Package VASSAL.counters

Class MultiLocationCommand

java.lang.Object
VASSAL.search.AbstractImageFinder
VASSAL.counters.Decorator
VASSAL.counters.MultiLocationCommand
All Implemented Interfaces:
PropertyNameSource, PropertySource, EditablePiece, GamePiece, PropertyExporter, StateMergeable, TranslatablePiece, PersistentPropertyContainer, Auditable, ImageSearchTarget, SearchTarget
public class MultiLocationCommand extends Decorator implements TranslatablePiece
Allows a single trait to generate multiple context menu commands, using a set of filtered map locations. The same key command is generated by any of these context menu commands, which can then be distinguished using the provided properties.

  • Field Details

  • Constructor Details

    • MultiLocationCommand

      public MultiLocationCommand()

    • MultiLocationCommand

      public MultiLocationCommand(String type, GamePiece inner)

  • Method Details

    • mySetType

      public void mySetType(String type)
      Description copied from interface: EditablePiece
      Sets the information for this piece. See Decorator.myGetType()
      Specified by:
      mySetType in interface EditablePiece
      Parameters:
      type - a serialized configuration string to set the "type information" of this piece, which is information that doesn't change during the course of a single game (e.g. Image Files, Context Menu strings, etc). Typically ready to be processed e.g. by SequenceEncoder.decode()

    • myGetType

      public String myGetType()
      Description copied from class: Decorator
      The "type information" of a piece or trait is information that does not change during the course of a game. Image file names, context menu strings, etc., all should be reflected in the type. The type information is returned serialized string form, ready to be decoded by a SequenceEncoder#decode.
      Specified by:
      myGetType in class Decorator
      Returns:
      the type information of this trait alone
      See Also:

    • mySetState

      public void mySetState(String newState)
      Description copied from class: Decorator
      Sets the state of this-trait-only (inverse of Decorator.myGetState()). The "state information" is information that can change during the course of a game. State information is saved when the game is saved and is transferred between players on the server. For example, the relative order of pieces in a stack is state information, but whether the stack is expanded is not.
      Specified by:
      mySetState in class Decorator
      Parameters:
      newState - New state information serialized in string form, ready to be passed to a SequenceEncoder#decode.

    • draw

      public void draw(Graphics g, int x, int y, Component obs, double zoom)
      Description copied from interface: GamePiece
      Draw this GamePiece
      Specified by:
      draw in interface GamePiece
      Parameters:
      g - target Graphics object
      x - x-location of the center of the piece
      y - y-location of the center of the piece
      obs - the Component on which this piece is being drawn
      zoom - the scaling factor.

    • getShape

      public Shape getShape()
      Specified by:
      getShape in interface GamePiece
      Returns:
      The shape of the piece from the user's viewpoint. This defines the area in which the user must click to select or move the piece, for example. Like GamePiece.boundingBox(), it assumes the position is (0,0) -- which to be clear is normally aligned with the CENTER of the piece image -- and must be translated to the actual location where the piece is being drawn. For most ordinary pieces, the shape returned here will simply be equivalent to the bounding box, but see NonRectangular.

    • boundingBox

      public Rectangle boundingBox()
      Specified by:
      boundingBox in interface GamePiece
      Returns:
      The area which this GamePiece occupies when drawn at the point (0,0)

    • getNamedKeyStrokeList

      public List<NamedKeyStroke> getNamedKeyStrokeList()
      Description copied from class: Decorator
      SearchTarget
      Specified by:
      getNamedKeyStrokeList in interface SearchTarget
      Overrides:
      getNamedKeyStrokeList in class Decorator
      Returns:
      a list of any Named KeyStrokes referenced in the Decorator, if any (for search)

    • getMenuTextList

      public List<String> getMenuTextList()
      SearchTarget
      Specified by:
      getMenuTextList in interface SearchTarget
      Overrides:
      getMenuTextList in class Decorator
      Returns:
      a list of any Menu/Button/Tooltip Text strings referenced in the Decorator, if any (for search)

    • getExpressionList

      public List<String> getExpressionList()
      SearchTarget
      Specified by:
      getExpressionList in interface SearchTarget
      Overrides:
      getExpressionList in class Decorator
      Returns:
      a list of the Decorator's string/expression fields if any (for search)

    • myGetKeyCommands

      public KeyCommand[] myGetKeyCommands()
      Here is when we're being asked, essentially for "what goes on our context menu". So this is when we search through maps, boards, grids, zones and regions to generate our items
      Specified by:
      myGetKeyCommands in class Decorator
      Returns:
      array of key commands
      See Also:

    • myGetState

      public String myGetState()
      Description copied from class: Decorator
      The "state information" is "game state" information that can change during the course of a game. State information is saved when the game is saved and is transferred between players on the server. For example, the relative order of pieces in a stack is state information, but whether the stack is expanded is not.
      Specified by:
      myGetState in class Decorator
      Returns:
      the game state information of this trait alone
      See Also:

    • myKeyEvent

      public Command myKeyEvent(KeyStroke stroke)
      If the stroke matches our key command, then call the funky "like a static but not actually static" GameModule thing to retrieve the specific menu command being processed -- that is then used to set values for our special trait properties (e.g. LocationOfCommand, etc) in the scratchpad of our piece (so now other traits receiving this key command can read them)
      Specified by:
      myKeyEvent in class Decorator
      Parameters:
      stroke - keystroke being applied
      Returns:
      null
      See Also:

    • getName

      public String getName()
      Description copied from interface: GamePiece
      The plain English name for this piece
      Specified by:
      getName in interface GamePiece

    • getEditor

      public PieceEditor getEditor()
      Specified by:
      getEditor in interface EditablePiece
      Overrides:
      getEditor in class Decorator
      Returns:
      the configurer for this trait - the dialog which allows the editing the piece's type information. Default configurer is a SimplePieceEditor, but many traits will want to provide custom versions.

    • getProperty

      public Object getProperty(Object key)
      Description copied from class: Decorator
      Properties can be associated with a piece -- many may be game-specific, but others are standard, such as the LocationName property exposed by BasicPiece -- and can be read through this interface. The properties may or may not need to be encoded in the piece's Decorator.getState() method. Properties include the value of e.g. Marker Traits, DynamicProperty Traits, and so forth. Furthermore they include the values of any visible "Global Property" in a Vassal module, whether at the module level, map level, or zone level -- but these "higher level" properties, coming from "outside the piece", CANNOT be written to by the Decorator.setProperty(java.lang.Object, java.lang.Object) method even though they can be read by this method -- in this sense the two methods are NOT perfect mirrors.

      Within a Trait/Decorator, default behavior is to process some requests directly (e.g. requests for our "inner" or "outer" link), process our *part* of certain other requests (e.g. request for our game state information we supply state information for this trait and then append any information obtained from passing the same request inward), and then for any other requests that we cannot process we simply pass the request to the next trait/member inward.

      When using this interface a piece's own properties are preferred to those of "Global Properties", and those in turn are searched Zone-first then Map, then Module.

      This method implements the PropertySource interface, which allows Global Properties to be read by other types of object than GamePieces.
      Specified by:
      getProperty in interface GamePiece
      Specified by:
      getProperty in interface PropertySource
      Overrides:
      getProperty in class Decorator
      Parameters:
      key - String key of property to be returned
      Returns:
      Object containing new value of the specified property

    • getLocalizedProperty

      public Object getLocalizedProperty(Object key)
      Description copied from class: Decorator
      Returns a localized translation of the specified property value, if available. Otherwise returns the non-localized version. See Decorator.getProperty(java.lang.Object).
      Specified by:
      getLocalizedProperty in interface PropertySource
      Overrides:
      getLocalizedProperty in class Decorator
      Parameters:
      key - String key of property to be returned
      Returns:
      Object containing localized text of the specified property, if available, otherwise non-localized value

    • getDescription

      public String getDescription()
      Description copied from interface: EditablePiece
      A plain-English description of this type of trait/piece - includes data from fields where appropriate
      Specified by:
      getDescription in interface EditablePiece

    • getBaseDescription

      public String getBaseDescription()
      Description copied from interface: EditablePiece
      Support for a basic-name-only description introduced later, so this default retrofits it from the full description if an explicit one is not defined.
      Specified by:
      getBaseDescription in interface EditablePiece
      Returns:
      name of trait/piece type, w/o additional data

    • getDescriptionField

      public String getDescriptionField()
      Description copied from class: Decorator
      If Decorator contains a description *field*, returns the current contents of it.
      Overrides:
      getDescriptionField in class Decorator
      Returns:
      contents of "description" field, if it exists.

    • testEquals

      public boolean testEquals(Object o)
      Description copied from class: Decorator
      Test if this Decorator's Class, Type and State are equal to another trait. Implementations of this method should compare the individual values of the fields that make up the Decorators Type and State. Implementations should NOT compare the values returned by myGetType() or myGetState(). This method is intended to be used by Unit Tests to verify that a trait is unchanged after going through a process such as serialization/deserialization.
      Overrides:
      testEquals in class Decorator
      Parameters:
      o - Object to compare this Decorator to
      Returns:
      true if the Class, type and state all match

    • getHelpFile

      public HelpFile getHelpFile()
      Specified by:
      getHelpFile in interface EditablePiece
      Returns:
      the help file for this trait

    • getPropertyNames

      public List<String> getPropertyNames()
      Return Property names exposed by this trait
      Specified by:
      getPropertyNames in interface PropertyNameSource
      Overrides:
      getPropertyNames in class Decorator
      Returns:
      List of property names "exposed" by this piece -- that are available to other Traits and components to read. Default behavior for a Trait is not to expose any properties, but Traits which should expose some (e.g. DynamicProperty or Marker) would provide an array of the property names here.