Class PolarGrid

All Implemented Interfaces:
Graph.Graphic, NamedObjectOps

public class PolarGrid extends AnimationObject2D
Class to create a polar grid.

Unlike many animation objects, a PolarGrid has an infinite size, but only the portion that is visible within a graph's dimensions will be drawn. To add a grid to a graph, use the graph's add method.

  • Constructor Details

  • Method Details

    • getRadialSpacing

      public double getRadialSpacing()
      Get the radial spacing. The radial spacing is the spacing between concentric circles drawn to show polar coordinates.
      Returns:
      the radial spacing in GCS (Graph Coordinate Space) units
    • getAngularSpacing

      public int getAngularSpacing()
      Get the angular spacing. The angular spacing is the spacing between adjacent radial lines drawn to show polar coordinates.
      Returns:
      the angular spacing in degrees.
    • hasFractionalOrigin

      public boolean hasFractionalOrigin()
      Determine if the origin is located by its fractional position. When true, getXOrigin() will return a fraction f such that the X origin is located at graph.getXLower()*(1.0-f) + graph.getXUpper()*f and getYOrigin() will return a faction f such that the Y origin is located at graph.getXLower()*(1.0-f) + graph.getXUpper()*f. When false, the x and y GCS (Graph Coordinate Space) coordinates of the origin are the values returned by getXOrigin() and getYOrigin() respectively.
      Returns:
      true if the origin's location is specified by its fractional position in the graph; false if the origin is located by its absolute position using GCS coordinates.
      See Also:
    • hasAbsoluteOrigin

      public boolean hasAbsoluteOrigin()
      Determine if the origin is located by its absolute position. When true, the x and y GCS (Graph Coordinate Space) coordinates of the origin are the values returned by getXOrigin() and getXOrigin() respectively. When false, getXOrigin() will return a fraction f such that the X origin on a graph is located at graph.getXLower()*(1.0-f) + graph.getXUpper()*f and getYOrigin() will return a faction f such that the Y origin is located at graph.getXLower()*(1.0-f) + graph.getXUpper()*f.
      Returns:
      true if the origin is located by its absolute position using GCS coordinates; false if the origin's location is specified by its fractional position in the graph
      See Also:
    • getXOrigin

      public double getXOrigin()
      Get the X origin for polar coordinates. The interpretation of the value returned depends on the value returned by hasFractionalOrigin() or hasAbsoluteOrigin(). When hasFractionalOrigin() returns true, the value returned is the fraction f such that the X origin on a graph is located at graph.getXLower()*(1.0-f) + graph.getXUpper()*f in graph coordinate space units. When hasAbsoluteOrigin() returns true, the value returned is the X coordinate of the origin in GCS units.
      Returns:
      the X origin.
    • getYOrigin

      public double getYOrigin()
      Get the Y origin for polar coordinates. The interpretation of the value returned depends on the value returned by hasFractionalOrigin() or hasAbsoluteOrigin(). When hasFractionalOrigin() returns true, the value returned is the fraction f such that the Y origin on a graph is located at graph.getYLower()*(1.0-f) + graph.getYUpper()*f in graph coordinate space units. When hasAbsoluteOrigin() returns true, the value returned is the Y coordinate of the origin in GCS units.
      Returns:
      the Y origin.
    • getColor

      public Color getColor()
      Get the color used to draw lines representing polar coordinates.
      Returns:
      the line color
    • setOrigin

      public void setOrigin(double xo, double yo, boolean fractional)
      Set the origin for polar coordinates. When fractional units are used, xo is a fraction f such that the X origin is located at graph.getXLower()*(1.0-f) + graph.getXUpper()*f and yo is a fraction f such that the Y origin is located at graph.getYLower()*(1.0-f) + graph.getYUpper()*f. When absolute units are used, (xo, yo) is the location of the polar coordinate system's origin in GCS.
      Parameters:
      xo - a fraction in the range [0,1] giving the X coordinate of the origin as a fraction of the value between graph.getXLower() and garph.getXUpper() when the argument fractional is true; the X coordinate in GCS units when the argument fractional is false
      yo - a fraction in the range [0,1] giving the Y coordinate of the origin as a fraction of the value between graph.getXLower() and garph.getXUpper() when the argument fractional is true; the X coordinate in GCS units when the argument fractional is false
      fractional - true if fractional units are used; false if absolute units are used
    • setColor

      public void setColor(Color lineColor)
      Set the color used to draw lines representing polar coordinates.
      Parameters:
      lineColor - the line color; null for a default
    • getStrokeWidth

      public double getStrokeWidth()
      Get the width of the stroke used to draw grid lines.
      Returns:
      the stroke width
    • setStrokeWidth

      public void setStrokeWidth(double strokeWidth)
      Set the width of the stroke used to draw grid lines.
      Parameters:
      strokeWidth - the stroke width; 0.0 or negative for a default
    • setRadialSpacing

      public void setRadialSpacing(double spacing)
      Set the radial spacing for the circles used to represent polar coordinates.
      Parameters:
      spacing - the radial spacing in GCS units; 0.0 or negative for the default behavior
    • setAngularSpacing

      public void setAngularSpacing(int spacing)
      Set the angular spacing between radial lines used to represent polar coordinates. This value, when multiplied by 2, 3, or 5, should be a divisor of 90.
      Parameters:
      spacing - the angle in degrees
    • addTo

      public void addTo(Graph g, Graphics2D g2d, Graphics2D g2dGCS)
      Description copied from interface: Graph.Graphic
      Add this object to a graph. The drawing operation is assumed to be a complex one that might involve fills, etc.

      Any modifications to g2d or g2dGCS made by an implementation of this method should be undone before this method returns. For classes provided by the org.bzdev.anim2d package, such modifications must be undone before this method returns.

      Two graphics contexts are provided as arguments. g2d will typically be used as the first argument to the graph's draw or fill methods. In this case, the shape of an object is described in graph coordinate space but the widths of strokes drawn by fill operations, gradient paint, etc., have user-space units. The result is that line widths as they appear in an image are not sensitive to the mapping from graph coordinate space to user space. One should use the draw and fill methods specified by Graph, using g2d as their first argument. By contrast, if a line width, etc., should be in graph-coordinate space units, one can use the g2dGCS argument directly. This will rarely be done when plotting a graph but is useful in animations.

      Parameters:
      g - the graph on which this object should be drawn
      g2d - the user-space Graphics2D to use to draw the Graphic
      g2dGCS - the graph-coordinate space Graphics2D to use to draw the Graphic
    • clone

      protected Object clone() throws CloneNotSupportedException
      Creates and returns a copy of this object. This method will throw the exception CloneNotSupportedException if the object is interned.
      Overrides:
      clone in class Object
      Throws:
      CloneNotSupportedException - a clone could not be created
      See Also:
    • isInterned

      public boolean isInterned()
      Determine if an object is interned in a object namer's tables.
      Specified by:
      isInterned in interface NamedObjectOps
      Returns:
      true if the object is interned; false if not
    • getObjectNamer

      protected Simulation getObjectNamer()
      Get the object namer for a named object.
      Returns:
      the object namer for this named object
    • getName

      public final String getName()
      Get an object's name.
      Specified by:
      getName in interface NamedObjectOps
      Returns:
      the name of the object
    • canDelete

      public boolean canDelete()
      Determine if this named object can be deleted. A named object can be deleted if the method delete has not been called and if the object is not in a state that prevents the object from being deleted. Subclasses that override this method must call canDelete() for their superclasses and return false if the superclass' canDelete method returns false. The default method returns true if delete() has not been called and returned true.
      Specified by:
      canDelete in interface NamedObjectOps
      Returns:
      true if this object can be deleted; false otherwise
    • delete

      public final boolean delete()
      Delete an object. An object can only be deleted once. If this method returns true, the object (if interned) will have been removed from the object namer tables.

      The implementations provided by DefaultNamedObect and generated because of a @NamedObject annotation provide a protected method named onDelete. A subclass that overrides onDelete() must call the onDelete method of its superclass after it's onDelete method has been called and any cleanup actions performed. In some cases, this may happen at a later time (e.g., if a thread is used for some of the cleanup operations or if it is otherwise necessary to wait).

      Specified by:
      delete in interface NamedObjectOps
      Returns:
      true if the deletion request was accepted; false otherwise
    • isDeleted

      public final boolean isDeleted()
      Determine if an object has been deleted. An object is deleted if the method delete() has been called and returned true.
      Specified by:
      isDeleted in interface NamedObjectOps
      Returns:
      true if deleted; false otherwise
    • deletePending

      public final boolean deletePending()
      Determine if an object is being deleted. An deletion is pending if the method delete() has been called and returned true but the deletion has not been completed.
      Specified by:
      deletePending in interface NamedObjectOps
      Returns:
      true if deletion is pending; false otherwise