. The example illustrates how to do this.

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.

Platforms

Win32, x64.

See Also

Functions:

L_AnnCalibrateRuler L_AnnGetBitmapDpiX, L_AnnGetBitmapDpiY, L_AnnSetBitmapDpiX, L_AnnSetBitmapDpiY, L_AnnSetUnit, L_AnnGetUnit, L_AnnGetDistance, L_AnnGetDistance2, L_AnnSetOptions, L_AnnGetOptions

Topics:

Calibrating Annotation Ruler Objects

 

Annotation Functions:Getting and Setting Ruler Properties

 

Annotation Features

Example

This example calibrates all annotation ruler objects without specifying a DPI Ratio. This is done by calibrating a ruler twice. The first calibration is horizontal, 200 pixels in length, and with the width set to 2 inches. The second calibration is vertical, 200 pixels in length, and with the width set to have a length of 1 inch. The resulting rulers have a horizontal resolution of 100, and a vertical resolution of 200.

 L_INT AnnCalibrateRulerSuccessiveExample(HANNOBJECT hContainer,
                                                         HANNOBJECT hAutomation)
{
   L_INT    nRet = SUCCESS;
   HANNOBJECT hRuler = 0;

   // Create the ruler -- set it horizontal, length of 200 pixels
   L_AnnCreate(ANNOBJECT_RULER, &hRuler);
   ANNPOINT aptH[2] = {100,100, 300, 100};
   L_AnnSetPoints(hRuler, aptH, 2);
   L_AnnInsert(hContainer, hRuler, FALSE);

   // Calibrate the horizontal ruler for a length of two inches
   L_AnnCalibrateRuler(hRuler, 2, ANNUNIT_INCHES, 1.0);  // it does not matter what is passed for the last argument

   // Move the ruler so that it is vertical
   ANNPOINT aptV[2] = {100,100,100,300};
   L_AnnSetPoints(hRuler, aptV, 2);

  // Calibrate the vertical ruler for a length of one inch
   L_AnnCalibrateRulerSuccessive(hRuler, 1, ANNUNIT_INCHES);  // it does not matter what is passed for the last argument

   L_DOUBLE dDpiX = 0;
   L_DOUBLE dDpiY = 0;
   nRet = L_AnnGetBitmapDpiX (hRuler, &dDpiX); 
   if(nRet != SUCCESS)
      return nRet;
   nRet = L_AnnGetBitmapDpiY (hRuler, &dDpiY); 
   if(nRet != SUCCESS)
      return nRet;
  
   MessageBox(NULL, TEXT("Now all existing and newly created ruler objects will be matched to this calibration."), TEXT("Notice"), MB_OK); 


   // Match calibration to existing objects in container
   nRet = L_AnnSetBitmapDpiX(hContainer, dDpiX, ANNFLAG_RECURSE); 
   if(nRet != SUCCESS)
      return nRet;
   nRet = L_AnnSetBitmapDpiY(hContainer, dDpiY, ANNFLAG_RECURSE); 
   if(nRet != SUCCESS)
      return nRet;

   // Set automation defaults so that all newly created objects have this calibration
   nRet = L_AnnSetBitmapDpiX(hAutomation, dDpiX, ANNFLAG_RECURSE); 
   if(nRet != SUCCESS)
      return nRet;
   nRet = L_AnnSetBitmapDpiY(hAutomation, dDpiY, ANNFLAG_RECURSE); 
   if(nRet != SUCCESS)
      return nRet;
   return SUCCESS;
}