Morpion solitaire/Unicon
This example goes beyond the task goal of playing a random game of Morpion solitaire. The code is divided into two sections (a) to support the basic task and (b) extensions. The program was designed as a first cut/test bed more for understanding and exploring the problem space rather than for high efficiency. The program is structured to allow its behaviour to be configured (see options and M_ vars). Some of the features and extensions include:
- Playing single games or running multigame simulations to find and capture the best games
- Producing re-loadable game records and the ability to replay a saved game from a given position forward
- The ability to reproduce purely random games from the random number seed
- Limiting the initial random moves to 1 of 4 cases (inside corners (1 type) x 8, outside corners (2 types) x 8, outside valley (1 type x 4)) not 1 of 28. In the case of this program these are all in the North East quadrant.
- Plays both 5T (by default) and 5D variants
- Plugable modules for functions including applying player strategy, position evaluation (fitness/heuristics)to facilitate quick experimentation, changing game read/write functions, etc., etc.
Using random play in many summary runs, the highest (5T) score achieved was 92. While it was fairly easy to push random games into the low 80's running simulations of as little as a few hundred games, going beyond the highest score without adding some smarts will require some very long runs and is unlikely to result in any significant progress. Observing multigame runs show that play advances fairly quickly before a progress grinds to a virtual halt. Many runs peak in the first few hundred or thousand games.
The ability to replay recorded games provides a way to study the behaviour of the problem. Selecting successful random games, truncating them and running multigame simulations using a successful base shows that the seeds of success are sown early. It was possible to better the results of good random game scores (mid 80s) pushing the new scores up into the mid 90s. Unfortunately this technique when applied to Chris Rosin's 177 move record game did not produce any new records :(. Surprisingly however, it was possible to produce games in the high 160's! using random play with a truncated (approx 60%) version of this game.
The observation that a game becomes bad or good fairly early suggests that finding an intelligent forward looking position fitness evaluator is going to be a challenge to say the least.
It's also possible to capture bad games. This might provide some kind of comparison against good games when considering fitness evaluators. Or not.
Internally, the grid is automatically expanded as needed whenever a cell is played on an outer edge. When this happens only the affected side is expanded. As a side effect the grid numbering will seem unusual. The game log shows all row/col coordinates relative to the 1,1 origin located at the intersection of the lines containing top and left most edges of the cross. A fixed grid might be more efficient. With the ability to detect an off page condition and save and replay the game later this could be easier to deal with. The issue of grid origin comes up all the time when working with the code and debugging output.
The program produces a crude ASCII art grid; however and more importantly it produces a game log that can be replayed in the Pentasol free player. This can be used to capture graphical grids as well as providing independent validation of the games.
Most of the Record Games have downloadable games in this notation. For example Chris Rosin's 178 move grid.
For more see: Morpion -h|-help
Basic Solution
The code need to solve the task requirements is found in this section. Just delete the $define below. The basic code will play a single random game, show an ASCII art grid, and produce a log in Pentasol compatible notation. On any given run your most likely to see a game with scores in the 20's or 60's.
Main and Core Game Play Procedures
<lang Unicon>link printf,strings,options
$define MORPVER "1.7g" # version $define EXTENDED 1 # delete line for basic
procedure main(A) # Morphion $ifdef EXTENDED
MorpionConf(A) # conf extended version if \M_ReplayFile then ReplayMorpion() else if \M_Limit === 1 then ShowGame(SingleMorpion()) else MultiMorphion(\M_Limit)
$else
printf("--- Morpion Solitaire 5 (v%s) (single random game)---\n\n",MORPVER) M_Strategy := RandomPlayer M_Mvalid := ValidMove5T # can be changed to 5D M_WriteGame := WriteMoveLogPS M_Output := &output ShowGame(SingleMorpion())
$endif end
$define XEMPTY "." # symbols used in Grid $define XINIT "*" $define XUSED "+" $define DHOR "-" # Directions for moves $define DVER "|" $define DRD "\\" $define DLD "/" $define DALL "-|/\\"
global M_Strategy,M_Mvalid # Pluggable procedures global M_Output # output files global M_WriteGame # for logger
record morpiongame(grid,score, # the grid & score
log,history, # move log and replayable history log roff,coff,center, # origin expansion offsets and center pool, # pool of avail moves move, # selected move count, # game number (multi-game) rseed) # &random at start of random play
record morpionmove(direction,move,line,roff,coff) # move & line data record morpioncell(symbol,direction,row,col) # a grid cell record MorpionGameRecord(ref,row,col,darow,dacol) # record of game
procedure SingleMorpion(MG,N) #: Play a game silently
/MG := SetupM5Grid() # start game with new grid? while MorphionMove(M_Strategy(MG)) do # keep moving if MG.score >= \N then break # unless truncated return MG
end
procedure MorphionMove(MG) #: make a move
(M := MG.move).roff := MG.roff # copy offsets M.coff := MG.coff put(MG.history,M) # save history MG.score +:= 1 # and score \M_LogDetails(MG,M) # for analysis every x := !M.line do { # draw the line g := MG.grid[x[1],x[2]] g.direction ||:= M.direction /g.symbol := XUSED # remove / for all XUSED } return
end
procedure ScanGrid(MG) #: Scan all grid lines
G := ExpandGrid(MG).grid # expand the grid if needed MG.pool := [] # candidate moves every c := 1 & r := 1 to *G do # horizontal ScanGridLine(G,r,c,0,+1,DHOR,MG.pool) every r := 1 & c := 1 to *G[1] do # vertical ScanGridLine(G,r,c,+1,0,DVER,MG.pool) every ( c := 1 & r := 1 to *G-4 ) | ( c := 2 to *G[r := 1] ) do # down & right ScanGridLine(G,r,c,+1,+1,DRD,MG.pool) every ( r := 2 to *G-4 & c := *G[r] ) | ( c := 5 to *G[r := 1] ) do # down & left ScanGridLine(G,r,c,+1,-1,DLD,MG.pool) if MG.score = 0 & M_Strategy ~=== Replayer then { # move 1 special case every put(pool1 := [], MG.pool[2|19|20|26]) # cor. o(2), i(1), val o(1) MG.pool := pool1 } if *MG.pool > 0 then return MG
end
procedure ScanGridLine(G,r0,c0,ri,ci,dir,pool) #: scan 1 grid line (5T/D)
local L5,M,r,c,x L5 := [] r := r0 - ri & c := c0 -ci # one step back while put(L5,G[r +:= ri,c +:= ci]) do { while *L5 > 5 do pop(L5) # too long ? if *L5 < 5 then next # too short ? if M_Mvalid(L5,dir) then { # just right, but valid? put(pool,M := morpionmove(dir,,[])) # add to pool of valid moves every x := L5[i := 1 to *L5] do { put(M.line,[x.row,x.col]) if /x.symbol then M.move := i } } } return pool
end
procedure ValidMove5T(L,dir) #: Succeed if L has valid 5T move
local i,j if *L ~= 5 then fail # wrong count every (i := 0) +:= (/(!L).symbol,1) if i ~= 1 then fail # more than 1 avail space every (j := 0) +:= ( find(dir,(!L).direction), 1) if j > 1 then fail # no overlap, =1 implies at an end return # that's it!
end
procedure ValidMove5D(L,dir) #: Succeed if L has valid 5D move #@@
local i,j if *L ~= 5 then fail # wrong count every (i := 0) +:= (/(!L).symbol,1) if i ~= 1 then fail # more than 1 avail space every (j := 0) +:= ( find(dir,(!L).direction), 1) if j > 0 then fail # no overlap, =1 implies at an end return # that's it!
end
procedure SetupM5Grid() #: construct 5T/D grid & cross
local G,r,c,s every !(G := list(10)) := list(10) # Grid every G[r := 1 to 10, c := 1 to 10] := morpioncell(,"",r,c) # Empties every s := ![[1,4],[4,1],[4,7],[7,1],[7,7],[10,4]] do { # Cross every r := s[1] & c := s[2] + (0 to 3) do G[r,c] := morpioncell(XINIT,"",r,c) every r := s[2] + (0 to 3) & c := s[1] do G[r,c] := morpioncell(XINIT,"",r,c) } return morpiongame(G,0,[],[],0,0,1 + (*G-1)/2.) # Create game
end
procedure ExpandGrid(MG) #: expand any touching sides
local r,c,rn,cn,C rn := *(G := MG.grid) # capture ... cn := *G[1] # ... entry dimensions if \(!G)[1].symbol then { # left edge MG.coff +:= 1 every (cn | (!!G).col) +:= 1 every push(G[r := 1 to rn],morpioncell(,"",r,1)) } if \(!G)[cn].symbol then { # right edge cn +:= 1 every put(G[r := 1 to rn],morpioncell(,"",r,cn)) } if \(!G[1]).symbol then { # top edge MG.roff +:= 1 every (rn | (!!G).row) +:= 1 push(G,C := list(cn)) every C[c := 1 to cn] := morpioncell(,"",1,c) } if \(!G[rn]).symbol then { # bottom edge rn +:= 1 put(G,C := list(cn)) every C[c := 1 to cn] := morpioncell(,"",rn,c) } return MG
end
procedure ShowGame(MG) #: show games
if M_Output === &output then every (\(PrintGrid|WriteMoveLog|M_PrintDetails))(MG) else # header first to output, game saved every (\(WriteMoveLog|PrintGrid|M_PrintDetails))(MG)
end
procedure PrintGrid(MG) #: print the current Grid
G := MG.grid every (ruler := " ") ||:= (1 to *G[1]) % 10 fprintf(M_Output,"\nMorphion Solitare Grid (move=%i):\n%s\n",MG.score,ruler) every r := 1 to *G do { fprintf(M_Output,"%s ",right(r%100,2)) every c := 1 to *(G[r]) do fprintf(M_Output,"%s",\G[r,c].symbol | XEMPTY) fprintf(M_Output,"\n") } fprintf(M_Output,"%s\n",ruler) return MG
end
procedure RandomPlayer(MG) #: Simulate random player
if &random := \M_Rseed then M_Rseed := &null # set seed if given only once /MG.rseed := &random # seed for this game if MG.move := ?ScanGrid(MG).pool then return MG
end</lang>
Game Logging
<lang Unicon>procedure WriteMoveLog(MG) #: write move log wrapper
if \M_GameSave then { savegame := sprintf("Games/%s/%i-L%i",M_GameType,*MG.history,M_Limit) if M_Limit ~= 1 then savegame ||:= sprintf("(%i)",MG.count) if \M_ReplayFile then { fn := map(M_ReplayFile,"/\\","__") fn ? (="Games/", savegame ||:= "-RF" || tab(find(".txt"))) savegame ||:= "-RN" || (0 < \M_ReplayAfter) } savegame ||:= sprintf("_%s-%s-F%s.txt",deletec(&date,'/'),deletec(&clock,':'),M_GameFmt) M_GameSave := savegame fprintf(M_Output,WriteMoveLogHeader(MG)) # write header, game is saved f := open(savegame,"w") | stop("Unable to open ",savegame," for writing") fprintf(f,M_WriteGame(MG),M_Config) # call desired writer for output/save close(f) } else fprintf(M_Output,M_WriteGame(MG))
end
procedure WriteMoveLogHeader(MG) #: write common header comments
return sprintf("#\n# Game Record for Morphion %s game of %i moves\n_ # Date: %s\n# Saved: %s\n# &random: %i\n_ # ReplayFile: %s (%s moves)\n#\n", \M_GameType|"5T",MG.score,&date,\M_GameSave|"* none *", MG.rseed,\M_ReplayFile|"* none *",\M_ReplayAfter|"* all *")
end
procedure WriteMoveLogPS(MG) #: write pentasol style move log
l := WriteMoveLogHeader(MG) l ||:= sprintf("# Pentasol compatible format\n#\n#\n_ # Morpion Solitaire game\n#\n_ # XXXX\n# X X\n# X X\n_ # XXXR XXXX\n# X X\n# X X\n_ # XXXX XXXX\n# X X\n# X X\n# XXXX\n#\n_ # R = reference point\n_ # List of moves starts with reference point (col,row)\n_ # Lines are\n# (col,row) <direction> <+/-centerdist>\n_ # distance to center is left side or top edge\n#\n") l ||:= sprintf("(%i,%i)\n",4+MG.coff,4+MG.roff) every l ||:= FormatMoveLogPS(MG,!MG.history) return l || "#"
end
procedure FormatMoveLogPS(MG,m) #: format a PS move
d := if m.direction == "/" then m.move-3 else 3-m.move return sprintf("(%i,%i) %s %s%d\n", m.line[m.move,2]-m.coff+MG.coff,m.line[m.move,1]-m.roff+MG.roff, m.direction,(d < 0,"-")|(d = 0,"")|"+",abs(d))
end</lang>
Extended Framework
None of the code below is needed to satisfy the basic task. It supports the extended framework which includes, command line options, reading and replaying games from a saved file, running mass simulations to glean the best games, and some code for detailed analysis if I ever get around to experimenting with other than random strategy.
Interface, Parameters, Globals
<lang Unicon>$ifdef EXTENDED
- --- Interface, Parameters, Additional Globals ---
global M_Eval # Pluggable procedure global M_SrchWid,M_SrchDep # For strategy modules global M_LogDetails,M_PrintDetails # Misc. global M_CommandLine,M_Config,M_GameType,M_GameSave global M_Limit,M_StatUpd,M_BestL,M_WorstL # Multi-game simulation options global M_ReplayFile,M_ReplayAfter,M_Rseed # For game replay global M_ReadGame,M_GameFmt # Game formats to use global M_ChartW,M_ChartG # histogram
- --- Beginning of Non-core (Extended) code ---
procedure MorpionConf(A) # Configure the Solver
M_CommandLine := copy(A) # preserve os := "-Q! -L+ -limit+ -V: -variant: -seed+ " os ||:= "-R! -replay! -RF: -RN+ -save! -RW: -RR: " os ||:= "-histwidth+ -histgroup+ -HW+ -HG+ " os ||:= "-UN+ -SW+ -SD+ -A: -E+ -B+ -W+" os ||:= "-details! " opt := options(A,os,Usage) # -<anything else> gets help M_Limit := ( 0 <= integer(\opt["limit"|"L"])) | 1 M_Rseed := \opt["seed"] M_Mvalid := case opt["V"|"variant"] of { "5D" : (M_GameType := "5D", ValidMove5D) default : (M_GameType := "5T", ValidMove5T) # also 5T } M_ReadGame := case map(\opt["RR"]) | &null of { default : (M_GameFmt := "ps", ReadMoveLogPS) "0" : (M_GameFmt := "0", ReadMoveLogOrig) # deprecated } M_WriteGame := case map(\opt["RW"]) | &null of { default : (M_GameFmt := "ps", WriteMoveLogPS) "0" : (M_GameFmt := "0", WriteMoveLogOrig) # deprecated } M_Strategy := case opt["A"] of { "A1" : (def_un := 50, PlayerA1) default : (def_un := 500, RandomPlayer) } M_Eval := case opt["E"] of { "1" : Score1 # test default : &null # also "0" } M_ChartW := (40 <= \opt["histwidth"|"HW"]) | 80 M_ChartG := \opt["histgroup"|"HG"] | 5 M_LogDetails := if \opt["details"] then LogDetails else 1 M_PrintDetails := if \opt["details"] then PrintDetails else 1 M_StatUpd := (0 < \opt["UN"]) | def_un M_BestL := (0 < \opt["B"]) | 5 M_WorstL := (0 < \opt["W"]) | 0 M_SrchWid := (0 < \opt["SW"]) | 5 M_SrchDep := (0 < \opt["SD"]) | 5 if \opt["R"|"replay"] then { M_ReplayFile := \opt["RF"] | "Games/5T/177-5T-rosin.txt" M_ReplayAfter := (0 < \opt["RN"]) | &null } else M_ReplayFile := &null if \(M_GameSave := opt["save"]) then { fn := sprintf("Runs/%s-L%i-",M_GameType,M_Limit) fn ||:= sprintf("RF%s-",map(\M_ReplayFile,"/\\","__")) fn ||:= sprintf("RN%i-",\M_ReplayAfter) fn ||:= sprintf("%s-%s.txt",deletec(&date,'/'),deletec(&clock,':')) M_Output := open(fn,"w") } /M_Output := &output c := sprintf("# --- Morpion Solitaire 5 (v%s) ---\n#\n",MORPVER) c ||:= "# Command line options :" every c ||:= " " || !A c ||:= "\n# Summary of Morpion Configuration:\n" c ||:= sprintf("# Variant (5T/D) move validation = %i\n",M_Mvalid) c ||:= sprintf("# Games to play = %s\n",( 0 < M_Limit) | "* unlimited *") c ||:= "# Multi-game options:\n" c ||:= sprintf("# - Status Updates = %i\n",M_StatUpd) c ||:= sprintf("# - Keep best = %i\n",M_BestL) c ||:= sprintf("# - Keep worst = %i\n",M_WorstL) c ||:= sprintf("# - Histogram width = %i\n",M_ChartW) c ||:= sprintf("# - Histogram grouping = %i\n",M_ChartG) c ||:= sprintf("# Games will be saved = %s\n", (\M_GameSave, "Yes") | "* No *") c ||:= sprintf("# - Format for game file (write) = %i\n",\M_WriteGame) c ||:= "# Replaying\n" c ||:= sprintf("# - Format for game file (read) = %i\n",\M_ReadGame) c ||:= sprintf("# - Game file to be replayed = %s\n", \M_ReplayFile | "* None *") c ||:= sprintf("# - Moves to replay = %i\n", 0 ~= \M_ReplayAfter) c ||:= sprintf("# Player Strategy = %i\n",M_Strategy) c ||:= sprintf("# - Seed for &random = %i\n",\M_Rseed) c ||:= sprintf("# - Position Fitness Evaluator = %s\n", image(\M_Eval) | "* None *") c ||:= sprintf("# - Search Width (strategy dependant) = %i\n",M_SrchWid) c ||:= sprintf("# - Search Depth (strategy dependant) = %i\n",M_SrchDep) c ||:= sprintf("# Log Details for analysis = %s\n", if M_LogDetails === 1 then "No" else "Yes") c ||:= "#\n" M_Config := c if \opt["Q"] then stop(M_Config,"-Q Stops run after processing options") else fprintf(M_Output,M_Config) /M_Eval := Scorefail
end
procedure Usage()
fprintf(&errout,"_ Morphion [options] Plays the 5T/D variant of Morphion Solitaire\n_ Arguments : ") every fprintf(&errout," %s",!M_CommandLine) fprintf(&errout,"_ Morphion [options] Plays the 5T/D variant of Morphion Solitaire\n_ Where options are:\n_ \t-A\tchoose player strategy approach (default=random, future)\n_ \t-E\tSpecifiy an position fitness evaluation function (default none, future)\n_ \t-SW\tSearch width (strategy dependent, future)\n_ \t-SD\tSearch depth (strategy dependent, future)\n_ \t-V|-variant\t5D or 5T (default)\n_ \t-R|-replay\treplay\n_ \t-RF\tfile containing game record to be replayed\n_ \t-RN\tnumber of moves to replay (0=all)\n_ \t-RR\tgame recording format to read (ps=pentasol(default), 0=original)\n_ \t-RW\tgame recording format to write ps=pentasol(default), 0=original)\n_ \t-save\tsave the best (-B) and worst (-W) games\n_ \t-seed\tstart the seed of the random number at this value\n_ \t-L|-limit\tgames to play (if 0 or less then play until any of 'XxQq' is pressed\n_ \t\tnote for larger n this benefits from larger BLKSIZE, STRSIZE environment variables\n_ \t-HW|-histwidth\twidth (cols) of histogram of scores\n_ \t-HG|-histgroup\tsize of groups (buckets) for histogram\n_ \t-UN\tGive status update notifications every n simulations\n_ \t-B\tKeep best n games of unique length (default 5)\n_ \t-W\tKeep worst n games of unique length (default 3)\n_ \t-details\tLog game details for analysis\n_ \t-Q\t(debugging) terminates after options processing\n_ \t-?|-h|-help\tthis help text") stop()
end</lang>
Multigame Simulation and Monitoring Support
<lang Unicon> procedure MultiMorphion(N,MG) #: Simulate N games using MG
etime := -&time scores := table(n := 0) every bestL|worstL := [] if N <= 0 then N := "unlimited" repeat { if n >= numeric(N) then break else n +:= 1 mg := SingleMorpion(deepcopy(\MG)|&null) # play out game scores[mg.score] +:= 1 # count score mg.count := n # game number if short := ( /short | short.score >= mg.score, mg) then { push(worstL,short) # keep worst if *worstL > M_WorstL then pull(worstL) } if ( /long | long.score <= mg.score) then { bestcnt := if (\long).score = mg.score then bestcnt + 1 else 1 long := mg put(bestL,long) # keep best if *bestL > M_BestL then get(bestL) fprintf(M_Output,"Longest game %i after %i simulations &random=%i.\n", long.score,n,long.rseed) fprintf(&errout,"\r%i of %s simulations, long=%i(%i) (%s %s)", n,N,long.score,bestcnt,&date,&clock) } if (n % M_StatUpd) = 0 then # say we're alive & working fprintf(&errout,"\r%i of %s simulations, long=%i(%i) (%s %s)", n,N,long.score,bestcnt,&date,&clock) if kbhit() & getch() == !"QqXx" then # exit if any q/x break fprintf(&errout,"\nExiting after %i simulations.\n",n) } etime +:= &time avg := 0.0 short := key(scores) \ 1 # 1 key only every i := key(scores) do { # summarize stats short >:= i avg +:= i * scores[i] } fprintf(M_Output,"\nResults from Sample of %i games of Morpion 5T/D:\n",n) fprintf(M_Output,"Shortest game was %i moves.\n",short) fprintf(M_Output,"Average game was %i moves.\n",avg /:= n) fprintf(M_Output,"Longest game was %i moves.\n",long.score) fprintf(M_Output,"Average time/game is %i ms.\n",etime/real(n)) fprintf(M_Output,"&random is now %i.\n",&random) GraphScores(scores) # graph results fprintf(M_Output,"\nLongest (%i) Game(s):\n",M_BestL) every ShowGame(!reverse(bestL)) # show longest game(s) and log fprintf(M_Output,"\nShortest (%i) Game(s):\n",M_WorstL) every ShowGame(!worstL) # show longest game(s) and log MemUsage() # diagnostic
end
procedure GraphScores(S) #: graph results
chart := [] every s := key(S) do { # by score n := s/M_ChartG+1 # chunks of ... until chart[n] do put(chart,0) # grow chart to need chart[n] +:= S[s] } s := (1 < max!chart/M_ChartW | 1) # scale fprintf(M_Output,"\nSummary of Results every '*' = %d games\n",s) every n := 1 to *chart do fprintf(M_Output,"%3d | (%6d) %s\n",(n-1)*M_ChartG,chart[n],repl("*",chart[n]/s))
end
procedure MemUsage() #: monitor usage
fprintf(M_Output,"\nTotal run time = %i ms\n",&time) fprintf(M_Output,"&allocated (Total,static,string,block) : ") every fprintf(M_Output," %i",&allocated) ; fprintf(M_Output,"\n") fprintf(M_Output,"&collections (Total,static,string,block) : ") every fprintf(M_Output," %i",&collections) ; fprintf(M_Output,"\n") fprintf(M_Output,"®ions ( - , - ,string,block) : ") every fprintf(M_Output," %s","-"|®ions) ; fprintf(M_Output,"\n") fprintf(M_Output,"&storage ( - , - ,string,block) : ") every fprintf(M_Output," %s","-"|&storage) ; fprintf(M_Output,"\n\n")
end </lang>
Game Replayer
<lang Unicon>procedure ReplayMorpion() #: Handle recorded games
Replayer(M := ReadMoveLog(M_ReplayFile)) # read game and save data M_Strategy := Replayer if /M_ReplayAfter | (M_ReplayAfter > *M) then { fprintf(M_Output,"Single game replay\n") ShowGame(SingleMorpion()) } else { # truncation replay MG := SingleMorpion(,M_ReplayAfter) # play shortened game M_Strategy := RandomPlayer if M_Limit === 1 then ShowGame(SingleMorpion(MG)) # single game else MultiMorphion(M_Limit,MG) # simulate many games from here } return
end
procedure Replayer(MG) #: feed replayed moves from list/game static ML,radj,cadj
if type(MG[1]) == "MorpionGameRecord" then return ML := MG # setup list if not ScanGrid(MG) then fail # out of moves ? x := get(ML) | fail # get next move if x.ref = 0 then x := get(ML) | fail # skip move 0 if any xr := x.row + MG.roff # adjust move for grid expansion xc := x.col + MG.coff dr := \x.darow + MG.roff # adjust end for grid expansion dc := \x.dacol + MG.coff pool := [] every m := !MG.pool do { # find possible moves here mr := m.line[m.move,1] mc := m.line[m.move,2] if xr=mr & xc=mc then if \dr & \dc then { # info to disambiguate? every p := (m.line)[1|5] do # try endpoints if p[1] = dr & p[2] = dc then put(pool,m) # save matching move } else put(pool,m) # save matching move(s) } if *pool = 1 then # unique move? return ( MG.move := pool[1], MG) # set unique move and return MG else { # we have a problem ShowGame(MG) fprintf(M_Output,"Problem encountered replaying game at move #%i, %i choices.\n",MG.score,*pool) every m := !pool do fprintf(M_Output," %s\n",FormatMoveLogPS(MG,m)) &dump := 0 stop() }
end</lang>
Game Reader
<lang Unicon>procedure ReadMoveLog(MG) #: read move log wrapper
fprintf(M_Output,"Reading recorded game from: %s\n",M_ReplayFile) f := open(M_ReplayFile ,"r") | stop("Unable to open file ",M_ReplayFile ," for read.") R := [] while b := trim(read(f)) do { if b ? ="$end" then break # allow pre-mature end of file b ?:= tab(find("#")|0) # strip comments b := deletec(b,' \t') # strip whitespace if *b > 0 then put(R,b) # save move for reader } close(f) return M_ReadGame(R) # call reader, return move list
end
procedure ReadMoveLogPS(R) #: read pentasol style move log static off initial { # precalc center offsets
off := table() off[-2] := -4 off[-1] := -3 off[0] := 2 off[1] := -1 off[2] := 4 } M := [] n := 0 # move number get(R) ? ( ="(", coff := integer(tab(many(&digits))) - 4, =",", roff := integer(tab(many(&digits))) - 4, =")", pos(0) ) | # Reference Cell (c,r) stop(&output,"Syntax error in reference line.") while b := get(R) do { # Line (c,r) d o b ? ( ="(", c := integer(tab(many(&digits))), =",", r := integer(tab(many(&digits))), =")", d := tab(any(DALL)), o := integer(=("-2"|"-1"|0|"+1"|"+2")) ) | stop(&output,"Syntax error in line above.") x := MorpionGameRecord() # new move / line x.ref := n +:= 1 x.darow := x.row := r - roff x.dacol := x.col := c - coff case d of { # adjust based on direction DHOR : x.dacol +:= off[o] DVER : x.darow +:= off[o] DRD : ( x.darow +:= off[o], x.dacol +:= off[o]) DLD : ( x.darow -:= off[o], x.dacol +:= off[o]) } put(M,x) } return M
end</lang>
Detailed Move Logging (for analysis)
<lang Unicon>procedure PrintDetails(MG) #: print the log
fprintf(M_Output,"Detailed Move Log\n") every fprintf(M_Output,"%i : %s\n",i := 1 to *MG.log,MG.log[i])
end
procedure LogFormatMove(M,roff,coff) #: format a log entry
/M.roff := \roff | 0 /M.coff := \coff | 0 log := sprintf("\"%s\" [%i,%i] : ",M.direction, M.line[M.move,1]-M.roff,M.line[M.move,2]-M.coff) every x := !M.line do log ||:= sprintf("[%i,%i] ",x[1]-M.roff,x[2]-M.coff) return log
end
procedure LogDetails(MG,M) #: Record details
log := LogFormatMove(M) log ||:= sprintf(" - of %i choices.",*MG.pool) # append # choices log ||:= sprintf(" Metric=%i",M_Eval(MG)) # append score (opt) put(MG.log,log) # log the move
end</lang>
Strategy Support
<lang Unicon># No useful examples at this time
procedure Scorefail(MG);end #: dummy M_Eval always fails $endif</lang>
printf.icn provides formatting
strings.icn provides deletec
options.icn provides options processing
Other RosettaCode pages used Deepcopy
SampleOutput
Help
Morphion [options] Plays the 5T/D variant of Morphion Solitaire Arguments : -helpMorphion [options] Plays the 5T/D variant of Morphion Solitaire Where options are: -A choose player strategy approach (default=random, future) -E Specifiy an position fitness evaluation function (default none, future) -SW Search width (strategy dependent, future) -SD Search depth (strategy dependent, future) -V|-variant 5D or 5T (default) -R|-replay replay -RF file containing game record to be replayed -RN number of moves to replay (0=all) -RR game recording format to read (ps=pentasol(default), 0=original) -RW game recording format to write ps=pentasol(default), 0=original) -save save the best (-B) and worst (-W) games -seed start the seed of the random number at this value -L|-limit games to play (if 0 or less then play until any of 'XxQq' is pressed note for larger n this benefits from larger BLKSIZE, STRSIZE environment variables -HW|-histwidth width (cols) of histogram of scores -HG|-histgroup size of groups (buckets) for histogram -UN Give status update notifications every n simulations -B Keep best n games of unique length (default 5) -W Keep worst n games of unique length (default 3) -details Log game details for analysis -Q (debugging) terminates after options processing -?|-h|-help this help text
Random Game Record
The following image was obtained by replaying the game in Pentasol and saving the picture. The original was generated by a multigame simulation and represents the best game generated by this game from the starting position.
This the game record used to produce the above image:
# # Game Record for Morphion 5T game of 92 moves # Date: 2012/02/18 # Saved: Games/5T/92-L1_20120218-163208-Fps.txt # &random: 1617565851 # ReplayFile: * none * (* all * moves) # # Pentasol compatible format # # # Morpion Solitaire game # # XXXX # X X # X X # XXXR XXXX # X X # X X # XXXX XXXX # X X # X X # XXXX # # R = reference point # List of moves starts with reference point (col,row) # Lines are # (col,row) <direction> <+/-centerdist> # distance to center is left side or top edge # (9,7) (12,8) | -2 (16,7) - -2 (9,8) | -2 (13,11) / 0 (9,9) | +2 (15,11) | -2 (13,13) - -2 (6,11) | -2 (16,10) - -2 (12,14) | -2 (8,4) - +2 (5,7) - +2 (13,6) \ 0 (10,12) \ 0 (14,8) \ 0 (14,12) / 0 (10,10) - -2 (11,9) / 0 (8,6) / 0 (10,8) \ +1 (8,11) \ 0 (11,7) / -1 (13,9) \ 0 (11,11) \ 0 (14,11) - -1 (14,9) | +1 (13,12) | -1 (12,9) - +1 (16,9) / -2 (17,6) / -2 (11,12) - +1 (16,6) / -2 (16,8) | 0 (11,10) | +1 (10,9) \ +1 (11,8) / 0 (13,8) - -2 (15,6) / -2 (13,5) | +2 (10,7) \ +2 (14,6) \ 0 (10,6) | +2 (16,11) \ -2 (11,6) - +2 (11,5) | +2 (8,8) / +2 (8,14) / +2 (8,9) | -1 (7,9) - +2 (4,6) \ +2 (5,12) / +2 (13,4) / -2 (10,5) - +1 (10,11) \ 0 (7,8) / +2 (7,6) | +2 (7,11) - +1 (10,14) | -2 (9,14) / +2 (7,3) \ +2 (17,8) - -2 (14,5) \ +1 (11,14) - -1 (8,12) \ 0 (5,8) - +2 (8,13) | -1 (14,4) | +2 (8,5) / -1 (7,14) / +2 (8,3) \ +2 (6,6) - +2 (5,5) \ +2 (8,2) | +2 (6,4) / 0 (9,3) \ +1 (7,5) / 0 (5,3) \ +2 (6,3) - +1 (6,5) - +1 (6,2) | +2 (7,4) \ +1 (7,2) | +2 (5,4) \ +2 (5,6) | 0 (9,2) / -2 (10,2) - -2 (4,5) \ +2 (10,3) | +1 (3,6) / +2 (4,4) - +2 (2,6) - +2 (3,5) / +1 #
Multigame Run
The multigame simulation of completely random play includes a histogram showing game scores clustering in the 20's and 60's. This result is similar to results obtained by Jean-Jacques Sibil (scroll down to find reference) who has run nearly a billion such simulations achieving a high score of 102 as of 2010.
The following is a summary file:
# --- Morpion Solitaire 5 (v1.7e) --- # # Command line options : # Summary of Morpion Configuration: # Variant (5T/D) move validation = procedure ValidMove5T # Games to play = * unlimited * # Multi-game options: # - Status Updates = 500 # - Keep best = 5 # - Keep worst = 0 # - Histogram width = 80 # - Histogram grouping = 5 # Games will be saved = Yes # - Format for game file (write) = procedure WriteMoveLogPS # Replaying # - Format for game file (read) = procedure ReadMoveLogPS # - Game file to be replayed = * None * # Player Strategy = procedure RandomPlayer # - Position Fitness Evaluator = * None * # - Search Width (strategy dependant) = 5 # - Search Depth (strategy dependant) = 5 # Log Details for analysis = No # Longest game 77 after 1 simulations &random=20122297. Longest game 77 after 85 simulations &random=274082001. Longest game 78 after 118 simulations &random=559240181. Longest game 78 after 123 simulations &random=1682993637. Longest game 81 after 292 simulations &random=826134037. Longest game 84 after 1181 simulations &random=1936506737. Longest game 86 after 4584 simulations &random=1266457499. Longest game 86 after 44424 simulations &random=1725594333. Longest game 86 after 47918 simulations &random=1686351259. Longest game 86 after 50600 simulations &random=665807725. Longest game 87 after 60841 simulations &random=152917603. Longest game 87 after 74778 simulations &random=1037682795. Longest game 88 after 173368 simulations &random=72059739. Longest game 88 after 241134 simulations &random=2095899781. Results from Sample of 242921 games of Morpion 5T/D: Shortest game was 20 moves. Average game was 53.65064774144681 moves. Longest game was 88 moves. Average time/game is 133.1678282239905 ms. &random is now 452165683. Summary of Results every '*' = 940 games 0 | ( 0) 5 | ( 0) 10 | ( 0) 15 | ( 0) 20 | ( 38637) ***************************************** 25 | ( 13790) ************** 30 | ( 6657) ******* 35 | ( 2604) ** 40 | ( 1306) * 45 | ( 1088) * 50 | ( 3448) *** 55 | ( 22481) *********************** 60 | ( 75207) ******************************************************************************** 65 | ( 61501) ***************************************************************** 70 | ( 13902) ************** 75 | ( 1922) ** 80 | ( 349) 85 | ( 29) Longest (5) Game(s): # # Game Record for Morphion 5T game of 88 moves # Date: 2012/02/18 # Saved: Games/5T/88-L0(241134)_20120218-083009-Fps.txt # &random: 2095899781 # ReplayFile: * none * (* all * moves) # Morphion Solitare Grid (move=88): 1234567890123456 1 ................ 2 ....+.+......... 3 .....+++........ 4 ..+++++++....... 5 .+++++++++...... 6 ..++++****+..... 7 .+++++*++*+..... 8 ..++++*++*++.... 9 ...****++****+.. 10 ...*++++++++*+.. 11 .++*++++++++*++. 12 ...****++****+.. 13 ....++*++*++++.. 14 .....+*++*+++... 15 .....+****+..... 16 .......++....... 17 ........+....... 18 ................ 1234567890123456 # # Game Record for Morphion 5T game of 88 moves # Date: 2012/02/18 # Saved: Games/5T/88-L0(173368)_20120218-083009-Fps.txt # &random: 72059739 # ReplayFile: * none * (* all * moves) # Morphion Solitare Grid (move=88): 1234567890123456 1 ................ 2 .......+........ 3 ......++...+.... 4 .....+****+..... 5 ..++++*++*+..... 6 ..++++*++*+++... 7 ...****++****+.. 8 ...*++++++++*+.. 9 .++*++++++++*+.. 10 ...****++****+.. 11 ..++++*++*+++++. 12 .+...+*++*+++++. 13 .....+****++++.. 14 ....+..+++++++.. 15 .........+++++.. 16 ..........+..... 17 ...........+.... 18 ................ 1234567890123456 # # Game Record for Morphion 5T game of 87 moves # Date: 2012/02/18 # Saved: Games/5T/87-L0(74778)_20120218-083009-Fps.txt # &random: 1037682795 # ReplayFile: * none * (* all * moves) # Morphion Solitare Grid (move=87): 123456789012345 1 ............... 2 ....+.+........ 3 .....+......... 4 ....+++++...... 5 ...++++++...... 6 .+++++****+.... 7 ..++++*++*+.... 8 .+++++*++*++... 9 ..+****++****.. 10 ..+*++++++++*+. 11 ...*++++++++*.. 12 ..+****++****+. 13 ...+++*++*++++. 14 ..++++*++*++... 15 .....+****+.+.. 16 ......+++++.... 17 ........+...... 18 ............... 123456789012345 # # Game Record for Morphion 5T game of 87 moves # Date: 2012/02/18 # Saved: Games/5T/87-L0(60841)_20120218-083009-Fps.txt # &random: 152917603 # ReplayFile: * none * (* all * moves) # Morphion Solitare Grid (move=87): 123456789012345678 1 .................. 2 .........+.+..+... 3 .....+...++++++... 4 ......****+++++... 5 .....+*++*+++++... 6 ....++*++*+++++++. 7 ..+****++****+.+.. 8 .++*++++++++*+.... 9 .++*++++++++*+.... 10 ..+****++****+.... 11 .+++++*++*++++.... 12 ....++*++*++...... 13 ....++****........ 14 ....+++........... 15 .................. 123456789012345678 # # Game Record for Morphion 5T game of 86 moves # Date: 2012/02/18 # Saved: Games/5T/86-L0(50600)_20120218-083009-Fps.txt # &random: 665807725 # ReplayFile: * none * (* all * moves) # Morphion Solitare Grid (move=86): 1234567890123456 1 ................ 2 .....++..+++.... 3 .....+****+..... 4 ....+.*++*+..... 5 ...+.+*++*+..+.. 6 ..+****++****... 7 ..+*++++++++*... 8 ..+*++++++++*... 9 ..+****++****++. 10 .+++++*++*+++++. 11 ....++*++*+++++. 12 .....+****+++++. 13 .....++++++++++. 14 ..........+++++. 15 ..........+..... 16 ................ 1234567890123456 Shortest (0) Game(s): Total run time = 32349320 ms &allocated (Total,static,string,block) : 1152124804 0 144396168 1007728636 &collections (Total,static,string,block) : 4623 0 0 4623 ®ions ( - , - ,string,block) : - 0 41859440 41859440 &storage ( - , - ,string,block) : - 0 37784 13290772
Other Interesting Results
One of things I did to get a feel for the game and perhaps get some insight in to strategies was to replay published record games. These universally look smoother and more organized than even the best random games. Somewhere it occurred to me to truncate these record games and play forward randomly to see what happened. I probably expected them to go off the rails fairly quickly. And while that happens, I was surprised how close these could get to the original record. This lead to my earlier observation that the seeds of success are set very early in morpion. It may also be due to the number of possible moves falling off more quickly than I might expect.
- Using Bruneau's 170 game truncated at 112 moves the program produced the following:
- Longest game 168 after 175790 simulations &random=1821730183.
- Longest game 169 after 279675 simulations &random=873864083.
- Longest game 170 after 1073380 simulations &random=2014543635.
- Longest game 170 after 1086106 simulations &random=1319746023.
- The two games of 170 are both different and not just transpositions. However the difference produced is in a single move.
- Using Rosin's 177 move (A) grid, the program produced the following,
- from move 129:
- Longest game 145 after 1 simulations.
- Longest game 153 after 2 simulations.
- Longest game 154 after 20 simulations.
- Longest game 155 after 40 simulations.
- Longest game 164 after 50 simulations.
- Longest game 168 after 2203 simulations.
- From move 112:
- Longest game 140 after 1 simulations.
- Longest game 146 after 10 simulations.
- Longest game 148 after 441 simulations.
- Longest game 151 after 2029 simulations.
- Longest game 153 after 7167 simulations.
- Longest game 157 after 34601 simulations.
- Longest game 168 after 41977 simulations.
- from move 129:
- Unfortunately that earlier version of the program was not logging the random number seed used for these games.