/// <summary>
/// Convert string code list to deck
/// </summary>
/// <param name="cardCodes">List of card codes</param>
/// <returns>Deck contents</returns>
public static List <CardWithCount> DeckFromStringCodeList(string[] cardCodes)
{
List <CardWithCount> cards = new List <CardWithCount>();
if (cardCodes == null)
{
return(cards);
}
foreach (var cardCode in cardCodes)
{
int index = cards.FindIndex(item => item.Code.Equals(cardCode));
if (index >= 0)
{
cards[index].Count++;
}
else
{
Card card = CardLibrary.GetCard(cardCode);
cards.Add(new CardWithCount(card, 1, true));
}
}
cards = cards.OrderBy(card => card.Cost).ThenBy(card => card.Name).ToList();
return(cards);
}
private void ApplyDraftPick(ref List <CardWithCount> cards, ExpeditionPick pick)
{
if (pick.IsSwap)
{
foreach (var cardCode in pick.SwappedOut)
{
int index = cards.FindIndex(item => item.Code.Equals(cardCode));
if (0 == --cards[index].Count)
{
cards.RemoveAt(index);
}
}
foreach (var cardCode in pick.SwappedIn)
{
int index = cards.FindIndex(item => item.Code.Equals(pick.SwappedOut));
if (index >= 0)
{
cards[index].Count++;
}
else
{
cards.Add(new CardWithCount(CardLibrary.GetCard(cardCode), 1, true));
}
}
}
else
{
foreach (var cardCode in pick.DraftPicks)
{
int index = cards.FindIndex(item => item.Code.Equals(cardCode));
if (index >= 0)
{
cards[index].Count++;
}
else
{
cards.Add(new CardWithCount(CardLibrary.GetCard(cardCode), 1, true));
}
}
}
}
private void LoadFromJSON(Dictionary <string, JsonElement> deck)
{
Cards.Clear();
DeckCode = deck["DeckCode"].ToString();
try { DeckName = GameHistory.DeckNames[DeckCode]; } catch { DeckName = GameRecord.DefaultConstructedDeckName; }
var deckList = deck["CardsInDeck"].ToObject <Dictionary <string, int> >();
if (deckList != null)
{
foreach (var j in deckList)
{
string cardCode = j.Key;
Card card = CardLibrary.GetCard(cardCode);
int count = j.Value;
Cards.Add(new CardWithCount(card, count, true));
}
// Sort the deck
Cards = Cards.OrderBy(card => card.Cost).ThenBy(card => card.Name).ToList();
}
}
void DrawElement(CardInPlay card, Graphics g, Color borderColor, Rectangle screenRect, bool flip)
{
float y = card.NormalizedBoundingBox.Y;
if (flip)
{
y = 1 - y - card.NormalizedBoundingBox.Height;
}
Rectangle r = new Rectangle(
(int)(0.5f + screenRect.Width / 2 + card.NormalizedBoundingBox.X * screenRect.Height),
(int)(0.5f + y * screenRect.Height),
(int)(0.5f + card.NormalizedBoundingBox.Width * screenRect.Height),
(int)(0.5f + card.NormalizedBoundingBox.Height * screenRect.Height));
r.Offset(screenRect.X, screenRect.Y);
if (FullArtView)
{
card.TheCard.LoadCardArt();
if (card.CurrentZone == PlayZone.Zoom || card.CurrentZone == PlayZone.Stage || card.CurrentZone == PlayZone.Hand || card.CurrentZone == PlayZone.Field)
{
g.DrawImage(card.TheCard.CardArt, r);
}
else if (card.CurrentZone == PlayZone.Cast || card.CurrentZone == PlayZone.Battle || card.CurrentZone == PlayZone.Windup || card.CurrentZone == PlayZone.Attack)
{
card.TheCard.DrawCardBanner(g, r);
}
}
else
{
r.Offset(screenRect.X, screenRect.Y);
g.DrawRectangle(new Pen(borderColor, 2), r);
string text = string.Format("{0}\r\n{1}\r\n{2}\r\n{3}", CardLibrary.GetCard(card.CardCode).Name, card.CardCode,
card.NormalizedCenter.Y, card.NormalizedBoundingBox.Height);
TextRenderer.DrawText(g, text, this.Font, r, borderColor, TextFormatFlags.HorizontalCenter | TextFormatFlags.VerticalCenter);
}
}
void MoveToNext(ref CardList <CardInPlay>[] current, CardList <CardInPlay> next, double timestamp, bool isInitialDraw, bool isLocalPlayer)
{
CardList <CardInPlay> stationaryResult = new CardList <CardInPlay>();
CardList <CardInPlay> movedResult = new CardList <CardInPlay>();
// For each card in 'next', look for a card in 'current' that's in the same zone
// If found, remove from both and add to stationaryCards set
for (int i = 0; i < NumZones; i++)
{
stationaryResult.AddRange(CardList <CardInPlay> .Extract(ref next, ref current[i], (x, y) =>
{
// Skip values in next that are incorrect zone
if ((int)x.CurrentZone != i)
{
return(-1);
}
int z = x.TheCard.Cost - y.TheCard.Cost;
if (z == 0)
{
z = x.TheCard.Name.CompareTo(y.TheCard.Name);
}
return(z);
}, (x, y) =>
{
y.BoundingBox = x.BoundingBox;
y.NormalizedBoundingBox = x.NormalizedBoundingBox;
y.NormalizedCenter = x.NormalizedCenter;
return(y);
}));
}
// For each card in next, look for a card in 'current' Ether zone that may have returned to the same zone
movedResult.AddRange(CardList <CardInPlay> .Extract(ref next, ref current[(int)PlayZone.Ether], (x, y) =>
{
// Skip values in next that are incorrect zone
if (y.CurrentZone != PlayZone.Ether)
{
return(-1);
}
int z = x.TheCard.Cost - y.TheCard.Cost;
if (z == 0)
{
z = x.TheCard.Name.CompareTo(y.TheCard.Name);
}
// Skip values in current that are incorrect zone
if (z == 0 && x.CurrentZone != y.LastNonEtherZone)
{
z = 1;
}
return(z);
}, (x, y) =>
{
y.BoundingBox = x.BoundingBox;
y.NormalizedBoundingBox = x.NormalizedBoundingBox;
y.NormalizedCenter = x.NormalizedCenter;
y.MoveToZone(x.CurrentZone, timestamp);
return(y);
}));
// For each card in next, look for a card in 'current' Ether zone that may has an approved transition
movedResult.AddRange(CardList <CardInPlay> .Extract(ref next, ref current[(int)PlayZone.Ether], (x, y) =>
{
// Skip values in next that are incorrect zone
if (y.CurrentZone != PlayZone.Ether)
{
return(-1);
}
int z = x.TheCard.Cost - y.TheCard.Cost;
if (z == 0)
{
z = x.TheCard.Name.CompareTo(y.TheCard.Name);
}
// Skip values in current that are incorrect zone
if (z == 0 && GameBoard.TransitionResult.Proceed != GameBoard.TransitionAllowed(y.LastNonEtherZone, PlayZone.Unknown, x.CurrentZone, isInitialDraw, isLocalPlayer))
{
z = -1;
}
return(z);
}, (x, y) =>
{
x.LastNonEtherZone = y.LastNonEtherZone;
x.LastZone = PlayZone.Ether;
x.IsFromDeck = y.IsFromDeck;
x.ChampionCode = y.ChampionCode;
return(x);
}));
// For each card in next, look for approved transitions, skipping current in deck
for (int i = 0; i < NumZones; i++)
{
if (i == (int)PlayZone.Deck)
{
continue;
}
movedResult.AddRange(CardList <CardInPlay> .Extract(ref next, ref current[i], (x, y) =>
{
// Skip values in next that are incorrect zone
int z = x.TheCard.Cost - y.TheCard.Cost;
if (z == 0)
{
z = x.TheCard.Name.CompareTo(y.TheCard.Name);
}
if (z == 0 && GameBoard.TransitionResult.Proceed != GameBoard.TransitionAllowed(y.CurrentZone, y.LastNonEtherZone, x.CurrentZone, isInitialDraw, isLocalPlayer))
{
z = -1;
}
return(z);
}, (x, y) =>
{
x.SetLastZone(y.CurrentZone);
x.IsFromDeck = y.IsFromDeck;
x.ChampionCode = y.ChampionCode;
return(x);
}));
}
// For each card in next, look for declined transitions
for (int i = 0; i < NumZones; i++)
{
stationaryResult.AddRange(CardList <CardInPlay> .Extract(ref next, ref current[i], (x, y) =>
{
// Skip values in next that are incorrect zone
int z = x.TheCard.Cost - y.TheCard.Cost;
if (z == 0)
{
z = x.TheCard.Name.CompareTo(y.TheCard.Name);
}
if (z == 0 && GameBoard.TransitionResult.Stay != GameBoard.TransitionAllowed(y.CurrentZone, y.LastNonEtherZone, x.CurrentZone, isInitialDraw, isLocalPlayer))
{
z = -1;
}
return(z);
}, (x, y) =>
{
y.BoundingBox = x.BoundingBox;
y.NormalizedBoundingBox = x.NormalizedBoundingBox;
y.NormalizedCenter = x.NormalizedCenter;
return(y);
}));
}
// For each card in 'hand', look for champion transformations
stationaryResult.AddRange(CardList <CardInPlay> .Extract(ref next, ref current[(int)PlayZone.Hand], (x, y) =>
{
// Skip values in next that are incorrect zone
if ((int)x.CurrentZone != (int)PlayZone.Hand)
{
return(-1);
}
if (y.ChampionCode.Length == 0)
{
return(-1);
}
if (y.TheCard.SuperType == "Champion")
{
var spellCode = y.TheCard.AssociatedCardCodes.Last();
var spellCard = CardLibrary.GetCard(spellCode);
if (spellCard.FlavorText == x.TheCard.FlavorText)
{
return(0);
}
}
else if (x.TheCard.SuperType == "Champion")
{
if (x.CardCode == y.ChampionCode)
{
return(0);
}
}
return(-1);
}, (x, y) =>
{
x.LastZone = y.CurrentZone;
x.IsFromDeck = y.IsFromDeck;
x.ChampionCode = y.ChampionCode;
return(x);
}));
// For each card in next, look for approved transitions from deck
movedResult.AddRange(CardList <CardInPlay> .Extract(ref next, ref current[(int)PlayZone.Deck], (x, y) =>
{
// Skip values in next that are incorrect zone
int z = x.TheCard.Cost - y.TheCard.Cost;
if (z == 0)
{
z = x.TheCard.Name.CompareTo(y.TheCard.Name);
}
if (z == 0 && GameBoard.TransitionResult.Proceed != GameBoard.TransitionAllowed(y.CurrentZone, y.LastNonEtherZone, x.CurrentZone, isInitialDraw, isLocalPlayer))
{
z = -1;
}
return(z);
}, (x, y) =>
{
x.SetLastZone(y.CurrentZone);
x.IsFromDeck = y.IsFromDeck;
x.ChampionCode = y.ChampionCode;
return(x);
}));
// Move not in deck to ether
for (int i = 0; i < NumZones; i++)
{
PlayZone newZone = PlayZone.Ether;
if (i == (int)PlayZone.Deck || i == (int)PlayZone.Graveyard || i == (int)PlayZone.Ether)
{
continue;
}
if (i == (int)PlayZone.Stage && isInitialDraw)
{
newZone = PlayZone.Deck;
}
for (int j = 0; j < current[i].Count; j++)
{
current[i][j].MoveToZone(newZone, timestamp);
}
movedResult.AddRange(current[i]);
current[i].Clear();
}
// Remove cards in next that are in a zone that does not accept from Unknown
next = next.GetSubset(x => GameBoard.TransitionResult.Proceed == GameBoard.TransitionAllowed(x.LastNonEtherZone, PlayZone.Unknown, x.CurrentZone, isInitialDraw, isLocalPlayer));
// Add remaining cards to the moved set
movedResult.AddRange(next);
// Log all moves
foreach (var card in movedResult)
{
LogMove(card, card.CurrentZone != PlayZone.Ether);
}
// Re-add all the cars to the zones
for (int i = 0; i < NumZones; i++)
{
current[i].AddRange(stationaryResult.GetSubset(x => (int)x.CurrentZone == i));
current[i].AddRange(movedResult.GetSubset(x => (int)x.CurrentZone == i));
}
}
/// <summary>
/// Process next rectangle layout
/// </summary>
/// <param name="overlay"></param>
/// <param name="timestamp"></param>
public void ProcessNext(Dictionary <string, JsonElement> overlay, double timestamp)
{
TimeCounter++;
if (!TestMode && PlayerCards[(int)PlayZone.Deck].Count == 0 && PlayerCards[(int)PlayZone.Graveyard].Count == 0)
{
// Have not received the deck yet
return;
}
CardList <CardInPlay> cardsInPlay = new CardList <CardInPlay>();
bool isChampionUpgrading = false;
if (overlay != null)
{
var screen = overlay["Screen"].ToObject <Dictionary <string, JsonElement> >();
ScreenWidth = screen["ScreenWidth"].GetInt32();
ScreenHeight = screen["ScreenHeight"].GetInt32();
// We normalize elements' bounding box based on screen height. However, if screen ratio becomes
// too high, screen expands height-wise. To make sure we have same behavior as before,
// We adjust the height accordingly.
int normalizedScreenHeight = (int)(0.5 + GameBoard.ComputeNormalizedScreenHeight(ScreenWidth, ScreenHeight));
Point correctionOffset = new Point(0, 0);
var rectangles = overlay["Rectangles"].ToObject <Dictionary <string, JsonElement>[]>();
foreach (var dict in rectangles)
{
string cardCode = dict["CardCode"].GetString();
if (cardCode == "face")
{
if (dict["LocalPlayer"].GetBoolean())
{
int x = dict["TopLeftX"].GetInt32();
int y = dict["TopLeftY"].GetInt32();
if (IsInitialDraw)
{
LocalPlayerFace = new Point(x, y);
}
else
{
correctionOffset.X = LocalPlayerFace.X - x;
correctionOffset.Y = LocalPlayerFace.Y - y;
}
}
// We don't process face
continue;
}
Card card = CardLibrary.GetCard(cardCode);
// Also ignore abilities
if (card.Type != "Ability")
{
CardInPlay c = new CardInPlay(dict, ScreenWidth, ScreenHeight, correctionOffset, normalizedScreenHeight);
cardsInPlay.Add(card.Cost, card.Name, c);
if (c.CurrentZone == PlayZone.Hand && c.NormalizedCenter.Y > 1.3f)
{
// Champion is upgrading
isChampionUpgrading = true;
}
}
}
}
// Split next elements between owners. Also, disregard cards with unknown zone
CardList <CardInPlay> nextPlayerCards = new CardList <CardInPlay>();
CardList <CardInPlay> nextOpponentCards = new CardList <CardInPlay>();
cardsInPlay.Split(ref nextPlayerCards, ref nextOpponentCards, x => x.Owner == PlayerType.LocalPlayer && x.CurrentZone != PlayZone.Unknown);
Callback.OnElementsUpdate(nextPlayerCards, nextOpponentCards, ScreenWidth, ScreenHeight);
if (isChampionUpgrading)
{
// Bail, champion is upgrading
return;
}
if (nextPlayerCards.FindIndex(x => x.CurrentZone == PlayZone.Stage) >= 0)
{
CardsAreOnStage = true;
}
else if (CardsAreOnStage)
{
// Transition, reset ether timers
for (int i = 0; i < PlayerCards[(int)PlayZone.Ether].Count; i++)
{
PlayerCards[(int)PlayZone.Ether][i].EtherStartTime = timestamp;
}
CardsAreOnStage = false;
}
// Mark all opponent cards as "from deck" for now
// This is because we cannot reliably know which ones are not from deck yet
for (int i = 0; i < nextOpponentCards.Count; i++)
{
nextOpponentCards[i].IsFromDeck = nextOpponentCards[i].TheCard.IsCollectible;
}
MoveToNext(ref PlayerCards, nextPlayerCards, timestamp, IsInitialDraw, true);
if (IsInitialDraw)
{
// Initial draw until we add some cards to hand
IsInitialDraw = (PlayerCards[(int)PlayZone.Hand].Count() == 0);
}
MoveToNext(ref OpponentCards, nextOpponentCards, timestamp, false, false);
// Purge Ether of spells that have been cast
bool thoroughCleanUp = false;
int handCardIndex = PlayerCards[(int)PlayZone.Hand].FindIndex(x => x.CurrentZone == PlayZone.Hand);
if (PlayerCards[(int)PlayZone.Hand].Count() > 0 && PlayerCards[(int)PlayZone.Hand][0].NormalizedBoundingBox.Height < 0.235f)
{
thoroughCleanUp = true;
}
// Clean up ether -- generally move expired cards to graveyard, but also send cast champion spells back to deck
if (!CardsAreOnStage)
{
// Find all the expiring
CardList <CardInPlay> cardsGoingToGraveyard = CleanUpEther(ref PlayerCards[(int)PlayZone.Ether], timestamp, thoroughCleanUp);
for (int i = 0; i < cardsGoingToGraveyard.Count; i++)
{
if (cardsGoingToGraveyard[i].ChampionCode.Length > 0 && cardsGoingToGraveyard[i].TheCard.Type == "Spell")
{
var championCard = CardLibrary.GetCard(cardsGoingToGraveyard[i].ChampionCode);
var championCardInPlay = new CardInPlay(championCard);
championCardInPlay.LastZone = PlayZone.Ether;
championCardInPlay.LastNonEtherZone = cardsGoingToGraveyard[i].LastNonEtherZone;
championCardInPlay.CurrentZone = PlayZone.Deck;
PlayerCards[(int)PlayZone.Deck].Add(championCard.Cost, championCard.Name, championCardInPlay);
cardsGoingToGraveyard[i].IsFromDeck = false;
Log.WriteLine(LogType.Player, "[{0}{1}] Shuffled back: {2}", championCardInPlay.LastNonEtherZone.ToString()[0],
championCardInPlay.CurrentZone.ToString()[0], championCard.Name);
}
}
PlayerCards[(int)PlayZone.Graveyard].AddRange(cardsGoingToGraveyard);
}
OpponentCards[(int)PlayZone.Graveyard].AddRange(CleanUpEther(ref OpponentCards[(int)PlayZone.Ether], timestamp, true));
NotifyCardSetUpdates();
// Update attacking player
int numPlayerAttackers = PlayerCards[(int)PlayZone.Battle].Count + PlayerCards[(int)PlayZone.Windup].Count + PlayerCards[(int)PlayZone.Attack].Count;
int numOpponentAttackers = OpponentCards[(int)PlayZone.Battle].Count + OpponentCards[(int)PlayZone.Windup].Count + OpponentCards[(int)PlayZone.Attack].Count;
if (AttackingPlayer == PlayerType.None)
{
if (numPlayerAttackers != numOpponentAttackers)
{
AttackingPlayer = numPlayerAttackers > numOpponentAttackers ? PlayerType.LocalPlayer : PlayerType.Opponent;
}
}
else if (numPlayerAttackers == 0 && numOpponentAttackers == 0)
{
AttackingPlayer = PlayerType.None;
}
// Here we try to identify opponent's cards that did not start in deck
// If a card appears in hand and we can see it, it was likely generated
// Also, if a card appears in the field without going through stage first
// it was likely generated by spell or another unit
// Mark these cards as not from deck
// Unfortunately, we have no way of tracking nabbed cards, so those will show up
// as from deck
for (int i = 0; i < OpponentCards[(int)PlayZone.Field].Count; i++)
{
if (OpponentCards[(int)PlayZone.Field][i].LastNonEtherZone == PlayZone.Unknown)
{
OpponentCards[(int)PlayZone.Field][i].IsFromDeck = false;
}
}
for (int i = 0; i < OpponentCards[(int)PlayZone.Hand].Count; i++)
{
if (OpponentCards[(int)PlayZone.Hand][i].LastNonEtherZone == PlayZone.Unknown)
{
OpponentCards[(int)PlayZone.Hand][i].IsFromDeck = false;
}
}
}