will be removed.
\n <b>Arguments:</b> Name + one or several objects + End Coordinate System.
\n <b>Advanced option:</b>
- \ref restore_presentation_parameters_page "Set presentation parameters and subshapes from arguments".
+\ref restore_presentation_parameters_page "Set presentation parameters and subshapes from arguments".
\image html transformation5.png
is to the right and the modified cube with the Local Coordinate
System in the center of it is to the left .
-\image html image30.gif
+\image html image30.png
\n The second algorithm modifies the location of an object using Start
and End LSC, although the final position of the object will not
\n <b>Arguments:</b> Name + one or several objects + Start Coordinate System + End
Coordinate System.
\n <b>Advanced option:</b>
- \ref restore_presentation_parameters_page "Set presentation parameters and subshapes from arguments".
+\ref restore_presentation_parameters_page "Set presentation parameters and subshapes from arguments".
\image html transformation6.png
system and two LCS: LocalCS1 (GCS+100 along x-axis) and LocalCS2
(GCS+200 along x-axis)
-\image html image1.gif
+\image html image1.png
Selecting Start LCS = LCS1 and End LCS = LCS2, we obtain the
translated cube at the position (100;0;0)
-\image html image2.gif
+\image html image21.png
Selecting Start LCS = LCS2 and End LCS = LCS1, we obtain the
translated cube at the position (-100;0;0)
-\image html image4.gif
+\image html image4.png
The third algorithm modifies the location of an object using the Path object (Wire or Edge)
and the Distance parameter (ranging from 0 to 1) defining how far the object will move along the path.
<b>Arguments:</b> Name + one or several objects + Translation path.
\n <b>Advanced option:</b>
- \ref restore_presentation_parameters_page "Set presentation
- parameters and subshapes from arguments".
+\ref restore_presentation_parameters_page "Set presentation parameters and subshapes from arguments".
\image html transformation13.png