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Þ'¯°ÌME[YéïĵÂCå½ Ué©Áû'Ê9%eÔðNU”ë‘ÌsD3/®+UI˜9h.WC”빓$#:pz:YÓ ¿xž* ³$Í +$kñAŠ‹†¢ Uê>¸)_š¬÷©ßAÂÔb9ÇU ¯¾á•9¯ÏÏ÷O÷¼¼Fähal1‰3Ì[Ïr•´UCksNÐ] R‘¸¥H+§Šé†c©vÖÞ0iÓ76s†î!§=ß ¼~Ô'°Ãmäoäš³ªøi1úÉ)³yV8 CLÄØÁ‘WYïi€H6ÖÑiámø^ÈY´°Ñ7¥Û*—Ñ©L«Qƒï—Ùrÿ ›£Ð*š¸ˆL©ˆ$ˆ ÷¾D§9È®«qbqC)–ˆïv´çñsÑVT­Ø, <àïºÀO«Jý·õ àfPìð .wFšir´þ’2_Y *Æ€x\« ì€9š@ Ž|F⇥ˆkZ@hÖÄ0t¿-<“‹qµ¾*ZL¤Ú)&BJpÓF5=$„at*Zš$’ÑtdûÝRI1 2Ž‰$€$I$#‰SÞ’Hë¬ï;Á$¡t$’`<(ñÇt)$‡Ð.Êf¢X’Kt=Éé$‚ˆªè¢oÝëòI%Rgcª÷ŠyI%¡‰ÿ !ñ)´õ $¤ Ô’IIGÿÙ" These macros 'solve' any maze produced by the a-maze-ing maze.c program. " " First, a bit of maze theory. " If you were put into a maze, a guaranteed method of finding your way " out of the maze is to put your left hand onto a wall and just keep walking, " never taking your hand off the wall. This technique is only guaranteed to " work if the maze does not have any 'islands', or if the 'exit' is on the " same island as your starting point. These conditions hold for the mazes " under consideration. " " Assuming that the maze is made up of horizontal and vertical walls spaced " one step apart and that you can move either north, south, east or west, " then you can automate this procedure by carrying out the following steps. " " 1. Put yourself somewhere in the maze near a wall. " 2. Check if you have a wall on your left. If so, go to step 4. " 3. There is no wall on your left, so turn on the spot to your left and step " forward by one step and repeat step 2. " 4. Check what is directly in front of you. If it is a wall, turn on the " spot to your right by 90 degrees and repeat step 4. " 5. There is no wall in front of you, so step forward one step and " go to step 2. " " In this way you will cover all the corridors of the maze (until you get back " to where you started from, if you do not stop). " " By examining a maze produced by the maze.c program you will see that " each square of the maze is one character high and two characters wide. " To go north or south, you move by a one character step, but to move east or " west you move by a two character step. Also note that in any position " there are four places where walls could be put - to the north, to the south, " to the east and to the west. " A wall exists to the north of you if the character to the north of " you is a _ (otherwise it is a space). " A wall exists to the east of you if the character to the east of you " is a | (otherwise it is a .). " A wall exists to the west of you if the character to the west of you " is a | (otherwise it is a .). " A wall exists to the south of you if the character where you are " is a _ (otherwise it is a space). " " Note the difference for direction south, where we must examine the character " where the cursor is rather than an adjacent cell. " " If you were implementing the above procedure is a normal computer language " you could use a loop with if statements and continue statements, " However, these constructs are not available in vi macros so I have used " a state machine with 8 states. Each state signifies the direction you " are going in and whether or not you have checked if there is a wall on " your left. " " The transition from state to state and the actions taken on each transition " are given in the state table below. " The names of the states are N1, N2, S1, S2, E1, E2, W1, W2, where each letter " stands for a direction of the compass, the number 1 indicates that the we " have not yet checked to see if there is a wall on our left and the number 2 " indicates that we have checked and there is a wall on our left. " " For each state we must consider the existence or not of a wall in a " particular direction. This direction is given in the following table. " " NextChar table: " state direction vi commands " N1 W hF " N2 N kF " S1 E lF " S2 S F " E1 N kF " E2 E lF " W1 S F " W2 W hF " " where F is a macro which yanks the character under the cursor into " the NextChar register (n). " " State table: " In the 'vi commands' column is given the actions to carry out when in " this state and the NextChar is as given. The commands k, j, ll, hh move " the current position north, south, east and west respectively. The " command mm is used as a no-op command. " In the 'next state' column is given the new state of the machine after " the action is carried out. " " current state NextChar vi commands next state " N1 . hh W1 " N1 | mm N2 " N2 _ mm E1 " N2 space k N1 " S1 . ll E1 " S1 | mm S2 " S2 _ mm W1 " S2 space j S1 " E1 space k N1 " E1 _ mm E2 " E2 | mm S1 " E2 . ll E1 " W1 space j S1 " W1 _ mm W2 " W2 | mm N1 " W2 . hh W1 " " " Complaint about vi macros: " It seems that you cannot have more than one 'undo-able' vi command " in the one macro, so you have to make lots of little macros and " put them together. " " I'll explain what I mean by an example. Edit a file and " type ':map Q rXY'. This should map the Q key to 'replace the " character under the cursor with X and yank the line'. " But when I type Q, vi tells me 'Can't yank inside global/macro' and " goes into ex mode. However if I type ':map Q rXT' and ':map T Y', " everything is OK. I`m doing all this on a Sparcstation. " If anyone reading this has an answer to this problem, the author would " love to find out. Mail to gregm@otc.otca.oz.au. " " The macros: " The macro to run the maze solver is 'g'. This simply calls two other " macros: I, to initialise everything, and L, to loop forever running " through the state table. " Both of these macros are long sequences of calls to other macros. All " of these other macros are quite simple and so to understand how this " works, all you need to do is examine macros I and L and learn what they " do (a simple sequence of vi actions) and how L loops (by calling U, which " simply calls L again). " " Macro I sets up the state table and NextChar table at the end of the file. " Macro L then searches these tables to find out what actions to perform and " what state changes to make. " " The entries in the state table all begin with a key consisting of the " letter 's', the current state and the NextChar. After this is the " action to take in this state and after this is the next state to change to. " " The entries in the NextChar table begin with a key consisting of the " letter 'n' and the current state. After this is the action to take to " obtain NextChar - the character that must be examined to change state. " " One way to see what each part of the macros is doing is to type in the " body of the macros I and L manually (instead of typing 'g') and see " what happens at each step. " " Good luck. " " Registers used by the macros: " s (State) - holds the state the machine is in " c (Char) - holds the character under the current position " m (Macro) - holds a vi command string to be executed later " n (NextChar) - holds the character we must examine to change state " r (Second Macro) - holds a second vi command string to be executed later " set remap set nomagic set noterse set wrapscan " "================================================================ " g - go runs the whole show " I - initialise " L - then loop forever map g IL " "================================================================ " I - initialise everything before running the loop " G$?.^M - find the last . in the maze " ^ - replace it with an X (the goal) " GYKeDP - print the state table and next char table at the end of the file " 0S - initialise the state of the machine to E1 " 2Gl - move to the top left cell of the maze map I G$?. ^GYKeDP0S2Gl " "================================================================ " L - the loop which is executed forever " Q - save the current character in the Char register " A - replace the current character with an 'O' " ma - mark the current position with mark 'a' " GNB - on bottom line, create a command to search the NextChar table " for the current state " 0M0E@m^M - yank the command into the Macro register and execute it " wX - we have now found the entry in the table, now yank the " following word into the Macro register " `a@m - go back to the current position and execute the macro, this will " yank the NextChar in register n " GT$B$R - on bottom line, create a command to search the state table " for the current state and NextChar " 0M0E@m^M - yank the command into the Macro register and execute it " 2WS - we have now found the entry in the table, now yank the " next state into the State macro " bX - and yank the action corresponding to this state table entry " into the Macro register " GVJ - on bottom line, create a command to restore the current character " 0H - and save the command into the second Macro register " `a@r - go back to the current position and exectute the macro to restore " the current character " @m - execute the action associated with this state " U - and repeat map L QAmaGNB0M0E@m wX`a@mGT$B$R0M0E@m 2WSbXGVJ0H`a@r@mU " "================================================================ " U - no tail recursion allowed in vi macros so cheat and set U = L map U L " "================================================================ " S - yank the next two characters into the State register map S "sy2l " "================================================================ " Q - save the current character in the Char register map Q "cyl " "================================================================ " A - replace the current character with an 'O' map A rO " "================================================================ " N - replace this line with the string 'n' map N C/n " "================================================================ " B - put the current state map B "sp " "================================================================ " M - yank this line into the Macro register map M "my$ " "================================================================ " E - delete to the end of the line map E d$ " "================================================================ " X - yank this word into the Macro register map X "myt " "================================================================ " T - replace this line with the string 's' map T C/s " "================================================================ " R - put NextChar map R "np " "================================================================ " V - add the letter 'r' (the replace vi command) map V ar " "================================================================ " J - restore the current character map J "cp " "================================================================ " H - yank this line into the second Macro register map H "ry$ " "================================================================ " F - yank NextChar (this macro is called from the Macro register) map F "nyl " "================================================================ " ^ - replace the current character with an 'X' map ^ rX " "================================================================ " YKeDP - create the state table, NextChar table and initial state " Note that you have to escape the bar character, since it is special to " the map command (it indicates a new line). map Y osE1 k N1 sE1_ mm E2 sE2| mm S1 sE2. ll E1 map K osW1 j S1 sW1_ mm W2 sW2| mm N1 sW2. hh W1 map e osN1. hh W1 sN1| mm N2 sN2 k N1 sN2_ mm E1 map D osS1. ll E1 sS1| mm S2 sS2 j S1 sS2_ mm W1 map P onE1 kF nE2 lF nW1 G$JF nW2 hF nN1 hF nN2 kF nS1 lF nS2 G$JF E1