15 puzzle game: Difference between revisions
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Back to previous version, because of better understanding.
m (J: don't need a variable for result of a tiny expression used only one place) |
m (Back to previous version, because of better understanding.) Tag: Manual revert |
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{{
[[File:15_puzzle.png|300px|thumb|right]]
[[Category:Puzzles]]
[[Category:Games]]
;Task:
Implement the [[wp:15_puzzle|Fifteen Puzzle Game]].
The '''15-puzzle''' is also known as:
:::* '''Fifteen Puzzle'''
:::* '''Gem Puzzle'''
:::* '''Boss Puzzle'''
:::* '''Game of Fifteen'''
:::* '''Mystic Square'''
:::* '''14-15 Puzzle'''
:::* and some others.
;Related Tasks:
:* [[15_puzzle_solver|15 Puzzle Solver]]
:* [[16 Puzzle Game]]
<br><br>
=={{header|11l}}==
{{trans|Python: Original, with output}}
<syntaxhighlight lang="11l">T Puzzle
position = 0
[Int = String] items
F main_frame()
V& d = .items
print(‘+-----+-----+-----+-----+’)
print(‘|#.|#.|#.|#.|’.format(d[1], d[2], d[3], d[4]))
print(‘+-----+-----+-----+-----+’)
print(‘|#.|#.|#.|#.|’.format(d[5], d[6], d[7], d[8]))
print(‘+-----+-----+-----+-----+’)
print(‘|#.|#.|#.|#.|’.format(d[9], d[10], d[11], d[12]))
print(‘+-----+-----+-----+-----+’)
print(‘|#.|#.|#.|#.|’.format(d[13], d[14], d[15], d[16]))
print(‘+-----+-----+-----+-----+’)
F format(=ch)
ch = ch.trim(‘ ’)
I ch.len == 1
R ‘ ’ch‘ ’
E I ch.len == 2
R ‘ ’ch‘ ’
E
assert(ch.empty)
R ‘ ’
F change(=to)
V fro = .position
L(a, b) .items
I b == .format(String(to))
to = a
L.break
swap(&.items[fro], &.items[to])
.position = to
F build_board(difficulty)
L(i) 1..16
.items[i] = .format(String(i))
V tmp = 0
L(a, b) .items
I b == ‘ 16 ’
.items[a] = ‘ ’
tmp = a
L.break
.position = tmp
Int diff
I difficulty == 0
diff = 10
E I difficulty == 1
diff = 50
E
diff = 100
L 0 .< diff
V lst = .valid_moves()
[Int] lst1
L(j) lst
lst1.append(Int(j.trim(‘ ’)))
.change(lst1[random:(lst1.len)])
F valid_moves()
V pos = .position
I pos C [6, 7, 10, 11]
R [.items[pos - 4], .items[pos - 1], .items[pos + 1], .items[pos + 4]]
E I pos C [5, 9]
R [.items[pos - 4], .items[pos + 4], .items[pos + 1]]
E I pos C [8, 12]
R [.items[pos - 4], .items[pos + 4], .items[pos - 1]]
E I pos C [2, 3]
R [.items[pos - 1], .items[pos + 1], .items[pos + 4]]
E I pos C [14, 15]
R [.items[pos - 1], .items[pos + 1], .items[pos - 4]]
E I pos == 1
R [.items[pos + 1], .items[pos + 4]]
E I pos == 4
R [.items[pos - 1], .items[pos + 4]]
E I pos == 13
R [.items[pos + 1], .items[pos - 4]]
E
assert(pos == 16)
R [.items[pos - 1], .items[pos - 4]]
F game_over()
V flag = 0B
L(a, b) .items
I b != ‘ ’
I a == Int(b.trim(‘ ’))
flag = 1B
E
flag = 0B
R flag
V g = Puzzle()
g.build_board(Int(input("Enter the difficulty : 0 1 2\n2 => highest 0 => lowest\n")))
g.main_frame()
print(‘Enter 0 to exit’)
L
print("Hello user:\nTo change the position just enter the no. near it")
V lst = g.valid_moves()
[Int] lst1
L(i) lst
lst1.append(Int(i.trim(‘ ’)))
print(i.trim(‘ ’)" \t", end' ‘’)
print()
V x = Int(input())
I x == 0
L.break
E I x !C lst1
print(‘Wrong move’)
E
g.change(x)
g.main_frame()
I g.game_over()
print(‘You WON’)
L.break</syntaxhighlight>
{{out}}
The same as in Python.
=={{header|68000 Assembly}}==
This is an entire Sega Genesis game, tested in the Fusion emulator. Thanks to Keith S. of Chibiakumas for the cartridge header, font routines, and printing logic. I programmed the actual game logic. This code can be copied and pasted into a text file and assembled as-is using vasmm68k_mot_win32.exe, no includes or incbins necessary (even the bitmap font is here too.)
<syntaxhighlight lang="68000devpac">;15 PUZZLE GAME
;Ram Variables
Cursor_X equ $00FF0000 ;Ram for Cursor Xpos
Cursor_Y equ $00FF0000+1 ;Ram for Cursor Ypos
joypad1 equ $00FF0002
GameRam equ $00FF1000 ;Ram for where the pieces are
GameRam_End equ $00FF100F ;the last valid slot in the array
;Video Ports
VDP_data EQU $C00000 ; VDP data, R/W word or longword access only
VDP_ctrl EQU $C00004 ; VDP control, word or longword writes only
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; VECTOR TABLE
;org $00000000
DC.L $00FFFFFE ;SP register value
DC.L ProgramStart ;Start of Program Code
DC.L IntReturn ; bus err
DC.L IntReturn ; addr err
DC.L IntReturn ; illegal inst
DC.L IntReturn ; divzero
DC.L IntReturn ; CHK
DC.L IntReturn ; TRAPV
DC.L IntReturn ; privilege viol
DC.L IntReturn ; TRACE
DC.L IntReturn ; Line A (1010) emulator
DC.L IntReturn ; Line F (1111) emulator
DC.L IntReturn,IntReturn,IntReturn,IntReturn ; Reserved /Coprocessor/Format err/ Uninit Interrupt
DC.L IntReturn,IntReturn,IntReturn,IntReturn,IntReturn,IntReturn,IntReturn,IntReturn
DC.L IntReturn ; spurious interrupt
DC.L IntReturn ; IRQ level 1
DC.L IntReturn ; IRQ level 2 EXT
DC.L IntReturn ; IRQ level 3
DC.L IntReturn ; IRQ level 4 Hsync
DC.L IntReturn ; IRQ level 5
DC.L IntReturn ; IRQ level 6 Vsync
DC.L IntReturn ; IRQ level 7 (NMI)
;org $00000080
;TRAPS
DC.L IntReturn,IntReturn,IntReturn,IntReturn,IntReturn,IntReturn,IntReturn,IntReturn
DC.L IntReturn,IntReturn,IntReturn,IntReturn,IntReturn,IntReturn,IntReturn,IntReturn
;org $000000C0
;FP/MMU
DC.L IntReturn,IntReturn,IntReturn,IntReturn,IntReturn,IntReturn,IntReturn,IntReturn
DC.L IntReturn,IntReturn,IntReturn,IntReturn,IntReturn,IntReturn,IntReturn,IntReturn
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; Header
HEADER:
DC.B "SEGA GENESIS " ;System Name MUST TAKE UP 16 BYTES, USE PADDING IF NECESSARY
DC.B "(C)PDS " ;Copyright MUST TAKE UP 8 BYTES, USE PADDING IF NECESSARY
DC.B "2022.JUN" ;Date MUST TAKE UP 8 BYTES, USE PADDING IF NECESSARY
CARTNAME:
DC.B "15 PUZZLE"
CARTNAME_END:
DS.B 48-(CARTNAME_END-CARTNAME) ;ENSURES PROPER SPACING
CARTNAMEALT:
DC.B "15 PUZZLE"
CARTNAMEALT_END:
DS.B 48-(CARTNAMEALT_END-CARTNAMEALT) ;ENSURES PROPER SPACING
gameID:
DC.B "GM PUPPY001-00" ;TT NNNNNNNN-RR T=Type (GM=Game) N=game Num R=Revision
DC.W $0000 ;16-bit Checksum (Address $000200+)
CTRLDATA:
DC.B "J " ;Control Data (J=3button K=Keyboard 6=6button C=cdrom)
;(MUST TAKE UP 16 BYTES, USE PADDING IF NECESSARY)
ROMSTART:
DC.L $00000000 ;ROM Start
ROMLEN:
DC.L $003FFFFF ;ROM Length
RAMSTART:
DC.L $00FF0000
RAMEND:
DC.L $00FFFFFF ;RAM start/end (fixed)
DC.B " " ;External RAM Data (MUST TAKE UP 12 BYTES, USE PADDING IF NECESSARY)
DC.B " " ;Modem Data (MUST TAKE UP 12 BYTES, USE PADDING IF NECESSARY)
MEMO:
DC.B " " ;(MUST TAKE UP 40 BYTES, USE PADDING IF NECESSARY)
REGION:
DC.B "JUE " ;Regions Allowed (MUST TAKE UP 16 BYTES, USE PADDING IF NECESSARY)
even
HEADER_END:
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; Generic Interrupt Handler
IntReturn:
rte ;immediately return to game
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; Program Start
ProgramStart:
;initialize TMSS (TradeMark Security System)
move.b ($A10001),D0 ;A10001 test the hardware version
and.b #$0F,D0
beq NoTmss ;branch if no TMSS chip
move.l #'SEGA',($A14000);A14000 disable TMSS
NoTmss:
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; Set Up Graphics
lea VDPSettings,A5 ;Initialize Screen Registers
move.l #VDPSettingsEnd-VDPSettings,D1 ;length of Settings
move.w (VDP_ctrl),D0 ;C00004 read VDP status (interrupt acknowledge?)
move.l #$00008000,d5 ;VDP Reg command (%8rvv)
NextInitByte:
move.b (A5)+,D5 ;get next video control byte
move.w D5,(VDP_ctrl) ;C00004 send write register command to VDP
; 8RVV - R=Reg V=Value
add.w #$0100,D5 ;point to next VDP register
dbra D1,NextInitByte ;loop for rest of block
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; Set up palette
;Define palette
move.l #$C0000000,d0 ;Color 0 (background)
move.l d0,VDP_Ctrl
; ----BBB-GGG-RRR-
move.w #%0000011000000000,VDP_data
move.l #$C01E0000,d0 ;Color 15 (Font)
move.l d0,VDP_Ctrl
move.w #%0000000011101110,VDP_data
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; Set up Font
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; FONT IS 1BPP, THIS ROUTINE CONVERTS IT TO A 4BPP FORMAT.
lea Font,A1 ;Font Address in ROM
move.l #Font_End-Font,d6 ;Our font contains 96 letters 8 lines each
move.l #$40000000,(VDP_Ctrl);Start writes to VRAM address $0000
NextFont:
move.b (A1)+,d0 ;Get byte from font
moveq.l #7,d5 ;Bit Count (8 bits)
clr.l d1 ;Reset BuildUp Byte
Font_NextBit: ;1 color per nibble = 4 bytes
rol.l #3,d1 ;Shift BuildUp 3 bits left
roxl.b #1,d0 ;Shift a Bit from the 1bpp font into the Pattern
roxl.l #1,d1 ;Shift bit into BuildUp
dbra D5,Font_NextBit ;Next Bit from Font
move.l d1,d0 ; Make fontfrom Color 1 to color 15
rol.l #1,d1 ;Bit 1
or.l d0,d1
rol.l #1,d1 ;Bit 2
or.l d0,d1
rol.l #1,d1 ;Bit 3
or.l d0,d1
move.l d1,(VDP_Data);Write next Long of char (one line) to VDP
dbra d6,NextFont ;Loop until done
clr.b Cursor_X ;Clear Cursor XY
clr.b Cursor_Y
;Turn on screen
move.w #$8144,(VDP_Ctrl);C00004 reg 1 = 0x44 unblank display
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; all of the above was just the prep work to boot the Sega Genesis, and had nothing to do with a 15 Puzzle.
; That's hardware for you!
LEA GameRam,A0
;load the initial state of the puzzle. There is no randomization here unfortunately, as creating a sufficient pseudo-RNG
;to make the game "believable" is more difficult than programming the game itself!
;so instead we'll start in such a manner that the player has to do quite a bit of work to win.
MOVE.B #'F',(A0)+
MOVE.B #'E',(A0)+
MOVE.B #'D',(A0)+
MOVE.B #'C',(A0)+
MOVE.B #'B',(A0)+
MOVE.B #'A',(A0)+
MOVE.B #'9',(A0)+
MOVE.B #'8',(A0)+
MOVE.B #'7',(A0)+
MOVE.B #'6',(A0)+
MOVE.B #'5',(A0)+
MOVE.B #'4',(A0)+
MOVE.B #'3',(A0)+
MOVE.B #'2',(A0)+
MOVE.B #'1',(A0)+
MOVE.B #' ',(A0)+
;puzzle will look like:
;FEDC
;BA98
;7654
;321
main:
JSR Player_ReadControlsDual ;get controller input
move.w d0,(joypad1)
;adjust the number of these as you see fit.
;this affects the game's overall speed.
JSR waitVBlank
JSR waitVBlank
JSR waitVBlank
JSR waitVBlank
JSR waitVBlank
JSR waitVBlank
JSR waitVBlank
JSR waitVBlank
JSR waitVBlank
JSR waitVBlank
;find where the blank space is among GameRAM
LEA GameRAM,a0
MOVE.B #' ',D0
JSR REPNE_SCASB
MOVE.L A0,A1
;;;;;;;;;;;;;;;;;;; check controller presses
JOYPAD_BITFLAG_M equ 2048
JOYPAD_BITFLAG_Z equ 1024
JOYPAD_BITFLAG_Y equ 512
JOYPAD_BITFLAG_X equ 256
JOYPAD_BITFLAG_S equ 128
JOYPAD_BITFLAG_C equ 64
JOYPAD_BITFLAG_B equ 32
JOYPAD_BITFLAG_A equ 16
JOYPAD_BITFLAG_R equ 8
JOYPAD_BITFLAG_L equ 4
JOYPAD_BITFLAG_D equ 2
JOYPAD_BITFLAG_U equ 1
JOYPAD_BITNUM_M equ 11
JOYPAD_BITNUM_Z equ 10
JOYPAD_BITNUM_Y equ 9
JOYPAD_BITNUM_X equ 8
JOYPAD_BITNUM_S equ 7
JOYPAD_BITNUM_C equ 6
JOYPAD_BITNUM_B equ 5
JOYPAD_BITNUM_A equ 4
JOYPAD_BITNUM_R equ 3
JOYPAD_BITNUM_L equ 2
JOYPAD_BITNUM_D equ 1
JOYPAD_BITNUM_U equ 0
move.w (joypad1),D0
BTST #JOYPAD_BITNUM_U,D0
BNE JoyNotUp
MOVEM.L D0/A1,-(SP)
ADDA.L #4,A1
CMPA.L #GameRam_End,A1
BHI .doNothing
;OTHERWISE SWAP THE EMPTY SPACE WITH THE BYTE BELOW IT.
MOVE.B (A1),D7
MOVE.B (A0),(A1)
MOVE.B D7,(A0)
.doNothing
MOVEM.L (SP)+,D0/A1
bra vdraw
JoyNotUp:
BTST #JOYPAD_BITNUM_D,D0
BNE JoyNotDown
MOVEM.L D0/A1,-(SP)
SUBA.L #4,A1 ;CHECK ONE ROW ABOVE WHERE WE ARE
CMPA.L #GameRam,A1
BCS .doNothing ;if A1-4 IS BELOW THE START OF GAME RAM, DON'T MOVE
;OTHERWISE SWAP THE EMPTY SPACE WITH THE BYTE ABOVE IT.
MOVE.B (A1),D7
MOVE.B (A0),(A1)
MOVE.B D7,(A0)
.doNothing:
MOVEM.L (SP)+,D0/A1
bra vdraw
JoyNotDown:
BTST #JOYPAD_BITNUM_L,D0
BNE JoyNotLeft
MOVEM.L D0/A1,-(SP)
ADDA.L #1,A1
MOVE.L A1,D4
MOVE.L A0,D3
AND.L #3,D4
AND.L #3,D3
CMP.L D3,D4
BCS .doNothing
;OTHERWISE SWAP THE EMPTY SPACE WITH THE BYTE TO THE LEFT
MOVE.B (A1),D7
MOVE.B (A0),(A1)
MOVE.B D7,(A0)
.doNothing:
MOVEM.L (SP)+,D0/A1
bra vdraw
JoyNotLeft:
BTST #JOYPAD_BITNUM_R,D0
BNE JoyNotRight
MOVEM.L D0/A1,-(SP)
SUBA.L #1,A1
MOVE.L A1,D4
MOVE.L A0,D3
AND.L #3,D4
AND.L #3,D3
CMP.L D3,D4
BHI .doNothing
;OTHERWISE SWAP THE EMPTY SPACE WITH THE BYTE TO THE RIGHT
MOVE.B (A1),D7
MOVE.B (A0),(A1)
MOVE.B D7,(A0)
.doNothing:
MOVEM.L (SP)+,D0/A1
bra vdraw
JoyNotRight:
vdraw:
;this actually draws the current state of the puzzle to the screen.
LEA GameRam,A0
CLR.B (Cursor_X) ;reset text cursors to top left of screen
CLR.B (Cursor_Y)
;draw the puzzle
;anything insize a REPT N...ENDR block is in-lined N times, back to back.
rept 4
MOVE.B (A0)+,D0
JSR PrintChar
MOVE.B (A0)+,D0
JSR PrintChar
MOVE.B (A0)+,D0
JSR PrintChar
MOVE.B (A0)+,D0
JSR PrintChar ;we just finished drawing one row of the puzzle. Now, begin a new line and continue drawing.
jsr newline
endr
checkIfWin:
;YES THIS IS MESSY, I TRIED IT WITH A LOOP BUT IT WOULDN'T WORK SO I JUST UNROLLED THE LOOP.
LEA GameRam,a4
MOVE.B (A4)+,D5
CMP.B #'1',D5
BNE .keepGoing
MOVE.B (A4)+,D5
CMP.B #'2',D5
BNE .keepGoing
MOVE.B (A4)+,D5
CMP.B #'3',D5
BNE .keepGoing
MOVE.B (A4)+,D5
CMP.B #'4',D5
BNE .keepGoing
MOVE.B (A4)+,D5
CMP.B #'5',D5
BNE .keepGoing
MOVE.B (A4)+,D5
CMP.B #'6',D5
BNE .keepGoing
MOVE.B (A4)+,D5
CMP.B #'7',D5
BNE .keepGoing
MOVE.B (A4)+,D5
CMP.B #'8',D5
BNE .keepGoing
MOVE.B (A4)+,D5
CMP.B #'9',D5
BNE .keepGoing
MOVE.B (A4)+,D5
CMP.B #'A',D5
BNE .keepGoing
MOVE.B (A4)+,D5
CMP.B #'B',D5
BNE .keepGoing
MOVE.B (A4)+,D5
CMP.B #'C',D5
BNE .keepGoing
MOVE.B (A4)+,D5
CMP.B #'D',D5
BNE .keepGoing
MOVE.B (A4)+,D5
CMP.B #'E',D5
BNE .keepGoing
MOVE.B (A4)+,D5
CMP.B #'F',D5
BNE .keepGoing
MOVE.B (A4)+,D5
CMP.B #' ',D5
BNE .keepGoing
clr.b (Cursor_X)
move.b #7,(Cursor_Y)
LEA victoryMessage,a3
jsr PrintString
jmp * ;game freezes after you win.
.keepGoing:
;it's unlikely that the label "main" is in range of here so I didn't bother checking and just assumed it was out of range.
;Otherwise I would have said "BEQ main" instead of BNE .keepGoing
jmp main
VictoryMessage:
DC.B "A WINNER IS YOU",255
EVEN
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
REPNE_SCASB:
;INPUT:
;A0 = POINTER TO START OF MEMORY
;D0 = THE BYTE TO SEARCH FOR
;OUTPUT = A0 POINTS TO THE BYTE THAT CONTAINED D0
MOVE.B (A0),D1
CMP.B D0,D1
BEQ .done
ADDA.L #1,A0
BRA REPNE_SCASB
.done:
RTS
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
Player_ReadControlsDual:
move.b #%01000000,($A1000B) ; Set direction IOIIIIII (I=In O=Out)
move.l #$A10003,a0 ;RW port for player 1
move.b #$40,(a0) ; TH = 1
nop ;Delay
nop
move.b (a0),d2 ; d0.b = --CBRLDU Store in D2
move.b #$0,(a0) ; TH = 0
nop ;Delay
nop
move.b (a0),d1 ; d1.b = --SA--DU Store in D1
move.b #$40,(a0) ; TH = 1
nop ;Delay
nop
move.b #$0,(a0) ; TH = 0
nop ;Delay
nop
move.b #$40,(a0) ; TH = 1
nop ;Delay
nop
move.b (a0),d3 ; d1.b = --CBXYZM Store in D3
move.b #$0,(a0) ; TH = 0
clr.l d0 ;Clear buildup byte
roxr.b d2
roxr.b d0 ;U
roxr.b d2
roxr.b d0 ;D
roxr.b d2
roxr.b d0 ;L
roxr.b d2
roxr.b d0 ;R
roxr.b #5,d1
roxr.b d0 ;A
roxr.b d2
roxr.b d0 ;B
roxr.b d2
roxr.b d0 ;C
roxr.b d1
roxr.b d0 ;S
move.l d3,d1
roxl.l #7,d1 ;XYZ
and.l #%0000011100000000,d1
or.l d1,d0
move.l d3,d1
roxl.l #8,d1 ;M
roxl.l #3,d1
and.l #%0000100000000000,d1
or.l d1,d0
or.l #$FFFFF000,d0 ;Set unused bits to 1
;this returns player 1's buttons into D0 as the following:
;----MZYXSCBARLDU
rts
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
waitVBlank: ;Bit 3 defines if we're in Vblank
MOVE.L d0,-(sp)
.wait:
move.w VDP_ctrl,d0
and.w #%0000000000001000,d0 ;See if vblank is running
bne .wait ;wait until it is
waitVBlank2:
move.w VDP_ctrl,d0
and.w #%0000000000001000,d0 ;See if vblank is running
beq waitVBlank2 ;wait until it isnt
MOVE.L (SP)+,d0
rts
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
PrintChar: ;Show D0 to screen
moveM.l d0-d7/a0-a7,-(sp)
and.l #$FF,d0 ;Keep only 1 byte
sub #32,d0 ;No Characters in our font below 32
PrintCharAlt:
Move.L #$40000003,d5 ;top 4=write, bottom $3=Cxxx range
clr.l d4 ;Tilemap at $C000+
Move.B (Cursor_Y),D4
rol.L #8,D4 ;move $-FFF to $-FFF----
rol.L #8,D4
rol.L #7,D4 ;2 bytes per tile * 64 tiles per line
add.L D4,D5 ;add $4------3
Move.B (Cursor_X),D4
rol.L #8,D4 ;move $-FFF to $-FFF----
rol.L #8,D4
rol.L #1,D4 ;2 bytes per tile
add.L D4,D5 ;add $4------3
MOVE.L D5,(VDP_ctrl) ; C00004 write next character to VDP
MOVE.W D0,(VDP_data) ; C00000 store next word of name data
addq.b #1,(Cursor_X) ;INC Xpos
move.b (Cursor_X),d0
cmp.b #39,d0
bls nextpixel_Xok
jsr NewLine ;If we're at end of line, start newline
nextpixel_Xok:
moveM.l (sp)+,d0-d7/a0-a7
rts
PrintString:
move.b (a3)+,d0 ;Read a character in from A3
cmp.b #255,d0
beq PrintString_Done ;return on 255
jsr PrintChar ;Print the Character
bra PrintString
PrintString_Done:
rts
NewLine:
addq.b #1,(Cursor_Y) ;INC Y
clr.b (Cursor_X) ;Zero X
rts
Font:
;1bpp font - 8x8 96 characters
;looks just like your typical "8-bit" font. You'll just have to take my word for it.
DC.B $00,$00,$00,$00,$00,$00,$00,$00,$18,$3c,$3c,$18,$18,$00,$18,$18
DC.B $36,$36,$12,$24,$00,$00,$00,$00,$00,$12,$7f,$24,$24,$fe,$48,$00
DC.B $00,$04,$1e,$28,$1c,$0a,$3c,$10,$00,$62,$64,$08,$10,$26,$46,$00
DC.B $00,$18,$24,$20,$12,$2c,$44,$3a,$18,$18,$08,$10,$00,$00,$00,$00
DC.B $08,$10,$20,$20,$20,$20,$10,$08,$10,$08,$04,$04,$04,$04,$08,$10
DC.B $00,$10,$38,$10,$28,$00,$00,$00,$00,$00,$10,$10,$7c,$10,$10,$00
DC.B $00,$00,$00,$00,$0c,$0c,$04,$08,$00,$00,$00,$00,$7e,$00,$00,$00
DC.B $00,$00,$00,$00,$00,$18,$18,$00,$01,$02,$04,$08,$10,$20,$40,$00
DC.B $1c,$26,$63,$63,$63,$32,$1c,$00,$0c,$1c,$0c,$0c,$0c,$0c,$3f,$00
DC.B $3e,$63,$07,$1e,$3c,$70,$7f,$00,$3f,$06,$0c,$1e,$03,$63,$3e,$00
DC.B $0e,$1e,$36,$66,$7f,$06,$06,$00,$7e,$60,$7e,$03,$03,$63,$3e,$00
DC.B $1e,$30,$60,$7e,$63,$63,$3e,$00,$7f,$63,$06,$0c,$18,$18,$18,$00
DC.B $3c,$62,$72,$3c,$4f,$43,$3e,$00,$3e,$63,$63,$3f,$03,$06,$3c,$00
DC.B $00,$18,$18,$00,$18,$18,$00,$00,$00,$0c,$0c,$00,$0c,$0c,$04,$08
DC.B $00,$00,$06,$18,$60,$18,$06,$00,$00,$00,$00,$7e,$00,$7e,$00,$00
DC.B $00,$00,$60,$18,$06,$18,$60,$00,$1c,$36,$36,$06,$0c,$00,$0c,$0c
DC.B $3c,$42,$99,$a1,$a1,$99,$42,$3c,$1c,$36,$63,$63,$7f,$63,$63,$00
DC.B $7e,$63,$63,$7e,$63,$63,$7e,$00,$1e,$33,$60,$60,$60,$33,$1e,$00
DC.B $7c,$66,$63,$63,$63,$66,$7c,$00,$3f,$30,$30,$3e,$30,$30,$3f,$00
DC.B $7f,$60,$60,$7e,$60,$60,$60,$00,$1f,$30,$60,$67,$63,$33,$1f,$00
DC.B $63,$63,$63,$7f,$63,$63,$63,$00,$3f,$0c,$0c,$0c,$0c,$0c,$3f,$00
DC.B $03,$03,$03,$03,$03,$63,$3e,$00,$63,$66,$6c,$78,$7c,$6e,$67,$00
DC.B $30,$30,$30,$30,$30,$30,$3f,$00,$63,$77,$7f,$7f,$6b,$63,$63,$00
DC.B $63,$73,$7b,$7f,$6f,$67,$63,$00,$3e,$63,$63,$63,$63,$63,$3e,$00
DC.B $7e,$63,$63,$63,$7e,$60,$60,$00,$3e,$63,$63,$63,$6f,$66,$3d,$00
DC.B $7e,$63,$63,$67,$7c,$6e,$67,$00,$3c,$66,$60,$3e,$03,$63,$3e,$00
DC.B $3f,$0c,$0c,$0c,$0c,$0c,$0c,$00,$63,$63,$63,$63,$63,$63,$3e,$00
DC.B $63,$63,$63,$77,$3e,$1c,$08,$00,$63,$63,$6b,$7f,$7f,$77,$63,$00
DC.B $63,$77,$3e,$1c,$3e,$77,$63,$00,$33,$33,$33,$1e,$0c,$0c,$0c,$00
DC.B $7f,$07,$0e,$1c,$38,$70,$7f,$00,$00,$38,$20,$20,$20,$20,$38,$00
DC.B $80,$40,$20,$10,$08,$04,$02,$00,$00,$1c,$04,$04,$04,$04,$1c,$00
DC.B $10,$28,$44,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$00,$7e,$00
DC.B $00,$20,$10,$00,$00,$00,$00,$00,$00,$18,$04,$1c,$24,$2c,$1c,$00
DC.B $00,$20,$20,$38,$24,$24,$38,$00,$00,$00,$1c,$20,$20,$20,$1c,$00
DC.B $00,$04,$04,$1c,$24,$24,$1c,$00,$00,$00,$1c,$24,$3c,$20,$1c,$00
DC.B $00,$18,$24,$20,$30,$20,$20,$00,$00,$1c,$24,$24,$1c,$04,$3c,$00
DC.B $00,$20,$20,$38,$24,$24,$24,$00,$00,$10,$00,$10,$10,$10,$10,$00
DC.B $08,$00,$08,$08,$08,$08,$28,$10,$20,$20,$24,$28,$30,$28,$24,$00
DC.B $10,$10,$10,$10,$10,$10,$18,$00,$00,$00,$40,$68,$54,$54,$54,$00
DC.B $00,$00,$28,$34,$24,$24,$24,$00,$00,$00,$1c,$22,$22,$22,$1c,$00
DC.B $00,$00,$38,$24,$24,$38,$20,$20,$00,$00,$1c,$24,$24,$1c,$04,$04
DC.B $00,$00,$2c,$30,$20,$20,$20,$00,$00,$00,$1c,$20,$1c,$02,$3c,$00
DC.B $00,$10,$3c,$10,$10,$14,$08,$00,$00,$00,$24,$24,$24,$24,$1a,$00
DC.B $00,$00,$24,$24,$24,$14,$18,$00,$00,$00,$92,$92,$92,$5a,$6c,$00
DC.B $00,$00,$22,$14,$08,$14,$22,$00,$00,$00,$24,$24,$1c,$04,$18,$00
DC.B $00,$00,$3c,$04,$18,$20,$3c,$00,$00,$08,$10,$10,$20,$10,$10,$08
DC.B $18,$18,$18,$18,$18,$18,$18,$18,$00,$10,$08,$08,$04,$08,$08,$10
DC.B $00,$00,$00,$30,$4a,$04,$00,$00,$1c,$7f,$00,$7f,$55,$55,$55,$00
Font_End:
VDPSettings:
DC.B $04 ; 0 mode register 1 ---H-1M-
DC.B $04 ; 1 mode register 2 -DVdP---
DC.B $30 ; 2 name table base for scroll A (A=top 3 bits) --AAA--- = $C000
DC.B $3C ; 3 name table base for window (A=top 4 bits / 5 in H40 Mode) --AAAAA- = $F000
DC.B $07 ; 4 name table base for scroll B (A=top 3 bits) -----AAA = $E000
DC.B $6C ; 5 sprite attribute table base (A=top 7 bits / 6 in H40) -AAAAAAA = $D800
DC.B $00 ; 6 unused register --------
DC.B $00 ; 7 background color (P=Palette C=Color) --PPCCCC
DC.B $00 ; 8 unused register --------
DC.B $00 ; 9 unused register --------
DC.B $FF ;10 H interrupt register (L=Number of lines) LLLLLLLL
DC.B $00 ;11 mode register 3 ----IVHL
DC.B $81 ;12 mode register 4 (C bits both1 = H40 Cell) C---SIIC
DC.B $37 ;13 H scroll table base (A=Top 6 bits) --AAAAAA = $FC00
DC.B $00 ;14 unused register --------
DC.B $02 ;15 auto increment (After each Read/Write) NNNNNNNN
DC.B $01 ;16 scroll size (Horiz & Vert size of ScrollA & B) --VV--HH = 64x32 tiles
DC.B $00 ;17 window H position (D=Direction C=Cells) D--CCCCC
DC.B $00 ;18 window V position (D=Direction C=Cells) D--CCCCC
DC.B $FF ;19 DMA length count low LLLLLLLL
DC.B $FF ;20 DMA length count high HHHHHHHH
DC.B $00 ;21 DMA source address low LLLLLLLL
DC.B $00 ;22 DMA source address mid MMMMMMMM
DC.B $80 ;23 DMA source address high (C=CMD) CCHHHHHH
VDPSettingsEnd:
even</syntaxhighlight>
{{out}}[https://ibb.co/4MZpL4W Screenshot of emulator]
=={{header|AArch64 Assembly}}==
{{works with|as|Raspberry Pi 3B version Buster 64 bits}}
<syntaxhighlight lang="aarch64 assembly">
/* ARM assembly AARCH64 Raspberry PI 3B */
/* program puzzle15_64.s */
/*******************************************/
/* Constantes file */
/*******************************************/
/* for this file see task include a file in language AArch64 assembly*/
.include "../includeConstantesARM64.inc"
.equ NBBOX, 16
.equ GRAINE, 123456 // change for other game
.equ NBSHUFFLE, 4
.equ KEYSIZE, 8
.equ IOCTL, 0x1D // Linux syscall
.equ SIGACTION, 0x86 // Linux syscall
.equ SYSPOLL, 0x16 // Linux syscall
.equ CREATPOLL, 0x14 // Linux syscall
.equ CTLPOLL, 0x15 // Linux syscall
.equ TCGETS, 0x5401
.equ TCSETS, 0x5402
.equ ICANON, 2
.equ ECHO, 10
.equ POLLIN, 1
.equ EPOLL_CTL_ADD, 1
.equ SIGINT, 2 // Issued if the user sends an interrupt signal (Ctrl + C)
.equ SIGQUIT, 3 // Issued if the user sends a quit signal (Ctrl + D)
.equ SIGTERM, 15 // Software termination signal (sent by kill by default)
.equ SIGTTOU, 22 //
/*******************************************/
/* Structures */
/********************************************/
/* structure termios see doc linux*/
.struct 0
term_c_iflag: // input modes
.struct term_c_iflag + 4
term_c_oflag: // output modes
.struct term_c_oflag + 4
term_c_cflag: // control modes
.struct term_c_cflag + 4
term_c_lflag: // local modes
.struct term_c_lflag + 4
term_c_cc: // special characters
.struct term_c_cc + 20 // see length if necessary
term_fin:
/* structure sigaction see doc linux */
.struct 0
sa_handler:
.struct sa_handler + 8
sa_mask:
.struct sa_mask + 8
sa_flags:
.struct sa_flags + 8
sa_sigaction:
.struct sa_sigaction + 8
sa_fin:
/* structure poll see doc linux */
.struct 0
poll_event:
.struct poll_event + 8
poll_fd: // File Descriptor
.struct poll_fd + 8
poll_fin:
/*********************************/
/* Initialized data */
/*********************************/
.data
sMessResult: .ascii " "
sMessValeur: .fill 11, 1, ' ' // size => 11
szCarriageReturn: .asciz "\n"
szMessGameWin: .asciz "You win in @ move number !!!!\n"
szMessMoveError: .asciz "Huh... Impossible move !!!!\n"
szMessErreur: .asciz "Error detected.\n"
szMessErrInitTerm: .asciz "Error terminal init.\n"
szMessErrInitPoll: .asciz "Error poll init.\n"
szMessErreurKey: .asciz "Error read key.\n"
szMessSpaces: .asciz " "
qGraine: .quad GRAINE
szMessErr: .asciz "Error code hexa : @ décimal : @ \n"
szClear: .byte 0x1B
.byte 'c' // console clear
.byte 0
/*********************************/
/* UnInitialized data */
/*********************************/
.bss
.align 4
sZoneConv: .skip 24
qCodeError: .skip 8
ibox: .skip 4 * NBBOX // game boxes
qEnd: .skip 8 // 0 loop 1 = end loop
qTouche: .skip KEYSIZE // value key pressed
stOldtio: .skip term_fin // old terminal state
stCurtio: .skip term_fin // current terminal state
stSigAction: .skip sa_fin // area signal structure
stSigAction1: .skip sa_fin
stSigAction2: .skip sa_fin
stSigAction3: .skip sa_fin
stPoll1: .skip poll_fin // area poll structure
stPoll2: .skip poll_fin
stevents: .skip 16
/*********************************/
/* code section */
/*********************************/
.text
.global main
main: // entry of program
mov x0,#0
bl initTerm // terminal init
cmp x0,0 // error ?
blt 100f
bl initPoll // epoll instance init
cmp x0,0
blt 99f
mov x22,x0 // save epfd
ldr x2,qAdribox
mov x9,#0 // init counter
mov x0,0
1: // loop init boxs
add x1,x0,#1 // box value
str w1,[x2,x0, lsl #2] // store value
add x0,x0,#1 // increment counter
cmp x0,#NBBOX - 2 // end ?
ble 1b
mov x10,#15 // empty box location
ldr x0,qAdribox
bl shuffleGame
2: // loop moves
ldr x0,qAdribox
bl displayGame
3:
mov x0,x22 // epfd
bl waitKey
cmp x0,0
beq 3b // no ket pressed -> loop
blt 99f // error ?
bl readKey // read key
cmp x0,#-1
beq 99f // error
cmp x0,3 // <ctrl_C>
beq 5f
cmp x0,113 // saisie q (quit) ?
beq 5f
cmp x0,81 // saisie Q (Quit)?
beq 5f
mov x1,x0 // key
ldr x0,qAdribox
bl keyMove // analyze key move
ldr x0,qAdribox
bl gameOK // end game ?
cmp x0,#1
bne 2b // no -> loop
// win
mov x0,x9 // move counter
ldr x1,qAdrsZoneConv
bl conversion10
ldr x0,qAdrszMessGameWin
ldr x1,qAdrsZoneConv
bl strInsertAtCharInc // insert result at @ character
bl affichageMess
5:
bl restauTerm // terminal restaur
mov x0, #0 // return code
b 100f
99:
bl restauTerm // terminal restaur
mov x0,1 // return code error
b 100f
100: // standard end of the program
mov x8, #EXIT // request to exit program
svc #0 // perform the system call
qAdrsMessValeur: .quad sMessValeur
qAdrszCarriageReturn: .quad szCarriageReturn
qAdrsMessResult: .quad sMessResult
qAdribox: .quad ibox
qAdrszMessGameWin: .quad szMessGameWin
qAdrstevents: .quad stevents
qAdrszMessErreur: .quad szMessErreur
qAdrstOldtio: .quad stOldtio
qAdrstCurtio: .quad stCurtio
qAdrstSigAction: .quad stSigAction
qAdrstSigAction1: .quad stSigAction1
qAdrSIG_IGN: .quad 1
qAdrqEnd: .quad qEnd
qAdrqTouche: .quad qTouche
qAdrszMessErrInitTerm: .quad szMessErrInitTerm
qAdrszMessErrInitPoll: .quad szMessErrInitPoll
qAdrszMessErreurKey: .quad szMessErreurKey
/******************************************************************/
/* key move */
/******************************************************************/
/* x0 contains boxs address */
/* x1 contains key value */
/* x9 move counter */
/* x10 contains location empty box */
keyMove:
stp x1,lr,[sp,-16]! // save registers
mov x7,x0
lsr x1,x1,16
cmp x1,#0x42 // down arrow
bne 1f
cmp x10,#4 // if x10 < 4 error
blt 80f
sub x2,x10,#4 // compute location
b 90f
1:
cmp x1,#0x41 // high arrow
bne 2f
cmp x10,#11 // if x10 > 11 error
bgt 80f
add x2,x10,#4 // compute location
b 90f
2:
cmp x1,#0x43 // right arrow
bne 3f
tst x10,#0b11 // if x10 = 0,4,8,12 error
beq 80f
sub x2,x10,#1 // compute location
b 90f
3:
cmp x1,#0x44 // left arrow
bne 100f
and x3,x10,#0b11 // error if x10 = 3 7 11 and 15
cmp x3,#3
beq 80f
add x2,x10,#1 // compute location
b 90f
80: // move error
ldr x0,qAdrqCodeError
mov x1,#1
str x1,[x0]
b 100f
90: // white box and move box inversion
ldr w3,[x7,x2,lsl #2]
str w3,[x7,x10,lsl #2]
mov x10,x2
mov x3,#0
str w3,[x7,x10,lsl #2]
add x9,x9,#1 // increment move counter
100:
ldp x1,lr,[sp],16 // restaur 2 registers
ret // return to address lr x30
qAdrqCodeError: .quad qCodeError
/******************************************************************/
/* shuffle game */
/******************************************************************/
/* x0 contains boxs address */
shuffleGame:
stp x1,lr,[sp,-16]! // save registers
stp x2,x3,[sp,-16]! // save registers
stp x4,x5,[sp,-16]! // save registers
mov x1,x0
mov x0,NBSHUFFLE
bl genereraleas
lsl x4,x0,#1
1:
mov x0,#14
bl genereraleas
add x3,x0,#1
mov x0,#14
bl genereraleas
add x5,x0,#1
ldr w2,[x1,x3,lsl #2]
ldr w0,[x1,x5,lsl #2]
str w2,[x1,x5,lsl #2]
str w0,[x1,x3,lsl #2]
subs x4,x4,#1
bgt 1b
100:
ldp x4,x5,[sp],16 // restaur 2 registers
ldp x2,x3,[sp],16 // restaur 2 registers
ldp x1,lr,[sp],16 // restaur 2 registers
ret // return to address lr x30
/******************************************************************/
/* game Ok ? */
/******************************************************************/
/* x0 contains boxs address */
gameOK:
stp x1,lr,[sp,-16]! // save registers
stp x2,x3,[sp,-16]! // save registers
mov x2,#0
ldr w3,[x0,x2,lsl #2]
add x2,x2,#1
1:
ldr w1,[x0,x2,lsl #2]
cmp w1,w3
bge 2f
mov x0,#0 // game not Ok
b 100f
2:
mov x3,x1
add x2,x2,#1
cmp x2,#NBBOX -2
ble 1b
mov x0,#1 // game Ok
100:
ldp x2,x3,[sp],16 // restaur 2 registers
ldp x1,lr,[sp],16 // restaur 2 registers
ret // return to address lr x30
/******************************************************************/
/* display game */
/******************************************************************/
/* x0 contains boxs address */
displayGame:
stp x1,lr,[sp,-16]! // save registers
// clear screen !
mov x4,x0
ldr x0,qAdrszClear
bl affichageMess
mov x2,#0
ldr x1,qAdrsMessValeur
1:
ldr w0,[x4,x2,lsl #2]
cmp w0,#0
bne 2f
ldr w0,iSpaces // store spaces
str w0,[x1]
b 3f
2:
bl conversion10 // call conversion decimal
cmp x0,1
beq 21f
mov x0,0x20
strh w0,[x1,#2]
b 3f
21:
mov w0,0x2020
str w0,[x1,#1]
3:
ldr x0,qAdrsMessResult
bl affichageMess // display message
add x0,x2,#1
tst x0,#0b11
bne 4f
ldr x0,qAdrszCarriageReturn
bl affichageMess // display message
4:
add x2,x2,#1
cmp x2,#NBBOX - 1
ble 1b
ldr x0,qAdrszCarriageReturn
bl affichageMess // display line return
ldr x0,qAdrqCodeError // error detected ?
ldr x1,[x0]
cmp x1,#0
beq 100f
mov x1,#0 // raz error code
str x1,[x0]
ldr x0,qAdrszMessMoveError // display error message
bl affichageMess
100:
ldp x1,lr,[sp],16 // restaur 2 registers
ret // return to address lr x30
iSpaces: .int 0x00202020 // spaces
qAdrszClear: .quad szClear
qAdrszMessMoveError: .quad szMessMoveError
/***************************************************/
/* Generation random number */
/***************************************************/
/* x0 contains limit */
genereraleas:
stp x1,lr,[sp,-16]! // save registers
stp x2,x3,[sp,-16]! // save registers
ldr x1,qAdrqGraine
ldr x2,[x1]
ldr x3,qNbDep1
mul x2,x3,x2
ldr x3,qNbDep2
add x2,x2,x3
str x2,[x1] // maj de la graine pour l appel suivant
cmp x0,#0
beq 100f
udiv x3,x2,x0
msub x0,x3,x0,x2 // résult = remainder
100: // end function
ldp x2,x3,[sp],16 // restaur 2 registers
ldp x1,lr,[sp],16 // restaur 2 registers
ret // return to address lr x30
/*****************************************************/
qAdrqGraine: .quad qGraine
qNbDep1: .quad 0x0019660d
qNbDep2: .quad 0x3c6ef35f
/******************************************************************/
/* traitement du signal */
/******************************************************************/
sighandler:
stp x0,lr,[sp,-16]! // save registers
str x1,[sp,-16]!
ldr x0,qAdrqEnd
mov x1,#1 // maj zone end
str x1,[x0]
ldr x1,[sp],16
ldp x0,lr,[sp],16 // restaur 2 registers
ret // return to address lr x30
/***************************************************/
/* display error message */
/***************************************************/
/* x0 contains error code x1 : message address */
displayError:
stp x2,lr,[sp,-16]! // save registers
mov x2,x0 // save error code
mov x0,x1
bl affichageMess
mov x0,x2 // error code
ldr x1,qAdrsZoneConv
bl conversion16 // conversion hexa
ldr x0,qAdrszMessErr // display error message
ldr x1,qAdrsZoneConv
bl strInsertAtCharInc // insert result at @ character
mov x3,x0
mov x0,x2 // error code
ldr x1,qAdrsZoneConv // result address
bl conversion10S // conversion decimale
mov x0,x3
ldr x1,qAdrsZoneConv
bl strInsertAtCharInc // insert result at @ character
bl affichageMess
100:
ldp x2,lr,[sp],16 // restaur 2 registers
ret // return to address lr x30
qAdrszMessErr: .quad szMessErr
qAdrsZoneConv: .quad sZoneConv
/*********************************/
/* init terminal state */
/*********************************/
initTerm:
stp x1,lr,[sp,-16]! // save registers
/* read terminal state */
mov x0,STDIN // input console
mov x1,TCGETS
ldr x2,qAdrstOldtio
mov x8,IOCTL // call system Linux
svc 0
cbnz x0,98f // error ?
adr x0,sighandler // adresse routine traitement signal
ldr x1,qAdrstSigAction // adresse structure sigaction
str x0,[x1,sa_handler] // maj handler
mov x0,SIGINT // signal type
ldr x1,qAdrstSigAction
mov x2,0
mov x3,8
mov x8,SIGACTION // call system
svc 0
cmp x0,0 // error ?
bne 98f
mov x0,SIGQUIT
ldr x1,qAdrstSigAction
mov x2,0 // NULL
mov x8,SIGACTION // call system
svc 0
cmp x0,0 // error ?
bne 98f
mov x0,SIGTERM
ldr x1,qAdrstSigAction
mov x2,0 // NULL
mov x8,SIGACTION // appel systeme
svc 0
cmp x0,0
bne 98f
//
adr x0,qAdrSIG_IGN // address signal igonre function
ldr x1,qAdrstSigAction1
str x0,[x1,sa_handler]
mov x0,SIGTTOU //invalidate other process signal
ldr x1,qAdrstSigAction1
mov x2,0 // NULL
mov x8,SIGACTION // call system
svc 0
cmp x0,0
bne 98f
//
/* read terminal current state */
mov x0,STDIN
mov x1,TCGETS
ldr x2,qAdrstCurtio // address current termio
mov x8,IOCTL // call systeme
svc 0
cmp x0,0 // error ?
bne 98f
mov x2,ICANON | ECHO // no key pressed echo on display
mvn x2,x2 // and one key
ldr x1,qAdrstCurtio
ldr x3,[x1,#term_c_lflag]
and x3,x2,x2 // add flags
str x3,[x1,#term_c_lflag] // and store
mov x0,STDIN // maj terminal current state
mov x1,TCSETS
ldr x2,qAdrstCurtio
mov x8,IOCTL // call system
svc 0
cbz x0,100f
98: // error display
ldr x1,qAdrszMessErrInitTerm
bl displayError
mov x0,-1
100:
ldp x1,lr,[sp],16 // restaur 2 registers
ret // return to address lr x30
qAdrstSigAction2: .quad stSigAction2
qAdrstSigAction3: .quad stSigAction3
/*********************************/
/* init instance epool */
/*********************************/
initPoll:
stp x1,lr,[sp,-16]! // save registers
ldr x0,qAdrstevents
mov x1,STDIN // maj structure events
str x1,[x0,#poll_fd] // maj FD
mov x1,POLLIN // action code
str x1,[x0,#poll_event]
mov x0,0
mov x8,CREATPOLL // create epoll instance
svc 0
cmp x0,0 // error ?
ble 98f
mov x10,x0 // return FD epoll instance
mov x1,EPOLL_CTL_ADD
mov x2,STDIN // Fd to we want add
ldr x3,qAdrstevents // structure events address
mov x8,CTLPOLL // call system control epoll
svc 0
cmp x0,0 // error ?
blt 98f // no
mov x0,x10 // return FD epoll instance
b 100f
98: // error display
ldr x1,qAdrszMessErrInitPoll // error message
bl displayError
mov x0,-1
100:
ldp x1,lr,[sp],16 // restaur 2 registers
ret // return to address lr x30
/*********************************/
/* wait key */
/*********************************/
/* x0 contains FD poll */
waitKey:
stp x1,lr,[sp,-16]! // save registers
ldr x11,qAdrqTouche // key address
str xzr,[x11] // raz key
1:
ldr x1,qAdrqEnd // if signal ctrl-c -> end
ldr x1,[x1]
cbnz x1,100f
ldr x1,qAdrstevents
mov x2,12 // size events
mov x3,1 // timeout = 1 TODO: ??
mov x4,0
mov x8,SYSPOLL // call system wait POLL
svc 0
cmp x0,0 // key pressed ?
bge 100f
98: // error display
ldr x1,qAdrszMessErreurKey // error message
bl displayError
mov x0,-1
100:
ldp x1,lr,[sp],16 // restaur 2 registers
ret // return to address lr x30
/*********************************/
/* read key */
/*********************************/
/* x0 returns key value */
readKey:
stp x1,lr,[sp,-16]! // save registers
mov x0,STDIN // File Descriptor
ldr x1,qAdrqTouche // buffer address
mov x2,KEYSIZE // key size
mov x8,READ // read key
svc #0
cmp x0,0 // error ?
ble 98f
ldr x2,qAdrqTouche // key address
ldr x0,[x2]
b 100f
98: // error display
ldr x1,qAdrszMessErreur // error message
bl displayError
mov x0,-1
100:
ldp x1,lr,[sp],16 // restaur 2 registers
ret // return to address lr x30
/*********************************/
/* restaur terminal state */
/*********************************/
restauTerm:
stp x1,lr,[sp,-16]! // save registers
mov x0,STDIN // end then restaur begin state terminal
mov x1,TCSETS
ldr x2,qAdrstOldtio
mov x8,IOCTL // call system
svc 0
cbz x0,100f
ldr x1,qAdrszMessErreur // error message
bl displayError
100:
ldp x1,lr,[sp],16 // restaur 2 registers
ret // return to address lr x30
/********************************************************/
/* File Include fonctions */
/********************************************************/
/* for this file see task include a file in language AArch64 assembly */
.include "../includeARM64.inc"
</syntaxhighlight>
=={{header|Action!}}==
<syntaxhighlight lang="action!">DEFINE BOARDSIZE="16"
DEFINE X0="13"
DEFINE Y0="6"
DEFINE ITEMW="3"
DEFINE ITEMH="2"
BYTE ARRAY board(BOARDSIZE)
BYTE emptyX,emptyY,solved,first=[1]
BYTE FUNC Index(BYTE x,y)
RETURN (x+y*4)
PROC UpdateItem(BYTE x,y)
BYTE item
Position(X0+x*ITEMW+1,Y0+y*ITEMH+1)
item=board(Index(x,y))
IF item=0 THEN
Print(" ")
ELSEIF item<10 THEN
Put(160) Put(item+176)
ELSE
Put(item/10+176)
Put(item MOD 10+176)
FI
RETURN
PROC UpdateBoard()
BYTE x,y
FOR y=0 TO 3
DO
FOR x=0 TO 3
DO
UpdateItem(x,y)
OD
OD
RETURN
PROC DrawGrid()
CHAR ARRAY
top=[13 17 18 18 23 18 18 23 18 18 23 18 18 5],
row=[13 124 32 32 124 32 32 124 32 32 124 32 32 124],
mid=[13 1 18 18 19 18 18 19 18 18 19 18 18 4],
bot=[13 26 18 18 24 18 18 24 18 18 24 18 18 3]
BYTE y,i
y=Y0
Position(X0,y) Print(top) y==+1
Position(X0,y) Print(row) y==+1
FOR i=0 TO 2
DO
Position(X0,y) Print(mid) y==+1
Position(X0,y) Print(row) y==+1
OD
Position(X0,y) Print(bot)
RETURN
PROC DrawBoard()
DrawGrid()
UpdateBoard()
RETURN
PROC FindEmpty()
BYTE i
FOR i=0 TO BOARDSIZE-1
DO
IF board(i)=0 THEN
emptyX=i MOD 4
emptyY=i/4
FI
OD
RETURN
PROC Wait(BYTE frames)
BYTE RTCLOK=$14
frames==+RTCLOK
WHILE frames#RTCLOK DO OD
RETURN
PROC UpdateStatus()
Position(9,3) Print("Game status: ")
IF solved THEN
Print("SOLVED !")
IF first=0 THEN
Sound(0,100,10,5) Wait(5)
Sound(0,60,10,5) Wait(5)
Sound(0,40,10,5) Wait(5)
Sound(0,0,0,0)
FI
first=0
ELSE
Print("Shuffled")
FI
RETURN
PROC InitBoard()
BYTE i
FOR i=1 TO BOARDSIZE
DO
board(i-1)=i MOD 16
OD
FindEmpty()
solved=1
UpdateStatus()
RETURN
BYTE FUNC IsSolved()
BYTE i
FOR i=1 TO BOARDSIZE
DO
IF board(i-1)#i MOD 16 THEN
RETURN (0)
FI
OD
RETURN (1)
PROC CheckStatus()
BYTE tmp
tmp=IsSolved()
IF solved#tmp THEN
solved=tmp
UpdateStatus()
FI
RETURN
PROC Swap(BYTE x1,y1,x2,y2)
BYTE tmp,i1,i2
i1=Index(x1,y1)
i2=Index(x2,y2)
tmp=board(i1)
board(i1)=board(i2)
board(i2)=tmp
UpdateItem(x1,y1)
UpdateItem(x2,y2)
CheckStatus()
RETURN
PROC Shuffle()
BYTE i,j,tmp
i=BOARDSIZE-1
WHILE i>0
DO
j=Rand(i)
tmp=board(i)
board(i)=board(j)
board(j)=tmp
i==-1
OD
FindEmpty()
UpdateBoard()
CheckStatus()
RETURN
PROC MoveLeft()
IF emptyX=0 THEN RETURN FI
Swap(emptyX,emptyY,emptyX-1,emptyY)
emptyX==-1
RETURN
PROC MoveRight()
IF emptyX=3 THEN RETURN FI
Swap(emptyX,emptyY,emptyX+1,emptyY)
emptyX==+1
RETURN
PROC MoveUp()
IF emptyY=0 THEN RETURN FI
Swap(emptyX,emptyY,emptyX,emptyY-1)
emptyY==-1
RETURN
PROC MoveDown()
IF emptyY=3 THEN RETURN FI
Swap(emptyX,emptyY,emptyX,emptyY+1)
emptyY==+1
RETURN
PROC Main()
BYTE k,lastStick=[255],currStick,
CH=$02FC, ;Internal hardware value for last key pressed
CRSINH=$02F0 ;Controls visibility of cursor
Graphics(0)
SetColor(2,0,2)
CRSINH=1 ;hide cursor
Position(10,18) Print("Joystick - move tiles")
Position(9,19) Print("Space bar - shuffle")
Position(15,20) Print("ESC - exit")
InitBoard()
DrawBoard()
DO
currStick=Stick(0)
IF currStick#lastStick THEN
IF currStick=11 THEN MoveRight()
ELSEIF currStick=7 THEN MoveLeft()
ELSEIF currStick=13 THEN MoveUp()
ELSEIF currStick=14 THEN MoveDown()
FI
FI
lastStick=currStick
k=CH
IF k#$FF THEN CH=$FF FI
IF k=33 THEN Shuffle()
ELSEIF k=28 THEN EXIT
FI
OD
RETURN</syntaxhighlight>
{{out}}
[https://gitlab.com/amarok8bit/action-rosetta-code/-/raw/master/images/15_puzzle_game.png Screenshot from Atari 8-bit computer]
=={{header|Ada}}==
We fist define a generic package Generic_Puzzle. Upon instantiation, it can take any number of rows, any number of columns for a rows*columns-1 game. Instead of plain numbers, the tiles on the board can have arbitrary names (but they should all be of the same length). The package user can request the name for the tile at a certain (row,column)-point, and the set of possible moves. The user can move the empty space up, down, left and right (if possible). If the user makes the attempt to perform an impossible move, a Constraint_Error is raised.
<syntaxhighlight lang="ada">generic
Rows, Cols: Positive;
with function Name(N: Natural) return String; -- with Pre => (N < Rows*Cols);
-- Name(0) shall return the name for the empty tile
package Generic_Puzzle is
subtype Row_Type is Positive range 1 .. Rows;
subtype Col_Type is Positive range 1 .. Cols;
type Moves is (Up, Down, Left, Right);
type Move_Arr is array(Moves) of Boolean;
function Get_Point(Row: Row_Type; Col: Col_Type) return String;
function Possible return Move_Arr;
procedure Move(The_Move: Moves);
end Generic_Puzzle;</syntaxhighlight>
The package implementation is as follows.
<syntaxhighlight lang="ada">package body Generic_Puzzle is
Field: array(Row_Type, Col_Type) of Natural;
Current_R: Row_Type := Rows;
Current_C: Col_Type := Cols;
-- invariant: Field(Current_R, Current_C=0)
-- and for all R, C: Field(R, C) < R*C
-- and for all (R, C) /= (RR, CC): Field(R, C) /= Field(RR, CC)
function Get_Point(Row: Row_Type; Col: Col_Type) return String is
(Name(Field(Row, Col)));
function Possible return Move_Arr is
(Up => Current_R > 1, Down => Current_R < Rows,
Left => Current_C > 1, Right => Current_C < Cols);
procedure Move(The_Move: Moves) is
Old_R: Row_Type; Old_C: Col_Type; N: Natural;
begin
if not Possible(The_Move) then
raise Constraint_Error with "attempt to make impossible move";
else
-- remember current row and column
Old_R := Current_R;
Old_C := Current_C;
-- move the virtual cursor to a new position
case The_Move is
when Up => Current_R := Current_R - 1;
when Down => Current_R := Current_R + 1;
when Left => Current_C := Current_C - 1;
when Right => Current_C := Current_C + 1;
end case;
-- swap the tiles on the board
N := Field(Old_R, Old_C);
Field(Old_R, Old_C) := Field(Current_R, Current_C);
Field(Current_R, Current_C) := N;
end if;
end Move;
begin
declare -- set field to its basic setting
N: Positive := 1;
begin
for R in Row_Type loop
for C in Col_Type loop
if (R /= Current_R) or else (C /= Current_C) then
Field(R, C) := N;
N := N + 1;
else
Field(R, C) := 0;
end if;
end loop;
end loop;
end;
end Generic_Puzzle;</syntaxhighlight>
The main program reads the level from the command line. A larger level implies a more difficult instance. The default level is 10, which is fairly simple. After randomizing the board, the user can move the tiles.
<syntaxhighlight lang="ada">with Generic_Puzzle, Ada.Text_IO,
Ada.Numerics.Discrete_Random, Ada.Command_Line;
procedure Puzzle_15 is
function Image(N: Natural) return String is
(if N=0 then " " elsif N < 10 then " " & Integer'Image(N)
else Integer'Image(N));
package Puzzle is new Generic_Puzzle(Rows => 4, Cols => 4, Name => Image);
package Rnd is new Ada.Numerics.Discrete_Random(Puzzle.Moves);
Rand_Gen: Rnd.Generator;
Level: Natural := (if Ada.Command_Line.Argument_Count = 0 then 10
else Natural'Value(Ada.Command_Line.Argument(1)));
Initial_Moves: Natural := (2**(Level/2) + 2**((1+Level)/2))/2;
Texts: constant array(Puzzle.Moves) of String(1..9) :=
("u,U,^,8: ", "d,D,v,2: ", "l,L,<,4: ", "r,R,>,6: ");
Move_Counter: Natural := 0;
Command: Character;
begin
-- randomize board
for I in 1 .. Initial_Moves loop
declare
M: Puzzle.Moves := Rnd.Random(Rand_Gen);
begin
if Puzzle.Possible(M) then
Puzzle.Move(M);
end if;
end;
end loop;
-- read command and perform move
loop
-- Print board
for R in Puzzle.Row_Type loop
for C in Puzzle.Col_Type loop
Ada.Text_IO.Put(Puzzle.Get_Point(R, C));
end loop;
Ada.Text_IO.New_Line;
end loop;
Ada.Text_IO.Get(Command);
begin
case Command is
when 'u' | 'U' | '^' | '8' =>
Ada.Text_IO.Put_Line("Up!"); Puzzle.Move(Puzzle.Up);
when 'd' | 'D' | 'v' | '2' =>
Ada.Text_IO.Put_Line("Down!"); Puzzle.Move(Puzzle.Down);
when 'l' | 'L' | '<' | '4' =>
Ada.Text_IO.Put_Line("Left!"); Puzzle.Move(Puzzle.Left);
when 'r' | 'R' | '>' | '6' =>
Ada.Text_IO.Put_Line("Right!"); Puzzle.Move(Puzzle.Right);
when '!' =>
Ada.Text_IO.Put_Line(Natural'Image(Move_Counter) & " moves!");
exit;
when others =>
raise Constraint_Error with "wrong input";
end case;
Move_Counter := Move_Counter + 1;
exception when Constraint_Error =>
Ada.Text_IO.Put_Line("Possible Moves and Commands:");
for M in Puzzle.Moves loop
if Puzzle.Possible(M) then
Ada.Text_IO.Put(Texts(M) & Puzzle.Moves'Image(M) & " ");
end if;
end loop;
Ada.Text_IO.Put_Line("!: Quit");
end;
end loop;
end Puzzle_15;</syntaxhighlight>
{{out}}
<pre>>./puzzle_15 4
1 2 3 4
5 6 7 8
9 14 10 11
13 15 12
8
Up!
1 2 3 4
5 6 7 8
9 10 11
13 14 15 12
6
Right!
1 2 3 4
5 6 7 8
9 10 11
13 14 15 12
5
Possible Moves and Commands:
u,U,^,8: UP d,D,v,2: DOWN l,L,<,4: LEFT r,R,>,6: RIGHT !: Quit
1 2 3 4
5 6 7 8
9 10 11
13 14 15 12
6
Right!
1 2 3 4
5 6 7 8
9 10 11
13 14 15 12
2
Down!
1 2 3 4
5 6 7 8
9 10 11 12
13 14 15
!
4 moves!</pre>
For other puzzles, one must just the single line with the package instantiation. E.g., for an 8-puzzle, we would write the following. <syntaxhighlight lang="ada"> package Puzzle is new Generic_Puzzle(Rows => 3, Cols => 3, Name => Image);</syntaxhighlight>
=={{header|Amazing Hopper}}==
<syntaxhighlight lang="Amazing Hopper">
#include <jambo.h>
#define FILATABLA 5
#define COLUMNATABLA 10
#define Imprimelamatriz Gosub 'Pone la matriz'
#define Imprimelascasillas Gosub 'Pone las casillas'
#define Imprimeelíndiceen(_X_,_Y_) Set '_X_,_Y_', Gosub 'Pone el índice'
Main
Set break
Void (casilla, índice, números)
Link gosub( Crea una casilla, Crea el índice, Crea la matriz de números )
Cls
x=4, y=4, Tok sep '""', Gosub 'Imprime escenario'
/* INICIA EL JUEGO */
SW = 1, GANADOR = 0
c=0, cero x=4, cero y=4
Loop
Let ( c:=Getch )
Switch ( c )
Case 'KRIGHT' { #( y < 4 ) do{ ++y }, Exit }
Case 'KDOWN' { #( x < 4 ) do{ ++x }, Exit }
Case 'KLEFT' { #( y > 1 ) do{ --y }, Exit }
Case 'KUP' { #( x > 1 ) do{ --x }, Exit }
Case 'KRETURN' { If ( Gosub 'Chequear si movimiento es válido' )
Gosub 'Mover las casillas'
End If
Exit
}
Case 'KESCAPE' { SW=0 }
End switch
Gosub 'Imprime escenario'
Break if ( Gosub 'Verificar puzzle resuelto' --- Backup to 'GANADOR' )
Back if 'SW' is not zero
/* FIN DEL JUEGO */
If ( GANADOR )
Locate (18,15), Printnl("LO RESOLVISTE!")
End If
Locate (19,1), Prnl
End
Subrutines
/* CHEQUEO DE MOVIMIENTO */
Define ( Verificar puzzle resuelto )
ret = 0
Clr all marks
Tnúmeros=números
Redim (Tnúmeros,0), N = 0, Let ( N := Length(Tnúmeros) Minus (1))
i=1
Iterator ( ++i, Less equal ( i, N ) And( Not(ret) ), \
Let ( ret := Bit xor(i, [i] Get 'Tnúmeros') ) )
Clr all marks
Clear 'Tnúmeros'
Return 'Not (ret); And( Equals(i, Plus one(N)) ) '
Define ( Chequear si movimiento es válido )
Return 'Only one ( Equals (x, cero x), Equals(y, cero y ) )'
Define ( Mover las casillas )
If ( Equals (y, cero y) )
If ( Less (x, cero x) ) // mueve hacia abajo
Loop for ( i = cero x, #( i >= x ) , --i )
If ( Greater ( i, 1 ) )
[{i} Minus(1), y] Get 'números', [i,y] Put 'números'
Else
[{i} Plus(1), y] Get 'números', [i,y] Put 'números'
End If
Next
Else // por defecto: mueve hacia arriba
Loop for ( i = cero x, #( i <= x ) , ++i )
If ( Less ( i, 4 ) )
[{i} Plus(1), y] Get 'números', [i,y] Put 'números'
Else
[i,y] Get 'números', [{i} Minus(1),y] Put 'números'
End If
Next
End If
[x,y] Set '0', Put 'números'
Set 'x', Move to 'cero x'
Else // por defecto: está en la misma fila
If ( Less ( y, cero y ) ) // mueve hacia la derecha
Loop for ( i = cero y, #( i >= y ) , --i )
If ( Greater ( i, 1) )
[x, {i} Minus(1)] Get 'números', [x,i] Put 'números'
Else
[x, y] Get 'números', [x, {i} Plus(1)] Put 'números'
End If
Next
Else // por defecto: mueve hacia la izquierda
Loop for ( i = cero y, #( i <= y ) , ++i )
If ( Less ( i, 4 ) )
[x, {i} Plus(1)] Get 'números', [x,i] Put 'números'
Else
[x,i] Get 'números', [x,{i} Minus(1)] Put 'números'
End If
Next
End If
[x,y] Set '0', Put 'números'
Set 'y', Move to 'cero y'
End If
Clr all marks
Return
/* DESPLIEGUE DE CUADRITOS Y NUMEROS */
Define ( Imprime escenario )
Imprime las casillas
Imprime el índice en 'x,y'
Imprime la matriz
Return
Define ( Pone la matriz )
i=4, col = COLUMNA TABLA, celda=""
Clr all marks
py=1
Loop
j=4, fil = FILA TABLA, px=1
Loop
Locate 'Plus one(fil), Plus two (col)'
Printnl( Get if ([px,py] Get 'números' ---Backup to (celda)---, celda, " ") )
fil += 3
--j, ++px
Back if (j) is not zero
col += 6, --i, ++py
Back if (i) is not zero
Return
Define ( Pone las casillas )
i=4, col = COLUMNA TABLA
Clr all marks
Loop
j=4, fil = FILA TABLA
Loop
Set 'fil, col', Gosub 'Pone un cuadrito'
fil += 3, --j
Back if (j) is not zero
col += 6, --i
Back if (i) is not zero
Return
Define (Pone un cuadrito, fil, col)
Locate 'fil, col', Print table 'casilla'
Return
Define ( Pone el índice, fil, col )
/* 5+(fil-1)*3 fila
10+(col-1)*6 col */
Clr all marks
Locate 'Minus one(fil) Mul by (3) Plus (FILA TABLA), Minus one(col) Mulby(6) Plus(COLUMNA TABLA)'
Print table 'índice'
Return
/* CONFIGURACION DEL JUEGO */
Define ( Crea la matriz de números )
Sequence ( 0, 1, 16, números )
Gosub 'Barajar el array'
Redim ( números, 4,4 )
Return
/* algoritmo de Fisher-Yates */
Define ( Barajar el array )
N = 0, Let ( N := Length(números) )
R = 0, aux = 0
Loop
Let (R := Ceil(Rand(N)))
Let (aux := [R] Get 'números' )
[N] Get 'números', [R] Put 'números'
Set 'aux', [N] Put 'números'
--N
Back if 'N' is positive
If ( [16] Get 'números' ---Backup to 'aux'---, Not (Is zero?) )
[aScan(1,0,números)] Set 'aux', Put 'números'
[16] Set '0', Put 'números'
End If
Return
Define ( Crea una casilla )
Set 'Utf8(Chr(218)),Utf8(Chr(196)),Utf8(Chr(196)),Utf8(Chr(196)),Utf8(Chr(196)),Utf8(Chr(191))', Apnd row 'casilla'
Set 'Utf8(Chr(179))," "," "," "," ",Utf8(Chr(179))', Apnd row 'casilla'
Set 'Utf8(Chr(192)),Utf8(Chr(196)),Utf8(Chr(196)),Utf8(Chr(196)),Utf8(Chr(196)),Utf8(Chr(217))', Apnd row 'casilla'
Return
Define ( Crea el índice )
Set 'Utf8(Chr(220)),Utf8(Chr(220)),Utf8(Chr(220)),Utf8(Chr(220)),Utf8(Chr(220)),Utf8(Chr(220))', Apnd row 'índice'
Set 'Utf8(Chr(219))," "," "," "," ",Utf8(Chr(219))', Apnd row 'índice'
Set 'Utf8(Chr(223)),Utf8(Chr(223)),Utf8(Chr(223)),Utf8(Chr(223)),Utf8(Chr(223)),Utf8(Chr(223))', Apnd row 'índice'
Return
</syntaxhighlight>
{{out}}
<pre>
$ hopper jm/puzzle.jambo
┌────┐┌────┐┌────┐┌────┐
│ 14 ││ 5 ││ 3 ││ 12 │
└────┘└────┘└────┘└────┘
┌────┐┌────┐┌────┐┌────┐
│ 13 ││ 9 ││ 6 ││ 11 │
└────┘└────┘└────┘└────┘
┌────┐┌────┐┌────┐┌────┐
│ 15 ││ 10 ││ 8 ││ 2 │
└────┘└────┘└────┘└────┘
┌────┐┌────┐┌────┐▄▄▄▄▄▄
│ 4 ││ 1 ││ 7 │█ █
└────┘└────┘└────┘▀▀▀▀▀▀
..... (muchos click)
┌────┐┌────┐┌────┐┌────┐
│ 7 ││ 10 ││ 14 ││ 12 │
└────┘└────┘└────┘└────┘
┌────┐┌────┐┌────┐┌────┐
│ 15 ││ ││ 4 ││ 2 │
└────┘└────┘└────┘└────┘
┌────┐▄▄▄▄▄▄┌────┐┌────┐
│ 1 │█ 8 █│ 6 ││ 11 │
└────┘▀▀▀▀▀▀└────┘└────┘
┌────┐┌────┐┌────┐┌────┐
│ 3 ││ 13 ││ 5 ││ 9 │
└────┘└────┘└────┘└────┘
....( muy muchos clicks )
┌────┐┌────┐┌────┐┌────┐
│ 1 ││ 2 ││ 3 ││ 4 │
└────┘└────┘└────┘└────┘
┌────┐┌────┐┌────┐┌────┐
│ 5 ││ 6 ││ 7 ││ 8 │
└────┘└────┘└────┘└────┘
┌────┐┌────┐┌────┐┌────┐
│ 9 ││ 10 ││ 11 ││ 12 │
└────┘└────┘└────┘└────┘
┌────┐┌────┐┌────┐▄▄▄▄▄▄
│ 13 ││ 14 ││ 15 │█ █
└────┘└────┘└────┘▀▀▀▀▀▀
LO RESOLVISTE!
</pre>
=={{header|APL}}==
{{works with|Dyalog APL|16.0}}
<syntaxhighlight lang="apl">fpg←{⎕IO←0
⍺←4 4
(s∨.<0)∨2≠⍴s←⍺:'invalid shape:'s
0≠⍴⍴⍵:'invalid shuffle count:'⍵
d←d,-d←↓2 2⍴3↑1
e←¯1+⍴c←'↑↓←→○'
b←w←s⍴w←1⌽⍳×/s
z←⊃{
z p←⍵
n←(?⍴p)⊃p←(p≡¨(⊂s)|p)/p←(d~p)+⊂z
b[z n]←b[n z]
-⍨\n z
}⍣⍵⊢(s-1)0
⎕←b
⍬{
b≡w:'win'
0=⍴⍺:⍞∇ ⍵
e=i←c⍳m←⊃⍺:'quit'
i>e:⍞∇ ⍵⊣⎕←'invalid direction:'m
n≢s|n←⍵+i⊃d:⍞∇ ⍵⊣'out of bounds:'m
b[⍵ n]←b[n ⍵]
⎕←(s×0≠⍴⍺)⍴b
(1↓⍺)∇ n
}z
}</syntaxhighlight>
{{out}}
<pre> fpg 10
1 3 0 4
5 2 6 8
9 10 7 12
13 14 11 15
←
1 0 3 4
5 2 6 8
9 10 7 12
13 14 11 15
↓
1 2 3 4
5 0 6 8
9 10 7 12
13 14 11 15
→
1 2 3 4
5 6 0 8
9 10 7 12
13 14 11 15
↓↓
1 2 3 4
5 6 7 8
9 10 11 12
13 14 0 15
→
1 2 3 4
5 6 7 8
9 10 11 12
13 14 15 0
win
2 5 fpg 2
1 2 3 0 4
6 7 8 9 5
→
1 2 3 4 0
6 7 8 9 5
↓
1 2 3 4 5
6 7 8 9 0
win
</pre>
=={{header|ARM Assembly}}==
{{works with|as|Raspberry Pi}}
<syntaxhighlight lang="arm assembly">
/* ARM assembly Raspberry PI */
/* program puzzle15.s */
/************************************/
/* Constantes */
/************************************/
.equ STDIN, 0 @ Linux input console
.equ STDOUT, 1 @ Linux output console
.equ EXIT, 1 @ Linux syscall
.equ READ, 3 @ Linux syscall
.equ WRITE, 4 @ Linux syscall
.equ IOCTL, 0x36 @ Linux syscall
.equ SIGACTION, 0x43 @ Linux syscall
.equ SYSPOLL, 0xA8 @ Linux syscall
.equ TCGETS, 0x5401
.equ TCSETS, 0x5402
.equ ICANON, 2
.equ ECHO, 10
.equ POLLIN, 1
.equ SIGINT, 2 @ Issued if the user sends an interrupt signal (Ctrl + C)
.equ SIGQUIT, 3 @ Issued if the user sends a quit signal (Ctrl + D)
.equ SIGTERM, 15 @ Software termination signal (sent by kill by default)
.equ SIGTTOU, 22 @
.equ NBBOX, 16
.equ TAILLEBUFFER, 10
/*******************************************/
/* Structures */
/********************************************/
/* structure termios see doc linux*/
.struct 0
term_c_iflag: @ input modes
.struct term_c_iflag + 4
term_c_oflag: @ output modes
.struct term_c_oflag + 4
term_c_cflag: @ control modes
.struct term_c_cflag + 4
term_c_lflag: @ local modes
.struct term_c_lflag + 4
term_c_cc: @ special characters
.struct term_c_cc + 20 @ see length if necessary
term_fin:
/* structure sigaction see doc linux */
.struct 0
sa_handler:
.struct sa_handler + 4
sa_mask:
.struct sa_mask + 4
sa_flags:
.struct sa_flags + 4
sa_sigaction:
.struct sa_sigaction + 4
sa_fin:
/* structure poll see doc linux */
.struct 0
poll_fd: @ File Descriptor
.struct poll_fd + 4
poll_events: @ events mask
.struct poll_events + 4
poll_revents: @ events returned
.struct poll_revents + 4
poll_fin:
/*********************************/
/* Initialized data */
/*********************************/
.data
sMessResult: .ascii " "
sMessValeur: .fill 11, 1, ' ' @ size => 11
szCarriageReturn: .asciz "\n"
szMessGameWin: .ascii "You win in "
sMessCounter: .fill 11, 1, ' ' @ size => 11
.asciz " move number !!!!\n"
szMessMoveError: .asciz "Huh... Impossible move !!!!\n"
szMessErreur: .asciz "Error detected.\n"
szMessSpaces: .asciz " "
iGraine: .int 123456
/*************************************************/
szMessErr: .ascii "Error code hexa : "
sHexa: .space 9,' '
.ascii " decimal : "
sDeci: .space 15,' '
.asciz "\n"
szClear: .byte 0x1B
.byte 'c' @ console clear
.byte 0
/*********************************/
/* UnInitialized data */
/*********************************/
.bss
.align 4
iCodeError: .skip 4
ibox: .skip 4 * NBBOX @ game boxes
iEnd: .skip 4 @ 0 loop 1 = end loop
iTouche: .skip 4 @ value key pressed
stOldtio: .skip term_fin @ old terminal state
stCurtio: .skip term_fin @ current terminal state
stSigAction: .skip sa_fin @ area signal structure
stSigAction1: .skip sa_fin
stPoll1: .skip poll_fin @ area poll structure
stPoll2: .skip poll_fin
/*********************************/
/* code section */
/*********************************/
.text
.global main
main: @ entry of program
mov r0,#0
ldr r2,iAdribox
mov r9,#0 @ move counter
1: @ loop init boxs
add r1,r0,#1 @ box value
str r1,[r2,r0, lsl #2] @ store value
add r0,#1 @ increment counter
cmp r0,#NBBOX - 2 @ end ?
ble 1b
mov r10,#15 @ empty box location
ldr r0,iAdribox
bl shuffleGame
2: @ loop moves
ldr r0,iAdribox
bl displayGame
//ldr r0,iAdribox
//bl gameOK @ end game ?
//cmp r0,#1
//beq 50f
bl readKey @ read key
cmp r0,#-1
beq 100f @ error or control-c
mov r1,r0 @ key
ldr r0,iAdribox
bl keyMove
ldr r0,iAdribox
bl gameOK @ end game ?
cmp r0,#1
bne 2b @ no -> loop
50: @ win
mov r0,r9 @ move counter
ldr r1,iAdrsMessCounter
bl conversion10
ldr r0,iAdrszMessGameWin
bl affichageMess
100: @ standard end of the program
mov r0, #0 @ return code
mov r7, #EXIT @ request to exit program
svc #0 @ perform the system call
iAdrsMessValeur: .int sMessValeur
iAdrszCarriageReturn: .int szCarriageReturn
iAdrsMessResult: .int sMessResult
iAdribox: .int ibox
iAdrszMessGameWin: .int szMessGameWin
iAdrsMessCounter: .int sMessCounter
/******************************************************************/
/* key move */
/******************************************************************/
/* r0 contains boxs address */
/* r1 contains key value */
/* r9 move counter */
/* r10 contains location empty box */
keyMove:
push {r1-r8,lr} @ save registers
mov r8,r0
cmp r1,#0x42 @ down arrow
bne 1f
cmp r10,#4 @ if r10 < 4 error
blt 80f
sub r2,r10,#4 @ compute location
b 90f
1:
cmp r1,#0x41 @ high arrow
bne 2f
cmp r10,#11 @ if r10 > 11 error
bgt 80f
add r2,r10,#4 @ compute location
b 90f
2:
cmp r1,#0x43 @ right arrow
bne 3f
tst r10,#0b11 @ if r10 = 0,4,8,12 error
beq 80f
sub r2,r10,#1 @ compute location
b 90f
3:
cmp r1,#0x44 @ left arrow
bne 100f
and r3,r10,#0b11 @ error if r10 = 3 7 11 and 15
cmp r3,#3
beq 80f
add r2,r10,#1 @ compute location
b 90f
80: @ move error
ldr r0,iAdriCodeError
mov r1,#1
str r1,[r0]
b 100f
90: @ white box and move box inversion
ldr r3,[r8,r2,lsl #2]
str r3,[r8,r10,lsl #2]
mov r10,r2
mov r3,#0
str r3,[r8,r10,lsl #2]
add r9,#1 @ increment move counter
100:
pop {r1-r8,lr} @ restaur registers
bx lr @return
iAdriCodeError: .int iCodeError
/******************************************************************/
/* shuffle game */
/******************************************************************/
/* r0 contains boxs address */
shuffleGame:
push {r1-r6,lr} @ save registers
mov r1,r0
mov r0,#4
bl genereraleas
lsl r4,r0,#1
mov r0,r8
1:
mov r0,#14
bl genereraleas
add r6,r0,#1
mov r0,#14
bl genereraleas
add r5,r0,#1
ldr r2,[r1,r6,lsl #2]
ldr r3,[r1,r5,lsl #2]
str r2,[r1,r5,lsl #2]
str r3,[r1,r6,lsl #2]
subs r4,#1
bgt 1b
100:
pop {r1-r6,lr} @ restaur registers
bx lr @return
/******************************************************************/
/* game Ok ? */
/******************************************************************/
/* r0 contains boxs address */
gameOK:
push {r1-r8,lr} @ save registers
mov r8,r0
mov r2,#0
ldr r3,[r8,r2,lsl #2]
add r2,#1
1:
ldr r4,[r8,r2,lsl #2]
cmp r4,r3
movlt r0,#0 @ game mot Ok
blt 100f
mov r3,r4
add r2,#1
cmp r2,#NBBOX -2
ble 1b
mov r0,#1 @ game Ok
100:
pop {r1-r8,lr} @ restaur registers
bx lr @return
/******************************************************************/
/* display game */
/******************************************************************/
/* r0 contains boxs address */
displayGame:
push {r1-r5,lr} @ save registers
@ clear !
mov r4,r0
ldr r0,iAdrszClear
bl affichageMess
mov r2,#0
ldr r1,iAdrsMessValeur
1:
ldr r0,[r4,r2,lsl #2]
cmp r0,#0
ldreq r0,iSpaces @ store spaces
streq r0,[r1]
beq 2f
bl conversion10 @ call conversion decimal
mov r0,#0
strb r0,[r1,#3] @ zéro final
2:
ldr r0,iAdrsMessResult
bl affichageMess @ display message
add r0,r2,#1
tst r0,#0b11
bne 3f
ldr r0,iAdrszCarriageReturn
bl affichageMess @ display message
3:
add r2,#1
cmp r2,#NBBOX - 1
ble 1b
ldr r0,iAdrszCarriageReturn
bl affichageMess @ display line return
ldr r0,iAdriCodeError @ error detected ?
ldr r1,[r0]
cmp r1,#0
beq 100f
mov r1,#0 @ raz error code
str r1,[r0]
ldr r0,iAdrszMessMoveError @ display error message
bl affichageMess
100:
pop {r1-r5,lr} @ restaur registers
bx lr @return
iSpaces: .int 0x00202020 @ spaces
iAdrszClear: .int szClear
iAdrszMessMoveError: .int szMessMoveError
/******************************************************************/
/* display text with size calculation */
/******************************************************************/
/* r0 contains the address of the message */
affichageMess:
push {r0,r1,r2,r7,lr} @ save registres
mov r2,#0 @ counter length
1: @ loop length calculation
ldrb r1,[r0,r2] @ read octet start position + index
cmp r1,#0 @ if 0 its over
addne r2,r2,#1 @ else add 1 in the length
bne 1b @ and loop
@ so here r2 contains the length of the message
mov r1,r0 @ address message in r1
mov r0,#STDOUT @ code to write to the standard output Linux
mov r7, #WRITE @ code call system "write"
svc #0 @ call systeme
pop {r0,r1,r2,r7,lr} @ restaur des 2 registres */
bx lr @ return
/******************************************************************/
/* Converting a register to a decimal unsigned */
/******************************************************************/
/* r0 contains value and r1 address area */
/* r0 return size of result (no zero final in area) */
/* area size => 11 bytes */
.equ LGZONECAL, 10
conversion10:
push {r1-r4,lr} @ save registers
mov r3,r1
mov r2,#LGZONECAL
1: @ start loop
bl divisionpar10U @ unsigned r0 <- dividende. quotient ->r0 reste -> r1
add r1,#48 @ digit
strb r1,[r3,r2] @ store digit on area
cmp r0,#0 @ stop if quotient = 0
subne r2,#1 @ else previous position
bne 1b @ and loop
@ and move digit from left of area
mov r4,#0
2:
ldrb r1,[r3,r2]
strb r1,[r3,r4]
add r2,#1
add r4,#1
cmp r2,#LGZONECAL
ble 2b
@ and move spaces in end on area
mov r0,r4 @ result length
mov r1,#' ' @ space
3:
strb r1,[r3,r4] @ store space in area
add r4,#1 @ next position
cmp r4,#LGZONECAL
ble 3b @ loop if r4 <= area size
100:
pop {r1-r4,lr} @ restaur registres
bx lr @return
/***************************************************/
/* division par 10 unsigned */
/***************************************************/
/* r0 dividende */
/* r0 quotient */
/* r1 remainder */
divisionpar10U:
push {r2,r3,r4, lr}
mov r4,r0 @ save value
ldr r3,iMagicNumber @ r3 <- magic_number raspberry 1 2
umull r1, r2, r3, r0 @ r1<- Lower32Bits(r1*r0) r2<- Upper32Bits(r1*r0)
mov r0, r2, LSR #3 @ r2 <- r2 >> shift 3
add r2,r0,r0, lsl #2 @ r2 <- r0 * 5
sub r1,r4,r2, lsl #1 @ r1 <- r4 - (r2 * 2) = r4 - (r0 * 10)
pop {r2,r3,r4,lr}
bx lr @ leave function
iMagicNumber: .int 0xCCCCCCCD
/***************************************************/
/* Generation random number */
/***************************************************/
/* r0 contains limit */
genereraleas:
push {r1-r4,lr} @ save registers
ldr r4,iAdriGraine
ldr r2,[r4]
ldr r3,iNbDep1
mul r2,r3,r2
ldr r3,iNbDep1
add r2,r2,r3
str r2,[r4] @ maj de la graine pour l appel suivant
cmp r0,#0
beq 100f
mov r1,r0 @ divisor
mov r0,r2 @ dividende
bl division
mov r0,r3 @ résult = remainder
100: @ end function
pop {r1-r4,lr} @ restaur registers
bx lr @ return
/*****************************************************/
iAdriGraine: .int iGraine
iNbDep1: .int 0x343FD
iNbDep2: .int 0x269EC3
/***************************************************/
/* integer division unsigned */
/***************************************************/
division:
/* r0 contains dividend */
/* r1 contains divisor */
/* r2 returns quotient */
/* r3 returns remainder */
push {r4, lr}
mov r2, #0 @ init quotient
mov r3, #0 @ init remainder
mov r4, #32 @ init counter bits
b 2f
1: @ loop
movs r0, r0, LSL #1 @ r0 <- r0 << 1 updating cpsr (sets C if 31st bit of r0 was 1)
adc r3, r3, r3 @ r3 <- r3 + r3 + C. This is equivalent to r3 ? (r3 << 1) + C
cmp r3, r1 @ compute r3 - r1 and update cpsr
subhs r3, r3, r1 @ if r3 >= r1 (C=1) then r3 <- r3 - r1
adc r2, r2, r2 @ r2 <- r2 + r2 + C. This is equivalent to r2 <- (r2 << 1) + C
2:
subs r4, r4, #1 @ r4 <- r4 - 1
bpl 1b @ if r4 >= 0 (N=0) then loop
pop {r4, lr}
bx lr
/***************************************************/
/* read touch */
/***************************************************/
readKey:
push {r1-r7,lr}
mov r5,#0
/* read terminal state */
mov r0,#STDIN @ input console
mov r1,#TCGETS
ldr r2,iAdrstOldtio
mov r7, #IOCTL @ call system Linux
svc #0
cmp r0,#0 @ error ?
beq 1f
ldr r1,iAdrszMessErreur @ error message
bl displayError
mov r0,#-1
b 100f
1:
adr r0,sighandler @ adresse routine traitement signal
ldr r1,iAdrstSigAction @ adresse structure sigaction
str r0,[r1,#sa_handler] @ maj handler
mov r0,#SIGINT @ signal type
ldr r1,iAdrstSigAction
mov r2,#0 @ NULL
mov r7, #SIGACTION @ call system
svc #0
cmp r0,#0 @ error ?
bne 97f
mov r0,#SIGQUIT
ldr r1,iAdrstSigAction
mov r2,#0 @ NULL
mov r7, #SIGACTION @ call system
svc #0
cmp r0,#0 @ error ?
bne 97f
mov r0,#SIGTERM
ldr r1,iAdrstSigAction
mov r2,#0 @ NULL
mov r7, #SIGACTION @ appel systeme
svc #0
cmp r0,#0
bne 97f
@
adr r0,iSIG_IGN @ address signal ignore function
ldr r1,iAdrstSigAction1
str r0,[r1,#sa_handler]
mov r0,#SIGTTOU @invalidate other process signal
ldr r1,iAdrstSigAction1
mov r2,#0 @ NULL
mov r7,#SIGACTION @ call system
svc #0
cmp r0,#0
bne 97f
@
/* read terminal current state */
mov r0,#STDIN
mov r1,#TCGETS
ldr r2,iAdrstCurtio @ address current termio
mov r7,#IOCTL @ call systeme
svc #0
cmp r0,#0 @ error ?
bne 97f
mov r2,#ICANON | ECHO @ no key pressed echo on display
mvn r2,r2 @ and one key
ldr r1,iAdrstCurtio
ldr r3,[r1,#term_c_lflag]
and r3,r2 @ add flags
str r3,[r1,#term_c_lflag] @ and store
mov r0,#STDIN @ maj terminal current state
mov r1,#TCSETS
ldr r2,iAdrstCurtio
mov r7, #IOCTL @ call system
svc #0
cmp r0,#0
bne 97f
@
2: @ loop waiting key
ldr r0,iAdriEnd @ if signal ctrl-c -> end
ldr r0,[r0]
cmp r0,#0
movne r5,#-1
bne 98f
ldr r0,iAdrstPoll1 @ address structure poll
mov r1,#STDIN
str r1,[r0,#poll_fd] @ maj FD
mov r1,#POLLIN @ action code
str r1,[r0,#poll_events]
mov r1,#1 @ items number structure poll
mov r2,#0 @ timeout = 0
mov r7,#SYSPOLL @ call system POLL
svc #0
cmp r0,#0 @ key pressed ?
ble 2b @ no key pressed -> loop
@ read key
mov r0,#STDIN @ File Descriptor
ldr r1,iAdriTouche @ buffer address
mov r2,#TAILLEBUFFER @ buffer size
mov r7,#READ @ read key
svc #0
cmp r0,#0 @ error ?
bgt 98f
97: @ error detected
ldr r1,iAdrszMessErreur @ error message
bl displayError
mov r5,#-1
98: @ end then restaur begin state terminal
mov r0,#STDIN
mov r1,#TCSETS
ldr r2,iAdrstOldtio
mov r7,#IOCTL @ call system
svc #0
cmp r0,#0
beq 99f @ restaur ok
ldr r1,iAdrszMessErreur @ error message
bl displayError
mov r0,#-1
b 100f
99:
cmp r5,#0 @ error or control-c
ldreq r2,iAdriTouche @ key address
ldreqb r0,[r2,#2] @ return key byte
movne r0,r5 @ or error
100:
pop {r1-r7, lr}
bx lr
iSIG_IGN: .int 1
iAdriEnd: .int iEnd
iAdrstPoll1: .int stPoll1
iAdriTouche: .int iTouche
iAdrstOldtio: .int stOldtio
iAdrstCurtio: .int stCurtio
iAdrstSigAction: .int stSigAction
iAdrstSigAction1: .int stSigAction1
iAdrszMessErreur : .int szMessErreur
/******************************************************************/
/* traitement du signal */
/******************************************************************/
sighandler:
push {r0,r1}
ldr r0,iAdriEnd
mov r1,#1 @ maj zone end
str r1,[r0]
pop {r0,r1}
bx lr
/***************************************************/
/* display error message */
/***************************************************/
/* r0 contains error code r1 : message address */
displayError:
push {r0-r2,lr} @ save registers
mov r2,r0 @ save error code
mov r0,r1
bl affichageMess
mov r0,r2 @ error code
ldr r1,iAdrsHexa
bl conversion16 @ conversion hexa
mov r0,r2 @ error code
ldr r1,iAdrsDeci @ result address
bl conversion10 @ conversion decimale
ldr r0,iAdrszMessErr @ display error message
bl affichageMess
100:
pop {r0-r2,lr} @ restaur registers
bx lr @ return
iAdrszMessErr: .int szMessErr
iAdrsHexa: .int sHexa
iAdrsDeci: .int sDeci
/******************************************************************/
/* Converting a register to hexadecimal */
/******************************************************************/
/* r0 contains value and r1 address area */
conversion16:
push {r1-r4,lr} @ save registers
mov r2,#28 @ start bit position
mov r4,#0xF0000000 @ mask
mov r3,r0 @ save entry value
1: @ start loop
and r0,r3,r4 @value register and mask
lsr r0,r2 @ move right
cmp r0,#10 @ compare value
addlt r0,#48 @ <10 ->digit
addge r0,#55 @ >10 ->letter A-F
strb r0,[r1],#1 @ store digit on area and + 1 in area address
lsr r4,#4 @ shift mask 4 positions
subs r2,#4 @ counter bits - 4 <= zero ?
bge 1b @ no -> loop
100:
pop {r1-r4,lr} @ restaur registers
bx lr @return
</syntaxhighlight>
=={{header|Arturo}}==
<syntaxhighlight lang="arturo">
;; ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~
;; ===>> ~~ Game's functions ~~ <<===
;; --->> ~~ Init functions ~~ <<---
;; This is a solved sample that is used to
;; init and finish the game
solvedTable: @[ " 1 " " 2 " " 3 " " 4 "
" 5 " " 6 " " 7 " " 8 "
" 9 " " 10 " " 11 " " 12 "
" 13 " " 14 " " 15 " " " ]
;; Use this once in :game's init, to get a player position
;; Q: Why use it once?
;; A: This algorithm is slower than just get a stored varible
;; yet this searches for a string for every value from :game
getPlayerPosition: $[table :block][
return index table " "
]
;; This is the object that represents the game
;; 'table » The sample table to generate the game
define :game [
table :block
][
init: [
; checks if 'table has 16 elements
ensure [16 = size this\table]
;; The game's table itself
this\table: (shuffle this\table) ; creates a random game
;; The current movement. When less, better is your punctuation
this\movements: 0
;; The current 'playerPosition in table
;; Used to evaluate if certain movement is possible or not
this\playerPosition: getPlayerPosition this\table
;; Defines it the gameLoop still running
this\running?: true
]
;; A builtin print function that simplifies the use
print: [
render {
Movements: |this\movements|, Position: |this\playerPosition|
*-----*-----*-----*-----*
|this\table\0| |this\table\1| |this\table\2| |this\table\3|
*-----*-----*-----*-----*
|this\table\4| |this\table\5| |this\table\6| |this\table\7|
*-----*-----*-----*-----*
|this\table\8| |this\table\9| |this\table\10| |this\table\11|
*-----*-----*-----*-----*
|this\table\12| |this\table\13| |this\table\14| |this\table\15|
*-----*-----*-----*-----*
}
]
;; Compares the internal's 'table with another :block
compare: [
if this\table = that
-> return true
]
]
;; These are the commands used internally on game
;; To avoid ambiguity, User's input'll to be translated to this
gameActions: ['up, 'left, 'down, 'right, 'quit]
;; ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~
;; -->> Print funnctions <<---
;; A template for print instructions
printInstructions: [
color #cyan "Type (WASD) to move and (Q) to quit."
]
;; A template for print input warning
;; 'input: the wrong input itself that will be printed
printWrongInput: $[inp :string][
print color #red
~"Wrong input: '|inp|'"
]
;; A template for print input warning
;; 'action: could be 'up, 'down, 'left or 'right
printWrongMovement: $[action :literal][
print color #red
~"Wrong movement. Can't go |action|"
]
;; ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~
;; --->> Validators/Checkers functions <<---
;; Checks if a 'input is in 'gameActions
;; Valids for: 'up, 'down, 'left, 'right and 'quit
validInput?: $[inp :any][
return (in? inp gameActions)
]
;; Checks if the current movement tried is possible
;; 'game » is the current game
;; 'movement » must be in 'gameActions, but can't be 'quit
validMovement?: $[
game :game
movement :literal
][
pos: game\playerPosition
case [movement]
when? [='up]
-> return (not? in? pos [0..3])
when? [='down]
-> return (not? in? pos [12..15])
when? [='left]
-> return (not? in? pos [0 4 8 12])
when? [='right]
-> return (not? in? pos [3 7 11 15])
else
-> return false
]
;; ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~
;; --->> Action functions <<---
;; Gets user input from terminal
;; returning a :literal from 'gameActions
;; Raises: In case of wrong input,
;; will be returned the same input as a :string
parseInput: $[inp :string][
lowerInp: lower inp
case [lowerInp]
when? [="w"] -> return 'up
when? [="a"] -> return 'left
when? [="s"] -> return 'down
when? [="d"] -> return 'right
when? [="q"] -> return 'quit
else -> return inp
]
;; Moves the player in Game's Table
;; Note that this's a unsafe function,
;; use 'validMovement? to check a 'movement given a game,
;; and then use this
movePlayer: $[
game :game
movement :literal
][
position: game\playerPosition
updateGame: $[
game :game
playerPosition :integer
relativePosition :integer
][
try [
; 'otherPosition is the real index of the 'relativePosition
otherPosition: + playerPosition relativePosition
; -- Updates the table, swaping the positions
temp: game\table\[playerPosition]
game\table\[playerPosition]: game\table\[otherPosition]
game\table\[otherPosition]: temp
; -- Updates player's status
game\playerPosition: otherPosition
game\movements: inc game\movements
] else -> panic "'movement didn't checked."
]
case [movement]
when? [='up]
-> (updateGame game position (neg 4))
when? [='down]
-> (updateGame game position (4))
when? [='left]
-> (updateGame game position (neg 1))
when? [='right]
-> (updateGame game position (1))
else -> panic "'movement didn't checked."
]
endGame: $[
message :string
][
print message
exit
]
;; ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~ ~~
;; --->> Run function <<---
;; Inits ans runs the game
;; 'sampleTable must be already solved
runGame: $[sampleTable :block][
game: to :game [sampleTable]
while [game\running?] [
print game
print printInstructions
command: parseInput input ">> "
if command = 'quit
-> endGame "Exiting game..."
validInp: validInput? command
if? validInp [
validMov: validMovement? game command
(validMov)?
-> movePlayer game command
-> printWrongMovement command
] else
-> printWrongInput command
if sampleTable = game
-> endGame "Congratulations! You won!"
print ""
]
]
runGame solvedTable</syntaxhighlight>
=={{header|Astro}}==
<syntaxhighlight lang="python">type Puzzle(var items: {}, var position: -1)
fun mainframe(puz):
let d = puz.items
print('+-----+-----+-----+-----+')
print(d[1], d[2], d[3], d[4], first: '|', sep: '|', last: '|')
print('+-----+-----+-----+-----+')
print(d[5], d[6], d[7], d[8], first: '|', sep: '|', last: '|')
print('+-----+-----+-----+-----+')
print(d[9], d[10], d[11], d[12], first: '|', sep: '|', last: '|')
print('+-----+-----+-----+-----+')
print(d[13], d[14], d[15], d[16], first: '|', sep: '|', last: '|')
print('+-----+-----+-----+-----+')
fun format(puz, ch):
match ch.trim().length:
1 => ' $ch '
2 => ' $ch '
0 => ' '
fun change(puz, to):
let fro = puz.position
for a, b in puz.items where b == puz.format(str i):
to = a
break
swap(puz.items[fro], :[to])
puz.position = to;
fun buildboard(puz, difficulty):
for i in 1..16:
puz.items[i] = puz.format(str i)
var tmp = a
for a, b in puz.items where b == ' 16 ':
puz.items[a] = ' '
tmp = a
break
puz.position = tmp
let diff = match difficulty:
0 => 10
1 => 50
_ => 100
for i in 1..diff:
let lst = puz.validmoves()
let lst1 = []
for j in lst:
lst1.push! j.trim().int()
puz.change(lst1[random(1, lst1.length - 1)])
fun validmoves(puz):
match puz.position:
6 | 7 | 10 | 11 =>
puz.items[pos - 4], :[pos - 1], :[pos + 1], :[pos + 4]
5 | 9 =>
puz.items[pos - 4], :[pos + 4], :[pos + 1]
8 | 12 =>
puz.items[pos - 4], :[pos + 4], :[pos - 1]
2 | 3 =>
puz.items[pos - 1], :[pos + 1], :[pos + 4]
14 | 15 =>
puz.items[pos - 1], :[pos + 1], :[pos - 4]
1 =>
puz.items[pos + 1], :[pos + 4]
4 =>
puz.items[pos - 1], :[pos + 4]
13 =>
puz.items[pos + 1], :[pos - 4]
16 =>
puz.items[pos - 1], :[pos - 4]
fun mainframe(puz):
var flag = false
for a, b in puz.items:
if b == ' ':
pass
else:
flag = (a == b.trim().int())
..
return flag
let game = Puzzle()
game.buildboard(
int(input('Enter the difficulty : 0 1 2\n2 => highest 0=> lowest\n'))
)
game.mainframe()
print 'Enter 0 to exit'
loop:
print 'Hello user:\nTo change the position just enter the no. near it'
var lst = game.validmoves()
var lst1 = []
for i in lst:
lst1.push! i.trim().int()
print(i.strip(), '\t', last: '')
print()
let value = int(input())
if value == 0:
break
elif x not in lst1:
print('Wrong move')
else:
game.change(x)
game.mainframe()
if g.gameover():
print 'You WON'
break
</syntaxhighlight>
=={{header|AutoHotkey}}==
<syntaxhighlight lang="autohotkey">Size := 20
Grid := [], Deltas := ["-1,0","1,0","0,-1","0,1"], Width := Size * 2.5
Gui, font, S%Size%
Gui, add, text, y1
loop, 4
{
Row := A_Index
loop, 4
{
Col := A_Index
Gui, add, button, % (Col=1 ? "xs y+1" : "x+1 yp") " v" Row "_" Col " w" Width " gButton -TabStop", % Grid[Row,Col] := Col + (Row-1)*4 ; 1-16
}
}
GuiControl, Hide, % Row "_" Col ; 4_4
Gui, add, Button, % "xs gShuffle w" 4 * Width + 3, Shuffle
Gui, show,, 15 Puzzle
return
;------------------------------
GuiClose:
ExitApp
return
;------------------------------
Shuffle:
Shuffle := true
loop, 1000
{
Random, Rnd, 1,4
Move(StrSplit(Deltas[Rnd], ",").1, StrSplit(Deltas[Rnd], ",").2)
}
Shuffle := false
return
;------------------------------
Button:
buttonRow := SubStr(A_GuiControl, 1, 1), ButtonCol := SubStr(A_GuiControl, 3, 1)
if Abs(buttonRow-Row) > 1 || Abs(ButtonCol-Col) > 1 || Abs(buttonRow-Row) = Abs(ButtonCol-Col)
return
Move(buttonRow-Row, ButtonCol-Col)
return
;------------------------------
#IfWinActive, 15 Puzzle
;------------------------------
Down::
Move(-1, 0)
return
;------------------------------
Up::
Move(1, 0)
return
;------------------------------
Right::
Move(0, -1)
return
;------------------------------
Left::
Move(0, 1)
return
;------------------------------
#IfWinActive
;------------------------------
Move(deltaRow, deltaCol){
global
if (Row+deltaRow=0) || (Row+deltaRow=5) || (Col+deltaCol=0) || (Col+deltaCol=5)
return
GuiControl, Hide, % Row+deltaRow "_" Col+deltaCol
GuiControl, Show, % Row "_" Col
GuiControl,, %Row%_%Col%, % Grid[Row+deltaRow, Col+deltaCol]
Grid[Row, Col] := Grid[Row+deltaRow, Col+deltaCol]
Grid[Row+=deltaRow, Col+=deltaCol] := 16
if Shuffle
return
gridCont := ""
for m, obj in grid
for n, val in obj
gridCont .= val ","
if (Trim(gridCont, ",") = "1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16")
MsgBox, 262208, 15 Puzzle, You solved 15 Puzzle
}</syntaxhighlight>
=={{header|BASIC}}==
==={{header|Applesoft BASIC}}===
<syntaxhighlight lang="basic"> 100 GOSUB 500INITIALIZE
110 FOR Q = 1 TO 1
120 IF I <> X OR J <> Y THEN GOSUB 200MOVE
130 ON W GOSUB 330,450
140 LET I = K(0, K) + X
150 LET J = K(1, K) + Y
160 LET Q = K(2, K) OR W = 3
170 NEXT Q
180 VTAB T + 3
190 END
REM MOVE
200 IF I < 0 THEN RETURN
210 IF I > 3 THEN RETURN
220 IF J < 0 THEN RETURN
230 IF J > 3 THEN RETURN
240 LET M = (I + J * 4) * 3
250 LET N = (X + Y * 4) * 3
260 IF N > M GOTO 290SWAP
270 LET N = M
280 LET M = (X + Y * 4) * 3
REM SWAP
290 LET A$ = MID$(A$, 1, M) + MID$(A$, N + 1, 2) + MID$(A$,M + 3, N - M - 2) + MID$(A$, M + 1, 2) + MID$(A$, N + 3)
300 LET X = I
310 LET Y = J
320 ON W GOTO 440,400
REM RANDOM MOVE
330 VTAB T + 3
340 HTAB 2
350 PRINT MID$(S$, S + 1, 10);
360 LET S = NOT S
370 LET K = INT(RND(1) * 4) + 1
380 IF PEEK(49152) < 128 OR A$ = W$ THEN RETURN
390 LET K = PEEK(49168) * 0
REM SHOW
400 VTAB T
410 HTAB 1
420 PRINT A$;
430 LET W = (A$ = W$) + 2
REM DON'T SHOW
440 RETURN
REM GET KEY
450 VTAB T + Y
460 HTAB X * 3 + 2
470 GET K$
480 LET K = ASC (K$)
490 RETURN
REM INITIALIZE
500 PRINT " 15-PUZZLE"
REM KEYBOARD
REM ARROW KEYS TWO HANDED CLASSIC T REVERSE T SEQUENCED
REM ^K A I G ^C
REM ^H ^J ^U , Z . J K L H T F ^B ^D ^A
REM RIGHT , J H ^A
510 DATA8,44,74,106,72,104,1
REM LEFT . L F ^B
520 DATA21,46,76,108,70,102,2
REM DOWN A I G ^C
530 DATA11,65,97,73,105,71,103,3
REM UP Z K T ^D
540 DATA10,90,122,75,107,84,116,4
REM QUIT ^Q ESC
550 DATA0,17,27,0
560 DIM K(2,127)
570 FOR V = 0 TO 2
580 FOR D = - 1 TO 1 STEP 2
590 FOR R = 1 TO 1
600 READ K
610 LET K(V,K) = D
620 LET R = K < 5
630 NEXT R,D,V
640 LET A$ = " 1 2 3 4"
650 LET M$ = CHR$ (13)
660 LET L$ = " 5 6 7 8"
670 LET A$ = A$ + M$ + L$
680 LET L$ = " 9 10 11 12"
690 LET A$ = A$ + M$ + L$
700 LET L$ = "13 14 15 "
710 LET A$ = A$ + M$ + L$
720 LET W$ = A$
730 DATA3,3,3,3,1,0
740 READ X,Y,I,J,W,k(2, 0)
750 PRINT "PRESS A KEY"
760 PRINT " TO STOP"
770 LET S$ = " SHUFFLING "
780 LET T = PEEK(37) - 2
790 RETURN</syntaxhighlight>
==={{header|Commodore BASIC}}===
<syntaxhighlight lang="basic">10 REM 15-PUZZLE GAME
20 REM COMMODORE BASIC 2.0
30 REM ********************************
40 GOSUB 400 : REM INTRO AND LEVEL
50 GOSUB 510 : REM SETUP BOARD
60 GOSUB 210 : REM PRINT PUZZLE
70 PRINT "TO MOVE A PIECE, ENTER ITS NUMBER:"
80 INPUT X
90 GOSUB 760 : REM CHECK IF MOVE IS VALID
100 IF MV=0 THEN PRINT "WRONG MOVE" : GOSUB 1130 : GOTO 60
110 D(Z)=X : D(Y)=0
120 GOSUB 210 : REM PRINT PUZZLE
130 GOSUB 1030: REM CHECK IF PUZZLE COMPLETE
140 IF PC THEN 160
150 GOTO 70
160 PRINT"YOU WON!"
170 END
180 REM
190 REM *******************************
200 REM PRINT/DRAW THE PUZZLE
210 FOR P=1 TO 16
220 IF D(P)=0 THEN D$(P)=" " : GOTO 260
230 S$=STR$(D(P))
240 N=LEN(S$)
250 D$(P) = LEFT$(" ",3-N)+S$+" "
260 NEXT
270 PRINT "+-----+-----+-----+-----+"
280 PRINT "!"D$(1)"!"D$(2)"!"D$(3)"!"D$(4)"!"
290 PRINT "+-----+-----+-----+-----+"
300 PRINT "!"D$(5)"!"D$(6)"!"D$(7)"!"D$(8)"!"
310 PRINT "+-----+-----+-----+-----+"
320 PRINT "!"D$(9)"!"D$(10)"!"D$(11)"!"D$(12)"!"
330 PRINT "+-----+-----+-----+-----+"
340 PRINT "!"D$(13)"!"D$(14)"!"D$(15)"!"D$(16)"!"
350 PRINT "+-----+-----+-----+-----+"
360 RETURN
370 REM
380 REM *******************************
390 REM INTRO AND LEVEL OF DIFFICULTY
400 PRINT CHR$(147)
410 DIM SH(3) : SH(1)=10 : SH(2)=50 : SH(3)=100
420 PRINT "15 PUZZLE GAME FOR COMMODORE BASIC 2.0" : PRINT : PRINT
430 PRINT "PLEASE ENTER LEVEL OF DIFFICULTY,"
440 PRINT "1(EASY), 2(MEDIUM) OR 3(HARD):";
450 INPUT V
460 IF V<1 OR V>3 THEN 440
470 RETURN
480 REM
490 REM *******************************
500 REM BUILD THE BOARD
510 DIM D(16) : DIM D$(16) : REM BOARD PIECES
520 REM SET PIECES IN CORRECT ORDER FIRST
530 FOR P=1 TO 15
540 D(P) = P
550 NEXT
560 D(16) = 0 : REM 0 = EMPTY PIECE/SLOT
570 Z=16 : REM Z = EMPTY POSITION
580 PRINT: PRINT "SHUFFLING PIECES";
590 FOR N=1 TO SH(V)
600 PRINT".";
610 X = INT(RND(0)*4)+1
620 IF X=1 THEN R=Z-4
630 IF X=2 THEN R=Z+4
640 IF (X=3) AND (INT((Z-1)/4)<>(Z-1)/4) THEN R=Z-1
650 IF (X=4) AND (INT(Z/4)<>Z/4) THEN R=Z+1
660 IF R<1 OR R>16 THEN 610
670 D(Z)=D(R)
680 Z=R
690 D(Z)=0
700 NEXT
710 PRINT CHR$(147)
720 RETURN
730 REM
740 REM *******************************
750 REM CHECK IF MOVE IS VALID
760 MV = 0
770 IF X<1 OR X>15 THEN RETURN
780 REM FIND POSITION OF PIECE X AND OF EMPTY PIECE
790 AX=X
800 GOSUB 940 : REM FIND POSITION OF PIECE AX
810 Y=P
820 AX=0
830 GOSUB 940 : REM FIND POSITION OF PIECE AX
840 Z=P
850 REM CHECK IF EMPTY PIECE IS ABOVE, BELOW, LEFT OR RIGHT TO PIECE X
860 IF Y-4=Z THEN MV=1 : RETURN
870 IF Y+4=Z THEN MV=1 : RETURN
880 IF (Y-1=Z) AND (INT(Z/4)<>Z/4) THEN MV=1 : RETURN
890 IF (Y+1=Z) AND (INT(Y/4)<>Y/4) THEN MV=1 : RETURN
900 RETURN
910 REM
920 REM *******************************
930 REM FIND POSITION OF PIECE AX
940 P=1
950 IF D(P)=AX THEN 990
960 P=P+1
970 IF P>16 THEN PRINT "UH OH!" : STOP
980 GOTO 950
990 RETURN
1000 REM
1010 REM *******************************
1020 REM CHECK IF PUZZLE IS COMPLETE / GAME OVER
1030 PC = 0
1040 P=1
1050 IF (P>=16) OR (D(P)<>P) THEN 1080
1060 P=P+1
1070 GOTO 1050
1080 IF P=16 THEN PC=1
1090 RETURN
1100 REM
1110 REM ******************************
1120 REM A SMALL DELAY
1130 FOR T=0 TO 400
1140 NEXT
1150 RETURN</syntaxhighlight>
=={{header|BBC BASIC}}==
{{works with|BBC BASIC for Windows}}{{works with|ARM BBC BASIC}}{{works with|Brandy BASIC|Matrix Brandy}}
<syntaxhighlight lang="bbcbasic"> IF INKEY(-256)=77 OR (INKEY(-256) AND &F0)=&A0 THEN MODE 1: COLOUR 0: COLOUR 143: *FX4,1
SIZE=4 : DIFFICULTY=3
MAX=SIZE * SIZE - 1
DIM Board(MAX)
FOR I%=1 TO MAX : Board(I% - 1)=I% : NEXT
Gap=MAX
WHILE N% < DIFFICULTY ^ 2 PROCSlide(RND(4)) : ENDWHILE : REM Shuffle
N%=0
@%=2 + LOG(MAX + 1)
PROCShowAndTest
WHILE NOT Solved
PRINT "Use arrow keys to move the gap around. Moves taken: ";N%
PROCSlide(GET - 135)
PROCShowAndTest
ENDWHILE
PRINT "Solved after ";N% LEFT$(" moves", 6 + (N% = 1)) "."
END
DEF PROCSlide(dir%)
NewGap=Gap
CASE dir% OF
WHEN 1: IF Gap MOD SIZE > 0 NewGap=Gap - 1 : N%+=1 : REM Left
WHEN 2: IF Gap MOD SIZE < SIZE - 1 NewGap=Gap + 1 : N%+=1 : REM Right
WHEN 3: IF Gap < MAX - SIZE + 1 NewGap=Gap + SIZE : N%+=1 : REM Down
WHEN 4: IF Gap > SIZE - 1 NewGap=Gap - SIZE : N%+=1 : REM Up
ENDCASE
SWAP Board(Gap), Board(NewGap)
Gap=NewGap
ENDPROC
DEF PROCShowAndTest
CLS
Solved=TRUE
FOR I%=0 TO MAX
COLOUR 12 : COLOUR 135
IF I% = Gap COLOUR 1 : COLOUR 129
IF I% MOD SIZE = SIZE - 1 PRINT Board(I%) ELSE PRINT Board(I%),;
IF Solved IF I% < MAX - 1 IF Board(I%) > Board(I% + 1) OR I% = Gap Solved=FALSE
NEXT
COLOUR 0 : COLOUR 143
PRINT
ENDPROC</syntaxhighlight>
=={{header|BQN}}==
{{trans|APL}}
<syntaxhighlight lang="bqn">_while_ ← {𝔽⍟𝔾∘𝔽_𝕣_𝔾∘𝔽⍟𝔾𝕩}
FPG←{
𝕊𝕩: 4‿4𝕊𝕩;
(∧´𝕨<0)∨2≠≠𝕨 ? •Out "Invalid shape: "∾•Fmt 𝕨;
0≠=𝕩 ? •Out "Invalid shuffle count: "∾•Fmt 𝕩;
s𝕊𝕩:
d←⟨1‿0⋄¯1‿0⋄0‿1⋄0‿¯1⟩ # Directions
w←𝕨⥊1⌽↕×´𝕨 # Solved grid
b←w # Board
z←⊑{
z‿p←𝕩
p↩(⊢≡s⊸|)¨⊸/(<z)+d(¬∘∊/⊣)p # filter out invalid
n←(•rand.Range ≠p)⊑p
b⌽⌾(z‿n⊸⊑)↩ # switch places
-`n‿z
}⍟𝕩 ⟨𝕨-1,⟨0⟩⟩
{
𝕊:
b≡w ? •Show b, •Out "You win", 0;
•Show b
inp←⊑{
Check 𝕩:
•Out "Enter move: "
x←•GetLine@
i←⊑"↑↓←→q"⊐x
{
i=4 ? i; # quit
i>4 ? •Out "Invalid direction: "∾x, Check x;
(⊢≢s⊸|)z+i⊑d ? •Out "Out of bounds: "∾x, Check x;
i
}
} @
{
𝕩=4 ? •Out "Quitting", 0;
mv←z+𝕩⊑d
b⌽⌾(mv‿z⊸⊑)↩
z↩mv
1
} inp
} _while_ ⊢ 1
@
}</syntaxhighlight>
<syntaxhighlight lang="bqn"> )ex 15_puzzle.bqn
FPG 10
┌─
╵ 1 2 0 3
5 6 7 4
9 10 11 8
13 14 15 12
┘
Enter move:
a
Invalid direction: a
Enter move:
↑
┌─
╵ 1 2 7 3
5 6 0 4
9 10 11 8
13 14 15 12
┘
Enter move:
↓
┌─
╵ 1 2 0 3
5 6 7 4
9 10 11 8
13 14 15 12
┘
Enter move:
↓
Out of bounds: ↓
...</syntaxhighlight>
=={{header|C}}==
===C89, 22 lines version===
The task, as you can see, can be resolved in 22 lines of no more than 80 characters. Of course, the source code in C is not very readable. The second example works exactly the same way, but it was written in much more human readable way. The program also works correctly for non-standard number of rows and/or columns.
<syntaxhighlight lang="c">/* RosettaCode: Fifteen puzle game, C89, plain vanillia TTY, MVC, § 22 */
#define _CRT_SECURE_NO_WARNINGS
#include <stdio.h>
#include <stdlib.h>
#include <time.h>
#define N 4
#define M 4
enum Move{UP,DOWN,LEFT,RIGHT};int hR;int hC;int cc[N][M];const int nS=100;int
update(enum Move m){const int dx[]={0,0,-1,1};const int dy[]={-1,1,0,0};int i=hR
+dy[m];int j=hC+dx[m];if(i>= 0&&i<N&&j>=0&&j<M){cc[hR][hC]=cc[i][j];cc[i][j]=0;
hR=i;hC=j;return 1;}return 0;}void setup(void){int i,j,k;for(i=0;i<N;i++)for(j=0
;j<M;j++)cc[i][j]=i*M+j+1;cc[N-1][M-1]=0;hR=N-1;hC=M-1;k=0;while(k<nS)k+=update(
(enum Move)(rand()%4));}int isEnd(void){int i,j; int k=1;for(i=0;i<N;i++)for(j=0
;j<M;j++)if((k<N*M)&&(cc[i][j]!=k++))return 0;return 1;}void show(){int i,j;
putchar('\n');for(i=0;i<N;i++)for(j=0;j<M;j++){if(cc[i][j])printf(j!=M-1?" %2d "
:" %2d \n",cc[i][j]);else printf(j!=M-1?" %2s ":" %2s \n", "");}putchar('\n');}
void disp(char* s){printf("\n%s\n", s);}enum Move get(void){int c;for(;;){printf
("%s","enter u/d/l/r : ");c=getchar();while(getchar()!='\n');switch(c){case 27:
exit(0);case'd':return UP;case'u':return DOWN;case'r':return LEFT;case'l':return
RIGHT;}}}void pause(void){getchar();}int main(void){srand((unsigned)time(NULL));
do setup();while(isEnd());show();while(!isEnd()){update(get());show();}disp(
"You win"); pause();return 0;}</syntaxhighlight>
===C89, short version, TTY mode===
<syntaxhighlight lang="c">/*
* RosettaCode: Fifteen puzle game, C89, plain vanillia TTY, MVC
*/
#define _CRT_SECURE_NO_WARNINGS /* unlocks printf etc. in MSVC */
#include <stdio.h>
#include <stdlib.h>
#include <time.h>
enum Move { MOVE_UP = 0, MOVE_DOWN = 1, MOVE_LEFT = 2, MOVE_RIGHT = 3 };
/* *****************************************************************************
* Model
*/
#define NROWS 4
#define NCOLLUMNS 4
int holeRow;
int holeCollumn;
int cells[NROWS][NCOLLUMNS];
const int nShuffles = 100;
int Game_update(enum Move move){
const int dx[] = { 0, 0, -1, +1 };
const int dy[] = { -1, +1, 0, 0 };
int i = holeRow + dy[move];
int j = holeCollumn + dx[move];
if ( i >= 0 && i < NROWS && j >= 0 && j < NCOLLUMNS ){
cells[holeRow][holeCollumn] = cells[i][j];
cells[i][j] = 0; holeRow = i; holeCollumn = j;
return 1;
}
return 0;
}
void Game_setup(void){
int i,j,k;
for ( i = 0; i < NROWS; i++ )
for ( j = 0; j < NCOLLUMNS; j++ )
cells[i][j] = i * NCOLLUMNS + j + 1;
cells[NROWS-1][NCOLLUMNS-1] = 0;
holeRow = NROWS - 1;
holeCollumn = NCOLLUMNS - 1;
k = 0;
while ( k < nShuffles )
k += Game_update((enum Move)(rand() % 4));
}
int Game_isFinished(void){
int i,j; int k = 1;
for ( i = 0; i < NROWS; i++ )
for ( j = 0; j < NCOLLUMNS; j++ )
if ( (k < NROWS*NCOLLUMNS) && (cells[i][j] != k++ ) )
return 0;
return 1;
}
/* *****************************************************************************
* View
*/
void View_showBoard(){
int i,j;
putchar('\n');
for ( i = 0; i < NROWS; i++ )
for ( j = 0; j < NCOLLUMNS; j++ ){
if ( cells[i][j] )
printf(j != NCOLLUMNS-1 ? " %2d " : " %2d \n", cells[i][j]);
else
printf(j != NCOLLUMNS-1 ? " %2s " : " %2s \n", "");
}
putchar('\n');
}
void View_displayMessage(char* text){
printf("\n%s\n", text);
}
/* *****************************************************************************
* Controller
*/
enum Move Controller_getMove(void){
int c;
for(;;){
printf("%s", "enter u/d/l/r : ");
c = getchar();
while( getchar() != '\n' )
;
switch ( c ){
case 27: exit(EXIT_SUCCESS);
case 'd' : return MOVE_UP;
case 'u' : return MOVE_DOWN;
case 'r' : return MOVE_LEFT;
case 'l' : return MOVE_RIGHT;
}
}
}
void Controller_pause(void){
getchar();
}
int main(void){
srand((unsigned)time(NULL));
do Game_setup(); while ( Game_isFinished() );
View_showBoard();
while( !Game_isFinished() ){
Game_update( Controller_getMove() );
View_showBoard();
}
View_displayMessage("You win");
Controller_pause();
return EXIT_SUCCESS;
}
</syntaxhighlight>
{{Out}}
<pre>
9 1 4 7
6 5 3 2
13 10 8
14 15 11 12
enter u/d/l/r : u
9 1 4 7
6 5 3 2
13 10 11 8
14 15 12
enter u/d/l/r : l
9 1 4 7
6 5 3 2
13 10 11 8
14 15 12
enter u/d/l/r : d
9 1 4 7
6 5 3 2
13 10 11
14 15 12 8
enter u/d/l/r :</pre>
===C89, long version, TTY/Winapi/ncurses modes===
<syntaxhighlight lang="c">/**
* RosettaCode: Fifteen puzle game, C89, MS Windows Console API, MVC
*
* @version 0.2 (added TTY and ncurses modes)
*/
#define UNDEFINED_WIN32API_CONSOLE
#define UNDEFINED_NCURSES_CONSOLE
#if !defined (TTY_CONSOLE) && !defined(WIN32API_CONSOLE) && !defined(NCURSES_CONSOLE)
#define TTY_CONSOLE
#endif
#define _CRT_SECURE_NO_WARNINGS /* enable printf etc. */
#define _CRT_NONSTDC_NO_DEPRECATE /* POSIX functions enabled */
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#if defined(NCURSES_CONSOLE)
#include "curses.h" /* see http://pdcurses.sourceforge.net/ */
#elif defined(WIN32API_CONSOLE)
#define NOGDI /* we don't need GDI */
#define WIN32_LEAN_AND_MEAN /* we don't need OLE etc. */
#include <windows.h> /* MS Windows stuff */
#include <conio.h> /* kbhit() and getch() */
#endif
enum Move { MOVE_UP = 0, MOVE_DOWN = 1, MOVE_LEFT = 2, MOVE_RIGHT = 3 };
/* *****************************************************************************
* Model
*/
#define NROWS 4
#define NCOLLUMNS 4
int holeRow;
int holeCollumn;
int cells[NROWS][NCOLLUMNS];
const int nShuffles = 100;
int Game_update(enum Move move){
const int dx[] = { 0, 0, -1, +1 };
const int dy[] = { -1, +1, 0, 0 };
int i = holeRow + dy[move];
int j = holeCollumn + dx[move];
if ( i >= 0 && i < NROWS && j >= 0 && j < NCOLLUMNS ){
cells[holeRow][holeCollumn] = cells[i][j];
cells[i][j] = 0; holeRow = i; holeCollumn = j;
return 1;
}
return 0;
}
void Game_setup(void){
int i,j,k;
for ( i = 0; i < NROWS; i++ )
for ( j = 0; j < NCOLLUMNS; j++ )
cells[i][j] = i * NCOLLUMNS + j + 1;
cells[NROWS-1][NCOLLUMNS-1] = 0;
holeRow = NROWS - 1;
holeCollumn = NCOLLUMNS - 1;
k = 0;
while ( k < nShuffles )
k += Game_update((enum Move)(rand() % 4));
}
int Game_isFinished(void){
int i,j; int k = 1;
for ( i = 0; i < NROWS; i++ )
for ( j = 0; j < NCOLLUMNS; j++ )
if ( (k < NROWS*NCOLLUMNS) && (cells[i][j] != k++ ) )
return 0;
return 1;
}
/* *****************************************************************************
* View
*/
int fieldWidth;
#ifdef WIN32API_CONSOLE
HANDLE hConsole;
CONSOLE_SCREEN_BUFFER_INFO csbi;
#endif
void View_setup_base(void)
{
int i;
fieldWidth = 0;
for ( i = NROWS * NCOLLUMNS - 1; i > 0; i /= 10 )
fieldWidth++;
}
#if defined(TTY_CONSOLE)
void View_setup(void) {
View_setup_base();
}
void View_showBoard()
{
int i,j;
putchar('\n');
for ( i = 0; i < NROWS; i++ )
for ( j = 0; j < NCOLLUMNS; j++ ){
if ( cells[i][j] )
printf(j != NCOLLUMNS-1 ? " %*d " : " %*d \n", fieldWidth, cells[i][j]);
else
printf(j != NCOLLUMNS-1 ? " %*s " : " %*s \n", fieldWidth, "");
}
putchar('\n');
}
void View_displayMessage(char* text)
{
printf("\n%s\n", text);
}
#elif defined(NCURSES_CONSOLE)
void View_setup(void) {
View_setup_base();
initscr();
clear();
}
void View_showBoard()
{
int i,j;
for ( i = 0; i < NROWS; i++ )
for ( j = 0; j < NCOLLUMNS; j++ ){
int x = (fieldWidth+1)*j;
int y = 2*i;
if ( cells[i][j] ){
attron(A_REVERSE);
mvprintw(y,x,"%*d", fieldWidth, cells[i][j]);
}else{
attroff(A_REVERSE);
mvprintw(y,x,"%*s", fieldWidth, " ");
}
}
attrset(A_NORMAL);
}
void View_displayMessage(char* text)
{
mvprintw(2*NROWS,0, "%s", text);
}
#elif defined(WIN32API_CONSOLE)
void View_setup(void) {
const COORD coordHome = { 0, 0 };
CONSOLE_CURSOR_INFO cci;
DWORD size, nWritten;
View_setup_base();
hConsole = GetStdHandle(STD_OUTPUT_HANDLE);
cci.bVisible = FALSE;
cci.dwSize = 1;
SetConsoleCursorInfo(hConsole,&cci);
GetConsoleScreenBufferInfo(hConsole,&(csbi));
size = csbi.dwSize.X*csbi.dwSize.Y;
FillConsoleOutputCharacter(hConsole,' ',size,coordHome,&nWritten);
FillConsoleOutputAttribute(hConsole,csbi.wAttributes,size,coordHome,&nWritten);
}
void View_showBoard()
{
int i,j;
char labelString[32];
WORD attributes;
DWORD nWritten;
for ( i = 0; i < NROWS; i++ )
for ( j = 0; j < NCOLLUMNS; j++ ){
COORD coord = { ((SHORT)fieldWidth+1)*j, coord.Y = 2*i };
if ( cells[i][j] ){
sprintf(labelString,"%*d", fieldWidth, cells[i][j]);
attributes = BACKGROUND_BLUE | BACKGROUND_GREEN | BACKGROUND_RED;
}else{
sprintf(labelString,"%*s", fieldWidth, " ");
attributes = csbi.wAttributes;
}
WriteConsoleOutputCharacter(hConsole,labelString,fieldWidth,coord,&nWritten);
FillConsoleOutputAttribute (hConsole,attributes,fieldWidth,coord,&nWritten);
}
}
void View_displayMessage(char* text)
{
DWORD nWritten;
COORD coord = { 0, 2 * NROWS };
WriteConsoleOutputCharacter(hConsole,text,strlen(text),coord,&nWritten);
}
#endif
/* *****************************************************************************
* Controller
*/
#if defined(TTY_CONSOLE)
void Controller_setup(void){
}
enum Move Controller_getMove(void){
int c;
for(;;){
printf("%s", "enter u/d/l/r : ");
c = getchar();
while( getchar() != '\n' )
;
switch ( c ){
case 27: exit(EXIT_SUCCESS);
case 'd' : return MOVE_UP;
case 'u' : return MOVE_DOWN;
case 'r' : return MOVE_LEFT;
case 'l' : return MOVE_RIGHT;
}
}
}
void Controller_pause(void)
{
getchar();
}
#elif defined(NCURSES_CONSOLE)
void Controller_setup(void){
noecho();
cbreak();
curs_set(0);
keypad(stdscr,TRUE);
}
enum Move Controller_getMove(void){
for(;;){
switch ( wgetch(stdscr) ){
case 27: exit(EXIT_SUCCESS);
case KEY_DOWN : return MOVE_UP;
case KEY_UP : return MOVE_DOWN;
case KEY_RIGHT : return MOVE_LEFT;
case KEY_LEFT : return MOVE_RIGHT;
case ERR: /* NOP */;
}
}
}
void Controller_pause(void){
while ( wgetch(stdscr) == ERR )
;
}
#elif defined(WIN32API_CONSOLE)
void Controller_setup(void){
}
enum Move Controller_getMove(void){
for(;;){
switch ( getch() ){
case 27: exit(EXIT_SUCCESS);
case 0:
case 224: switch ( getch() ){
case 80 : return MOVE_UP;
case 72 : return MOVE_DOWN;
case 77 : return MOVE_LEFT;
case 75 : return MOVE_RIGHT;
}
}
}
}
void Controller_pause(void){
while( kbhit() ) getch();
while( !kbhit() ) ;
while( kbhit() ) getch();
}
#endif
/* *****************************************************************************
* Main function: create model, view and controller. Run main loop.
*/
int main(void) {
srand((unsigned)time(NULL));
do Game_setup(); while ( Game_isFinished() );
View_setup();
Controller_setup();
View_showBoard();
while( !Game_isFinished() ){
Game_update( Controller_getMove() );
View_showBoard();
}
View_displayMessage("You win");
Controller_pause();
return EXIT_SUCCESS;
}
</syntaxhighlight>
=={{header|C sharp|C#}}==
{{libheader|System.Windows.Forms}}
{{libheader|System.Drawing}}
{{works with|C sharp|3+}}
<syntaxhighlight lang="csharp">using System;
using System.Collections.Generic;
using System.Drawing;
using System.Windows.Forms;
public class FifteenPuzzle
{
const int GridSize = 4; //Standard 15 puzzle is 4x4
const int BlockCount = 16;
static readonly Random R = new Random();
private List<Button> Puzzles = new List<Button>();
private int Moves = 0;
private DateTime Start;
public class Puzzle
{
private int mOrderedNumer;
public int CurrentNumber;
public int X;
public int Y;
public int InvX
{
get { return (GridSize - 1) - X; }
}
public int InvY
{
get { return (GridSize - 1) - Y; }
}
public Puzzle(int OrderedNumer)
{
mOrderedNumer = OrderedNumer;
CurrentNumber = OrderedNumer;
X = OrderedNumer % GridSize;
Y = OrderedNumer / GridSize;
}
public Puzzle(int OrderedNumer, int CurrentNumber)
: this(OrderedNumer)
{
this.CurrentNumber = CurrentNumber;
}
public bool IsEmptyPuzzle
{
get { return CurrentNumber >= (BlockCount - 1); }
}
public bool IsTruePlace
{
get { return (CurrentNumber == mOrderedNumer); }
}
public bool NearestWith(Puzzle OtherPz)
{
int dx = (X - OtherPz.X);
int dy = (Y - OtherPz.Y);
if ((dx == 0) && (dy <= 1) && (dy >= -1)) return true;
if ((dy == 0) && (dx <= 1) && (dx >= -1)) return true;
return false;
}
public override string ToString()
{
return (CurrentNumber + 1).ToString();
}
}
public static void Main(string[] args)
{
FifteenPuzzle Game = new FifteenPuzzle();
Application.Run(Game.CreateForm());
}
private Form CreateForm()
{
int ButtonSize = 50;
int ButtonMargin = 3;
int FormEdge = 9;
Font ButtonFont = new Font("Arial", 15.75F, FontStyle.Regular);
Button StartButton = new Button();
StartButton.Location = new Point(FormEdge, (GridSize * (ButtonMargin + ButtonSize)) + FormEdge);
StartButton.Size = new Size(86, 23);
StartButton.Font = new Font("Arial", 9.75F, FontStyle.Regular);
StartButton.Text = "New Game";
StartButton.UseVisualStyleBackColor = true;
StartButton.TabStop = false;
StartButton.Click += new EventHandler(NewGame);
int FormWidth = (GridSize * ButtonSize) + ((GridSize - 1) * ButtonMargin) + (FormEdge * 2);
int FormHeigth = FormWidth + StartButton.Height;
Form Form = new Form();
Form.Text = "Fifteen";
Form.ClientSize = new Size(FormWidth, FormHeigth);
Form.FormBorderStyle = FormBorderStyle.FixedSingle;
Form.MaximizeBox = false;
Form.SuspendLayout();
for (int i = 0; i < BlockCount; i++)
{
Button Bt = new Button();
Puzzle Pz = new Puzzle(i);
int PosX = FormEdge + (Pz.X) * (ButtonSize + ButtonMargin);
int PosY = FormEdge + (Pz.Y) * (ButtonSize + ButtonMargin);
Bt.Location = new Point(PosX, PosY);
Bt.Size = new Size(ButtonSize, ButtonSize);
Bt.Font = ButtonFont;
Bt.Text = Pz.ToString();
Bt.Tag = Pz;
Bt.UseVisualStyleBackColor = true;
Bt.TabStop = false;
Bt.Enabled = false;
if (Pz.IsEmptyPuzzle) Bt.Visible = false;
Bt.Click += new EventHandler(MovePuzzle);
Puzzles.Add(Bt);
Form.Controls.Add(Bt);
}
Form.Controls.Add(StartButton);
Form.ResumeLayout();
return Form;
}
private void NewGame(object Sender, EventArgs E)
{
do
{
for (int i = 0; i < Puzzles.Count; i++)
{
Button Bt1 = Puzzles[R.Next(i, Puzzles.Count)];
Button Bt2 = Puzzles[i];
Swap(Bt1, Bt2);
}
}
while (!IsSolvable());
for (int i = 0; i < Puzzles.Count; i++)
{
Puzzles[i].Enabled = true;
}
Moves = 0;
Start = DateTime.Now;
}
private void MovePuzzle(object Sender, EventArgs E)
{
Button Bt1 = (Button)Sender;
Puzzle Pz1 = (Puzzle)Bt1.Tag;
Button Bt2 = Puzzles.Find(Bt => ((Puzzle)Bt.Tag).IsEmptyPuzzle);
Puzzle Pz2 = (Puzzle)Bt2.Tag;
if (Pz1.NearestWith(Pz2))
{
Swap(Bt1, Bt2);
Moves++;
}
CheckWin();
}
private void CheckWin()
{
Button WrongPuzzle = Puzzles.Find(Bt => !((Puzzle)Bt.Tag).IsTruePlace);
bool UWin = (WrongPuzzle == null);
if (UWin)
{
for (int i = 0; i < Puzzles.Count; i++)
{
Puzzles[i].Enabled = false;
}
TimeSpan Elapsed = DateTime.Now - Start;
Elapsed = TimeSpan.FromSeconds(Math.Round(Elapsed.TotalSeconds, 0));
MessageBox.Show(String.Format("Solved in {0} moves. Time: {1}", Moves, Elapsed));
}
}
private void Swap(Button Bt1, Button Bt2)
{
if (Bt1 == Bt2) return;
Puzzle Pz1 = (Puzzle)Bt1.Tag;
Puzzle Pz2 = (Puzzle)Bt2.Tag;
int g = Pz1.CurrentNumber;
Pz1.CurrentNumber = Pz2.CurrentNumber;
Pz2.CurrentNumber = g;
Bt1.Visible = true;
Bt1.Text = Pz1.ToString();
if (Pz1.IsEmptyPuzzle) Bt1.Visible = false;
Bt2.Visible = true;
Bt2.Text = Pz2.ToString();
if (Pz2.IsEmptyPuzzle) Bt2.Visible = false;
}
private bool IsSolvable()
{
// WARNING: size of puzzle board MUST be even(like 4)!
// For explain see: https://www.geeksforgeeks.org/check-instance-15-puzzle-solvable/
int InvCount = 0;
for (int i = 0; i < Puzzles.Count - 1; i++)
{
for (int j = i + 1; j < Puzzles.Count; j++)
{
Puzzle Pz1 = (Puzzle)Puzzles[i].Tag;
if (Pz1.IsEmptyPuzzle) continue;
Puzzle Pz2 = (Puzzle)Puzzles[j].Tag;
if (Pz2.IsEmptyPuzzle) continue;
if (Pz1.CurrentNumber > Pz2.CurrentNumber) InvCount++;
}
}
Button EmptyBt = Puzzles.Find(Bt => ((Puzzle)Bt.Tag).IsEmptyPuzzle);
Puzzle EmptyPz = (Puzzle)EmptyBt.Tag;
bool Result = false;
if ((EmptyPz.InvY + 1) % 2 == 0) // is even
{
// is odd
if (InvCount % 2 != 0) Result = true;
}
else // is odd
{
// is even
if (InvCount % 2 == 0) Result = true;
}
return Result;
}
}</syntaxhighlight>
=={{header|C++}}==
<syntaxhighlight lang="cpp">
#include <time.h>
#include <stdlib.h>
#include <vector>
#include <string>
#include <iostream>
class p15 {
public :
void play() {
bool p = true;
std::string a;
while( p ) {
createBrd();
while( !isDone() ) { drawBrd();getMove(); }
drawBrd();
std::cout << "\n\nCongratulations!\nPlay again (Y/N)?";
std::cin >> a; if( a != "Y" && a != "y" ) break;
}
}
private:
void createBrd() {
int i = 1; std::vector<int> v;
for( ; i < 16; i++ ) { brd[i - 1] = i; }
brd[15] = 0; x = y = 3;
for( i = 0; i < 1000; i++ ) {
getCandidates( v );
move( v[rand() % v.size()] );
v.clear();
}
}
void move( int d ) {
int t = x + y * 4;
switch( d ) {
case 1: y--; break;
case 2: x++; break;
case 4: y++; break;
case 8: x--;
}
brd[t] = brd[x + y * 4];
brd[x + y * 4] = 0;
}
void getCandidates( std::vector<int>& v ) {
if( x < 3 ) v.push_back( 2 ); if( x > 0 ) v.push_back( 8 );
if( y < 3 ) v.push_back( 4 ); if( y > 0 ) v.push_back( 1 );
}
void drawBrd() {
int r; std::cout << "\n\n";
for( int y = 0; y < 4; y++ ) {
std::cout << "+----+----+----+----+\n";
for( int x = 0; x < 4; x++ ) {
r = brd[x + y * 4];
std::cout << "| ";
if( r < 10 ) std::cout << " ";
if( !r ) std::cout << " ";
else std::cout << r << " ";
}
std::cout << "|\n";
}
std::cout << "+----+----+----+----+\n";
}
void getMove() {
std::vector<int> v; getCandidates( v );
std::vector<int> p; getTiles( p, v ); unsigned int i;
while( true ) {
std::cout << "\nPossible moves: ";
for( i = 0; i < p.size(); i++ ) std::cout << p[i] << " ";
int z; std::cin >> z;
for( i = 0; i < p.size(); i++ )
if( z == p[i] ) { move( v[i] ); return; }
}
}
void getTiles( std::vector<int>& p, std::vector<int>& v ) {
for( unsigned int t = 0; t < v.size(); t++ ) {
int xx = x, yy = y;
switch( v[t] ) {
case 1: yy--; break;
case 2: xx++; break;
case 4: yy++; break;
case 8: xx--;
}
p.push_back( brd[xx + yy * 4] );
}
}
bool isDone() {
for( int i = 0; i < 15; i++ ) {
if( brd[i] != i + 1 ) return false;
}
return true;
}
int brd[16], x, y;
};
int main( int argc, char* argv[] ) {
srand( ( unsigned )time( 0 ) );
p15 p; p.play(); return 0;
}
</syntaxhighlight>
<pre>
+----+----+----+----+
| 11 | 5 | 12 | 3 |
+----+----+----+----+
| 10 | 7 | 6 | 4 |
+----+----+----+----+
| 13 | | 2 | 1 |
+----+----+----+----+
| 15 | 14 | 8 | 9 |
+----+----+----+----+
Possible moves: 2 13 14 7
</pre>
=={{header|COBOL}}==
Tested with GnuCOBOL
<syntaxhighlight lang="cobol"> >>SOURCE FORMAT FREE
*> This code is dedicated to the public domain
*> This is GNUCOBOL 2.0
identification division.
program-id. fifteen.
environment division.
configuration section.
repository. function all intrinsic.
data division.
working-storage section.
01 r pic 9.
01 r-empty pic 9.
01 r-to pic 9.
01 r-from pic 9.
01 c pic 9.
01 c-empty pic 9.
01 c-to pic 9.
01 c-from pic 9.
01 display-table.
03 display-row occurs 4.
05 display-cell occurs 4 pic 99.
01 tile-number pic 99.
01 tile-flags pic x(16).
01 display-move value spaces.
03 tile-id pic 99.
01 row-separator pic x(21) value all '.'.
01 column-separator pic x(3) value ' . '.
01 inversions pic 99.
01 current-tile pic 99.
01 winning-display pic x(32) value
'01020304'
& '05060708'
& '09101112'
& '13141500'.
procedure division.
start-fifteen.
display 'start fifteen puzzle'
display ' enter a two-digit tile number and press <enter> to move'
display ' press <enter> only to exit'
*> tables with an odd number of inversions are not solvable
perform initialize-table with test after until inversions = 0
perform show-table
accept display-move
perform until display-move = spaces
perform move-tile
perform show-table
move spaces to display-move
accept display-move
end-perform
stop run
.
initialize-table.
compute tile-number = random(seconds-past-midnight) *> seed only
move spaces to tile-flags
move 0 to current-tile inversions
perform varying r from 1 by 1 until r > 4
after c from 1 by 1 until c > 4
perform with test after
until tile-flags(tile-number + 1:1) = space
compute tile-number = random() * 100
compute tile-number = mod(tile-number, 16)
end-perform
move 'x' to tile-flags(tile-number + 1:1)
if tile-number > 0 and < current-tile
add 1 to inversions
end-if
move tile-number to display-cell(r,c) current-tile
end-perform
compute inversions = mod(inversions,2)
.
show-table.
if display-table = winning-display
display 'winning'
end-if
display space row-separator
perform varying r from 1 by 1 until r > 4
perform varying c from 1 by 1 until c > 4
display column-separator with no advancing
if display-cell(r,c) = 00
display ' ' with no advancing
move r to r-empty
move c to c-empty
else
display display-cell(r,c) with no advancing
end-if
end-perform
display column-separator
end-perform
display space row-separator
.
move-tile.
if not (tile-id numeric and tile-id >= 01 and <= 15)
display 'invalid tile number'
exit paragraph
end-if
*> find the entered tile-id row and column (r,c)
perform varying r from 1 by 1 until r > 4
after c from 1 by 1 until c > 4
if display-cell(r,c) = tile-id
exit perform
end-if
end-perform
*> show-table filled (r-empty,c-empty)
evaluate true
when r = r-empty
if c-empty < c
*> shift left
perform varying c-to from c-empty by 1 until c-to > c
compute c-from = c-to + 1
move display-cell(r-empty,c-from) to display-cell(r-empty,c-to)
end-perform
else
*> shift right
perform varying c-to from c-empty by -1 until c-to < c
compute c-from = c-to - 1
move display-cell(r-empty,c-from) to display-cell(r-empty,c-to)
end-perform
end-if
move 00 to display-cell(r,c)
when c = c-empty
if r-empty < r
*>shift up
perform varying r-to from r-empty by 1 until r-to > r
compute r-from = r-to + 1
move display-cell(r-from,c-empty) to display-cell(r-to,c-empty)
end-perform
else
*> shift down
perform varying r-to from r-empty by -1 until r-to < r
compute r-from = r-to - 1
move display-cell(r-from,c-empty) to display-cell(r-to,c-empty)
end-perform
end-if
move 00 to display-cell(r,c)
when other
display 'invalid move'
end-evaluate
.
end program fifteen.</syntaxhighlight>
{{out}}
<pre>prompt$ cobc -xj fifteen.cbl
start fifteen puzzle
enter a two-digit tile number and press <enter> to move
press <enter> only to exit
.....................
. 05 . 14 . 08 . 12 .
. 01 . 10 . 03 . 09 .
. 02 . 15 . 13 . 11 .
. 06 . . 07 . 04 .
.....................
</pre>
=={{header|Common Lisp}}==
Credit to this post for help with the inversions-counting function: [http://www.lispforum.com/viewtopic.php?f=2&t=3422]
Run it (after loading the file) with <syntaxhighlight lang="lisp">|15|::main</syntaxhighlight>.
<syntaxhighlight lang="lisp">(defpackage :15
(:use :common-lisp))
(in-package :15)
(defvar +side+ 4)
(defvar +max+ (1- (* +side+ +side+))) ; 15
(defun make-board ()
(make-array (list +side+ +side+)
:initial-contents
(loop :for i :below +side+ :collecting
(loop :for j :below +side+ :collecting
(mod (1+ (+ j (* i +side+))) (1+ +max+))))))
(defvar *board* (make-board))
(defun shuffle-board (board)
(loop for i from (array-total-size board) downto 2
do (rotatef (row-major-aref board (random i))
(row-major-aref board (1- i))))
board)
(defun pb (stream object &rest args)
(declare (ignorable args))
(loop for i below (car (array-dimensions object)) do
(loop for j below (cadr (array-dimensions object)) do
(let ((cell (aref object i j)))
(format stream "(~[ ~:;~:*~2d~])" cell)))
(format stream "~%")))
(defun sortedp (board)
(declare (ignorable board))
(loop for i upto +max+
when (eq (row-major-aref board i) (mod (1+ i) 16)) do
(return-from sortedp nil))
t)
(defun inversions (lst)
(if (or (null lst) (null (cdr lst)))
0
(let* ((half (ceiling (/ (length lst) 2)))
(left-list (subseq lst 0 half))
(right-list (subseq lst half)))
(+ (loop for a in left-list
summing (loop for b in right-list
counting (not (< a b))))
(inversions left-list)
(inversions right-list)))))
(defun solvablep (board)
(let ((inv (inversions (loop for i upto +max+ collecting
(row-major-aref board i))))
(row (- +side+ (first (board-position board 0)))))
(or (and (oddp +side+)
(evenp inv))
(and (evenp +side+)
(evenp row)
(oddp inv))
(and (evenp +side+)
(oddp row)
(evenp inv)))))
(defun board-position (board dig)
(loop for i below (car (array-dimensions board)) do
(loop for j below (cadr (array-dimensions board))
when (eq dig (aref board i j)) do
(return-from board-position (list i j)))))
(defun in-bounds (y x)
(and (< -1 y +side+)
(< -1 x +side+)))
(defun get-adjacents (board pos)
(let ((adjacents ()) (y (first pos)) (x (second pos)))
(if (in-bounds y (1+ x))
(push (aref board y (1+ x)) adjacents))
(if (in-bounds (1+ y) x)
(push (aref board (1+ y) x) adjacents))
(if (in-bounds y (1- x))
(push (aref board y (1- x)) adjacents))
(if (in-bounds (1- y) x)
(push (aref board (1- y) x) adjacents))
adjacents))
(defun main (&rest argv)
(declare (ignorable argv))
(setf *random-state* (make-random-state t))
(loop until (solvablep *board*) do
(shuffle-board *board*))
(loop until (sortedp *board*) do
(format t "~/15:pb/~%" *board*)
(format t "Which number do you want to swap the blank with?~%> ")
(let* ((in (read))
(zpos (board-position *board* 0))
(pos (board-position *board* in))
(adj (get-adjacents *board* zpos)))
(if (find in adj)
(rotatef (aref *board* (first pos) (second pos))
(aref *board* (first zpos) (second zpos))))))
(format t "You win!~%"))</syntaxhighlight>
=={{header|Craft Basic}}==
[[File:15 puzzle craft basic.png|thumb]]
<syntaxhighlight lang="basic">rem 15 Puzzle example game
rem written in Craft Basic
rem by Gemino Smothers 2023
rem www.lucidapogee.com
define size = 16, correct = 0, moves = 0
define click = 0, start = 0
dim list[size]
gosub setup
gosub game
end
sub setup
title "15 Puzzle"
bgcolor 0,128,0
cls graphics
resize 0, 0, 170, 270
center
let x = 0
let y = 30
for i = 0 to size - 1
if x = 112 then
let x = 0
let y = y + 25
endif
let x = x + 28
formid i + 1
formtext ""
buttonform x, y, 25, 20
next i
formid 17
formtext "
staticform 40, 130, 100, 20
bgcolor 0, 128, 0
fgcolor 255, 255, 0
colorform
formid 18
formtext ""
staticform 40, 150, 100, 20
bgcolor 0, 128, 0
fgcolor 255, 255, 0
colorform
formid 19
formtext "New"
buttonform 1, 1, 50, 20
formid 20
formtext "Help"
buttonform 55, 1, 50, 20
formid 21
formtext "About"
buttonform 110, 1, 50, 20
formid 22
formtext "Welcome."
staticform 40, 170, 120, 20
bgcolor 0, 128, 0
fgcolor 255, 255, 0
colorform
return
sub shuffle
let start = 1
formid 22
formtext "shuffling..."
updateform
for i = 0 to size - 1
formid i + 1
formtext ""
updateform
let list[i] = 0
next i
let t = 0
let i = 0
do
if i = 14 then
let n = 120 - t
formid i + 1
formtext n
updateform
let list[i] = n
break
endif
for f = 0 to size - 1
let n = int(rnd * 15) + 1
let s = 0
for c = 0 to i - 1
if n = list[c] then
let s = 1
break c
endif
next c
if s = 0 and list[i] = 0 then
formid i + 1
formtext n
updateform
let list[i] = n
let t = t + n
let i = i + 1
endif
wait
next f
loop i < size - 1
formid 22
formtext ""
updateform
return
sub game
do
let click = forms
if click > 0 and click < 17 and start = 1 then
let moves = moves + 1
formid 17
formtext "Moves: ", moves
updateform
gosub checkspaces
gosub checkorder
endif
if click = 19 then
gosub shuffle
let moves = 0
let correct = 0
formid 17
formtext "Moves:"
updateform
formid 18
formtext "Correct:"
updateform
endif
if click = 20 then
alert "Click the numbers to move them in the correct order."
endif
if click = 21 then
alert "15 Puzzle", newline, "by Gemino Smothers 2023 ", newline, " www.lucidapogee.com"
endif
button k, 27
wait
loop k = 0
return
sub checkspaces
let click = click - 1
let top = click - 4
let right = click + 1
let bottom = click + 4
let left = click - 1
if top >= 0 then
if list[top] = 0 then
let n = top
gosub swap
endif
endif
if right <= size - 1 then
if list[right] = 0 then
let n = right
gosub swap
endif
endif
if bottom <= size - 1 then
if list[bottom] = 0 then
let n = bottom
gosub swap
endif
endif
if left >= 0 then
if list[left] = 0 then
let n = left
gosub swap
endif
endif
return
sub swap
let t = list[click]
let list[n] = list[click]
let list[click] = 0
let click = click + 1
formid click
formtext ""
updateform
let n = n + 1
formid n
formtext t
updateform
return
sub checkorder
let correct = 0
for i = 0 to size - 2
if list[i] = i + 1 then
let correct = correct + 1
endif
next i
formid 18
formtext "Correct: ", correct
updateform
if correct = size - 1 then
wait
alert "You win! Moves: ", moves
endif
return</syntaxhighlight>
=={{header|Delphi}}==
{{works with|Delphi|6.0}}
{{libheader|Windows, Messages, SysUtils, Variants, Classes, Graphics, Controls, Forms, Dialogs, StdCtrls, ExtCtrls, Grids, MMSystem}}
This is a pure Delphi version of the program. Rather than use a console based
display, this version uses a Delphi Form for the game and a string grid
for the display. The users selects a move by clicking on the a particular
cell in the grid.
<syntaxhighlight lang="Delphi">
const BoardWidth = 4; BoardHeight = 4;
const CellCount = BoardWidth * BoardHeight;
var GameBoard: array [0..BoardWidth-1,0..BoardHeight-1] of integer;
procedure BuildBoard;
{Put all number in the game board}
var I,X,Y: integer;
begin
for I:=0 to CellCount-1 do
begin
Y:=I div BoardHeight;
X:=I mod BoardWidth;
GameBoard[X,Y]:=I;
end;
end;
function IsWinner: boolean;
{Check to see if tiles are winning in order}
var I,X,Y: integer;
begin
Result:=False;
for I:=1 to CellCount-1 do
begin
Y:=(I-1) div BoardHeight;
X:=(I-1) mod BoardWidth;
if GameBoard[X,Y]<>I then exit;
end;
Result:=True;
end;
procedure DisplayGameBoard(Grid: TStringGrid);
{Display game on TStringGrid component}
var Tile,X,Y: integer;
var S: string;
begin
for Y:=0 to High(GameBoard) do
begin
S:='';
for X:=0 to High(GameBoard[0]) do
begin
Tile:=GameBoard[X,Y];
if Tile=0 then Form1.GameGrid.Cells[X,Y]:=''
else Grid.Cells[X,Y]:=IntToStr(GameBoard[X,Y]);
end;
end;
end;
procedure ExchangePieces(P1,P2: TPoint);
{Exchange the pieces specified by P1 and P2}
var T: integer;
begin
T:=GameBoard[P1.X,P1.Y];
GameBoard[P1.X,P1.Y]:=GameBoard[P2.X,P2.Y];
GameBoard[P2.X,P2.Y]:=T;
end;
procedure Randomize;
{Scramble piece by exchanging random pieces}
var I: integer;
var P1,P2: TPoint;
begin
for I:=0 to 100 do
begin
P1:=Point(Random(BoardWidth),Random(BoardHeight));
P2:=Point(Random(BoardWidth),Random(BoardHeight));
ExchangePieces(P1,P2);
end;
end;
procedure NewGame;
{Initiate new game by randomizing tiles}
begin
BuildBoard;
Randomize;
DisplayGameBoard(Form1.GameGrid);
end;
function FindEmptyNeighbor(P: TPoint): TPoint;
{Find the empty neighbor cell if any}
{Returns Point(-1,-1) if none found}
begin
Result:=Point(-1,-1);
if (P.X>0) and (GameBoard[P.X-1,P.Y]=0) then Result:=Point(P.X-1,P.Y)
else if (P.X<(BoardWidth-1)) and (GameBoard[P.X+1,P.Y]=0) then Result:=Point(P.X+1,P.Y)
else if (P.Y>0) and (GameBoard[P.X,P.Y-1]=0) then Result:=Point(P.X,P.Y-1)
else if (P.Y<(BoardHeight-1)) and (GameBoard[P.X,P.Y+1]=0) then Result:=Point(P.X,P.Y+1);
end;
procedure ShowStatus(S: string; BellCount: integer);
{Display status string and ring bell specified number of times}
var I: integer;
begin
Form1.StatusMemo.Lines.Add(S);
for I:=1 to BellCount do PlaySound('DeviceFail', 0, SND_SYNC);
end;
procedure HandleMouseClick(X,Y: integer; Grid: TStringGrid);
{Handle mouse click on specified grid}
var Pos,Empty: TPoint;
var Item: integer;
begin
Grid.MouseToCell(X, Y,Pos.X, Pos.Y);
Item:=GameBoard[Pos.X,Pos.Y];
Empty:=FindEmptyNeighbor(Pos);
if (Item>0) and (Empty.X>=0) then
begin
ExchangePieces(Empty,Pos);
DisplayGameBoard(Grid);
if IsWinner then ShowStatus('Winner', 5);
end
else ShowStatus('Invalid Command.', 1);
end;
procedure TForm1.NewGameBtnClick(Sender: TObject);
{Create new game when button pressed}
begin
NewGame;
end;
procedure TForm1.GameGridMouseDown(Sender: TObject; Button: TMouseButton;
Shift: TShiftState; X, Y: Integer);
{Use the mouse click event to select a move}
begin
HandleMouseClick(X,Y,GameGrid);
end;
procedure TForm1.FormCreate(Sender: TObject);
{Start new game when the program starts running}
begin
NewGame;
end;
</syntaxhighlight>
{{out}}
[[File:Delphi15Puzzle.png|frame|none]]
=={{header|EasyLang}}==
[https://easylang.dev/apps/15-puzzle.html?v1 Run it]
<syntaxhighlight>
sys topleft
background 432
textsize 13
len f[] 16
proc draw . .
clear
for i = 1 to 16
h = f[i]
if h < 16
x = (i - 1) mod 4 * 24 + 3
y = (i - 1) div 4 * 24 + 3
color 210
move x y
rect 22 22
move x + 4 y + 6
if h < 10
move x + 6 y + 6
.
color 885
text h
.
.
.
global done .
proc smiley . .
s = 3.5
x = 86
y = 86
move x y
color 983
circle 2.8 * s
color 000
move x - s y - s
circle s / 3
move x + 3.5 y - 3.5
circle s / 3
linewidth s / 3
curve [ x - s y + s x y + 2 * s x + s y + s ]
.
proc init . .
done = 0
for i = 1 to 16
f[i] = i
.
# shuffle
for i = 15 downto 2
r = randint i
swap f[r] f[i]
.
# make it solvable
inv = 0
for i = 1 to 15
for j = 1 to i - 1
if f[j] > f[i]
inv += 1
.
.
.
if inv mod 2 <> 0
swap f[1] f[2]
.
textsize 12
draw
.
proc move_tile . .
c = mouse_x div 25
r = mouse_y div 25
i = r * 4 + c + 1
if c > 0 and f[i - 1] = 16
swap f[i] f[i - 1]
elif r > 0 and f[i - 4] = 16
swap f[i] f[i - 4]
elif r < 3 and f[i + 4] = 16
swap f[i] f[i + 4]
elif c < 3 and f[i + 1] = 16
swap f[i] f[i + 1]
.
draw
for i = 1 to 15
if f[i] > f[i + 1]
return
.
.
done = 1
timer 0.5
.
on mouse_down
if done = 0
move_tile
elif done = 3
init
.
.
on timer
if done = 1
smiley
done = 2
timer 2
else
done = 3
.
.
init
</syntaxhighlight>
=={{header|F_Sharp|F#}}==
<syntaxhighlight lang="fsharp">
// 15 Puzzle Game. Nigel Galloway: August 9th., 2020
let Nr,Nc,RA,rnd=[|3;0;0;0;0;1;1;1;1;2;2;2;2;3;3;3|],[|3;0;1;2;3;0;1;2;3;0;1;2;3;0;1;2|],[|for n in [1..16]->n%16|],System.Random()
let rec fN g Σ=function h::t->fN g (Σ+List.sumBy(fun n->if h>n then 1 else 0)t) t|_->(Σ-g/4)%2=1
let rec fI g=match if System.Console.IsInputRedirected then char(System.Console.Read()) else System.Console.ReadKey(true).KeyChar with
n when Seq.contains n g->printf "%c" n; (match n with 'l'-> -1|'r'->1|'d'->4|_-> -4)|_->System.Console.Beep(); fI g
let rec fG n Σ=function 0->(List.findIndex((=)0)Σ,Σ)|g->let i=List.item(rnd.Next(g)) n in fG(List.except [i] n)(i::Σ)(g-1)
let rec fE()=let n,g=fG [0..15] [] 16 in if fN n 0 (List.except [0] g) then (n,Array.ofList g) else fE()
let rec fL(n,g) Σ=let fa=printfn "";Array.chunkBySize 4 g|>Array.iter(fun n->Array.iter(printf "%3d")n;printfn "")
match g=RA with true->printfn "Solved in %d moves" Σ; fa; 0
|_->let vM=match n/4,n%4 with (0,0)->"rd"|(0,3)->"ld"|(0,_)->"lrd"|(3,0)->"ru"|(3,3)->"lu"|(3,_)->"lru"|(_,0)->"rud"|(_,3)->"lud"|_->"lrud"
fa; printf "Move Number: %2d; Manhatten Distance: %2d; Choose move from %4s: " Σ
([0..15]|>List.sumBy(fun n->match g.[n] with 0->0 |i->(abs(n/4-Nr.[i]))+(abs(n%4-Nc.[i])))) vM
let v=fI vM in g.[n]<-g.[n+v];g.[n+v]<-0;fL(n+v,g)(Σ+1)
[<EntryPoint>]
let main n = fL(match n with [|n|]->let g=[|let g=uint64 n in for n in 60..-4..0->int((g>>>n)&&&15UL)|] in (Array.findIndex((=)0)g,g) |_->fE()) 0
</syntaxhighlight>
3 uses:
15 game with no parameters will generate a random game which may be solved.
A solution in the form suggested in [[15_puzzle_solver]] may be piped into 15game. "dddrurdruuulllddrulddrrruuullddruulldddrrurulldrruulldlddrurullddrrruullulddrdrr" | .\15game 0x0c9dfbae37254861 produces the output here: [[15_puzzle_solver/extra_credit/solution]].
Optionally a start position may be supplied. 15game 0x123450689a7bdefc may be solved:
{{out}}
<pre>
1 2 3 4
5 0 6 8
9 10 7 11
13 14 15 12
Move Number: 0; Manhatten Distance: 4; Choose move from lrud: r
1 2 3 4
5 6 0 8
9 10 7 11
13 14 15 12
Move Number: 1; Manhatten Distance: 3; Choose move from lrud: d
1 2 3 4
5 6 7 8
9 10 0 11
13 14 15 12
Move Number: 2; Manhatten Distance: 2; Choose move from lrud: r
1 2 3 4
5 6 7 8
9 10 11 0
13 14 15 12
Move Number: 3; Manhatten Distance: 1; Choose move from lud: d
1 2 3 4
5 6 7 8
9 10 11 12
13 14 15 0
Solved in 4 moves
</pre>
=={{header|Factor}}==
<syntaxhighlight lang="factor">USING: accessors combinators combinators.extras
combinators.short-circuit grouping io kernel literals math
math.matrices math.order math.parser math.vectors prettyprint qw
random sequences sequences.extras ;
IN: rosetta-code.15-puzzle-game
<<
TUPLE: board matrix zero ;
: <board> ( -- board )
16 <iota> 1 rotate 4 group { 3 3 } board boa ;
>>
CONSTANT: winning $[ <board> matrix>> ]
: input>dir ( str -- pair )
{
{ "u" [ { 1 0 } ] }
{ "d" [ { -1 0 } ] }
{ "l" [ { 0 1 } ] }
{ "r" [ { 0 -1 } ] }
} case ;
: get-index ( loc matrix -- elt ) [ first2 swap ] dip nth nth ;
: mexchange ( loc1 loc2 matrix -- )
tuck [ [ [ get-index ] keepd ] 2bi@ ] keep [ spin ] 2dip
[ set-index ] keep set-index ;
: vclamp+ ( seq1 seq2 -- seq ) v+ { 0 0 } { 3 3 } vclamp ;
: slide-piece ( board str -- )
over zero>> [ vclamp+ ] keep rot matrix>> mexchange ;
: move-zero ( board str -- )
[ vclamp+ ] curry change-zero drop ;
: move ( board str -- )
input>dir [ slide-piece ] [ move-zero ] 2bi ;
: rand-move ( board -- ) qw{ u d l r } random move ;
: shuffle-board ( board n -- board' ) [ dup rand-move ] times ;
: .board ( board -- ) matrix>> simple-table. ;
: get-input ( -- str )
"Your move? (u/d/l/r/q) " write flush readln dup
qw{ u d l r q } member? [ drop get-input ] unless ;
: won? ( board -- ? ) matrix>> winning = ;
DEFER: game
: process-input ( board -- board' )
get-input dup "q" = [ drop ] [ game ] if ;
: check-win ( board -- board' )
dup won? [ "You won!" print ] [ process-input ] if ;
: game ( board str -- board' )
[ move ] keepd dup .board check-win ;
: valid-difficulty? ( obj -- ? )
{ [ fixnum? ] [ 3 100 between? ] } 1&& ;
: choose-difficulty ( -- n )
"How many shuffles? (3-100) " write flush readln
string>number dup valid-difficulty?
[ drop choose-difficulty ] unless ;
: main ( -- )
<board> choose-difficulty shuffle-board dup .board check-win
drop ;
MAIN: main</syntaxhighlight>
{{out}}
<pre>
How many shuffles? (3-100) 5
1 2 3 4
5 6 7 8
9 0 10 12
13 14 11 15
Your move? (u/d/l/r/q) apple
Your move? (u/d/l/r/q) l
1 2 3 4
5 6 7 8
9 10 0 12
13 14 11 15
Your move? (u/d/l/r/q) u
1 2 3 4
5 6 7 8
9 10 11 12
13 14 0 15
Your move? (u/d/l/r/q) l
1 2 3 4
5 6 7 8
9 10 11 12
13 14 15 0
You won!
</pre>
=={{header|Forth}}==
{{works with|gforth|0.7.2}}
The code tested with gforth 0.7.2. It required a 64-bit system.
See [[15_puzzle_solver#Forth]] for a solver based on the same code.
<syntaxhighlight lang="forth">#! /usr/bin/gforth
cell 8 <> [if] s" 64-bit system required" exception throw [then]
\ In the stack comments below,
\ "h" stands for the hole position (0..15),
\ "s" for a 64-bit integer representing a board state,
\ "t" a tile value (0..15, 0 is the hole),
\ "b" for a bit offset of a position within a state,
\ "m" for a masked value (4 bits selected out of a 64-bit state),
\ "w" for a weight of a current path,
\ "d" for a direction constant (0..3)
\ Utility
: 3dup 2 pick 2 pick 2 pick ;
: 4dup 2over 2over ;
: shift dup 0 > if lshift else negate rshift then ;
hex 123456789abcdef0 decimal constant solution
: row 2 rshift ; : col 3 and ;
: up-valid? ( h -- f ) row 0 > ;
: down-valid? ( h -- f ) row 3 < ;
: left-valid? ( h -- f ) col 0 > ;
: right-valid? ( h -- f ) col 3 < ;
\ To iterate over all possible directions, put direction-related functions into arrays:
: ith ( u addr -- w ) swap cells + @ ;
create valid? ' up-valid? , ' left-valid? , ' right-valid? , ' down-valid? , does> ith execute ;
create step -4 , -1 , 1 , 4 , does> ith ;
\ Advance from a single state to another:
: bits ( h -- b ) 15 swap - 4 * ;
: tile ( s b -- t ) rshift 15 and ;
: new-state ( s h d -- s' ) step dup >r + bits 2dup tile ( s b t ) swap lshift tuck - swap r> 4 * shift + ;
: hole? ( s u -- f ) bits tile 0= ;
: hole ( s -- h ) 16 0 do dup i hole? if drop i unloop exit then loop drop ;
0 constant up 1 constant left 2 constant right 3 constant down
\ Print a board:
: .hole space space space ;
: .tile ( u -- ) ?dup-0=-if .hole else dup 10 < if space then . then ;
: .board ( s -- ) 4 0 do cr 4 0 do dup j 4 * i + bits tile .tile loop loop drop ;
: .help cr ." ijkl move, q quit" ;
\ Pseudorandom number generator:
create (rnd) utime drop ,
: rnd (rnd) @ dup 13 lshift xor dup 17 rshift xor dup dup 5 lshift xor (rnd) ! ;
: move ( s u -- s' ) >r dup hole r> new-state ;
: ?move ( s u -- s' ) >r dup hole r@ valid? if r> move else rdrop then ;
: shuffle ( s u -- s' ) 0 do rnd 3 and ?move loop ;
: win cr ." you won!" bye ;
: turn ( s -- )
page dup .board .help
key case
[char] q of bye endof
[char] i of down ?move endof
[char] j of right ?move endof
[char] k of up ?move endof
[char] l of left ?move endof
endcase ;
: play begin dup solution <> while turn repeat win ;
solution 1000 shuffle play
</syntaxhighlight>
=={{header|Fortran}}==
The initial version had me so enamoured by the notion of consecutive cells for the solution having the number of their index as their value (as in CELL(0) = 0 (the blank square), CELL(1) = 1, ... CELL(15) = 15) and the prospect of the check for this being simple, that I failed to perceive that the nice big diagram of the board shown at the head of the article in fact clearly shows the solution state having the blank cell at the ''end'', not the start. Once again it is demonstrated that what you see is ... influenced ... by what you would like to see. After that diversion, the cells shall now be numbered one to sixteen, not zero to fifteen, and so there is no need for the ability introduced by F90 whereby arrays can have a lower bound other than one.
The plan is to use parameters for the board size, which need not be square. As often with Fortran, messing with arrays is the key, though not without opportunities for confusion. Because Fortran stores arrays in column-major order, the arrays are accessed as BOARD(column,row) even though the arrangement is treated as rows down the page and columns across as is usual. By this means, consecutive elements in storage of array BOARD(c,r) are such that the same storage accessed via array BORED(i) thanks to <code>EQUIVALENCE(BOARD,BORED)</code> indexes them as consecutive elements, and so the test that the values are in consecutive order becomes delightfully simple, though alas there is no equivalent of the ''iota'' function of APL whereby the test could be <code>ALL(BORED(1:N - 1) .EQ. IOTA(N - 1))</code>
Column-major ordering also applies to array WAY, which lists the offsets needed to locate squares deemed adjacent to a given location, such as that of the blank square, located by LOCI = LOCZ + WAY(i). Adjacent LOCI are checked for being in range, and if so, added to the list in array LOCM with the moveable piece identified in array MOVE.
It transpires that the F90 compiler will not allow a PARAMETER statement to define values for items appearing in an EQUIVALENCE statement; so much for an attempt to do so in a systematic manner employing related names.
The game plan is to start with an ordered array so that each cell definitely has a unique code, then jumble them via "random" swaps. Possible arrangements turn out to have either odd or even parity based on the number of out-of-sequence squares, and as the allowed transformations do not change the parity and the solution state has even parity, odd parity starting states should not be presented except by those following Franz Kafka. The calculation is simplified by always having the blank square in the last position, thus in the last row. Once an even-parity starting state is floundered upon, the blank square is re-positioned using allowable moves so that the parity is not altered thereby. Then the game begins: single-square moves only are considered, though in practice groups of squares could be moved horizontally or vertically rather than one-step-at-a-time - a possible extension.
The source style uses F90 for its array arithmetic abilities, especially the functions ALL, ANY and COUNT. A statement <syntaxhighlight lang="fortran">LOCZ = MINLOC(BOARD) !Find the zero. 0 = BOARD(LOCZ(1),LOCZ(2)) == BOARD(ZC,ZR)</syntaxhighlight> could be used but is unnecessary thanks to tricks with EQUIVALENCE. For earlier Fortran, various explicit DO-loops would have to be used. This would at least make clear whether or not the equivalents of ANY and ALL terminated on the first failure or doggedly scanned the entire array no matter what. <syntaxhighlight lang="fortran"> SUBROUTINE SWAP(I,J) !Alas, furrytran does not provide this.
INTEGER I,J,T !So, we're stuck with supplying the obvious.
T = I !And, only for one type at a go.
I = J !One could define a MODULE containing a collection
J = T !And thence a "generic" routine,
END SUBROUTINE SWAP !But this will do for now.
SUBROUTINE SHOW(NR,NC,BOARD) !The layout won't work for NC > 99...
INTEGER NR,NC !Number of rows and columns.
INTEGER BOARD(NC,NR) !The board is stored transposed!
INTEGER I !A stepper.
COMMON/IODEV/ MSG !I talk to the trees...
WRITE (MSG,1) (I,I = 1,NC) !Prepare a heading.
1 FORMAT ("Row|",9("__",I1,:),90("_",I2,:)) !This should suffice.
DO I = 1,NR !Chug down the rows.
WRITE (MSG,2) I,BOARD(1:NC,I) !The columns of the row. Usage is BOARD(column,row).
2 FORMAT (I3,"|",99I3) !Could use parameters, but enough.
END DO !On to the next row.
END SUBROUTINE SHOW !That was nice.
PROGRAM PUZZLE
INTEGER LOCN(2),NR,NC,N !Describes the shape of the board.
INTEGER LOCZ(2),ZC,ZR !Fingers the location of the "blank" square.
INTEGER LOCI(2),IC,IR !Fingers a location.
Can't EQUIVALENCE (LOCN(1),NC),(LOCN(2),NR) !This usage and a PARAMETER statement is too scary.
EQUIVALENCE (LOCZ(1),ZC),(LOCZ(2),ZR) !Annotate my (column,row) usage.
EQUIVALENCE (LOCI(1),IC),(LOCI(2),IR) !Rather than the displayed (row,column) style.
PARAMETER (NR = 4, NC = 4, N = NR*NC) !Determine the shape of the board.
INTEGER BOARD(NC,NR) !Thus transpose furrytran's column-major usage. Beware!!!
INTEGER BORED(N) !This allows for consecutive comparisons.
EQUIVALENCE (BOARD,BORED) !Because the arrays are in the same place.
INTEGER WAYS !Now define adjacency.
PARAMETER (WAYS = 4) !Just orthogonal neghbours.
INTEGER WAY(2,WAYS) !Now list the allowed adjacencies.
PARAMETER (WAY = (/1,0, 0,1, -1,0, 0,-1/)) !W(1,1), W(2,1), W(1,2), W(2,2), W(1,3), ...
INTEGER M,MOVE(WAYS),LOCM(2,WAYS) !Move possibilities.
INTEGER SPACE !Document the empty square's code number.
PARAMETER (SPACE = 0) !Zero will do.
INTEGER I,IT,PARITY,TRY !Odds and ends.
REAL VALUE !Humph. Yet another interface to a "random" number generator.
COMMON/IODEV/ MSG,KBD !Pass the word.
KBD = 5 !Standard input. (Keyboard -> Display screen)
MSG = 6 !Standard output. (Display screen)
WRITE (MSG,1) NR,NC !Announce.
1 FORMAT ("To play 'slide-square' with ",I0," rows and ",
1 I0," columns.",/,"The game is to slide a square into the space",/
2 "(thus leaving a space behind) until you attain"/
3 "the nice orderly layout as follows:",/)
Concoct a board layout.
10 FOR ALL (I = 1:N - 1) BORED(I) = I !Prepare the board. Definitely unique values.
BORED(N) = SPACE !The empty square is not at the start! Oh well.
CALL SHOW(NR,NC,BOARD) !Reveal the nice layout.
11 DO I = 1,N - 1 !Now shuffle the squares a bit.
CALL RANDOM(VALUE) !0 <= VALUE < 1.
IT = VALUE*(N - 1) + 1 !1 <= IT < N. Don't round up!
IF (I.NE.IT) CALL SWAP(BORED(I),BORED(IT)) !Whee!
END DO !On to the next victim, leaving the last cell alone.
Calculate the parity, knowing the space is at the end. The target state has even parity, with zero inversions.
PARITY = 0 !There are two classes of arrangements, that can't mix.
DO I = 1,N - 2 !Skipping the blank cell still at BORED(N).
PARITY = PARITY + COUNT(BORED(I) > BORED(I + 1:N - 1)) !For each square,
END DO !Count the inversions following.
IF (MOD(PARITY,2).NE.0) GO TO 11 !No transition can change the parity, so, try for another arrangement.
Choose a new position for the space. Using approved moves will not change the parity.
CALL RANDOM(VALUE) !0 <= VALUE < 1.
ZC = VALUE*(NC - 2) + 1 !1 <= ZC < NC: Choose a random column other than the last.
BOARD(ZC + 1:NC,NR) = BOARD(ZC:NC - 1,NR) !Shift the end of the last row back one place.
BOARD(ZC,NR) = SPACE !Put the space in the hole.
CALL RANDOM(VALUE) !So the parity doesn't change.
ZR = VALUE*(NR - 2) + 1 !1 <= ZR < NR: Choose a random row, other than the last.
BOARD(ZC,ZR + 1:NR) = BOARD(ZC,ZR:NR - 1) !Shift the end of column ZC up one.
BOARD(ZC,ZR) = SPACE !Revive the space again.
Cast forth the starting position.
WRITE (MSG,12) !Announce the result.
12 FORMAT (/,"But, your board looks like this...") !Alas. Almost certainly not in order.
CALL SHOW(NR,NC,BOARD) !Just so.
TRY = 0 !No moves made yet.
Consider possible moves.
20 TRY = TRY + 1 !Here we go again.
M = 0 !No moveable pieces are known.
DO I = 1,WAYS !So scan the possible ways away from LOCZ.
LOCI = LOCZ + WAY(1:2,I) !Finger an adjacent location, via the adjacency offsets in array WAY.
IF (ALL(LOCI > 0) .AND. ALL(LOCI <= (/NC,NR/))) THEN !Within bounds?
M = M + 1 !Yes. We have a candidate.
MOVE(M) = BOARD(IC,IR) !Record the piece's name.
LOCM(:,M) = LOCI !And, remember where it is...
END IF !So much for that location.
END DO !Try another offset.
21 WRITE (MSG,22,ADVANCE="no") MOVE(1:M) !Two-stage output.
22 FORMAT ("Moveable pieces: ",<WAYS>(I0:",")) !Since M is not necessarily WAYS, a trailing $ may not be reached..
WRITE (MSG,23) !Now for the question. Always at least two moveable squares.
23 FORMAT(". Choose one: ",$) !Continue the line, presuming screen and keyboard->screen.
READ (KBD,*) IT !Now request the answer. Rather doggedly: blank lines won't do.
DO I = M,1,-1 !There are at least two possible moves.
IF (MOVE(I) .EQ. IT) EXIT !Perhaps this piece was selected.
END DO !The INDEX function is alas, only for CHARACTER variables. Grr.
IF (I .LE. 0) THEN !I'm suspicious.
WRITE (MSG,*) "Huh? That is not a moveable piece!" !Justified!
IF (IT.GT.0) GO TO 21 !Try again.
STOP "Oh well." !Or quit, on negative vibrations.
END IF !So much for selecting a piece.
Complete the selected move.
30 BOARD(ZC,ZR) = IT !Place the named piece where the space was.
LOCZ = LOCM(:,I) !The space is now where that piece came from.
BOARD(ZC,ZR) = SPACE !And now holds a space.
c write (6,*)
c 1 "disorder=",COUNT(BORED(1:N - 2) + 1 .NE. BORED(2:N - 1))
IF (TRY.LE.6) WRITE (MSG,31) !Set off with a nice heading.
31 FORMAT (/"The new layout...") !Just for clarity.
CALL SHOW(NR,NC,BOARD) !Perhaps it will be good.
Check for success.
IF (BORED(N).NE.SPACE) GO TO 20 !Is the space at the end?
IF (ANY(BORED(1:N - 2) + 1 .NE. BORED(2:N - 1))) GO TO 20 !Are we there yet?
WRITE (MSG,*) TRY,"Steps to success!" !Yes!
END !That was fun.</syntaxhighlight>
Output: Not so good. As ever, the character cell sizes are not square so a square game board comes out as a rectangle. Similarly, underlining is unavailable (no overprints!) so the layout is not pleasing. There are special "box-drawing" glyphs available, but they are not standardised and there is still no overprinting so that a flabby waste of space results. Further, there is no ability to re-write the display, even though one could easily regard the output to the screen as a random-access file: <code>WRITE (MSG,REC = 6) STUFF</code> would rewrite the sixth line of the display. Instead, output relentlessly rolls forwards, starting as follows:
<pre>
To play 'slide-square' with 4 rows and 4 columns.
The game is to slide a square into the space
(thus leaving a space behind) until you attain
the nice orderly layout as follows:
Row|__1__2__3__4
1| 1 2 3 4
2| 5 6 7 8
3| 9 10 11 12
4| 13 14 15 0
But, your board looks like this...
Row|__1__2__3__4
1| 15 0 14 11
2| 8 13 5 3
3| 4 1 7 9
4| 10 6 2 12
Moveable pieces: 14,13,15. Choose one: 15
The new layout...
Row|__1__2__3__4
1| 0 15 14 11
2| 8 13 5 3
3| 4 1 7 9
4| 10 6 2 12
Moveable pieces: 15,8. Choose one:
</pre>
The display here turns out to be less rectangular than that of the "console" screen's usual setting, which changes with the typeface and sizing anyway. Endless variation. As for playing the game, it is much easier to get a "feel" for the possibilities when manipulating the actual physical object. The digital world is less real.
=={{header|FreeBASIC}}==
<syntaxhighlight lang="freebasic">sub drawboard( B() as ubyte )
dim as string outstr = ""
for i as ubyte = 0 to 15
if B(i) = 0 then
outstr = outstr + " XX "
elseif B(i) < 10 then
outstr = outstr + " "+str(B(i))+" "
else
outstr = outstr + " " +str(B(i))+" "
end if
if i mod 4 = 3 then
print outstr
print
outstr = ""
end if
next i
print
end sub
function move( B() as ubyte, byref gap as ubyte, direction as ubyte ) as ubyte
dim as integer targ = gap
select case direction
case 1 'UP
targ = gap - 4
case 2 'RIGHT
if gap mod 4 = 3 then return gap
targ = gap + 1
case 3 'DOWN
targ = gap + 4
case 4
if gap mod 4 = 0 then return gap
targ = gap - 1
case else
return gap
end select
if targ > 15 or targ < 0 then return gap
swap B(targ), B(gap)
return targ
end function
sub shuffle( B() as ubyte, byref gap as ubyte )
for i as ubyte = 0 to 100
gap = move(B(), gap, int(rnd*4) + 1)
next i
end sub
function solved( B() as ubyte ) as boolean
dim as integer i
for i = 0 to 14
if B(i)>B(i+1) then return false
next i
return true
end function
dim as ubyte i, B(15), direction, gap
for i = 0 to 15
B(i) = i
next i
shuffle B(), gap
while not solved( B() )
cls
drawboard B()
print gap
print "1 = up, 2=right, 3=down, 4=left"
input direction
gap = move( B(), gap, direction )
wend
cls
print "Congratulations! You win!"
print
drawboard B()</syntaxhighlight>
=={{header|FutureBasic}}==
<syntaxhighlight lang="FutureBasic">
// 15 Puzzle // 26 september 2023 //
begin globals
CFMutableStringRef board : board = fn MutableStringNew
end globals
void local fn buildUI
Long i, j, k = 1 // k is button number
window 1, @"15 Puzzle", ( 0, 0, 200, 200 ), 3
for j = 3 to 0 step -1 : for i = 0 to 3 // Top to bottom, left to right
button k, Yes, 1, @"", ( 20 + 40 * i, 20 + 40 * j , 40, 40 ), , NSBezelStyleShadowlessSquare
ControlSetFont(k, fn FontSystemFontOfSize( 21 ) )
ControlSetAlignment( k, NSTextAlignmentCenter )
k ++
next : next
menu 1, , 1, @"File": menu 1, 1, , @"Close", @"w" : MenuItemSetAction( 1, 1, @"performClose:" )
editmenu 2 : menu 2, 0, No : menu 3, , , @"Level"
for i = 1 to 8 : menu 3, i, , str( i ) : next
MenuSetOneItemOnState( 3, 3 )
end fn
void local fn newGame
CFStringRef s
Long i, m, n = 16, p = 0 // n is empty starting tile, p holds previous move
Bool ok
MutableStringSetString (board, @" 123456789ABCDEF " )
for i = 1 to fn MenuSelectedItem( 3 )^2 // Number of shuffles is square of level
do : ok = Yes
m = n + int( 2.6 * rnd( 4 ) - 6.5 ) // Choose a random move, but
if m < 1 or m > 16 or m == p then ok = No // not of bounds or previous,
if n mod 4 = 0 and m = n + 1 then ok = No // and don't exchange eg tile 4 and 5
if n mod 4 = 1 and m = n - 1 then ok = No // or 9 and 8
until ok = Yes // Found a move, swap in board string
s = mid( board, m, 1 ) : mid( board, m, 1 ) = @" " : mid( board, n, 1 ) = s
p = n : n = m
next
for i = 1 to 16 // Stamp the buttons, p is unicode of board char, s is button title
p = (Long) fn StringCharacterAtIndex( board, i )
if p > 64 then s = fn StringWithFormat ( @"%d", p - 55 ) else s = mid( board, i, 1 )
button i, Yes, 1, s
if fn StringIsEqual( s, @" ") == Yes then button i, No
next
end fn
void local fn move ( n as Long )
CFStringRef s
Long i, m, x = -1 // x is empty plot
Bool ok
for i = 1 to 4 // see if clicked button is next to empty plot
m = n + int( 2.6 * i - 6.5 ) // -4. -1, +1, +4
ok = Yes
if m < 1 or m > 16 then ok = No // Not out of bounds etc
if n mod 4 = 0 and m = n + 1 then ok = No
if n mod 4 = 1 and m = n - 1 then ok = No
if ok == Yes
if fn StringIsEqual( mid( board, m, 1 ), @" " ) then x = m
end if
next
if x > -1 // Swap places in board string and button titles
s = mid( board, n, 1 ) : mid( board, n, 1 ) = @" " : mid( board, x, 1 ) = s
button x, Yes, 1 , fn ButtonTitle( n ) : button n, No, 1, @" "
end if
if fn StringIsEqual( board, @" 123456789ABCDEF " )
alert 112, , @"Well done.", @"Another game?", @"Yes;No", Yes
end if
end fn
void local fn doMenu( mnu as Long, itm as Long )
if mnu == 3 then MenuSetOneItemOnState( 3, itm ) : fn newGame
end fn
void local fn DoDialog( evt as Long, tag as Long )
select evt
case _btnClick : fn move( tag )
case _alertDidEnd : if tag == NSAlertFirstButtonReturn then fn newGame else end
end select
end fn
fn buildUI
fn newGame
on dialog fn doDialog
on menu fn doMenu
handleevents
</syntaxhighlight>
[[File:FB 15.png]]
=={{header|Gambas}}==
<syntaxhighlight lang="gambas">'Charlie Ogier (C) 15PuzzleGame 24/04/2017 V0.1.0 Licenced under MIT
'Inspiration came from: -
''http://rosettacode.org/wiki/15_Puzzle_Game
''Bugs or comments to bugs@cogier.com
'Written in Gambas 3.9.2 - Updated on the Gambas Farm 01/05/2017
'Updated so that the message and the Title show the same amount of moves 01/06/2017
'Form now expandable. Font height automated. Form size and position saved 06/06/2107
'Simulate playing the 15 - game(puzzle) Yes in GUI
'Generate a random start position Yes
'Prompt the user for which piece To move No
'Validate if the move is legal(possible) Yes
'Display the game(puzzle) as pieces are moved Yes in GUI
'Announce when the puzzle is solved Yes
'Possibly keep track of the number of moves Yes
byPos As New Byte[] 'Stores the position of the 'Tiles'
siMoves As Short 'Stores the amount of moves
hTimer As Timer 'Timer
dTimerStart As Date 'Stores the start time
dTimerDiff As Date 'Stores the time from the start to now
bTimerOn As Boolean 'To know if the Timer is running
Public Sub Form_Open() 'Form opens
Settings.read(Me, "Window") 'Get details of the last window position and size
With Me 'With the Form..
.Padding = 5 'Pad the edges
.Arrangement = Arrange.Row 'Arrange the Form
.Title = "15PuzzleGame v0.3.0" 'Set the Form Title
End With
BuildForm 'Go to the BuildForm routine
End
Public Sub BuildForm() 'To add items to the Form
Dim hButton As Button 'We need some Buttons
Dim byRand, byTest As Byte 'Various variables
Dim bOK As Boolean 'Used to stop duplicate numbers being added
Dim bSolvable As Boolean
Repeat 'Repeat until the puzzle is solvable
Do 'Start of a Do loop to create 0 to 15 in random order
byRand = Rand(0, 15) 'Get a random number between 0 and 15
If byRand = 0 Then byRand = 99 'Change 0 to 99 for the Blank space
bOK = True 'Set bOK to True
For Each byTest In byPos 'For each number stored in the array byPos
If byRand = byTest Then bOK = False 'Check to see if it already exists, if it does set bOK to False
Next
If bOK Then byPos.Add(byRand) 'If not a duplicate then add it to the array
If byPos.max = 15 Then Break 'Once the array has 16 numbers get out of here. 99 is used for the blank space
Loop
bSolvable = IsItSolvable() 'Go to the 'check if puzzle is solvable' routine
If Not bSolvable Then byPos.clear 'If it's not solvable then clear byPos
Until bSolvable = True 'Repeat until the puzzle is solvable
For byRand = 0 To 15 'Loop
If byPos[byRand] = 99 Then 'Check if value is 99 as this is where the blank space will go
AddPanel 'Go to the AddPanel routine to add the blank space
Continue 'Skip to the end of the loop
Endif
hButton = New Button(Me) As "AllButtons" 'Add a new button to the Form, all buttons grouped as 'AllButtons'
With hButton 'With the following properties
.Text = Str(byPos[byRand]) 'Add Button text
.Tag = Str(byPos[byRand]) 'Add a Tag
.Height = (Me.Height - 10) / 4 'Set the Button height
.Width = (Me.Width - 10) / 4 'Set the Button width
.Font.Bold = True 'Set the font to Bold
.Font.Size = 16 'Set Font size
End With
Next
AddTimer 'Go to the AddTimer routine
End
Public Sub AddPanel() 'Routine to add an invisible panel that is the blank area
Dim hPanel As Panel 'We need a Panel
HPanel = New Panel(Me) 'Add the Panel to the Form
With HPanel 'With the following Properties
.Tag = 99 'Set a Tag to 99
.Height = (Me.Height - 10) / 4 'Set the height
.Width = (Me.Width - 10) / 4 'Set the width
End With
End
Public Sub AddTimer() 'To add a Timer
hTimer = New Timer As "MyTimer" 'Add a Timer
hTimer.Delay = 1000 'Set the timer delay
End
Public Sub MyTimer_Timer() 'Timer
Me.Title = siMoves & " Moves " 'Set the Form Title to show the amount of moves taken
If dTimerStart Then 'If a start time has been set then
dTimerDiff = Time(Now) - dTimerStart 'Calculate the time difference between StartTime and Now
Me.Title &= " - " & Str(dTimerDiff) 'Add the time taken to the Form Title
End If
End
Public Sub AllButtons_Click() 'What to do when a Button is clicked
Dim byLast As Byte = Last.Tag 'Get the Tag of the Button clicked
Dim byTemp, byCount As Byte 'Various variables
Dim byCheck As Byte[] = [88, 88, 88, 88] 'Used for checking for the blank space
Dim byWChgeck As New Byte[16, 4]
Dim oObj As Object 'We need to enumerate Objects
For Each oObj In Me.Children 'For each Object (Buttons in this case) that are Children of the Form..
If oObj.Tag = byLast Then Break 'If the Tag of the Button matches then we know the position of the Button on the form so get out of here
Inc byCount 'Increase the value of byCount
Next
Select Case byCount 'Depending on the position of the Button
Case 0 'e.g 0 then we need to check positions 1 & 4 for the blank
byCheck[0] = 1
byCheck[1] = 4
Case 1
byCheck[0] = 0
byCheck[1] = 2
byCheck[2] = 5
Case 2
byCheck[0] = 1
byCheck[1] = 3
byCheck[2] = 6
Case 3
byCheck[0] = 2
byCheck[1] = 7
Case 4
byCheck[0] = 0
byCheck[1] = 5
byCheck[2] = 8
Case 5 'e.g 5 then we need to check positions 1, 4, 6 & 9 for the blank
byCheck[0] = 1
byCheck[1] = 4
byCheck[2] = 6
byCheck[3] = 9
Case 6
byCheck[0] = 2
byCheck[1] = 5
byCheck[2] = 7
byCheck[3] = 10
Case 7
byCheck[0] = 3
byCheck[1] = 6
byCheck[2] = 11
Case 8
byCheck[0] = 4
byCheck[1] = 9
byCheck[2] = 12
Case 9
byCheck[0] = 5
byCheck[1] = 8
byCheck[2] = 10
byCheck[3] = 13
Case 10
byCheck[0] = 6
byCheck[1] = 9
byCheck[2] = 11
byCheck[3] = 14
Case 11
byCheck[0] = 7
byCheck[1] = 10
byCheck[2] = 15
Case 12
byCheck[0] = 8
byCheck[1] = 13
Case 13
byCheck[0] = 9
byCheck[1] = 12
byCheck[2] = 14
Case 14
byCheck[0] = 10
byCheck[1] = 13
byCheck[2] = 15
Case 15
byCheck[0] = 11
byCheck[1] = 14
End Select
For Each byTemp In byCheck 'For each value in byCheck
If byTemp = 88 Then Break 'If byTemp = 88 then get out of here
If byPos[byTemp] = 99 Then 'If the position checked is 99 (the blank) then..
byPos[byTemp] = Last.Text 'Set the new position of the Tile in byPos
byPos[byCount] = 99 'Set the existing Tile position to = 99 (blank)
Inc siMoves 'Inc the amount of moves made
If Not bTimerOn Then 'If the Timer is now needed then
dTimerStart = Time(Now) 'Set the Start time to NOW
hTimer.start 'Start the Timer
bTimerOn = True 'Set bTimerOn to True
Endif
Break 'Get out of here
End If
Next
RebuildForm 'Go to the RebuilForm routine
CheckIfPuzzleCompleted 'Check to see if the puzzle has been solved
End
Public Sub CheckIfPuzzleCompleted() 'Is the puzzle is complete
Dim byTest As Byte[] = [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 99] 'byPos will equal this if it is completed
Dim siCount As Short 'Counter
Dim bCompleted As Boolean = True 'Completed?
Dim sMessage As String 'String to store the display message
For siCount = 0 To 15 'Loop through the byPos
If byPos[siCount] <> byTest[siCount] Then 'If the position does not match the completed position then..
bCompleted = False 'Set bCompleted to False
Break 'Get out of here
Endif
Next
If bCompleted Then 'If the puzzle is completed then
hTimer.Stop 'Stop the timer
Me.Title = siMoves & " Moves " 'Set the Form Title to show the amount of moves taken
sMessage = "Congratulations!!\n" 'Build sMessage
sMessage &= Str(siMoves) & " Moves\n" 'Build sMessage
sMessage &= "Time = " & Str(dTimerDiff) 'Build sMessage
Message(sMessage, "OK") 'Put up a congratulatory message
Me.Close 'Close the form
Endif
End
Public Sub RebuildForm() 'To clear the Form and rebuild with the Tiles in the new postion
Dim hButton As Button 'We need Buttons
Dim byCount, byTemp As Byte 'Various variables
Dim siFontH As Short
Me.Children.clear 'Clear the Form of all Objects
For Each byTemp In byPos 'For each 'Position'
If byTemp = 99 Then 'If the Position's value is 99 then it's the space
AddPanel 'Go to the AddPanel routine
Else 'If the Position's value is NOT 99 then
hButton = New Button(Me) As "AllButtons" 'Create a new Button
With hButton 'With the following properties
.Text = Str(byPos[byCount]) 'Text as stored in byPos
.Tag = Str(byPos[byCount]) 'Tag as stored in byPos
.Height = (Me.Height - 10) / 4 'Set the Button height
.Width = (Me.Width - 10) / 4 'Set the Button width
.Font.Bold = True 'Set the Font to Bold
End With
If Me.Width > Me.Height Then 'If Form Width is greater than Form Width then..
siFontH = Me.Height 'siFontH = Form Height
Else 'Else..
siFontH = Me.Width 'siFontH = Form Width
End If
hButton.Font.size = siFontH / 16 'Set Font height
Endif
Inc byCount 'Increase counter
Next
End
Public Sub Form_Resize() 'If the form is resized
RebuildForm 'Rebuild the Form
End
Public Sub IsItSolvable() As Boolean 'To check if the puzzle is solvable
Dim bSolvable, bBlankOnEven As Boolean 'Triggers
Dim siCount0, siCount1, siInversion As Short 'Counters
For siCount0 = 0 To byPos.Max 'Loop through the positions
If byPos[siCount0] = 99 Then 'The blank
If InStr("0,1,2,3,8,9,10,11,", Str(siCount0 & ",")) Then 'Is the blank on an even row (counting from the bottom) if so..
bBlankOnEven = True 'bBlankOnEven = True
End If
Continue 'Go to the end of the loop
End If
For siCount1 = siCount0 + 1 To byPos.Max 'Loop through the positions
If byPos[siCount0] > byPos[siCount1] Then Inc siInversion 'Counts the inversions
Next 'See https://www.cs.bham.ac.uk/~mdr/teaching/modules04/java2/TilesSolvability.html
Next
If bBlankOnEven And Odd(siInversion) Then bSolvable = True 'Blank is on an even row (counting from the bottom) then the number of inversions in a solvable situation is odd
If Not bBlankOnEven And Even(siInversion) Then bSolvable = True 'Blank is on an odd row (counting from the bottom) then the number of inversions in a solvable situation is even
Return bSolvable 'Return the value
End
Public Sub Form_Close()
Settings.Write(Me, "Window") 'Store the window position and size
End
</syntaxhighlight>
[http://www.cogier.com/gambas/Copuzzle.png Click here for image of game in play]
=={{header|Go}}==
<syntaxhighlight lang="go">package main
import (
"fmt"
"math/rand"
"strings"
"time"
)
func main() {
rand.Seed(time.Now().UnixNano())
p := newPuzzle()
p.play()
}
type board [16]cell
type cell uint8
type move uint8
const (
up move = iota
down
right
left
)
func randMove() move { return move(rand.Intn(4)) }
var solvedBoard = board{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 0}
func (b *board) String() string {
var buf strings.Builder
for i, c := range b {
if c == 0 {
buf.WriteString(" .")
} else {
_, _ = fmt.Fprintf(&buf, "%3d", c)
}
if i%4 == 3 {
buf.WriteString("\n")
}
}
return buf.String()
}
type puzzle struct {
board board
empty int // board[empty] == 0
moves int
quit bool
}
func newPuzzle() *puzzle {
p := &puzzle{
board: solvedBoard,
empty: 15,
}
// Could make this configurable, 10==easy, 50==normal, 100==hard
p.shuffle(50)
return p
}
func (p *puzzle) shuffle(moves int) {
// As with other Rosetta solutions, we use some number
// of random moves to "shuffle" the board.
for i := 0; i < moves || p.board == solvedBoard; {
if p.doMove(randMove()) {
i++
}
}
}
func (p *puzzle) isValidMove(m move) (newIndex int, ok bool) {
switch m {
case up:
return p.empty - 4, p.empty/4 > 0
case down:
return p.empty + 4, p.empty/4 < 3
case right:
return p.empty + 1, p.empty%4 < 3
case left:
return p.empty - 1, p.empty%4 > 0
default:
panic("not reached")
}
}
func (p *puzzle) doMove(m move) bool {
i := p.empty
j, ok := p.isValidMove(m)
if ok {
p.board[i], p.board[j] = p.board[j], p.board[i]
p.empty = j
p.moves++
}
return ok
}
func (p *puzzle) play() {
fmt.Printf("Starting board:")
for p.board != solvedBoard && !p.quit {
fmt.Printf("\n%v\n", &p.board)
p.playOneMove()
}
if p.board == solvedBoard {
fmt.Printf("You solved the puzzle in %d moves.\n", p.moves)
}
}
func (p *puzzle) playOneMove() {
for {
fmt.Printf("Enter move #%d (U, D, L, R, or Q): ", p.moves+1)
var s string
if n, err := fmt.Scanln(&s); err != nil || n != 1 {
continue
}
s = strings.TrimSpace(s)
if s == "" {
continue
}
var m move
switch s[0] {
case 'U', 'u':
m = up
case 'D', 'd':
m = down
case 'L', 'l':
m = left
case 'R', 'r':
m = right
case 'Q', 'q':
fmt.Printf("Quiting after %d moves.\n", p.moves)
p.quit = true
return
default:
fmt.Println(`
Please enter "U", "D", "L", or "R" to move the empty cell
up, down, left, or right. You can also enter "Q" to quit.
Upper or lowercase is accepted and only the first non-blank
character is important (i.e. you may enter "up" if you like).
`)
continue
}
if !p.doMove(m) {
fmt.Println("That is not a valid move at the moment.")
continue
}
return
}
}</syntaxhighlight>
=={{header|Harbour}}==
<syntaxhighlight lang="harbour">
#include "inkey.ch"
#include "Box.ch"
procedure Main()
// console init
SET SCOREBOARD OFF
SetMode(30,80)
ret := 0
// main loop
yn := .F.
DO WHILE yn == .F.
// draw console
cls
@ 0, 0 TO MaxRow(), MaxCol() DOUBLE
SetColor("BG+/B,W/N")
@ 0, 4 SAY " Slidng puzzle game "
SetColor()
// input size of grid
tam := 0
@ MaxRow() - 2, 4 SAY "Size of grid: " GET tam PICTURE "9"
READ
// Initialize numbers
lista := ARRAY (tam * tam)
FOR z := 1 TO tam * tam
lista[z] := z
NEXT
lista1 := lista
grid := ARRAY (tam,tam)
// populate grid with numbers
FOR i := 1 TO tam
FOR j := 1 TO tam
grid[i,j] := lista1[ (i-1) * tam + j]
NEXT
NEXT
Mostra(@grid)
InKey(0)
// initialize the game
n := 0
t := 0
lista := lista1 // lista for scrambling, lista1 preserve numbers in order
DO WHILE .T.
// scrambling numbers
FOR i := 1 TO tam*tam
n := Int ( ft_Rand1(tam * tam - 1) + 1 )
t := lista[n]
lista[n] := lista[i]
lista[i] := t
NEXT
// have solution?
possp := 0
invct := 0 // change counter
FOR i := 1 TO tam * tam -1
IF lista[i] != tam*tam
FOR j := i + 1 TO tam * tam
IF lista[j] != tam*tam
IF lista[i] > lista[j]
invct++
ENDIF
ENDIF
NEXT
ELSE
possp := i
ENDIF
NEXT
linv := If( ( (invct % 2) == 0 ), .T., .F.)
lkin := If( ( (tam - Int( (possp -1) / tam )) % 2) == 0, .T., .F. )
IF ( (tam % 2) != 0) // if grid size is odd
IF linv // if number of positions changes is even, solvable
EXIT
ELSE
LOOP // if is odd, not solvable, scramble more
ENDIF // if grid size is even
ELSE
// If changes is even and space position is in odd line
// or changes is odd and space position is in even line
// (XOR condition) is solvable
IF (linv .AND. !lkin) .OR. (!linv .AND. lkin) // XOR !!!
EXIT
ElSE // else scramble more
LOOP
ENDIF
ENDIF
ENDDO
// populate the grid with scrambled numbers
FOR i := 1 TO tam
FOR j := 1 TO tam
grid[i,j] := lista[ (i-1) * tam + j]
NEXT
NEXT
ret := Mostra(@grid)
// play
key := 0
DO WHILE LastKey() != K_ESC
key := 0
// find the space coords
xe := 0
ye := 0
lv := tam*tam
FOR i := 1 TO tam
FOR j := 1 TO tam
IF grid[i,j] == lv
xe :=i
ye :=j
ENDIF
NEXT
NEXT
// the direction keys
key := inkey(0)
DO CASE
CASE key == K_UP
IF xe > 1
grid[xe,ye] := grid[xe-1,ye]
grid[xe-1,ye] := lv
ENDIF
ret := Mostra(@grid)
CASE key == K_DOWN
IF xe < tam
grid[xe,ye] := grid[xe+1,ye]
grid[xe+1,ye] := lv
ENDIF
ret := Mostra(@grid)
CASE key == K_LEFT
IF ye > 1
grid[xe,ye] := grid[xe,ye-1]
grid[xe,ye-1] := lv
ENDIF
ret := Mostra(@grid)
CASE key == K_RIGHT
IF ye < tam
grid[xe,ye] := grid[xe,ye+1]
grid[xe,ye+1] := lv
ENDIF
ret := Mostra(@grid)
ENDCASE
IF ret == tam*tam-1 // ret is qtty numbers in position
@ MaxRow() - 3, 4 SAY "Fim de jogo!" // if ret == (size*size) -1
key := K_ESC // all numbers in position
EXIT // game solved
ENDIF
ENDDO
@ MaxRow() - 2, 4 SAY "Deseja sair? (yn): " GET yn PICTURE "Y"
READ
@ MaxRow() - 3, 4 SAY " "
ENDDO
return NIL
FUNCTION Mostra(grid)
// Show the gris
fim := 0 // how many numbers in position?
SetColor("BG+/B,W/N")
@ 5,10 , 5 + tam * 2, 9 + tam * 4 BOX B_SINGLE + Space(1)
i := 0
FOR y := 1 TO tam
FOR x := 1 TO tam
IF grid[x,y] == tam * tam // show space
SetColor(" B/GR+, W/N")
@ x*2 + 4, i + 11 SAY " "
SetColor("BG+/B,W/N")
ELSE
IF ( (x-1) * tam + y ) == grid[x,y] // show number in position
SetColor("W/G,W/N")
@ x*2 + 4, i + 11 SAY grid[x,y] PICTURE "99"
fim++
ELSE // show number out position
SetColor("BG+/B,W/N")
@ x*2 + 4, i + 11 SAY grid[x,y] PICTURE "99"
ENDIF
ENDIF
NEXT
i = i + 4
NEXT
SetColor(" W/N, BG+/B")
RETURN fim
</syntaxhighlight>
=={{header|Haskell}}==
<syntaxhighlight lang="haskell">import Data.Array
import System.Random
type Puzzle = Array (Int, Int) Int
main :: IO ()
main = do
putStrLn "Please enter the difficulty level: 0, 1 or 2"
userInput <- getLine
let diffLevel = read userInput
if userInput == "" || any (\c -> c < '0' || c > '9') userInput || diffLevel > 2 || diffLevel < 0
then putStrLn "That is not a valid difficulty level." >> main
else shufflePuzzle ([10, 50, 100] !! diffLevel) solvedPuzzle >>= gameLoop
gameLoop :: Puzzle -> IO ()
gameLoop puzzle
| puzzle == solvedPuzzle = putStrLn "You solved the puzzle!" >> printPuzzle puzzle
| otherwise = do
printPuzzle puzzle
putStrLn "Please enter number to move"
userInput <- getLine
if any (\c -> c < '0' || c > '9') userInput
then putStrLn "That is not a valid number." >> gameLoop puzzle
else let move = read userInput in
if move `notElem` validMoves puzzle
then putStrLn "This move is not available." >> gameLoop puzzle
else gameLoop (applyMove move puzzle)
validMoves :: Puzzle -> [Int]
validMoves puzzle = [puzzle ! (row', column') |
row' <- [rowEmpty-1..rowEmpty+1], column' <- [columnEmpty-1..columnEmpty+1],
row' < 4, row' >= 0, column' < 4, column' >= 0,
(row' == rowEmpty) /= (column' == columnEmpty)]
where (rowEmpty, columnEmpty) = findIndexOfNumber 16 puzzle
applyMove :: Int -> Puzzle -> Puzzle
applyMove numberToMove puzzle = puzzle // [(indexToMove, 16), (emptyIndex, numberToMove)]
where indexToMove = findIndexOfNumber numberToMove puzzle
emptyIndex = findIndexOfNumber 16 puzzle
findIndexOfNumber :: Int -> Puzzle -> (Int, Int)
findIndexOfNumber number puzzle = case filter (\idx -> number == puzzle ! idx)
(indices puzzle) of
[idx] -> idx
_ -> error "BUG: number not in puzzle"
printPuzzle :: Puzzle -> IO ()
printPuzzle puzzle = do
putStrLn "+--+--+--+--+"
putStrLn $ "|" ++ formatCell (0, 0) ++ "|" ++ formatCell (0, 1) ++ "|" ++ formatCell (0, 2) ++ "|" ++ formatCell (0, 3) ++ "|"
putStrLn "+--+--+--+--+"
putStrLn $ "|" ++ formatCell (1, 0) ++ "|" ++ formatCell (1, 1) ++ "|" ++ formatCell (1, 2) ++ "|" ++ formatCell (1, 3) ++ "|"
putStrLn "+--+--+--+--+"
putStrLn $ "|" ++ formatCell (2, 0) ++ "|" ++ formatCell (2, 1) ++ "|" ++ formatCell (2, 2) ++ "|" ++ formatCell (2, 3) ++ "|"
putStrLn "+--+--+--+--+"
putStrLn $ "|" ++ formatCell (3, 0) ++ "|" ++ formatCell (3, 1) ++ "|" ++ formatCell (3, 2) ++ "|" ++ formatCell (3, 3) ++ "|"
putStrLn "+--+--+--+--+"
where formatCell idx
| i == 16 = " "
| i > 9 = show i
| otherwise = " " ++ show i
where i = puzzle ! idx
solvedPuzzle :: Puzzle
solvedPuzzle = listArray ((0, 0), (3, 3)) [1..16]
shufflePuzzle :: Int -> Puzzle -> IO Puzzle
shufflePuzzle 0 puzzle = return puzzle
shufflePuzzle numOfShuffels puzzle = do
let moves = validMoves puzzle
randomIndex <- randomRIO (0, length moves - 1)
let move = moves !! randomIndex
shufflePuzzle (numOfShuffels - 1) (applyMove move puzzle)</syntaxhighlight>
Output:
<pre>Please enter the difficulty level: 0, 1 or 2
0
+--+--+--+--+
| 1| 6| 2| 4|
+--+--+--+--+
| 5|10| 3| 8|
+--+--+--+--+
| 9|14| 7|11|
+--+--+--+--+
|13| |15|12|
+--+--+--+--+
Please enter number to move
14
+--+--+--+--+
| 1| 6| 2| 4|
+--+--+--+--+
| 5|10| 3| 8|
+--+--+--+--+
| 9| | 7|11|
+--+--+--+--+
|13|14|15|12|
+--+--+--+--+
Please enter number to move</pre>
=={{header|J}}==
Line 7 ⟶ 6,619:
Implementation:
<
genboard=:3 :0
b=. ?~16
if. 0<C.!.2 b do.
b=. (<0 _1)C. b
end.
a: (b i.0)} <"0 b
Line 46 ⟶ 6,658:
showboard y
blank=. y i. a:
options=. /:~ ;y {~ _ -.~ blank { taxi
whilst. -. n e. options do.
echo 'Valid moves: ',":options
Line 71 ⟶ 6,683:
showboard board
echo 'You win.'
)</
Most of this is user interface code. We initially shuffle the numbers randomly, then check their parity and swap the first and last squares if needed. Then, for each move, we allow the user to pick one of the taxicab neighbors of the empty square.
Line 77 ⟶ 6,689:
A full game would be too big to be worth showing here, so for the purpose of giving a glimpse of what this looks like in action we replace the random number generator with a constant:
<
15 puzzle
h for help, q to quit
Line 90 ⟶ 6,702:
│13│14│15│12│
└──┴──┴──┴──┘
Valid moves: 7
move which number? 11
current board:
Line 102 ⟶ 6,714:
│13│14│15│12│
└──┴──┴──┴──┘
Valid moves: 8
move which number? 12
current board:
Line 114 ⟶ 6,726:
│13│14│15│ │
└──┴──┴──┴──┘
You win.</
=={{header|
{{works with|Java|8}}
<syntaxhighlight lang="java">package fifteenpuzzle;
import java.awt.*;
import java.awt.event.*;
import java.util.Random;
import javax.swing.*;
class FifteenPuzzle extends JPanel {
private final int side = 4;
private final int numTiles = side * side - 1;
private final Random rand = new Random();
private final int[] tiles = new int[numTiles + 1];
private final int tileSize;
private int blankPos;
private final int margin;
private final int gridSize;
private boolean gameOver;
private FifteenPuzzle() {
final int dim = 640;
margin = 80;
tileSize = (dim - 2 * margin) / side;
gridSize = tileSize * side;
setPreferredSize(new Dimension(dim, dim + margin));
setBackground(Color.WHITE);
setForeground(new Color(0x6495ED)); // cornflowerblue
setFont(new Font("SansSerif", Font.BOLD, 60));
gameOver = true;
addMouseListener(new MouseAdapter() {
@Override
public void mousePressed(MouseEvent e) {
if (gameOver) {
newGame();
} else {
int ex = e.getX() - margin;
int ey = e.getY() - margin;
if (ex < 0 || ex > gridSize || ey < 0 || ey > gridSize) {
return;
}
int c1 = ex / tileSize;
int r1 = ey / tileSize;
int c2 = blankPos % side;
int r2 = blankPos / side;
int clickPos = r1 * side + c1;
int dir = 0;
if (c1 == c2 && Math.abs(r1 - r2) > 0) {
dir = (r1 - r2) > 0 ? 4 : -4;
} else if (r1 == r2 && Math.abs(c1 - c2) > 0) {
dir = (c1 - c2) > 0 ? 1 : -1;
}
if (dir != 0) {
do {
int newBlankPos = blankPos + dir;
tiles[blankPos] = tiles[newBlankPos];
blankPos = newBlankPos;
} while (blankPos != clickPos);
tiles[blankPos] = 0;
}
gameOver = isSolved();
}
repaint();
}
});
newGame();
}
private void newGame() {
do {
reset();
shuffle();
} while (!isSolvable());
gameOver = false;
}
private void reset() {
for (int i = 0; i < tiles.length; i++) {
tiles[i] = (i + 1) % tiles.length;
}
blankPos = tiles.length - 1;
}
private void shuffle() {
// don't include the blank space in the shuffle, leave it
// in the home position
int n = numTiles;
while (n > 1) {
int r = rand.nextInt(n--);
int tmp = tiles[r];
tiles[r] = tiles[n];
tiles[n] = tmp;
}
}
/* Only half the permutations of the puzzle are solvable.
Whenever a tile is preceded by a tile with higher value it counts
as an inversion. In our case, with the blank space in the home
position, the number of inversions must be even for the puzzle
to be solvable.
See also:
www.cs.bham.ac.uk/~mdr/teaching/modules04/java2/TilesSolvability.html
*/
private boolean isSolvable() {
int countInversions = 0;
for (int i = 0; i < numTiles; i++) {
for (int j = 0; j < i; j++) {
if (tiles[j] > tiles[i]) {
countInversions++;
}
}
}
return countInversions % 2 == 0;
}
private boolean isSolved() {
if (tiles[tiles.length - 1] != 0) {
return false;
}
for (int i = numTiles - 1; i >= 0; i--) {
if (tiles[i] != i + 1) {
return false;
}
}
return true;
}
private void drawGrid(Graphics2D g) {
for (int i = 0; i < tiles.length; i++) {
int r = i / side;
int c = i % side;
int x = margin + c * tileSize;
int y = margin + r * tileSize;
if (tiles[i] == 0) {
if (gameOver) {
g.setColor(Color.GREEN);
drawCenteredString(g, "\u2713", x, y);
}
continue;
}
g.setColor(getForeground());
g.fillRoundRect(x, y, tileSize, tileSize, 25, 25);
g.setColor(Color.blue.darker());
g.drawRoundRect(x, y, tileSize, tileSize, 25, 25);
g.setColor(Color.WHITE);
drawCenteredString(g, String.valueOf(tiles[i]), x, y);
}
}
private void drawStartMessage(Graphics2D g) {
if (gameOver) {
g.setFont(getFont().deriveFont(Font.BOLD, 18));
g.setColor(getForeground());
String s = "click to start a new game";
int x = (getWidth() - g.getFontMetrics().stringWidth(s)) / 2;
int y = getHeight() - margin;
g.drawString(s, x, y);
}
}
private void drawCenteredString(Graphics2D g, String s, int x, int y) {
FontMetrics fm = g.getFontMetrics();
int asc = fm.getAscent();
int des = fm.getDescent();
x = x + (tileSize - fm.stringWidth(s)) / 2;
y = y + (asc + (tileSize - (asc + des)) / 2);
g.drawString(s, x, y);
}
@Override
public void paintComponent(Graphics gg) {
super.paintComponent(gg);
Graphics2D g = (Graphics2D) gg;
g.setRenderingHint(RenderingHints.KEY_ANTIALIASING,
RenderingHints.VALUE_ANTIALIAS_ON);
drawGrid(g);
drawStartMessage(g);
}
public static void main(String[] args) {
SwingUtilities.invokeLater(() -> {
JFrame f = new JFrame();
f.setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE);
f.setTitle("Fifteen Puzzle");
f.setResizable(false);
f.add(new FifteenPuzzle(), BorderLayout.CENTER);
f.pack();
f.setLocationRelativeTo(null);
f.setVisible(true);
});
}
}</syntaxhighlight>
=={{header|Javascript}}==
Play it [http://paulo-jorente.de/webgames/15p/ here]
<syntaxhighlight lang="javascript">
var board, zx, zy, clicks, possibles, clickCounter, oldzx = -1, oldzy = -1;
function getPossibles() {
var ii, jj, cx = [-1, 0, 1, 0], cy = [0, -1, 0, 1];
possibles = [];
for( var i = 0; i < 4; i++ ) {
ii = zx + cx[i]; jj = zy + cy[i];
if( ii < 0 || ii > 3 || jj < 0 || jj > 3 ) continue;
possibles.push( { x: ii, y: jj } );
}
}
function updateBtns() {
var b, v, id;
for( var j = 0; j < 4; j++ ) {
for( var i = 0; i < 4; i++ ) {
id = "btn" + ( i + j * 4 );
b = document.getElementById( id );
v = board[i][j];
if( v < 16 ) {
b.innerHTML = ( "" + v );
b.className = "button"
}
else {
b.innerHTML = ( "" );
b.className = "empty";
}
}
}
clickCounter.innerHTML = "Clicks: " + clicks;
}
function shuffle() {
var v = 0, t;
do {
getPossibles();
while( true ) {
t = possibles[Math.floor( Math.random() * possibles.length )];
console.log( t.x, oldzx, t.y, oldzy )
if( t.x != oldzx || t.y != oldzy ) break;
}
oldzx = zx; oldzy = zy;
board[zx][zy] = board[t.x][t.y];
zx = t.x; zy = t.y;
board[zx][zy] = 16;
} while( ++v < 200 );
}
function restart() {
shuffle();
clicks = 0;
updateBtns();
}
function checkFinished() {
var a = 0;
for( var j = 0; j < 4; j++ ) {
for( var i = 0; i < 4; i++ ) {
if( board[i][j] < a ) return false;
a = board[i][j];
}
}
return true;
}
function btnHandle( e ) {
getPossibles();
var c = e.target.i, r = e.target.j, p = -1;
for( var i = 0; i < possibles.length; i++ ) {
if( possibles[i].x == c && possibles[i].y == r ) {
p = i;
break;
}
}
if( p > -1 ) {
clicks++;
var t = possibles[p];
board[zx][zy] = board[t.x][t.y];
zx = t.x; zy = t.y;
board[zx][zy] = 16;
updateBtns();
if( checkFinished() ) {
setTimeout(function(){
alert( "WELL DONE!" );
restart();
}, 1);
}
}
}
function createBoard() {
board = new Array( 4 );
for( var i = 0; i < 4; i++ ) {
board[i] = new Array( 4 );
}
for( var j = 0; j < 4; j++ ) {
for( var i = 0; i < 4; i++ ) {
board[i][j] = ( i + j * 4 ) + 1;
}
}
zx = zy = 3; board[zx][zy] = 16;
}
function createBtns() {
var b, d = document.createElement( "div" );
d.className += "board";
document.body.appendChild( d );
for( var j = 0; j < 4; j++ ) {
for( var i = 0; i < 4; i++ ) {
b = document.createElement( "button" );
b.id = "btn" + ( i + j * 4 );
b.i = i; b.j = j;
b.addEventListener( "click", btnHandle, false );
b.appendChild( document.createTextNode( "" ) );
d.appendChild( b );
}
}
clickCounter = document.createElement( "p" );
clickCounter.className += "txt";
document.body.appendChild( clickCounter );
}
function start() {
createBtns();
createBoard();
restart();
}
</syntaxhighlight>
Html to test
<pre>
<!DOCTYPE html>
<html><head><meta charset="UTF-8">
<title>15 Puzzle</title>
<script src="p15.js"></script>
<style>
html,body{padding:0; margin:0;padding-top:8vh;background:#222;color:#111}
.txt{color:#fff;text-align:center;font-size:5vh}
.board{padding:0;margin:auto;width:33vh;height:33vh}
.button, .empty{border:0;font-size:3.5vh;margin:0.5vh;padding:0;height:6vh;width:7.25vh;line-height:5vh;
vertical-align:middle;background:#fff;text-align:center;border-radius:3px;cursor:pointer;float:left}
.empty{background:#333;border:1px solid #111}
</style>
</head><body onload="start()"></body></html>
</pre>
=={{header|Julia}}==
<syntaxhighlight lang="julia">
using Random
const size = 4
const puzzle = string.(reshape(1:16, size, size))
puzzle[16] = " "
rng = MersenneTwister(Int64(round(time())))
shufflepuzzle() = (puzzle .= shuffle(rng, puzzle))
findtile(t) = findfirst(x->x == t, puzzle)
findhole() = findtile(" ")
function issolvable()
inversioncount = 1
asint(x) = (puzzle[x] == " ") ? 0 : parse(Int64, puzzle[x])
for i in 1:size^2-1, j in i:size^2
if puzzle[i] == " " || puzzle[j] == " "
continue
end
if parse(Int, puzzle[i]) < parse(Int, puzzle[j])
inversioncount += 1
end
end
if size % 2 == 1
return inversioncount % 2 == 0
end
pos = findhole()
inversioncount += pos[2]
return inversioncount & 1 == 0
end
function nexttohole()
holepos = findhole()
row = holepos[1]
col = holepos[2]
if row == 1
if col == 1
return [[row, col + 1], [row + 1, col]]
elseif col == size
return [[row, col - 1], [row + 1, col]]
else
return [[row, col - 1], [row, col + 1], [row + 1, col]]
end
elseif row == size
if col == 1
return [[row - 1, col], [row, col + 1]]
elseif col == size
return [[row - 1, col], [row, col - 1]]
else
return [[row - 1, col], [row, col - 1], [row, col + 1]]
end
else
if col == 1
return [[row - 1, col], [row, col + 1], [row + 1, col]]
elseif col == size
return [[row - 1, col], [row, col - 1], [row + 1, col]]
else
return [[row - 1, col], [row, col - 1], [row, col + 1], [row + 1, col]]
end
end
end
possiblemoves() = map(pos->puzzle[pos[1], pos[2]], nexttohole())
function movehole(tiletofill)
if tiletofill in possiblemoves()
curpos = findtile(tiletofill)
holepos = findhole()
puzzle[holepos] = tiletofill
puzzle[curpos] = " "
else
println("Bad tile move $tiletofill.\nPossible moves are $(possiblemoves()).")
end
end
function printboard()
ppuz(x,y) = print(lpad(rpad(puzzle[x,y], 3), 4), "|")
print("+----+----+----+----+\n|")
for j in 1:size, i in 1:size
ppuz(i,j)
if i == size
print("\n")
if j < size
print("|")
end
end
end
println("+----+----+----+----+")
end
function puzzle15play()
solved() = (puzzle[1:15] == string.(1:15))
shufflepuzzle()
println("This puzzle is", issolvable() ? " " : " not ", "solvable.")
while !solved()
printboard()
print("Possible moves are: $(possiblemoves()), 0 to exit. Your move? => ")
s = readline()
if s == "0"
exit(0)
end
movehole(s)
end
printboard()
println("Puzzle solved.")
end
puzzle15play()
</syntaxhighlight>{{output}}<pre>
This puzzle is solvable.
+----+----+----+----+
| 5 | 7 | 14 | |
| 4 | 3 | 13 | 12 |
| 10 | 1 | 6 | 9 |
| 8 | 15 | 11 | 2 |
+----+----+----+----+
Possible moves are: ["14", "12"], 0 to exit. Your move? => 12
+----+----+----+----+
| 5 | 7 | 14 | 12 |
| 4 | 3 | 13 | |
| 10 | 1 | 6 | 9 |
| 8 | 15 | 11 | 2 |
+----+----+----+----+
Possible moves are: ["13", "12", "9"], 0 to exit. Your move? =>
</pre>
=={{header|Koka}}==
Imperative Version
{{trans|C}}
<syntaxhighlight lang="koka">
import std/num/random
import std/os/readline
struct board
cells: vector<vector<int>>
hole-pos: (int, int)
size: (int, int)
type move
MUp
MDown
MLeft
MRight
fun delta(move: move): (int, int)
match move
MUp -> (0, 1)
MDown -> (0, -1)
MLeft -> (1, 0)
MRight -> (-1, 0)
inline extern unsafe-assign : forall<a> ( v : vector<a>, i : ssize_t, x : a ) -> total ()
c "kk_vector_unsafe_assign"
fun update(game: board, move: move): exn board
val (dx, dy) = move.delta
val (hx, hy) = game.hole-pos
val (nx, ny) = (hx + dx, hy + dy)
val (w, h) = game.size
if nx >= 0 && nx < w && ny >= 0 && ny < h then
game.cells[hx].unsafe-assign(hy.ssize_t, game.cells[nx][ny])
game.cells[nx].unsafe-assign(ny.ssize_t, 0)
game(hole-pos=(nx, ny))
else
game
val num_shuffles = 100
fun random-move(): random move
match random-int() % 4
0 -> MUp
1 -> MDown
2 -> MLeft
_ -> MRight
fun setup(size: (int, int)): <exn,random> board
val (w, h) = size
val cells = vector-init(w, fn(x) vector-init(h, fn(y) x*h + y + 1))
var game := Board(cells, (w - 1, h - 1), size)
for(0,num_shuffles) fn(_)
game := game.update(random-move())
game
effect break<a>
final ctl break(a: a) : b
fun finished(game: board): exn bool
val (w, h) = game.size
var i := 1
with final ctl break(a:bool)
a
for(0,w - 1) fn(x)
for(0,h - 1) fn(y)
if game.cells[x][y] != i then
break(False)
else
i := i + 1
True
fun display(game: board): <console,exn> ()
println("")
val (w, h) = game.size
for(0, h - 1) fn(y)
for(0, w - 1) fn(x)
val c = game.cells[x][y]
if c == 0 then
print(" ")
else
print(" " ++ c.show ++ " ")
println("")
println("")
fun get_move(): <div,console,exn,break<string>> move
val c = readline()
match c.trim()
"w" -> MUp
"s" -> MDown
"a" -> MLeft
"d" -> MRight
"q" -> break("Finished")
_ -> get_move()
fun main()
var game := setup((4, 4))
with final ctl break(a:string)
a.println
while {!game.finished}
game.display
val move = get_move()
game := game.update(move)
println("You won!")
</syntaxhighlight>
=={{header|Kotlin}}==
{{trans|Java}}
<syntaxhighlight lang="scala">// version 1.1.3
import java.awt.BorderLayout
import java.awt.Color
import java.awt.Dimension
import java.awt.Font
import java.awt.Graphics
import java.awt.Graphics2D
import java.awt.RenderingHints
import java.awt.event.MouseAdapter
import java.awt.event.MouseEvent
import java.util.Random
import javax.swing.JFrame
import javax.swing.JPanel
import javax.swing.SwingUtilities
class FifteenPuzzle(dim: Int, val margin: Int) : JPanel() {
private val rand = Random()
private val tiles = IntArray(16)
private val tileSize = (dim - 2 * margin) / 4
private val gridSize = tileSize * 4
private var blankPos = 0
init {
preferredSize = Dimension(dim, dim)
background = Color.white
val cornflowerBlue = 0x6495ED
foreground = Color(cornflowerBlue)
font = Font("SansSerif", Font.BOLD, 60)
addMouseListener(object : MouseAdapter() {
override fun mousePressed(e: MouseEvent) {
val ex = e.x - margin
val ey = e.y - margin
if (ex !in 0..gridSize || ey !in 0..gridSize) return
val c1 = ex / tileSize
val r1 = ey / tileSize
val c2 = blankPos % 4
val r2 = blankPos / 4
if ((c1 == c2 && Math.abs(r1 - r2) == 1) ||
(r1 == r2 && Math.abs(c1 - c2) == 1)) {
val clickPos = r1 * 4 + c1
tiles[blankPos] = tiles[clickPos]
tiles[clickPos] = 0
blankPos = clickPos
}
repaint()
}
})
shuffle()
}
private fun shuffle() {
do {
reset()
// don't include the blank space in the shuffle,
// leave it in the home position
var n = 15
while (n > 1) {
val r = rand.nextInt(n--)
val tmp = tiles[r]
tiles[r] = tiles[n]
tiles[n] = tmp
}
} while (!isSolvable())
}
private fun reset() {
for (i in 0 until tiles.size) {
tiles[i] = (i + 1) % tiles.size
}
blankPos = 15
}
/* Only half the permutations of the puzzle are solvable.
Whenever a tile is preceded by a tile with higher value it counts
as an inversion. In our case, with the blank space in the home
position, the number of inversions must be even for the puzzle
to be solvable.
*/
private fun isSolvable(): Boolean {
var countInversions = 0
for (i in 0 until 15) {
(0 until i)
.filter { tiles[it] > tiles[i] }
.forEach { countInversions++ }
}
return countInversions % 2 == 0
}
private fun drawGrid(g: Graphics2D) {
for (i in 0 until tiles.size) {
if (tiles[i] == 0) continue
val r = i / 4
val c = i % 4
val x = margin + c * tileSize
val y = margin + r * tileSize
with(g) {
color = foreground
fillRoundRect(x, y, tileSize, tileSize, 25, 25)
color = Color.black
drawRoundRect(x, y, tileSize, tileSize, 25, 25)
color = Color.white
}
drawCenteredString(g, tiles[i].toString(), x, y)
}
}
private fun drawCenteredString(g: Graphics2D, s: String, x: Int, y: Int) {
val fm = g.fontMetrics
val asc = fm.ascent
val des = fm.descent
val xx = x + (tileSize - fm.stringWidth(s)) / 2
val yy = y + (asc + (tileSize - (asc + des)) / 2)
g.drawString(s, xx, yy)
}
override fun paintComponent(gg: Graphics) {
super.paintComponent(gg)
val g = gg as Graphics2D
g.setRenderingHint(RenderingHints.KEY_ANTIALIASING,
RenderingHints.VALUE_ANTIALIAS_ON)
drawGrid(g)
}
}
fun main(args: Array<String>) {
SwingUtilities.invokeLater {
val f = JFrame()
with(f) {
defaultCloseOperation = JFrame.EXIT_ON_CLOSE
title = "Fifteen Puzzle"
isResizable = false
add(FifteenPuzzle(640, 80), BorderLayout.CENTER)
pack()
setLocationRelativeTo(null)
isVisible = true
}
}
}</syntaxhighlight>
=={{header|Liberty BASIC}}==
{{trans|Commodore BASIC}}
{{works with|Just BASIC}}
<syntaxhighlight lang="lb">
' 15-PUZZLE GAME
' ********************************
dim d(16)
dim ds$(16) ' Board pieces
dim sh(3)
call buildBoard introAndLevel()
call printPuzzle
do
print "To move a piece, enter its number: "
input x
while isMoveValid(x, y, z) = 0
print "Wrong move."
call printPuzzle
print "To move a piece, enter its number: "
input x
wend
d(z) = x
d(y) = 0
call printPuzzle
loop until isPuzzleComplete()
print "YOU WON!"
end
sub printPuzzle
for p = 1 to 16
if d(p) = 0 then
ds$(p) = " "
else
ds$(p) = using("###", d(p)) + " "
end if
next p
print "+-----+-----+-----+-----+"
print "|"; ds$(1); "|"; ds$(2); "|"; ds$(3); "|"; ds$(4); "|"
print "+-----+-----+-----+-----+"
print "|"; ds$(5); "|"; ds$(6); "|"; ds$(7); "|"; ds$(8); "|"
print "+-----+-----+-----+-----+"
print "|"; ds$(9); "|"; ds$(10); "|";ds$(11); "|"; ds$(12); "|"
print "+-----+-----+-----+-----+"
print "|"; ds$(13); "|"; ds$(14); "|"; ds$(15); "|"; ds$(16); "|"
print "+-----+-----+-----+-----+"
end sub
function introAndLevel()
cls
sh(1) = 10
sh(2) = 50
sh(3) = 100
print "15 PUZZLE GAME"
print
print
print "Please enter level of difficulty,"
do
print "1 (easy), 2 (medium) or 3 (hard): ";
input level
loop while (level < 1) or (level > 3)
introAndLevel = level
end function
sub buildBoard level
' Set pieces in correct order first
for p = 1 to 15
d(p) = p
next p
d(16) = 0 ' 0 = empty piece/slot
z = 16 ' z = empty position
print
print "Shuffling pieces";
for n = 1 to sh(level)
print ".";
do
x = int(rnd(0) * 4) + 1
select case x
case 1
r = z - 4
case 2
r = z + 4
case 3
if (z - 1) mod 4 <> 0 then
r = z - 1
end if
case 4
if z mod 4 <> 0 then
r = z + 1
end if
end select
loop while (r < 1) or (r > 16)
d(z) = d(r)
z = r
d(z) = 0
next n
cls
end sub
function isMoveValid(piece, byref piecePos, byref emptyPos)
mv = 0
if (piece >= 1) and (piece <= 15) then
piecePos = piecePosition(piece)
emptyPos = piecePosition(0)
' Check if empty piece is above, below, left or right to piece
if (piecePos - 4 = emptyPos) or _
(piecePos + 4 = emptyPos) or _
((piecePos - 1 = emptyPos) and (emptyPos mod 4 <> 0)) or _
((piecePos + 1 = emptyPos) and (piecePos mod 4 <> 0)) then
mv = 1
end if
end if
isMoveValid = mv
end function
function piecePosition(piece)
p = 1
while d(p) <> piece
p = p + 1
if p > 16 then
print "UH OH!"
stop
end if
wend
piecePosition = p
end function
function isPuzzleComplete()
pc = 0
p = 1
while (p < 16) and (d(p) = p)
p = p + 1
wend
if p = 16 then
pc = 1
end if
isPuzzleComplete = pc
end function
</syntaxhighlight>
=={{header|LiveCode}}==
<syntaxhighlight lang="livecode">
#Please note that all this code can be performed in livecode with just few mouse clicks
#This is just a pure script exampe
on OpenStack
show me #Usually not necessary
#tile creation
set the width of the templateButton to 50
set the height of the templateButton to 50
repeat with i=1 to 16
create button
set the label of button i to i
if i =1 then
set the top of button 1 to 0
set the left of button 1 to 0
end if
if i > 1 and 1 <=4 then
set the left of button i to the right of button (i-1)
set the top of button i to the top of button 1
end if
if i >= 5 and i <= 8 then
set the top of button i to the bottom of button 1
if i = 5 then
set the left of button i to the left of button 1
else
set the left of button i to the right of button (i - 1)
end if
end if
if i >= 9 and i <= 12 then
set the top of button i to the bottom of button 5
if i = 9 then
set the left of button i to the left of button 1
else
set the left of button i to the right of button (i - 1)
end if
end if
if i >= 13 and i <= 16 then
set the top of button i to the bottom of button 9
if i = 13 then
set the left of button i to the left of button 1
else
set the left of button i to the right of button (i - 1)
end if
end if
#this is usally the script directly wirtten in the objects, it's really weird this way
put "on MouseUp" &CR& "if checkDistance(the label of me) then" & CR &"put the loc of me into temp" into ts
put CR& "set the loc of me to the loc of button 16" after ts
put CR& "set the loc of button 16 to temp" & Cr & "end if " &CR &"End MouseUp" after ts
set the script of button i to ts
end repeat
#graphic adjustements
set the visible of button 16 to false
set the width of this stack to the right of button 16
set the height of this stack to the bottom of button 16
end openStack
function checkDistance i
if (((the top of button i - the bottom of button 16) = 0 OR (the top of button 16 - the bottom of button i) = 0) AND the left of button i = the left of button 16) OR (((the left of button i - the right of button 16) = 0 OR (the right of button i - the left of button 16) = 0) AND the top of button i = the top of button 16) then
return true
else
return false
end if
end checkDistance
</syntaxhighlight>
Screenshot:
[https://s24.postimg.org/uc6fx7kph/Livecode15_Puzzle_Game.png]
=={{header|Lua}}==
<syntaxhighlight lang="lua">
math.randomseed( os.time() )
local puz = { 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 0 }
local dir = { { 1, 0 }, { -1, 0 }, { 0, 1 }, { 0, -1 } }
local sx, sy = 4, 4
function isValid( tx, ty )
return tx > 0 and tx < 5 and ty > 0 and ty < 5
end
function display()
io.write( "\n\n" )
for j = 1, 4 do
io.write( "+----+----+----+----+\n" )
for i = 1, 4 do
local d = puz[i + j * 4 - 4]
io.write( ": " )
if d < 10 then io.write( " " ) end
if d < 1 then
io.write( " " )
else
io.write( string.format( "%d ", d ) )
end
end
io.write( ":\n" )
end
io.write( "+----+----+----+----+\n\n" )
end
function getUserNove()
local moves, r, tx, ty = {}
for d = 1, 4 do
tx = sx; ty = sy
tx = tx + dir[d][1]; ty = ty + dir[d][2]
if isValid( tx, ty ) then
table.insert( moves, puz[tx + ty * 4 - 4] )
end
end
io.write( "Your possible moves are: " )
for i = 1, #moves do
io.write( string.format( "%d ", moves[i] ) )
end
io.write ( "\nYour move: " ); r = tonumber( io.read() )
if r ~= nil then
for i = 1, #moves do
if moves[i] == r then return r end
end
end
print( "Invalid move!" )
return -1
end
function checked( r )
for i = 1, #puz do
if puz[i] == r then
puz[i] = 0
sx = 1 + ( i - 1 ) % 4; sy = math.floor( ( i + 3 ) / 4 )
elseif puz[i] == 0 then
puz[i] = r
end
end
for i = 2, #puz - 1 do
if puz[i - 1] + 1 ~= puz[i] then return false end
end
return true
end
function beginGame()
local r, d, tx, ty
while( true ) do
for i = 1, 100 do
while( true ) do
tx = sx; ty = sy; d = math.random( 4 )
tx = tx + dir[d][1]; ty = ty + dir[d][2]
if isValid( tx, ty ) then break end
end
puz[sx + sy * 4 - 4] = puz[tx + ty * 4 - 4]
puz[tx + ty * 4 - 4] = 0; sx = tx; sy = ty
end
while( true ) do
display(); r = getUserNove()
if r > 0 then
if checked( r ) then
display()
io.write( "\nDone!\n\nPlay again (Y/N)?" )
r = io.read()
if r ~= "Y" and r ~= "y" then
return
else
break
end
end
end
end
end
end
-- [ entry point ] --
beginGame()
</syntaxhighlight>
{{out}}
<pre>
+----+----+----+----+
: 1 : 15 : 7 : 3 :
+----+----+----+----+
: 14 : 9 : 2 : 4 :
+----+----+----+----+
: 5 : 13 : : 10 :
+----+----+----+----+
: 6 : 12 : 8 : 11 :
+----+----+----+----+
Your possible moves are: 10 13 8 2
Your move:
</pre>
{{trans|COMMODORE BASIC}}
=={{header|M2000 Interpreter}}==
{{trans|COMMODORE BASIC}}
I make a function RND() and I set Base for arrays to 1
Also I put some semi colons to Print statement
Also I have to put variables after NEXT statements
To be actual BASIC compatible we have to set FOR NEXT like BASIC, because for M2000 the direction defined by the starting-ending values, so always we get at least one time the block between FOR NEXT. So we can use:
SET SWITCHES "+FOR"
But here we don't have to skip FOR NEXT and no STEP clause used.
Also the code is not the best, because we can move from 4 position to 5 (we can't do that with real puzzle)
<syntaxhighlight lang="m2000 interpreter">
Module Puzzle15 {
00 BASE 1 : DEF RND(X)=RND
10 REM 15-PUZZLE GAME
20 REM COMMODORE BASIC 2.0
30 REM ********************************
40 GOSUB 400 : REM INTRO AND LEVEL
50 GOSUB 510 : REM SETUP BOARD
60 GOSUB 210 : REM PRINT PUZZLE
70 PRINT "TO MOVE A PIECE, ENTER ITS NUMBER:"
80 INPUT X
90 GOSUB 730 : REM CHECK IF MOVE IS VALID
100 IF MV=0 THEN PRINT "WRONG MOVE" : GOSUB 1050 : GOTO 60
110 D(Z)=X : D(Y)=0
120 GOSUB 210 : REM PRINT PUZZLE
130 GOSUB 950 : REM CHECK IF PUZZLE COMPLETE
140 IF PC THEN 160
150 GOTO 70
160 PRINT"YOU WON!"
170 END
180 REM
190 REM *******************************
200 REM PRINT/DRAW THE PUZZLE
210 FOR P=1 TO 16
220 IF D(P)=0 THEN D$(P)=" " : GOTO 260
230 S$=STR$(D(P))
240 N=LEN(S$)
250 D$(P) = LEFT$(" ",3-N)+S$+" "
260 NEXT P
270 PRINT "+-----+-----+-----+-----+"
280 PRINT "!";D$(1);"!";D$(2);"!";D$(3);"!";D$(4);"!"
290 PRINT "+-----+-----+-----+-----+"
300 PRINT "!";D$(5);"!";D$(6);"!";D$(7);"!";D$(8);"!"
310 PRINT "+-----+-----+-----+-----+"
320 PRINT "!";D$(9);"!";D$(10);"!";D$(11);"!";D$(12);"!"
330 PRINT "+-----+-----+-----+-----+"
340 PRINT "!";D$(13);"!";D$(14);"!";D$(15);"!";D$(16);"!"
350 PRINT "+-----+-----+-----+-----+"
360 RETURN
370 REM
380 REM *******************************
390 REM INTRO AND LEVEL OF DIFFICULTY
400 PRINT CHR$(147)
410 DIM SH(3) : SH(1)=10 : SH(2)=50 : SH(3)=100
420 PRINT "15 PUZZLE GAME FOR COMMODORE BASIC 2.0" : PRINT : PRINT
430 PRINT "PLEASE ENTER LEVEL OF DIFFICULTY,"
440 PRINT "1(EASY), 2(MEDIUM) OR 3(HARD):";
450 INPUT V
460 IF V<1 OR V>3 THEN 440
470 RETURN
480 REM
490 REM *******************************
500 REM BUILD THE BOARD
510 DIM D(16) : DIM D$(16) : REM BOARD PIECES
520 REM SET PIECES IN CORRECT ORDER FIRST
530 FOR P=1 TO 15
540 D(P) = P
550 NEXT P
560 D(16) = 0 : REM 0 = EMPTY PIECE/SLOT
570 Z=16 : REM Z = EMPTY POSITION
580 PRINT: PRINT "SHUFFLING PIECES";
590 FOR N=1 TO SH(V)
600 PRINT".";
610 X = INT(RND(0)*4)+1
620 R = Z+(X=1)*4-(X=2)*4+(X=3)-(X=4)
630 IF R<1 OR R>16 THEN 610
640 D(Z)=D(R)
650 Z=R
660 D(Z)=0
670 NEXT N
680 PRINT CHR$(147)
690 RETURN
700 REM
710 REM *******************************
720 REM CHECK IF MOVE IS VALID
730 MV = 0
740 IF X<1 OR X>15 THEN RETURN
750 REM FIND POSITION OF PIECE X
760 P=1
770 IF D(P)=X THEN Y=P : GOTO 810
780 P=P+1 : IF P>16 THEN PRINT "UH OH!" : STOP
790 GOTO 770
800 REM FIND POSITION OF EMPTY PIECE
810 P=1
820 IF D(P)=0 THEN Z=P : GOTO 860
830 P=P+1 : IF P>16 THEN PRINT "UH OH!" : STOP
840 GOTO 820
850 PRINT Y;Z
860 REM CHECK IF EMPTY PIECE IS ABOVE, BELOW, LEFT OR RIGHT TO PIECE X
870 IF Y-4=Z THEN MV=1 : RETURN
880 IF Y+4=Z THEN MV=1 : RETURN
890 IF Y-1=Z THEN MV=1 : RETURN
900 IF Y+1=Z THEN MV=1 : RETURN
910 RETURN
920 REM
930 REM *******************************
940 REM CHECK IF PUZZLE IS COMPLETE / GAME OVER
950 PC = 0
960 P=1
970 IF D(P)<>P THEN RETURN
980 P=P+1
990 IF P<16 THEN 970
1000 PC = 1
1010 RETURN
1020 REM
1030 REM ******************************
1040 REM A SMALL DELAY
1050 FOR T=0 TO 400
1060 NEXT T
1070 RETURN
}
Puzzle15
</syntaxhighlight>
=={{header|Mathematica}} / {{header|Wolfram Language}}==
<syntaxhighlight lang="mathematica">grid = MapThread[{#1,#2} &, {Range @ 16, Range @ 16}]
Move[x_] := (empty = Select[grid, #[[1]]==16 &][[1,2]];
If[(empty == x+4) || (empty == x-4) ||
(Mod[empty,4] != 0 && empty == x-1) ||
(Mod[empty,4] != 1 && empty == x+1),
oldEmpty = grid[[empty]][[1]];
grid[[empty]][[1]] = grid[[x]][[1]];
grid[[x]][[1]] = oldEmpty])
CButton[{x_,loc_}] := If[x==16, Null, Button[x,Move @ loc]]
Dynamic @ Grid @ Partition[CButton /@ grid,4]</syntaxhighlight>
=={{header|Mercury}}==
The ideal in Mercury is to have a declarative module that encodes the game logic, and then separate modules to implement a human player with text commands (here), or keyed commands, or some kind of AI player, and so on. fifteen.print/3 is a arguably a smudge on fifteen's interface:
<syntaxhighlight lang="mercury">:- module fifteen.
:- interface.
:- use_module random, io.
:- type board.
:- type invalid_board
---> invalid_board(board).
:- type move
---> up
; down
; left
; right.
% init(Board):
% Board is fifteen game in its initial state
%
:- pred init(board::out) is det.
% print(Board, !IO)
:- pred print(board::in, io.io::di, io.io::uo) is det.
% Shuffled(Board, !RS):
% Board is a fifteen game in a random (but valid) state.
%
:- pred shuffled(board::out, random.supply::mdi, random.supply::muo) is det.
% space(Board) = I:
% I is the index of the blank space in the board.
% Throws invalid_board iff there is no blank.
%
:- func space(board) = int.
% move(Move, !Board):
% Move the blank space in a board in the given direction.
% Fails if this is an invalid move to make.
%
:- pred move(move::in, board::in, board::out) is semidet.
:- implementation.
:- import_module bt_array, int, list, string.
:- use_module array, exception.
:- type board == bt_array(int).
init(B) :- from_list(0, (1 .. 15) ++ [0], B).
print(B, !IO) :-
Tile = (func(N) = ( if N = 0 then s(" ") else s(string.format("%2d", [i(N)])) )),
io.format("\
|----+----+----+----|
| %s | %s | %s | %s |
| %s | %s | %s | %s |
| %s | %s | %s | %s |
| %s | %s | %s | %s |
|----+----+----+----|
",
map(Tile, to_list(B)), !IO).
shuffled(!:B, !RS) :-
init(!:B),
some [!A] (
array.from_list(to_list(!.B), !:A),
array.random_permutation(!A, !RS),
from_list(0, array.to_list(!.A), !:B)
).
space(Board) = I :- space(0, Board, I).
:- pred space(int::in, board::in, int::out) is det.
space(N, Board, I) :-
( if semidet_lookup(Board, N, X) then
( if X = 0 then
N = I
else
space(N + 1, Board, I)
)
else
exception.throw(invalid_board(Board))
).
:- pred swap(int::in, int::in, board::in, board::out) is det.
swap(I, J, !B) :-
X = !.B ^ elem(I),
Y = !.B ^ elem(J),
!B ^ elem(I) := Y,
!B ^ elem(J) := X.
move(M, !B) :- move(space(!.B), M, !B).
:- pred move(int::in, move::in, board::in, board::out) is semidet.
move(I, up, !B) :-
I >= 4,
swap(I, I - 4, !B).
move(I, down, !B) :-
I < 12,
swap(I, I + 4, !B).
move(I, left, !B) :-
not (I = 0 ; I = 4 ; I = 8 ; I = 12),
swap(I, I - 1, !B).
move(I, right, !B) :-
not (I = 3 ; I = 7 ; I = 11 ; I = 15),
swap(I, I + 1, !B).</syntaxhighlight>
As used:
<syntaxhighlight lang="mercury">:- module play_fifteen.
:- interface.
:- import_module io.
:- pred main(io::di, io::uo) is det.
:- implementation.
:- import_module string.
:- use_module random, fifteen, exception.
main(!IO) :-
seed(Seed, !IO),
random.init(Seed, RS),
fifteen.shuffled(Board, RS, _),
fifteen.print(Board, !IO),
play(Board, !IO).
:- type input_command
---> up ; down ; left ; right
; quit.
:- type command
---> move(fifteen.move)
; quit.
:- pred input(input_command::in, command::out) is det.
input(up, move(fifteen.up)).
input(down, move(fifteen.down)).
input(left, move(fifteen.left)).
input(right, move(fifteen.right)).
input(quit, quit).
:- pred command(string::in, command::out) is semidet.
command(String, C) :-
Term = chomp(String) ++ ".",
io.read_from_string("play_fifteen", Term, length(Term),
ok(I), io.posn(0, 0, 0), _),
input(I, C).
:- pred play(fifteen.board::in, io::di, io::uo) is det.
play(!.B, !IO) :-
io.write_string("Move? ", !IO),
io.read_line_as_string(Res, !IO),
(
Res = eof
;
Res = error(_),
exception.throw(Res)
;
Res = ok(String),
( if command(String, Command) then
(
Command = quit,
io.write_string("Bye :(\n", !IO)
;
Command = move(Move),
( if fifteen.move(Move, !B) then
( if fifteen.init(!.B) then
fifteen.print(!.B, !IO),
io.write_string("You win!\n", !IO)
else
fifteen.print(!.B, !IO),
play(!.B, !IO)
)
else
io.write_string("Invalid move.\n", !IO),
play(!.B, !IO)
)
)
else
io.write_string("I didn't understand that.\n", !IO),
play(!.B, !IO)
)
).
:- pragma foreign_decl("C", "#include <time.h>").
:- pred seed(int::out, io::di, io::uo) is det.
:- pragma foreign_proc("C",
seed(Seed::out, _IO0::di, _IO::uo),
[promise_pure, will_not_call_mercury],
"
Seed = time(NULL);
").</syntaxhighlight>
=={{header|MiniScript}}==
===Text-based version===
Text-based game that works with both command-line and [http://miniscript.org/MiniMicro Mini Micro] versions of MiniScript. The Mini Micro has animation showing the changes in the board when the tiles are being shuffled or a move is made.
<syntaxhighlight lang="miniscript">
isMiniMicro = version.hostName == "Mini Micro"
// These coordinates are [row,col] not [x,y]
Directions = {"up": [-1,0], "right": [0,1], "down": [1, 0], "left": [0,-1]}
TileNum = range(1, 15)
Puzzle15 = {"grid":[[1,2,3,4],[5,6,7,8],[9,10,11,12],[13,14,15,16]],
"blankPos": [3,3]}
Puzzle15.__setTile = function(position, value)
row = position[0]; col = position[1]
self.grid[row][col] = value
end function
Puzzle15.__getTile = function(position)
row = position[0]; col = position[1]
return self.grid[row][col]
end function
Puzzle15.__getOppositeDirection = function(direction)
directions = Directions.indexes
oppix = (directions.indexOf(direction) + 2) % 4
return directions[oppix]
end function
Puzzle15.getState = function
return self.grid
end function
Puzzle15.getBlankPos = function
return self.blankPos
end function
Puzzle15.hasWon = function
count = 1
for r in range(0, 3)
for c in range(0, 3)
if self.grid[r][c] != count then return false
count += 1
end for
end for
return true
end function
Puzzle15.move = function(direction)
if not Directions.hasIndex(direction) then return false
move = Directions[direction]
curPos = self.blankPos[:]
newPos = [curPos[0] + move[0], curPos[1] + move[1]]
if (-1 < newPos[0] < 4) and (-1 < newPos[1] < 4) then
value = self.__getTile(newPos)
self.__setTile(curPos, value)
self.__setTile(newPos, 16) // 16 is the blank tile
self.blankPos = newPos
return true
else
return false
end if
end function
Puzzle15.shuffle = function(n)
lastMove = ""
directions = Directions.indexes
for i in range(1, 50)
while true
moveTo = directions[floor(rnd * 4)]
oppMove = self.__getOppositeDirection(moveTo)
if self.__getOppositeDirection(moveTo) != lastMove and self.move(moveTo) then
lastMove = moveTo
if isMiniMicro then
self.displayBoard
wait 1/33
end if
break
end if
end while
end for
end function
Puzzle15.displayBoard = function
if isMiniMicro then clear
for r in range(0, 3)
for c in range(0, 3)
grid = self.getState
if grid[r][c] == 16 then
s = " "
else
s = (" " + grid[r][c])[-3:]
end if
print s, ""
end for
print
end for
end function
Puzzle15.shuffle
while not Puzzle15.hasWon
if isMiniMicro then
clear
else
print
end if
Puzzle15.displayBoard
while true
print
move = input("Enter the direction to move the blank in (up, down, left, right): ")
move = move.lower
if Directions.hasIndex(move) and Puzzle15.move(move) then break
print "Please enter a valid move."
end while
end while
print "Congratulations! You solved the puzzle!"</syntaxhighlight>
===Fully animated version===
This fully animated implementation is for use with [http://miniscript.org/MiniMicro Mini Micro]. It uses assets that come with the Mini Micro as well as a sound file of wood blocks scrapping and hitting each other that is separate from this code. This scrip will still run without it and will not simulate the sound of the tiles moving. You may find this file on [https://github.com/chinhouse/MiniScript/blob/main/Puzzle-15/small_wooden_bricks_movement.mp3 Github].
<syntaxhighlight lang="miniscript">
woodSound = file.loadSound("small_wooden_bricks_movement.mp3")
puzzleTiles = function
gfx.scale = 2
woodImg = file.loadImage("/sys/pics/textures/Wood.png")
gfx.drawImage woodImg,0,0
gfx.color = color.black
gfx.drawRect 6,6, 244,244
bgBoard = new Sprite
bgBoard.image = gfx.getImage(0, 0, 256, 256)
bgBoard.scale = 1.6
bgBoard.x = (960 - 1.6 * 256) / 2 + 128 * 1.6
bgBoard.y = (640 - 1.6 * 256) / 2 + 128 * 1.6
bgBoard.tint = color.rgb(102,51,0)
sprites = [bgBoard]
gfx.clear
gfx.drawImage woodImg,0,0
positions = range(1,15)
positions.shuffle
spriteScale = 1.5
spriteSize = 64
tileXOffset = (960 - 3 * spriteSize * spriteScale) / 2
tileYOffset = (640 - 3 * spriteSize * spriteScale) / 2
for i in range(0,14)
s = str(i+1)
pos = positions[i]
x = pos % 4
y = floor(pos / 4)
xp = x * spriteSize + (spriteSize - (s.len * 14 + 2)) / 2
yp = y * spriteSize + 20
gfx.print s, xp, yp, color.black, "normal"
sprite = new Sprite
sprite.image = gfx.getImage(x * spriteSize, y * spriteSize, spriteSize, spriteSize)
sprite.scale = spriteScale
xs = i % 4; ys = 3 - floor(i / 4)
sprite.x = spriteSize * (xs) * spriteScale + tileXOffset
sprite.y = spriteSize * ys * spriteScale + tileYOffset
sprite.localBounds = new Bounds
sprite.localBounds.width = spriteSize
sprite.localBounds.height = spriteSize
// tint the blocks with different shades of brown
sat = floor(rnd * 47 - 10) * 3
sprite.tint = color.rgb(153 + sat, 102 + sat, 51 + sat)
sprites.push(sprite)
end for
return sprites
end function
moveTiles = function(sprites, instructions, t = 6, mute = false)
direction = instructions[0]
delta = Directions[direction]
if not mute and woodSound and direction then woodSound.play 0.1
for i in range(96, 1, -t)
for tile in instructions[1:]
sprites[tile].x += delta[1] * t
sprites[tile].y += -delta[0] * t
end for
wait 1/3200
end for
end function
// These coordinates are [row,col] not [x,y]
Directions = {"up": [-1,0], "right": [0,1], "down": [1, 0], "left": [0,-1]}
TileNum = range(1, 15)
Puzzle15 = {"grid":[[1,2,3,4],[5,6,7,8],[9,10,11,12],[13,14,15,16]],
"blankPos": [3,3], "movesToShuffled": [], "movesMade": [], "moveCount": 0}
Puzzle15.__setTile = function(position, value)
row = position[0]; col = position[1]
self.grid[row][col] = value
end function
Puzzle15.__getTile = function(position)
row = position[0]; col = position[1]
return self.grid[row][col]
end function
Puzzle15.__getOppositeDirection = function(direction)
directions = Directions.indexes
oppix = (directions.indexOf(direction) + 2) % 4
return directions[oppix]
end function
Puzzle15.__getDirectionToTile = function(n)
for row in range(0, 3)
for col in range(0, 3)
if self.grid[row][col] == n then
dr = row - self.getBlankPos[0]
dc = col - self.getBlankPos[1]
return Directions.indexOf([sign(dr), sign(dc)])
end if
end for
end for
return null
end function
Puzzle15.getState = function
return self.grid
end function
Puzzle15.getBlankPos = function
return self.blankPos
end function
Puzzle15.hasWon = function
count = 1
for r in range(0, 3)
for c in range(0, 3)
if self.grid[r][c] != count then return false
count += 1
end for
end for
return true
end function
Puzzle15.move = function(direction)
if not Directions.hasIndex(direction) then return false
move = Directions[direction]
curPos = self.blankPos[:]
newPos = [curPos[0] + move[0], curPos[1] + move[1]]
if (-1 < newPos[0] < 4) and (-1 < newPos[1] < 4) then
value = self.__getTile(newPos)
self.__setTile(curPos, value)
self.__setTile(newPos, 16) // 16 is the blank tile
self.blankPos = newPos
if self.movesMade.len > 0 then
lastMove = self.movesMade[-1]
else
lastMove = ""
end if
if lastMove != "" and self.__getOppositeDirection(lastMove) == direction then
self.movesMade.pop
else
self.movesMade.push(direction)
end if
self.moveCount += 1
return value // return tile that was moved
else
return false
end if
end function
Puzzle15.moveNumber = function(n)
direction = Puzzle15.__getDirectionToTile(n)
origDir = direction
if direction == null then return 0
tiles = [self.__getOppositeDirection(direction)]
while origDir == direction
tileNum = self.move(origDir)
tiles.insert(1, tileNum)
direction = self.__getDirectionToTile(n)
end while
return tiles
end function
Puzzle15.shuffle = function(n, sprites)
lastMove = ""
directions = Directions.indexes
cnt = 0
instructions = []
while self.movesToShuffled.len < n
if self.movesToShuffled.len == 0 then
lastMove = ""
else
lastMove = self.movesToShuffled[-1]
end if
moveTo = directions[floor(rnd * 4)]
cnt += 1
oppMove = self.__getOppositeDirection(moveTo)
tileMoved = self.move(moveTo)
if oppMove != lastMove and tileMoved then
instructions.push([oppMove, tileMoved])
lastMove = moveTo
self.movesToShuffled.push(moveTo)
else if oppMove == lastMove then
self.movesToShuffled.pop
instructions.pop
end if
end while
for i in instructions
moveTiles(sprites, i, 96, true)
end for
end function
clear
display(4).sprites = puzzleTiles
gfx.clear
Puzzle15.shuffle(200, display(4).sprites)
while not Puzzle15.hasWon
if mouse.button and not wasPressed then
tile = 16
for i in range(1, 15)
sprite = display(4).sprites[i]
//print sprite.localBounds
if sprite.contains(mouse) then tile = i
end for
if tile != 16 then
instructions = Puzzle15.moveNumber(tile)
if instructions then moveTiles(display(4).sprites, instructions)
end if
end if
wasPressed = mouse.button
yield
end while
fanfare = file.loadSound("/sys/sounds/fanfare.wav")
fanfare.play 0.25
while fanfare.isPlaying
end while
key.get
</syntaxhighlight>
=={{header|MUMPS}}==
<pre>
15Game ;
; setting the layout
f i=1:1:15 s box(i)=16-i
; no number for box 16
s box(16)=""
f {
; initialise i for incrementation
s i=0
; write out the 4-by-4 box
f row=1:1:4 {
w !?20
f column=1:1:4 {
s i=$i(i)
w $j(box(i),2)," "
}
}
r !!,"Enter number to move (q to quit): ",number
q:number="q"
f i=1:1:16 q:box(i)=""
if box(i)="" {
if i>4,number=box(i-4) {
s box(i)=number,box(i-4)=""
w !!
}
elseif i>1,i'=5,i'=9,i'=13,number=box(i-1) {
s box(i)=number,box(i-1)=""
w !!
}
elseif i<16,i'=4,i'=8,i'=12,number=box(i+1) {
s box(i)=number,box(i+1)=""
w !!
}
elseif i<13,number=box(i+4) {
s box(i)=number,box(i+4)=""
w !!
}
else {
w !,"You have to enter a number either above, below, left or right of the empty space."
}
}
}
q
</pre>
=={{header|Nim}}==
<syntaxhighlight lang="nim">import random, terminal
type
Tile = uint8
Board = array[16, Tile]
type
Operation = enum
opInvalid
opUp
opDown
opLeft
opRight
opQuit
opRestart
func charToOperation(c: char): Operation =
case c
of 'w', 'W': opUp
of 'a', 'A': opLeft
of 's', 'S': opDown
of 'd', 'D': opRight
of 'q', 'Q': opQuit
of 'r', 'R': opRestart
else: opInvalid
proc getKey(): Operation =
var c = getch()
if c == '\e':
c = getch()
if c == '[':
case getch()
of 'A': opUp
of 'D': opLeft
of 'B': opDown
of 'C': opRight
else: opInvalid
else: charToOperation c
else: charToOperation c
func isSolved(board: Board): bool =
for i in 0..<board.high:
if i != board[i].int - 1:
return false
true
func findTile(b: Board, n: Tile): int =
for i in 0..b.high:
if b[i] == n:
return i
func canSwap(a, b: int): bool =
let dist = a - b
dist == 4 or dist == -4 or
(dist == 1 and a mod 4 != 0) or
(dist == -1 and b mod 4 != 0)
func pad(i: Tile): string =
if i == 0:
"│ "
elif i < 10:
"│ " & $i
else:
"│" & $i
proc draw(b: Board) =
echo "┌──┬──┬──┬──┐\n",
b[0].pad, b[1].pad, b[2].pad, b[3].pad,
"│\n├──┼──┼──┼──┤\n",
b[4].pad, b[5].pad, b[6].pad, b[7].pad,
"│\n├──┼──┼──┼──┤\n",
b[8].pad, b[9].pad, b[10].pad, b[11].pad,
"│\n├──┼──┼──┼──┤\n",
b[12].pad, b[13].pad, b[14].pad, b[15].pad,
"│\n└──┴──┴──┴──┘"
proc clearScreen ()=
for i in 1..10:
eraseLine()
cursorUp()
func calcPosMove(b: var Board; o: Operation; ): int =
var posEmpty = b.findTile 0
case o
of opUp: return posEmpty + 4
of opDown: return posEmpty - 4
of opLeft: return posEmpty + 1
of opRight: return posEmpty - 1
else: return -1
proc moveTile (b : var Board, op : Operation) : bool =
let posMove = b.calcPosMove op
let posEmpty = b.findTile 0
if posMove < 16 and posMove >= 0 and canSwap(posEmpty, posMove):
swap b[posEmpty], b[posMove]
return true
return false
proc shuffleBoard ( b: var Board, nSteps : int = 2000 ) =
var opMove = @[opUp, opLeft, opDown, opRight]
for i in 0 ..< nSteps:
let op = opMove[rand(3)]
discard b.moveTile op
proc generateBoard: Board =
for i in 0..15:
if i == 15 :
result[i] = 0
else:
result[i] = (i + 1).Tile
shuffleBoard result
when isMainModule:
randomize()
var
board = generateBoard()
empty = board.findTile 0
block gameLoop:
while not isSolved board:
# draw
draw board
echo "Press arrow keys or WASD to move, R to Restart, Q to Quit"
# handle input
while true:
let op = getKey()
case op
of opRestart:
board = generateBoard()
empty = board.findTile 0
break
of opQuit: break gameLoop
of opInvalid: continue
else:
if board.moveTile op:
empty = board.findTile 0
break
clearScreen()
draw board
echo "You win!"</syntaxhighlight>
{{out}}
<pre>┌──┬──┬──┬──┐
│12│11│15│ 2│
├──┼──┼──┼──┤
│ 6│14│ 3│ 7│
├──┼──┼──┼──┤
│ 5│ │ 9│10│
├──┼──┼──┼──┤
│ 1│ 4│ 8│13│
└──┴──┴──┴──┘
Press arrow keys or WASD to move, R to Restart, Q to Quit</pre>
=={{header|OCaml}}==
<syntaxhighlight lang="ocaml">module Puzzle =
struct
type t = int array
let make () =
[| 15; (* 0: the empty space *)
0; 1; 2; 3;
4; 5; 6; 7;
8; 9; 10; 11;
12; 13; 14; |]
let move p n =
let hole, i = p.(0), p.(n) in
p.(0) <- i;
p.(n) <- hole
let print p =
let out = Array.make 16 " " in
for i = 1 to 15 do
out.(p.(i)) <- Printf.sprintf " %2d" i
done;
for i = 0 to 15 do
if (i mod 4) = 0 then print_newline ();
print_string out.(i);
done
let shuffle p n =
for i = 1 to n do
move p (1 + Random.int 15)
done
end
let play () =
let p = Puzzle.make () in
Puzzle.shuffle p 20;
while true do
Puzzle.print p;
print_string " > ";
Puzzle.move p (read_line () |> int_of_string)
done</syntaxhighlight>
To move, input the number to slide into the blank. If you accidentally make an impossible move you can undo it by repeating the last input. A nice self-checked puzzle, the same as if you were physically moving the pieces around.
{{out}}
<pre># play ();;
8 11 7 13
3 6 15
9 10 12 4
1 5 14 2 > 6
8 11 7 13
3 6 15
9 10 12 4
1 5 14 2 > 11
8 7 13
3 11 6 15
9 10 12 4
1 5 14 2 > 8
8 7 13
3 11 6 15
9 10 12 4
1 5 14 2 > 3
3 8 7 13
11 6 15
9 10 12 4
1 5 14 2 > 11
3 8 7 13
11 6 15
9 10 12 4
1 5 14 2 > 8
3 7 13
11 8 6 15
9 10 12 4
1 5 14 2 > 3
3 7 13
11 8 6 15
9 10 12 4
1 5 14 2 >
</pre>
=={{header|Pascal}}==
This is Free Pascal(version >= 3.0.4) text mode implementation. To make a move, the user needs to enter the number of the selected tile.
<syntaxhighlight lang="pascal">
program fifteen;
{$mode objfpc}
{$modeswitch advancedrecords}
{$coperators on}
uses
SysUtils, crt;
type
TPuzzle = record
private
const
ROW_COUNT = 4;
COL_COUNT = 4;
CELL_COUNT = ROW_COUNT * COL_COUNT;
RAND_RANGE = 101;
type
TTile = 0..Pred(CELL_COUNT);
TAdjacentCell = (acLeft, acTop, acRight, acBottom);
TPossibleMoves = set of TTile;
TCellAdjacency = set of TAdjacentCell;
TBoard = array[0..Pred(CELL_COUNT)] of TTile;
class var
HBar: string;
var
FBoard: TBoard;
FZeroPos,
FMoveCount: Integer;
FZeroAdjacency: TCellAdjacency;
FPossibleMoves: TPossibleMoves;
FSolved: Boolean;
procedure DoMove(aTile: TTile);
procedure CheckPossibleMoves;
procedure PrintBoard;
procedure PrintPossibleMoves;
procedure TestSolved;
procedure GenerateBoard;
class constructor Init;
public
procedure New;
function UserMoved: Boolean;
property MoveCount: Integer read FMoveCount;
property Solved: Boolean read FSolved;
end;
procedure TPuzzle.DoMove(aTile: TTile);
var
Pos: Integer = -1;
Adj: TAdjacentCell;
begin
for Adj in FZeroAdjacency do
begin
case Adj of
acLeft: Pos := Pred(FZeroPos);
acTop: Pos := FZeroPos - COL_COUNT;
acRight: Pos := Succ(FZeroPos);
acBottom: Pos := FZeroPos + COL_COUNT;
end;
if FBoard[Pos] = aTile then
break;
end;
FBoard[FZeroPos] := aTile;
FZeroPos := Pos;
FBoard[Pos] := 0;
end;
procedure TPuzzle.CheckPossibleMoves;
var
Row, Col: Integer;
begin
Row := FZeroPos div COL_COUNT;
Col := FZeroPos mod COL_COUNT;
FPossibleMoves := [];
FZeroAdjacency := [];
if Row > 0 then
begin
FPossibleMoves += [FBoard[FZeroPos - COL_COUNT]];
FZeroAdjacency += [acTop];
end;
if Row < Pred(ROW_COUNT) then
begin
FPossibleMoves += [FBoard[FZeroPos + COL_COUNT]];
FZeroAdjacency += [acBottom];
end;
if Col > 0 then
begin
FPossibleMoves += [FBoard[Pred(FZeroPos)]];
FZeroAdjacency += [acLeft];
end;
if Col < Pred(COL_COUNT) then
begin
FPossibleMoves += [FBoard[Succ(FZeroPos)]];
FZeroAdjacency += [acRight];
end;
end;
procedure TPuzzle.PrintBoard;
const
Space = ' ';
VBar = '|';
VBar1 = '| ';
VBar2 = '| ';
VBar3 = '| ';
var
I, J, Pos, Tile: Integer;
Row: string;
begin
ClrScr;
Pos := 0;
WriteLn(HBar);
for I := 1 to ROW_COUNT do
begin
Row := '';
for J := 1 to COL_COUNT do
begin
Tile := Integer(FBoard[Pos]);
case Tile of
0: Row += VBar3;
1..9: Row += VBar2 + Tile.ToString + Space;
else
Row += VBar1 + Tile.ToString + Space;
end;
Inc(Pos);
end;
WriteLn(Row + VBar);
WriteLn(HBar);
end;
if not Solved then
PrintPossibleMoves;
end;
procedure TPuzzle.PrintPossibleMoves;
var
pm: TTile;
spm: string = '';
begin
for pm in FPossibleMoves do
spm += Integer(pm).ToString + ' ';
WriteLn('possible moves: ', spm);
end;
procedure TPuzzle.TestSolved;
function IsSolved: Boolean;
var
I: Integer;
begin
for I := 0 to CELL_COUNT - 3 do
if FBoard[I] <> Pred(FBoard[Succ(I)]) then
exit(False);
Result := True;
end;
begin
FSolved := IsSolved;
if not Solved then
CheckPossibleMoves;
end;
procedure TPuzzle.GenerateBoard;
var
I, CurrMove, SelMove: Integer;
Tile: TTile;
begin
FZeroPos := Pred(CELL_COUNT);
FBoard[FZeroPos] := 0;
for I := 0 to CELL_COUNT - 2 do
FBoard[I] := Succ(I);
for I := 1 to Random(RAND_RANGE) do
begin
CheckPossibleMoves;
SelMove := 0;
for Tile in FPossibleMoves do
Inc(SelMove);
SelMove := Random(SelMove);
CurrMove := 0;
for Tile in FPossibleMoves do
begin
if CurrMove = SelMove then
begin
DoMove(Tile);
break;
end;
Inc(CurrMove);
end;
end;
end;
class constructor TPuzzle.Init;
var
I: Integer;
begin
HBar := '';
for I := 1 to COL_COUNT do
HBar += '+----';
HBar += '+';
end;
procedure TPuzzle.New;
begin
FSolved := False;
FMoveCount := 0;
GenerateBoard;
CheckPossibleMoves;
PrintBoard;
end;
function TPuzzle.UserMoved: Boolean;
const
Sorry = 'sorry, ';
InvalidInput = ' is invalid input';
ImpossibleMove = ' is impossible move';
var
UserInput: string;
Tile: Integer = 0;
begin
ReadLn(UserInput);
case LowerCase(UserInput) of
'c', 'cancel': exit(False);
end;
Result := True;
if not Tile.TryParse(UserInput, Tile) then
begin
WriteLn(Sorry, UserInput, InvalidInput);
exit;
end;
if not (Tile in [1..Pred(CELL_COUNT)]) then
begin
WriteLn(Sorry, Tile, InvalidInput);
exit;
end;
if not (Tile in FPossibleMoves) then
begin
WriteLn(Sorry, Tile, ImpossibleMove);
PrintPossibleMoves;
exit;
end;
DoMove(Tile);
Inc(FMoveCount);
TestSolved;
PrintBoard;
end;
procedure PrintStart;
begin
ClrScr;
WriteLn('Fifteen puzzle start:');
WriteLn(' enter a tile number and press <enter> to move' );
WriteLn(' enter Cancel(C) and press <enter> to exit' );
Window(10, 4, 58, 21);
end;
procedure Terminate;
begin
ClrScr;
Window(1, 1, 80, 25);
ClrScr;
WriteLn('Fifteen puzzle exit.');
Halt;
end;
function UserWantContinue(aMoveCount: Integer): Boolean;
var
UserInput: string;
begin
WriteLn('Congratulations! Puzzle solved in ', aMoveCount, ' moves.');
WriteLn('Play again(Yes(Y)/<any button>)?');
ReadLn(UserInput);
case LowerCase(UserInput) of
'y', 'yes': exit(True);
end;
Result := False;
end;
procedure Run;
var
Puzzle: TPuzzle;
begin
Randomize;
PrintStart;
repeat
Puzzle.New;
while not Puzzle.Solved do
if not Puzzle.UserMoved then
Terminate;
if not UserWantContinue(Puzzle.MoveCount) then
Terminate;
until False;
end;
begin
Run;
end.
</syntaxhighlight>
=={{header|Perl}}==
===Tk version===
{{libheader|Tk}}
{{libheader|Perl/Tk}}
This Tk 15 puzzle implementation also shows the solvability of the current puzzle and the relative difficulty of it.
On verbosity shows how the solvability is calculated. The program has some extra feature like font size and color scheme but also the possibility to set the intial board disposition.
This program was originally posted by me at [http://www.perlmonks.org/?node_id=1192660 perlmonks]
<syntaxhighlight lang="perl">
use strict;
use warnings;
use Getopt::Long;
use List::Util 1.29 qw(shuffle pairmap first all);
use Tk;
# 5 options 1 label text
my ($verbose,@fixed,$nocolor,$charsize,$extreme,$solvability);
unless (GetOptions (
'verbose!' => \$verbose,
'tiles|positions=i{16}' => \@fixed,
'nocolor' => \$nocolor,
'charsize|size|c|s=i' => \$charsize,
'extreme|x|perl' => \$extreme,
)
) { die "invalid arguments!";}
@fixed = &check_req_pos(@fixed) if @fixed;
my $mw = Tk::MainWindow->new(-bg=>'black',-title=>'Giuoco del 15');
if ($nocolor){ $mw->optionAdd( '*Button.background', 'ivory' );}
$mw->optionAdd('*Button.font', 'Courier '.($charsize or 16).' bold' );
$mw->bind('<Control-s>', sub{#&init_board;
&shuffle_board});
my $top_frame = $mw->Frame( -borderwidth => 2, -relief => 'groove',
)->pack(-expand => 1, -fill => 'both');
$top_frame->Label( -textvariable=>\$solvability,
)->pack(-expand => 1, -fill => 'both');
my $game_frame = $mw->Frame( -background=>'saddlebrown',
-borderwidth => 10, -relief => 'groove',
)->pack(-expand => 1, -fill => 'both');
# set victory conditions in pairs of coordinates
my @vic_cond = pairmap {
[$a,$b]
} qw(0 0 0 1 0 2 0 3
1 0 1 1 1 2 1 3
2 0 2 1 2 2 2 3
3 0 3 1 3 2 3 3);
my $board = [];
my $victorious = 0;
&init_board;
if ( $extreme ){ &extreme_perl}
&shuffle_board;
MainLoop;
################################################################################
sub init_board{
# tiles from 1 to 15
for (0..14){
$$board[$_]={
btn=>$game_frame->Button(
-text => $_+1,
-relief => 'raised',
-borderwidth => 3,
-height => 2,
-width => 4,
-background=>$nocolor?'ivory':'gold1',
-activebackground => $nocolor?'ivory':'gold1',
-foreground=> $nocolor?'black':'DarkRed',
-activeforeground=>$nocolor?'black':'DarkRed'
),
name => $_+1, # x and y set by shuffle_board
};
if (($_+1) =~ /^(2|4|5|7|10|12|13|15)$/ and !$nocolor){
$$board[$_]{btn}->configure(
-background=>'DarkRed',
-activebackground => 'DarkRed',
-foreground=> 'gold1',
-activeforeground=>'gold1'
);
}
}
# empty tile
$$board[15]={
btn=>$game_frame->Button(
-relief => 'sunken',
-borderwidth => 3,
-background => 'lavender',
-height => 2,
-width => 4,
),
name => 16, # x and y set by shuffle_board
};
}
################################################################################
sub shuffle_board{
if ($victorious){
$victorious=0;
&init_board;
}
if (@fixed){
my $index = 0;
foreach my $tile(@$board[@fixed]){
my $xy = $vic_cond[$index];
($$tile{x},$$tile{y}) = @$xy;
$$tile{btn}->grid(-row=>$$xy[0], -column=> $$xy[1]);
$$tile{btn}->configure(-command =>[\&move,$$xy[0],$$xy[1]]);
$index++;
}
undef @fixed;
}
else{
my @valid = shuffle (0..15);
foreach my $tile ( @$board ){
my $xy = $vic_cond[shift @valid];
($$tile{x},$$tile{y}) = @$xy;
$$tile{btn}->grid(-row=>$$xy[0], -column=> $$xy[1]);
$$tile{btn}->configure(-command => [ \&move, $$xy[0], $$xy[1] ]);
}
}
my @appear = map {$_->{name}==16?'X':$_->{name}}
sort{$$a{x}<=>$$b{x}||$$a{y}<=>$$b{y}}@$board;
print "\n".('-' x 57)."\n".
"Appearence of the board:\n[@appear]\n".
('-' x 57)."\n".
"current\tfollowers\t less than current\n".
('-' x 57)."\n" if $verbose;
# remove the, from now on inutile, 'X' for the empty space
@appear = grep{$_ ne 'X'} @appear;
my $permutation;
foreach my $num (0..$#appear){
last if $num == $#appear;
my $perm;
$perm += grep {$_ < $appear[$num]} @appear[$num+1..$#appear];
if ($verbose){
print "[$appear[$num]]\t@appear[$num+1..$#appear]".
(" " x (37 - length "@appear[$num+1..$#appear]")).
"\t $perm ".($num == $#appear - 1 ? '=' : '+')."\n";
}
$permutation+=$perm;
}
print +(' ' x 50)."----\n" if $verbose;
if ($permutation % 2){
print "Impossible game with odd permutations!".(' ' x 13).
"$permutation\n"if $verbose;
$solvability = "Impossible game with odd permutations [$permutation]\n".
"(ctrl-s to shuffle)".
(($verbose or $extreme) ? '' :
" run with --verbose to see more info");
return;
}
# 105 is the max permutation
my $diff = $permutation == 0 ? 'SOLVED' :
$permutation < 35 ? 'EASY ' :
$permutation < 70 ? 'MEDIUM' : 'HARD ';
print "$diff game with even permutations".(' ' x 17).
"$permutation\n" if $verbose;
$solvability = "$diff game with permutation parity of [$permutation]\n".
"(ctrl-s to shuffle)";
}
################################################################################
sub move{
# original x and y
my ($ox, $oy) = @_;
my $self = first{$_->{x} == $ox and $_->{y} == $oy} @$board;
return if $$self{name}==16;
# check if one in n,s,e,o is the empty one
my $empty = first {$_->{name} == 16 and
( ($_->{x}==$ox-1 and $_->{y}==$oy) or
($_->{x}==$ox+1 and $_->{y}==$oy) or
($_->{x}==$ox and $_->{y}==$oy-1) or
($_->{x}==$ox and $_->{y}==$oy+1)
)
} @$board;
return unless $empty;
# empty x and y
my ($ex,$ey) = ($$empty{x},$$empty{y});
# reconfigure emtpy tile
$$empty{btn}->grid(-row => $ox, -column => $oy);
$$empty{x}=$ox; $$empty{y}=$oy;
# reconfigure pressed tile
$$self{btn}->grid(-row => $ex, -column => $ey);
$$self{btn}->configure(-command => [ \&move, $ex, $ey ]);
$$self{x}=$ex; $$self{y}=$ey;
# check for victory if the empty one is at the bottom rigth tile (3,3)
&check_win if $$empty{x} == 3 and $$empty{y} == 3;
}
################################################################################
sub check_win{
foreach my $pos (0..$#$board){
return unless ( $$board[$pos]->{'x'} == $vic_cond[$pos]->[0] and
$$board[$pos]->{'y'} == $vic_cond[$pos]->[1]);
}
# victory!
$victorious = 1;
my @text = ('Dis','ci','pu','lus','15th','','','at',
'P','e','r','l','M','o','n','ks*');
foreach my $tile(@$board){
$$tile{btn}->configure( -text=> shift @text,
-command=>sub{return});
$mw->update;
sleep 1;
}
}
################################################################################
sub check_req_pos{
my @wanted = @_;
# fix @wanted: seems GetOptions does not die if more elements are passed
@wanted = @wanted[0..15];
my @check = (1..16);
unless ( all {$_ == shift @check} sort {$a<=>$b} @wanted ){
die "tiles must be from 1 to 16 (empty tile)\nyou passed [@wanted]\n";
}
return map {$_-1} @wanted;
}
################################################################################
sub extreme_perl {
$verbose = 0;
$mw->optionAdd('*font', 'Courier 20 bold');
my @extreme = (
'if $0', #1
"\$_=\n()=\n\"foo\"=~/o/g", #2
"use warnings;\n\$^W ?\nint((length\n'Discipulus')/3)\n:'15'", #3
"length \$1\nif \$^X=~\n\/(?:\\W)(\\w*)\n(?:\\.exe)\$\/", #4
"use Config;\n\$Config{baserev}", #5.
"(split '',\nvec('JAPH'\n,1,8))[0]", #6
"scalar map\n{ord(\$_)=~/1/g}\nqw(p e r l)", #7
"\$_ = () =\n'J A P H'\n=~\/\\b\/g", # 8
"eval join '+',\nsplit '',\n(substr\n'12345',3,2)", #9
'printf \'%b\',2', #10
"int(((1+sqrt(5))\n/ 2)** 7 /\nsqrt(5)+0.5)-2", #11
"split '',\nunpack('V',\n01234567))\n[6,4]", # 12
'J','A','P','H' # 13..16
);
foreach (0..15){
$$board[$_]{btn}->configure(-text=> $extreme[$_],
-height => 8,
-width => 16, ) if $extreme[$_];
}
@fixed = qw(0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15);
$mw->after(5000,\&shuffle_board);#
}
</syntaxhighlight>
===console version===
This short console program just poses solvable puzzles: it achieves this shuffling a solved board n times, where n defaults to 1000 but can be passed as first argument of the program in the command line. It was originally posted by me at [http://www.perlmonks.org/?node_id=1192865 perlmonks] but here a little modification was inserted to prevent wrong numbers to make the board messy.
<syntaxhighlight lang="perl">
use strict;
use warnings;
use List::Util qw(shuffle first);
my @tbl = ([1,2,3,4],[5,6,7,8],[9,10,11,12],[13,14,15,16]);
my $e = [3,3];
for (1..$ARGV[0]||1000) {
my $new = (shuffle &ad($e))[0];
$tbl[$e->[0]][$e->[1]] = $tbl[$new->[0]][$new->[1]];
$tbl[$new->[0]]->[$new->[1]] = 16;
$e = [$new->[0],$new->[1]];
}
while(1){
print +(join ' ',map{$_==16?' ':sprintf '%02s',$_}@{$tbl[$_]}),"\n" for 0..3;
my $m = <STDIN>;
chomp $m;
die "Enter a number to move!" unless $m;
if ($m > 15){
warn "$m not in the board! Enter a tile from 1 to 15\n";
next;
}
my $tile=first{$tbl[$$_[0]]->[$$_[1]]==$m}map{[$_,0],[$_,1],[$_,2],[$_,3]}0..3;
my $new=first{$tbl[$$_[0]]->[$$_[1]]==16}&ad(grep{$tbl[$$_[0]]->[$$_[1]]==$m}
map {[$_,0],[$_,1],[$_,2],[$_,3]}0..3);
if ($new){$tbl[$$new[0]][$$new[1]]=$m;$tbl[$$tile[0]][$$tile[1]]=16;}
system ($^O eq 'MSWin32' ? 'cls' : 'clear');
}
sub ad{
my $e = shift; grep {$_->[0]<4 && $_->[1]<4 && $_->[0]>-1 && $_->[1]>-1}
[$$e[0]-1,$$e[1]],[$$e[0]+1,$$e[1]],[$$e[0],$$e[1]-1],[$$e[0],$$e[1]+1]
}
</syntaxhighlight>
=={{header|Phix}}==
=== console only ===
Kept simple. Obviously, increase the 5 random moves for more of a challenge.
<!--(phixonline)-->
<syntaxhighlight lang="phix">
constant ESC=27, UP=328, LEFT=331, RIGHT=333, DOWN=336
sequence board = tagset(15)&0, solve = board
integer pos = 16
procedure print_board()
for i=1 to length(board) do
puts(1,iff(i=pos?" ":sprintf("%3d",{board[i]})))
if mod(i,4)=0 then puts(1,"\n") end if
end for
puts(1,"\n")
end procedure
procedure move(integer d)
integer new_pos = pos+{+4,+1,-1,-4}[d]
if new_pos>=1 and new_pos<=16
and (mod(pos,4)=mod(new_pos,4) -- same col, or row:
or floor((pos-1)/4)=floor((new_pos-1)/4)) then
{board[pos],board[new_pos]} = {board[new_pos],0}
pos = new_pos
end if
end procedure
for i=1 to 5 do move(rand(4)) end for
while 1 do
print_board()
if board=solve then exit end if
integer c = find(wait_key(),{ESC,UP,LEFT,RIGHT,DOWN})-1
if c=0 then exit end if
move(c)
end while
puts(1,"solved!\n")
</syntaxhighlight>
{{out}}
<pre>
1 2 3 4
5 6 8
9 10 7 11
13 14 15 12
1 2 3 4
5 6 8
9 10 7 11
13 14 15 12
1 2 3 4
5 6 7 8
9 10 11
13 14 15 12
1 2 3 4
5 6 7 8
9 10 11
13 14 15 12
1 2 3 4
5 6 7 8
9 10 11 12
13 14 15
solved!
</pre>
=== GUI version ===
{{libheader|Phix/pGUI}}
{{libheader|Phix/online}}
You can run this online [http://phix.x10.mx/p2js/15game.htm here].
<!--<syntaxhighlight lang="phix">(phixonline)-->
<span style="color: #000080;font-style:italic;">--
-- demo\rosetta\15_puzzle_game.exw
-- ===============================
--</span>
<span style="color: #008080;">with</span> <span style="color: #008080;">javascript_semantics</span>
<span style="color: #008080;">include</span> <span style="color: #000000;">pGUI</span><span style="color: #0000FF;">.</span><span style="color: #000000;">e</span>
<span style="color: #008080;">constant</span> <span style="color: #000000;">title</span> <span style="color: #0000FF;">=</span> <span style="color: #008000;">"15 puzzle"</span><span style="color: #0000FF;">,</span>
<span style="color: #000000;">help_text</span> <span style="color: #0000FF;">=</span> <span style="color: #008000;">"""
Put the tiles back into order 1..15 and the hole last.
Rightarrow moves the tile to the left of the hole (rightwards) into it.
Leftarrow moves the tile to the right of the hole (leftwards) into it.
Uparrow moves the tile below the hole (upwards) into it.
Downarrow moves the tile above the hole (downwards) into it.
Press 'N' to start a new game.
"""</span>
<span style="color: #008080;">function</span> <span style="color: #000000;">show_help</span><span style="color: #0000FF;">()</span>
<span style="color: #7060A8;">IupMessage</span><span style="color: #0000FF;">(</span><span style="color: #000000;">title</span><span style="color: #0000FF;">,</span><span style="color: #000000;">help_text</span><span style="color: #0000FF;">,</span><span style="color: #000000;">bWrap</span><span style="color: #0000FF;">:=</span><span style="color: #004600;">false</span><span style="color: #0000FF;">)</span>
<span style="color: #008080;">return</span> <span style="color: #004600;">IUP_IGNORE</span> <span style="color: #000080;font-style:italic;">-- (don't open browser help!)</span>
<span style="color: #008080;">end</span> <span style="color: #008080;">function</span>
<span style="color: #004080;">Ihandle</span> <span style="color: #000000;">canvas</span><span style="color: #0000FF;">,</span> <span style="color: #000000;">dialog</span>
<span style="color: #004080;">cdCanvas</span> <span style="color: #000000;">cddbuffer</span><span style="color: #0000FF;">,</span> <span style="color: #000000;">cdcanvas</span>
<span style="color: #004080;">sequence</span> <span style="color: #000000;">solved</span> <span style="color: #0000FF;">=</span> <span style="color: #7060A8;">tagset</span><span style="color: #0000FF;">(</span><span style="color: #000000;">15</span><span style="color: #0000FF;">)&</span><span style="color: #000000;">0</span><span style="color: #0000FF;">,</span> <span style="color: #000000;">board</span>
<span style="color: #004080;">integer</span> <span style="color: #000000;">pos</span>
<span style="color: #008080;">procedure</span> <span style="color: #000000;">move</span><span style="color: #0000FF;">(</span><span style="color: #004080;">integer</span> <span style="color: #000000;">d</span><span style="color: #0000FF;">)</span>
<span style="color: #008080;">if</span> <span style="color: #000000;">d</span><span style="color: #0000FF;">=</span><span style="color: #000000;">5</span> <span style="color: #008080;">then</span> <span style="color: #000080;font-style:italic;">-- new game</span>
<span style="color: #000000;">board</span> <span style="color: #0000FF;">=</span> <span style="color: #7060A8;">deep_copy</span><span style="color: #0000FF;">(</span><span style="color: #000000;">solved</span><span style="color: #0000FF;">)</span>
<span style="color: #000000;">pos</span> <span style="color: #0000FF;">=</span> <span style="color: #000000;">16</span>
<span style="color: #008080;">for</span> <span style="color: #000000;">i</span><span style="color: #0000FF;">=</span><span style="color: #000000;">1</span> <span style="color: #008080;">to</span> <span style="color: #000000;">1000</span> <span style="color: #008080;">do</span> <span style="color: #000000;">move</span><span style="color: #0000FF;">(</span><span style="color: #7060A8;">rand</span><span style="color: #0000FF;">(</span><span style="color: #000000;">4</span><span style="color: #0000FF;">))</span> <span style="color: #008080;">end</span> <span style="color: #008080;">for</span>
<span style="color: #008080;">elsif</span> <span style="color: #000000;">d</span> <span style="color: #008080;">then</span>
<span style="color: #004080;">integer</span> <span style="color: #000000;">new_pos</span> <span style="color: #0000FF;">=</span> <span style="color: #000000;">pos</span><span style="color: #0000FF;">+{+</span><span style="color: #000000;">4</span><span style="color: #0000FF;">,+</span><span style="color: #000000;">1</span><span style="color: #0000FF;">,-</span><span style="color: #000000;">1</span><span style="color: #0000FF;">,-</span><span style="color: #000000;">4</span><span style="color: #0000FF;">}[</span><span style="color: #000000;">d</span><span style="color: #0000FF;">]</span>
<span style="color: #008080;">if</span> <span style="color: #000000;">new_pos</span><span style="color: #0000FF;">>=</span><span style="color: #000000;">1</span> <span style="color: #008080;">and</span> <span style="color: #000000;">new_pos</span><span style="color: #0000FF;"><=</span><span style="color: #000000;">16</span>
<span style="color: #008080;">and</span> <span style="color: #0000FF;">(</span><span style="color: #7060A8;">mod</span><span style="color: #0000FF;">(</span><span style="color: #000000;">pos</span><span style="color: #0000FF;">,</span><span style="color: #000000;">4</span><span style="color: #0000FF;">)=</span><span style="color: #7060A8;">mod</span><span style="color: #0000FF;">(</span><span style="color: #000000;">new_pos</span><span style="color: #0000FF;">,</span><span style="color: #000000;">4</span><span style="color: #0000FF;">)</span> <span style="color: #000080;font-style:italic;">-- same col, or row:</span>
<span style="color: #008080;">or</span> <span style="color: #7060A8;">floor</span><span style="color: #0000FF;">((</span><span style="color: #000000;">pos</span><span style="color: #0000FF;">-</span><span style="color: #000000;">1</span><span style="color: #0000FF;">)/</span><span style="color: #000000;">4</span><span style="color: #0000FF;">)=</span><span style="color: #7060A8;">floor</span><span style="color: #0000FF;">((</span><span style="color: #000000;">new_pos</span><span style="color: #0000FF;">-</span><span style="color: #000000;">1</span><span style="color: #0000FF;">)/</span><span style="color: #000000;">4</span><span style="color: #0000FF;">))</span> <span style="color: #008080;">then</span>
<span style="color: #000000;">board</span><span style="color: #0000FF;">[</span><span style="color: #000000;">pos</span><span style="color: #0000FF;">]</span> <span style="color: #0000FF;">=</span> <span style="color: #000000;">board</span><span style="color: #0000FF;">[</span><span style="color: #000000;">new_pos</span><span style="color: #0000FF;">]</span>
<span style="color: #000000;">board</span><span style="color: #0000FF;">[</span><span style="color: #000000;">new_pos</span><span style="color: #0000FF;">]</span> <span style="color: #0000FF;">=</span> <span style="color: #000000;">0</span>
<span style="color: #000000;">pos</span> <span style="color: #0000FF;">=</span> <span style="color: #000000;">new_pos</span>
<span style="color: #008080;">end</span> <span style="color: #008080;">if</span>
<span style="color: #008080;">end</span> <span style="color: #008080;">if</span>
<span style="color: #008080;">end</span> <span style="color: #008080;">procedure</span>
<span style="color: #000000;">move</span><span style="color: #0000FF;">(</span><span style="color: #000000;">5</span><span style="color: #0000FF;">)</span> <span style="color: #000080;font-style:italic;">-- new game</span>
<span style="color: #008080;">function</span> <span style="color: #000000;">redraw_cb</span><span style="color: #0000FF;">(</span><span style="color: #004080;">Ihandle</span> <span style="color: #000080;font-style:italic;">/*ih*/</span><span style="color: #0000FF;">)</span>
<span style="color: #004080;">integer</span> <span style="color: #0000FF;">{</span><span style="color: #000000;">dw</span><span style="color: #0000FF;">,</span><span style="color: #000000;">dh</span><span style="color: #0000FF;">}</span> <span style="color: #0000FF;">=</span> <span style="color: #7060A8;">IupGetIntInt</span><span style="color: #0000FF;">(</span><span style="color: #000000;">canvas</span><span style="color: #0000FF;">,</span> <span style="color: #008000;">"DRAWSIZE"</span><span style="color: #0000FF;">),</span>
<span style="color: #000000;">ox</span><span style="color: #0000FF;">,</span><span style="color: #000000;">oy</span><span style="color: #0000FF;">,</span> <span style="color: #000080;font-style:italic;">-- top right coords</span>
<span style="color: #000000;">os</span><span style="color: #0000FF;">,</span><span style="color: #000000;">ts</span><span style="color: #0000FF;">,</span> <span style="color: #000080;font-style:italic;">-- overall and tile size</span>
<span style="color: #000000;">ht</span> <span style="color: #000080;font-style:italic;">-- half tile, for number positioning</span>
<span style="color: #008080;">if</span> <span style="color: #000000;">dw</span><span style="color: #0000FF;">>=</span><span style="color: #000000;">dh</span> <span style="color: #008080;">then</span>
<span style="color: #000000;">ox</span> <span style="color: #0000FF;">=</span> <span style="color: #7060A8;">floor</span><span style="color: #0000FF;">((</span><span style="color: #000000;">dw</span><span style="color: #0000FF;">-</span><span style="color: #000000;">dh</span><span style="color: #0000FF;">)/</span><span style="color: #000000;">2</span><span style="color: #0000FF;">)</span>
<span style="color: #000000;">oy</span> <span style="color: #0000FF;">=</span> <span style="color: #000000;">0</span>
<span style="color: #000000;">os</span> <span style="color: #0000FF;">=</span> <span style="color: #000000;">dh</span>
<span style="color: #008080;">else</span>
<span style="color: #000000;">ox</span> <span style="color: #0000FF;">=</span> <span style="color: #000000;">0</span>
<span style="color: #000000;">oy</span> <span style="color: #0000FF;">=</span> <span style="color: #7060A8;">floor</span><span style="color: #0000FF;">((</span><span style="color: #000000;">dh</span><span style="color: #0000FF;">-</span><span style="color: #000000;">dw</span><span style="color: #0000FF;">)/</span><span style="color: #000000;">2</span><span style="color: #0000FF;">)</span>
<span style="color: #000000;">os</span> <span style="color: #0000FF;">=</span> <span style="color: #000000;">dw</span>
<span style="color: #008080;">end</span> <span style="color: #008080;">if</span>
<span style="color: #000000;">ts</span> <span style="color: #0000FF;">=</span> <span style="color: #7060A8;">floor</span><span style="color: #0000FF;">((</span><span style="color: #000000;">os</span><span style="color: #0000FF;">-</span><span style="color: #000000;">10</span><span style="color: #0000FF;">)/</span><span style="color: #000000;">4</span><span style="color: #0000FF;">-</span><span style="color: #000000;">7</span><span style="color: #0000FF;">)</span>
<span style="color: #000000;">ht</span> <span style="color: #0000FF;">=</span> <span style="color: #7060A8;">floor</span><span style="color: #0000FF;">(</span><span style="color: #000000;">ts</span><span style="color: #0000FF;">/</span><span style="color: #000000;">2</span><span style="color: #0000FF;">+</span><span style="color: #000000;">5</span><span style="color: #0000FF;">)-</span><span style="color: #000000;">10</span>
<span style="color: #7060A8;">cdCanvasActivate</span><span style="color: #0000FF;">(</span><span style="color: #000000;">cddbuffer</span><span style="color: #0000FF;">)</span>
<span style="color: #7060A8;">cdCanvasSetBackground</span><span style="color: #0000FF;">(</span><span style="color: #000000;">cddbuffer</span><span style="color: #0000FF;">,</span> <span style="color: #000000;">#FAF8EF</span><span style="color: #0000FF;">)</span>
<span style="color: #7060A8;">cdCanvasClear</span><span style="color: #0000FF;">(</span><span style="color: #000000;">cddbuffer</span><span style="color: #0000FF;">)</span>
<span style="color: #7060A8;">cdCanvasSetForeground</span><span style="color: #0000FF;">(</span><span style="color: #000000;">cddbuffer</span><span style="color: #0000FF;">,</span> <span style="color: #000000;">#BBADA0</span><span style="color: #0000FF;">)</span>
<span style="color: #7060A8;">cdCanvasRoundedBox</span><span style="color: #0000FF;">(</span><span style="color: #000000;">cddbuffer</span><span style="color: #0000FF;">,</span> <span style="color: #000000;">ox</span><span style="color: #0000FF;">+</span><span style="color: #000000;">5</span><span style="color: #0000FF;">,</span> <span style="color: #000000;">ox</span><span style="color: #0000FF;">+</span><span style="color: #000000;">os</span><span style="color: #0000FF;">-</span><span style="color: #000000;">5</span><span style="color: #0000FF;">,</span> <span style="color: #000000;">oy</span><span style="color: #0000FF;">+</span><span style="color: #000000;">5</span><span style="color: #0000FF;">,</span> <span style="color: #000000;">oy</span><span style="color: #0000FF;">+</span><span style="color: #000000;">os</span><span style="color: #0000FF;">-</span><span style="color: #000000;">5</span><span style="color: #0000FF;">,</span> <span style="color: #000000;">10</span><span style="color: #0000FF;">,</span> <span style="color: #000000;">10</span><span style="color: #0000FF;">)</span>
<span style="color: #004080;">integer</span> <span style="color: #000000;">tx</span> <span style="color: #0000FF;">=</span> <span style="color: #000000;">ox</span><span style="color: #0000FF;">+</span><span style="color: #000000;">15</span>
<span style="color: #008080;">for</span> <span style="color: #000000;">y</span><span style="color: #0000FF;">=</span><span style="color: #000000;">1</span> <span style="color: #008080;">to</span> <span style="color: #000000;">4</span> <span style="color: #008080;">do</span>
<span style="color: #004080;">integer</span> <span style="color: #000000;">ty</span> <span style="color: #0000FF;">=</span> <span style="color: #000000;">oy</span><span style="color: #0000FF;">+</span><span style="color: #000000;">15</span>
<span style="color: #008080;">for</span> <span style="color: #000000;">x</span><span style="color: #0000FF;">=</span><span style="color: #000000;">1</span> <span style="color: #008080;">to</span> <span style="color: #000000;">4</span> <span style="color: #008080;">do</span>
<span style="color: #004080;">integer</span> <span style="color: #000000;">bxy</span> <span style="color: #0000FF;">=</span> <span style="color: #000000;">board</span><span style="color: #0000FF;">[(</span><span style="color: #000000;">4</span><span style="color: #0000FF;">-</span><span style="color: #000000;">x</span><span style="color: #0000FF;">)*</span><span style="color: #000000;">4</span><span style="color: #0000FF;">+</span><span style="color: #000000;">y</span><span style="color: #0000FF;">]</span>
<span style="color: #7060A8;">cdCanvasSetForeground</span><span style="color: #0000FF;">(</span><span style="color: #000000;">cddbuffer</span><span style="color: #0000FF;">,</span> <span style="color: #000000;">#EEE4DA</span><span style="color: #0000FF;">)</span>
<span style="color: #7060A8;">cdCanvasRoundedBox</span><span style="color: #0000FF;">(</span><span style="color: #000000;">cddbuffer</span><span style="color: #0000FF;">,</span> <span style="color: #000000;">tx</span><span style="color: #0000FF;">,</span> <span style="color: #000000;">tx</span><span style="color: #0000FF;">+</span><span style="color: #000000;">ts</span><span style="color: #0000FF;">-</span><span style="color: #000000;">10</span><span style="color: #0000FF;">,</span> <span style="color: #000000;">ty</span><span style="color: #0000FF;">,</span> <span style="color: #000000;">ty</span><span style="color: #0000FF;">+</span><span style="color: #000000;">ts</span><span style="color: #0000FF;">-</span><span style="color: #000000;">10</span><span style="color: #0000FF;">,</span> <span style="color: #000000;">5</span><span style="color: #0000FF;">,</span> <span style="color: #000000;">5</span><span style="color: #0000FF;">)</span>
<span style="color: #008080;">if</span> <span style="color: #000000;">bxy</span> <span style="color: #008080;">then</span>
<span style="color: #7060A8;">cdCanvasSetForeground</span><span style="color: #0000FF;">(</span><span style="color: #000000;">cddbuffer</span><span style="color: #0000FF;">,</span> <span style="color: #000000;">#776E65</span><span style="color: #0000FF;">)</span>
<span style="color: #7060A8;">cdCanvasFont</span><span style="color: #0000FF;">(</span><span style="color: #000000;">cddbuffer</span><span style="color: #0000FF;">,</span> <span style="color: #008000;">"Calibri"</span><span style="color: #0000FF;">,</span> <span style="color: #004600;">CD_BOLD</span><span style="color: #0000FF;">,</span> <span style="color: #000000;">32</span><span style="color: #0000FF;">)</span>
<span style="color: #7060A8;">cdCanvasText</span><span style="color: #0000FF;">(</span><span style="color: #000000;">cddbuffer</span><span style="color: #0000FF;">,</span> <span style="color: #000000;">tx</span><span style="color: #0000FF;">+</span><span style="color: #000000;">ht</span><span style="color: #0000FF;">,</span> <span style="color: #000000;">ty</span><span style="color: #0000FF;">+</span><span style="color: #000000;">ht</span><span style="color: #0000FF;">,</span> <span style="color: #7060A8;">sprint</span><span style="color: #0000FF;">(</span><span style="color: #000000;">bxy</span><span style="color: #0000FF;">))</span>
<span style="color: #008080;">end</span> <span style="color: #008080;">if</span>
<span style="color: #000000;">ty</span> <span style="color: #0000FF;">+=</span> <span style="color: #000000;">ts</span><span style="color: #0000FF;">+</span><span style="color: #000000;">5</span>
<span style="color: #008080;">end</span> <span style="color: #008080;">for</span>
<span style="color: #000000;">tx</span> <span style="color: #0000FF;">+=</span> <span style="color: #000000;">ts</span><span style="color: #0000FF;">+</span><span style="color: #000000;">5</span>
<span style="color: #008080;">end</span> <span style="color: #008080;">for</span>
<span style="color: #7060A8;">cdCanvasFlush</span><span style="color: #0000FF;">(</span><span style="color: #000000;">cddbuffer</span><span style="color: #0000FF;">)</span>
<span style="color: #004080;">string</span> <span style="color: #000000;">fmt</span> <span style="color: #0000FF;">=</span> <span style="color: #008080;">iff</span><span style="color: #0000FF;">(</span><span style="color: #000000;">board</span><span style="color: #0000FF;">==</span><span style="color: #000000;">solved</span><span style="color: #0000FF;">?</span><span style="color: #008000;">"%s - solved"</span><span style="color: #0000FF;">:</span><span style="color: #008000;">"%s"</span><span style="color: #0000FF;">)</span>
<span style="color: #7060A8;">IupSetStrAttribute</span><span style="color: #0000FF;">(</span><span style="color: #000000;">dialog</span><span style="color: #0000FF;">,</span><span style="color: #008000;">"TITLE"</span><span style="color: #0000FF;">,</span><span style="color: #000000;">fmt</span><span style="color: #0000FF;">,{</span><span style="color: #000000;">title</span><span style="color: #0000FF;">})</span>
<span style="color: #008080;">return</span> <span style="color: #004600;">IUP_DEFAULT</span>
<span style="color: #008080;">end</span> <span style="color: #008080;">function</span>
<span style="color: #008080;">function</span> <span style="color: #000000;">map_cb</span><span style="color: #0000FF;">(</span><span style="color: #004080;">Ihandle</span> <span style="color: #000000;">ih</span><span style="color: #0000FF;">)</span>
<span style="color: #000000;">cdcanvas</span> <span style="color: #0000FF;">=</span> <span style="color: #7060A8;">cdCreateCanvas</span><span style="color: #0000FF;">(</span><span style="color: #004600;">CD_IUP</span><span style="color: #0000FF;">,</span> <span style="color: #000000;">ih</span><span style="color: #0000FF;">)</span>
<span style="color: #000000;">cddbuffer</span> <span style="color: #0000FF;">=</span> <span style="color: #7060A8;">cdCreateCanvas</span><span style="color: #0000FF;">(</span><span style="color: #004600;">CD_DBUFFER</span><span style="color: #0000FF;">,</span> <span style="color: #000000;">cdcanvas</span><span style="color: #0000FF;">)</span>
<span style="color: #7060A8;">cdCanvasSetTextAlignment</span><span style="color: #0000FF;">(</span><span style="color: #000000;">cddbuffer</span><span style="color: #0000FF;">,</span> <span style="color: #004600;">CD_CENTER</span><span style="color: #0000FF;">)</span>
<span style="color: #008080;">return</span> <span style="color: #004600;">IUP_DEFAULT</span>
<span style="color: #008080;">end</span> <span style="color: #008080;">function</span>
<span style="color: #008080;">function</span> <span style="color: #000000;">key_cb</span><span style="color: #0000FF;">(</span><span style="color: #004080;">Ihandle</span> <span style="color: #000080;font-style:italic;">/*ih*/</span><span style="color: #0000FF;">,</span> <span style="color: #004080;">atom</span> <span style="color: #000000;">c</span><span style="color: #0000FF;">)</span>
<span style="color: #008080;">if</span> <span style="color: #000000;">c</span><span style="color: #0000FF;">=</span><span style="color: #004600;">K_ESC</span> <span style="color: #008080;">then</span> <span style="color: #008080;">return</span> <span style="color: #004600;">IUP_CLOSE</span> <span style="color: #008080;">end</span> <span style="color: #008080;">if</span> <span style="color: #000080;font-style:italic;">-- (standard practice for me)</span>
<span style="color: #008080;">if</span> <span style="color: #000000;">c</span><span style="color: #0000FF;">=</span><span style="color: #004600;">K_F5</span> <span style="color: #008080;">then</span> <span style="color: #008080;">return</span> <span style="color: #004600;">IUP_DEFAULT</span> <span style="color: #008080;">end</span> <span style="color: #008080;">if</span> <span style="color: #000080;font-style:italic;">-- (let browser reload work)</span>
<span style="color: #008080;">if</span> <span style="color: #000000;">c</span><span style="color: #0000FF;">=</span><span style="color: #004600;">K_F1</span> <span style="color: #008080;">then</span> <span style="color: #008080;">return</span> <span style="color: #000000;">show_help</span><span style="color: #0000FF;">()</span> <span style="color: #008080;">end</span> <span style="color: #008080;">if</span>
<span style="color: #000000;">move</span><span style="color: #0000FF;">(</span><span style="color: #7060A8;">find</span><span style="color: #0000FF;">(</span><span style="color: #7060A8;">upper</span><span style="color: #0000FF;">(</span><span style="color: #000000;">c</span><span style="color: #0000FF;">),{</span><span style="color: #004600;">K_UP</span><span style="color: #0000FF;">,</span><span style="color: #004600;">K_LEFT</span><span style="color: #0000FF;">,</span><span style="color: #004600;">K_RIGHT</span><span style="color: #0000FF;">,</span><span style="color: #004600;">K_DOWN</span><span style="color: #0000FF;">,</span><span style="color: #008000;">'N'</span><span style="color: #0000FF;">}))</span>
<span style="color: #7060A8;">IupUpdate</span><span style="color: #0000FF;">(</span><span style="color: #000000;">canvas</span><span style="color: #0000FF;">)</span>
<span style="color: #008080;">return</span> <span style="color: #004600;">IUP_IGNORE</span>
<span style="color: #008080;">end</span> <span style="color: #008080;">function</span>
<span style="color: #7060A8;">IupOpen</span><span style="color: #0000FF;">()</span>
<span style="color: #000000;">canvas</span> <span style="color: #0000FF;">=</span> <span style="color: #7060A8;">IupCanvas</span><span style="color: #0000FF;">(</span><span style="color: #008000;">"RASTERSIZE=520x540"</span><span style="color: #0000FF;">)</span>
<span style="color: #7060A8;">IupSetCallbacks</span><span style="color: #0000FF;">(</span><span style="color: #000000;">canvas</span><span style="color: #0000FF;">,</span> <span style="color: #0000FF;">{</span><span style="color: #008000;">"MAP_CB"</span><span style="color: #0000FF;">,</span> <span style="color: #7060A8;">Icallback</span><span style="color: #0000FF;">(</span><span style="color: #008000;">"map_cb"</span><span style="color: #0000FF;">),</span>
<span style="color: #008000;">"ACTION"</span><span style="color: #0000FF;">,</span> <span style="color: #7060A8;">Icallback</span><span style="color: #0000FF;">(</span><span style="color: #008000;">"redraw_cb"</span><span style="color: #0000FF;">)})</span>
<span style="color: #000000;">dialog</span> <span style="color: #0000FF;">=</span> <span style="color: #7060A8;">IupDialog</span><span style="color: #0000FF;">(</span><span style="color: #000000;">canvas</span><span style="color: #0000FF;">,</span><span style="color: #008000;">`TITLE="%s",MINSIZE=440x450`</span><span style="color: #0000FF;">,{</span><span style="color: #000000;">title</span><span style="color: #0000FF;">})</span>
<span style="color: #7060A8;">IupSetCallback</span><span style="color: #0000FF;">(</span><span style="color: #000000;">dialog</span><span style="color: #0000FF;">,</span> <span style="color: #008000;">"KEY_CB"</span><span style="color: #0000FF;">,</span> <span style="color: #7060A8;">Icallback</span><span style="color: #0000FF;">(</span><span style="color: #008000;">"key_cb"</span><span style="color: #0000FF;">));</span>
<span style="color: #7060A8;">IupShow</span><span style="color: #0000FF;">(</span><span style="color: #000000;">dialog</span><span style="color: #0000FF;">)</span>
<span style="color: #7060A8;">IupSetAttribute</span><span style="color: #0000FF;">(</span><span style="color: #000000;">canvas</span><span style="color: #0000FF;">,</span> <span style="color: #008000;">"RASTERSIZE"</span><span style="color: #0000FF;">,</span> <span style="color: #004600;">NULL</span><span style="color: #0000FF;">)</span>
<span style="color: #7060A8;">IupSetAttributeHandle</span><span style="color: #0000FF;">(</span><span style="color: #004600;">NULL</span><span style="color: #0000FF;">,</span><span style="color: #008000;">"PARENTDIALOG"</span><span style="color: #0000FF;">,</span><span style="color: #000000;">dialog</span><span style="color: #0000FF;">)</span>
<span style="color: #008080;">if</span> <span style="color: #7060A8;">platform</span><span style="color: #0000FF;">()!=</span><span style="color: #004600;">JS</span> <span style="color: #008080;">then</span>
<span style="color: #7060A8;">IupMainLoop</span><span style="color: #0000FF;">()</span>
<span style="color: #7060A8;">IupClose</span><span style="color: #0000FF;">()</span>
<span style="color: #008080;">end</span> <span style="color: #008080;">if</span>
<!--</syntaxhighlight>-->
=={{header|PHP}}==
OOP and MVC design pattern has been used to facilitate any improvements, e.g. tiles with graphics instead of just numbers.
<syntaxhighlight lang="php"><?php
// Puzzle 15 Game - Rosseta Code - PHP 7 as the server-side script language.
// This program DOES NOT use cookies.
session_start([
"use_only_cookies" => 0,
"use_cookies" => 0,
"use_trans_sid" => 1,
]);
class Location
{
protected $column, $row;
function __construct($column, $row){
$this->column = $column;
$this->row = $row;
}
function create_neighbor($direction){
$dx = 0; $dy = 0;
switch ($direction){
case 0: case 'left': $dx = -1; break;
case 1: case 'right': $dx = +1; break;
case 2: case 'up': $dy = -1; break;
case 3: case 'down': $dy = +1; break;
}
return new Location($this->column + $dx, $this->row + $dy);
}
function equals($that){
return $this->column == $that->column && $this->row == $that->row;
}
function is_inside_rectangle($left, $top, $right, $bottom){
return $left <= $this->column && $this->column <= $right
&& $top <= $this->row && $this->row <= $bottom;
}
function is_nearest_neighbor($that){
$s = abs($this->column - $that->column) + abs($this->row - $that->row);
return $s == 1;
}
}
class Tile
{
protected $index;
protected $content;
protected $target_location;
protected $current_location;
function __construct($index, $content, $row, $column){
$this->index = $index;
$this->content = $content;
$this->target_location = new Location($row, $column);
$this->current_location = $this->target_location;
}
function get_content(){
return $this->content;
}
function get_index(){
return $this->index;
}
function get_location(){
return $this->current_location;
}
function is_completed(){
return $this->current_location->equals($this->target_location);
}
function is_empty(){
return $this->content == NULL;
}
function is_nearest_neighbor($that){
$a = $this->current_location;
$b = $that->current_location;
return $a->is_nearest_neighbor($b);
}
function swap_locations($that){
$a = $this->current_location;
$b = $that->current_location;
$this->current_location = $b;
$that->current_location = $a;
}
}
class Model
{
protected $N;
protected $M;
protected $tiles;
function __construct($N, $M){
$this->N = $N;
$this->M = $M;
$this->tiles[0] = new Tile(0, NULL, $N, $M);
for ($k = 1; $k < $N * $M; $k++ ){
$i = 1 + intdiv($k - 1, $M);
$j = 1 + ($k - 1) % $M;
$this->tiles[$k] = new Tile($k, (string)$k, $i, $j);
}
$number_of_shuffles = 1000;
$i = 0;
while ($i < $number_of_shuffles)
if ($this->move_in_direction(random_int(0, 3)))
$i++;
}
function get_N(){
return $this->N;
}
function get_M(){
return $this->M;
}
function get_tile_by_index($index){
return $this->tiles[$index];
}
function get_tile_at_location($location){
foreach($this->tiles as $tile)
if ($location->equals($tile->get_location()))
return $tile;
return NULL;
}
function is_completed(){
foreach($this->tiles as $tile)
if (!$tile->is_completed())
return FALSE;
return TRUE;
}
function move($tile){
if ($tile != NULL)
foreach($this->tiles as $target){
if ($target->is_empty() && $target->is_nearest_neighbor($tile)){
$tile->swap_locations($target);
break;
}
}
}
function move_in_direction($direction){
foreach($this->tiles as $tile)
if ($tile->is_empty())
break;
$location = $tile->get_location()->create_neighbor($direction);
if ($location->is_inside_rectangle(0, 0, $this->M, $this->N)){
$tile = $this->get_tile_at_location($location);
$this->move($tile);
return TRUE;
}
return FALSE;
}
}
class View
{
protected $model;
function __construct($model){
$this->model = $model;
}
function show(){
$N = $this->model->get_N();
$M = $this->model->get_M();
echo "<form>";
for ($i = 1; $i <= $N; $i++){
for ($j = 1; $j <= $M; $j++){
$tile = $this->model->get_tile_at_location(new Location($i, $j));
$content = $tile->get_content();
if ($content != NULL)
echo "<span class='puzzle'>"
. "<input type='submit' class='puzzle' name='index'"
. "value='$content'>"
. "</span>";
else
echo "<span class='puzzle'></span>";
}
echo "<br>";
}
echo "</form>";
if ($this->model->is_completed()){
echo "<p class='end-game'>";
echo "You win!";
echo "</p>";
}
}
}
class Controller
{
protected $model;
protected $view;
function __construct($model, $view){
$this->model = $model;
$this->view = $view;
}
function run(){
if (isset($_GET['index'])){
$index = $_GET['index'];
$this->model->move($this->model->get_tile_by_index($index));
}
$this->view->show();
}
}
?>
<!DOCTYPE html>
<html lang="en"><meta charset="UTF-8">
<head>
<title>15 puzzle game</title>
<style>
.puzzle{width: 4ch; display: inline-block; margin: 0; padding: 0.25ch;}
span.puzzle{padding: 0.1ch;}
.end-game{font-size: 400%; color: red;}
</style>
</head>
<body>
<p><?php
if (!isset($_SESSION['model'])){
$width = 4; $height = 4;
$model = new Model($width, $height);
}
else
$model = unserialize($_SESSION['model']);
$view = new View($model);
$controller = new Controller($model, $view);
$controller->run();
$_SESSION['model'] = serialize($model);
?></p>
</body>
</html></syntaxhighlight>
=={{header|Picat}}==
<syntaxhighlight lang="picat">
import util.
main =>
Board = {{1,2,3,4},
{5,6,7,8},
{9,10,11,12},
{13,14,15,0}},
Goal = copy_term(Board),
shuffle(Board),
play(Board,Goal).
shuffle(Board) =>
foreach (_ in 1..1000)
R1 = random() mod 4 + 1,
C1 = random() mod 4 + 1,
R2 = random() mod 4 + 1,
C2 = random() mod 4 + 1,
T := Board[R1,C1],
Board[R1,C1] := Board[R2,C2],
Board[R2,C2] := T
end.
play(Board,Goal) =>
while (Board != Goal)
print_board(Board),
possible_moves(Board,R0,C0,Moves),
printf("Possible moves are: %w, 0 to exit. Your move? => ", Moves),
S = read_line().strip(),
if S == "0" || S == "" then
halt
else
move_hole(Board,R0,C0,to_int(S))
end
end,
print_board(Board),
println("Puzzle solved.").
print_board(Board) =>
N = len(Board),
print("+----+----+----+----+\n"),
foreach (R in 1..N)
print("|"),
foreach (C in 1..N)
printf("%4d|", Board[R,C])
end,
nl
end,
println("+----+----+----+----+").
possible_moves(Board,R0,C0,Moves) =>
N = len(Board),
between(1,N,R0),
between(1,N,C0),
Board[R0,C0] == 0, !,
NeibsOfHole = [(R1,C1) : (R1,C1) in [(R0-1,C0), (R0+1,C0), (R0,C0-1), (R0,C0+1)], R1 >= 1, R1 =< N, C1 >= 1, C1 =< N],
Moves = sort([Board[R,C] : (R,C) in NeibsOfHole]).
move_hole(Board,R0,C0,S) =>
N = len(Board),
between(1,N,R),
between(1,N,C),
Board[R,C] == S, !,
Board[R0,C0] := S,
Board[R,C] := 0.
</syntaxhighlight>
=={{header|Powershell}}==
Had a go at this in PowerShell.
The board locks when you complete the puzzle.
Board is always scrambled from a solved board so it's always solvable.
Written in ISE with ISESteroids. I'm sure the code could be improved on.
<syntaxhighlight lang="powershell">
#15 Puzzle Game
$Script:Neighbours = @{
"1" = @("2","5")
"2" = @("1","3","6")
"3" = @("2","4","7")
"4" = @("3","8")
"5" = @("1","6","9")
"6" = @("2","5","7","10")
"7" = @("3","6","8","11")
"8" = @("4","7","12")
"9" = @("5","10","13")
"10" = @("6","9","11","14")
"11" = @("7","10","12","15")
"12" = @("8","11","0")
"13" = @("9","14")
"14" = @("10","13","15")
"15" = @("11","14","0")
"0" = @("12","15")
}
$script:blank = ''
#region XAML window definition
$xaml = @'
<Window
xmlns="http://schemas.microsoft.com/winfx/2006/xaml/presentation"
xmlns:x="http://schemas.microsoft.com/winfx/2006/xaml"
xmlns:d="http://schemas.microsoft.com/expression/blend/2008" xmlns:mc="http://schemas.openxmlformats.org/markup-compatibility/2006" mc:Ignorable="d"
MinWidth="200"
Width ="333.333"
Title="15 Game"
Topmost="True" Height="398.001" VerticalAlignment="Center" HorizontalAlignment="Center">
<Grid HorizontalAlignment="Center" Height="285" Margin="0" VerticalAlignment="Center" Width="300">
<Grid.ColumnDefinitions>
<ColumnDefinition/>
<ColumnDefinition/>
<ColumnDefinition/>
<ColumnDefinition/>
</Grid.ColumnDefinitions>
<Grid.RowDefinitions>
<RowDefinition/>
<RowDefinition/>
<RowDefinition/>
<RowDefinition/>
</Grid.RowDefinitions>
<Button x:Name="B_1" Content="01" HorizontalAlignment="Left" VerticalAlignment="Top" Width="75" Height="72" FontSize="24"/>
<Button x:Name="B_2" Content="02" HorizontalAlignment="Left" VerticalAlignment="Top" Width="75" Height="72" FontSize="24" Grid.Column="1"/>
<Button x:Name="B_3" Content="03" HorizontalAlignment="Left" VerticalAlignment="Top" Width="75" Height="72" FontSize="24" Grid.Column="2"/>
<Button x:Name="B_4" Content="04" HorizontalAlignment="Left" VerticalAlignment="Top" Width="75" Height="72" FontSize="24" Grid.Column="3"/>
<Button x:Name="B_5" Content="05" HorizontalAlignment="Left" VerticalAlignment="Top" Width="75" Height="72" FontSize="24" Grid.Row="1"/>
<Button x:Name="B_6" Content="06" HorizontalAlignment="Left" VerticalAlignment="Top" Width="75" Height="72" FontSize="24" Grid.Column="1" Grid.Row="1"/>
<Button x:Name="B_7" Content="07" HorizontalAlignment="Left" VerticalAlignment="Top" Width="75" Height="72" FontSize="24" Grid.Column="2" Grid.Row="1"/>
<Button x:Name="B_8" Content="08" HorizontalAlignment="Left" VerticalAlignment="Top" Width="75" Height="72" FontSize="24" Grid.Column="3" Grid.Row="1"/>
<Button x:Name="B_9" Content="09" HorizontalAlignment="Left" VerticalAlignment="Top" Width="75" Height="72" FontSize="24" Margin="0,71,0,0" Grid.Row="1" Grid.RowSpan="2"/>
<Button x:Name="B_10" Content="10" HorizontalAlignment="Left" VerticalAlignment="Top" Width="75" Height="72" FontSize="24" Grid.Column="1" Grid.Row="1" Margin="0,71,0,0" Grid.RowSpan="2"/>
<Button x:Name="B_11" Content="11" HorizontalAlignment="Left" VerticalAlignment="Top" Width="75" Height="72" FontSize="24" Grid.Column="2" Grid.Row="1" Margin="0,71,0,0" Grid.RowSpan="2"/>
<Button x:Name="B_12" Content="12" HorizontalAlignment="Left" VerticalAlignment="Top" Width="75" Height="72" FontSize="24" Grid.Column="3" Grid.Row="1" Margin="0,71,0,0" Grid.RowSpan="2"/>
<Button x:Name="B_13" Content="13" HorizontalAlignment="Left" VerticalAlignment="Top" Width="75" Height="72" FontSize="24" Margin="0,71,0,0" Grid.Row="2" Grid.RowSpan="2"/>
<Button x:Name="B_14" Content="14" HorizontalAlignment="Left" VerticalAlignment="Top" Width="75" Height="72" FontSize="24" Grid.Column="1" Grid.Row="2" Margin="0,71,0,0" Grid.RowSpan="2"/>
<Button x:Name="B_15" Content="15" HorizontalAlignment="Center" VerticalAlignment="Center" Width="75" Height="72" FontSize="24" Grid.Column="2" Grid.Row="2" Margin="0,71,0,0" Grid.RowSpan="2"/>
<Button x:Name="B_0" Content="00" HorizontalAlignment="Left" VerticalAlignment="Top" Width="75" Height="72" FontSize="24" Grid.Column="3" Grid.Row="2" Margin="0,71,0,0" Grid.RowSpan="2"/>
<Button x:Name="B_Jumble" Grid.ColumnSpan="2" Content="Jumble Tiles" Grid.Column="1" HorizontalAlignment="Left" Height="23" Margin="0,81,0,-33" Grid.Row="3" VerticalAlignment="Top" Width="150"/>
</Grid>
</Window>
'@
#endregion
#region Code Behind
function Convert-XAMLtoWindow
{
param
(
[Parameter(Mandatory=$true)]
[string]
$XAML
)
Add-Type -AssemblyName PresentationFramework
$reader = [XML.XMLReader]::Create([IO.StringReader]$XAML)
$result = [Windows.Markup.XAMLReader]::Load($reader)
$reader.Close()
$reader = [XML.XMLReader]::Create([IO.StringReader]$XAML)
while ($reader.Read())
{
$name=$reader.GetAttribute('Name')
if (!$name) { $name=$reader.GetAttribute('x:Name') }
if($name)
{$result | Add-Member NoteProperty -Name $name -Value $result.FindName($name) -Force}
}
$reader.Close()
$result
}
function Show-WPFWindow
{
param
(
[Parameter(Mandatory=$true)]
[Windows.Window]
$Window
)
$result = $null
$null = $window.Dispatcher.InvokeAsync{
$result = $window.ShowDialog()
Set-Variable -Name result -Value $result -Scope 1
}.Wait()
$result
}
#endregion Code Behind
#region Convert XAML to Window
$window = Convert-XAMLtoWindow -XAML $xaml
#endregion
#region Define Event Handlers
function Test-Victory{
#Evaluate if all the labels are in the correct position
$victory = $true
foreach($num in 1..15){
if([int]$window."b_$num".Content -ne $num){$victory = $false;break}
}
return($victory)
}
function Test-Move($Number){
#Number is a string of the pressed button number.
if($Script:Neighbours[$Number] -contains $script:blank){
return($true)
} else {
return($false)
}
}
Function Move-Tile($Number,$Bypass){
if((!(Test-Victory)) -or $Bypass){
if(Test-Move $Number){
#Set the new window label
$window."B_$script:blank".content = $window."B_$Number".content
$window."B_$script:blank".background = $window."B_$Number".background
$window."B_$Number".background = "#FFDDDDDD"
#Set the new blank window label
$window."B_$Number".content = ''
#Enable the old blank tile
$window."B_$script:blank".isenabled = $true
#disable the new blank tile
$window."B_$Number".isenabled = $false
#set the new blank
$script:blank = $Number
}
}
}
function Move-TileRandom{
$lastmove = "1"
for($i=0;$i -lt 500;$i++){
$move = $Script:Neighbours[$script:blank] | Where-Object {$_ -ne $lastmove} | Get-Random
$lastmove = $move
Move-Tile $move $true
}
}
function Set-TileColour($Tile){
#I was curious about setting tiles to a checkerboard pattern at this stage. It's probably far better to just define it in the xaml
#Ignore the blank tile
if($Tile -ne 0){
#check if the row of the tile is odd or even
if((([math]::floor(($Tile - 1)/4)) % 2 -eq 0)){
#check if the tile is odd or even
if($Tile % 2 -eq 0){
$window."B_$Tile".Background = "#FFFF7878"
} else {
$window."B_$Tile".Background = "#FF9696FF"
}
}else{
if($Tile % 2 -eq 0){
$window."B_$Tile".Background = "#FF9696FF"
} else {
$window."B_$Tile".Background = "#FFFF7878"
}
}
} else {
$window.B_0.Background = "#FFDDDDDD"
}
}
$window.B_1.add_Click{
$n = "1"
move-tile $n
}
$window.B_2.add_Click{
$n = "2"
move-tile $n
}
$window.B_3.add_Click{
$n = "3"
move-tile $n
}
$window.B_4.add_Click{
$n = "4"
move-tile $n
}
$window.B_5.add_Click{
$n = "5"
move-tile $n
}
$window.B_6.add_Click{
$n = "6"
move-tile $n
}
$window.B_7.add_Click{
$n = "7"
move-tile $n
}
$window.B_8.add_Click{
$n = "8"
move-tile $n
}
$window.B_9.add_Click{
$n = "9"
move-tile $n
}
$window.B_10.add_Click{
$n = "10"
move-tile $n
}
$window.B_11.add_Click{
$n = "11"
move-tile $n
}
$window.B_12.add_Click{
$n = "12"
move-tile $n
}
$window.B_13.add_Click{
$n = "13"
move-tile $n
}
$window.B_14.add_Click{
$n = "14"
move-tile $n
}
$window.B_15.add_Click{
$n = "15"
move-tile $n
}
$window.B_0.add_Click{
$n = "0"
move-tile $n
}
$window.B_Jumble.add_Click{
Move-TileRandom
}
#endregion Event Handlers
(([math]::floor(("9" - 1)/4)) % 2 -eq 0)
#region Manipulate Window Content
#initial processing of tiles
$array = 0..15 | ForEach-Object {"{0:00}" -f $_}
0..15 | ForEach-Object {if($array[$_] -ne '00'){$window."B_$_".content = $array[$_]} else {$window."B_$_".content = '';$script:blank = "$_";$window."B_$_".isenabled = $false};Set-TileColour $_}
#Shove them around a bit
Move-TileRandom
#endregion
# Show Window
$result = Show-WPFWindow -Window $window
</syntaxhighlight>
=={{header|Processing}}==
<syntaxhighlight lang="java">
int number_of_grid_cells = 16; // Set the number of cells of the board here 9, 16, 25 etc
color piece_color = color(255, 175, 0);
color background_color = color(235, 231, 178);
color piece_shadow_dark = color(206, 141, 0);
color piece_shadow_light = color(255, 214, 126);
int z, t, p, piece_number, row_length, piece_side_length;
PuzzlePiece[] piece = new PuzzlePiece[number_of_grid_cells]; // Number of puzzle pieces objects array
void setup() {
size(400, 400); // Window size width and height must be egual
background(200, 50, 0);
row_length = int(sqrt(number_of_grid_cells));
piece_side_length = width/row_length;
textSize(piece_side_length/2.7);
textAlign(CENTER);
PVector[] xy_values = new PVector[number_of_grid_cells]; // Setting the x and y values for each cell on grid
for (int i = 0; i < number_of_grid_cells; i += row_length) { // Values are the top left pixel of the cell
for (int j = 0; j < row_length; j++) {
xy_values[z] = new PVector();
xy_values[z].x = j*piece_side_length;
xy_values[z].y = t*piece_side_length;
z++;
}
t++;
}
int[] place = new int[number_of_grid_cells]; // This array is to help placing the pieces randomly and store values in piece objects array
for (int i = 0; i < number_of_grid_cells; i++) place[i] = 0;
piece_number = 0;
while (piece_number < number_of_grid_cells) { // Placing pieces randomly in grid
p = int(random(0, number_of_grid_cells));
if (place[p] == 0) { // Once placed will be set to 1 to avoid designing again at this location
piece[piece_number] = new PuzzlePiece(piece_number, xy_values[p].x, xy_values[p].y); // Creating the piece objects array
place[p] = 1;
piece[piece_number].design(); // Design newly create piece object
piece_number++;
}
}
}
void draw() {
for (int i = 0; i < number_of_grid_cells; i++) { // Search all piece object indexes and verify which one is mouse pressed in this loop
if (mousePressed == true && mouseX >= piece[i].xPosition() && mouseX <= piece[i].xPosition()+piece_side_length && mouseY >= piece[i].yPosition() && mouseY <= piece[i].yPosition()+piece_side_length && piece[i].pieceNumber() != 15) {
if (pieceMove(piece[number_of_grid_cells-1].xPosition(), piece[number_of_grid_cells-1].yPosition(), piece[i].xPosition(), piece[i].yPosition())) {
float temp_x = piece[number_of_grid_cells-1].xPosition(); // Remember x and y value of final piece index (white piece)
float temp_y = piece[number_of_grid_cells-1].yPosition();
piece[number_of_grid_cells-1].storePos(piece[i].xPosition(), piece[i].yPosition()); // Store clicked x and y value in final index of piece array
piece[i].storePos(temp_x, temp_y); // Store temp x and y value (the last/previous final index values) in current clicked piece index
piece[number_of_grid_cells-1].design(); // draw the final index piece index (only final piece index is painted white)
piece[i].design(); // Draw a numbered piece of current index
}
}
}
}
boolean pieceMove(float final_index_piece_x, float final_index_piece_y, float current_index_x, float current_index_y) {
// If both x values from clicked and white piece have same value meaning in same horizontal column
// AND current clicked y value is equal to white piece y value - piece side lenght OR current clicked y value + piece side lenght is egual to white piece y
if (current_index_x == final_index_piece_x && (current_index_y == final_index_piece_y-piece_side_length || (current_index_y == final_index_piece_y+piece_side_length))) return true;
// If both y values from clicked and white piece have same value meaning in same vertical column
// AND current clicked x value is equal to white piece x value - piece side lenght OR current clicked x value + piece side lenght is egual to white piece x
else if (current_index_y == final_index_piece_y && (current_index_x == final_index_piece_x-piece_side_length || (current_index_x == final_index_piece_x+piece_side_length))) return true;
else return false;
}
class PuzzlePiece {
int piece_number;
float x_pos, y_pos;
PuzzlePiece(int _piece_nr, float _xp, float _yp) {
piece_number = _piece_nr;
x_pos = _xp;
y_pos = _yp;
}
void storePos(float _xp, float _yp) {
x_pos = _xp;
y_pos = _yp;
}
int pieceNumber() {
return piece_number;
}
float xPosition() {
return x_pos;
}
float yPosition() {
return y_pos;
}
void design() {
noStroke();
fill(piece_color);
if (piece_number == number_of_grid_cells-1) fill(background_color);
rect(x_pos+1, y_pos+1, piece_side_length-1, piece_side_length-1);
if (piece_number != number_of_grid_cells-1) {
fill(0); // Black text shadow
text(piece_number+1, x_pos+piece_side_length/2+1, y_pos+piece_side_length/2+textAscent()/2);
fill(255);
text(piece_number+1, x_pos+piece_side_length/2, y_pos+piece_side_length/2+textAscent()/2);
stroke(piece_shadow_dark);
line(x_pos+piece_side_length-1, y_pos+1, x_pos+piece_side_length-1, y_pos+piece_side_length-1); // Right side shadow
line(x_pos+2, y_pos+piece_side_length, x_pos+piece_side_length-1, y_pos+piece_side_length); // Bottom side shadow
stroke(piece_shadow_light);
line(x_pos+2, y_pos-1, x_pos+2, y_pos+piece_side_length); // Left bright
line(x_pos+2, y_pos+1, x_pos+piece_side_length-1, y_pos+1); // Upper bright
}
}
}</syntaxhighlight>
'''It can be played on line''' :<BR> [https://www.openprocessing.org/sketch/863055/ here.]
==={{header|Processing Python mode}}===
{{trans|Processing}}
<syntaxhighlight lang="python"># Set the number of cells of the board here 9, 16, 25 etc
num_grid_cells = 16
piece_color = color(255, 175, 0)
background_color = color(235, 231, 178)
piece_shadow_dark = color(206, 141, 0)
piece_shadow_light = color(255, 214, 126)
def setup():
global piece, piece_number, row_length, piece_side_length
size(400, 400) # Window size width and height must be egual
background(200, 50, 0)
row_length = int(sqrt(num_grid_cells))
piece_side_length = width / row_length
textSize(piece_side_length / 2.7)
textAlign(CENTER)
# Setting the x and y values for each cell on grid
xy_val = []
t = 0
for i in range(0, num_grid_cells, row_length):
for j in range(row_length):
xy_val.append((j * piece_side_length,
t * piece_side_length))
t += 1
piece = [] # Puzzle piece objects
placed = [False] * num_grid_cells # to help placing the pieces randomly
piece_number = 0
# Placing pieces randomly in grid
while (piece_number < num_grid_cells):
p = int(random(0, num_grid_cells))
# Once placed will be set to True to avoid adding again at this location
if not placed[p]:
# Creating the piece objects list
piece.append(PuzzlePiece(piece_number, xy_val[p][0], xy_val[p][1]))
placed[p] = True
piece[piece_number].design() # Draw newly create piece object
piece_number += 1
def draw():
# Search all piece object indexes and verify which one is mouse pressed
for i in range(num_grid_cells):
if (mousePressed and
piece[i].x <= mouseX <= piece[i].x + piece_side_length and
piece[i].y <= mouseY <= piece[i].y + piece_side_length and
piece[i].piece_number != 15):
if (pieceMove(piece[num_grid_cells - 1].x, piece[num_grid_cells - 1].y, piece[i].x, piece[i].y)):
# Remember x and y value of final piece index (white piece)
temp_x = int(piece[num_grid_cells - 1].x)
temp_y = int(piece[num_grid_cells - 1].y)
# Store clicked x and y value in final index of piece list
piece[num_grid_cells - 1].set_pos(piece[i].x, piece[i].y)
# Store temp x and y value (the last/previous final index
# values) in current clicked piece
piece[i].set_pos(temp_x, temp_y)
# draw the final index piece index (only final piece index is
# painted white)
piece[num_grid_cells - 1].design()
piece[i].design() # Draw a numbered piece of current index
def pieceMove(final_index_piece_x, final_index_piece_y, current_index_x, current_index_y):
# If both x's from clicked and white piece have same value meaning in same horizontal column
# AND current clicked y value is equal to white piece y value - piece side lenght OR
# current clicked y value + piece side lenght is egual to white piece y
if (current_index_x == final_index_piece_x and (current_index_y == final_index_piece_y - piece_side_length or
(current_index_y == final_index_piece_y + piece_side_length))):
return True
# If both y's from clicked and white piece have same value meaning in same vertical column AND current clicked x value
# is equal to white piece x value - piece side lenght OR current clicked x value + piece side lenght is
# egual to white piece x
elif (current_index_y == final_index_piece_y and (current_index_x == final_index_piece_x - piece_side_length or
(current_index_x == final_index_piece_x + piece_side_length))):
return True
else:
return False
class PuzzlePiece:
def __init__(self, pn, xp, yp):
self.piece_number = pn
self.x = xp
self.y = yp
def set_pos(self, xp, yp):
self.x = xp
self.y = yp
def design(self):
noStroke()
fill(piece_color)
if (self.piece_number == num_grid_cells - 1):
fill(background_color)
rect(self.x + 1, self.y + 1,
piece_side_length - 1, piece_side_length - 1)
if (self.piece_number != num_grid_cells - 1):
fill(0) # Black text shadow
text(self.piece_number + 1, self.x + piece_side_length / 2 + 2,
self.y + piece_side_length / 2 + textAscent() / 2)
fill(255)
text(self.piece_number + 1, self.x + piece_side_length / 2,
self.y + piece_side_length / 2 + textAscent() / 2)
stroke(piece_shadow_dark)
line(self.x + piece_side_length - 1, self.y + 1, self.x +
piece_side_length - 1, self.y + piece_side_length - 1) # Right side shadow
line(self.x + 2, self.y + piece_side_length, self.x +
piece_side_length - 1, self.y + piece_side_length) # Bottom side shadow
stroke(piece_shadow_light)
# Left bright
line(self.x + 2, self.y - 1, self.x + 2,
self.y + piece_side_length)
# Upper bright
line(self.x + 2, self.y + 1, self.x +
piece_side_length - 1, self.y + 1)</syntaxhighlight>
=={{header|Prolog}}==
Works with SWI-Prolog
<syntaxhighlight lang="prolog">
% map the sequence of cells
next_cell(1,Y,2,Y).
next_cell(2,Y,3,Y).
next_cell(3,Y,4,Y).
next_cell(4,1,1,2).
next_cell(4,2,1,3).
next_cell(4,3,1,4).
% map the game items, and how to print
item(1,2, ' 1 ').
item(2,3, ' 2 ').
item(3,4, ' 3 ').
item(4,5, ' 4 ').
item(5,6, ' 5 ').
item(6,7, ' 6 ').
item(7,8, ' 7 ').
item(8,9, ' 8 ').
item(9,10, ' 9 ').
item(10,11, ' 10 ').
item(11,12, ' 11 ').
item(12,13, ' 12 ').
item(13,14, ' 13 ').
item(14,15, ' 14 ').
item(15,0, ' 15 ').
% Move - find the current blank space, and the new place and swap them
move_1(1,2).
move_1(2,3).
move_1(3,4).
move(up, X, Y, X, Y1) :- move_1(Y1,Y).
move(down, X, Y, X, Y1) :- move_1(Y, Y1).
move(left, X, Y, X1, Y) :- move_1(X1, X).
move(right, X, Y, X1, Y) :- move_1(X, X1).
move(Dir, Board, [p(X1,Y1,0),p(X,Y,P)|B2]) :-
select(p(X, Y, 0), Board, B1),
move(Dir, X,Y,X1,Y1),
select(p(X1, Y1, P), B1, B2).
% Solved - the game is solved if running through the next_cell sequence produces the item sequence.
solved(Board) :-
select(p(1,1,1),Board,Remaining),
solved(Remaining,p(1,1,1)).
solved([p(4,4,0)], p(_,_,15)).
solved(Board,p(Xp,Yp,Prev)) :-
item(Prev,P,_),
select(p(X,Y,P),Board,Remaining),
next_cell(Xp,Yp,X,Y),
solved(Remaining, p(X,Y,P)).
% Print - run through the next_cell sequence printing the found items.
print(Board) :-
select(p(1,1,P),Board,Remaining),
nl, write_cell(P),
print(Remaining,p(1,1)).
print([],_) :- nl.
print(Board,p(X,Y)) :-
next_cell(X,Y,X1,Y1),
select(p(X1,Y1,P),Board,Remaining),
write_cell(P),
end_line_or_not(X1),
print(Remaining,p(X1,Y1)).
write_cell(0) :- write(' ').
write_cell(P) :- item(P,_,W), write(W).
end_line_or_not(1).
end_line_or_not(2).
end_line_or_not(3).
end_line_or_not(4) :- nl.
% Next Move - get the player input.
next_move_by_player(Move) :-
repeat,
get_single_char(Char),
key_move(Char, Move).
key_move(119, up). % 'w'
key_move(115, down). % 'd'
key_move(97, left). % 'a'
key_move(100, right). % 'd'
% Play - loop over the player moves until solved.
play(Board) :-
solved(Board) -> (
print(Board),
write('You Win!\n'))
; (
print(Board),
next_move_by_player(Move),
move(Move, Board, NewBoard),
play(NewBoard)).
play :-
test_board(Board),
play(Board),
!.
test_board(
[p(1,1,9),p(2,1,1),p(3,1,4),p(4,1,7),
p(1,2,6),p(2,2,5),p(3,2,3),p(4,2,2),
p(1,3,13),p(2,3,10),p(3,3,0),p(4,3,8),
p(1,4,14),p(2,4,15),p(3,4,11),p(4,4,12)]).
</syntaxhighlight>
=={{header|PureBasic}}==
Console version. All Puzzles are solvable. #Difficulty is the number of shuffle (default 10).
Numbers are displayed in Hexadecimal (ie 1 to F)
Default controls are u,d,l,r
<syntaxhighlight lang="purebasic">
#difficulty=10 ;higher is harder
#up="u"
#down="d"
#left="l"
#right="r"
OpenConsole("15 game"):EnableGraphicalConsole(1)
Global Dim Game.i(3,3)
Global hole.point
Procedure NewBoard()
num.i=0
For j=0 To 3
For i=0 To 3
Game(i,j)=num
num+1
Next i
Next j
EndProcedure
Procedure.s displayBoard()
For j=0 To 3
For i=0 To 3
ConsoleLocate(i,j)
If Game(i,j)=0:Print(" "):Continue:EndIf
Print(Hex(Game(i,j)))
Next i
Next j
PrintN("")
Print("Your Choice Up :"+#up+", Down :"+#down+", Left :"+#left+" Or Right :"+#right+" ")
Repeat
keypress$=Inkey()
Until keypress$<>""
keypress$=LCase(keypress$)
ProcedureReturn keypress$
EndProcedure
Procedure UpdateBoard(key$)
If key$=#up And hole\y<3
Swap game(hole\x,hole\y),game(hole\x,hole\y+1):hole\y+1
ElseIf key$=#down And hole\y
Swap game(hole\x,hole\y),game(hole\x,hole\y-1):hole\y-1
ElseIf key$=#left And hole\x<3
Swap game(hole\x,hole\y),game(hole\x+1,hole\y):hole\x+1
ElseIf key$=#right And hole\x
Swap game(hole\x,hole\y),game(hole\x-1,hole\y):hole\x-1
EndIf
EndProcedure
Procedure TestGameWin()
For j=0 To 3
For i=0 To 3
num+1
If game(i,j)=num:win+1:EndIf
Next i
Next j
If win=15:ProcedureReturn 1:EndIf
EndProcedure
Procedure ShuffleBoard(difficulty.i)
Dim randomKey$(3)
randomkey$(0)=#up:randomkey$(1)=#down:randomkey$(2)=#left:randomkey$(3)=#right
For i=1 To difficulty
UpdateBoard(randomKey$(Random(3)))
Next i
EndProcedure
NewBoard()
ShuffleBoard(#difficulty)
Repeat
choice$=displayBoard()
UpdateBoard(choice$)
Until TestGameWin()
Print("Won !")
CloseConsole()
</syntaxhighlight>
<pre>
1234
5678
9ABC
DEF
Your Choice Up :u, Down :d, Left :l Or Right :r
</pre>
=={{header|Python}}==
===Python: Original, with output===
{{works with|Python|3.X}}
'''unoptimized'''
<syntaxhighlight lang="python">
''' Structural Game for 15 - Puzzle with different difficulty levels'''
from random import randint
class Puzzle:
def __init__(self):
self.items = {}
self.position = None
def main_frame(self):
d = self.items
print('+-----+-----+-----+-----+')
print('|%s|%s|%s|%s|' % (d[1], d[2], d[3], d[4]))
print('+-----+-----+-----+-----+')
print('|%s|%s|%s|%s|' % (d[5], d[6], d[7], d[8]))
print('+-----+-----+-----+-----+')
print('|%s|%s|%s|%s|' % (d[9], d[10], d[11], d[12]))
print('+-----+-----+-----+-----+')
print('|%s|%s|%s|%s|' % (d[13], d[14], d[15], d[16]))
print('+-----+-----+-----+-----+')
def format(self, ch):
ch = ch.strip()
if len(ch) == 1:
return ' ' + ch + ' '
elif len(ch) == 2:
return ' ' + ch + ' '
elif len(ch) == 0:
return ' '
def change(self, to):
fro = self.position
for a, b in self.items.items():
if b == self.format(str(to)):
to = a
break
self.items[fro], self.items[to] = self.items[to], self.items[fro]
self.position = to
def build_board(self, difficulty):
for i in range(1, 17):
self.items[i] = self.format(str(i))
tmp = 0
for a, b in self.items.items():
if b == ' 16 ':
self.items[a] = ' '
tmp = a
break
self.position = tmp
if difficulty == 0:
diff = 10
elif difficulty == 1:
diff = 50
else:
diff = 100
for _ in range(diff):
lst = self.valid_moves()
lst1 = []
for j in lst:
lst1.append(int(j.strip()))
self.change(lst1[randint(0, len(lst1)-1)])
def valid_moves(self):
pos = self.position
if pos in [6, 7, 10, 11]:
return self.items[pos - 4], self.items[pos - 1],\
self.items[pos + 1], self.items[pos + 4]
elif pos in [5, 9]:
return self.items[pos - 4], self.items[pos + 4],\
self.items[pos + 1]
elif pos in [8, 12]:
return self.items[pos - 4], self.items[pos + 4],\
self.items[pos - 1]
elif pos in [2, 3]:
return self.items[pos - 1], self.items[pos + 1], self.items[pos + 4]
elif pos in [14, 15]:
return self.items[pos - 1], self.items[pos + 1],\
self.items[pos - 4]
elif pos == 1:
return self.items[pos + 1], self.items[pos + 4]
elif pos == 4:
return self.items[pos - 1], self.items[pos + 4]
elif pos == 13:
return self.items[pos + 1], self.items[pos - 4]
elif pos == 16:
return self.items[pos - 1], self.items[pos - 4]
def game_over(self):
flag = False
for a, b in self.items.items():
if b == ' ':
pass
else:
if a == int(b.strip()):
flag = True
else:
flag = False
return flag
g = Puzzle()
g.build_board(int(input('Enter the difficulty : 0 1 2\n2 '
'=> highest 0=> lowest\n')))
g.main_frame()
print('Enter 0 to exit')
while True:
print('Hello user:\nTo change the position just enter the no. near it')
lst = g.valid_moves()
lst1 = []
for i in lst:
lst1.append(int(i.strip()))
print(i.strip(), '\t', end='')
print()
x = int(input())
if x == 0:
break
elif x not in lst1:
print('Wrong move')
else:
g.change(x)
g.main_frame()
if g.game_over():
print('You WON')
break
</syntaxhighlight>
<pre>
Enter the difficulty : 0 1 2
2 => highest 0=> lowest
1
+-----+-----+-----+-----+
| 1 | 7 | 2 | 4 |
+-----+-----+-----+-----+
| 5 | 6 | 3 | 12 |
+-----+-----+-----+-----+
| 9 | 8 | 11 | 15 |
+-----+-----+-----+-----+
| 13 | 10 | 14 | |
+-----+-----+-----+-----+
Enter 0 to exit
Hello user:
To change the position just enter the no. near it
14 15
14
+-----+-----+-----+-----+
| 1 | 7 | 2 | 4 |
+-----+-----+-----+-----+
| 5 | 6 | 3 | 12 |
+-----+-----+-----+-----+
| 9 | 8 | 11 | 15 |
+-----+-----+-----+-----+
| 13 | 10 | | 14 |
+-----+-----+-----+-----+
Hello user:
To change the position just enter the no. near it
10 14 11
</pre>
===Python: using tkinter===
<syntaxhighlight lang="python">
''' Python 3.6.5 code using Tkinter graphical user interface.'''
from tkinter import *
from tkinter import messagebox
import random
# ************************************************
class Board:
def __init__(self, playable=True):
while True:
# list of text for game squares:
self.lot = [str(i) for i in range(1,16)] + ['']
if not playable:
break
# list of text for game squares randomized:
random.shuffle(self.lot)
if self.is_solvable():
break
# game board is 2D array of game squares:
self.bd = []
i = 0
for r in range(4):
row = []
for c in range(4):
row.append(Square(r,c,self.lot[i]))
i += 1
self.bd.append(row)
# How to check if an instance of a 15 puzzle
# is solvable is explained here:
# https://www.geeksforgeeks.org/check-instance-15-puzzle-solvable/
# I only coded for the case where N is even.
def is_solvable(self):
inv = self.get_inversions()
odd = self.is_odd_row()
if inv % 2 == 0 and odd:
return True
if inv % 2 == 1 and not odd:
return True
return False
def get_inversions(self):
cnt = 0
for i, x in enumerate(self.lot[:-1]):
if x != '':
for y in self.lot[i+1:]:
if y != '' and int(x) > int(y):
cnt += 1
return cnt
# returns True if open square is in odd row from bottom:
def is_odd_row(self):
idx = self.lot.index('')
return idx in [4,5,6,7,12,13,14,15]
# returns name, text, and button object at row & col:
def get_item(self, r, c):
return self.bd[r][c].get()
def get_square(self, r, c):
return self.bd[r][c]
def game_won(self):
goal = [str(i) for i in range(1,16)] + ['']
i = 0
for r in range(4):
for c in range(4):
nm, txt, btn = self.get_item(r,c)
if txt != goal[i]:
return False
i += 1
return True
# ************************************************
class Square: # ['btn00', '0', None]
def __init__(self, row, col, txt):
self.row = row
self.col = col
self.name = 'btn' + str(row) + str(col)
self.txt = txt
self.btn = None
def get(self):
return [self.name, self.txt, self.btn]
def set_btn(self, btn):
self.btn = btn
def set_txt(self, txt):
self.txt = txt
# ************************************************
class Game:
def __init__(self, gw):
self.window = gw
# game data:
self.bd = None
self.playable = False
# top frame:
self.top_fr = Frame(gw,
width=600,
height=100,
bg='light green')
self.top_fr.pack(fill=X)
self.hdg = Label(self.top_fr,
text=' 15 PUZZLE GAME ',
font='arial 22 bold',
fg='Navy Blue',
bg='white')
self.hdg.place(relx=0.5, rely=0.4,
anchor=CENTER)
self.dir = Label(self.top_fr,
text="(Click 'New Game' to begin)",
font='arial 12 ',
fg='Navy Blue',
bg='light green')
self.dir.place(relx=0.5, rely=0.8,
anchor=CENTER)
self.play_btn = Button(self.top_fr,
text='New \nGame',
bd=5,
bg='PaleGreen4',
fg='White',
font='times 12 bold',
command=self.new_game)
self.play_btn.place(relx=0.92, rely=0.5,
anchor=E)
# bottom frame:
self.btm_fr = Frame(gw,
width=600,
height=500,
bg='light steel blue')
self.btm_fr.pack(fill=X)
# board frame:
self.bd_fr = Frame(self.btm_fr,
width=400+2,
height=400+2,
relief='solid',
bd=1,
bg='lemon chiffon')
self.bd_fr.place(relx=0.5, rely=0.5,
anchor=CENTER)
self.play_game()
# ************************************************
def new_game(self):
self.playable = True
self.dir.config(text='(Click on a square to move it)')
self.play_game()
def play_game(self):
# place squares on board:
if self.playable:
btn_state = 'normal'
else:
btn_state = 'disable'
self.bd = Board(self.playable)
objh = 100 # widget height
objw = 100 # widget width
objx = 0 # x-position of widget in frame
objy = 0 # y-position of widget in frame
for r in range(4):
for c in range(4):
nm, txt, btn = self.bd.get_item(r,c)
bg_color = 'RosyBrown1'
if txt == '':
bg_color = 'White'
game_btn = Button(self.bd_fr,
text=txt,
relief='solid',
bd=1,
bg=bg_color,
font='times 12 bold',
state=btn_state,
command=lambda x=nm: self.clicked(x))
game_btn.place(x=objx, y=objy,
height=objh, width=objw)
sq = self.bd.get_square(r,c)
sq.set_btn(game_btn)
objx = objx + objw
objx = 0
objy = objy + objh
# processing when a square is clicked:
def clicked(self, nm):
r, c = int(nm[3]), int(nm[4])
nm_fr, txt_fr, btn_fr = self.bd.get_item(r,c)
# cannot 'move' open square to itself:
if not txt_fr:
messagebox.showerror(
'Error Message',
'Please select "square" to be moved')
return
# 'move' square to open square if 'adjacent' to it:
adjs = [(r-1,c), (r, c-1), (r, c+1), (r+1, c)]
for x, y in adjs:
if 0 <= x <= 3 and 0 <= y <= 3:
nm_to, txt_to, btn_to = self.bd.get_item(x,y)
if not txt_to:
sq = self.bd.get_square(x,y)
sq.set_txt(txt_fr)
sq = self.bd.get_square(r,c)
sq.set_txt(txt_to)
btn_to.config(text=txt_fr,
bg='RosyBrown1')
btn_fr.config(text=txt_to,
bg='White')
# check if game is won:
if self.bd.game_won():
ans = messagebox.askquestion(
'You won!!! Play again?')
if ans == 'no':
self.window.destroy()
else:
self.new_game()
return
# cannot move 'non-adjacent' square to open square:
messagebox.showerror(
'Error Message',
'Illigal move, Try again')
return
# ************************************************
root = Tk()
root.title('15 Puzzle Game')
root.geometry('600x600+100+50')
root.resizable(False, False)
g = Game(root)
root.mainloop()
</syntaxhighlight>
=={{header|QB64}}==
<syntaxhighlight lang="qb64">
_TITLE "GUI Sliding Blocks Game "
RANDOMIZE TIMER
' get from user the desired board size = s
DO
LOCATE CSRLIN, 3: INPUT "(0 quits) Enter your number of blocks per side 3 - 9 you want > ", s
IF s = 0 THEN END
LOOP UNTIL s > 2 AND s < 10
' screen setup: based on the square blocks q pixels a sides
q = 540 / s 'square size, shoot for 540 x 540 pixel board display
SCREEN _NEWIMAGE(q * s + 1, q * s + 1, 32): _SCREENMOVE 360, 60
'initialize board = solution
DIM board(s, s)
FOR r = 1 TO s
FOR c = 1 TO s
board(c, r) = c + (r - 1) * s
NEXT
NEXT
board(s, s) = 0: c0 = s: r0 = s
'scramble board for puzzle
FOR i = 0 TO s ^ 5 ' mix blocks
SELECT CASE INT(RND * 4) + 1
CASE 1: IF c0 < s THEN board(c0, r0) = board(c0 + 1, r0): board(c0 + 1, r0) = 0: c0 = c0 + 1
CASE 2: IF c0 > 1 THEN board(c0, r0) = board(c0 - 1, r0): board(c0 - 1, r0) = 0: c0 = c0 - 1
CASE 3: IF r0 < s THEN board(c0, r0) = board(c0, r0 + 1): board(c0, r0 + 1) = 0: r0 = r0 + 1
CASE 4: IF r0 > 1 THEN board(c0, r0) = board(c0, r0 - 1): board(c0, r0 - 1) = 0: r0 = r0 - 1
END SELECT
NEXT
t = TIMER: update = -1 'OK user here you go!
DO
IF update THEN 'display status and determine if solved
solved = -1: update = 0
FOR r = 1 TO s
FOR c = 1 TO s
IF board(c, r) THEN
IF board(c, r) <> (r - 1) * s + c THEN solved = 0
COLOR _RGB32(255, 255, 255), _RGB32(0, 0, 255)
LINE ((c - 1) * q + 1, (r - 1) * q + 2)-(c * q - 2, r * q - 2), _RGB32(0, 0, 255), BF
_PRINTSTRING ((c - 1) * q + .4 * q, (r - 1) * q + .4 * q), RIGHT$(" " + STR$(board(c, r)), 2)
ELSE
IF board(s, s) <> 0 THEN solved = 0
COLOR _RGB32(0, 0, 0), _RGB32(0, 0, 0)
LINE ((c - 1) * q, (r - 1) * q)-(c * q, r * q), , BF
END IF
NEXT
NEXT
IF solved THEN 'flash the Solved Report until user closes window else report status
_DISPLAY
flash$ = "Solved!" + STR$(mc) + " Moves in " + STR$(INT(TIMER - t)) + " secs."
WHILE 1: _TITLE flash$: _DELAY .2: _TITLE " ": _DELAY .2: WEND
ELSE
_TITLE STR$(mc) + " Moves in " + STR$(INT(TIMER - t)) + " secs." + STR$(test)
END IF
_DISPLAY
END IF
'get next mouse click, check if on block next to empty space make move or beep
m = _MOUSEINPUT: mb = _MOUSEBUTTON(1): mx = _MOUSEX: my = _MOUSEY
IF mb AND solved = 0 THEN 'get last place mouse button was down
mb = _MOUSEBUTTON(1): mx = _MOUSEX: my = _MOUSEY
WHILE mb 'left button down, wait for mouse button release
m = _MOUSEINPUT: mb = _MOUSEBUTTON(1): mx = _MOUSEX: my = _MOUSEY
WEND
'convert mouse position to board array (x, y) are we near empty space?
bx = INT(mx / q) + 1: by = INT(my / q) + 1: update = -1
IF bx = c0 + 1 AND by = r0 THEN
board(c0, r0) = board(c0 + 1, r0): board(c0 + 1, r0) = 0: c0 = c0 + 1: mc = mc + 1
ELSEIF bx = c0 - 1 AND by = r0 THEN
board(c0, r0) = board(c0 - 1, r0): board(c0 - 1, r0) = 0: c0 = c0 - 1: mc = mc + 1
ELSEIF bx = c0 AND by = r0 + 1 THEN
board(c0, r0) = board(c0, r0 + 1): board(c0, r0 + 1) = 0: r0 = r0 + 1: mc = mc + 1
ELSEIF bx = c0 AND by = r0 - 1 THEN
board(c0, r0) = board(c0, r0 - 1): board(c0, r0 - 1) = 0: r0 = r0 - 1: mc = mc + 1
ELSE
BEEP
END IF
END IF
LOOP
</syntaxhighlight>
=={{header|Quackery}}==
The inputs are w,s,a,d and they refer to the direction in which the empty place "moves". After every prompt you can input a string of characters and submit them by pressing enter. Any characters other than w,s,a,d will be ignored, and moves will be performed according to the correct commands. Commands that would "move" the empty space off the edge of the puzzle are also ignored. For example, on a solved puzzle "asgw" would move 15 to the right, ignore 's' and 'g' and move 11 down.
<syntaxhighlight lang="quackery">
( moves: 0 - up, 1 - down, 2 - left, 3 - right )
[ stack ] is 15.solver ( --> [ )
[ 0 swap find ] is find-empty ( board --> n )
[ over + dup -1 >
over 4 < and iff
[ nip true ] else
[ drop false ] ] is try-nudge ( coord delta --> coord ? )
[ dip [ dup find-empty 4 /mod ]
2 /mod 2 * 1 -
swap iff try-nudge else
[ dip swap
try-nudge
dip swap ]
dip [ swap 4 * + ] ] is try-move-target ( board move --> board target ? )
[ 2dup peek dip
[ -1 unrot poke
0 over find ]
unrot poke
0 swap -1 over find poke ] is move-to ( board target --> board )
[ try-move-target
iff [ move-to true ]
else [ drop false ] ] is try-move ( board move --> board ? )
[ [] 15 times
[ i^ 1+ join ]
0 join ] constant is <board> ( --> board )
[ <board>
410 times ( 2 * the upper bound on the maximum moves required to solve )
[ 4 random
try-move drop ] ] is <random-board> ( --> board )
[ peek dup iff
[ number$
dup size 1 =
if [ space swap join ] ]
else [ drop $ ' ' ]
echo$ ] is echo-cell ( board n --> )
[ 4 * 4 times
[ say '| '
2dup i^ +
echo-cell
say ' ' ]
say '|'
2drop ] is echo-row ( board n --> )
[ 4 times
[ say '+----+----+----+----+' cr
dup i^ echo-row cr ]
say '+----+----+----+----+' cr
drop ] is echo-board ( board --> )
[ <board> = ] is solved? ( board --> ? )
[ $ 'Moves: ' input ] is input-moves ( --> $ )
[ dup char w = iff
[ drop 0 true ] done
dup char s = iff
[ drop 1 true ] done
dup char a = iff
[ drop 2 true ] done
dup char d = iff
[ drop 3 true ] done
false ] is char-to-move ( c --> move true | c false )
[ input-moves witheach
[ char-to-move
if try-move
drop ] ] is player-move ( board --> board )
[ ]'[ 15.solver put
[ cr dup echo-board
dup solved? not while
15.solver share do
again ]
15.solver release drop ] is 15-solve-with ( board 'solver --> board )
[ <random-board>
15-solve-with player-move ] is 15-puzzle ( --> )
15-puzzle
</syntaxhighlight>
=={{header|R}}==
The inputs are w,a,s,d and they refer to the direction in which the adjacent piece moves into the empty space. For example, on a solved puzzle, "d" would move the 15 to the right.
<syntaxhighlight lang="r">
puz15<-function(scramble.length=100){
m=matrix(c(1:15,0),byrow=T,ncol=4)
scramble=sample(c("w","a","s","d"),scramble.length,replace=T)
for(i in 1:scramble.length){
m=move(m,scramble[i])
}
win=F
turn=0
while(!win){
print.puz(m)
newmove=getmove()
if(newmove=="w"|newmove=="a"|newmove=="s"|newmove=="d"){
m=move(m,newmove)
turn=turn+1
}
else{
cat("Input not recognized","\n")
}
if(!(F %in% m==matrix(c(1:15,0),byrow=T,ncol=4))){
win=T
}
}
print.puz(m)
cat("\n")
print("You win!")
cat("\n","It took you",turn,"moves.","\n")
}
getmove<-function(){
direction<-readline(prompt="Move:")
return(direction)
}
move<-function(m,direction){
if(direction=="w"){
m=move.u(m)
}
else if(direction=="s"){
m=move.d(m)
}
else if(direction=="a"){
m=move.l(m)
}
else if(direction=="d"){
m=move.r(m)
}
return(m)
}
move.u<-function(m){
if(0 %in% m[4,]){}
else{
pos=which(m==0)
m[pos]=m[pos+1]
m[pos+1]=0
}
return(m)
}
move.d<-function(m){
if(0 %in% m[1,]){}
else{
pos=which(m==0)
m[pos]=m[pos-1]
m[pos-1]=0
}
return(m)
}
move.l<-function(m){
if(0 %in% m[,4]){return(m)}
else{return(t(move.u(t(m))))}
}
move.r<-function(m){
if(0 %in% m[,1]){return(m)}
else{return(t(move.d(t(m))))}
}
print.puz<-function(m){
cat("+----+----+----+----+","\n")
for(r in 1:4){
string="|"
for(c in 1:4){
if(m[r,c]==0)
string=paste(string," |",sep="")
else if(m[r,c]<10)
string=paste(string," ",m[r,c]," |",sep="")
else
string=paste(string," ",m[r,c]," |",sep="")
}
cat(string,"\n","+----+----+----+----+","\n",sep="")
}
}
</syntaxhighlight>
Sample output:
<pre>
> puz15(scramble.length=4)
+----+----+----+----+
| 1 | 2 | 3 | 4 |
+----+----+----+----+
| 5 | 6 | 7 | 8 |
+----+----+----+----+
| 9 | 10 | | 12 |
+----+----+----+----+
| 13 | 14 | 11 | 15 |
+----+----+----+----+
Move:w
+----+----+----+----+
| 1 | 2 | 3 | 4 |
+----+----+----+----+
| 5 | 6 | 7 | 8 |
+----+----+----+----+
| 9 | 10 | 11 | 12 |
+----+----+----+----+
| 13 | 14 | | 15 |
+----+----+----+----+
Move:a
+----+----+----+----+
| 1 | 2 | 3 | 4 |
+----+----+----+----+
| 5 | 6 | 7 | 8 |
+----+----+----+----+
| 9 | 10 | 11 | 12 |
+----+----+----+----+
| 13 | 14 | 15 | |
+----+----+----+----+
[1] "You win!"
It took you 2 moves.
</pre>
=={{header|Racket}}==
This is a GUI game; and there are difficulties getting screen shots onto RC.
Use the arrow keys to slide the ''blank'' square.
It uses the <code>2htdp/universe</code> package.
<syntaxhighlight lang="racket">#lang racket/base
(require 2htdp/universe 2htdp/image racket/list racket/match)
(define ((fifteen->pict (finished? #f)) fifteen)
(for/fold ((i (empty-scene 0 0))) ((r 4))
(define row
(for/fold ((i (empty-scene 0 0))) ((c 4))
(define v (list-ref fifteen (+ (* r 4) c)))
(define cell
(if v
(overlay/align
"center" "center"
(rectangle 50 50 'outline (if finished? "white" "blue"))
(text (number->string v) 30 "black"))
(rectangle 50 50 'solid (if finished? "white" "powderblue"))))
(beside i cell)))
(above i row)))
(define (move-space fifteen direction)
(define idx (for/first ((i (in-naturals)) (x fifteen) #:unless x) i))
(define-values (row col) (quotient/remainder idx 4))
(define dest (+ idx (match direction
['l #:when (> col 0) -1]
['r #:when (< col 3) 1]
['u #:when (> row 0) -4]
['d #:when (< row 3) 4]
[else 0])))
(list-set (list-set fifteen idx (list-ref fifteen dest)) dest #f))
(define (key-move-space fifteen a-key)
(cond [(key=? a-key "left") (move-space fifteen 'l)]
[(key=? a-key "right") (move-space fifteen 'r)]
[(key=? a-key "up") (move-space fifteen 'u)]
[(key=? a-key "down") (move-space fifteen 'd)]
[else fifteen]))
(define (shuffle-15 fifteen shuffles)
(for/fold ((rv fifteen)) ((_ shuffles))
(move-space rv (list-ref '(u d l r) (random 4)))))
(define fifteen0 '(1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 #f))
(define (solved-world? w) (equal? w fifteen0))
(big-bang (shuffle-15 fifteen0 200)
(name "Fifteen")
(to-draw (fifteen->pict))
(stop-when solved-world? (fifteen->pict #t))
(on-key key-move-space))</syntaxhighlight>
=={{header|Raku}}==
(formerly Perl 6)
{{works with|Rakudo|2018.06}}
Most of this is interface code. Reused substantial portions from the [[2048#Raku|2048]] task. Use the arrow keys to slide tiles, press 'q' to quit or 'n' for a new puzzle. Requires a POSIX termios aware terminal. Ensures that the puzzle is solvable by shuffling the board with an even number of swaps, then checking for even taxicab parity for the empty space.
<syntaxhighlight lang="raku" line>use Term::termios;
constant $saved = Term::termios.new(fd => 1).getattr;
constant $termios = Term::termios.new(fd => 1).getattr;
# raw mode interferes with carriage returns, so
# set flags needed to emulate it manually
$termios.unset_iflags(<BRKINT ICRNL ISTRIP IXON>);
$termios.unset_lflags(< ECHO ICANON IEXTEN ISIG>);
$termios.setattr(:DRAIN);
# reset terminal to original setting on exit
END { $saved.setattr(:NOW) }
constant n = 4; # board size
constant cell = 6; # cell width
constant $top = join '─' x cell, '┌', '┬' xx n-1, '┐';
constant $mid = join '─' x cell, '├', '┼' xx n-1, '┤';
constant $bot = join '─' x cell, '└', '┴' xx n-1, '┘';
my %dir = (
"\e[A" => 'up',
"\e[B" => 'down',
"\e[C" => 'right',
"\e[D" => 'left',
);
my @solved = [1,2,3,4],[5,6,7,8],[9,10,11,12],[13,14,15,' '];
my @board;
new();
sub new () {
loop {
@board = shuffle();
last if parity-ok(@board);
}
}
sub parity-ok (@b) {
my $row = @b.first(/' '/,:k);
my $col = @b[$row].first(/' '/,:k);
so ([3,3] <<->> [$row,$col]).sum %% 2;
}
sub shuffle () {
my @c = [1,2,3,4],[5,6,7,8],[9,10,11,12],[13,14,15,' '];
for (^16).pick(*) -> $y, $x {
my ($yd, $ym, $xd, $xm) = ($y div n, $y mod n, $x div n, $x mod n);
@(@c[$ym;$yd],@c[$xm;$xd]) = @(@c[$xm;$xd],@c[$ym;$yd]);
}
@c;
}
sub row (@row) { '│' ~ (join '│', @row».¢er) ~ '│' }
sub center ($s){
my $c = cell - $s.chars;
my $pad = ' ' x ceiling($c/2);
sprintf "%{cell}s", "$s$pad";
}
sub draw-board {
run('clear');
print qq:to/END/;
Press direction arrows to move.
Press q to quit. Press n for a new puzzle.
$top
{ join "\n\t$mid\n\t", map { .&row }, @board }
$bot
{ (so @board ~~ @solved) ?? 'Solved!!' !! '' }
END
}
sub slide (@c is copy) {
my $t = (grep { /' '/ }, :k, @c)[0];
return @c unless $t and $t > 0;
@c[$t,$t-1] = @c[$t-1,$t];
@c;
}
proto sub move (|) {*};
multi move('up') {
map { @board[*;$_] = reverse slide reverse @board[*;$_] }, ^n;
}
multi move('down') {
map { @board[*;$_] = slide @board[*;$_] }, ^n;
}
multi move('left') {
map { @board[$_] = reverse slide reverse @board[$_] }, ^n;
}
multi move('right') {
map { @board[$_] = slide @board[$_] }, ^n;
}
loop {
draw-board;
# Read up to 4 bytes from keyboard buffer.
# Page navigation keys are 3-4 bytes each.
# Specifically, arrow keys are 3.
my $key = $*IN.read(4).decode;
move %dir{$key} if so %dir{$key};
last if $key eq 'q'; # (q)uit
new() if $key eq 'n';
}</syntaxhighlight>
Sample screen shot:
<pre>
Press direction arrows to move.
Press q to quit. Press n for a new puzzle.
┌──────┬──────┬──────┬──────┐
│ 2 │ 1 │ 10 │ 14 │
├──────┼──────┼──────┼──────┤
│ 15 │ 11 │ 12 │ │
├──────┼──────┼──────┼──────┤
│ 13 │ 3 │ 6 │ 7 │
├──────┼──────┼──────┼──────┤
│ 9 │ 4 │ 5 │ 8 │
└──────┴──────┴──────┴──────┘
</pre>
=={{header|Rebol}}==
<syntaxhighlight lang="rebol">rebol [] random/seed now g: [style t box red [
if not find [0x108 108x0 0x-108 -108x0] face/offset - e/offset [exit]
x: face/offset face/offset: e/offset e/offset: x] across
] x: random repeat i 15 [append x:[] i] repeat i 15 [
repend g ['t mold x/:i random white] if find [4 8 12] i [append g 'return]
] append g [e: box] view layout g</syntaxhighlight>
=={{header|Red}}==
<syntaxhighlight lang="red">
Red [Needs: 'view]
system/view/screens/1/pane/-1/visible?: false ;; suppress console window
;; because this code is heavily influenced / (copied from ... )
;; by the rebol version ( which actually works with red as well with
;; some minimal changes ) i added some comments to make the
;; code more readable...
;;-----------------------------------------
;; check, if puzzle is solved, OK button closes program
;;-----------------------------------------
check: does [
;; the text on each tile must be equal to its position:
repeat pos 15 [ unless pos = to-integer lay/pane/:pos/text [exit] ]
view/flags [ title "SuCCeSS"
text "You solved the puzzle ! " button "OK" [quit]
] [modal popup]
]
;;--------------------------------------
;; actually only changes text / Number on tile / button
;;---------------------------------------
changeTiles: func [ f ][
;; this is tricky, check if e(mpty) button is one in of the
;; four valid positions , by simply subtracting their offsets...else exit ( no change)
unless find [ 0x52 0x-52 52x0 -52x0 ] f/offset - e/offset [return false]
e/text: f/text ;; empty button gets Number from clicked button
e/visible?: true ;; empty gets visible
f/visible?: false ;; clicked button gets invisible
e: f ;; e(mpty) refers now to clicked button
return true ;; true - change has happened
]
;;-----------------------------------------
;; function which is executed, when button is clicked
;; argument is face - button
;;-------------------------------------
bClicked: func [f][ if changeTiles f [check] ]
;; define the window:
;; style is a prototype definition for a button element
win: [ title "15 Puzzle"
backdrop silver
style btn: button 40x40 [bClicked face] font-size 15 bold
]
;; generate 1..15 buttons with number
repeat nr 15 [
repend win [ 'btn form nr ] ;; repend reduces and then appends..
if 0 = mod nr 4 [ append win 'return ] ;; "carriage return" in window after 4 buttons
]
;; append empty / hidden button no 16 and return/quit button:
append win [ e: btn "16" hidden return button "Quit" [quit]]
lay: layout win
;; define win as layout, so each button can now be addressed as
;; layout/pane/index ( 1..15 - redbol is 1 based )
flip: 0
;; start random generator, otherwise we always get the same puzzle
random/seed now/time/precise
;; lets flip random tiles a few times to initialize the puzzle
;; ( actually numbers < 100 are quite easy to solve )
while [ flip < 40 ] [ if changeTiles lay/pane/(random 16) [ flip: flip + 1 ] ]
;; show the window...
view lay
</syntaxhighlight>
=={{header|REXX}}==
This REXX version allows the user to specify the size of the puzzle ('''N''', where '''NxN''' is the size of the puzzle).
With some more complexity, the REXX computer program could be changed to allow multiple─tile moves (so that,
<br>for instance, three tiles could be slid to the right).
Over half of the REXX program has to do with input validation and presentation of the puzzle (grid).
<syntaxhighlight lang="rexx">/*REXX pgm implements the 15─puzzle (AKA: Gem Puzzle, Boss Puzzle, Mystic Square, 14─15)*/
parse arg N seed . /*obtain optional arguments from the CL*/
if N=='' | N=="," then N=4 /*Not specified? Then use the default.*/
if datatype(seed, 'W') then call random ,,seed /*use repeatability seed for RANDOM BIF*/
nh= N**2; @.=; nn= nh - 1; w= length(nn) /*define/initialize some handy values. */
$= /*$: will hold the solution for testing*/
do i=1 for nn; $= $ i /* [◄] build a solution for testing. */
end /*i*/
done= $ /* [↓] scramble the tiles in puzzle. */
do j=1 for nn; a= random(1, words($) ); @.j= word($, a); $= delword($, a, 1)
end /*j*/
/*═══════════════════ play the 15─puzzle 'til done or quit.*/
do until puzz==done & @.nh=='' /*perform moves until puzzle is solved.*/
call getmv /*get user's move(s) and validate it.*/
if errMsg\=='' then do; say sep errMsg; iterate /*possible error msg? */
end
call showGrid 0 /*don't display puzzle, just find hole.*/
if wordpos(x, !)==0 then do; say sep 'tile ' x " can't be moved."; iterate
end
@.hole= x; @.tile=
call showGrid 0 /*move specified tile ───► puzzle hole.*/
end /*until*/ /*═════════════════════════════════════════════════════════*/
call showGrid 1; say; say sep 'Congratulations! The' nn"-puzzle is solved."
exit 0 /*stick a fork in it, we're all done. */
/*──────────────────────────────────────────────────────────────────────────────────────*/
getmv: x= 0; sep= copies('─', 8); pad= left('', 1 + length(sep) ) /*pad=9 blanks*/
prompt= sep 'Please enter a tile number or numbers ' sep " (or Quit)."
if queued()==0 then do; say; call showGrid 1; say; say prompt
end
parse pull x . 1 ox . 1 . zx; upper x /*obtain a number (or numbers) from CL.*/
if abbrev('QUIT', x, 1) then do; say; say; say sep "quitting."; exit
end
if words(zx)>0 then do; parse var zx xq; queue xq
end /* [↑] Extra moves? Stack for later. */
select /* [↓] Check for possible errors/typos*/
when x=='' then errMsg= "nothing entered."
when \datatype(x, 'N') then errMsg= "tile number isn't numeric: " ox
when \datatype(x, 'W') then errMsg= "tile number isn't an integer: " ox
when x=0 then errMsg= "tile number can't be zero: " ox
when x<0 then errMsg= "tile number can't be negative: " ox
when x>nn then errMsg= "tile number can't be greater than" nn
otherwise errMsg=
end /*select*/ /* [↑] verify the human entered data. */
return
/*──────────────────────────────────────────────────────────────────────────────────────*/
showGrid: parse arg show; !.=; x= x/1; #= 0; puzz=
top= '╔'copies( copies("═", w)'╦', N); top= left( top, length(top) -1)"╗"
bar= '╠'copies( copies("═", w)'╬', N); bar= left( bar, length(bar) -1)"╣"
bot= '╚'copies( copies("═", w)'╩', N); bot= left( bot, length(bot) -1)"╝"
if show then say pad top
do r=1 for N; z= '║'
do c=1 for N; #= #+1; y= @.#; puzz= puzz y; !.r.c= y
_= right(@.#, w)"║"; z= z || _ /* [↓] find hole*/
if @.# == '' then do; hole= #; holeRow= r; holeCol= c; end
if @.# == x then do; tile= #; tileRow= r; tileCol= c; end
end /*c*/ /* [↑] find X. */
if show then do; say pad z; if r\==N then say pad bar; end
end /*r*/
rm=holeRow-1; rp=holeRow+1; cm=holeCol-1; cp=holeCol+1 /*possible moves.*/
!=!.rm.holeCol !.rp.holeCol !.holeRow.cm !.holeRow.cp /* legal moves.*/
if show then say pad bot; return</syntaxhighlight>
{{out|output|text= when using the default input:}}
<pre>
╔══╦══╦══╦══╗
║10║ 7║ 8║11║
╠══╬══╬══╬══╣
║ 4║ 3║15║ 1║
╠══╬══╬══╬══╣
║ 9║12║ 2║13║
╠══╬══╬══╬══╣
║14║ 5║ 6║ ║
╚══╩══╩══╩══╝
──────── Please enter a tile number or numbers ──────── (or Quit).
13 ◄■■■■■■■■■■ user input.
╔══╦══╦══╦══╗
║10║ 7║ 8║11║
╠══╬══╬══╬══╣
║ 4║ 3║15║ 1║
╠══╬══╬══╬══╣
║ 9║12║ 2║ ║
╠══╬══╬══╬══╣
║14║ 5║ 6║13║
╚══╩══╩══╩══╝
──────── Please enter a tile number or numbers ──────── (or Quit).
1 15 3 ◄■■■■■■■■■■ user input.
╔══╦══╦══╦══╗
║10║ 7║ 8║11║
╠══╬══╬══╬══╣
║ 4║ ║ 3║15║
╠══╬══╬══╬══╣
║ 9║12║ 2║ 1║
╠══╬══╬══╬══╣
║14║ 5║ 6║13║
╚══╩══╩══╩══╝
──────── Please enter a tile number or numbers ──────── (or Quit).
quit ◄■■■■■■■■■■ user input.
──────── quitting.
</pre>
=={{header|Ring}}==
<syntaxhighlight lang="ring">
# Project : CalmoSoft Fifteen Puzzle Game
# Date : 2018/12/01
# Author : Gal Zsolt (CalmoSoft), Bert Mariani
# Email : calmosoft@gmail.com
load "guilib.ring"
empty = 16
nr_moves = 0
nr_sleep = 1
button_size = 4
current_button = 4
temp = 0
flag_init = 0
flag_save = 0
flag_move = 0
button = list(52)
size_button = list(7)
table1 = []
table2 = []
table3 = []
n_degree = 0
nr_degree = [0,90,180,270 ,-90,-180,-270]
n_degreeRight = 0
n_degreeLeft = 0
btn_degree = newlist(52,2)
counter_man = 0
t1 = 0
win1 = new
move(0,0)
resize(
size_button[n] = new qpushbutton(win1)
{
col = n%4
setgeometry(100+col*40,60,40,40)
settext(string(n) + "x" + string(n))
setclickevent("newsize(" + string(n) + ")")
}
next
btnMoves = new qpushbutton(win1)
{
setgeometry(100,260,80,40)
settext("0")
show()
}
scramblebtn = new qpushbutton(win1)
{
setgeometry(100,300,160,40)
settext("Scramble")
setclickevent("scramble()")
}
resetbtn = new qpushbutton(win1)
{
setgeometry(100,340,160,40)
settext("Reset")
setclickevent("resettiles()")
}
savebtn = new qpushbutton(win1)
{
setgeometry(100,380,160,40)
settext("Save Game")
setclickevent("pSave()")
}
playbtn = new qpushbutton(win1)
{
setgeometry(100,420,160,40)
settext("Resume Game")
setclickevent("pPlay()")
}
sleepbtn = new qpushbutton(win1)
{
setgeometry(100,460,160,40)
settext("Sleep Time: ")
}
decbtn = new qpushbutton(win1)
{
setgeometry(220,460,40,40)
settext("<-")
setclickevent("pDecSleep()")
}
incbtn = new qpushbutton(win1)
{
setgeometry(260,460,40,40)
settext("->")
setclickevent("pIncSleep()")
}
rightbtn = new qpushbutton(win1)
{
setgeometry(100,500,160,40)
settext("In the Right Place : ")
}
timebtn = new qpushbutton(win1)
{
setgeometry(100,540,160,40)
settext("Elapsed Time : ")
}
TimerMan = new qtimer(win1)
{
setinterval(500)
settimeoutevent("pTime()")
stop()
}
newsize(4)
show()
}
exec()
}
Func newlist x, y
if isstring(x) x=0+x ok
if isstring(y) y=0+y ok
alist = list(x)
for t in alist
t = list(y)
next
return alist
func scramble
for n= 1 to 1000
current_button=random(button_size*button_size-1)+1
up = (empty = (current_button - button_size))
down = (empty = (current_button + button_size))
left = ((empty = (current_button - 1)) and ((current_button % button_size) != 1))
right = ((empty = (current_button + 1)) and ((current_button % button_size) != 0))
move = up or down or left or right
if move = 1
button[current_button] { temp2 = text() }
col = empty%button_size
if col = 0 col = button_size ok
row = ceil(empty/button_size)
button[empty] {
setgeometry(60+col*40,60+row*40,40,40)
rnd = random(6)+1
n_degree = nr_degree[rnd]
button[empty].setbuttoncolor("yellow")
button[empty].settext(temp2)
button[empty].setClickEvent("movetile(" + string(empty) +")")
btn_degree[empty] [1] = temp2
btn_degree[empty] [2] = n_degree
}
button[current_button].setbuttoncolor("yellow")
btn_degree[current_button][2] = 0
button[current_button]{settext("")}
empty = current_button
ok
next
button[button_size*button_size+2]{settext("Here")}
for n=1 to button_size*button_size
button[n].setbuttoncolor("yellow")
next
table1 = []
table2 = []
table3 = []
for n = 1 to button_size*button_size
add(table1, button[n].text())
add(table2, button[n].text())
add(table3, string(btn_degree[n][2]))
next
add(table1, string(empty))
add(table2, string(empty))
add(table3, string(empty))
add(table1, "OK")
add(table2, "OK")
add(table3, "OK")
flag_save = 0
flag_move = 0
nr_moves = 0
btnMoves.settext(string(nr_moves))
timebtn.settext("Elapsed Time : ")
t1 = clock()
rightPlace()
return
func movetile current_button2
if (current_button2 = button_size*button_size-1 and button[current_button2].text() = "In")
pBack()
else
see char(7)
up = (empty = (current_button2 - button_size))
down = (empty = (current_button2 + button_size))
left = ((empty = (current_button2- 1)) and ((current_button2 % button_size) != 1))
right = ((empty = (current_button2 + 1)) and ((current_button2 % button_size) != 0))
move = up or down or left or right
if move = 1
temp2 = button[current_button2].text()
btn_degree[empty][1] = temp2
add(table1, temp2)
add(table2, string(current_button2))
col = empty%button_size
if col = 0 col = button_size ok
row = ceil(empty/button_size)
button[empty] {
setgeometry(60+col*40,60+row*40,40,40)
n_degree = btn_degree[current_button2][2]
btn_degree[empty][2] = n_degree
button[empty].setbuttoncolor("orange")
button[empty].settext(temp2)
}
add(table3, string(n_degree))
button[current_button2].setbuttoncolor("cyan")
button[current_button2]{settext("")}
empty = current_button2
nr_moves = nr_moves + 1
btnMoves.settext(string(nr_moves))
isGameOver()
ok
ok
flag_move = 1
pElapsedTime()
rightPlace()
return
func resettiles
n_degree = 0
empty = button_size*button_size
for empty = 1 to button_size*button_size-1
btn_degree[empty][2] = 0
n_degree = 0
btn_degree[empty][1] = string(empty)
button[empty].setstylesheet("background-color:yellow")
button[empty] {settext(string(empty))}
next
button[button_size*button_size].setstylesheet("background-color:yellow")
button[button_size*button_size] {settext("")}
table1 = []
table2 = []
table3 = []
for n = 1 to button_size*button_size
add(table1, button[n].text())
add(table2, button[n].text())
add(table3, string(btn_degree[n][2]))
next
add(table1, string(empty))
add(table2, string(empty))
add(table3, string(empty))
add(table1, "OK")
add(table2, "OK")
add(table3, "OK")
flag_save = 0
flag_move = 0
nr_moves = 0
btnMoves.settext(string(nr_moves))
timebtn.settext("Elapsed Time : ")
t1 = clock()
rightPlace()
return
func pHere
if button[button_size*button_size-1].text() != "" and button[button_size*button_size+2].text() = "Here"
button[button_size*button_size-1] { temp = text() }
button[button_size*button_size+2].close()
button[button_size*button_size+2] = new ButtonWithRotatedText(win1)
button[button_size*button_size+2] {
setgeometry(60+(button_size-1)*40,60+(button_size+1)*40,40,40)
setstylesheet("background-color:yellow")
btn_degree[button_size*button_size+2][2] = btn_degree[button_size*button_size-1][2]
n_degree = btn_degree[button_size*button_size+2][2]
emptysave = empty
empty = button_size*button_size+2
btn_degree[empty][1] = temp
settext(temp)
}
n_degree = 0
empty = button_size*button_size-1
btn_degree[empty][1] = "In"
button[button_size*button_size-1]{settext("In")}
for n = 1 to button_size*button_size
button[n].setenabled(false)
next
button[button_size*button_size-1].setenabled(true)
scramblebtn.setenabled(false)
resetbtn.setenabled(false)
savebtn.setenabled(false)
playbtn.setenabled(false)
empty = emptysave
ok
func pBack
button[button_size*button_size+2] { temp = text() }
n_degree = btn_degree[button_size*button_size+2][2]
btn_degree[button_size*button_size-1][2] = btn_degree[button_size*button_size+2][2]
emptysave = empty
empty = button_size*button_size-1
btn_degree[empty][1] = temp
button[button_size*button_size-1] {settext(temp)}
button[button_size*button_size+2].close()
button[button_size*button_size+2] = new qpushbutton(win1)
{
setclickevent("pHere()")
show()
}
for n = 1 to button_size*button_size
button[n].setenabled(true)
next
scramblebtn.setenabled(true)
resetbtn.setenabled(true)
savebtn.setenabled(true)
playbtn.setenabled(true)
empty = emptysave
isGameOver()
func rotateleft
if button[button_size*button_size+2].text() != "Here"
button[button_size*button_size+2].close()
button[button_size*button_size+2] = new ButtonWithRotatedText(win1)
button[button_size*button_size+2] {
setgeometry(60+(button_size-1)*40,60+(button_size+1)*40,40,40)
setstylesheet("background-color:yellow")
n_degreeLeft = (n_degreeLeft-90)%360
n_degree = n_degreeLeft
btn_degree[button_size*button_size+2][2] = n_degree
emptysave = empty
empty = button_size*button_size+2
btn_degree[empty][1] = temp
button[button_size*button_size+2]{settext(temp)}
}
empty = emptysave
ok
func rotateright
if button[button_size*button_size+2].text() != "Here"
button[button_size*button_size+2].close()
button[button_size*button_size+2] = new ButtonWithRotatedText(win1)
button[button_size*button_size+2] {
setgeometry(60+(button_size-1)*40,60+(button_size+1)*40,40,40)
setstylesheet("background-color:yellow")
n_degreeRight = (n_degreeRight+90)%360
n_degree = n_degreeRight
btn_degree[button_size*button_size+2][2] = n_degree
emptysave = empty
empty = button_size*button_size+2
btn_degree[empty][1] = temp
button[button_size*button_size+2]{settext(temp)}
}
empty = emptysave
ok
func newsize current_button
win1{
sizenew = current_button%4
win1.resize(360+sizenew*40,640+sizenew*40)
if flag_init != 0
for nb = 1 to button_size*button_size+3
button[nb] {close()}
next
btnMoves.close()
ok
scramblebtn.close()
resetbtn.close()
savebtn.close()
playbtn.close()
btnMoves.close()
sleepbtn.close()
decbtn.close()
incbtn.close()
rightbtn.close()
timebtn.close()
for n = 1 to current_button*current_button
col = n%current_button
if col = 0 col = current_button ok
row = ceil(n/current_button)
button[n] = new ButtonWithRotatedText(win1)
button[n] {
setgeometry(60+col*40,60+row*40,40,40)
button[n].setbuttoncolor("yellow")
n_degree = 0
if n < current_button*current_button
button[n].settext(string(n))
but n = current_button*current_button
button[n].settext("")
ok
setClickEvent("movetile(" + string(n) +")")
}
next
btnMoves = new qpushbutton(win1)
{
setgeometry(
show()
}
{
setgeometry(
show()
{
setgeometry(
setclickevent("pHere()")
show()
}
{
setgeometry(
show()
}
{
setgeometry(100,
setclickevent("scramble()")
show()
}
{
setgeometry(
setclickevent("resettiles()")
show()
}
{
setgeometry(
setclickevent("pSave()")
show()
}
{
setgeometry(
setclickevent("pPlay()")
show()
}
{
setgeometry(100,
show()
}
{
setgeometry(
setclickevent("pDecSleep()")
show()
}
{
setgeometry(
setclickevent("pIncSleep()")
show()
}
{
setgeometry(
settext("In the Right Place : ")
}
{
}
table1 = []
table3 = []
for n = 1 to button_size*button_size
add(table1, button[n].text())
add(table2, button[n].text())
add(table3, string(0))
next
add(table1, string(empty))
add(table2, string(empty))
add(table3, string(empty))
add(table1, "OK")
add(table2, "OK")
add(table3, "OK")
empty = current_button*current_button
button_size = current_button
flag_init = 1
flag_save = 0
flag_move = 0
nr_moves = 0
timebtn.settext("Elapsed Time : ")
t1 = clock()
scramble()
}
func pSave
textedit1 = list2str(table1)
textedit2 = list2str(table2)
textedit3 = list2str(table3)
chdir(currentdir())
cName1 = "CalmoSoftPuzzle1.txt"
cName2 = "CalmoSoftPuzzle2.txt"
cName3 = "CalmoSoftPuzzle3.txt"
write(cName1,textedit1)
write(cName2,textedit2)
write(cName3,textedit3)
flag_save = 1
timebtn.settext("Elapsed Time : ")
t1 = clock()
return
func pPlay
if flag_save = 0 or flag_move = 0
warning()
else
chdir(currentdir())
cName1 = "CalmoSoftPuzzle1.txt"
textedit1 = read(cName1)
table1 = str2list(textedit1)
cName2 = "CalmoSoftPuzzle2.txt"
textedit2 = read(cName2)
table2 = str2list(textedit2)
cName3 = "CalmoSoftPuzzle3.txt"
textedit3 = read(cName3)
table3 = str2list(textedit3)
for empty = 1 to button_size*button_size
button[empty].setbuttoncolor("yellow")
n_degree = number(table3[empty])
btn_degree[empty][1] = table1[empty]
button[empty] {settext(table1[empty])}
next
empty = number(table1[button_size*button_size + 1])
counter_man = button_size*button_size+2
nr_moves = 0
t1 = clock()
TimerMan.start()
ok
func pTime()
if flag_save = 0 or flag_move = 0
warning()
else
counter_man++
pPlaySleep()
sleep(nr_sleep*1000)
pElapsedTime()
if counter_man = len(table1)
TimerMan.stop()
ok
ok
func pPlaySleep
see char(7)
value = table1[counter_man]
place = table2[counter_man]
n_degree = number(table3[counter_man])
btn_degree[empty][1] = value
button[empty].setbuttoncolor("orange")
button[empty] {settext(value)}
n_degree = 0
button[number(place)].setbuttoncolor("cyan")
button[number(place)] {settext("")}
empty = number(place)
nr_moves = nr_moves + 1
btnMoves.settext(string(nr_moves))
func pIncSleep
nr_sleep = nr_sleep + 1
sleepbtn.settext("Sleep Time: " + string(nr_sleep) + " s")
func pDecSleep
if nr_sleep > 1
nr_sleep = nr_sleep - 1
sleepbtn.settext("Sleep Time: " + string(nr_sleep) + " s")
ok
func sleep(x)
nTime = x
oTest = new qTest
oTest.qsleep(nTime)
return
func isGameOver
flagend = 1
for n=1 to button_size*button_size-1
if button[n].text() != n or btn_degree[n][2] != 0
flagend = 0
exit
ok
next
if flagend = 1
new qmessagebox(win1) {
setwindowtitle("Game Over")
settext("Congratulations!")
show()
}
ok
func rightPlace
count = 0
for n=1 to button_size*button_size
if button[n].text() = n and btn_degree[n][2] = 0
count = count + 1
ok
next
rightbtn.settext("In the Right Place : " + count)
func warning
new qmessagebox(win1) {
setwindowtitle("Warning!")
settext("First you must play and save the game.")
show()
}
func pElapsedTime
t2 = (clock() - t1)/1000
timebtn.settext("Elapsed Time : " + t2 + " s")
Class ButtonWithRotatedText
oButton oLabel cText="We are here" n_degree = 30 nTransX = 50 nTransY = 0
func init( oParent)
oButton = new qPushButton(oParent)
oLabel = new qLabel(oParent)
oLabel.setAttribute(Qt_WA_TransparentForMouseEvents,True)
oLabel.setAttribute(Qt_WA_DeleteOnClose, True)
oButton.setAttribute(Qt_WA_DeleteOnClose, True)
oButton.Show()
return
func close()
oLabel.close()
oButton.close()
return
func setstylesheet(x)
oButton.setstylesheet(x)
func setgeometry( x,y,width,height)
oButton.setgeometry(x,y,width,height)
oLabel.setgeometry( x,y,width,height)
func setText( cValue)
cText = cValue
return
func Text()
return cText
func setTranslate( x,y )
nTransX = x
nTransY = y
return
func TranslateOffsetX()
return nTransX
func TranslateOffsetY()
return nTransY
func setRotation_degree( nValue)
n_degree = nValue
return
func Rotation_degree()
return n_degree
func setClickEvent( cEvent)
oButton.setClickEvent(cEvent)
return
func braceend()
draw()
return
func setEnabled(value)
oButton.setenabled(value)
return
func setButtonColor(color)
colorIt = "background-color:" + color
oButton.setstylesheet(colorIt)
return
func draw()
picture = new qpicture()
color = new qcolor() { setrgb(0,0,255,255) }
pen = new qpen() { setcolor(color) setwidth(10) }
painter = new qpainter()
{
begin(picture)
setpen(pen)
oFont = new qfont("Courier New",12,75,0)
oFont.setpointsize(20)
setfont(oFont)
if n_degree = 0
if btn_degree[empty] [1]="In" p1 = -8 p2=0
translate(p1,p2) ok ok
if n_degree = 0
if btn_degree[empty] [1]<10 p1 = 10 p2=10 else p1=5 p2=10 ok
translate(p1,p2)
but n_degree = 90
if btn_degree[empty] [1]<10 p=-10 else p=-15 ok
translate(10,p)
but n_degree = 180
if btn_degree[empty] [1]<10 p1= 30 p2=-10 else p1=35 p2=-10 ok
translate(p1,p2)
but n_degree = 270
if btn_degree[empty] [1]<10 p=10 else p=15 ok
translate(30,p)
but n_degree = -90
if btn_degree[empty] [1]<10 p=10 else p=15 ok
translate(30,p)
but n_degree = -180
if btn_degree[empty] [1]<10 p1=30 p2=-10 else p1=35 p2=-10 ok
translate(p1,p2)
but n_degree = -270
if btn_degree[empty] [1]<10 p1=10 p2=-10 else p1=10 p2=-15 ok
translate(p1,p2)
ok
rotate(n_degree)
drawtext(0,0,this.Text())
endpaint()
}
oLabel {
setpicture(picture)
show()
}
return
</syntaxhighlight>
'''Output:'''
[https://youtu.be/IZqpYctv8Zs CalmoSoft Fifteen Puzzle Game in Ring - video]
=== newer version ===
This was added, out of place, 3rd November 2023, but dated a year earlier than the one last updated 29th September 2021...
<syntaxhighlight lang="ring">
/*
**
** Game : CalmoSoft Fifteen Puzzle Game 3D
** Date : 2017/09/01
** Author : CalmoSoft <calmosoft@gmail.com>, Mahmoud Fayed
**
*/
# Load Libraries
load "gamelib.ring" # RingAllegro Library
load "opengl21lib.ring" # RingOpenGL Library
butSize = 3
texture = list(9)
cube = list(9)
rnd = list(9)
rndok = 0
for n=1 to 9
rnd[n] = 0
next
for n=1 to 9
while true
rndok = 0
ran = random(8) + 1
for nr=1 to 9
if rnd[nr] = ran
rndok = 1
ok
next
if rndok = 0
rnd[n] = ran
exit
ok
end
next
for n=1 to 9
if rnd[n] = 9
empty = n
ok
next
#==============================================================
# To Support MacOS X
al_run_main()
func al_game_start # Called by al_run_main()
main() # Now we call our main function
#==============================================================
func main
new TicTacToe3D {
start()
}
class TicTacToe3D from GameLogic
FPS = 60
TITLE = "CalmoSoft Fifteen Puzzle Game 3D"
oBackground = new GameBackground
oGameSound = new GameSound
oGameCube = new GameCube
oGameInterface = new GameInterface
func loadresources
oGameSound.loadresources()
oBackGround.loadresources()
oGameCube.loadresources()
func drawScene
oBackground.update()
oGameInterface.update(self)
func MouseClickEvent
oGameInterface.MouseClickEvent(self)
class GameInterface
func Update oGame
prepare()
cubes(oGame)
func Prepare
w = 1024 h = 768
ratio = w / h
glViewport(0, 0, w, h)
glMatrixMode(GL_PROJECTION)
glLoadIdentity()
gluPerspective(-120,ratio,1,120)
glMatrixMode(GL_MODELVIEW)
glLoadIdentity()
glEnable(GL_TEXTURE_2D)
glShadeModel(GL_SMOOTH)
glClearColor(0.0, 0.0, 0.0, 0.5)
glClearDepth(1.0)
glEnable(GL_DEPTH_TEST)
glEnable(GL_CULL_FACE)
glDepthFunc(GL_LEQUAL)
glHint(GL_PERSPECTIVE_CORRECTION_HINT, GL_NICEST)
func Cubes oGame
oGame.oGameCube {
aGameMap = oGame.aGameMap
cube[1] = cube( 5 , -3 , -5 , texture[rnd[1]] )
cube[2] = cube( 0 , -3 , -5 , texture[rnd[2]] )
cube[3] = cube( -5 , -3 , -5 , texture[rnd[3]] )
cube[4] = cube( 5 , 1 , -5 , texture[rnd[4]] )
cube[5] = cube( 0 , 1 , -5 , texture[rnd[5]] )
cube[6] = cube( -5 , 1 , -5 , texture[rnd[6]] )
cube[7] = cube( 5 , 5 , -5 , texture[rnd[7]] )
cube[8] = cube( 0 , 5 , -5 , texture[rnd[8]] )
cube[9] = cube( -5 , 5 , -5 , texture[rnd[9]] )
rotate()
}
func MouseClickEvent oGame
oGame {
aBtn = Point2Button(Mouse_X,Mouse_Y)
move = 0
nRow = aBtn[1]
nCol = aBtn[2]
tile = (nRow-1)*3 + nCol
up = (empty = (tile - butSize))
down = (empty = (tile + butSize))
left = ((empty = (tile- 1)) and ((tile % butSize) != 1))
right = ((empty = (tile + 1)) and ((tile % butSize) != 0))
move = up or down or left or right
if move = 1
temp = rnd[empty]
rnd[empty] = rnd[tile]
rnd[tile] = temp
empty = tile
oGame.oGameCube {
aGameMap = oGame.aGameMap
cube[1] = cube( 5 , -3 , -5 , texture[rnd[1]] )
cube[2] = cube( 0 , -3 , -5 , texture[rnd[2]] )
cube[3] = cube( -5 , -3 , -5 , texture[rnd[3]] )
cube[4] = cube( 5 , 1 , -5 , texture[rnd[4]] )
cube[5] = cube( 0 , 1 , -5 , texture[rnd[5]] )
cube[6] = cube( -5 , 1 , -5 , texture[rnd[6]] )
cube[7] = cube( 5 , 5 , -5 , texture[rnd[7]] )
cube[8] = cube( 0 , 5 , -5 , texture[rnd[8]] )
cube[9] = cube( -5 , 5 , -5 , texture[rnd[9]] )
rotate()
}
ok
}
Class GameLogic from GraphicsAppBase
aGameMap = [
[ :n , :n , :n ] ,
[ :n , :n , :n ] ,
[ :n , :n , :n ]
]
aGameButtons = [ # x1,y1,x2,y2
[176,88,375,261], # [1,1]
[423,88,591,261], # [1,2]
[645,88,876,261], # [1,3]
[176,282,375,428], # [2,1]
[423,282,591,428], # [2,2]
[645,282,876,428], # [2,3]
[176,454,375,678], # [3,1]
[423,454,591,678], # [3,2]
[645,454,876,678] # [3,3]
]
cActivePlayer = :x
func point2button x,y
nRow = 0
nCol = 0
for t = 1 to len(aGameButtons)
rect = aGameButtons[t]
if x >= rect[1] and x <= rect[3] and
y >= rect[2] and y <= rect[4]
switch t
on 1 nRow = 1 nCol = 1
on 2 nRow = 1 nCol = 2
on 3 nRow = 1 nCol = 3
on 4 nRow = 2 nCol = 1
on 5 nRow = 2 nCol = 2
on 6 nRow = 2 nCol = 3
on 7 nRow = 3 nCol = 1
on 8 nRow = 3 nCol = 2
on 9 nRow = 3 nCol = 3
off
exit
ok
next
return [nRow,nCol]
class GameCube
bitmap bitmap2 bitmap3
textureX textureO textureN
xrot = 0.0
yrot = 0.0
zrot = 0.0
func loadresources
bitmp1 = al_load_bitmap("image/n1.jpg")
texture[1] = al_get_opengl_texture(bitmp1)
bitmp2 = al_load_bitmap("image/n2.jpg")
texture[2] = al_get_opengl_texture(bitmp2)
bitmp3 = al_load_bitmap("image/n3.jpg")
texture[3] = al_get_opengl_texture(bitmp3)
bitmp4 = al_load_bitmap("image/n4.jpg")
texture[4] = al_get_opengl_texture(bitmp4)
bitmp5 = al_load_bitmap("image/n5.jpg")
texture[5] = al_get_opengl_texture(bitmp5)
bitmp6 = al_load_bitmap("image/n6.jpg")
texture[6] = al_get_opengl_texture(bitmp6)
bitmp7 = al_load_bitmap("image/n7.jpg")
texture[7] = al_get_opengl_texture(bitmp7)
bitmp8 = al_load_bitmap("image/n8.jpg")
texture[8] = al_get_opengl_texture(bitmp8)
bitmp9 = al_load_bitmap("image/empty.png")
texture[9] = al_get_opengl_texture(bitmp9)
func cube(x,y,z,nTexture)
glLoadIdentity()
glTranslatef(x,y,z)
glRotatef(xrot,1.0,0.0,0.0)
glRotatef(yrot,0.0,1.0,0.0)
glRotatef(zrot,0.0,0.0,1.0)
setCubeTexture(nTexture)
drawCube()
func setCubeTexture cTexture
glBindTexture(GL_TEXTURE_2D, cTexture)
func Rotate
xrot += 0.3 * 5
yrot += 0.2 * 5
zrot += 0.4 * 5
func drawcube
glBegin(GL_QUADS)
// Front Face
glTexCoord2f(0.0, 0.0) glVertex3f(-1.0, -1.0, 1.0)
glTexCoord2f(1.0, 0.0) glVertex3f( 1.0, -1.0, 1.0)
glTexCoord2f(1.0, 1.0) glVertex3f( 1.0, 1.0, 1.0)
glTexCoord2f(0.0, 1.0) glVertex3f(-1.0, 1.0, 1.0)
// Back Face
glTexCoord2f(1.0, 0.0) glVertex3f(-1.0, -1.0, -1.0)
glTexCoord2f(1.0, 1.0) glVertex3f(-1.0, 1.0, -1.0)
glTexCoord2f(0.0, 1.0) glVertex3f( 1.0, 1.0, -1.0)
glTexCoord2f(0.0, 0.0) glVertex3f( 1.0, -1.0, -1.0)
// Top Face
glTexCoord2f(0.0, 1.0) glVertex3f(-1.0, 1.0, -1.0)
glTexCoord2f(0.0, 0.0) glVertex3f(-1.0, 1.0, 1.0)
glTexCoord2f(1.0, 0.0) glVertex3f( 1.0, 1.0, 1.0)
glTexCoord2f(1.0, 1.0) glVertex3f( 1.0, 1.0, -1.0)
// Bottom Face
glTexCoord2f(1.0, 1.0) glVertex3f(-1.0, -1.0, -1.0)
glTexCoord2f(0.0, 1.0) glVertex3f( 1.0, -1.0, -1.0)
glTexCoord2f(0.0, 0.0) glVertex3f( 1.0, -1.0, 1.0)
glTexCoord2f(1.0, 0.0) glVertex3f(-1.0, -1.0, 1.0)
// Right face
glTexCoord2f(1.0, 0.0) glVertex3f( 1.0, -1.0, -1.0)
glTexCoord2f(1.0, 1.0) glVertex3f( 1.0, 1.0, -1.0)
glTexCoord2f(0.0, 1.0) glVertex3f( 1.0, 1.0, 1.0)
glTexCoord2f(0.0, 0.0) glVertex3f( 1.0, -1.0, 1.0)
// Left Face
glTexCoord2f(0.0, 0.0) glVertex3f(-1.0, -1.0, -1.0)
glTexCoord2f(1.0, 0.0) glVertex3f(-1.0, -1.0, 1.0)
glTexCoord2f(1.0, 1.0) glVertex3f(-1.0, 1.0, 1.0)
glTexCoord2f(0.0, 1.0) glVertex3f(-1.0, 1.0, -1.0)
glEnd()
class GameBackground
nBackX = 0
nBackY = 0
nBackDiffx = -1
nBackDiffy = -1
nBackMotion = 1
aBackMotionList = [
[ -1, -1 ] , # Down - Right
[ 0 , 1 ] , # Up
[ -1, -1 ] , # Down - Right
[ 0 , 1 ] , # Up
[ 1 , -1 ] , # Down - Left
[ 0 , 1 ] , # Up
[ 1 , -1 ] , # Down - Left
[ 0 , 1 ] # Up
]
bitmap
func Update
draw()
motion()
func draw
al_draw_bitmap(bitmap,nBackX,nBackY,1)
func motion
nBackX += nBackDiffx
nBackY += nBackDiffy
if (nBackY = -350) or (nBackY = 0)
nBackMotion++
if nBackMotion > len(aBackMotionList)
nBackMotion = 1
ok
nBackDiffx = aBackMotionList[nBackMotion][1]
nBackDiffy = aBackMotionList[nBackMotion][2]
ok
func loadResources
bitmap = al_load_bitmap("image/back.jpg")
class GameSound
sample sampleid
func loadresources
sample = al_load_sample( "sound/music1.wav" )
sampleid = al_new_allegro_sample_id()
al_play_sample(sample, 1.0, 0.0,1.0,ALLEGRO_PLAYMODE_LOOP,sampleid)
class GraphicsAppBase
display event_queue ev timeout
timer
redraw = true
FPS = 60
SCREEN_W = 1024
SCREEN_H = 700
KEY_UP = 1
KEY_DOWN = 2
KEY_LEFT = 3
KEY_RIGHT = 4
Key = [false,false,false,false]
Mouse_X = 0
Mouse_Y = 0
TITLE = "Graphics Application"
PRINT_MOUSE_XY = False
func start
SetUp()
loadResources()
eventsLoop()
destroy()
func setup
al_init()
al_init_font_addon()
al_init_ttf_addon()
al_init_image_addon()
al_install_audio()
al_init_acodec_addon()
al_reserve_samples(1)
al_set_new_display_flags(ALLEGRO_OPENGL)
display = al_create_display(SCREEN_W,SCREEN_H)
al_set_window_title(display,TITLE)
al_clear_to_color(al_map_rgb(0,0,0))
event_queue = al_create_event_queue()
al_register_event_source(event_queue,
al_get_display_event_source(display))
ev = al_new_allegro_event()
timeout = al_new_allegro_timeout()
al_init_timeout(timeout, 0.06)
timer = al_create_timer(1.0 / FPS)
al_register_event_source(event_queue,
al_get_timer_event_source(timer))
al_start_timer(timer)
al_install_mouse()
al_register_event_source(event_queue,
al_get_mouse_event_source())
al_install_keyboard()
al_register_event_source(event_queue,
al_get_keyboard_event_source())
func eventsLoop
while true
al_wait_for_event_until(event_queue, ev, timeout)
switch al_get_allegro_event_type(ev)
on ALLEGRO_EVENT_DISPLAY_CLOSE
CloseEvent()
on ALLEGRO_EVENT_TIMER
redraw = true
on ALLEGRO_EVENT_MOUSE_AXES
mouse_x = al_get_allegro_event_mouse_x(ev)
mouse_y = al_get_allegro_event_mouse_y(ev)
if PRINT_MOUSE_XY
see "x = " + mouse_x + nl
see "y = " + mouse_y + nl
ok
on ALLEGRO_EVENT_MOUSE_ENTER_DISPLAY
mouse_x = al_get_allegro_event_mouse_x(ev)
mouse_y = al_get_allegro_event_mouse_y(ev)
on ALLEGRO_EVENT_MOUSE_BUTTON_UP
MouseClickEvent()
on ALLEGRO_EVENT_KEY_DOWN
switch al_get_allegro_event_keyboard_keycode(ev)
on ALLEGRO_KEY_UP
key[KEY_UP] = true
on ALLEGRO_KEY_DOWN
key[KEY_DOWN] = true
on ALLEGRO_KEY_LEFT
key[KEY_LEFT] = true
on ALLEGRO_KEY_RIGHT
key[KEY_RIGHT] = true
off
on ALLEGRO_EVENT_KEY_UP
switch al_get_allegro_event_keyboard_keycode(ev)
on ALLEGRO_KEY_UP
key[KEY_UP] = false
on ALLEGRO_KEY_DOWN
key[KEY_DOWN] = false
on ALLEGRO_KEY_LEFT
key[KEY_LEFT] = false
on ALLEGRO_KEY_RIGHT
key[KEY_RIGHT] = false
on ALLEGRO_KEY_ESCAPE
exit
off
off
if redraw and al_is_event_queue_empty(event_queue)
redraw = false
drawScene()
al_flip_display()
ok
callgc()
end
func destroy
al_destroy_timer(timer)
al_destroy_allegro_event(ev)
al_destroy_allegro_timeout(timeout)
al_destroy_event_queue(event_queue)
al_destroy_display(display)
al_exit()
func loadresources
func drawScene
func MouseClickEvent
exit # Exit from the Events Loop
func CloseEvent
exit # Exit from the Events Loop
</syntaxhighlight>
[https://youtu.be/xvhNKTZKi8U CalmoSoft Fifteen Puzzle Game in 3D]
=={{header|Ruby}}==
<syntaxhighlight lang="ruby">require 'io/console'
class Board
SIZE = 4
RANGE = 0...SIZE
def initialize
width = (SIZE*SIZE-1).to_s.size
@frame = ("+" + "-"*(width+2)) * SIZE + "+"
@form = "| %#{width}d " * SIZE + "|"
@step = 0
@orign = [*0...SIZE*SIZE].rotate.each_slice(SIZE).to_a.freeze
@board = @orign.map{|row | row.dup}
randomize
draw
message
play
end
private
def randomize
@board[0][0], @board[SIZE-1][SIZE-1] = 0, 1
@board[SIZE-1][0], @board[0][SIZE-1] = @board[0][SIZE-1], @board[SIZE-1][0]
x, y, dx, dy = 0, 0, 1, 0
50.times do
nx,ny = [[x+dx,y+dy], [x+dy,y-dx], [x-dy,y+dx]]
.select{|nx,ny| RANGE.include?(nx) and RANGE.include?(ny)}
.sample
@board[nx][ny], @board[x][y] = 0, @board[nx][ny]
x, y, dx, dy = nx, ny, nx-x, ny-y
end
@x, @y = x, y
end
def draw
puts "\e[H\e[2J"
@board.each do |row|
puts @frame
puts (@form % row).sub(" 0 ", " ")
end
puts @frame
puts "Step: #{@step}"
end
DIR = {up: [-1,0], down: [1,0], left: [0,-1], right: [0,1]}
def move(direction)
dx, dy = DIR[direction]
nx, ny = @x + dx, @y + dy
if RANGE.include?(nx) and RANGE.include?(ny)
@board[nx][ny], @board[@x][@y] = 0, @board[nx][ny]
@x, @y = nx, ny
@step += 1
draw
end
end
def play
until @board == @orign
case key_in
when "\e[A", "w" then move(:up)
when "\e[B", "s" then move(:down)
when "\e[C", "d" then move(:right)
when "\e[D", "a" then move(:left)
when "q","\u0003","\u0004" then exit
when "h" then message
end
end
puts "Congratulations, you have won!"
end
def key_in
input = STDIN.getch
if input == "\e"
2.times {input << STDIN.getch}
end
input
end
def message
puts <<~EOM
Use the arrow-keys or WASD on your keyboard to push board in the given direction.
PRESS q TO QUIT (or Ctrl-C or Ctrl-D)
EOM
end
end
Board.new</syntaxhighlight>
{{out}}
<pre>
+----+----+----+----+
| 5 | 7 | 2 | 13 |
+----+----+----+----+
| 6 | | 8 | 12 |
+----+----+----+----+
| 10 | 3 | 1 | 15 |
+----+----+----+----+
| 9 | 4 | 14 | 11 |
+----+----+----+----+
Step: 0
Use the arrow-keys or WASD on your keyboard to push board in the given direction.
PRESS q TO QUIT (or Ctrl-C or Ctrl-D)
</pre>
{{libheader|RubyGems}}
{{libheader|JRubyArt}}
Gui Version:-
<syntaxhighlight lang="ruby">DIM = 100
SOLUTION = %w[1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 0].freeze
attr_reader :bcolor, :dark, :light, :tcolor, :space, :blank, :list
def settings
size(400, 400)
end
def setup
sketch_title 'Fifteen Tile Puzzle'
labels = SOLUTION.shuffle
@list = []
grid(width, height, DIM, DIM) do |y, x|
list << Tile.new(Vec2D.new(x, y), labels[list.length])
end
@tcolor = color(255, 175, 0)
@bcolor = color(235, 231, 178)
@dark = color(206, 141, 0)
@light = color(255, 214, 126)
text_size(DIM / 2.7)
text_align(CENTER)
no_loop
end
def draw
list.each(&:draw)
end
def mouse_clicked
inside = list.find_index { |tile| tile.include?(Vec2D.new(mouse_x, mouse_y)) }
target = list.find_index { |tile| tile.label == '0' }
source = list[inside].pos
dest = list[target].pos
return unless source.dist(dest) == DIM
list[target].label = list[inside].label
list[inside].label = '0'
redraw
end
# Our Tile Boundary Class
class Boundary
attr_reader :low, :high
def initialize(low, high)
@low = low
@high = high
end
def include?(val)
return false unless (low.x...high.x).cover? val.x
return false unless (low.y...high.y).cover? val.y
true
end
end
# Holds Tile logic and draw (Processing::Proxy give access to Sketch methods)
class Tile
include Processing::Proxy
attr_writer :label
attr_reader :boundary, :label, :pos
def initialize(pos, lbl)
@label = lbl
@pos = pos
@boundary = Boundary.new(pos, pos + Vec2D.new(DIM, DIM))
end
def draw_empty
fill(bcolor)
rect(pos.x + 1, pos.y + 1, DIM - 1, DIM - 1)
end
def draw_tile
rect(pos.x + 1, pos.y + 1, DIM - 1, DIM - 1)
fill(0) # Black text shadow
text(label, pos.x + DIM / 2 + 1, pos.y + DIM / 2 + text_ascent / 2)
fill(255)
text(label, pos.x + DIM / 2, pos.y + DIM / 2 + text_ascent / 2)
stroke(dark)
line(pos.x + DIM - 1, pos.y + 1, pos.x + DIM - 1, pos.y + DIM - 2) # Right side shadow
line(pos.x + 2, pos.y + DIM, pos.x + DIM - 1, pos.y + DIM - 2) # Bottom side shadow
stroke(light)
line(pos.x + 2, pos.y - 1, pos.x + 2, pos.y + DIM - 1) # Left bright
line(pos.x + 2, pos.y + 1, pos.x + DIM - 1, pos.y + 1) # Upper bright
end
def include?(vec)
boundary.include?(vec)
end
def draw
no_stroke
return draw_empty if label == '0'
fill(tcolor)
draw_tile
end
end
</syntaxhighlight>
=={{header|Run BASIC}}==
<syntaxhighlight lang="runbasic">call SetCSS
' ---- fill 15 squares with 1 to 15
dim sq(16)
for i = 1 to 15: sq(i) = i: next
'----- shuffle the squares
[newGame]
for i = 1 to 100 ' Shuffle the squares
j = rnd(0) * 16 + 1
k = rnd(0) * 16 + 1
h = sq(j)
sq(j) = sq(k)
sq(k) = h
next i
' ---- show the squares
[loop]
cls
html "<CENTER><TABLE><TR align=center>"
for i = 1 to 16
html "<TD>"
if sq(i) <> 0 then
button #pick, str$(sq(i)), [pick]
#pick setkey(str$(i))
#pick cssclass("lBtn")
end if
html "</TD>"
if i mod 4 = 0 then html "</TR><TR align=center>"
next i
html "</table>"
wait
' ---- Find what square they picked
[pick]
picked = val(EventKey$)
move = 0 ' 0000000001111111
if picked - 1 > 0 then ' LEFT 1234567890123456
if mid$(" *** *** *** ***",picked,1) = "*" and sq(picked -1) = 0 then move = -1 :end if
if picked + 1 < 17 then ' RIGHT
if mid$("*** *** *** *** ",picked,1) = "*" and sq(picked +1) = 0 then move = 1 :end if
if picked - 4 > 0 then ' UP
if mid$(" ************",picked,1) = "*" and sq(picked -4) = 0 then move = -4 :end if
if picked + 4 < 17 then ' DOWN
if mid$("************ ",picked,1) = "*" and sq(picked +4) = 0 then move = 4 :end if
' ---- See if they picked a valid square next to the blank square
if move = 0 then
print "Invalid move: ";sq(picked)
wait
end if
' ---- Valid squire, switch it with the blank square
sq(picked + move) = sq(picked) ' move to the empty square
sq(picked) = 0
for i = 1 to 15 ' ---- If they got them all in a row they are a winner
if sq(i) <> i then goto [loop]
next i
print "----- You are a winner -----"
input "Play again (Y/N)";a$
if a$ = "Y" then goto [newGame] ' set up new game
end
' ---- Make the squares look nice
SUB SetCSS
CSSClass ".lBtn", "{
background:wheat;border-width:5px;width:70px;
Text-Align:Center;Font-Size:24pt;Font-Weight:Bold;Font-Family:Arial;
}"
END SUB</syntaxhighlight>
Output:
[[File:KokengeGame15.jpg]]
=={{header|Rust}}==
{{libheader|rand}}
<syntaxhighlight lang="rust">
extern crate rand;
use clearscreen::clear;
use std::collections::HashMap;
use std::fmt;
use std::io::{self, Write};
use rand::seq::SliceRandom;
use rand::Rng;
#[derive(Copy, Clone, PartialEq, Debug)]
enum Cell {
Card(usize),
Empty,
}
#[derive(Eq, PartialEq, Hash, Debug)]
enum Direction {
Up,
Down,
Left,
Right,
}
enum Action {
Move(Direction),
Quit,
}
type Board = [Cell; 16];
const EMPTY: Board = [Cell::Empty; 16];
struct P15 {
board: Board,
}
impl P15 {
fn new() -> Self {
let mut board = EMPTY;
for (i, cell) in board.iter_mut().enumerate().skip(1) {
*cell = Cell::Card(i);
}
let mut rng = rand::thread_rng();
board.shuffle(&mut rng);
if !Self::is_valid(board) {
// random swap
let i = rng.gen_range(0..16);
let mut j = rng.gen_range(0..16);
while j == i {
j = rng.gen_range(0..16);
}
board.swap(i, j);
}
Self { board }
}
fn is_valid(mut board: Board) -> bool {
// TODO: optimize
let mut permutations = 0;
let pos = board.iter().position(|&cell| cell == Cell::Empty).unwrap();
if pos != 15 {
board.swap(pos, 15);
permutations += 1;
}
for i in 1..16 {
let pos = board
.iter()
.position(|&cell| matches!(cell, Cell::Card(value) if value == i))
.unwrap();
if pos + 1 != i {
board.swap(pos, i - 1);
permutations += 1;
}
}
permutations % 2 == 0
}
fn get_empty_position(&self) -> usize {
self.board.iter().position(|&c| c == Cell::Empty).unwrap()
}
fn get_moves(&self) -> HashMap<Direction, Cell> {
let mut moves = HashMap::new();
let i = self.get_empty_position();
if i > 3 {
moves.insert(Direction::Up, self.board[i - 4]);
}
if i % 4 != 0 {
moves.insert(Direction::Left, self.board[i - 1]);
}
if i < 12 {
moves.insert(Direction::Down, self.board[i + 4]);
}
if i % 4 != 3 {
moves.insert(Direction::Right, self.board[i + 1]);
}
moves
}
fn play(&mut self, direction: &Direction) {
let i = self.get_empty_position();
// This is safe because `ask_action` only returns legal moves
match *direction {
Direction::Up => self.board.swap(i, i - 4),
Direction::Left => self.board.swap(i, i - 1),
Direction::Right => self.board.swap(i, i + 1),
Direction::Down => self.board.swap(i, i + 4),
};
}
fn is_complete(&self) -> bool {
self.board.iter().enumerate().all(|(i, &cell)| match cell {
Cell::Card(value) => value == i + 1,
Cell::Empty => i == 15,
})
}
}
impl fmt::Display for P15 {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
(writeln!(f,
for (i, &cell) in
if i % 4 == 3 {
}
Ok(())
}
}
fn main() {
let mut
for turns in 1.. {
match ask_action(&p15.get_moves(), true) {
Action::Move(direction) => {
p15.play(&direction);
clear().expect("failed to clear screen");
}
Action::Quit => {
clear().expect("failed to clear screen");
println!("Bye!");
break;
}
}
if p15.is_complete() {
println!("Well done! You won in {turns} turns");
break;
}
}
}
fn ask_action(moves: &HashMap<Direction, Cell>, render_list: bool) -> Action {
use Action::*;
use Direction::*;
if render_list {
println!("Possible moves:");
if let Some(&Cell::Card(value)) = moves.get(&Up) {
println!("\tU) {value}");
}
if let Some(&Cell::Card(value)) = moves.get(&Left) {
println!("\tL) {value}");
}
if let Some(&Cell::Card(value)) = moves.get(&Right) {
println!("\tR) {value}");
}
if let Some(&Cell::Card(value)) = moves.get(&Down) {
println!("\tD) {value}");
}
println!("\tQ) Quit");
print!("Choose your move: ");
io::stdout().flush().unwrap();
} else {
print!("Unknown move, try again: ");
io::stdout().flush().unwrap();
}
let mut action = String::new();
io::stdin().read_line(&mut action).expect("read error");
match action.to_uppercase().trim() {
"U" if moves.contains_key(&Up) => Move(Up),
"L" if moves.contains_key(&Left) => Move(Left),
"R" if moves.contains_key(&Right) => Move(Right),
"D" if moves.contains_key(&Down) => Move(Down),
"Q" => Quit,
_ => {
if unknown_action() {
ask_action(moves, true)
} else {
ask_action(moves, false)
}
}
}
}
fn unknown_action() -> bool {
use crossterm::{
cursor::MoveToPreviousLine,
terminal::{Clear, ClearType},
ExecutableCommand,
};
std::io::stdout().execute(MoveToPreviousLine(1)).unwrap();
std::io::stdout()
.execute(Clear(ClearType::CurrentLine))
.unwrap();
false
}
</syntaxhighlight>
=={{header|Scala}}==
<syntaxhighlight lang="scala">import java.util.Random
import jline.console._
import scala.annotation.tailrec
import scala.collection.immutable
import scala.collection.parallel.immutable.ParVector
object FifteenPuzzle {
def main(args: Array[String]): Unit = play()
@tailrec def play(len: Int = 1000): Unit = if(gameLoop(Board.randState(len))) play(len)
def gameLoop(board: Board): Boolean = {
val read = new ConsoleReader()
val km = KeyMap.keyMaps().get("vi-insert")
val opMap = immutable.HashMap[Operation, Char](
Operation.PREVIOUS_HISTORY -> 'u',
Operation.BACKWARD_CHAR -> 'l',
Operation.NEXT_HISTORY -> 'd',
Operation.FORWARD_CHAR -> 'r')
@tailrec
def gloop(b: Board): Boolean = {
println(s"\u001B[2J\u001B[2;0H$b\n←↑→↓q")
if(b.isSolved) println("Solved!\nPlay again? (y/n)")
read.readBinding(km) match{
case Operation.SELF_INSERT => read.getLastBinding match{
case "q" => false
case "y" if b.isSolved => true
case "n" if b.isSolved => false
case _ => gloop(b)
}
case op: Operation if opMap.isDefinedAt(op) => gloop(b.move(opMap(op)))
case _ => gloop(b)
}
}
gloop(board)
}
case class Board(mat: immutable.HashMap[(Int, Int), Int], x: Int, y: Int) {
def move(mvs: Seq[Char]): Board = mvs.foldLeft(this){case (b, m) => b.move(m)}
def move(mov: Char): Board = mov match {
case 'r' if x < 3 => Board(mat ++ Seq(((x, y), mat((x + 1, y))), ((x + 1, y), 0)), x + 1, y)
case 'l' if x > 0 => Board(mat ++ Seq(((x, y), mat((x - 1, y))), ((x - 1, y), 0)), x - 1, y)
case 'd' if y < 3 => Board(mat ++ Seq(((x, y), mat((x, y + 1))), ((x, y + 1), 0)), x, y + 1)
case 'u' if y > 0 => Board(mat ++ Seq(((x, y), mat((x, y - 1))), ((x, y - 1), 0)), x, y - 1)
case _ => this
}
def isSolved: Boolean = sumDist == 0
def sumDist: Int = mat.to(LazyList).map{ case ((a, b), n) => if(n == 0) 6 - a - b else (a + b - ((n - 1) % 4) - ((n - 1) / 4)).abs }.sum
override def toString: String = {
val lst = mat.toVector.map { case ((a, b), n) => (4 * b + a, n) }.sortWith(_._1 < _._1).map(_._2)
lst.map { n => if (n == 0) " " else f"$n%2d" }.grouped(4).map(_.mkString(" ")).mkString("\n")
}
}
object Board {
val moves: Vector[Char] = Vector('r', 'l', 'd', 'u')
def apply(config: Vector[Int]): Board = {
val ind = config.indexOf(0)
val formed = config.zipWithIndex.map { case (n, i) => ((i % 4, i / 4), n) }
val builder = immutable.HashMap.newBuilder[(Int, Int), Int]
builder ++= formed
Board(builder.result, ind % 4, ind / 4)
}
def solveState: Board = apply((1 to 15).toVector :+ 0)
def randState(len: Int, rand: Random = new Random()): Board = Iterator
.fill(len)(moves(rand.nextInt(4)))
.foldLeft(Board.solveState) { case (state, mv) => state.move(mv) }
}
}</syntaxhighlight>
=={{header|Scheme}}==
<syntaxhighlight lang="scheme">
(import (scheme base)
(scheme read)
(scheme write)
(srfi 27)) ; random numbers
(define *start-position* #(1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 #\space))
(random-source-randomize! default-random-source)
;; return a 16-place vector with the tiles randomly shuffled
(define (create-start-position)
(let ((board (vector-copy *start-position*)))
(do ((i 0 (+ 1 i))
(moves (find-moves board) (find-moves board)))
((and (>= i 100)
(not (finished? board)))
board)
(make-move board
(list-ref moves (random-integer (length moves)))))))
;; return index of space
(define (find-space board)
(do ((i 0 (+ 1 i)))
((equal? #\space (vector-ref board i)) i)))
;; return a list of symbols indicating available moves
(define (find-moves board)
(let* ((posn (find-space board))
(row (quotient posn 4))
(col (remainder posn 4))
(result '()))
(when (> row 0) (set! result (cons 'up result)))
(when (< row 3) (set! result (cons 'down result)))
(when (> col 0) (set! result (cons 'left result)))
(when (< col 3) (set! result (cons 'right result)))
result))
;; make given move - assume it is legal
(define (make-move board move)
(define (swap posn-1 posn-2)
(let ((tmp (vector-ref board posn-1)))
(vector-set! board posn-1 (vector-ref board posn-2))
(vector-set! board posn-2 tmp)))
;
(let ((posn (find-space board)))
(case move
((left)
(swap posn (- posn 1)))
((right)
(swap posn (+ posn 1)))
((up)
(swap posn (- posn 4)))
((down)
(swap posn (+ posn 4))))))
(define (finished? board)
(equal? board *start-position*))
(define (display-board board)
(do ((i 0 (+ 1 i)))
((= i (vector-length board)) (newline))
(when (zero? (modulo i 4)) (newline))
(let ((curr (vector-ref board i)))
(display curr)
(display (if (and (number? curr)
(> curr 9))
" "
" ")))))
;; the main game loop
(define (play-game)
(let ((board (create-start-position)))
(do ((count 1 (+ count 1))
(moves (find-moves board) (find-moves board)))
((finished? board)
(display (string-append "\nCOMPLETED PUZZLE in "
(number->string count)
" moves\n")))
(display-board board)
(display "Enter a move: ") (display moves) (newline)
(let ((move (read)))
(if (memq move moves)
(make-move board move)
(display "Invalid move - try again"))))))
(play-game)
</syntaxhighlight>
{{out}}
<pre>
1 2 3
5 7 6 11
13 14 8 4
10 9 15 12
Enter a move: (right left down)
right
1 2 3
5 7 6 11
13 14 8 4
10 9 15 12
Enter a move: (left down)
down
1 2 3 11
5 7 6
13 14 8 4
10 9 15 12
Enter a move: (left down up)
down
1 2 3 11
5 7 6 4
13 14 8
10 9 15 12
Enter a move: (left down up)
</pre>
=={{header|Scilab}}==
<syntaxhighlight lang="text">tiles=[1:15,0];
solution=[tiles(1:4);...
tiles(5:8);...
tiles(9:12);...
tiles(13:16)];
solution=string(solution);
solution(16)=" ";
init_pos=grand(1,"prm",tiles);
puzzle=[init_pos(1:4);...
init_pos(5:8);...
init_pos(9:12);...
init_pos(13:16)];
puzzle=string(puzzle);
blank_pos=[];
for i=1:4
for j=1:4
if puzzle(i,j)=="0" then
blank_pos=[i,j];
end
end
end
clear i j
puzzle(blank_pos(1),blank_pos(2))=" ";
n_moves=0;
solved=%F;
while ~solved
disp(puzzle); mprintf("\n");
neighbours=[0 -1;...
-1 0;...
0 +1;...
+1 0];
neighbours(:,1)=neighbours(:,1)+blank_pos(1);
neighbours(:,2)=neighbours(:,2)+blank_pos(2);
neighbours=[neighbours zeros(4,1)]
i=0;
for i=1:4
if ~(neighbours(i,1)<1 | neighbours(i,1)>4 |...
neighbours(i,2)<1 | neighbours(i,2)>4) then
neighbours(i,3)=evstr(puzzle(neighbours(i,1),neighbours(i,2)));
end
end
valid_move=%F;
while ~valid_move
move_tile=[];
move_tile=input("Enter tile you want to move (0 to exit):");
if sum(move_tile==neighbours(:,3)) & move_tile~=0 then
valid_move=%T;
n_moves=n_moves+1;
elseif move_tile==0 then
disp("Exit");
abort
else
disp(puzzle);
disp("Invalid input");
end
end
neighb_i=find(neighbours(:,3)'==move_tile);
puzzle(neighbours(neighb_i,1),neighbours(neighb_i,2))=" ";
puzzle(blank_pos(1),blank_pos(2))=string(move_tile);
blank_pos=neighbours(neighb_i,1:2);
if sum(puzzle==solution)==16 then
solved=%T;
disp(puzzle);
mprintf("\n"+...
" _____ _ _ _ \n"+...
" / ____| | | | | |\n"+...
" | (___ ___ | |_ _____ __| | |\n"+...
" \\___ \\ / _ \\| \\ \\ / / _ \\/ _` | |\n"+...
" ____) | (_) | |\\ V / __/ (_| |_|\n"+...
" |_____/ \\___/|_| \\_/ \\___|\\__,_(_)\n")
end
end
disp("Solved in "+string(n_moves)+" moves.");</syntaxhighlight>
{{out}}
This test was run while making <code>init_pos=[1 2 3 4 5 6 7 8 9 14 10 11 13 0 15 12]</code>.
<pre>!1 2 3 4 !
! !
!5 6 7 8 !
! !
!9 14 10 11 !
! !
!13 15 12 !
Enter tile you want to move (0 to exit):
14
!1 2 3 4 !
! !
!5 6 7 8 !
! !
!9 10 11 !
! !
!13 14 15 12 !
Enter tile you want to move (0 to exit):
10
!1 2 3 4 !
! !
!5 6 7 8 !
! !
!9 10 11 !
! !
!13 14 15 12 !
Enter tile you want to move (0 to exit):
11
!1 2 3 4 !
! !
!5 6 7 8 !
! !
!9 10 11 !
! !
!13 14 15 12 !
Enter tile you want to move (0 to exit):
12
!1 2 3 4 !
! !
!5 6 7 8 !
! !
!9 10 11 12 !
! !
!13 14 15 !
_____ _ _ _
/ ____| | | | | |
| (___ ___ | |_ _____ __| | |
\___ \ / _ \| \ \ / / _ \/ _` | |
____) | (_) | |\ V / __/ (_| |_|
|_____/ \___/|_| \_/ \___|\__,_(_)
Solved in 4 moves.</pre>
=={{header|Simula}}==
<syntaxhighlight lang="simula">
BEGIN
CLASS FIFTEENPUZZLE(NUMTILES, SIDE, WIDTH, SEED);
INTEGER NUMTILES, SIDE, WIDTH, SEED;
BEGIN
INTEGER ARRAY TILES(0:NUMTILES);
INTEGER BLANKPOS;
PROCEDURE INVARIANT;
BEGIN
INTEGER ARRAY UQ(0:NUMTILES);
INTEGER I;
FOR I := 0 STEP 1 UNTIL NUMTILES DO UQ(I) := -1;
FOR I := 0 STEP 1 UNTIL NUMTILES DO
BEGIN
INTEGER T;
T := TILES(I);
IF UQ(T) <> -1 THEN ERROR("TILES ARE NOT UNIQUE");
UQ(T) := T;
END;
IF TILES(BLANKPOS) <> 0 THEN ERROR("BLANKPOS IS NOT BLANK");
END;
PROCEDURE SHUFFLE;
BEGIN
BOOLEAN B;
WHILE NOT B DO
BEGIN
INTEGER N;
RESET;
! DON'T INCLUDE THE BLANK SPACE IN THE SHUFFLE, LEAVE IT
! IN THE HOME POSITION ;
N := NUMTILES;
WHILE N > 1 DO
BEGIN
INTEGER R, TMP;
R := UNIFORM(0, N, SEED); N := N - 1;
TMP := TILES(R);
TILES(R) := TILES(N);
TILES(N) := TMP;
END;
B := ISSOLVABLE;
END;
INVARIANT;
END;
PROCEDURE RESET;
BEGIN
INTEGER I;
FOR I := 0 STEP 1 UNTIL NUMTILES DO
TILES(I) := MOD((I + 1), NUMTILES + 1);
BLANKPOS := NUMTILES;
INVARIANT;
END;
! ONLY HALF THE PERMUTATIONS OF THE PUZZLE ARE SOLVABLE.
! WHENEVER A TILE IS PRECEDED BY A TILE WITH HIGHER VALUE IT COUNTS
! AS AN INVERSION. IN OUR CASE, WITH THE BLANK SPACE IN THE HOME
! POSITION, THE NUMBER OF INVERSIONS MUST BE EVEN FOR THE PUZZLE
! TO BE SOLVABLE.
! SEE ALSO:
! WWW.CS.BHAM.AC.UK/~MDR/TEACHING/MODULES04/JAVA2/TILESSOLVABILITY.HTML
;
BOOLEAN PROCEDURE ISSOLVABLE;
BEGIN
INTEGER COUNTINVERSIONS;
INTEGER I, J;
FOR I := 0 STEP 1 UNTIL NUMTILES - 1 DO
FOR J := 0 STEP 1 UNTIL I - 1 DO
IF TILES(J) > TILES(I) THEN
COUNTINVERSIONS := COUNTINVERSIONS + 1;
ISSOLVABLE := MOD(COUNTINVERSIONS, 2) = 0;
END;
PROCEDURE PRINTBOARD;
BEGIN
INTEGER I, J;
PROCEDURE PRINTLINE;
BEGIN
INTEGER ROW, COL;
! +-----+-----+-----+-----+ ;
FOR ROW := 1 STEP 1 UNTIL SIDE DO
BEGIN
OUTCHAR('+');
FOR COL := 0 STEP 1 UNTIL WIDTH DO OUTCHAR('-');
END;
OUTCHAR('+');
OUTIMAGE;
END;
PROCEDURE PRINTCELL(T); INTEGER T;
BEGIN
IF T = 0 THEN
BEGIN
INTEGER R;
FOR R := 1 STEP 1 UNTIL WIDTH DO
OUTCHAR(' ');
END
ELSE OUTINT(T, WIDTH);
OUTCHAR(' ');
END;
! +-----+-----+-----+-----+
! | 1 | 2 | 3 | 4 |
! +-----+-----+-----+-----+
! | 5 | 6 | 7 | 8 |
! +-----+-----+-----+-----+
! | 9 | 10 | 11 | |
! +-----+-----+-----+-----+
! | 13 | 14 | 15 | 12 |
! +-----+-----+-----+-----+ ;
FOR I := 1 STEP 1 UNTIL SIDE DO
BEGIN
PRINTLINE;
OUTCHAR('|');
FOR J := 1 STEP 1 UNTIL SIDE DO
BEGIN
INTEGER T;
T := TILES((I - 1) * SIDE + (J - 1));
PRINTCELL(T);
OUTCHAR('|');
END;
OUTIMAGE;
END;
PRINTLINE;
END;
BOOLEAN PROCEDURE DONE;
BEGIN
BOOLEAN ORDERED;
INTEGER I, EXPECT;
ORDERED := TRUE;
EXPECT := 1;
FOR I := 0 STEP 1 UNTIL NUMTILES - 1 DO
BEGIN
IF I <> BLANKPOS THEN
BEGIN
IF TILES(I) <> EXPECT THEN
ORDERED := FALSE;
EXPECT := EXPECT + 1;
END;
END;
DONE := ORDERED;
END;
PROCEDURE REQUEST;
BEGIN
INTEGER ARRAY CANDIDATES(1:4);
INTEGER I, CANDCOUNT, CHOOSE;
BOOLEAN VALIDINPUT;
PROCEDURE ADDCAND(IDX); INTEGER IDX;
BEGIN
IF IDX >= 0 AND IDX <= NUMTILES THEN
BEGIN
CANDCOUNT := CANDCOUNT + 1;
CANDIDATES(CANDCOUNT) := TILES(IDX);
END;
END;
PRINTBOARD;
IF BLANKPOS <= NUMTILES - SIDE THEN ADDCAND(BLANKPOS + SIDE);
IF BLANKPOS >= SIDE THEN ADDCAND(BLANKPOS - SIDE);
IF MOD(BLANKPOS, SIDE) <> SIDE - 1 THEN ADDCAND(BLANKPOS + 1);
IF MOD(BLANKPOS, SIDE) <> 0 THEN ADDCAND(BLANKPOS - 1);
WHILE NOT VALIDINPUT DO
BEGIN
OUTTEXT("YOUR MOVE: ");
FOR I := 1 STEP 1 UNTIL CANDCOUNT DO
OUTINT(CANDIDATES(I), SIDE);
OUTIMAGE;
CHOOSE := ININT;
FOR I := 1 STEP 1 UNTIL CANDCOUNT DO
IF CHOOSE = CANDIDATES(I) THEN
BEGIN
INTEGER LOOKUP;
FOR LOOKUP := 0 STEP 1 UNTIL NUMTILES DO
IF NOT VALIDINPUT AND TILES(LOOKUP) = CHOOSE THEN
BEGIN
TILES(BLANKPOS) := TILES(LOOKUP);
TILES(LOOKUP) := 0;
BLANKPOS := LOOKUP;
INVARIANT;
VALIDINPUT := TRUE;
END;
END;
IF NOT VALIDINPUT THEN
BEGIN
OUTTEXT("INVALID INPUT!");
OUTIMAGE;
END;
END;
END;
SHUFFLE;
END;
REF(FIFTEENPUZZLE) P;
OUTTEXT("INPUT RANDOM SEED: ");
OUTIMAGE;
P :- NEW FIFTEENPUZZLE(15, 4, 3, ININT); ! ININT = RANDOM SEED ;
WHILE NOT P.DONE DO
P.REQUEST;
P.PRINTBOARD;
END.</syntaxhighlight>
{{out}}
<pre>INPUT RANDOM SEED:
456
+----+----+----+----+
| 15 | 8 | 13 | 14 |
+----+----+----+----+
| 1 | 2 | 9 | 4 |
+----+----+----+----+
| 12 | 3 | 5 | 7 |
+----+----+----+----+
| 11 | 6 | 10 | |
+----+----+----+----+
YOUR MOVE: 7 10
7
+----+----+----+----+
| 15 | 8 | 13 | 14 |
+----+----+----+----+
| 1 | 2 | 9 | 4 |
+----+----+----+----+
| 12 | 3 | 5 | |
+----+----+----+----+
| 11 | 6 | 10 | 7 |
+----+----+----+----+
YOUR MOVE: 7 4 5
4
+----+----+----+----+
| 15 | 8 | 13 | 14 |
+----+----+----+----+
| 1 | 2 | 9 | |
+----+----+----+----+
| 12 | 3 | 5 | 4 |
+----+----+----+----+
| 11 | 6 | 10 | 7 |
+----+----+----+----+
YOUR MOVE: 4 14 9
...
</pre>
=={{header|Standard ML}}==
{{works with|SML/NJ}}
{{works with|Moscow ML}}
<syntaxhighlight lang="sml">
(* Load required Modules for Moscow ML *)
load "Int";
load "Random";
(* Mutable Matrix *)
signature MATRIX =
sig
type 'a matrix
val construct : 'a -> int * int -> 'a matrix
val size : 'a matrix -> int * int
val get : 'a matrix -> int * int -> 'a
val set : 'a matrix -> int * int -> 'a -> unit
end
structure Matrix :> MATRIX =
struct
(* Array of rows, where the rows are a array of 'a *)
type 'a matrix = 'a Array.array Array.array
fun 'a construct (a : 'a) (width, height) : 'a matrix =
if width < 1 orelse height < 1
then raise Subscript
else Array.tabulate (height, fn _ => Array.tabulate (width, fn _ => a))
fun size b =
let
val firstrow = Array.sub (b, 0)
in
(Array.length firstrow, Array.length b)
end
fun get b (x, y) = Array.sub (Array.sub (b, y), x)
fun set b (x, y) v = Array.update (Array.sub (b, y), x, v)
end
signature P15BOARD =
sig
type board
datatype direction = North | East | South | West
val construct : int * int -> board
val emptyField : board -> int * int
val get : board -> int * int -> int option
val size : board -> int * int
exception IllegalMove
val moves : board -> int list
val move : board -> int -> unit
val issolved : board -> bool
end
(* Game Logic and data *)
structure Board :> P15BOARD =
struct
(* Matrix + empty Field position *)
type board = int option Matrix.matrix * (int * int) ref
datatype direction = North | East | South | West
exception IllegalMove
fun numberat width (x, y) = (y*width + x + 1)
fun construct (width, height) =
let
val emptyBoard : int option Matrix.matrix = Matrix.construct NONE (width, height)
in
(* Fill the board with numbers *)
List.tabulate (height, fn y => List.tabulate (width, fn x =>
Matrix.set emptyBoard (x, y) (SOME (numberat width (x, y)))));
(* Clear the last field *)
Matrix.set emptyBoard (width-1, height-1) NONE;
(* Return the board *)
(emptyBoard, ref (width-1, height-1))
end
fun emptyField (_, rfield) = !rfield
fun get (mat, _) (x, y) = Matrix.get mat (x, y)
fun size (mat, _) = Matrix.size mat
(* toggle the empty field with a given field *)
fun toggle (mat, rpos) pos =
let
val pos' = !rpos
val value = Matrix.get mat pos
in
Matrix.set mat pos NONE;
Matrix.set mat pos' value;
rpos := pos
end
(* Get list of positions of the neighbors of a given field *)
fun neighbors mat (x, y) : (int * int) list =
let
val (width, height) = Matrix.size mat
val directions = [(x, y-1), (x+1, y), (x, y+1), (x-1, y)]
in
List.mapPartial (fn pos => SOME (Matrix.get mat pos; pos) handle Subscript => NONE) directions
end
fun moves (mat, rpos) =
let
val neighbors = neighbors mat (!rpos)
in
map (fn pos => valOf (Matrix.get mat pos)) neighbors
end
fun move (mat, rpos) m =
let
val (hx, hy) = !rpos
val neighbors = neighbors mat (hx, hy)
val optNeighbor = List.find (fn pos => SOME m = Matrix.get mat pos) neighbors
in
if isSome optNeighbor
then
toggle (mat, rpos) (valOf optNeighbor)
else
raise IllegalMove
end
fun issolved board =
let
val (width, height) = size board
val xs = List.tabulate (width, fn x => x)
val ys = List.tabulate (height, fn y => y)
in
List.all (fn x => List.all (fn y => (x + 1 = width andalso y + 1 = height) orelse get board (x, y) = SOME (numberat width (x,y))) ys) xs
end
end
(* Board Shuffle *)
signature BOARDSHUFFLE =
sig
val shuffle : Board.board -> int -> unit
end
structure Shuffle :> BOARDSHUFFLE =
struct
(*
* Note: Random Number Interfaces are different in SML/NJ and Moscow ML. Comment out the corresponding version:
*)
(*
(* SML/NJ - Version *)
val time = Time.now ()
val timeInf = Time.toMicroseconds time
val timens = Int.fromLarge (LargeInt.mod (timeInf, 1073741823));
val rand = Random.rand (timens, timens)
fun next n = Random.randRange (0, n) rand
*)
(* Moscow ML - Version *)
val generator = Random.newgen ()
fun next n = Random.range (0, n) generator
fun shuffle board 0 = if (Board.issolved board) then shuffle board 1 else ()
| shuffle board n =
let
val moves = Board.moves board
val move = List.nth (moves, next (List.length moves - 1))
in
Board.move board move;
shuffle board (n-1)
end
end
(* Console interface *)
signature CONSOLEINTERFACE =
sig
val start : unit -> unit
val printBoard : Board.board -> unit
end
structure Console :> CONSOLEINTERFACE =
struct
fun cls () = print "\^[[1;1H\^[[2J"
fun promptNumber prompt =
let
val () = print prompt
(* Input + "\n" *)
val line = valOf (TextIO.inputLine TextIO.stdIn)
val length = String.size line
val input = String.substring (line, 0, length - 1)
val optnum = Int.fromString input
in
if isSome optnum
then valOf optnum
else (print "Input is not a number.\n"; promptNumber prompt)
end
fun fieldToString (SOME x) = Int.toString x
| fieldToString (NONE ) = ""
fun boardToString board =
let
val (width, height) = Board.size board
val xs = List.tabulate (width, fn x => x)
val ys = List.tabulate (height, fn y => y)
in
foldl (fn (y, str) => (foldl (fn (x, str') => str' ^ (fieldToString (Board.get board (x, y))) ^ "\t") str xs) ^ "\n") "" ys
end
fun printBoard board = print (boardToString board)
fun loop board =
let
val rvalidInput = ref false
val rinput = ref 42
val () = cls ()
val () = printBoard board
in
(* Ask for a move and repeat until it is a valid move *)
while (not (!rvalidInput)) do
(
rinput := promptNumber "Input the number to move: ";
Board.move board (!rinput);
rvalidInput := true
) handle Board.IllegalMove => print "Illegal move!\n"
end
fun start () =
let
val () = cls ()
val () = print "Welcome to nxm-Puzzle!\n"
val (width, height) = (promptNumber "Enter the width: ", promptNumber "Enter the height: ")
val diff = (promptNumber "Enter the difficulty (number of shuffles): ")
val board = Board.construct (width, height)
in
Shuffle.shuffle board diff;
while (not (Board.issolved board)) do loop board;
print "Solved!\n"
end
end
val () = Console.start()
</syntaxhighlight>
<b>Note:</b>
The interface for generating random numbers is different in SML/NJ and Moscow ML. Comment out the corresponding parts of code.<br>
The dimensions of the board (eg. 4x4) and the number of shuffles should be entered first.
=={{header|Tcl}}==
{{libheader|Tk}}
Works with Tcl/Tk 8.5
This program uses Tk, the graphical counterpart to Tcl.
The tiles are made of a grid of buttons, and the text
on the buttons is moved around.
The button "New game" selects one of the canned puzzles.
The window-title is used to show messages.
<syntaxhighlight lang="tcl"> # 15puzzle_21.tcl - HaJo Gurt - 2016-02-16
# http://wiki.tcl.tk/14403
#: 15-Puzzle - with grid, buttons and colors
package require Tk
set progVersion "15-Puzzle v0.21"; # 2016-02-20
global Msg Moves PuzzNr GoalNr
set Msg " "
set Moves -1
set PuzzNr 0
set GoalNr 0
set Keys { 11 12 13 14 21 22 23 24 31 32 33 34 41 42 43 44 }
set Puzz_T { T h e F i f t e e n P u z z l e }; # Title
set Goal_T { x x x F i f t e e n x x x x x x }; # Title-highlight
set Puzz_0 { E G P N C A F B D L H I O K M _ }; # - / 116
set Puzz_1 { C A F B E G P N D L H I O K M _ }; # E / 156 from Tk-demo
set Puzz_2 { E O N K M I _ G B H L P C F A D }; # L / 139
set Puzz_3 { P G M _ E L N D O K H I B C F A }; # EK / 146
set Goal_0 { A B C D E F G H I K L M N O P _ }; # Rows LTR / 1:E : 108
set Goal_1 { A E I N B F K O C G L P D H M _ }; # Cols forw. / 1:M : 114
set Puzz $Puzz_T
set Goal $Goal_T
#---+----1----+----2----+----3----+----4----+----5----+----6----+----7----+---
proc Move {k} {
# find the key with the empty tile:
set e -1
foreach p $::Keys {
set t [.key$p cget -text]
if { $t eq "_" } { set e $p }
}
if {$e < 0} {return 0}; # no key with empty tile found
if {$k == $e} {return 0}; # click was on the empty tile
set t [.key$k cget -text]
.key$e config -text $t
.key$k config -text "_";
return 1
}
proc Check {} {
set ok 0
set i 0
foreach k $::Keys {
set t [.key$k cget -text]
set g [lindex $::Goal $i]
incr i
.key$k config -background white
if { $t eq $g } { .key$k config -background lightgreen; incr ok }
if { $t eq "_" } { .key$k config -background gray }
}
# Solved:
update
if { $ok > 15 && $::Moves > 0} {
foreach k $::Keys {
.key$k flash; bell;
}
}
}
proc Click {k} {
set ::Msg ""
set val [.key$k cget -text]
set ok [Move $k]
incr ::Moves $ok
wm title . "$::Moves moves"
Check
}
proc ShowKeys {} {
set i 0
foreach k $::Keys {
set t [lindex $::Puzz $i]
incr i
.key$k config -text $t -background white;
}
Check
}
proc NewGame {N} {
global Msg Moves PuzzNr GoalNr
incr PuzzNr $N
if { $PuzzNr > 3} { set PuzzNr 0 }
set ::Goal $::Goal_0;
if { $GoalNr == 1} { set ::Goal $::Goal_1; }
if { $PuzzNr == 0} { set ::Puzz $::Puzz_0; }
if { $PuzzNr == 1} { set ::Puzz $::Puzz_1; }
if { $PuzzNr == 2} { set ::Puzz $::Puzz_2; }
if { $PuzzNr == 3} { set ::Puzz $::Puzz_3; }
set Msg "Try again"
if { $N>0 } { set Msg "New game" }
set Moves 0
ShowKeys
wm title . "$Msg "
}
#---+----1----+----2----+----3----+----4----+----5----+----6----+----7----+---
button .reset -text "Restart" -fg blue -command {NewGame 0}
button .newGame -text "New Game" -fg red -command {NewGame +1}
foreach k $::Keys {
button .key$k -text "$k" -width 4 -command "Click $k"
}
grid .newGame x .reset x -sticky nsew
grid .key11 .key12 .key13 .key14 -sticky nsew -padx 2 -pady 2
grid .key21 .key22 .key23 .key24 -sticky nsew -padx 2 -pady 2
grid .key31 .key32 .key33 .key34 -sticky nsew -padx 2 -pady 2
grid .key41 .key42 .key43 .key44 -sticky nsew -padx 2 -pady 2
grid configure .newGame .reset -columnspan 2 -padx 4
ShowKeys; Check
wm title . $progVersion
focus -force .
wm resizable . 0 0
# For some more versions, see: http://wiki.tcl.tk/15067 : Classic 15 Puzzle and http://wiki.tcl.tk/15085 : N-Puzzle
</syntaxhighlight>
=={{header|UNIX Shell}}==
{{works with|Bourne Again SHell|4+}}
This plays the game in an ANSI-compliant terminal using vi/nethack movement keys to slide the tiles.
<syntaxhighlight lang="bash">#!/usr/bin/env bash
main() {
local puzzle=({1..15} " ") blank moves_kv i key count total last
printf '\n'
show_puzzle "${puzzle[@]}"
printf '\nPress return to scramble.'
read _
IFS= readarray -t puzzle < <(scramble "${puzzle[@]}")
printf '\r\e[A\e[A\e[A\e[A\e[A\e[A'
show_puzzle "${puzzle[@]}"
printf '\nUse hjkl to slide tiles. '
printf '\r\e[A\e[A\e[A\e[A\e[A'
total=0
while ! solved "${puzzle[@]}"; do
show_puzzle "${puzzle[@]}"
{ read blank; readarray -t moves_kv; } < <(find_moves "${puzzle[@]}")
local count=${#moves_kv[@]}/2
local -A moves
for (( i=0; i<count; i++ )); do
moves[${moves_kv[i]}]=${moves_kv[i+count]}
done
read -r -n 1 key
printf '\r '
if [[ "$key" = u ]]; then
(( total -= 2 ))
case "$last" in
h) key=l;;
j) key=k;;
k) key=j;;
l) key=h;;
esac
fi
if [[ -n "${moves[$key]}" ]]; then
last=$key
(( total++ ))
i=${moves[$key]}
puzzle[$blank]=${puzzle[i]}
puzzle[i]=' '
fi
printf '\r\e[A\e[A\e[A\e[A'
done
show_puzzle "${puzzle[@]}"
printf '\nSolved in %d moves. \n' "$total"
}
solved() {
local solved=({1..15} ' ')
[[ "${puzzle[*]}" == "${solved[*]}" ]]
}
show_puzzle() {
printf '%2s %2s %2s %2s\n' "$@"
}
find_moves() {
local puzzle=("$@")
local i j blank
for (( i=0; i<${#puzzle[@]}; ++i )); do
if [[ "${puzzle[i]}" == " " ]]; then
blank=$i
break
fi
done
local -A moves=()
if (( blank%4 )); then
# swapping blank with tile to its left
# is sliding that tile right, which is the l key
moves['l']=$(( blank-1 ))
fi
if (( blank%4 != 3 )); then
moves['h']=$(( blank+1 )) # left
fi
if (( blank >= 4 )); then
moves['j']=$(( blank-4 )) # down
fi
if (( blank < 12 )); then
moves['k']=$(( blank+4 )) # up
fi
printf '%s\n' "$blank" "${!moves[@]}" "${moves[@]}"
}
scramble() {
local puzzle=("$@") i j
for (( i=0; i<256; ++i )); do
local blank moves
{ read blank; readarray -t moves; } < <(find_moves "${puzzle[@]}")
moves=(${moves[@]:${#moves[@]}/2})
local dir=$(( RANDOM % ${#moves[@]} ))
j=${moves[dir]}
puzzle[blank]=${puzzle[j]}
puzzle[j]=' '
done
printf '%s\n' "${puzzle[@]}"
}
main "$@"</syntaxhighlight>
{{Out}}
<pre> 1 2 3 4
5 6 7 8
9 10 11 12
13 14 15
Press return to scramble.
</pre>
=={{header|VBA}}==
This allows the user to specify the size of the grid (N x N). Only solvable layouts are displayed.
This uses InputBoxes to display the grid of tiles, and prompts the user to enter the number on the tile they wish to move into the empty space.
The last move is displayed on the input box, or an error message if an invalid move is attempted. When the puzzle is solved, the move count is displayed.
<syntaxhighlight lang="vb">
Public iSide As Integer
Public iSize As Integer
Public iGrid() As Integer
Public lMoves As Long
Public sMessage As String
Public Const sTitle As String = "Tile Puzzle"
Sub PlayGame()
Dim iNum As Integer
Dim i As Integer
Dim vInput As Variant
DefineGrid:
vInput = InputBox("Enter size of grid, as a whole number" & String(2, vbCr) & "(e.g. for a 4 x 4 grid, enter '4')", sTitle, 4)
If vInput = "" Then Exit Sub
If Not IsNumeric(vInput) Then GoTo DefineGrid
iSide = vInput
If iSide < 3 Or iNum > 10 Then GoTo DefineGrid
iSize = iSide ^ 2
ReDim iGrid(1 To iSize)
Initalize:
InitializeGrid
If Not IsSolvable Then GoTo Initalize
GetInput:
vInput = InputBox(ShowGrid & vbCr & "Enter number to move into empty tile", sTitle)
If vInput = "" Then
If MsgBox("Are you sure? This will end the current game.", vbExclamation + vbYesNo, sTitle) = vbYes Then Exit Sub
End If
If Not IsNumeric(vInput) Then
sMessage = "'" & vInput & "' is not a valid tile"
GoTo GetInput
End If
iNum = vInput
If iNum < 1 Or iNum > iSize - 1 Then
sMessage = iNum & " is not a valid tile"
GoTo GetInput
End If
i = FindTile(iNum)
If Not ValidMove(i) Then GoTo GetInput
MoveTile (i)
If TestGrid Then
MsgBox "SUCCESS! You solved the puzzle in " & lMoves & " moves", vbInformation + vbOKOnly, sTitle
Else
GoTo GetInput
End If
End Sub
Function RandomTile() As Integer
Randomize
RandomTile = Int(Rnd * iSize) + 1
End Function
Function GetX(ByVal i As Integer) As Integer
GetX = Int((i - 1) / iSide) + 1
End Function
Function GetY(ByVal i As Integer) As Integer
GetY = (i - 1) Mod iSide + 1
End Function
Function GetI(ByVal x As Integer, y As Integer)
GetI = (x - 1) * iSide + y
End Function
Function InitializeGrid()
Dim i As Integer
Dim x As Integer
Dim y As Integer
sMessage = "New " & iSide & " x " & iSide & " game started" & vbCr
For i = 1 To iSize
iGrid(i) = 0
Next i
For i = 1 To iSize - 1
Do
x = RandomTile
If iGrid(x) = 0 Then iGrid(x) = i
Loop Until iGrid(x) = i
Next i
lMoves = 0
End Function
Function IsSolvable() As Boolean
Dim i As Integer
Dim j As Integer
Dim iCount As Integer
For i = 1 To iSize - 1
For j = i + 1 To iSize
If iGrid(j) < iGrid(i) And iGrid(j) > 0 Then iCount = iCount + 1
Next j
Next i
If iSide Mod 2 Then
IsSolvable = Not iCount Mod 2
Else
IsSolvable = iCount Mod 2 = GetX(FindTile(0)) Mod 2
End If
End Function
Function TestGrid() As Boolean
Dim i As Integer
For i = 1 To iSize - 1
If Not iGrid(i) = i Then
TestGrid = False
Exit Function
End If
Next i
TestGrid = True
End Function
Function FindTile(ByVal iNum As Integer) As Integer
Dim i As Integer
For i = 1 To iSize
If iGrid(i) = iNum Then
FindTile = i
Exit Function
End If
Next i
End Function
Function ValidMove(ByVal i As Integer) As Boolean
Dim e As Integer
Dim xDiff As Integer
Dim yDiff As Integer
e = FindTile(0)
xDiff = GetX(i) - GetX(e)
yDiff = GetY(i) - GetY(e)
If xDiff = 0 Then
If yDiff = 1 Then
sMessage = "Tile " & iGrid(i) & " was moved left"
ValidMove = True
ElseIf yDiff = -1 Then
sMessage = "Tile " & iGrid(i) & " was moved right"
ValidMove = True
End If
ElseIf yDiff = 0 Then
If xDiff = 1 Then
sMessage = "Tile " & iGrid(i) & " was moved up"
ValidMove = True
ElseIf xDiff = -1 Then
sMessage = "Tile " & iGrid(i) & " was moved down"
ValidMove = True
End If
End If
If Not ValidMove Then sMessage = "Tile " & iGrid(i) & " may not be moved"
End Function
Function MoveTile(ByVal i As Integer)
Dim e As Integer
e = FindTile(0)
iGrid(e) = iGrid(i)
iGrid(i) = 0
lMoves = lMoves + 1
End Function
Function ShowGrid()
Dim x As Integer
Dim y As Integer
Dim i As Integer
Dim sNum As String
Dim s As String
For x = 1 To iSide
For y = 1 To iSide
sNum = iGrid(GetI(x, y))
If sNum = "0" Then sNum = ""
s = s & sNum & vbTab
Next y
s = s & vbCr
Next x
If Not sMessage = "" Then
s = s & vbCr & sMessage & vbCr
End If
ShowGrid = s
End Function
</syntaxhighlight>
Sample output:
<pre>
10 4 3 14
9 15 1 6
12 11 7 8
2 5 13
New 4 x 4 game started
Enter number to move into empty tile
</pre>
=={{header|Visual Basic .NET}}==
<syntaxhighlight lang="vbnet">Public Class Board
Inherits System.Windows.Forms.Form
Const XbyX = 4
Const XSize = 60
Private Empty As New Panel
Private Tiles As New List(Of Tile)
Private Moves As Integer
Public Sub New()
Me.Text = XbyX ^ 2 - 1 & " Puzzle Game"
Me.ClientSize = New Size(XbyX * XSize, XbyX * XSize)
Me.FormBorderStyle = FormBorderStyle.FixedToolWindow
Restart()
End Sub
Public Sub Restart()
Dim Start As List(Of Integer) = MakeCompleteable(GetRandamStartOrder())
Empty.SetBounds(((XbyX ^ 2 - 1) Mod XbyX) * XSize, ((XbyX ^ 2 - 1) \ XbyX) * XSize, XSize, XSize)
Me.Moves = 0
Me.Tiles.Clear()
Me.Controls.Clear()
For No = 0 To XbyX ^ 2 - 2
Dim Tile As New Tile
Tile.Text = Start(No)
Tile.Board = Me
Tile.SetBounds((No Mod XbyX) * XSize, (No \ XbyX) * XSize, XSize, XSize)
Me.Tiles.Add(Tile)
Me.Controls.Add(Tile)
Next
End Sub
Public Sub IsComplete()
Me.Moves += 1
If Empty.Left = ((XbyX ^ 2 - 1) Mod XbyX) * XSize AndAlso Empty.Top = ((XbyX ^ 2 - 1) \ XbyX) * XSize Then
Me.Tiles.Sort()
For x = 1 To XbyX ^ 2 - 1
If Not Tiles(x - 1).Text = x Then
Exit Sub
End If
Next
MsgBox($"Completed in {Me.Moves} Moves!", MsgBoxStyle.Information, "Winner")
Restart()
End If
End Sub
Public Class Tile
Inherits Button
Implements IComparable(Of Tile)
Public Board As Board
Private Sub Tile_Click(sender As Object, e As EventArgs) Handles Me.Click
With Board.Empty
If Me.Left = .Left AndAlso (Me.Top + Me.Height = .Top OrElse .Top + .Height = Me.Top) Then
Swap()
ElseIf Me.Top = .Top AndAlso (Me.Left + Me.Width = .Left OrElse .Left + .Width = Me.Left) Then
Swap()
End If
End With
End Sub
Private Sub Swap()
Dim p = Board.Empty.Location
Board.Empty.Location = Me.Location
Me.Location = p
Board.IsComplete()
End Sub
Public Function CompareTo(other As Tile) As Integer Implements IComparable(Of Tile).CompareTo
Dim Result = Me.Top.CompareTo(other.Top)
If Result = 0 Then
Return Me.Left.CompareTo(other.Left)
End If
Return Result
End Function
End Class
Public Function GetRandamStartOrder() As List(Of Integer)
Dim List As New List(Of Integer)
Dim Random As New Random()
Do While List.Count < XbyX ^ 2 - 1
Dim Value As Integer = Random.Next(1, XbyX ^ 2)
If Not List.Contains(Value) Then
List.Add(Value)
End If
Loop
Return List
End Function
Public Function MakeCompleteable(List As List(Of Integer)) As List(Of Integer)
'ToDo
Return List
End Function
End Class</syntaxhighlight>
=={{header|Visual Prolog}}==
'''Output:'''
[https://youtu.be/rWy3AX5HjXM 15 Puzzle in Visual Prolog - video]
<syntaxhighlight lang="visual prolog">
/* ------------------------------------------------------------------------------------------------------
Copyright (c) 2004 - Gal Zsolt (CalmoSoft)
------------------------------------------------------------------------------------------------------ */
implement playDialog
open core, vpiDomains, vpiOldDomains, resourceIdentifiers
facts
thisWin : vpiDomains::windowHandle := erroneous.
clauses
show(Parent):-
_ = vpi::winCreateDynDialog(Parent, controlList, eventHandler, gui_api::lNull).
/* ------------------------------------------------------------------------------------------------------ */
predicates
eventHandler : vpiDomains::ehandler.
clauses
eventHandler(Win, Event) = Result :-
Result = generatedEventHandler(Win, Event).
/* ------------------------------------------------------------------------------------------------------ */
predicates
onDestroy : vpiOldDomains::destroyHandler.
clauses
onDestroy() = vpiOldDomains::defaultHandling() :-
thisWin := erroneous.
/* ------------------------------------------------------------------------------------------------------ */
predicates
onControlCancel : vpiOldDomains::controlHandler.
clauses
onControlCancel(_Ctrl, _CtrlType, _CtrlWin, _CtrlInfo) = vpiOldDomains::handled(gui_api::rNull) :-
file::save("game.dba",gameDB),
retractall(table(_,_)),
retractall(gameplay(_,_)),
retractall(empty_cell(_)),
retractall(cell(_,_)),
retractall(cellnr(_,_)),
retractall(good(_,_,_)),
vpi::winDestroy(thisWin).
/* ------------------------------------------------------------------------------------------------------ */
predicates
onUpdate : vpiOldDomains::updateHandler.
clauses
onUpdate(Rectangle) = vpiOldDomains::defaultHandling():-
vpi::winClear( thisWin,Rectangle,0x808040),
!.
/* ------------------------------------------------------------------------------------------------------ */
class facts - gameDB
table:(integer,string).
gameplay:(integer,integer).
empty_cell:(integer).
class facts
cell:(integer,vpiDomains::windowHandle).
cellnr:(integer,integer).
/* ------------------------------------------------------------------------------------------------------ */
class facts
step_nr:integer:=0.
predicates
onCreate : vpiOldDomains::createHandler.
clauses
onCreate(_CreationData) = vpiOldDomains::defaultHandling():-
retractall(table(_,_)),
retractall(gameplay(_,_)),
retractall(empty_cell(_)),
retractall(cell(_,_)),
retractall(cellnr(_,_)),
retractall(good(_,_,_)),
scrollbars_init(),
cellhandle_init(),
empty:=16,
good_cell(0),
table_save(),
step_nr:=0,
fail.
onCreate(_CreationData) = vpiOldDomains::defaultHandling().
/* ------------------------------------------------------------------------------------------------------ */
facts
vsbarr : vpiDomains::windowHandle := erroneous.
vsbarl : vpiDomains::windowHandle := erroneous.
hsbart : vpiDomains::windowHandle := erroneous.
hsbarb : vpiDomains::windowHandle := erroneous.
predicates
scrollbars_init:().
clauses
scrollbars_init():-
vsbarr := vpi::winGetCtlHandle(thisWin,idc_sbvr),
vsbarl := vpi::winGetCtlHandle(thisWin,idc_sbvl),
hsbart := vpi::winGetCtlHandle(thisWin,idc_sbht),
hsbarb := vpi::winGetCtlHandle(thisWin,idc_sbhb),
vpi::winSetScrollRange(vsbarr,sb_Ctl,1,4),
vpi::winSetScrollProportion(vsbarr,sb_Ctl,1),
vpi::winSetScrollPos(vsbarr,sb_Ctl,4),
vpi::winSetScrollRange(vsbarl,sb_Ctl,1,4),
vpi::winSetScrollProportion(vsbarl,sb_Ctl,1),
vpi::winSetScrollPos(vsbarl,sb_Ctl,4),
vpi::winSetScrollRange(hsbart,sb_Ctl,1,4),
vpi::winSetScrollProportion(hsbart,sb_Ctl,1),
vpi::winSetScrollPos(hsbart,sb_Ctl,4),
vpi::winSetScrollRange(hsbarb,sb_Ctl,1,4),
vpi::winSetScrollProportion(hsbarb,sb_Ctl,1),
vpi::winSetScrollPos(hsbarb,sb_Ctl,4).
/* ------------------------------------------------------------------------------------------------------ */
class facts
cell1 : vpiDomains::windowHandle := erroneous.
cell2 : vpiDomains::windowHandle := erroneous.
cell3 : vpiDomains::windowHandle := erroneous.
cell4 : vpiDomains::windowHandle := erroneous.
cell5 : vpiDomains::windowHandle := erroneous.
cell6 : vpiDomains::windowHandle := erroneous.
cell7 : vpiDomains::windowHandle := erroneous.
cell8 : vpiDomains::windowHandle := erroneous.
cell9 : vpiDomains::windowHandle := erroneous.
cell10 : vpiDomains::windowHandle := erroneous.
cell11 : vpiDomains::windowHandle := erroneous.
cell12 : vpiDomains::windowHandle := erroneous.
cell13 : vpiDomains::windowHandle := erroneous.
cell14 : vpiDomains::windowHandle := erroneous.
cell15 : vpiDomains::windowHandle := erroneous.
cell16 : vpiDomains::windowHandle := erroneous.
predicates
cell_handle:().
clauses
cell_handle():-
cell1:=vpi::winGetCtlHandle(thisWin,idc_cell1),
cell2:=vpi::winGetCtlHandle(thisWin,idc_cell2),
cell3:=vpi::winGetCtlHandle(thisWin,idc_cell3),
cell4:=vpi::winGetCtlHandle(thisWin,idc_cell4),
cell5:=vpi::winGetCtlHandle(thisWin,idc_cell5),
cell6:=vpi::winGetCtlHandle(thisWin,idc_cell6),
cell7:=vpi::winGetCtlHandle(thisWin,idc_cell7),
cell8:=vpi::winGetCtlHandle(thisWin,idc_cell8),
cell9:=vpi::winGetCtlHandle(thisWin,idc_cell9),
cell10:=vpi::winGetCtlHandle(thisWin,idc_cell10),
cell11:=vpi::winGetCtlHandle(thisWin,idc_cell11),
cell12:=vpi::winGetCtlHandle(thisWin,idc_cell12),
cell13:=vpi::winGetCtlHandle(thisWin,idc_cell13),
cell14:=vpi::winGetCtlHandle(thisWin,idc_cell14),
cell15:=vpi::winGetCtlHandle(thisWin,idc_cell15),
cell16:=vpi::winGetCtlHandle(thisWin,idc_cell16).
/* ------------------------------------------------------------------------------------------------------ */
predicates
cellhandle_init:().
clauses
cellhandle_init():-
retractall(cell(_,_)),
cell_handle(),
assert(cell(1,cell1)),
assert(cell(2,cell2)),
assert(cell(3,cell3)),
assert(cell(4,cell4)),
assert(cell(5,cell5)),
assert(cell(6,cell6)),
assert(cell(7,cell7)),
assert(cell(8,cell8)),
assert(cell(9,cell9)),
assert(cell(10,cell10)),
assert(cell(11,cell11)),
assert(cell(12,cell12)),
assert(cell(13,cell13)),
assert(cell(14,cell14)),
assert(cell(15,cell15)),
assert(cell(16,cell16)).
/* ------------------------------------------------------------------------------------------------------ */
class facts
good_nr:integer:=0.
good:(integer,integer,integer) nondeterm.
empty:integer:=16.
predicates
good_cell:(integer) multi.
clauses
good_cell(16):-!.
good_cell(Number):-
NumberNew = Number+1,
good_nr:=0,
good_above(NumberNew), % movable cells above empty cell
good_before(NumberNew), % movable cells before empty cell
good_after(NumberNew), % movable cells after empty cell
good_under(NumberNew), % movable cells under empty cell
assert(cellnr(NumberNew,good_nr)), % number of movable cells around the empty cell
good_cell(NumberNew).
/* ------------------------------------------------------------------------------------------------------ */
predicates
good_above:(integer).
clauses
good_above(Number):-
Number > 4, % movable cells above empty cell
good_nr:= good_nr+1,
assert(good(Number,good_nr,Number-4)),
fail.
good_above(_).
/* ------------------------------------------------------------------------------------------------------ */
predicates
good_before:(integer).
clauses
good_before(Number):-
(Number mod 4) <> 1, % movable cells before empty cell
good_nr:= good_nr+1,
assert(good(Number,good_nr,Number-1)),
fail.
good_before(_).
/* ------------------------------------------------------------------------------------------------------ */
predicates
good_after:(integer).
clauses
good_after(Number):-
(Number mod 4) > 0, % movable cells after empty cell
good_nr:= good_nr+1,
assert(good(Number,good_nr,Number+1)),
fail.
good_after(_).
/* ------------------------------------------------------------------------------------------------------ */
predicates
good_under:(integer).
clauses
good_under(Number):-
Number < 13, % movable cells under empty cell
good_nr:= good_nr+1,
assert(good(Number,good_nr,Number+4)),
fail.
good_under(_).
/* ------------------------------------------------------------------------------------------------------ */
predicates
cell_click:(integer).
clauses
cell_click(NrCell):-
good(empty,_,NrCell),
cell(empty,EmptyHandle),
cell(NrCell,NrCellHandle),
EmptyNr = vpi::winGetText(NrCellHandle),
vpi::winSetText(EmptyHandle,EmptyNr),
vpi::winSetText(NrCellHandle,""),
empty:=NrCell,
step_nr := step_nr + 1,
Bingo = vpi::winGetCtlHandle(thisWin,idc_bingo),
vpi::winSetText( Bingo, ""),
vpi::winSetState(Bingo,[wsf_Invisible]),
bingo(),
% VerVal = uncheckedConvert(integer, math::floor((empty-1)/4)+1),
% HorVal = uncheckedConvert(integer, math::floor((empty-1) mod 4)+1),
VerVal = math::floor((empty-1)/4)+1,
HorVal = math::floor((empty-1) mod 4)+1,
vpi::winSetScrollPos(vsbarr,sb_Ctl,VerVal),
vpi::winSetScrollPos(vsbarl,sb_Ctl,VerVal),
vpi::winSetScrollPos(hsbart,sb_Ctl,HorVal),
vpi::winSetScrollPos(hsbarb,sb_Ctl,HorVal),
Step = vpi::winGetCtlHandle(thisWin,idc_step),
vpi::winSetText(Step,toString(step_nr)),
assert(gameplay(step_nr,NrCell)),
fail.
cell_click(_).
/* ------------------------------------------------------------------------------------------------------ */
predicates
cell_click_play:(integer).
clauses
cell_click_play(NrCell):-
good(empty,_,NrCell),
cell(empty,EmptyHandle),
cell(NrCell,NrCellHandle),
EmptyNr = vpi::winGetText(NrCellHandle),
vpi::winSetText(EmptyHandle,EmptyNr),
vpi::winSetText(NrCellHandle,""),
empty:=NrCell,
Bingo = vpi::winGetCtlHandle(thisWin,idc_bingo),
vpi::winSetText(Bingo, ""),
vpi::winSetState(Bingo,[wsf_Invisible]),
bingo(),
% VerVal = uncheckedConvert(integer,math::floor((empty-1)/4)+1),
% HorVal = uncheckedConvert(integer,math::floor((empty-1) mod 4)+1),
VerVal = math::floor((empty-1)/4)+1,
HorVal = math::floor((empty-1) mod 4)+1,
vpi::winSetScrollPos(vsbarr,sb_Ctl,VerVal),
vpi::winSetScrollPos(vsbarl,sb_Ctl,VerVal),
vpi::winSetScrollPos(hsbart,sb_Ctl,HorVal),
vpi::winSetScrollPos(hsbarb,sb_Ctl,HorVal),
programControl::sleep(1000),
fail.
cell_click_play(_).
/* ------------------------------------------------------------------------------------------------------ */
predicates
onControlmix : vpiOldDomains::controlHandler.
clauses
onControlmix(_CtrlID, _CtrlType, _CtrlWin, _CtrlInfo) = vpiOldDomains::handled(gui_api::rNull):-
step_nr:=0,
cell_reset(),
mix_cells(0),
Play = vpi::winGetCtlHandle(thisWin,idc_play),
vpi::winSetState(Play,[wsf_Disabled]),
Bingo = vpi::winGetCtlHandle(thisWin,idc_bingo),
vpi::winSetText(Bingo, ""),
vpi::winSetState(Bingo,[wsf_Invisible]),
step_nr:=0,
Step = vpi::winGetCtlHandle(thisWin,idc_step),
vpi::winSetText(Step,toString(step_nr)),
table_save(),
retractall(gameplay(_,_)),
fail.
onControlmix(_CtrlID, _CtrlType, _CtrlWin, _CtrlInfo) = vpiOldDomains::handled(gui_api::rNull).
/* ------------------------------------------------------------------------------------------------------ */
class facts
rand_nr:integer:=0.
mix_nr:integer:=300.
predicates
mix_cells:(integer) multi.
clauses
mix_cells(mix_nr):-!.
mix_cells(Number):-
NumberNew = Number+1,
cellnr(empty,CellNr),
RandomNr = (math::random(1315) mod CellNr) + 1,
rand_nr := RandomNr,
good(empty,rand_nr, I),
cell_click(I),
mix_cells(NumberNew).
mix_cells(_).
/* ------------------------------------------------------------------------------------------------------ */
predicates
table_save:().
clauses
table_save():-
retractall(table(_,_)),
retractall(empty_cell(_)),
assert(empty_cell(empty)),
assert(table(1,vpi::winGetText(cell1))),
assert(table(2,vpi::winGetText(cell2))),
assert(table(3,vpi::winGetText(cell3))),
assert(table(4,vpi::winGetText(cell4))),
assert(table(5,vpi::winGetText(cell5))),
assert(table(6,vpi::winGetText(cell6))),
assert(table(7,vpi::winGetText(cell7))),
assert(table(8,vpi::winGetText(cell8))),
assert(table(9,vpi::winGetText(cell9))),
assert(table(10,vpi::winGetText(cell10))),
assert(table(11,vpi::winGetText(cell11))),
assert(table(12,vpi::winGetText(cell12))),
assert(table(13,vpi::winGetText(cell13))),
assert(table(14,vpi::winGetText(cell14))),
assert(table(15,vpi::winGetText(cell15))),
assert(table(16,vpi::winGetText(cell16))).
/* ------------------------------------------------------------------------------------------------------ */
predicates
onControlreset : vpiOldDomains::controlHandler.
clauses
onControlreset(_CtrlID, _CtrlType, _CtrlWin, _CtrlInfo) = vpiOldDomains::handled(gui_api::rNull):-
cell_reset().
/* ------------------------------------------------------------------------------------------------------ */
predicates
cell_reset:().
clauses
cell_reset():-
vpi::winSetText(cell1,"1"),
vpi::winSetText(cell2,"2"),
vpi::winSetText(cell3,"3"),
vpi::winSetText(cell4,"4"),
vpi::winSetText(cell5,"5"),
vpi::winSetText(cell6,"6"),
vpi::winSetText(cell7,"7"),
vpi::winSetText(cell8,"8"),
vpi::winSetText(cell9,"9"),
vpi::winSetText(cell10,"10"),
vpi::winSetText(cell11,"11"),
vpi::winSetText(cell12,"12"),
vpi::winSetText(cell13,"13"),
vpi::winSetText(cell14,"14"),
vpi::winSetText(cell15,"15"),
vpi::winSetText(cell16,""),
vpi::winSetScrollPos(vsbarr,sb_Ctl,4),
vpi::winSetScrollPos(vsbarl,sb_Ctl,4),
vpi::winSetScrollPos(hsbart,sb_Ctl,4),
vpi::winSetScrollPos(hsbarb,sb_Ctl,4),
empty:=16,
step_nr:=0,
Step = vpi::winGetCtlHandle(thisWin,idc_step),
vpi::winSetText(Step,toString(step_nr)),
Bingo = vpi::winGetCtlHandle(thisWin,idc_bingo),
vpi::winSetText(Bingo, ""),
vpi::winSetState(Bingo,[wsf_Invisible]),
Play = vpi::winGetCtlHandle(thisWin,idc_play),
vpi::winSetState(Play,[wsf_Disabled]),
retractall(gameplay(_,_)),
table_save().
/* ------------------------------------------------------------------------------------------------------ */
predicates
bingo:().
clauses
bingo():-
toString(1) = vpi::winGetText(cell1),
toString(2) = vpi::winGetText(cell2),
toString(3) = vpi::winGetText(cell3),
toString(4) = vpi::winGetText(cell4),
toString(5) = vpi::winGetText(cell5),
toString(6) = vpi::winGetText(cell6),
toString(7) = vpi::winGetText(cell7),
toString(8) = vpi::winGetText(cell8),
toString(9) = vpi::winGetText(cell9),
toString(10) = vpi::winGetText(cell10),
toString(11) = vpi::winGetText(cell11),
toString(12) = vpi::winGetText(cell12),
toString(13) = vpi::winGetText(cell13),
toString(14) = vpi::winGetText(cell14),
toString(15) = vpi::winGetText(cell15),
"" = vpi::winGetText(cell16),
Bingo = vpi::winGetCtlHandle(thisWin,idc_bingo),
vpi::winSetState(Bingo,[wsf_Visible]),
vpi::winSetText(Bingo, "BINGO !"),
Step = vpi::winGetCtlHandle(thisWin,idc_step),
vpi::winSetText(Step,toString(step_nr)),
fail.
bingo().
/* ------------------------------------------------------------------------------------------------------ */
facts
fileName:string:="".
predicates
onControlsave : vpiOldDomains::controlHandler.
clauses
onControlsave(_CtrlID, _CtrlType, _CtrlWin, _CtrlInfo) = vpiOldDomains::handled(gui_api::rNull):-
try
FileName = vpiCommonDialogs::getFileName(fileName, ["All files", "*.game"], "Save game as", [dlgfn_Save], "", _)
catch _ do
fail
end try,
!,
file::save(FileName,gameDB).
onControlsave(_CtrlID, _CtrlType, _CtrlWin, _CtrlInfo)= vpiOldDomains::handled(gui_api::rNull).
/* ------------------------------------------------------------------------------------------------------ */
predicates
onControlopen : vpiOldDomains::controlHandler.
clauses
onControlopen(_CtrlID, _CtrlType, _CtrlWin, _CtrlInfo) = vpiOldDomains::handled(gui_api::rNull):-
try
FileName = vpiCommonDialogs::getFileName("game_", ["All files", "*.game"], "Open game file", [], "", _)
catch _ do
fail
end try,
!,
retractall(table(_,_)),
retractall(gameplay(_,_)),
retractall(empty_cell(_)),
file::consult(FileName,gameDB),
play_display(),
Play = vpi::winGetCtlHandle(thisWin,idc_play),
vpi::winSetState(Play,[wsf_Enabled]),
Bingo = vpi::winGetCtlHandle(thisWin,idc_bingo),
vpi::winSetState(Bingo,[wsf_Invisible]),
vpi::winSetText(Bingo, ""),
step_nr:=0,
Step = vpi::winGetCtlHandle(thisWin,idc_step),
vpi::winSetText(Step,toString(step_nr)).
onControlopen(_CtrlID, _CtrlType, _CtrlWin, _CtrlInfo) = vpiOldDomains::handled(gui_api::rNull).
/* ------------------------------------------------------------------------------------------------------ */
predicates
play_display:().
clauses
play_display():-
table(1,Cell1),
table(2,Cell2),
table(3,Cell3),
table(4,Cell4),
table(5,Cell5),
table(6,Cell6),
table(7,Cell7),
table(8,Cell8),
table(9,Cell9),
table(10,Cell10),
table(11,Cell11),
table(12,Cell12),
table(13,Cell13),
table(14,Cell14),
table(15,Cell15),
table(16,Cell16),
vpi::winSetText(cell1,Cell1),
vpi::winSetText(cell2,Cell2),
vpi::winSetText(cell3,Cell3),
vpi::winSetText(cell4,Cell4),
vpi::winSetText(cell5,Cell5),
vpi::winSetText(cell6,Cell6),
vpi::winSetText(cell7,Cell7),
vpi::winSetText(cell8,Cell8),
vpi::winSetText(cell9,Cell9),
vpi::winSetText(cell10,Cell10),
vpi::winSetText(cell11,Cell11),
vpi::winSetText(cell12,Cell12),
vpi::winSetText(cell13,Cell13),
vpi::winSetText(cell14,Cell14),
vpi::winSetText(cell15,Cell15),
vpi::winSetText(cell16,Cell16),
empty_cell(Empty_Cell),
empty:=Empty_Cell,
fail.
play_display().
/* ------------------------------------------------------------------------------------------------------ */
predicates
onControlplay : vpiOldDomains::controlHandler.
clauses
onControlplay(_CtrlID, _CtrlType, _CtrlWin, _CtrlInfo) = vpiOldDomains::handled(gui_api::rNull):-
Play = vpi::winGetCtlHandle(thisWin,idc_play),
vpi::winSetState(Play,[wsf_Disabled]),
gameplay(Nr,Nr_cell),
cell_click_play(Nr_cell),
Step = vpi::winGetCtlHandle(thisWin,idc_step),
vpi::winSetText(Step,toString(Nr)),
fail.
onControlplay(_CtrlID, _CtrlType, _CtrlWin, _CtrlInfo) = vpiOldDomains::handled(gui_api::rNull).
/* ------------------------------------------------------------------------------------------------------ */
predicates
onControlsbvr : vpiOldDomains::controlHandler. % Sets the right vertical scrollbar
clauses
onControlsbvr(_CtrlID, _CtrlType, _CtrlWin,scroll(sc_LineDown,_)) = vpiOldDomains::handled(gui_api::rNull):-
Sbarvalr = vpi::winGetScrollPos(vsbarr,sb_Ctl)+1,
Sbarvalr < 5,
cell_click(empty+4),
vpi::winSetScrollPos(vsbarr,sb_Ctl, Sbarvalr),
vpi::winSetScrollPos(vsbarl,sb_Ctl, Sbarvalr),
fail.
onControlsbvr(_CtrlID, _CtrlType, _CtrlWin,scroll(sc_LineUp,_)) = vpiOldDomains::handled(gui_api::rNull):-
Sbarvalr = vpi::winGetScrollPos(vsbarr,sb_Ctl)-1,
Sbarvalr > 0,
cell_click(empty-4),
vpi::winSetScrollPos(vsbarr,sb_Ctl, Sbarvalr),
vpi::winSetScrollPos(vsbarl,sb_Ctl, Sbarvalr),
fail.
onControlsbvr(_CtrlID, _CtrlType, _CtrlWin, _CtrlInfo) = vpiOldDomains::handled(gui_api::rNull).
/* ------------------------------------------------------------------------------------------------------ */
predicates
onControlsbvl : vpiOldDomains::controlHandler. % Sets the left vertical scrollbar
clauses
onControlsbvl(_CtrlID, _CtrlType, _CtrlWin,scroll(sc_LineDown,_)) = vpiOldDomains::handled(gui_api::rNull):-
Sbarvall = vpi::winGetScrollPos(vsbarl,sb_Ctl)+1,
Sbarvall < 5,
cell_click(empty+4),
vpi::winSetScrollPos(vsbarl,sb_Ctl, Sbarvall),
vpi::winSetScrollPos(vsbarr,sb_Ctl, Sbarvall),
fail.
onControlsbvl(_CtrlID, _CtrlType, _CtrlWin,scroll(sc_LineUp,_)) = vpiOldDomains::handled(gui_api::rNull):-
Sbarvall = vpi::winGetScrollPos(vsbarl,sb_Ctl)-1,
Sbarvall > 0,
cell_click(empty-4),
vpi::winSetScrollPos(vsbarl,sb_Ctl, Sbarvall),
vpi::winSetScrollPos(vsbarr,sb_Ctl, Sbarvall),
fail.
onControlsbvl(_CtrlID, _CtrlType, _CtrlWin, _CtrlInfo) = vpiOldDomains::handled(gui_api::rNull).
/* ------------------------------------------------------------------------------------------------------ */
predicates
onControlsbht : vpiOldDomains::controlHandler. % Sets the top horizontal scrollbar
clauses
onControlsbht(_CtrlID, _CtrlType, _CtrlWin,scroll(sc_LineDown,_)) = vpiOldDomains::handled(gui_api::rNull):-
Sbarvalt = vpi::winGetScrollPos(hsbart,sb_Ctl)+1,
Sbarvalt < 5,
cell_click(empty+1),
vpi::winSetScrollPos(hsbart,sb_Ctl, Sbarvalt),
vpi::winSetScrollPos(hsbarb,sb_Ctl, Sbarvalt),
fail.
onControlsbht(_CtrlID, _CtrlType, _CtrlWin,scroll(sc_LineUp,_)) = vpiOldDomains::handled(gui_api::rNull):-
Sbarvalt = vpi::winGetScrollPos(hsbart,sb_Ctl)-1,
Sbarvalt > 0,
cell_click(empty-1),
vpi::winSetScrollPos(hsbart,sb_Ctl, Sbarvalt),
vpi::winSetScrollPos(hsbarb,sb_Ctl, Sbarvalt),
fail.
onControlsbht(_CtrlID, _CtrlType, _CtrlWin, _CtrlInfo) = vpiOldDomains::handled(gui_api::rNull).
/* ------------------------------------------------------------------------------------------------------ */
predicates
onControlsbhb : vpiOldDomains::controlHandler. % Sets the bottom horizontal scrollbar
clauses
onControlsbhb(_CtrlID, _CtrlType, _CtrlWin,scroll(sc_LineDown,_)) = vpiOldDomains::handled(gui_api::rNull):-
Sbarvalb = vpi::winGetScrollPos(hsbarb,sb_Ctl)+1,
Sbarvalb < 5,
cell_click(empty+1),
vpi::winSetScrollPos(hsbarb,sb_Ctl, Sbarvalb),
vpi::winSetScrollPos(hsbart,sb_Ctl, Sbarvalb),
fail.
onControlsbhb(_CtrlID, _CtrlType, _CtrlWin,scroll(sc_LineUp,_)) = vpiOldDomains::handled(gui_api::rNull):-
Sbarvalb = vpi::winGetScrollPos(hsbarb,sb_Ctl)-1,
Sbarvalb > 0,
cell_click(empty-1),
vpi::winSetScrollPos(hsbarb,sb_Ctl, Sbarvalb),
vpi::winSetScrollPos(hsbart,sb_Ctl, Sbarvalb),
fail.
onControlsbhb(_CtrlID, _CtrlType, _CtrlWin, _CtrlInfo) = vpiOldDomains::handled(gui_api::rNull).
/* ------------------------------------------------------------------------------------------------------ */
predicates
onControlcell1 : vpiOldDomains::controlHandler.
clauses
onControlcell1(_CtrlID, _CtrlType, _CtrlWin, _CtrlInfo) = vpiOldDomains::handled(gui_api::rNull):-
cell_click(1).
/* ------------------------------------------------------------------------------------------------------ */
predicates
onControlcell2 : vpiOldDomains::controlHandler.
clauses
onControlcell2(_CtrlID, _CtrlType, _CtrlWin, _CtrlInfo) = vpiOldDomains::handled(gui_api::rNull):-
cell_click(2).
/* ------------------------------------------------------------------------------------------------------ */
predicates
onControlcell3 : vpiOldDomains::controlHandler.
clauses
onControlcell3(_CtrlID, _CtrlType, _CtrlWin, _CtrlInfo) = vpiOldDomains::handled(gui_api::rNull):-
cell_click(3).
/* ------------------------------------------------------------------------------------------------------ */
predicates
onControlcell4 : vpiOldDomains::controlHandler.
clauses
onControlcell4(_CtrlID, _CtrlType, _CtrlWin, _CtrlInfo) = vpiOldDomains::handled(gui_api::rNull):-
cell_click(4).
/* ------------------------------------------------------------------------------------------------------ */
predicates
onControlcell5 : vpiOldDomains::controlHandler.
clauses
onControlcell5(_CtrlID, _CtrlType, _CtrlWin, _CtrlInfo) = vpiOldDomains::handled(gui_api::rNull):-
cell_click(5).
/* ------------------------------------------------------------------------------------------------------ */
predicates
onControlcell6 : vpiOldDomains::controlHandler.
clauses
onControlcell6(_CtrlID, _CtrlType, _CtrlWin, _CtrlInfo) = vpiOldDomains::handled(gui_api::rNull):-
cell_click(6).
/* ------------------------------------------------------------------------------------------------------ */
predicates
onControlcell7 : vpiOldDomains::controlHandler.
clauses
onControlcell7(_CtrlID, _CtrlType, _CtrlWin, _CtrlInfo) = vpiOldDomains::handled(gui_api::rNull):-
cell_click(7).
/* ------------------------------------------------------------------------------------------------------ */
predicates
onControlcell8 : vpiOldDomains::controlHandler.
clauses
onControlcell8(_CtrlID, _CtrlType, _CtrlWin, _CtrlInfo) = vpiOldDomains::handled(gui_api::rNull):-
cell_click(8).
/* ------------------------------------------------------------------------------------------------------ */
predicates
onControlcell9 : vpiOldDomains::controlHandler.
clauses
onControlcell9(_CtrlID, _CtrlType, _CtrlWin, _CtrlInfo) = vpiOldDomains::handled(gui_api::rNull):-
cell_click(9).
/* ------------------------------------------------------------------------------------------------------ */
predicates
onControlcell10 : vpiOldDomains::controlHandler.
clauses
onControlcell10(_CtrlID, _CtrlType, _CtrlWin, _CtrlInfo) = vpiOldDomains::handled(gui_api::rNull):-
cell_click(10).
/* ------------------------------------------------------------------------------------------------------ */
predicates
onControlcell11 : vpiOldDomains::controlHandler.
clauses
onControlcell11(_CtrlID, _CtrlType, _CtrlWin, _CtrlInfo) = vpiOldDomains::handled(gui_api::rNull):-
cell_click(11).
/* ------------------------------------------------------------------------------------------------------ */
predicates
onControlcell12 : vpiOldDomains::controlHandler.
clauses
onControlcell12(_CtrlID, _CtrlType, _CtrlWin, _CtrlInfo) = vpiOldDomains::handled(gui_api::rNull):-
cell_click(12).
/* ------------------------------------------------------------------------------------------------------ */
predicates
onControlcell13 : vpiOldDomains::controlHandler.
clauses
onControlcell13(_CtrlID, _CtrlType, _CtrlWin, _CtrlInfo) = vpiOldDomains::handled(gui_api::rNull):-
cell_click(13).
/* ------------------------------------------------------------------------------------------------------ */
predicates
onControlcell14 : vpiOldDomains::controlHandler.
clauses
onControlcell14(_CtrlID, _CtrlType, _CtrlWin, _CtrlInfo) = vpiOldDomains::handled(gui_api::rNull):-
cell_click(14).
/* ------------------------------------------------------------------------------------------------------ */
predicates
onControlcell15 : vpiOldDomains::controlHandler.
clauses
onControlcell15(_CtrlID, _CtrlType, _CtrlWin, _CtrlInfo) = vpiOldDomains::handled(gui_api::rNull):-
cell_click(15).
/* ------------------------------------------------------------------------------------------------------ */
predicates
onControlcell16 : vpiOldDomains::controlHandler.
clauses
onControlcell16(_CtrlID, _CtrlType, _CtrlWin, _CtrlInfo) = vpiOldDomains::handled(gui_api::rNull):-
cell_click(16).
/* ------------------------------------------------------------------------------------------------------ */
% This code is maintained by the VDE do not update it manually, 22:12:35-14.3.2004
constants
dialogType : vpiDomains::wintype = wd_Modal.
title : string = "playDialog".
rectangle : vpiDomains::rct = rct(200,40,359,263).
dialogFlags : vpiDomains::wsflags = [wsf_Close,wsf_TitleBar].
dialogFont = "MS Sans Serif".
dialogFontSize = 8.
constants
controlList : vpiDomains::windef_list =
[
dlgFont(wdef(dialogType, rectangle, title, u_DlgBase),
dialogFont, dialogFontSize, dialogFlags),
ctl(wdef(wc_PushButton,rct(40,166,67,178),"&Mix",u_DlgBase),idc_mix,[wsf_Group,wsf_TabStop]),
ctl(wdef(wc_PushButton,rct(67,166,94,178),"&Reset",u_DlgBase),idc_reset,[wsf_Group,wsf_TabStop]),
ctl(wdef(wc_PushButton,rct(40,178,67,190),"&Save",u_DlgBase),idc_save,[wsf_Group,wsf_TabStop]),
ctl(wdef(wc_PushButton,rct(94,178,121,190),"&Open",u_DlgBase),idc_open,[wsf_Group,wsf_TabStop]),
ctl(wdef(wc_PushButton,rct(40,190,121,202),"&Play",u_DlgBase),idc_play,[wsf_Group,wsf_TabStop,wsf_Disabled]),
ctl(wdef(wc_PushButton,rct(94,166,121,178),"&Exit",u_DlgBase),idc_cancel,[wsf_Group,wsf_TabStop]),
ctl(wdef(wc_PushButton,rct(40,40,60,60),"1",u_DlgBase),idc_cell1,[wsf_Group]),
ctl(wdef(wc_PushButton,rct(60,40,80,60),"2",u_DlgBase),idc_cell2,[wsf_Group]),
ctl(wdef(wc_PushButton,rct(80,40,100,60),"3",u_DlgBase),idc_cell3,[wsf_Group]),
ctl(wdef(wc_PushButton,rct(100,40,120,60),"4",u_DlgBase),idc_cell4,[wsf_Group]),
ctl(wdef(wc_PushButton,rct(40,60,60,80),"5",u_DlgBase),idc_cell5,[wsf_Group]),
ctl(wdef(wc_PushButton,rct(60,60,80,80),"6",u_DlgBase),idc_cell6,[wsf_Group]),
ctl(wdef(wc_PushButton,rct(80,60,100,80),"7",u_DlgBase),idc_cell7,[wsf_Group]),
ctl(wdef(wc_PushButton,rct(100,60,120,80),"8",u_DlgBase),idc_cell8,[wsf_Group]),
ctl(wdef(wc_PushButton,rct(40,80,60,100),"9",u_DlgBase),idc_cell9,[wsf_Group]),
ctl(wdef(wc_PushButton,rct(60,80,80,100),"10",u_DlgBase),idc_cell10,[wsf_Group]),
ctl(wdef(wc_PushButton,rct(80,80,100,100),"11",u_DlgBase),idc_cell11,[wsf_Group]),
ctl(wdef(wc_PushButton,rct(100,80,120,100),"12",u_DlgBase),idc_cell12,[wsf_Group]),
ctl(wdef(wc_PushButton,rct(40,100,60,120),"13",u_DlgBase),idc_cell13,[wsf_Group]),
ctl(wdef(wc_PushButton,rct(60,100,80,120),"14",u_DlgBase),idc_cell14,[wsf_Group]),
ctl(wdef(wc_PushButton,rct(80,100,100,120),"15",u_DlgBase),idc_cell15,[wsf_Group]),
ctl(wdef(wc_PushButton,rct(100,100,120,120),"",u_DlgBase),idc_cell16,[wsf_Group]),
ctl(wdef(wc_HScroll,rct(30,18,130,30),"",u_DlgBase),idc_sbht,[]),
ctl(wdef(wc_VScroll,rct(130,30,142,130),"",u_DlgBase),idc_sbvr,[]),
ctl(wdef(wc_HScroll,rct(30,130,130,142),"",u_DlgBase),idc_sbhb,[]),
ctl(wdef(wc_VScroll,rct(18,30,30,130),"",u_DlgBase),idc_sbvl,[]),
ctl(wdef(wc_PushButton,rct(67,178,94,190),"",u_DlgBase),idc_step,[wsf_Group]),
ctl(wdef(wc_PushButton,rct(40,154,121,166),"",u_DlgBase),idc_bingo,[wsf_Group,wsf_Invisible])
].
predicates
generatedEventHandler : vpiDomains::ehandler.
clauses
generatedEventHandler(Win, e_create(_)) = _ :-
thisWin := Win,
fail.
generatedEventHandler(_Win, e_Create(CreationData)) = Result :-
handled(Result) = onCreate(CreationData).
generatedEventHandler(_Win, e_Update(Rectangle)) = Result :-
handled(Result) = onUpdate(Rectangle).
generatedEventHandler(_Win, e_Control(idc_cancel, CtrlType, CtrlWin, CtlInfo)) = Result :-
handled(Result) = onControlCancel(idc_cancel, CtrlType, CtrlWin, CtlInfo).
generatedEventHandler(_Win, e_Control(idc_mix, CtrlType, CtrlWin, CtlInfo)) = Result :-
handled(Result) = onControlmix(idc_mix, CtrlType, CtrlWin, CtlInfo).
generatedEventHandler(_Win, e_Control(idc_reset, CtrlType, CtrlWin, CtlInfo)) = Result :-
handled(Result) = onControlreset(idc_reset, CtrlType, CtrlWin, CtlInfo).
generatedEventHandler(_Win, e_Control(idc_sbvr, CtrlType, CtrlWin, CtlInfo)) = Result :-
handled(Result) = onControlsbvr(idc_sbvr, CtrlType, CtrlWin, CtlInfo).
generatedEventHandler(_Win, e_Control(idc_sbvl, CtrlType, CtrlWin, CtlInfo)) = Result :-
handled(Result) = onControlsbvl(idc_sbvl, CtrlType, CtrlWin, CtlInfo).
generatedEventHandler(_Win, e_Control(idc_sbhb, CtrlType, CtrlWin, CtlInfo)) = Result :-
handled(Result) = onControlsbhb(idc_sbhb, CtrlType, CtrlWin, CtlInfo).
generatedEventHandler(_Win, e_Control(idc_sbht, CtrlType, CtrlWin, CtlInfo)) = Result :-
handled(Result) = onControlsbht(idc_sbht, CtrlType, CtrlWin, CtlInfo).
generatedEventHandler(_Win, e_Control(idc_save, CtrlType, CtrlWin, CtlInfo)) = Result :-
handled(Result) = onControlsave(idc_save, CtrlType, CtrlWin, CtlInfo).
generatedEventHandler(_Win, e_Control(idc_open, CtrlType, CtrlWin, CtlInfo)) = Result :-
handled(Result) = onControlopen(idc_open, CtrlType, CtrlWin, CtlInfo).
generatedEventHandler(_Win, e_Control(idc_play, CtrlType, CtrlWin, CtlInfo)) = Result :-
handled(Result) = onControlplay(idc_play, CtrlType, CtrlWin, CtlInfo).
generatedEventHandler(_Win, e_Control(idc_cell1, CtrlType, CtrlWin, CtlInfo)) = Result :-
handled(Result) = onControlcell1(idc_cell1, CtrlType, CtrlWin, CtlInfo).
generatedEventHandler(_Win, e_Control(idc_cell10, CtrlType, CtrlWin, CtlInfo)) = Result :-
handled(Result) = onControlcell10(idc_cell10, CtrlType, CtrlWin, CtlInfo).
generatedEventHandler(_Win, e_Control(idc_cell11, CtrlType, CtrlWin, CtlInfo)) = Result :-
handled(Result) = onControlcell11(idc_cell11, CtrlType, CtrlWin, CtlInfo).
generatedEventHandler(_Win, e_Control(idc_cell12, CtrlType, CtrlWin, CtlInfo)) = Result :-
handled(Result) = onControlcell12(idc_cell12, CtrlType, CtrlWin, CtlInfo).
generatedEventHandler(_Win, e_Control(idc_cell13, CtrlType, CtrlWin, CtlInfo)) = Result :-
handled(Result) = onControlcell13(idc_cell13, CtrlType, CtrlWin, CtlInfo).
generatedEventHandler(_Win, e_Control(idc_cell14, CtrlType, CtrlWin, CtlInfo)) = Result :-
handled(Result) = onControlcell14(idc_cell14, CtrlType, CtrlWin, CtlInfo).
generatedEventHandler(_Win, e_Control(idc_cell15, CtrlType, CtrlWin, CtlInfo)) = Result :-
handled(Result) = onControlcell15(idc_cell15, CtrlType, CtrlWin, CtlInfo).
generatedEventHandler(_Win, e_Control(idc_cell16, CtrlType, CtrlWin, CtlInfo)) = Result :-
handled(Result) = onControlcell16(idc_cell16, CtrlType, CtrlWin, CtlInfo).
generatedEventHandler(_Win, e_Control(idc_cell2, CtrlType, CtrlWin, CtlInfo)) = Result :-
handled(Result) = onControlcell2(idc_cell2, CtrlType, CtrlWin, CtlInfo).
generatedEventHandler(_Win, e_Control(idc_cell3, CtrlType, CtrlWin, CtlInfo)) = Result :-
handled(Result) = onControlcell3(idc_cell3, CtrlType, CtrlWin, CtlInfo).
generatedEventHandler(_Win, e_Control(idc_cell4, CtrlType, CtrlWin, CtlInfo)) = Result :-
handled(Result) = onControlcell4(idc_cell4, CtrlType, CtrlWin, CtlInfo).
generatedEventHandler(_Win, e_Control(idc_cell5, CtrlType, CtrlWin, CtlInfo)) = Result :-
handled(Result) = onControlcell5(idc_cell5, CtrlType, CtrlWin, CtlInfo).
generatedEventHandler(_Win, e_Control(idc_cell6, CtrlType, CtrlWin, CtlInfo)) = Result :-
handled(Result) = onControlcell6(idc_cell6, CtrlType, CtrlWin, CtlInfo).
generatedEventHandler(_Win, e_Control(idc_cell7, CtrlType, CtrlWin, CtlInfo)) = Result :-
handled(Result) = onControlcell7(idc_cell7, CtrlType, CtrlWin, CtlInfo).
generatedEventHandler(_Win, e_Control(idc_cell8, CtrlType, CtrlWin, CtlInfo)) = Result :-
handled(Result) = onControlcell8(idc_cell8, CtrlType, CtrlWin, CtlInfo).
generatedEventHandler(_Win, e_Control(idc_cell9, CtrlType, CtrlWin, CtlInfo)) = Result :-
handled(Result) = onControlcell9(idc_cell9, CtrlType, CtrlWin, CtlInfo).
generatedEventHandler(_Win, e_Destroy()) = Result :-
handled(Result) = onDestroy().
% end of automatic code
end implement playDialog
</syntaxhighlight>
=={{header|VBScript}}==
<syntaxhighlight lang="vb">
'----------------15 game-------------------------------------
'WARNING: this script uses ANSI escape codes to position items on console so
'it won't work in Windows from XP to 8.1 where Microsoft removed ANSI support...
'Windows 10, 11 or 98 are ok!!!
option explicit
const maxshuffle=100 'level
dim ans0:ans0=chr(27)&"["
dim anscls:anscls=ans0 & "2J"
dim dirs:dirs=array(6,-1,-6,1)
dim a:a=array(-1,-1,-1,-1,-1,-1,_
-1, 1, 2, 3, 4,-1,_
-1, 5, 6, 7, 8,-1,_
-1, 9,10,11,12,-1,_
-1,13,14,15, 0,-1,_
-1,-1,-1,-1,-1,-1)
dim b(35)
dim pos0
dim s:s=Array("W+Enter: up Z+Enter: down A+Enter: left S+Enter right ",_
"Bad move!! ",_
"You did it! Another game? [y/n]+Enter ",_
"Bye! ")
do
shuffle
draw
toxy 10,1,s(0)
do
if usr(wait()) then
draw
toxy 10,1,s(0)
else
toxy 10,1,s(1)
end if
loop until checkend
toxy 10,1,s(2)
loop until wait()="n"
toxy 10,1,s(3)
function wait():
toxy 11,1,"":
wait=left(lcase(wscript.stdin.readline),1):
end function
sub toxy(x,y,s)
wscript.StdOut.Write ans0 & x & ";" & y & "H"& " "& s
end sub
sub draw
dim i,j
wscript.stdout.write anscls
for i=0 to 3 'row
for j=0 to 3 'col
toxy (j*2)+2,(i*3)+3,iif(b(j*6+i+7)<>0,b(j*6+i+7)," ")
next
next
toxy 10,1,""
end sub
function checkend
dim i
for i=0 to ubound(a)
if (b(i)<>a(i)) then checkend=false : exit function
next
checkend=true
end function
function move(d)
dim p1
p1=pos0+d
if b(p1) <>-1 then
b(pos0)=b(p1):
b(p1)=0:
pos0=p1:
move=true
else
move=false
end if
end function
sub shuffle
dim cnt,r,i
randomize timer
for i=0 to ubound(a):b(i)=a(i):next
pos0=28
cnt=0
do
r=int(rnd*4)
if move(dirs(r))=true then cnt=cnt+1
loop until cnt=maxshuffle
end sub
function iif(a,b,c): if a then iif=b else iif=c end if:end function
function usr(a)
dim d
select case lcase(a)
case "w" :d=-6
case "z" :d=6
case "a" :d=-1
case "s" :d=1
end select
usr= move(d)
end function
</syntaxhighlight>
=={{header|Wren}}==
{{trans|Go}}
{{libheader|Wren-dynamic}}
{{libheader|Wren-ioutil}}
{{libheader|Wren-fmt}}
<syntaxhighlight lang="wren">import "random" for Random
import "./dynamic" for Enum
import "./ioutil" for Input
import "./fmt" for Fmt
var Move = Enum.create("Move", ["up", "down", "right", "left"])
var Rand = Random.new()
var RandMove = Fn.new { Rand.int(4) }
var SolvedBoard = [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 0]
var AreEqual = Fn.new { |l1, l2|
if (l1.count != l2.count) return false
for (i in 0...l1.count) {
if (l1[i] != l2[i]) return false
}
return true
}
class Puzzle {
construct new() {
_board = SolvedBoard.toList
_empty = 15 // _board[empty] == 0
_moves = 0
_quit = false
// Could make this configurable, 10 == easy, 50 == normal, 100 == hard
shuffle(50)
}
shuffle(moves) {
// we use some number of random moves to "shuffle" the board
var i = 0
while (i < moves || AreEqual.call(_board, SolvedBoard)) {
if (doMove(RandMove.call())) i = i + 1
}
}
isValidMove(m) {
if (m == Move.up) return [_empty - 4, (_empty/4).floor > 0]
if (m == Move.down) return [_empty + 4, (_empty/4).floor < 3]
if (m == Move.right) return [_empty + 1, _empty % 4 < 3]
if (m == Move.left) return [_empty - 1, _empty % 4 > 0]
Fiber.abort("not reached")
}
doMove(m) {
var i = _empty
var res = isValidMove(m)
var j = res[0]
var ok = res[1]
if (ok) {
_board.swap(i, j)
_empty = j
_moves = _moves + 1
}
return ok
}
play() {
var instructions = """
Please enter "U", "D", "L", or "R" to move the empty cell
up, down, left, or right. You can also enter "Q" to quit.
Upper or lowercase is accepted and only the first character
is important (i.e. you may enter "up" if you like).
"""
System.print(instructions)
System.write("\nStarting board:")
while (!AreEqual.call(_board, SolvedBoard) && !_quit) {
System.print("\n%(this)")
playOneMove()
}
if (AreEqual.call(_board, SolvedBoard)) {
System.print("\n%(this)")
System.print("You solved the puzzle in %(_moves) moves.")
}
}
playOneMove() {
while (true) {
var s = Input.option("Enter move #%(_moves + 1) (U, D, L, R or Q): ", "UuDdLlRrQq")
var m
if (s == "U" || s == "u") {
m = Move.up
} else if (s == "D" || s == "d") {
m = Move.down
} else if (s == "L" || s == "l") {
m = Move.left
} else if (s == "R" || s == "r") {
m = Move.right
} else if (s == "Q" || s == "q") {
System.print("Quiting after %(_moves).")
_quit = true
return
}
if (!doMove(m)) {
System.print("That is not a valid move at the moment.")
continue
}
return
}
}
toString {
var buf = ""
var i = 0
for (c in _board) {
if (c == 0) {
buf = buf + " ."
} else {
buf = buf + Fmt.swrite("$3d", c)
}
if (i % 4 == 3) buf = buf + "\n"
i = i + 1
}
return buf
}
}
var p = Puzzle.new()
p.play()</syntaxhighlight>
{{out}}
Sample (very easy!) game:
<pre>
Please enter "U", "D", "L", or "R" to move the empty cell
up, down, left, or right. You can also enter "Q" to quit.
Upper or lowercase is accepted and only the first character
is important (i.e. you may enter "up" if you like).
Starting board:
1 2 3 4
6 . 7 8
5 9 11 12
13 10 14 15
Enter move #51 (U, D, L, R or Q): l
1 2 3 4
. 6 7 8
5 9 11 12
13 10 14 15
Enter move #52 (U, D, L, R or Q): d
1 2 3 4
5 6 7 8
. 9 11 12
13 10 14 15
Enter move #53 (U, D, L, R or Q): r
1 2 3 4
5 6 7 8
9 . 11 12
13 10 14 15
Enter move #54 (U, D, L, R or Q): d
1 2 3 4
5 6 7 8
9 10 11 12
13 . 14 15
Enter move #55 (U, D, L, R or Q): r
1 2 3 4
5 6 7 8
9 10 11 12
13 14 . 15
Enter move #56 (U, D, L, R or Q): r
1 2 3 4
5 6 7 8
9 10 11 12
13 14 15 .
You solved the puzzle in 56 moves.
</pre>
=={{header|x86-64 Assembly}}==
<syntaxhighlight lang="assembly"> ; Puzzle15 by grosged (march 2019)
; How to play ?.. Just press one of the arrow keys then [enter] to valid
; ( press [Ctrl+C] to escape )
segment .data
check: db "1 2 3 4",10," 5 6 7 8",10," 9 10 11 12",10," 13 14 1"
puzzle: db 27,"c",10," 1 2 3 4",10," 5 6 7 8",10," 9 10 11 12",10," 13 14 15 ",10,10
db " Direction ?",13
db " Well done ! ",10,10
inKey: dw 0,0,0,0
segment .text
global _start
_start: mov rax,100
syscall
mov rcx,rax
shr rcx,3
and rcx,255
and rax,31
lea rsi,[_start+rax]
mov rbx,15
Mixing: push rcx
mov di,word[rsi+rcx*2]
mov rcx,8
quatre: mov ax,di
shr di,2
and ax,3
add ax,65
call SWAPPIN
loop quatre
pop rcx
loop Mixing
cmp cx,ax
MainLp: mov rdx,80
Succes: lea rsi,[puzzle]
mov rdi,1
mov rax,1
End?: syscall
mov rax,60
je End?
mov rdx,8
lea rsi,[inKey]
mov rdi,0
mov rax,0
syscall
mov al,byte [rsi+rax-2]
call SWAPPIN
lea rsi,[check]
lea rdi,[puzzle+5]
mov rcx,7
repe cmpsq
jne MainLp
mov rdx,95
jmp Succes
SWAPPIN:mov rdx,rbx
cmp al,"A"
jne NotUp
add rbx,4
cmp rbx,16
cmovae rbx,rdx
NotUp: cmp al,"B"
jne NotDwn
sub rbx,4
cmovc rbx,rdx
NotDwn: cmp al,"C"
jne NotLft
test rbx,3
jz Endcll
dec rbx
NotLft: cmp al,"D"
jne Endcll
inc rbx
test rbx,3
cmovz rbx,rdx
Endcll: mov ax," "
xchg ax,word[puzzle+4+rbx*4]
mov word[puzzle+4+rdx*4],ax
ret</syntaxhighlight>
=={{header|XBasic}}==
{{trans|Liberty BASIC}}
{{works with|Windows XBasic}}
<syntaxhighlight lang="xbasic">
PROGRAM "fifteenpuzzlegame"
VERSION "0.0001"
IMPORT "xst"
DECLARE FUNCTION Entry()
INTERNAL FUNCTION PrintPuzzle(d%[])
INTERNAL FUNCTION IntroAndLevel(shCnt%[])
INTERNAL FUNCTION BuildBoard(d%[], shCnt%[], level%)
INTERNAL FUNCTION IsMoveValid(d%[], piece%, piecePos%, emptyPos%)
INTERNAL FUNCTION IsPuzzleComplete(d%[])
INTERNAL FUNCTION PiecePosition(d%[], piece%)
' Pseudo-random number generator
' Based on the rand, srand functions from Kernighan & Ritchie's book
' 'The C Programming Language'
DECLARE FUNCTION Rand()
DECLARE FUNCTION SRand(seed%%)
FUNCTION Entry()
DIM d%[15]
DIM shCnt%[2]
BuildBoard(@d%[], @shCnt%[], IntroAndLevel(@shCnt%[]))
PrintPuzzle(@d%[])
DO
x% = SSHORT(INLINE$("To move a piece, enter its number: "))
DO WHILE IsMoveValid(@d%[], x%, @y%, @z%) = 0
PRINT "Wrong move."
PrintPuzzle(@d%[])
x% = SSHORT(INLINE$("To move a piece, enter its number: "))
LOOP
d%[z% - 1] = x%
d%[y% - 1] = 0
PrintPuzzle(@d%[])
LOOP UNTIL IsPuzzleComplete(@d%[])
PRINT "YOU WON!"
END FUNCTION
FUNCTION PrintPuzzle(d%[])
DIM ds$[15] ' Board pieces
FOR p%% = 0 TO 15
IF d%[p%%] = 0 THEN
ds$[p%%] = " "
ELSE
ds$[p%%] = FORMAT$("### ", d%[p%%])
END IF
NEXT p%%
PRINT "+-----+-----+-----+-----+"
PRINT "|"; ds$[0]; "|"; ds$[1]; "|"; ds$[2]; "|"; ds$[3]; "|"
PRINT "+-----+-----+-----+-----+"
PRINT "|"; ds$[4]; "|"; ds$[5]; "|"; ds$[6]; "|"; ds$[7]; "|"
PRINT "+-----+-----+-----+-----+"
PRINT "|"; ds$[8]; "|"; ds$[9]; "|"; ds$[10]; "|"; ds$[11]; "|"
PRINT "+-----+-----+-----+-----+"
PRINT "|"; ds$[12]; "|"; ds$[13]; "|"; ds$[14]; "|"; ds$[15]; "|"
PRINT "+-----+-----+-----+-----+"
END FUNCTION
FUNCTION IntroAndLevel(shCnt%[])
XstClearConsole()
shCnt%[0] = 10
shCnt%[1] = 50
shCnt%[2] = 100
PRINT "15 PUZZLE GAME"
PRINT
PRINT
PRINT "Please enter level of difficulty,"
DO
level% = SSHORT(INLINE$("1 (easy), 2 (medium) or 3 (hard): "))
LOOP UNTIL (level% >= 1) && (level% <= 3)
END FUNCTION level%
FUNCTION BuildBoard(d%[], shCnt%[], level%)
' Set pieces in correct order first
FOR p%% = 1 TO 15
d%[p%% - 1] = p%%
NEXT p%%
d%[15] = 0 ' 0 = empty piece/slot
z% = 16 ' z% = empty position
PRINT
PRINT "Shuffling pieces";
XstGetSystemTime (@msec)
SRand(INT(msec) MOD 32768)
FOR n% = 1 TO shCnt%[level% - 1]
PRINT ".";
DO
x% = INT(Rand() / 32768.0 * 4.0) + 1
PRINT x%
SELECT CASE x%
CASE 1:
r% = z% - 4
CASE 2:
r% = z% + 4
CASE 3:
IF (z% - 1) MOD 4 <> 0 THEN
r% = z% - 1
END IF
CASE 4:
IF z% MOD 4 <> 0 THEN
r% = z% + 1
END IF
END SELECT
LOOP UNTIL (r% >= 1) && (r% <= 16)
d%[z% - 1] = d%[r% - 1]
z% = r%
d%[z% - 1] = 0
NEXT n%
XstClearConsole()
END FUNCTION
FUNCTION IsMoveValid(d%[], piece%, piecePos%, emptyPos%)
mv% = 0
IF (piece% >= 1) && (piece% <= 15) THEN
piecePos% = PiecePosition(@d%[], piece%)
emptyPos% = PiecePosition(@d%[], 0)
' Check if empty piece is above, below, left or right to piece
IF (piecePos% - 4 = emptyPos%) || (piecePos% + 4 = emptyPos%) || ((piecePos% - 1 = emptyPos%) && (emptyPos% MOD 4 <> 0)) || ((piecePos% + 1 = emptyPos%) && (piecePos% MOD 4 <> 0)) THEN
mv% = 1
END IF
END IF
END FUNCTION mv%
FUNCTION PiecePosition(d%[], piece%)
p%% = 0
DO WHILE d%[p%%] <> piece%
INC p%%
IF p%% > 15 THEN
PRINT "UH OH!"
QUIT(1)
END IF
LOOP
END FUNCTION p%% + 1
FUNCTION IsPuzzleComplete(d%[])
pc% = 0
p%% = 1
DO WHILE (p%% < 16) && (d%[p%% - 1] = p%%)
INC p%%
LOOP
IF p%% = 16 THEN
pc% = 1
END IF
END FUNCTION pc%
' Return pseudo-random integer on 0..32767
FUNCTION Rand()
#next&& = #next&& * 1103515245 + 12345
END FUNCTION USHORT(#next&& / 65536) MOD 32768
' Set seed for Rand()
FUNCTION SRand(seed%%)
#next&& = seed%%
END FUNCTION
END PROGRAM
</syntaxhighlight>
=={{header|XPL0}}==
<syntaxhighlight lang="xpl0">int Box, Hole, I;
[Box:= [^ ,^F,^E,^D, \starting configuration
^C,^B,^A,^9, \slide digits into ascending order
^8,^7,^6,^5, \with blank in lower-right corner
^4,^3,^2,^1];
Hole:= 0; \index for hole position
loop [Clear; \erase screen and move to start
for I:= 0 to 15 do \show puzzle
[ChOut(0, Box(I)); ChOut(0, ^ );
if (I & 3) = 3 then CrLf(0)];
case ChIn(1) of \get move
$1B: quit; \Esc
$48: if Hole < 12 then \UpArrow scan code
[Box(Hole):= Box(Hole+4);
Hole:= Hole+4;
Box(Hole):= ^ ];
$50: if Hole > 3 then \DnArrow
[Box(Hole):= Box(Hole-4);
Hole:= Hole-4;
Box(Hole):= ^ ];
$4B: if (Hole & 3) < 3 then \LfArrow
[Box(Hole):= Box(Hole+1);
Hole:= Hole+1;
Box(Hole):= ^ ];
$4D: if (Hole & 3) > 0 then \RtArrow
[Box(Hole):= Box(Hole-1);
Hole:= Hole-1;
Box(Hole):= ^ ]
other []; \ignore 0 scan code prefix etc.
];
]</syntaxhighlight>
{{out}}
<pre>
F E D
C B A 9
8 7 6 5
4 3 2 1
</pre>
=={{header|Yabasic}}==
<syntaxhighlight lang="yabasic">dx = 4 : dy = 4 : dxy = dx * dy
dim grid(dx, dy)
dim t(dxy)
for x = 1 to dx
for y = 1 to dy
fin = false
repeat
i = int(ran(dxy) + 1)
if t(i) = 0 then
t(i) = 1
fin = true
if i < dxy then
grid(x, y) = i
else
ex = x : ey = y
end if
end if
until(fin = true)
next y
next x
drawTable()
repeat
moveTile()
drawTable()
until(finish())
print "\n\n\nNumber of movements: ",mov,"\nEnd\n"
sub finish()
local x, y, v
for y = 1 to dy
for x = 1 to dx
v = v + 1
if (v < dxy) and (grid(x, y) <> v) return false
next x
next y
return true
end sub
sub moveTile()
local direction$
direction$ = inkey$
switch direction$
case "up": if (ey + 1) < (dy + 1) then grid(ex, ey) = grid(ex, ey + 1) : ey = ey + 1 end if : break
case "down": if (ey - 1) > 0 then grid(ex, ey) = grid(ex, ey - 1) : ey = ey - 1 end if : break
case "right": if (ex - 1) > 0 then grid(ex, ey) = grid(ex - 1, ey) : ex = ex - 1 end if : break
case "left": if (ex + 1) < (dx + 1) then grid(ex, ey) = grid(ex + 1, ey) : ex = ex + 1 end if : break
default: return : break
end switch
mov = mov + 1
grid(ex, ey) = 0
end sub
sub drawTable()
local x, y
clear screen
print " Use the cursor keys"
for x = 1 to dx
for y = 1 to dy
print at(x * 3, y * 2);
if grid(x, y) then
print color("yellow","magenta") grid(x, y) using "##"
else
print " "
end if
next y
next x
end sub</syntaxhighlight>
Adaptation from Phix solution
<syntaxhighlight lang="yabasic">board$ = "123456789ABCDEF0"
solve$ = board$
pos = 16
sub print_board()
local i, n$
clear screen
for i = 1 to len(board$)
if i = pos then
print " ";
else
n$ = str$(dec(mid$(board$, i, 1)), "###")
print n$;
end if
if mod(i, 4) = 0 print
next
print
end sub
sub move(d)
local new_pos, delta(4)
delta(1) = 4 : delta(2) = 1 : delta(3) = -1 : delta(4) = -4
new_pos = pos + delta(d)
if new_pos >= 1 and new_pos <= 16 and (mod(pos, 4) = mod(new_pos, 4) or floor((pos - 1) / 4) = floor((new_pos - 1) / 4)) then
mid$(board$, pos, 1) = mid$(board$, new_pos, 1)
mid$(board$, new_pos, 1) = "0"
pos = new_pos
end if
end sub
for i = 1 to 100 : move(int(ran(4))+1) : next
do
print_board()
if board$ = solve$ break
c = ((instr("esc up left rightdown ", inkey$) - 1) / 5)
if c < 1 break
move(c)
loop
print "solved!\n"
</syntaxhighlight>
=={{header|Zig}}==
<syntaxhighlight lang="zig">
const std = @import("std");
const stdout = std.io.getStdOut().writer();
const tokens = [16][]const u8{ " 1", " 2", " 3", " 4", " 5", " 6", " 7", " 8", " 9", "10", "11", "12", "13", "14", "15", " " };
const empty_token = 15;
var empty: u8 = empty_token;
var cells: [16]u8 = undefined;
var invalid: bool = false;
const Move = enum { no, up, down, left, right };
fn showBoard() !void {
try stdout.writeAll("\n");
var solved = true;
var i: u8 = 0;
while (i < 16) : (i += 1) {
try stdout.print(" {s} ", .{tokens[cells[i]]});
if ((i + 1) % 4 == 0) try stdout.writeAll("\n");
if (i != cells[i]) solved = false;
}
try stdout.writeAll("\n");
if (solved) {
try stdout.writeAll("\n\n** You did it! **\n\n");
std.posix.exit(0);
}
}
fn updateToken(move: Move) !void {
const newEmpty = switch (move) {
Move.up => if (empty / 4 < 3) empty + 4 else empty,
Move.down => if (empty / 4 > 0) empty - 4 else empty,
Move.left => if (empty % 4 < 3) empty + 1 else empty,
Move.right => if (empty % 4 > 0) empty - 1 else empty,
else => empty,
};
if (empty == newEmpty) {
invalid = true;
} else {
invalid = false;
cells[empty] = cells[newEmpty];
cells[newEmpty] = empty_token;
empty = newEmpty;
}
}
fn waitForMove() !Move {
const reader = std.io.getStdIn().reader();
if (invalid) try stdout.writeAll("(invalid) ");
try stdout.writeAll("enter u/d/l/r or q: ");
const input = try reader.readBytesNoEof(2);
switch (std.ascii.toLower(input[0])) {
'q' => std.posix.exit(0),
'u' => return Move.up,
'd' => return Move.down,
'l' => return Move.left,
'r' => return Move.right,
else => return Move.no,
}
}
fn shuffle(moves: u8) !void {
var random = std.rand.DefaultPrng.init(@intCast(std.time.microTimestamp()));
const rand = random.random();
var n: u8 = 0;
while (n < moves) {
const move: Move = rand.enumValue(Move);
try updateToken(move);
if (!invalid) n += 1;
}
invalid = false;
}
pub fn main() !void {
var n: u8 = 0;
while (n < 16) : (n += 1) {
cells[n] = n;
}
try shuffle(50);
try showBoard();
while (true) {
try updateToken(try waitForMove());
try showBoard();
}
}
</syntaxhighlight>
{{out}}
<pre>
1 2 3 4
5 6 7 8
9 10 12
13 14 11 15
enter u/d/l/r or q: r
1 2 3 4
5 6 7 8
9 10 12
13 14 11 15
enter u/d/l/r or q: u
1 2 3 4
5 6 7 8
9 10 11 12
13 14 15
enter u/d/l/r or q: l
1 2 3 4
5 6 7 8
9 10 11 12
13 14 15
** You did it! **
</pre>
| |||