GIF89a;
maze.out and input a small number (for example 10 if you are on a fast machine, 3-5 if slow) which is the size of the maze to produce 4. edit the maze (vi maze.out) 5. include the macros with the vi command: :so maze.vi.macros 6. type the letter "g" (for "go") and watch vi solve the maze 7. when vi solves the maze, you will see why it lies 8. now look at maze.vi.macros and all will be revealed Tested on a sparc, a sun and a pyramid (although maze.c will not compile on the pyramid). Anyone who can't get the maze.c file to compile, get a new compiler, try maze.ansi.c which was also posted to the net. If you can get it to compile but the maze comes out looking like a fence and not a maze and you are using SysV or DOS replace the "27" on the last line of maze.c by "11" Thanks to John Tromp (tromp@piring.cwi.nl) for maze.c. Thanks to antonyc@nntp-server.caltech.edu (Bill T. Cat) for maze.ansi.c. Any donations should be in unmarked small denomination bills :^)=. ACSnet: gregm@otc.otca.oz.au Greg McFarlane UUCP: {uunet,mcvax}!otc.otca.oz.au!gregm |||| OTC || Snail: OTC R&D GPO Box 7000, Sydney 2001, Australia Phone: +61 2 287 3139 Fax: +61 2 287 3299