Working day07, huge mess

day07/cards.go

@@ -1,18 +1,16 @@
 package main
 
 import (
-    "fmt"
-    "strings"
 	"bufio"
+	"fmt"
 	"math"
-//    "math/rand"
+	"strings"
 	"os"
 	"strconv"
-//	"regexp"
 	"sync"
 )
 
-var mapSeeds = map[string]int{
+var mapSeedsFirst = map[string]int{
 	"A": 12,
 	"K": 11,
 	"Q": 10,
@@ -28,6 +26,22 @@ var mapSeeds = map[string]int{
 	"2": 0,
 }
 
+var mapSeedsSecond = map[string]int{
+	"A": 12,
+	"K": 11,
+	"Q": 10,
+	"T": 9,
+	"9": 8,
+	"8": 7,
+	"7": 6,
+	"6": 5,
+	"5": 4,
+	"4": 3,
+	"3": 2,
+	"2": 1,
+	"J": 0,
+}
+
 type Game struct {
 	mu    sync.Mutex
 	ranks []int
@@ -38,7 +52,7 @@ type Game struct {
 	baseThirteen [7][]int
 }
 
-func (g *Game) ChangeBase(hType, index int, wg *sync.WaitGroup) {
+func (g *Game) ChangeBase(hType, index int, mapSeeds map[string]int, wg *sync.WaitGroup) {
 	// Starting from the first char [0], we create the base13 num
 	chars := len(g.typeOfHand[hType][index])
 	baseTN := g.typeOfHand[hType][index]
@@ -46,23 +60,19 @@ func (g *Game) ChangeBase(hType, index int, wg *sync.WaitGroup) {
 	for i := 0; i < chars; i++ {
 		// This should be refactored to be a bit more legible
 		// It just computes N * 13^i and adds it over
-    	decNum += int(float64(mapSeeds[string(baseTN[i])]) * math.Pow(13, float64(chars - i)))    }
+		decNum += int(float64(mapSeeds[string(baseTN[i])]) * math.Pow(13, float64(chars-i)))
+	}
 	g.baseThirteen[hType][index] = decNum
 	wg.Done()
 }
 
-func (g *Game) DetermineType(cards string, index int, wg *sync.WaitGroup) int {
-    // We create a map and we check the length. Depending on the length, we
-    // insert the string in a specific type
-	m := make(map[string]int)
-    for i := 0; i < len(cards); i++ {
-        key := string(cards[i])
-		m[key] = mapSeeds[key] 
+func (g *Game) AnalyzeMap(cards string, index, mapSize, offset int) {
+	// The offset defaults to 0 for the regular game
+	// it is +1 for a game with Jokers\
+	mapSeed := mapSeedsFirst
+	if offset != 0 {
+		mapSeed = mapSeedsSecond
 	}
-    // Now, depending on the number of elements in the map, we can assign
-    // append cards to a specific rank
-    mapSize := len(m)
-
 	switch mapSize {
 	// Five of a kind
 	case 1:
@@ -72,14 +82,14 @@ func (g *Game) DetermineType(cards string, index int, wg *sync.WaitGroup) int {
 		g.mu.Unlock()
 	// Four of a kind || Full House
 	case 2:
-           i := FullOrFour(cards)
+		i := FullOrFour(cards, offset, mapSeed)
 		g.mu.Lock()
 		g.typeOfHand[i] = append(g.typeOfHand[i], cards)
 		g.indexOfHand[i] = append(g.indexOfHand[i], index)
 		g.mu.Unlock()
 	// Three of a kind || Two pair
 	case 3:
-           i := ThreeOrTwo(cards)
+		i := ThreeOrTwo(cards, offset, mapSeed)
 		g.mu.Lock()
 		g.typeOfHand[i] = append(g.typeOfHand[i], cards)
 		g.indexOfHand[i] = append(g.indexOfHand[i], index)
@@ -97,47 +107,111 @@ func (g *Game) DetermineType(cards string, index int, wg *sync.WaitGroup) int {
 		g.indexOfHand[0] = append(g.indexOfHand[0], index)
 		g.mu.Unlock()
 	}
-    wg.Done()
-
-    return 1
 }
 
-func ThreeOrTwo(cards string) int {
+func (g *Game) DetermineType(cards string, index int, wg *sync.WaitGroup) {
+	// We create a map and we check the length. Depending on the length, we
+	// insert the string in a specific type
+	m := make(map[string]int)
+	for i := 0; i < len(cards); i++ {
+		key := string(cards[i])
+		m[key] = mapSeedsFirst[key]
+	}
+	// Now, depending on the number of elements in the map, we can assign
+	// append cards to a specific rank
+	mapSize := len(m)
+	g.AnalyzeMap(cards, index, mapSize, 0)
+
+	wg.Done()
+}
+
+func (g *Game) SecondGame(cards string, index int, wg *sync.WaitGroup) {
+	// If I don't have Js, run the standard DetermineType
+	m := make(map[string]int)
+	n := make(map[string]int)
+	for i := 0; i < len(cards); i++ {
+		key := string(cards[i])
+		// We need to track the number of Js
+		m[key] += 1
+		// This is to track the type of hand, knowing the number of Js
+		n[key] = mapSeedsSecond[key]
+	}
+	mapSize := len(n)
+	switch m["J"] {
+	case 0:
+		// We have a hand without Js
+		wg.Add(1)
+		g.DetermineType(cards, index, wg)
+	case 1:
+		// If there is a J, J can be use is not adding information, therefore -1
+		g.AnalyzeMap(cards, index, (mapSize - 1), 1)
+	case 2:
+		g.AnalyzeMap(cards, index, (mapSize - 1), 2)
+	case 3:
+		g.AnalyzeMap(cards, index, (mapSize - 1), 3)
+	case 4:
+		g.AnalyzeMap(cards, index, (mapSize - 1), 4)
+	case 5:
+		wg.Add(1)
+		g.DetermineType(cards, index, wg)
+	}
+	wg.Done()
+}
+
+func ThreeOrTwo(cards string, offset int, mapSeed map[string]int) int {
 	m := make(map[string]int)
 	for i := 0; i < len(cards); i++ {
 		key := string(cards[i])
 		m[key] += 1
 	}
+	// If we are in the second game, remove J
+	if mapSeed["J"] == 0 {
+		m["J"] = 0
+	}
 	// m[i] returns 0 if the element is not in the map. I take advantage
 	// of that
-    for i := range mapSeeds {
+	tempNum := 0
+	for i := range mapSeed {
+		if m[i] > tempNum {
+			tempNum = m[i]
+		}
+	}
 	// If an element has 3 values, we have a three of a kind
-        if m[i] == 3 {
+	if tempNum+offset == 3 {
 		return 3
 		/// If an element has 2 values, we have a two pair
-        } else if m[i] == 2 {
+	} else if tempNum+offset == 2 {
 		return 2
 	}
-    }
+	PrintAndWait("This has run for ", cards)
 	return -1
 }
-func FullOrFour(cards string) int {
+func FullOrFour(cards string, offset int, mapSeed map[string]int) int {
 	m := make(map[string]int)
 	for i := 0; i < len(cards); i++ {
 		key := string(cards[i])
 		m[key] += 1
 	}
+	// If we are in the second game, remove J
+	if mapSeed["J"] == 0 {
+		m["J"] = 0
+	}
 	// m[i] returns 0 if the element is not in the map. I take advantage
 	// of that
-    for i := range mapSeeds {
+	// Better to save the maximum number
+	tempNum := 0
+	for i := range mapSeed {
+		if m[i] > tempNum {
+			tempNum = m[i]
+		}
+	}
 	// If an element has four values, we have a Four of a kind
-        if m[i] == 4 {
+	if tempNum+offset == 4 {
 		return 5
 		/// If an element has 3 values, we have a Full House
-        } else if m[i] == 3 {
+	} else if tempNum+offset == 3 {
 		return 4
 	}
-    }
 	return -1
 }
 
@@ -177,7 +251,6 @@ func quicksort(a, h []int, hType int) []int {
 	a[left], a[right] = a[right], a[left]
 	h[left], h[right] = h[right], h[left]
 
-     
 	quicksort(a[:left], h[:left], hType)
 	quicksort(a[left+1:], h[left+1:], hType)
 
@@ -186,12 +259,14 @@ func quicksort(a, h []int, hType int) []int {
 
 func main() {
 
-	file, err := os.Open("./inputs/day07_input")
+	file, err := os.Open("./inputs/day7_try")
 	check(err)
 	defer file.Close()
 
-	// Struct for multiple races
+	// Struct for regular game
 	g := Game{}
+	// Struct for the Joker game
+	jo := Game{}
 
 	// Variable where we store every line in the file
 	lines := make([]string, 0)
@@ -213,6 +288,7 @@ func main() {
 	}
 	// Rank will be from 1 to len(lines)
 	g.ranks = make([]int, len(lines))
+	jo.ranks = make([]int, len(lines))
 	// What do we know for sure? 5 identical seeds are the highest ranks,
 	// 5 completely different seeds are the lowest ranks.
 	// We can iterate for every set of cards, and do different things
@@ -225,9 +301,10 @@ func main() {
 	//
 	// With this, I put every typeOfHand in a different array
 	var wg sync.WaitGroup
-	wg.Add(len(lines))
+	wg.Add(2 * len(lines))
 	for i := 0; i < len(lines); i++ {
-    	go g.DetermineType(cards[i], i, &wg)
+		g.DetermineType(cards[i], i, &wg)
+		jo.SecondGame(cards[i], i, &wg)
 	}
 
 	wg.Wait()
@@ -240,29 +317,26 @@ func main() {
 	for i := range g.typeOfHand {
 		// As many wait groups as the element we will iterate
 		wg.Add(len(g.typeOfHand[i]))
+		wg.Add(len(jo.typeOfHand[i]))
 		// We also need to initialize the array g.baseThirteen so we can
 		// keep the same index
 		g.baseThirteen[i] = make([]int, len(g.typeOfHand[i]))
+		jo.baseThirteen[i] = make([]int, len(jo.typeOfHand[i]))
 		// For every element in a single type of hand
 		for j := range g.typeOfHand[i] {
-			go g.ChangeBase(i, j, &wg) 
+			g.ChangeBase(i, j, mapSeedsFirst, &wg)
+		}
+		for j := range jo.typeOfHand[i] {
+			jo.ChangeBase(i, j, mapSeedsSecond, &wg)
 		}
 	}
 	wg.Wait()
 
-
-	// PrintAndWait(g.typeOfHand[0]) 
-	// PrintAndWait(g.typeOfHand[1]) 
-	// PrintAndWait(g.typeOfHand[2]) 
-	// PrintAndWait(g.typeOfHand[3]) 
-	// PrintAndWait(g.typeOfHand[4]) 
-	// PrintAndWait(g.typeOfHand[5]) 
-	// PrintAndWait(g.typeOfHand[6]) 
 	// A sort of some kind. Important is to also move the index with the number as
 	// well.
-	//
 	for i := range g.baseThirteen {
 		quicksort(g.baseThirteen[i], g.indexOfHand[i], i)
+		quicksort(jo.baseThirteen[i], jo.indexOfHand[i], i)
 	}
 
 	curRank := 1
@@ -270,14 +344,23 @@ func main() {
 	// Iter every array
 	for i := range g.typeOfHand {
 		for j := range g.typeOfHand[i] {
-			//fmt.Printf("For the array %d, element %d, ", i, j)
 			index := g.indexOfHand[i][j]
-        	//fmt.Printf("I gather index %d ", index)
 			rank += curRank * bet[index]
-        	//fmt.Printf("and finally I multiply %d and %d.\n", curRank, bet[index])
-        	//fmt.Scanln() 
 			curRank++
 		}
 	}
-	fmt.Print(rank) 
+	fmt.Printf("Rank: %d\n", rank)
+
+	curRank = 1
+	rank = 0
+	// Iter every array
+	for i := range jo.typeOfHand {
+		for j := range jo.typeOfHand[i] {
+			index := jo.indexOfHand[i][j]
+			rank += curRank * bet[index]
+			curRank++
+		}
+	}
+	fmt.Printf("Rank: %d\n", rank)
+
 }