lib/logic/solitaire/solitaire_command.part.dart - release.projects.croupier - Git at Google

 // Copyright 2015 The Vanadium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 part of solitaire;

 class SolitaireCommand extends GameCommand {
   // Usually this constructor is used when reading from a log/syncbase.
   SolitaireCommand(String phase, String data)
       : super(phase, data, simultaneity: SimulLevel.turnBased);

   SolitaireCommand.fromCommand(String cmd)
       : super(cmd.split("|")[0], cmd.split("|")[1],
             simultaneity: SimulLevel.turnBased);

   // The following constructors are used for the player generating the SolitaireCommand.
   SolitaireCommand.deal(List<Card> allCards)
       : super("Deal", computeDeal(allCards),
             simultaneity: SimulLevel.turnBased);

   SolitaireCommand.move(Card target, int targetPile)
       : super("Move", computeMove(target, targetPile),
             simultaneity: SimulLevel.turnBased);

   SolitaireCommand.draw()
       : super("Draw", computeDraw(), simultaneity: SimulLevel.turnBased);

   SolitaireCommand.flip(int targetPile)
       : super("Flip", computeFlip(targetPile),
             simultaneity: SimulLevel.turnBased);

   static String computeDeal(List<Card> allCards) {
     StringBuffer buff = new StringBuffer();
     allCards.forEach((card) => buff.write("${card.toString()}:"));
     buff.write("END");
     return buff.toString();
   }

   // Note: Depending on the target's position w.r.t. the targetPile, this may
   // actually move a group of cards instead.
   static String computeMove(Card target, int targetPile) {
     return "${target.toString()}:$targetPile:END";
   }

   // Note: If there are no cards to draw, this will reset the draw pile.
   static String computeDraw() {
     return "END";
   }

   static String computeFlip(int targetPile) {
     return "$targetPile:END";
   }

   @override
   bool canExecute(Game g) {
     // TODO(alexfandrianto): This is very similar to execute, but without the
     // mutations. It's possible to use a shared function to simplify/combine the
     // logic.
     SolitaireGame game = g as SolitaireGame;

     print("SolitaireCommand is checking: $command");
     List<String> parts = data.split(":");
     switch (phase) {
       case "Deal":
         return game.phase == SolitairePhase.deal && parts.length - 1 == 52;
       case "Move":
         if (game.phase != SolitairePhase.play) {
           return false;
         }

         // Move the card to the pile.
         Card c = new Card.fromString(parts[0]);
         int targetId = int.parse(parts[1]);
         int sourceId = game.findCard(c);
         if (sourceId == -1) {
           return false;
         }
         if (targetId < 0 || targetId >= game.cardCollections.length) {
           return false;
         }
         List<Card> source = game.cardCollections[sourceId];
         List<Card> dest = game.cardCollections[targetId];

         // If the card isn't valid, then we have an error.
         String reason = game.canPlay(c, dest);
         if (reason != null) {
           return false;
         }
         bool canTransfer = this.transferCheck(source, dest, c);
         return canTransfer;
       case "Draw":
         if (game.phase != SolitairePhase.play) {
           return false;
         }

         List<Card> drawPile = game.cardCollections[SolitaireGame.offsetDraw];
         List<Card> discardPile =
             game.cardCollections[SolitaireGame.offsetDiscard];

         return drawPile.length > 0 || discardPile.length > 0;
       case "Flip":
         if (game.phase != SolitairePhase.play) {
           return false;
         }

         int flipId = int.parse(parts[0]);
         if (flipId < 0 || flipId >= 7) {
           return false;
         }

         List<Card> flipSource =
             game.cardCollections[SolitaireGame.offsetDown + flipId];
         List<Card> flipDest =
             game.cardCollections[SolitaireGame.offsetUp + flipId];

         return flipDest.length == 0 && flipSource.length > 0;
       default:
         print(data);
         assert(false); // How could this have happened?
         return false;
     }
   }

   @override
   void execute(Game g) {
     SolitaireGame game = g as SolitaireGame;

     print("SolitaireCommand is executing: $command");
     List<String> parts = data.split(":");
     switch (phase) {
       case "Deal":
         if (game.phase != SolitairePhase.deal) {
           throw new StateError(
               "Cannot process deal commands when not in Deal phase");
         }
         if (parts.length - 1 != 52) {
           throw new StateError(
               "Not enough cards dealt. Need 52, got ${parts.length - 1}");
         }

         // Deal fills out each of the down cards with one of each up card.
         int index = 0;
         for (int i = 0; i < 7; i++) {
           for (int j = 0; j < i; j++) {
             this.transfer(
                 game.deck,
                 game.cardCollections[SolitaireGame.offsetDown + i],
                 new Card.fromString(parts[index]));
             index++;
           }
           this.transfer(
               game.deck,
               game.cardCollections[SolitaireGame.offsetUp + i],
               new Card.fromString(parts[index]));
           index++;
         }

         // The remaining cards are for the draw pile.
         for (; index < 52; index++) {
           this.transfer(
               game.deck,
               game.cardCollections[SolitaireGame.offsetDraw],
               new Card.fromString(parts[index]));
         }
         return;
       case "Move":
         if (game.phase != SolitairePhase.play) {
           throw new StateError(
               "Cannot process move commands when not in Play phase");
         }

         // Move the card to the pile.
         Card c = new Card.fromString(parts[0]);
         int targetId = int.parse(parts[1]);
         int sourceId = game.findCard(c);
         if (sourceId == -1) {
           throw new StateError("Cannot move unknown card ${c.toString()}");
         }
         if (targetId < 0 || targetId >= game.cardCollections.length) {
           throw new StateError("Cannot move to unknown pile $targetId");
         }
         List<Card> source = game.cardCollections[sourceId];
         List<Card> dest = game.cardCollections[targetId];

         // If the card isn't valid, then we have an error.
         String reason = game.canPlay(c, dest);
         if (reason != null) {
           throw new StateError(
               "Cannot move ${c.toString()} to Pile $targetId because $reason");
         }
         this.transferGroup(source, dest, c);
         return;
       case "Draw":
         if (game.phase != SolitairePhase.play) {
           throw new StateError(
               "Cannot process draw commands when not in Play phase");
         }

         List<Card> drawPile = game.cardCollections[SolitaireGame.offsetDraw];
         List<Card> discardPile =
             game.cardCollections[SolitaireGame.offsetDiscard];

         if (drawPile.length != 0) {
           this.transfer(drawPile, discardPile, drawPile[0]);
         } else if (discardPile.length != 0) {
           this.transferGroup(discardPile, drawPile, discardPile[0]);
         } else {
           throw new StateError("No cards left to draw");
         }
         return;
       case "Flip":
         if (game.phase != SolitairePhase.play) {
           throw new StateError(
               "Cannot process flip commands when not in Play phase");
         }

         int flipId = int.parse(parts[0]);
         if (flipId < 0 || flipId >= 7) {
           throw new StateError("Cannot process flip command for index $flipId");
         }

         List<Card> flipSource =
             game.cardCollections[SolitaireGame.offsetDown + flipId];
         List<Card> flipDest =
             game.cardCollections[SolitaireGame.offsetUp + flipId];

         if (flipDest.length != 0) {
           throw new StateError(
               "Cannot flip $flipId because destination has cards");
         }
         if (flipSource.length == 0) {
           throw new StateError(
               "Cannot flip $flipId because source has no cards");
         }
         this.transfer(flipSource, flipDest, flipSource[flipSource.length - 1]);
         return;
       default:
         print(data);
         assert(false); // How could this have happened?
     }
   }

   void transfer(List<Card> sender, List<Card> receiver, Card c) {
     if (!sender.contains(c)) {
       throw new StateError(
           "Sender ${sender.toString()} lacks Card ${c.toString()}");
     }
     sender.remove(c);
     receiver.add(c);
   }

   // Transfers every card from a certain cutoff card onwards.
   void transferGroup(List<Card> sender, List<Card> receiver, Card c) {
     int index = sender.indexOf(c);
     if (index == -1) {
       throw new StateError(
           "Sender ${sender.toString()} lacks Card ${c.toString()}");
     }
     List<Card> lost =
         new List<Card>.from(sender.getRange(index, sender.length));
     sender.removeRange(index, sender.length);
     receiver.addAll(lost);
   }

   bool transferCheck(List<Card> sender, List<Card> receiver, Card c) {
     return sender.contains(c);
   }
 }
	// Copyright 2015 The Vanadium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	part of solitaire;

	class SolitaireCommand extends GameCommand {
	// Usually this constructor is used when reading from a log/syncbase.
	SolitaireCommand(String phase, String data)
	: super(phase, data, simultaneity: SimulLevel.turnBased);

	SolitaireCommand.fromCommand(String cmd)
	: super(cmd.split("\|")[0], cmd.split("\|")[1],
	simultaneity: SimulLevel.turnBased);

	// The following constructors are used for the player generating the SolitaireCommand.
	SolitaireCommand.deal(List<Card> allCards)
	: super("Deal", computeDeal(allCards),
	simultaneity: SimulLevel.turnBased);

	SolitaireCommand.move(Card target, int targetPile)
	: super("Move", computeMove(target, targetPile),
	simultaneity: SimulLevel.turnBased);

	SolitaireCommand.draw()
	: super("Draw", computeDraw(), simultaneity: SimulLevel.turnBased);

	SolitaireCommand.flip(int targetPile)
	: super("Flip", computeFlip(targetPile),
	simultaneity: SimulLevel.turnBased);

	static String computeDeal(List<Card> allCards) {
	StringBuffer buff = new StringBuffer();
	allCards.forEach((card) => buff.write("${card.toString()}:"));
	buff.write("END");
	return buff.toString();
	}

	// Note: Depending on the target's position w.r.t. the targetPile, this may
	// actually move a group of cards instead.
	static String computeMove(Card target, int targetPile) {
	return "${target.toString()}:$targetPile:END";
	}

	// Note: If there are no cards to draw, this will reset the draw pile.
	static String computeDraw() {
	return "END";
	}

	static String computeFlip(int targetPile) {
	return "$targetPile:END";
	}

	@override
	bool canExecute(Game g) {
	// TODO(alexfandrianto): This is very similar to execute, but without the
	// mutations. It's possible to use a shared function to simplify/combine the
	// logic.
	SolitaireGame game = g as SolitaireGame;

	print("SolitaireCommand is checking: $command");
	List<String> parts = data.split(":");
	switch (phase) {
	case "Deal":
	return game.phase == SolitairePhase.deal && parts.length - 1 == 52;
	case "Move":
	if (game.phase != SolitairePhase.play) {
	return false;
	}

	// Move the card to the pile.
	Card c = new Card.fromString(parts[0]);
	int targetId = int.parse(parts[1]);
	int sourceId = game.findCard(c);
	if (sourceId == -1) {
	return false;
	}
	if (targetId < 0 \|\| targetId >= game.cardCollections.length) {
	return false;
	}
	List<Card> source = game.cardCollections[sourceId];
	List<Card> dest = game.cardCollections[targetId];

	// If the card isn't valid, then we have an error.
	String reason = game.canPlay(c, dest);
	if (reason != null) {
	return false;
	}
	bool canTransfer = this.transferCheck(source, dest, c);
	return canTransfer;
	case "Draw":
	if (game.phase != SolitairePhase.play) {
	return false;
	}

	List<Card> drawPile = game.cardCollections[SolitaireGame.offsetDraw];
	List<Card> discardPile =
	game.cardCollections[SolitaireGame.offsetDiscard];

	return drawPile.length > 0 \|\| discardPile.length > 0;
	case "Flip":
	if (game.phase != SolitairePhase.play) {
	return false;
	}

	int flipId = int.parse(parts[0]);
	if (flipId < 0 \|\| flipId >= 7) {
	return false;
	}

	List<Card> flipSource =
	game.cardCollections[SolitaireGame.offsetDown + flipId];
	List<Card> flipDest =
	game.cardCollections[SolitaireGame.offsetUp + flipId];

	return flipDest.length == 0 && flipSource.length > 0;
	default:
	print(data);
	assert(false); // How could this have happened?
	return false;
	}
	}

	@override
	void execute(Game g) {
	SolitaireGame game = g as SolitaireGame;

	print("SolitaireCommand is executing: $command");
	List<String> parts = data.split(":");
	switch (phase) {
	case "Deal":
	if (game.phase != SolitairePhase.deal) {
	throw new StateError(
	"Cannot process deal commands when not in Deal phase");
	}
	if (parts.length - 1 != 52) {
	throw new StateError(
	"Not enough cards dealt. Need 52, got ${parts.length - 1}");
	}

	// Deal fills out each of the down cards with one of each up card.
	int index = 0;
	for (int i = 0; i < 7; i++) {
	for (int j = 0; j < i; j++) {
	this.transfer(
	game.deck,
	game.cardCollections[SolitaireGame.offsetDown + i],
	new Card.fromString(parts[index]));
	index++;
	}
	this.transfer(
	game.deck,
	game.cardCollections[SolitaireGame.offsetUp + i],
	new Card.fromString(parts[index]));
	index++;
	}

	// The remaining cards are for the draw pile.
	for (; index < 52; index++) {
	this.transfer(
	game.deck,
	game.cardCollections[SolitaireGame.offsetDraw],
	new Card.fromString(parts[index]));
	}
	return;
	case "Move":
	if (game.phase != SolitairePhase.play) {
	throw new StateError(
	"Cannot process move commands when not in Play phase");
	}

	// Move the card to the pile.
	Card c = new Card.fromString(parts[0]);
	int targetId = int.parse(parts[1]);
	int sourceId = game.findCard(c);
	if (sourceId == -1) {
	throw new StateError("Cannot move unknown card ${c.toString()}");
	}
	if (targetId < 0 \|\| targetId >= game.cardCollections.length) {
	throw new StateError("Cannot move to unknown pile $targetId");
	}
	List<Card> source = game.cardCollections[sourceId];
	List<Card> dest = game.cardCollections[targetId];

	// If the card isn't valid, then we have an error.
	String reason = game.canPlay(c, dest);
	if (reason != null) {
	throw new StateError(
	"Cannot move ${c.toString()} to Pile $targetId because $reason");
	}
	this.transferGroup(source, dest, c);
	return;
	case "Draw":
	if (game.phase != SolitairePhase.play) {
	throw new StateError(
	"Cannot process draw commands when not in Play phase");
	}

	List<Card> drawPile = game.cardCollections[SolitaireGame.offsetDraw];
	List<Card> discardPile =
	game.cardCollections[SolitaireGame.offsetDiscard];

	if (drawPile.length != 0) {
	this.transfer(drawPile, discardPile, drawPile[0]);
	} else if (discardPile.length != 0) {
	this.transferGroup(discardPile, drawPile, discardPile[0]);
	} else {
	throw new StateError("No cards left to draw");
	}
	return;
	case "Flip":
	if (game.phase != SolitairePhase.play) {
	throw new StateError(
	"Cannot process flip commands when not in Play phase");
	}

	int flipId = int.parse(parts[0]);
	if (flipId < 0 \|\| flipId >= 7) {
	throw new StateError("Cannot process flip command for index $flipId");
	}

	List<Card> flipSource =
	game.cardCollections[SolitaireGame.offsetDown + flipId];
	List<Card> flipDest =
	game.cardCollections[SolitaireGame.offsetUp + flipId];

	if (flipDest.length != 0) {
	throw new StateError(
	"Cannot flip $flipId because destination has cards");
	}
	if (flipSource.length == 0) {
	throw new StateError(
	"Cannot flip $flipId because source has no cards");
	}
	this.transfer(flipSource, flipDest, flipSource[flipSource.length - 1]);
	return;
	default:
	print(data);
	assert(false); // How could this have happened?
	}
	}

	void transfer(List<Card> sender, List<Card> receiver, Card c) {
	if (!sender.contains(c)) {
	throw new StateError(
	"Sender ${sender.toString()} lacks Card ${c.toString()}");
	}
	sender.remove(c);
	receiver.add(c);
	}

	// Transfers every card from a certain cutoff card onwards.
	void transferGroup(List<Card> sender, List<Card> receiver, Card c) {
	int index = sender.indexOf(c);
	if (index == -1) {
	throw new StateError(
	"Sender ${sender.toString()} lacks Card ${c.toString()}");
	}
	List<Card> lost =
	new List<Card>.from(sender.getRange(index, sender.length));
	sender.removeRange(index, sender.length);
	receiver.addAll(lost);
	}

	bool transferCheck(List<Card> sender, List<Card> receiver, Card c) {
	return sender.contains(c);
	}
	}