Mercurial > vim
view runtime/macros/maze/maze_mac @ 33293:42b89193ab3e v9.0.1912
patch 9.0.1912: Cirrus-CI running out of credits
Commit: https://github.com/vim/vim/commit/6f00d17e8d64ed46c85625e8ac38ed0928b32c58
Author: Christian Brabandt <cb@256bit.org>
Date: Tue Sep 19 20:16:46 2023 +0200
patch 9.0.1912: Cirrus-CI running out of credits
Problem: Cirrus-CI running out of credits
Solution: disable Cirrus-CI for now
We are running out of credits for Cirrus CI already at the middle of the
month and unfortunately this means our CI now consistently fails. This
all hapens because cirrus ci is not enforcing the free-tier limits (see also
https://cirrus-ci.org/blog/2023/07/17/limiting-free-usage-of-cirrus-ci/).
Perhaps at the beginning of the next month we can revisit and
enable just a build without testing it. Hopefully this is won't take
too many credits and we can at least verify that building works.
Signed-off-by: Christian Brabandt <cb@256bit.org>
author | Christian Brabandt <cb@256bit.org> |
---|---|
date | Tue, 19 Sep 2023 20:30:10 +0200 |
parents | 3fc0f57ecb91 |
children | d6dde6229b36 |
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" 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