Working on AI

assets/strings.js

@@ -11,7 +11,17 @@ const GAME_STRINGS = {
   'POKER_GAME_CARDS_RIVERED': 'Cards river',
 
   'DEBUG_WINNER_DECIDED': 'DEBUG WINNER',
-  'BURNOUT': 'Burnout gey\nlmao.'
+  'DEBUG_PLAYER': 'DEBUG PLAYER',
+
+  'POKER_GAME_AI_FOLD': 'AI Folding',
+  'POKER_GAME_AI_RAISE': 'AI Raise',
+  'POKER_GAME_AI_RAISE_BLUFF': 'AI Raise\nBut Bluffing',
+  'POKER_GAME_AI_CALL': 'AI Calling',
+  'POKER_GAME_AI_CALL_BLUFF': 'AI Calling\nBut Bluffing',
+  'POKER_GAME_AI_ALL_IN': 'AI All In',
+  'POKER_GAME_AI_ALL_IN_BLUFF': 'AI All In\nBut Bluffing',
+  'POKER_GAME_AI_CHECK': 'AI Checking',
+  'POKER_GAME_AI_CHECK_BLUFF': 'AI Checking\nBut Bluffing',
 };
 
 module.exports = { GAME_STRINGS };

src/conversation/queue.c

@@ -33,19 +33,70 @@ void conversationQueueDealCards() {
 }
 
 void conversationQueueBeginBetting() {
+  pokerturn_t turn;
+  turn.chips = 0;
   // Begin the betting process. First we need to decide if the player or the
   // AI is betting, then based on that we decide what to do next.
 
   // TODO: Actually bet.
   if(POKER_PLAYER_BETTER == POKER_HUMAN_INDEX) {
     // This is the human player.
-    BGB_MESSAGE("Player betting.");
+    BGB_MESSAGE("Player folding.");
+    conversationTextboxString(DEBUG_PLAYER);
+    POKER_PLAYERS[POKER_PLAYER_BETTER].state |= POKER_PLAYER_STATE_FOLDED;
   } else {
-    // This is an AI player.
+    // This is an AI player, get their turn.
     BGB_MESSAGE("AI turn to bet");
+    pokerAi(POKER_PLAYER_BETTER, &turn);
+
+    BGB_printf("AI Decided to %u, with %u chips and %u confidence, bluffin: %u", turn.type, turn.chips, turn.confidence, turn.bluff);
+
+    switch(turn.type) {
+      case POKER_TURN_TYPE_FOLD:
+        POKER_PLAYERS[POKER_PLAYER_BETTER].state |= POKER_PLAYER_STATE_FOLDED;
+        conversationTextboxString(POKER_GAME_AI_FOLD);
+        break;
+
+      case POKER_TURN_TYPE_BET:
+        if(turn.bluff) {
+          conversationTextboxString(POKER_GAME_AI_RAISE_BLUFF);
+        } else {
+          conversationTextboxString(POKER_GAME_AI_RAISE);
+        }
+        break;
+
+      case POKER_TURN_TYPE_CALL:
+        if(turn.bluff) {
+          conversationTextboxString(POKER_GAME_AI_CALL_BLUFF);
+        } else {
+          conversationTextboxString(POKER_GAME_AI_CALL);
+        }
+        break;
+
+      case POKER_TURN_TYPE_ALL_IN:
+        if(turn.bluff) {
+          conversationTextboxString(POKER_GAME_AI_ALL_IN_BLUFF);
+        } else {
+          conversationTextboxString(POKER_GAME_AI_ALL_IN);
+        }
+
+      case POKER_TURN_TYPE_CHECK:
+        if(turn.bluff) {
+          conversationTextboxString(POKER_GAME_AI_CHECK_BLUFF);
+        } else {
+          conversationTextboxString(POKER_GAME_AI_CHECK);
+        }
+        break;
+    }
+
+    // Now we have their turn, decide what to say based on that.
   }
+  
+  if(turn.chips > 0) {
+    pokerBet(POKER_PLAYER_BETTER, turn.chips);
+  }
+
   QUEUE_ITEM = QUEUE_NEXT_BETTER;
-  conversationPause(1);
 }
 
 void conversationQueueNextBetter() {
@@ -70,10 +121,7 @@ void conversationQueueNextBetter() {
 
   // If we reach this point then we either need to begin the betting round, or
   // we are going to move to the winning decider.
-  if(
-    i == POKER_PLAYER_COUNT_MAX ||
-    POKER_COMMUNITY_SIZE_MAX == POKER_COMMUNITY_SIZE
-  ) {
+  if(POKER_COMMUNITY_SIZE_MAX == POKER_COMMUNITY_SIZE) {
     QUEUE_ITEM = QUEUE_WINNER_DECIDE;
     conversationQueueNext();
     return;
@@ -127,6 +175,12 @@ void conversationQueueWinnerDecide() {
 
 ////////////////////////////////////////////////////////////////////////////////
 
+void conversationQueueAiFold() {
+
+}
+
+////////////////////////////////////////////////////////////////////////////////
+
 queuecallback_t *QUEUE_CALLBACKS[] = {
   // 0
   NULL,

src/poker/poker.c

@@ -66,12 +66,12 @@ void pokerNewRound() {
   POKER_DECK_SIZE = CARD_DECK_SIZE;
 
   // Shuffle Deck
-  for(i = CARD_DECK_SIZE-1; i > 0; i--) {
-    k = POKER_DECK[i];
-    j = rand() % (i+1);
-    POKER_DECK[i] = POKER_DECK[j];
-    POKER_DECK[j] = k;
-  }
+  // for(i = CARD_DECK_SIZE-1; i > 0; i--) {
+  //   k = POKER_DECK[i];
+  //   j = rand() % (i+1);
+  //   POKER_DECK[i] = POKER_DECK[j];
+  //   POKER_DECK[j] = k;
+  // }
 
   // Reset Players and decide new blinds.
   found = 0;
@@ -146,7 +146,6 @@ void pokerAi(uint8_t player, pokerturn_t *turn) {
   uint8_t i, cardNumber0, cardNumber1, suitNumber0, suitNumber1;
   uint16_t callBet, maxBet, amount, bluffBet;
   uint8_t random;// TODO: Determine type.
-  bool isBluff;
   uint16_t confidence, expectedGain, potOdds;
   pokerplayer_t *plyr = POKER_PLAYERS + player;
 
@@ -157,7 +156,6 @@ void pokerAi(uint8_t player, pokerturn_t *turn) {
   // they are expected to win from those games, but I'm just going to use the
   // odds of the hand being the winning hand.
 
-
   // Is this preflop?
   if(POKER_COMMUNITY_SIZE == 0) {
     // Get the hand weight
@@ -211,34 +209,36 @@ void pokerAi(uint8_t player, pokerturn_t *turn) {
     // Now work out the pot odds, this is basically "how many times the callbet
     // could I win if I win this hand". e.g. Desirable hands will have an 
     // expected gain much higher than the callbet.
-    //TODO: not float
-    potOdds = callBet / (callBet + expectedGain);
+    potOdds = plyr->chips / 1000;
+    potOdds = MATH_MAX((callBet + expectedGain), 1) / MATH_MAX(potOdds, 1);
   } else {
     // If the call bet is zero then there's fairly equal odds, so let's just
     // take the chances out of the remainig player count.
-    potOdds = 1000 / pokerGetRemainingBetterCount();
+    potOdds = 1000 / pokerGetRemainingBetterCount() * 2;// 0 - 1000
   }
 
   // Now determine the expected ROI
-  // TODO: not float
-  expectedGain = confidence / potOdds;
+  //TODO: I think these values are a bit odd.
+  expectedGain = (confidence*100) / (potOdds / 10);
 
   // Now get a random number 0-100.
   random = rand() % 100;
 
-  // Determine the max bet that the AI is willing to make. This is valued as
-  // "3/4 chips remaining - random(0-50)" and subtract the callbet. I will
-  // probably chance this since the random 0-50 is.. random
-  // TODO: Rewrite this
-  maxBet = plyr->chips - (random / 2);
-  maxBet -= callBet;
+  // Determine the max bet that the AI is willing to make. The max bet is
+  // basically how high the AI is willing to bet.
+  maxBet = plyr->chips;// TODO: Replace with below code and test, just running
+                      // With this for now.
+  // maxBet = plyr->chips / MATH_MAX(random / 10, 1);
+  // maxBet -= callBet;
+  // BGB_printf("Rand %u, Max Bet %u", random, callBet);
 
   // Determine what's a good bluff bet.
   // TODO: not float
-  bluffBet = random * maxBet / 100 / 2;
+  bluffBet = maxBet;
+  // bluffBet = ((random * 100) / maxBet) * plyr->chips;
 
   // Now prep the output
-  isBluff = false;
+  turn->bluff = false;
   amount = 0;
 
   // Now the actual AI can happen. This is basically a weight to confidence
@@ -249,17 +249,17 @@ void pokerAi(uint8_t player, pokerturn_t *turn) {
       amount = 0;
     } else {
       amount = bluffBet;
-      isBluff = true;
+      turn->bluff = true;
     }
   } else if ((expectedGain < 1000 && confidence < 850) || confidence < 100) {
     if (random < 80) {
       amount = 0;
     } else if(random < 5) {
       amount = callBet;
-      isBluff = true;
+      turn->bluff = true;
     } else {
       amount = bluffBet;
-      isBluff = true;
+      turn->bluff = true;
     }
   } else if ((expectedGain < 1300 && confidence < 900) || confidence < 500) {
     if (random < 60 || confidence < 500) {
@@ -274,6 +274,7 @@ void pokerAi(uint8_t player, pokerturn_t *turn) {
       amount = maxBet;
     }
   } else {
+    // TODO: check this
     amount = (plyr->chips - callBet) * 9 / 10;
   }
 
@@ -282,21 +283,31 @@ void pokerAi(uint8_t player, pokerturn_t *turn) {
     if(random > 5) amount = callBet;
   }
 
+
   // Did we actually bet?
   if(amount > 0) {
     // Let's not get caught in a raising loop with AI.
-    if(plyr->timesRaised >= POKER_TURN_MAX_RAISES) {
-      amount = callBet;
-    }
-
+    if(plyr->timesRaised >= POKER_TURN_MAX_RAISES) amount = callBet;
     amount = MATH_MAX(amount, callBet);
-    // turn = pokerTurnBet(poker, playerIndex, amount);
+    amount = MATH_MIN(amount, plyr->chips);
+    turn->chips = amount;
     turn->confidence = confidence;
+
+    if(amount == plyr->chips) {
+      turn->type == POKER_TURN_TYPE_ALL_IN;
+    } else if(amount == callBet) {
+      turn->type = POKER_TURN_TYPE_CALL;
+    } else {
+      turn->type == POKER_TURN_TYPE_BET;
+    }
+    
   } else if(pokerCanPlayerCheck(player)) {
-    // turn = pokerTurnBet(poker, playerIndex, 0);
+    turn->type = POKER_TURN_TYPE_CHECK;
+    turn->chips = 0;
     turn->confidence = 1000;
   } else {
-    // turn = pokerTurnFold(poker, playerIndex);
+    turn->type = POKER_TURN_TYPE_FOLD;
+    turn->chips = 0;
     turn->confidence = 1000 - confidence;
   }
 }

src/poker/poker.h

@@ -12,8 +12,9 @@
 #include "player.h"
 #include "pot.h"
 #include "turn.h"
+#include "winner.h"
 
-#define POKER_COMMUNITY_SIZE_MAX 5 
+#define POKER_COMMUNITY_SIZE_MAX 5
 #define POKER_HUMAN_INDEX 0x00
 
 #define POKER_COUNT_FLOP 0x03

src/poker/turn.h

@@ -10,11 +10,21 @@
 
 #define POKER_TURN_MAX_RAISES 0x02
 
+/** Turn Types */
+#define POKER_TURN_TYPE_OUT 0x00
+#define POKER_TURN_TYPE_FOLD 0x01
+#define POKER_TURN_TYPE_BET 0x02
+#define POKER_TURN_TYPE_CALL 0x03
+#define POKER_TURN_TYPE_ALL_IN 0x04
+#define POKER_TURN_TYPE_CHECK 0x05
+
 typedef struct {
   /** What type of action the turn is */
   uint8_t type;
   /** How many chips they did in their turn (if applicable) */
   uint16_t chips;
-  /** How confident the AI is about their turn. 0 = none, 1 = full */
+  /** How confident the AI is about their turn. 0 = none, 1000 = full */
   uint16_t confidence;
+  /** Is this turn a bluff? */
+  bool bluff;
 } pokerturn_t;

src/poker/winner.h

@@ -0,0 +1,58 @@
+/**
+ * Copyright (c) 2022 Dominic Masters
+ * 
+ * This software is released under the MIT License.
+ * https://opensource.org/licenses/MIT
+ */
+
+#pragma once
+#include "../libs.h"
+#include "card.h"
+
+/** Maximum number of cards a winning state can hold. */
+#define POKER_WINNING_FULL_SIZE 0x07
+
+/** How many cards in the winning set */
+#define POKER_WINNING_SET_SIZE 0x05
+
+/** Winning Types */
+#define POKER_WINNING_TYPE_NULL 0x00
+#define POKER_WINNING_TYPE_ROYAL_FLUSH 0x01
+#define POKER_WINNING_TYPE_STRAIGHT_FLUSH 0x02
+#define POKER_WINNING_TYPE_FOUR_OF_A_KIND 0x03
+#define POKER_WINNING_TYPE_FULL_HOUSE 0x04
+#define POKER_WINNING_TYPE_FLUSH 0x05
+#define POKER_WINNING_TYPE_STRAIGHT 0x06
+#define POKER_WINNING_TYPE_THREE_OF_A_KIND 0x07
+#define POKER_WINNING_TYPE_TWO_PAIR 0x08
+#define POKER_WINNING_TYPE_PAIR 0x09
+#define POKER_WINNING_TYPE_HIGH_CARD 0x0A
+
+/** Confidences of winning based on the current hand type */
+#define POKER_WINNING_CONFIDENCE_ROYAL_FLUSH 1000
+#define POKER_WINNING_CONFIDENCE_STRAIGHT_FLUSH 990
+#define POKER_WINNING_CONFIDENCE_FOUR_OF_A_KIND 900
+#define POKER_WINNING_CONFIDENCE_FULL_HOUSE 850
+#define POKER_WINNING_CONFIDENCE_FLUSH 800
+#define POKER_WINNING_CONFIDENCE_STRAIGHT 700
+#define POKER_WINNING_CONFIDENCE_THREE_OF_A_KIND 500
+#define POKER_WINNING_CONFIDENCE_TWO_PAIR 400
+#define POKER_WINNING_CONFIDENCE_PAIR 200
+#define POKER_WINNING_CONFIDENCE_HIGH_CARD 100
+
+/** Holds information about a player's winning state */
+typedef struct {
+  /** The full set of both the dealer and player's hand */
+  uint8_t full[POKER_WINNING_FULL_SIZE];
+  uint8_t fullSize;
+  
+  /** Holds the winning set */
+  uint8_t set[POKER_WINNING_SET_SIZE];
+  uint8_t setSize;
+
+  /** Winning Type */
+  uint8_t type;
+
+  /** If there was a kicker card it will be here, otherwise -1 for no kicker */
+  uint8_t kicker;
+} pokerplayerwinning_t;