ACME(4) ACME(4) NAME acme - control files for text windows SYNOPSIS acme [ -f varfont ] [ -F fixfont ] [ file ... ] DESCRIPTION The text window system acme(1) serves a variety of files for reading, writing, and controlling windows. Some of them are virtual versions of system files for dealing with the vir- tual console; others control operations of acme itself. When a command is run under acme, a directory holding these files is posted as the 9P service acme (using 9pserve(4)). Some of these files supply virtual versions of services available from the underlying environment, in particular the character terminal files in Plan 9's cons(3). (Unlike in Plan 9's rio(1), each command under acme sees the same set of files; there is not a distinct /dev/cons for each win- dow.) Other files are unique to acme. acme is a subdirectory used by win (see acme(1)) as a mount point for the acme files associated with the window in which win is running. It has no specific function under acme itself. cons is the standard and diagnostic output file for all com- mands run under acme. (Input for commands is redirected to /dev/null.) Text written to cons appears in a win- dow labeled dir/+Errors, where dir is the directory in which the command was run. The window is created if necessary, but not until text is actually written. consctl is an empty unwritable file present only for compati- bility; there is no way to turn off `echo', for exam- ple, under acme. index holds a sequence of lines of text, one per window. Each line has 5 decimal numbers, each formatted in 11 characters plus a blank-the window ID; number of char- acters (runes) in the tag; number of characters in the body; a 1 if the window is a directory, 0 otherwise; and a 1 if the window is modified, 0 otherwise-followed by the tag up to a newline if present. Thus at charac- ter position 5×12 starts the name of the window. If a file has multiple zeroxed windows open, only the most recently used will appear in the index file. Page 1 Plan 9 (printed 11/18/24) ACME(4) ACME(4) label is an empty file, writable without effect, present only for compatibility with rio. log reports a log of window operations since the opening of the log file. Each line describes a single operation using three fields separated by single spaces: the dec- imal window ID, the operation, and the window name. Reading from log blocks until there is an operation to report, so reading the file can be used to monitor edi- tor activity and react to changes. The reported opera- tions are `new' (window creation), `zerox' (window cre- ation via zerox), `get', `put', and `del' (window dele- tion). The window name can be the empty string; in particular it is empty in `new' log entries correspond- ing to windows created by external programs. new is a directory analogous to the numbered directories (q.v.). Accessing any file in new creates a new win- dow. Thus to cause text to appear in a new window, write it to /dev/new/body. For more control, open /dev/new/ctl and use the interface described below. Each acme window has associated a directory numbered by its ID. Window IDs are chosen sequentially and may be discov- ered by the ID command, by reading the ctl file, or indi- rectly through the index file. The files in the numbered directories are as follows. addr may be written with any textual address (line number, regular expression, etc.), in the format understood by button 3 but without the initial colon, including com- pound addresses, to set the address for text accessed through the data file. When read, it returns the value of the address that would next be read or written through the data file, in the format #m,#n where m and n are character (not byte) offsets. If m and n are identical, the format is just #m. Thus a regular expression may be evaluated by writing it to addr and reading it back. The addr address has no effect on the user's selection of text. body holds contents of the window body. It may be read at any byte offset. Text written to body is always appended; the file offset is ignored. ctl may be read to recover the five numbers as held in the index file, described above, plus three more fields: the width of the window in pixels, the name of the font used in the window, and the width of a tab character in pixels. Text messages may be written to ctl to affect the window. Each message is terminated by a newline Page 2 Plan 9 (printed 11/18/24) ACME(4) ACME(4) and multiple messages may be sent in a single write. addr=dot Set the addr address to that of the user's selected text in the window. clean Mark the window clean as though it has just been written. dirty Mark the window dirty, the opposite of clean. cleartag Remove all text in the tag after the verti- cal bar. del Equivalent to the Del interactive command. delete Equivalent to the Delete interactive com- mand. dot=addr Set the user's selected text in the window to the text addressed by the addr address. dump command Set the command string to recreate the win- dow from a dump file. dumpdir directory Set the directory in which to run the com- mand to recreate the window from a dump file. get Equivalent to the Get interactive command with no arguments; accepts no arguments. limit=addr When the ctl file is first opened, regular expression context searches in addr addresses examine the whole file; this mes- sage restricts subsequent searches to the current addr address. mark Cancel nomark, returning the window to the usual state wherein each modification to the body must be undone individually. name name Set the name of the window to name. nomark Turn off automatic `marking' of changes, so a set of related changes may be undone in a single Undo interactive command. put Equivalent to the Put interactive command with no arguments; accepts no arguments. show Guarantee at least some of the selected text is visible on the display. data is used in conjunction with addr for random access to the contents of the body. The file offset is ignored when writing the data file; instead the location of the data to be read or written is determined by the state of the addr file. Text, which must contain only whole characters (no `partial runes'), written to data replaces the characters addressed by the addr file and sets the address to the null string at the end of the written text. A read from data returns as many whole characters as the read count will permit starting at the beginning of the addr address (the end of the Page 3 Plan 9 (printed 11/18/24) ACME(4) ACME(4) address has no effect) and sets the address to the null string at the end of the returned characters. errors Writing to the errors file appends to the body of the dir/+Errors window, where dir is the directory cur- rently named in the tag. The window is created if nec- essary, but not until text is actually written. event When a window's event file is open, changes to the win- dow occur as always but the actions are also reported as messages to the reader of the file. Also, user actions with buttons 2 and 3 (other than chorded Cut and Paste, which behave normally) have no immediate effect on the window; it is expected that the program reading the event file will interpret them. The mes- sages have a fixed format: a character indicating the origin or cause of the action, a character indicating the type of the action, four free-format blank- terminated decimal numbers, optional text, and a new- line. The first and second numbers are the character addresses of the action, the third is a flag, and the final is a count of the characters in the optional text, which may itself contain newlines. The origin characters are E for writes to the body or tag file, F for actions through the window's other files, K for the keyboard, and M for the mouse. The type characters are D for text deleted from the body, d for text deleted from the tag, I for text inserted to the body, i for text inserted to the tag, L for a button 3 action in the body, l for a button 3 action in the tag, X for a button 2 action in the body, and x for a button 2 action in the tag. If the relevant text has less than 256 characters, it is included in the message; otherwise it is elided, the fourth number is 0, and the program must read it from the data file if needed. No text is sent on a D or d message. For D, d, I, and i the flag is always zero. For X and x, the flag is a bitwise OR (reported decimally) of the following: 1 if the text indicated is recognized as an acme built-in command; 2 if the text indicated is a null string that has a non-null expansion; if so, another complete message will follow describing the expansion exactly as if it had been indicated explic- itly (its flag will always be 0); 8 if the command has an extra (chorded) argument; if so, two more complete messages will follow reporting the argument (with all numbers 0 except the character count) and where it Page 4 Plan 9 (printed 11/18/24) ACME(4) ACME(4) originated, in the form of a fully-qualified button 3 style address. For L and l, the flag is the bitwise OR of the follow- ing: 1 if acme can interpret the action without loading a new file; 2 if a second (post-expansion) message fol- lows, analogous to that with X messages; 4 if the text is a file or window name (perhaps with address) rather than plain literal text. For messages with the 1 bit on in the flag, writing the message back to the event file, but with the flag, count, and text omitted, will cause the action to be applied to the file exactly as it would have been if the event file had not been open. tag holds contents of the window tag. It may be read at any byte offset. Text written to tag is always appended; the file offset is ignored. xdata The xdata file like data except that reads stop at the end address. SOURCE /usr/local/plan9/src/cmd/acme SEE ALSO rio(1), acme(1) Page 5 Plan 9 (printed 11/18/24)