package classes; import com.google.gson.annotations.Expose; import java.awt.*; import java.util.ArrayList; /** * The abstract class "CpsObject" represents any possible object in the system * (except Edges). The representation of any object contains following * variables: see description of variables * * @author Gruppe14 * */ public abstract class AbstractCpsObject { /* Type of the Object. */ @Expose String objName; /* Name given by the user. */ @Expose String name; /* ID of the Obj. */ @Expose int id; /* Path of the image for the Obj. */ @Expose String image; /* Array of neighbors */ ArrayList connections; /* Position with a X and Y value */ @Expose Position position; /* * Energy input and output of each object in the grid Where the Object is * Stored */ @Expose String sav; /* borderColor the user sets */ @Expose Color borderColor = Color.WHITE; /* a Tag that can be used */ ArrayList tags; /* a Tag that can be used */ ArrayList pseudoTags; /** * Constructor for a CpsObejct with an unique ID. * * @param objName * of the Object */ public AbstractCpsObject(String objName) { setObjName(objName); setName(objName); setImage("/Images/Dummy_House.png"); tags = new ArrayList<>(); pseudoTags = new ArrayList<>(); } /** * Constructor for a new CpsObject with an unique ID (This constructor * correspond to the interaction between the Categories and Canvas)--> * actually the "new" Object is a copy. * * @param obj * Object to be copied */ public AbstractCpsObject(AbstractCpsObject obj) { setObjName(obj.getObjName()); setName(obj.getObjName()); setConnections(new ArrayList<>()); setPosition(new Position()); setId(IdCounter.nextId()); setImage(obj.getImage()); } /** * Getter for the type of the Object. * * @return String */ public String getObjName() { return objName; } /** * Set the type of Object. * * @param objName * String */ public void setObjName(String objName) { this.objName = objName; } /** * Getter for the user-defined name (no unique). * * @return String */ public String getName() { return name; } /** * Set the name. * * @param name * String */ public void setName(String name) { this.name = name; } /** * Getter of the unique ID. * * @return int */ public int getId() { return id; } /** * Set the ID to a new one. * * @param id * the iD to set */ public void setId(int id) { this.id = id; } /** * Get the path of the image for the selected Object. * * @return String */ public String getImage() { return image; } /** * Set the path of the image. * * @param image * the Image to set */ public void setImage(String image) { this.image = image; } /** * List of all existing connections. * * @return the connections ArrayList */ public ArrayList getConnections() { return connections; } /** * Set a new ArrayList of connections (Update). * * @param arrayList * the connections to set */ public void setConnections(ArrayList arrayList) { this.connections = arrayList; } /** * List of all existing connections. * * @return the connections ArrayList */ public ArrayList getConnectedTo() { return connections; } /** * Add a new connection to the selected Object. * * @param toConnect * Edge */ public void addConnection(CpsEdge toConnect) { connections.add(toConnect); } /** * Set the position of the Object in the canvas. * * @param x * X-Coord * @param y * Y-Coord */ public void setPosition(int x, int y) { setPosition(new Position(x, y)); } /** * Get the actual position of the Object. * * @return Position Position of this Object */ public Position getPosition() { return position; } /** * Set the position of the Object in the canvas. * * @param pos Coordinates */ public void setPosition(Position pos) { this.position = pos; } /** * For save purpose. * * @return the stored */ public String getSav() { return sav; } /** * For save purpose. * * @param sav * the stored to set */ public void setSav(String sav) { this.sav = sav; } /** * Get the color of the border. * * @return the BorderColor */ public Color getBorderColor() { return borderColor; } /** * Set the Border Color of this CpsObject. * * @param c * the BorderColor */ public void setBorderColor(Color c) { this.borderColor = c; } /** * For internal purpose (energy flow). * * @param tag * for internal purpose */ public void addTag(int tag) { if (!(tags.contains(tag))) { this.tags.add(tag); } } public void addAllTags(ArrayList tags) { for (Integer tag : tags) { addTag(tag); } } /** * Get the actual tags. * * @return ArrayList */ public ArrayList getTag() { return tags; } /** * Rest the tags to Null. */ public void resetTags() { this.tags = new ArrayList<>(); this.pseudoTags = new ArrayList<>(); } /** * For internal purpose (energy flow). * * @param tags * for internal purpose */ public void setTags(ArrayList tags) { this.tags = tags; } /** * Get the pseudo tags. * * @return ArrayList */ public ArrayList getPseudoTags() { return this.pseudoTags; } /** * For internal purpose (energy flow). * * @param tags for internal purpose */ public void setPseudoTags(ArrayList tags) { this.pseudoTags = tags; } /** * add a pseudo tag. * * @return ArrayList */ public void addPseudoTag(int tag) { if (!pseudoTags.contains(tag)) { pseudoTags.add(tag); } } /** * adds all given pseudotags to the tags * * @param pseudoTags */ public void addAllPseudoTags(ArrayList pseudoTags) { for (Integer tag : pseudoTags) { addPseudoTag(tag); } } /** * adds All pseudoTags to tags without duplicates */ public void recalculateTags() { for (Integer tag : pseudoTags) { if (!tags.contains(tag)) { tags.add(tag); } } } }