package commands; import com.fasterxml.jackson.databind.ObjectMapper; import com.fasterxml.jackson.databind.node.ObjectNode; import akka.actor.ActorRef; import play.libs.Json; import structures.basic.Card; import structures.basic.EffectAnimation; import structures.basic.Player; import structures.basic.Tile; import structures.basic.Unit; import structures.basic.UnitAnimation; import structures.basic.UnitAnimationType; /** * This is a utility class that simply provides short-cut methods for * running the basic command set for the game. * * @author Dr. Richard McCreadie * */ public class BasicCommands { private static ObjectMapper mapper = new ObjectMapper(); // Jackson Java Object Serializer, is used to turn java objects to Strings // An alternative class with a 'tell' implementation can be given if writing unit tests // and need to have a null ActorRef. This should be null during normal operation. public static DummyTell altTell = null; /** * You can consider the contents of the user’s browser window a canvas that can be drawn upon. drawTile will draw * the image of a board tile on the board. This command takes as input a Tile object and a visualisation mode (an * integer) that specifies which version of the tile to render (each tile has multiple versions, e.g. normal vs. * highlighted). This command can be used multiple times to change the visualisation mode for a tile. * @param out * @param tile * @param mode */ @SuppressWarnings({"deprecation"}) public static void drawTile(ActorRef out, Tile tile, int mode) { try { ObjectNode returnMessage = Json.newObject(); returnMessage.put("messagetype", "drawTile"); returnMessage.put("tile", mapper.readTree(mapper.writeValueAsString(tile))); returnMessage.put("mode", mode); if (altTell!=null) altTell.tell(returnMessage); else out.tell(returnMessage, out); } catch (Exception e) { e.printStackTrace(); } } /** * drawUnit will draw the sprite for a unit (a picture of that unit with its attack and health values) on the board. * This command takes as input a target Tile (a ‘square’ of the main game grid) to place the unit’s sprite upon, * and the instance of the Unit (which holds the needed information about how to draw that unit). * @param out * @param unit * @param tile */ @SuppressWarnings({"deprecation"}) public static void drawUnit(ActorRef out, Unit unit, Tile tile) { try { ObjectNode returnMessage = Json.newObject(); returnMessage.put("messagetype", "drawUnit"); returnMessage.put("tile", mapper.readTree(mapper.writeValueAsString(tile))); returnMessage.put("unit", mapper.readTree(mapper.writeValueAsString(unit))); if (altTell!=null) altTell.tell(returnMessage); else out.tell(returnMessage, out); } catch (Exception e) { e.printStackTrace(); } } /** * This command changes the visualised attack value just under a unit’s sprite to a value between 0 * and 20. The command takes in a unit instance. The associated values are read from the unit object. * @param out * @param unit * @param attack */ @SuppressWarnings({"deprecation"}) public static void setUnitAttack(ActorRef out, Unit unit, int attack) { try { ObjectNode returnMessage = Json.newObject(); returnMessage.put("messagetype", "setUnitAttack"); returnMessage.put("unit", mapper.readTree(mapper.writeValueAsString(unit))); returnMessage.put("attack", attack); if (altTell!=null) altTell.tell(returnMessage); else out.tell(returnMessage, out); } catch (Exception e) { e.printStackTrace(); } } /** * This command changes the visualised health value just under a unit’s sprite to a value between 0 * and 20. The command takes in a unit instance. The associated values are read from the unit object. * @param out * @param unit * @param health */ @SuppressWarnings({"deprecation"}) public static void setUnitHealth(ActorRef out, Unit unit, int health) { try { ObjectNode returnMessage = Json.newObject(); returnMessage.put("messagetype", "setUnitHealth"); returnMessage.put("unit", mapper.readTree(mapper.writeValueAsString(unit))); returnMessage.put("health", health); if (altTell!=null) altTell.tell(returnMessage); else out.tell(returnMessage, out); } catch (Exception e) { e.printStackTrace(); } } /** * This command moves a unit sprite from one tile to another. It takes in the unit’s object and the target Tile. * Note that this command will start the movement, it may take multiple seconds for the movement to complete. * @param out * @param unit * @param tile */ @SuppressWarnings({"deprecation"}) public static void moveUnitToTile(ActorRef out, Unit unit, Tile tile) { try { ObjectNode returnMessage = Json.newObject(); returnMessage.put("messagetype", "moveUnitToTile"); returnMessage.put("unit", mapper.readTree(mapper.writeValueAsString(unit))); returnMessage.put("tile", mapper.readTree(mapper.writeValueAsString(tile))); if (altTell!=null) altTell.tell(returnMessage); else out.tell(returnMessage, out); } catch (Exception e) { e.printStackTrace(); } } /** * This command moves a unit sprite from one tile to another. It takes in the unit’s object and the target Tile. * Note that this command will start the movement, it may take multiple seconds for the movement to complete. * yfirst sets whether the move should move the unit vertically first before moving horizontally * @param out * @param yfirst * @param unit * @param tile */ @SuppressWarnings({"deprecation"}) public static void moveUnitToTile(ActorRef out, Unit unit, Tile tile, boolean yfirst) { try { ObjectNode returnMessage = Json.newObject(); returnMessage.put("messagetype", "moveUnitToTile"); returnMessage.put("yfirst", yfirst); returnMessage.put("unit", mapper.readTree(mapper.writeValueAsString(unit))); returnMessage.put("tile", mapper.readTree(mapper.writeValueAsString(tile))); if (altTell!=null) altTell.tell(returnMessage); else out.tell(returnMessage, out); } catch (Exception e) { e.printStackTrace(); } } /** * This command makes a unit play a specified animation. It takes in the unit object which * contains all of the data needed to play the animations, and a UnitAnimation that specifies * which animation to switch to. * * This method now returns an estimate for the number of milliseconds until the animation completes * playing in the browser. Ignore this if it is a looping animation. * @param out * @param unit * @param animation */ @SuppressWarnings({"deprecation"}) public static int playUnitAnimation(ActorRef out, Unit unit, UnitAnimationType animationToPlay) { try { unit.setAnimation(animationToPlay); ObjectNode returnMessage = Json.newObject(); returnMessage.put("messagetype", "playUnitAnimation"); returnMessage.put("unit", mapper.readTree(mapper.writeValueAsString(unit))); returnMessage.put("animation", animationToPlay.toString()); if (altTell!=null) altTell.tell(returnMessage); else out.tell(returnMessage, out); // estimate the time needed for the animation to play UnitAnimation animation = null; if (animationToPlay.equals(UnitAnimationType.idle)) animation = unit.getAnimations().getIdle(); if (animationToPlay.equals(UnitAnimationType.attack)) animation = unit.getAnimations().getAttack(); if (animationToPlay.equals(UnitAnimationType.channel)) animation = unit.getAnimations().getChannel(); if (animationToPlay.equals(UnitAnimationType.death)) animation = unit.getAnimations().getDeath(); if (animationToPlay.equals(UnitAnimationType.hit)) animation = unit.getAnimations().getHit(); if (animationToPlay.equals(UnitAnimationType.move)) animation = unit.getAnimations().getMove(); if (animation==null) return 0; return ((1000*(animation.getFrameStartEndIndices()[1]-animation.getFrameStartEndIndices()[0]))/animation.getFps())+50; } catch (Exception e) { e.printStackTrace(); return 0; } } /** * This will delete a unit instance from the board. It takes as input the unit object of the unit. * @param out * @param unit */ @SuppressWarnings({"deprecation"}) public static void deleteUnit(ActorRef out, Unit unit) { try { ObjectNode returnMessage = Json.newObject(); returnMessage.put("messagetype", "deleteUnit"); returnMessage.put("unit", mapper.readTree(mapper.writeValueAsString(unit))); if (altTell!=null) altTell.tell(returnMessage); else out.tell(returnMessage, out); } catch (Exception e) { e.printStackTrace(); } } /** * This command changes the visualised health value in the player’s information card to a value between 0 * and 20. The command takes in a basic player instance. The associated values are read from the basic player * object. * @param out * @param player */ @SuppressWarnings({"deprecation"}) public static void setPlayer1Health(ActorRef out, Player player) { try { ObjectNode returnMessage = Json.newObject(); returnMessage.put("messagetype", "setPlayer1Health"); returnMessage.put("player", mapper.readTree(mapper.writeValueAsString(player))); if (altTell!=null) altTell.tell(returnMessage); else out.tell(returnMessage, out); } catch (Exception e) { e.printStackTrace(); } } /** * This command changes the visualised health value in the player’s information card to a value between 0 * and 20. The command takes in a basic player instance. The associated values are read from the basic player * object. * @param out * @param player */ @SuppressWarnings({"deprecation"}) public static void setPlayer2Health(ActorRef out, Player player) { try { ObjectNode returnMessage = Json.newObject(); returnMessage.put("messagetype", "setPlayer2Health"); returnMessage.put("player", mapper.readTree(mapper.writeValueAsString(player))); if (altTell!=null) altTell.tell(returnMessage); else out.tell(returnMessage, out); } catch (Exception e) { e.printStackTrace(); } } /** * This command changes the visualised mana value in the player’s information card to a value between 0 * and 9. The command takes in a basic player instance. The associated values are read from the basic player * object. * @param out * @param player */ @SuppressWarnings({"deprecation"}) public static void setPlayer1Mana(ActorRef out, Player player) { try { ObjectNode returnMessage = Json.newObject(); returnMessage.put("messagetype", "setPlayer1Mana"); returnMessage.put("player", mapper.readTree(mapper.writeValueAsString(player))); if (altTell!=null) altTell.tell(returnMessage); else out.tell(returnMessage, out); } catch (Exception e) { e.printStackTrace(); } } /** * This command changes the visualised mana value in the player’s information card to a value between 0 * and 9. The command takes in a basic player instance. The associated values are read from the basic player * object. * @param out * @param player */ @SuppressWarnings({"deprecation"}) public static void setPlayer2Mana(ActorRef out, Player player) { try { ObjectNode returnMessage = Json.newObject(); returnMessage.put("messagetype", "setPlayer2Mana"); returnMessage.put("player", mapper.readTree(mapper.writeValueAsString(player))); if (altTell!=null) altTell.tell(returnMessage); else out.tell(returnMessage, out); } catch (Exception e) { e.printStackTrace(); } } /** * This command renders a card in the player’s hand. It takes as input a hand position (a value between 1-6), a * Card (which is an object containing basic information needed to visualise that card) and a visualisation mode * (similarly to a tile). This command can be issued multiple times to change the visualisation mode of a card. * @param out * @param card * @param position * @param mode */ @SuppressWarnings({"deprecation"}) public static void drawCard(ActorRef out, Card card, int position, int mode) { try { ObjectNode returnMessage = Json.newObject(); returnMessage.put("messagetype", "drawCard"); returnMessage.put("card", mapper.readTree(mapper.writeValueAsString(card))); returnMessage.put("position", position); returnMessage.put("mode", mode); if (altTell!=null) altTell.tell(returnMessage); else out.tell(returnMessage, out); } catch (Exception e) { e.printStackTrace(); } } /** * This command deletes a card in the player’s hand. It takes as input a hand position (a value between 1-6). * @param out * @param position */ public static void deleteCard(ActorRef out, int position) { try { ObjectNode returnMessage = Json.newObject(); returnMessage.put("messagetype", "deleteCard"); returnMessage.put("position", position); if (altTell!=null) altTell.tell(returnMessage); else out.tell(returnMessage, out); } catch (Exception e) { e.printStackTrace(); } } /** * Plays a specified EffectAnimation (such as an explosion) centred on a particular Tile. It takes as input an * EffectAnimation (an object with information about rendering the effect) and a target Tile. * * This method has been updated to provide an estimate of the time until the animation will finish playing * @param out * @param effect * @param tile */ @SuppressWarnings({"deprecation"}) public static int playEffectAnimation(ActorRef out, EffectAnimation effect, Tile tile) { try { ObjectNode returnMessage = Json.newObject(); returnMessage.put("messagetype", "playEffectAnimation"); returnMessage.put("effect", mapper.readTree(mapper.writeValueAsString(effect))); returnMessage.put("tile", mapper.readTree(mapper.writeValueAsString(tile))); if (altTell!=null) altTell.tell(returnMessage); else out.tell(returnMessage, out); return ((1000*effect.getAnimationTextures().size())/effect.getFps())+50; } catch (Exception e) { e.printStackTrace(); return 0; } } /** * This command creates a notification box next to the portrait for the player 1 which contains * the specified text. It will be displayed for a number of seconds before being removed. * object. * @param out * @param text * @param displayTimeSeconds */ public static void addPlayer1Notification(ActorRef out, String text, int displayTimeSeconds) { try { ObjectNode returnMessage = Json.newObject(); returnMessage.put("messagetype", "addPlayer1Notification"); returnMessage.put("text", text); returnMessage.put("seconds", displayTimeSeconds); if (altTell!=null) altTell.tell(returnMessage); else out.tell(returnMessage, out); } catch (Exception e) { e.printStackTrace(); } } /** * Plays a projectile fire animation between two tiles * @param out * @param effect * @param tile */ @SuppressWarnings({"deprecation"}) public static void playProjectileAnimation(ActorRef out, EffectAnimation effect, int mode, Tile startTile, Tile targetTile) { try { ObjectNode returnMessage = Json.newObject(); returnMessage.put("messagetype", "drawProjectile"); returnMessage.put("effect", mapper.readTree(mapper.writeValueAsString(effect))); returnMessage.put("tile", mapper.readTree(mapper.writeValueAsString(startTile))); returnMessage.put("targetTile", mapper.readTree(mapper.writeValueAsString(targetTile))); returnMessage.put("mode", mapper.readTree(mapper.writeValueAsString(mode))); if (altTell!=null) altTell.tell(returnMessage); else out.tell(returnMessage, out); } catch (Exception e) { e.printStackTrace(); } } }