Sandbox: Difference between revisions

← Older edit

Sandbox (view source)

Revision as of 12:33, 8 June 2024

19,401 bytes added , 21 days ago

→‎{{header|Liberty Basic}}

JackKelly

3

edits

Revision as of 18:28, 8 January 2008 (view source) rosettacode>Mwn3d mNo edit summary ← Older edit		Latest revision as of 12:33, 8 June 2024 (view source) JackKelly (talk \| contribs) (→‎{{header\|Liberty Basic}})
(123 intermediate revisions by 24 users not shown)
Line 1: =={{header\|Liberty Basic}}== ~~[[C++]]~~ {{works with\|LB Booster}} <syntaxhighlight lang="Liberty Basic> NoMainWin ~~== Expression test ==~~ WindowWidth=900 WindowHeight=720 BackgroundColor$ = "191 191 255" ' buttonface default Global Deck, MaxDecks StaticText #1.Debug "", 0, 0, 600, 20 Currently there are {{NUMBEROFARTICLES}} articles, but if someone added another, there would be {{#expr: {{NUMBEROFARTICLES:R}} + 1}} articles. Totally, there are {{NUMBEROFPAGES}} pages, which means that {{#expr: {{NUMBEROFPAGES:R}} - {{NUMBEROFARTICLES:R}} }} pages are not articles. StaticText #1.StaticText "Ten Decks of Poker Hands", 50, 50, 3000, 40 Button #1.Deal "Deal", [Start], UL, 700, 180, 80, 40 Button #1.TenThousand "10,000", [TenThousand], UL, 700, 250, 80, 40 Button #1.Stats "History", ShowStats, UL, 700, 320, 80, 40 Button #1.Quit "Quit", Quit, UL, 700, 390, 80, 40 TextEditor #1.TextEditor 50, 100, 600, 500 open "POKER HANDS" for dialog as #1 ~~=={{header\|Your Language Here}}==~~ #1 "TrapClose Quit" ~~Testing a standard language solution header.~~ #1 "Font Ariel 12 Bold" #1.StaticText "!Font Ariel 16 Bold" #1.TextEditor "!Font Courier_New 14 Bold" if not(exists("Poker Hands.txt")) then #1.Stats "!Disable" MaxDecks=10 wait [TenThousand] ~~=={{header\|Your Language Here\|Display Name}}==~~ TenThousand = 1 ~~Testing a standard language solution header with different display name.~~ [Start] if TenThousand then MaxDecks=10000 #1.TextEditor "!Hide" #1.Deal "!Hide" #1.TenThousand "!Hide" #1.Stats "!Hide" #1.Quit "!Hide" #1.StaticText "Ten Thousand Decks of Poker Hands" end if Deck += 1 if TenThousand then #1.Debug Str$(Deck) if Deck>MaxDecks then Deck -= 1: call Quit #1.TextEditor "!cls" call ShuffleDeck 0 'call TestDeck NextCard=1 for y=1 to 10 for x=1 to 5 y$ = A$(NextCard) B$(x) = ConvertHiCard$(y$) NextCard += 1 next x sort B$(), 1, 5 for x=NextCard-5 to NextCard-1 #1.TextEditor A$(x)+" "; next x #1.TextEditor " "; Values$="" 'determine high value of hand for x=1 to 5 Values$ = Values$ + left$(B$(x),1) next x HiValue$ = RealValue$(right$(Values$,1)) z=0: Flush=0: Straight=0: Royal=0: FourKind=0 ThreeKind=0: Pair=0: TwoPair=0: FullHouse=0 if Flush() then Flush=1 x = Straight() if x then Straight=1: if x=9 then Royal=1 z$ = Kind$() Value$ = RealValue$(right$(z$,1)) z=val(left$(z$, len(z$)-1)) if z=41 then FourKind=1 if z=32 then FullHouse=1 if z=31 then ThreeKind=1 if z=22 then TwoPair=1 if z=21 then Pair=1 select case case Straight and Royal and Flush: #1.TextEditor "Royal Flush": Stats(1) += 1 case Straight and Flush: #1.TextEditor "Straight Flush, " + HiValue$ + " high": Stats(2) += 1 case FourKind: #1.TextEditor "Four of a kind, " + Value$ + "s": Stats(3) += 1 case FullHouse: #1.TextEditor "Full House, " + Value$ + "s high": Stats(4) += 1 case Flush: #1.TextEditor "Flush, " + HiValue$ + " high": Stats(5) += 1 case Straight: #1.TextEditor "Straight, " + HiValue$ + " high": Stats(6) += 1 case ThreeKind: #1.TextEditor "Three of a kind, " + Value$ + "s": Stats(7) += 1 case TwoPair: #1.TextEditor "Two Pair, " + Value$ + " high": Stats(8) += 1 case Pair: #1.TextEditor "Pair " + Value$ + "s": Stats(9) += 1 case else: #1.TextEditor HiValue$ + " high" end select next y #1.TextEditor "" #1.TextEditor "Deck #" + str$(Deck) if TenThousand then goto [Start] else wait function RealValue$(Value$) ~~{{BoxImage\|Fifo.gif\|Animated FIFO}}~~ select case Value$ ~~<font color=red>color</font><font color=green>Forth</font>~~ case "A": RealValue$="T" case "B": RealValue$="J" case "C": RealValue$="Q" case "D": RealValue$="K" case "E": RealValue$="A" case else: RealValue$=Value$ end select end function sub SaveStats Deck ~~source~~ Stats(0) = 10Deck ~~<font color=red>color</font><font color=green>Forth</font>~~ if not(exists("Poker Hands.txt")) then ~~code~~ open "Poker Hands.txt" for output as #2 for x=0 to 9 print #2 Stats(x) next close #2 #1.Stats "!Enable" else open "Poker Hands.txt" for input as #2 for x=0 to 9 input #2 History(x) next close #2 for x=0 to 9 History(x) += Stats(x) next open "Poker Hands.txt" for output as #2 for x=0 to 9 print #2 History(x) next close #2 end if end sub sub ShowStats ~~{{implementation\|Your Language Here}}~~ if exists("Poker Hands.txt") then ~~26 →~~ open "Poker Hands.txt" for input as #2 ~~170 ¬~~ for x=0 to 9 ~~224-234 αßΓπΣσµτΦΘΩ~~ input #2 History(x) ~~236 ∞~~ next ~~241-243 ±≥≤~~ close #2 #1.TextEditor "!cls" for x=1 to 9 Total += History(x) next x Nothing = History(0) - Total for x=0 to 9 ~~244 ⌠~~ #1.TextEditor using("###,### ", History(x)); ~~245 ⌡~~ select case x case 0: #1.TextEditor "hands " case 1: #1.TextEditor "royal flush " + using("##.# %", History(x)/History(0)100) case 2: #1.TextEditor "straight flush " + using("##.# %", History(x)/History(0)100) case 3: #1.TextEditor "four of a kind " + using("##.# %", History(x)/History(0)100) case 4: #1.TextEditor "full house " + using("##.# %", History(x)/History(0)100) case 5: #1.TextEditor "flush " + using("##.# %", History(x)/History(0)100) case 6: #1.TextEditor "straight " + using("##.# %", History(x)/History(0)100) case 7: #1.TextEditor "three of a kind " + using("##.# %", History(x)/History(0)100) case 8: #1.TextEditor "two pair " + using("##.# %", History(x)/History(0)100) case 9: #1.TextEditor "pair " + using("##.# %", History(x)/History(0)100) end select next #1.TextEditor using("###,### ", Nothing) + "nothing " + using("###.# %", Nothing/History(0)100) end if end sub function Kind$() ~~246 ÷~~ for x=1 to 5 ~~247 ≈~~ C$(x) = left$(B$(x), 1) ~~248 °~~ next x ~~251 √~~ if C$(1) = C$(2) then 'check for Lo4 ~~253 ²~~ Lo2=1 if C$(2) = C$(3) then Lo2=0: Lo3=1 if C$(3) = C$(4) then Lo3=0: Kind$="41" + left$(C$(4),1): exit function end if end if end if if C$(5) = C$(4) then 'check for Hi4 Hi2=1 if C$(4) = C$(3) then Hi2=0: Hi3=1 if C$(3) = C$(2) then Hi3=0: Kind$="41" + left$(C$(5),1): exit function end if end if end if if Lo3 then 'check for Full House and 3Kind if C$(4) = C$(5) then Kind$="32" + left$(C$(3),1): exit function else Kind$="31" + left$(C$(3),1): exit function end if end if if Hi3 then if C$(1) = C$(2) then Kind$="32" + left$(C$(5),1): exit function else Kind$="31" + left$(C$(5),1): exit function end if end if if C$(2) = C$(3) and C$(3) = C$(4) then 'Mid3 Kind$="31" + left$(C$(4),1): exit function end if if Lo2 and Hi2 then 'check for pairs Kind$="22" + left$(C$(5),1): exit function end if if Lo2 and (C$(3)=C$(4)) then Kind$="22" + left$(C$(4),1): exit function end if if Hi2 and (C$(3)=C$(2)) then Kind$="22" + left$(C$(5),1): exit function end if if Lo2 then Kind$="21" + left$(C$(2),1) if Hi2 then Kind$="21" + left$(C$(5),1) if C$(2)=C$(3) then Kind$="21" + left$(C$(3),1) if C$(3)=C$(4) then Kind$="21" + left$(C$(4),1) end function function Straight() Order$="23456789ABCDEF" for x=1 to 5 Ranks$ = Ranks$ + left$(B$(x), 1) next x x = instr(Order$, Ranks$) if x then Straight=x end function function Flush() Flush=1 for x=1 to 5 Suits$ = Suits$ + right$(B$(x), 1) next x for x=2 to 5 if mid$(Suits$, x, 1) <> left$(Suits$, 1) then Flush=0: exit function next x end function sub ShuffleDeck Jokers Jokers = int(abs(Jokers)): if Jokers>4 then Jokers=4 Size=52 + Jokers dim CardDeck$(Size+10,1), A$(Size+10) 'Open new card deck [Start] for x=1 to Size CardDeck$(x,0) = "99" next x for x=1 to Size 1 y=RandomNumber(1,Size) if CardDeck$(y,0)="99" then CardDeck$(y,0)=str$(x) else goto 1 next x for x=1 to Size 'Examine shuffled deck if CardDeck$(x,0)=str$(x) then z = 1: exit for next x if z then z=0: goto [Start] for x=1 to Size 'Save shuffled deck A$(x) = CardFace$(val(CardDeck$(x,0))) next x A$(0) = str$(Size) end sub function CardFace$(n) select case n case 1: CardFace$="AD" case 2: CardFace$="2D" case 3: CardFace$="3D" case 4: CardFace$="4D" case 5: CardFace$="5D" case 6: CardFace$="6D" case 7: CardFace$="7D" case 8: CardFace$="8D" case 9: CardFace$="9D" case 10: CardFace$="TD" case 11: CardFace$="JD" case 12: CardFace$="QD" case 13: CardFace$="KD" case 14: CardFace$="AC" case 15: CardFace$="2C" case 16: CardFace$="3C" case 17: CardFace$="4C" case 18: CardFace$="5C" case 19: CardFace$="6C" case 20: CardFace$="7C" case 21: CardFace$="8C" case 22: CardFace$="9C" case 23: CardFace$="TC" case 24: CardFace$="JC" case 25: CardFace$="QC" case 26: CardFace$="KC" case 27: CardFace$="AH" case 28: CardFace$="2H" case 29: CardFace$="3H" case 30: CardFace$="4H" case 31: CardFace$="5H" case 32: CardFace$="6H" case 33: CardFace$="7H" case 34: CardFace$="8H" case 35: CardFace$="9H" case 36: CardFace$="TH" case 37: CardFace$="JH" case 38: CardFace$="QH" case 39: CardFace$="KH" case 40: CardFace$="AS" case 41: CardFace$="2S" case 42: CardFace$="3S" case 43: CardFace$="4S" case 44: CardFace$="5S" case 45: CardFace$="6S" case 46: CardFace$="7S" case 47: CardFace$="8S" case 48: CardFace$="9S" case 49: CardFace$="TS" case 50: CardFace$="JS" case 51: CardFace$="QS" case 52: CardFace$="KS" case 53: CardFace$="X1" case 54: CardFace$="X2" case 55: CardFace$="X3" case 56: CardFace$="X4" end select end function function RandomNumber(a, b) smaller = min(a, b) range = abs(int(a-b))+1 if range < 1 then exit function r = int(rnd()range) RandomNumber = r + smaller end function function ConvertHiCard$(Card$) select case left$(Card$,1) case "T": left$(Card$,1)="A" case "J": left$(Card$,1)="B" case "Q": left$(Card$,1)="C" case "K": left$(Card$,1)="D" case "A": left$(Card$,1)="E" case "X": left$(Card$,1)="F" end select ConvertHiCard$ = Card$ end function sub TestDeck data KD, KC, KS, AH, AS ' full house data 6D, 6C, 6S, 6H, 8H ' four of a kind (io) data 2D, 4S, 4C, TH, TD ' two pair data 4H, 5H, 6H, 7H, 8H ' straight flush data 9S, QD, QC, QH, 3D ' three of a kind data 6H, 7D, 8C, 9C, TS ' straight data TH, AH, AS, AC, AD ' four of a kind (hI) data 3S, 5S, 7S, 9S, JS ' flush data AD, KD, QD, JD, TD ' royal flush data 2C, 2D, 3H, 4S, 5C ' one pair dim A$(50) for x=1 to 50 read A$(x) next x end sub function exists(FileName$) files "", FileName$, FileDir$() FileCount$ = FileDir$(0, 0) exists = val(FileCount$) end function sub Quit if Deck = MaxDecks then call SaveStats Deck close #1 end end sub </syntaxhighlight> {{out}} <pre> JH 8C 8S TH KC Pair 8s 9C JS 3S 5D 3D Pair 3s TD QH 6S TS AD Pair Ts AH 9D KD 3H AC Pair As QS 6D JC QD 2H Pair Qs 4H 2D 5S 4C JD Pair 4s KH 6C 4S 7C 5H K high 3C 7D 8D 4D 7H Pair 7s 9S 2S 7S 9H 6H Pair 9s AS QC 5C TC 2C A high Deck #1 </pre> =={{header\|Swift}}== {{works with\|swift\|5.9}} <syntaxhighlight lang="Swift"> struct SplitMix64: RandomNumberGenerator { var state: UInt64 init(seed: UInt64) { state = seed } mutating func next() -> UInt64 { state &+= 0x9e3779b97f4a7c15 var z = state z = (z ^ (z >> 30)) &* 0xbf58476d1ce4e5b9 z = (z ^ (z >> 27)) &* 0x94d049bb133111eb return z ^ (z >> 31) } mutating func nextFloat() -> Float64 { Float64(next() >> 11) * 0x1.0p-53 } } do { var split = SplitMix64(seed: 1234567) print(split) for _ in 0..<5 { print(split.next()) } split = .init(seed: 987654321) print("\n\(split)") var counts = [0, 0, 0, 0, 0] for _ in 0..<100_000 { let i = Int(split.nextFloat() * 5.0) counts[i] += 1 } for (i, count) in zip(0..., counts) { print("\(i): \(count)") } } </syntaxhighlight> {{out}} <pre> SplitMix64(state: 1234567) 6457827717110365317 3203168211198807973 9817491932198370423 4593380528125082431 16408922859458223821 SplitMix64(state: 987654321) 0: 20027 1: 19892 2: 20073 3: 19978 4: 20030 </pre> =={{header\|Java}}== This is a direct translation of [[Tamagotchi emulator#Go\|the Go version]]. As such, the output will be similar if not identical. The code does not use any Java 8+ features so it may function on lower versions. <syntaxhighlight lang="Java"> package com.mt; import java.util.ArrayList; import java.util.List; import java.util.Random; import java.util.Scanner; class Tamagotchi { public String name; public int age,bored,food,poop; } public class TamagotchiGame { Tamagotchi tama;//current Tamagotchi Random random = new Random(); // pseudo random number generator String[] verbs = { "Ask", "Ban", "Bash", "Bite", "Break", "Build", "Cut", "Dig", "Drag", "Drop", "Drink", "Enjoy", "Eat", "End", "Feed", "Fill", "Force", "Grasp", "Gas", "Get", "Grab", "Grip", "Hoist", "House", "Ice", "Ink", "Join", "Kick", "Leave", "Marry", "Mix", "Nab", "Nail", "Open", "Press", "Quash", "Rub", "Run", "Save", "Snap", "Taste", "Touch", "Use", "Vet", "View", "Wash", "Xerox", "Yield", }; String[] nouns = { "arms", "bugs", "boots", "bowls", "cabins", "cigars", "dogs", "eggs", "fakes", "flags", "greens", "guests", "hens", "hogs", "items", "jowls", "jewels", "juices", "kits", "logs", "lamps", "lions", "levers", "lemons", "maps", "mugs", "names", "nests", "nights", "nurses", "orbs", "owls", "pages", "posts", "quests", "quotas", "rats", "ribs", "roots", "rules", "salads", "sauces", "toys", "urns", "vines", "words", "waters", "zebras", }; String[] boredIc ons = {"💤", "💭", "❓"}; String[] foodIcons = {"🍼", "🍔", "🍟", "🍰", "🍜"}; String[] poopIcons = {"💩"}; String[] sickIcons1 = {"😄", "😃", "😀", "😊", "😎", "👍"};//ok String[] sickIcons2 = {"😪", "😥", "😰", "😓"};//ailing String[] sickIco ns3 = {"😩", "😫"};//bad String[] sickIcons4 = {"😡", "😱"};//very bad String[] sickIcons5 = {"❌", "💀", "👽", "😇"};//dead String brace(String string) { return String.format("{ %s }", string); } void create(String name) { tama = new Tamagotchi(); tama.name = name; tama.age = 0; tama.bored = 0; tama.food = 2; tama.poop = 0; } boolean alive() { // alive if sickness <= 10 return sickness() <= 10; } void feed() { tama.food++; } void play() {//may or may not help with boredom tama.bored = Math.max(0, tama.bored - random.nextInt(2)); } void talk() { String verb = verbs[random.nextInt(verbs.length)]; String noun = nouns[random.nextInt(nouns.length)]; System.out.printf("😮 : %s the %s.%n", verb, noun); tama.bored = Math.max(0, tama.bored - 1); } void clean() { tama.poop = Math.max(0, tama.poop - 1); } void idle() {//renamed from wait() due to wait being an existing method from the Object class tama.age++; tama.bored += random.nextInt(2); tama.food = Math.max(0, tama.food - 2); tama.poop += random.nextInt(2); } String status() {// get boredom/food/poop icons if(alive()) { StringBuilder b = new StringBuilder(), f = new StringBuilder(), p = new StringBuilder(); for(int i = 0; i < tama.bored; i++) { b.append(boredIcons[random.nextInt(boredIcons.length)]); } for(int i = 0; i < tama.food; i++) { f.append(foodIcons[random.nextInt(foodIcons.length)]); } for(int i = 0; i < tama.poop; i++) { p.append(poopIcons[random.nextInt(poopIcons.length)]); } return String.format("%s %s %s", brace(b.toString()), brace(f.toString()), brace(p.toString())); } return " R.I.P"; } //too much boredom/food/poop int sickness() { //dies at age 42 at the latest return tama.poop + tama.bored + Math.max(0, tama.age - 32) + Math.abs(tama.food - 2); } //get health status from sickness level void health() { int s = sickness(); String icon; switch(s) { case 0: case 1: case 2: icon = sickIcons1[random.nextInt(sickIcons1.length)]; break; case 3: case 4: icon = sickIcons2[random.nextInt(sickIcons2.length)]; break; case 5: case 6: icon = sickIcons3[random.nextInt(sickIcons3.length)]; break; case 7: case 8: case 9: case 10: icon = sickIcons4[random.nextInt(sickIcons4.length)]; break; default: icon = sickIcons5[random.nextInt(sickIcons5.length)]; break; } System.out.printf("%s (🎂 %d) %s %d %s%n%n", tama.name, tama.age, icon, s, status()); } void blurb() { System.out.println("When the '?' prompt appears, enter an action optionally"); System.out.println("followed by the number of repetitions from 1 to 9."); System.out.println("If no repetitions are specified, one will be assumed."); System.out.println("The available options are: feed, play, talk, clean or wait.\n"); } public static void main(String[] args) { TamagotchiGame game = new TamagotchiGame(); game.random.setSeed(System.nanoTime()); System.out.println(" TAMAGOTCHI EMULATOR"); System.out.println(" ===================\n"); Scanner scanner = new Scanner(System.in); System.out.print("Enter the name of your tamagotchi : "); String name = scanner.nextLine().toLowerCase().trim(); game.create(name); System.out.printf("%n%s (age) health {bored} {food} {poop}%n%n", "name"); game.health(); game.blurb(); ArrayList<String> commands = new ArrayList<>(List.of("feed", "play", "talk", "clean", "wait")); int count = 0; while(game.alive()) { System.out.print("? "); String input = scanner.nextLine().toLowerCase().trim(); String[] items = input.split(" "); if(items.length > 2) continue; String action = items[0]; if(!commands.contains(action)) { continue; } int reps = 1; if(items.length == 2) { reps = Integer.parseInt(items[1]); } else { reps = 1; } for(int i = 0; i < reps; i++) { switch(action) { case "feed": game.feed(); break; case "play": game.play(); break; case "talk": game.talk(); break; case "wait": game.idle(); break; } //simulate a wait on every third (non-wait) action if(!action.equals("wait")) { count++; if(count%3==0) { game.idle(); } } } game.health(); } scanner.close(); } } </syntaxhighlight> {{out}} <pre> TAMAGOTCHI EMULATOR =================== Enter the name of your tamagotchi : jeremy name (age) health {bored} {food} {poop} jeremy (🎂 0) 😀 0 { } { 🍜🍜 } { } When the '?' prompt appears, enter an action optionally followed by the number of repetitions from 1 to 9. If no repetitions are specified, one will be assumed. The available options are: feed, play, talk, clean or wait. ? feed 4 jeremy (🎂 1) 😥 3 { } { 🍟🍜🍟🍜 } { 💩 } ? wait 4 jeremy (🎂 5) 😫 5 { 💭💤 } { } { 💩 } ? clean 2 jeremy (🎂 6) 😫 6 { 💭💭💭 } { } { 💩 } ? talk 4 😮 : Grasp the names. 😮 : Vet the greens. 😮 : Grasp the urns. 😮 : Dig the zebras. jeremy (🎂 7) 😰 3 { } { } { 💩 } ? feed 6 jeremy (🎂 9) 😊 2 { } { 🍼🍟 } { 💩💩 } ? play 2 jeremy (🎂 10) 😩 5 { } { } { 💩💩💩 } ? talk 😮 : Touch the eggs. jeremy (🎂 10) 😫 5 { } { } { 💩💩💩 } </pre>