func makeDeck(w http.ResponseWriter, r *http.Request, ps httprouter.Params) {
var (
sets = availableSets
requestedSets deck.Sets
vetoProbability veto.Probability
weights score.Weights
req makeDeckRequest
maxSetCount uint
maxScore uint
d deck.Deck
)
decoder := json.NewDecoder(r.Body)
err := decoder.Decode(&req)
if err != nil {
http.Error(w, fmt.Sprintf("Error decoding JSON body: %s", err), http.StatusBadRequest)
return
}
log.Printf("makeDeck(%+v)\n", req)
for _, set := range req.Sets {
requestedSets.Add(set)
}
if !requestedSets.Empty() {
sets.Intersect(requestedSets)
}
if sets.Empty() {
http.Error(w, "Can't generate a deck from no sets", http.StatusBadRequest)
return
}
maxSetCount = req.MaxSetCount
if maxSetCount == 0 {
maxSetCount = 2
}
if req.VetoProbability == nil || (req.VetoProbability == &veto.Probability{}) {
log.Println("Using default veto probs")
// Defaults
vetoProbability = veto.Probability{
WhenTooExpensive: 0.90,
WhenNoTrashing: 0.70,
WhenTooManyMechanics: 0.85,
WhenTooManyAttacks: 0.85,
}
} else {
vetoProbability = *req.VetoProbability
}
weights = req.Weights
// Defaults
if weights.Trashing == 0 {
weights.Trashing = 5
}
if weights.Random == 0 {
weights.Random = 5
}
if weights.Chaining == 0 {
weights.Chaining = 5
}
if weights.CostSpread == 0 {
weights.CostSpread = 5
}
if weights.SetCount == 0 {
weights.SetCount = 5
}
if weights.MechanicCount == 0 {
weights.MechanicCount = 5
}
if weights.Novelty == 0 {
weights.Novelty = 5
}
decks := make([]deck.Deck, 0, 1000)
count := 0
GenerateDeck:
candidateDeck := deck.NewRandomDeck(maxSetCount, sets)
if veto.TooExpensive(vetoProbability, candidateDeck) {
goto GenerateDeck
}
if veto.NoTrashing(vetoProbability, candidateDeck) {
goto GenerateDeck
}
if veto.TooManyMechanics(vetoProbability, candidateDeck) {
goto GenerateDeck
}
if veto.TooManyAttacks(vetoProbability, candidateDeck) {
goto GenerateDeck
}
count++
decks = append(decks, candidateDeck)
if len(decks) < cap(decks) {
goto GenerateDeck
}
var totalCards uint
cardCounts := make(map[deck.Card]uint, len(deck.Cards))
for _, deck := range decks {
for _, card := range deck.Cards {
cardCounts[card]++
totalCards++
}
for _, card := range deck.Events {
cardCounts[card]++
totalCards++
}
}
cardProbs := make(map[deck.Card]float64, len(cardCounts))
for card, count := range cardCounts {
cardProbs[card] = float64(count) / float64(totalCards)
}
for _, candidateDeck := range decks {
candidateScore := score.Evaluate(weights, candidateDeck, cardProbs)
if candidateScore > maxScore {
d = candidateDeck
maxScore = candidateScore
}
}
resp := deckResponse{
ID: base64.URLEncoding.EncodeToString(d.ID()),
Cards: d.Cards,
Events: d.Events,
ColoniesAndPlatinums: d.ColoniesAndPlatinums,
Shelters: d.Shelters,
Potions: d.Potions(),
Spoils: d.Spoils(),
Ruins: d.Ruins(),
Hardware: deckHardware{
CoinTokens: d.CoinTokens(),
VictoryTokens: d.VictoryTokens(),
MinusOneCardTokens: d.MinusOneCardTokens(),
MinusOneCoinTokens: d.MinusOneCoinTokens(),
JourneyTokens: d.JourneyTokens(),
TavernMats: d.TavernMats(),
TradeRouteMats: d.TradeRouteMats(),
NativeVillageMats: d.NativeVillageMats(),
},
}
enc := json.NewEncoder(w)
_ = enc.Encode(resp)
w.Header().Set("Content-Type", "application/json")
}
