/*! \page create_plane_page Plane To create a \b Plane in the Main Menu select New Entity - > Basic - > Plane \n There are three algorithms to create a plane in the 3D space. \n The \b Result of each operation will be a GEOM_Object (face). \n Firstly, you can define a \b Plane by a \b Point through which the plane passes, a \b Vector giving a normal of the plane and a Size of the Plane (size of a side of quadrangle face, representing the plane). \n TUI Command: geompy.MakePlane(Point, Vector, TrimSize) \n Arguments: Name + 1 vertex + 1 vector + 1 value (to define the size of the plane). \image html plane1.png \n Secondly, you can define a \b Plane by three \b Points through which the plane passes and a Size of the Plane. \n TUI Command: geompy.MakePlaneThreePnt(Point1, Point2, Point3, TrimSize) \n Arguments: Name + 3 vertices + 1 value (to define the size of the plane). \image html plane2.png \n Also, you can define a \b Plane by another \b Plane or Face and a Size of the Plane. \n TUI Command: geompy.MakePlaneFace(Face, TrimSize) \n Arguments: Name + 1 face + 1 value (to define the size of the plane). \image html plane3.png \n Also, you can define a \b Plane by two Vectors. The first vector defines the center point and the direction, the second vector defines the normal to the Plane. \n TUI Command: geompy.MakePlane2Vec(Vec1, Vec2, TrimSize) \n Arguments: Name + 2 vectors + 1 value (to define the size of the plane). \image html plane4.png \n Finally, you can define a \b Plane by the Local Coordinate System and the orientation (OXY, OYZ, OZX). \n TUI Command: geompy.MakePlaneLCS(LCS, TrimSize, [1, 2, or 3]) \n Arguments: Name + LCS + 1 value (to define the size of the plane) + 1 value (to define the orientation) \image html plane5.png Examples: \image html planes1.png