zoem(1) | USER COMMANDS | zoem(1) |
1. NAME
2. SYNOPSIS
3. DESCRIPTION
4. OPTIONS
5. SESSION MACROS
6. THE SET MODIFIERS
7. THE INSPECT SUBLANGUAGE
8. THE TR SUBLANGUAGE
9. TILDE EXPANSION
10. ENVIRONMENT
11. DIAGNOSTICS
12. BUGS
13. SEE ALSO
14. EXAMPLES
15. AUTHOR
zoem - macro processor for the Zoem macro/programming language.
zoem [-i <file name>[.azm] (entry file name)] [-I <file name> (entry file name)] [-o <file name> (output file name)] [-d <device> (set device key)]
zoem
(enter interactive mode - happens when none of -i, -I, -o
is given)
zoem -i <file name>[.azm] (entry file name) -I <file name> (entry file name) [-o <file name> (output file name)] [-d <device> (set device key)] [-x (enter interactive mode on error)] [-s <key>[=<val>] (set key to val)] [-e <any> (evaluate any, exit)] [-E <any> (evaluate any, proceed)] [-chunk-size <num> (process chunks of size num)] [--trace (trace mode, default)] [--trace-all-long (long trace mode)] [--trace-all-short (short trace mode)] [--trace-regex (trace regexes)] [-trace k (trace mode, explicit)] [--stats (show symbol table stats after run)] [--split (assume \writeto usage, set \__split__)] [--stress-write (make \write#3 recover)] [--unsafe (prompt for \system#3)] [--unsafe-silent (simply allow \system#3)] [-allow cmd1[:cmdx]+ (allowable commands)] [--system-honor (require \system#3 to succeed)] [-nuser k (user dict stack size)] [-nenv k (environment dict stack size)] [-nsegment k (maximum simple nesting depth)] [-nstack k (maximum eval nesting depth)] [-buser (initial user dict capacity)] [-bzoem (initial zoem dict capacity)] [-tl k (tab length)] [-l <str> (list items)] [-h (show options)] [--apropos (show options)]
Zoem is a macro/programming language. It is fully described in the Zoem User Manual (zum.html), currently available in HTML only. This manual page documents the zoem processor, not the zoem language.
If the input file is specified using the -i option and is a regular file (i.e. not STDIN - which is specified by using a single hyphen), it must have the extension .azm. This extension can but need not be specified. The zoem key \__fnbase__ will be set to the file base name stripped of the .azm extension and any leading path components. If the input file is specified using the -I option, no extension is assumed, and \__fnbase__ is set to the file base name, period. The file base name is the file name with any leading path components stripped away.
If neither -i nor -o is specified, zoem enters interactive mode. Zoem should fully recover from any error it encounters in the input. If you find an exception to this rule, consider filing a bug report. In interactive mode, zoem start interpreting once it encounters a line containing a single dot. Zoem's input behaviour can be modified by setting the key \__parmode__. See the section SESSION MACROS for the details. In interactive mode, zoem does not preprocess the interactive input, implying that it does not accept inline files and it does not recognize comments. Both types of sequence will generate syntax errors. Finally, readline editing and history retrieval can be used in interactive mode provided that they are available on the system. This means that the input lines can be retrieved, edited, and discarded with a wide range of cursor positioning and text manipulation commands.
From within the entry file and included files it is possible to open and write to arbitrary files using the \write#3 primitive. Arbitrary files can be read in various modes using the \dofile#2 macro (providing four different modes with respect to file existence and output), \finsert#1, and \zinsert#1. Zoem will write the default output to a single file, the name of which is either specified by the -o option, or constructed as described below. Zoem can split the default output among multiple files. This is governed from within the input files by issuing \writeto#1 calls. Refer to the --split option and the Zoem User Manual.
If none of -i or -o is given, then zoem will enter interactive mode. In this mode, zoem interprets by default chunks of text that are ended by a single dot on a line of its own. This can be useful for testing or debugging. In interactive mode, zoem should recover from any failure it encounters. Interactive mode can also be accessed from within a file by issuing \zinsert{stdia}, and it can be triggered as the mode to enter should an error occur (by adding the -x option to the command line).
If -o is given and -i is not, zoem reads input from STDIN.
If -i is given and -o is not, zoem will construct an output file name as follows. If the -d option was used with argument <dev>, zoem will write to the file which results from expanding \__fnbase__.<dev>. Otherwise, zoem writes to (the expansion of) \__fnbase__.ozm.
For -i and -o, the argument - is interpreted as respectively stdin and stdout.
-i <file name>[.azm] (entry file name)
Specify the entry file name. The file must have the .azm extension,
but it need not be specified.
-I <file name>[.azm] (entry file name)
Specify the entry file name, without restrictions on the file name.
-o <file name> (output file name)
Specify the output file name.
-d <device> (set key \__device__)
Set the key \__device__ to <device>.
-x (enter interactive mode on error)
The afterlife option. If zoem encounters an error during regular processing,
it will emit error messages as usual, and then enter interactive mode. This
allows you e.g. to inspect the values of keys used or defined within the
problematic area.
-s <key>[=<val>] (set key to val)
Set the key \key to val if present, 1 otherwise. Any type
of key can be set, including keys taking arguments and keys surrounded in
quotes. Beware of the shell's quote and backslash interpolation. Currently
val is not evaluated, so appending or prepending to a key is not
possible.
-e <any> (evaluate any, exit)
This causes zoem to evaluate <any>, write any result text to
stdout, and exit.
-E <any> (evaluate any, proceed)
This causes zoem to evaluate <any>, write any result text to
stdout, and proceed e.g. with the entry file or an interactive
session.
-chunk-size <num> (process chunks of size num)
Zoem reads its input in chunks. It fully processes a chunk before moving on
with the next one. This option defines the (minimum) size of the chunks. The
size or count of the chunks does not at all affect zoem's output. The
default minimum chunk size equals one megabyte.
Zoem will read files in their entirety before further processing if -chunk-size 0 is specified.
Zoem does not chunk input files arbitrarily. It will append to a chunk until it is in the outermost scope (not contained within any block) and the chunk will end with a line that was fully read.
Consequently, if e.g. a file contains a block (delimited by
balanced curlies) spanning the entire file then zoem is forced to read it in
its entirety.
--trace (trace mode, default)
Trace in default mode.
--trace-all-long (long trace mode)
Sets on most trace options in long mode. Trace options xxx not
set have their own --trace-xxx entry (see below).
--trace-all-short (short trace mode)
Sets on most trace options in short mode. Trace options xxx not
set have their own --trace-xxx entry (see below).
--trace-keys (trace keys)
Trace keys.
--trace-regex (trace regexes)
Trace regexes (i.e. the \inspect#4 primitive).
-trace k (trace mode, explicit)
Set trace options by adding their representing bits.
--stress-write (stress test using write)
This makes \write#3 recover from errors. It is a special purpose option
used for creating zoem stress test suites, such as stress.azm in
the zoem distribution /examples subdirectory.
--unsafe (prompt for \system#3)
--unsafe-silent (simply allow \system#3)
-allow cmd1[:cmdx]+ (allowable commands)
With --unsafe system calls are allowed but the user is prompted for
each invocation. The command and its arguments (if any) are shown, but the
STDIN information (if any) is withheld. With --unsafe-silent system
calls are allowed and the user is never prompted.
Use -allow str or --allow=str
to specify a list of allowable commands, as a string in which the commands
are separated by colons.
--system-honor (require \system#3 to succeed)
With this option any \system#3 failure (for whatever reason,
including safe behaviour) is regarded as a zoem failure. By
default, failing system calls are ignored under either safe mode,
unsafe mode (--unsafe), or silent unsafe mode (--unsafe-silent).
--split (assume split output)
This assumes zoem input that allows output to multiple files (e.g. chapters).
It sets the default output stream to stdout (anticipating custom
output redirection with \writeto#1) and sets the session
macro \__split__ to 1.
--stats (show symbol table stats after run)
Show symbol table chacteristics. Symbol tables are maintained as hashes.
-tl k (set tab length)
Set the tab length. HTML output can be indented according to nesting
structure, using tabs which are expanded to simple spaces. By default, the
tab length is zero, meaning that no indent is shown. The maximum value the
tab length can be set to is four.
-nsegment k (level of macro nesting allowed)
-nstack k (stack count)
-nuser k (user dictionary stack size)
-nenv k (environment dictionary stack size)
-buser k (initial user dict capacity)
-bzoem k (initial zoem dict capacity)
Probably needed only if you have some obscure and extreme use for zoem. The
segment limit applies to simple nesting of macros. The stack limit applies
to nesting of macros that evaluate an argument before use. Each such
evaluation creates a new stack. The user limit applies to
\push{user}, the env limit applies to the nesting level of
environments (started with \begin#2). The user dict capacity
pertains to the initial number of buckets allocated for user and
environment dictionaries, and the zoem dict capacity pertains to the
dictionary containing the zoem primitives.
-l <str> (list items)
List items identified by <str>. It can be any of
all, filter.
legend, builtin,
session, trace, or
zoem, Multiple identifiers can be joined in a
string, e.g. -l legendzoem prints a legend followed by a
listing of zoem primitives.
-h (show options)
Show short synopsis of options.
\__parmode__
This macro affects zoem's read behaviour in interactive mode. It can be set on
the command line using the -s option. Bits that can be set:
1 chomp newlines (remove the newline character) 2 skip empty newlines 4 read paragraphs (an empty line triggers input read) 8 newlines can be escaped using a backslash 16 read large paragraphs (a single dot on a line
triggers input read)
\__device__
The current output device, set by the command line option -d. The
man and faq packages support html and roff as
its values.
\__fnbase__
The base name of the input file name. Leading path components are stripped
away. If the -i option is used the input file is required to have the
.azm suffix. In that case the suffix is also stripped to obtain the
base name.
\__fnentry__
The name of the entry file.
\__fnin__
The file currently being processed.
\__fnout__
The name of the default output file.
\__fnpath__
The leading component of the input file name, possibly empty.
\__fnup__
The file that included the current file, if applicable.
\__fnwrite__
This key is set by \write#3 to its first argument. It can be used by
macros that are expanded during evaluation of the third argument.
Possible usage is to branch on the name of the write
output stream. For example a file called index.html may
be treated differently from other files. The key is deleted
afterwards. Nested invocations of \write#3 may corrupt the
status of this key.
\__ia__
The input/output separator used in interactive mode.
\__line__
The line number in the file currently being processed. This number will be
correct for any invocation outside the scope of a macro. For any invocation
within a macro the result will be the line number of the closing curly of
the outermost containing macro. The following
\__line__
\__line__
\__line__
\group{
\__line__
\group{\__line__}
\__line__}
Results in
1
2
3
7
7
7
\__searchpath__
A vararg containing a list of paths to search when a file is to be
included/imported/read/loaded. When you start zoem, this key should contain
the location of the man.zmm and faq.zmm package files. It is
advisable not to overwrite this key but to append to it instead.
\__zoemstat__
Set to one of ok, towel (that one is a bit lame), or error by either
the interpreter, an occurrence of \catch#2, or \try#1.
\__zoemput__
Set by \try#1 to the possibly truncated result of processing its
argument.
\__lc__
Expands to a left curly. It is hard to find a need for this - the zoem stress
suite uses it to generate a particular syntax error at a deeper
interpretation level.
\__rc__
Expands to a right curly.
The \set#3 primitive allows a {modes}{<modifiers>} directive in its first argument. Here <modifiers> can be a combination of single-letter modifiers, each described below.
a append to the key, do not overwrite, create if not existing.
c conditionally; only set if not already defined.
e existing; update existing key, possibly in lower dictionary.
g global; set in the global (bottom) user dictionary.
u unary; do not interpret vararg in <any> as key-value list (data
keys only)
v vararg; interpret vararg in <any> as key-value list (regular keys
only).
w warn if key exists (like \def#2 and \defx#2).
x expand argument (like \setx#2 and \defx#2).
The \inspect#4 primitive takes four arguments. The languages accepted by the first two arguments are described below. The third argument is a replacement string or a replacement macro accepting back-references (supplied as an anonymous macro). The fourth argument is the data to be processed.
arg 1
Is a vararg. Currently it accepts a single key mods for which the value
should be a comma-separated list over the words posix, icase,
dotall, iter-lines iter-args, match-once,
discard-nmp, discard-nil-out, discard-miss,
count-matches. Alternatively repeated use of mods is
allowed.
arg 2
Is a regular expression. Tilde patterns are expanded according to all of the
ZOEM, UNIX, and REGEX schemes. Refer to TILDE EXPANSION for
these.
The third argument is a constant string or an anonymous key, the fourth argument is data.
The \tr#2 primitive takes two arguments. The first argument contains key-value pairs. The accepted keys are from and to which must always occur together, and delete and squash. The values of these keys must be valid translation specifications. This primitive transforms the data in the second argument by successively applying translation, deletion and squashing in that order. Only the transformations that are needed need be specified.
Translation specifications are subjected to UNIX tilde expansion as described below.
The syntax accepted by translation specifications is almost fully compliant with the syntax accepted by tr(1), with three exceptions. First, repeats are introduced as [*a*20] rather than [a*20]. Second, ranges can (for now) only be entered as X-Y, not as [X-Y]. X and Y can be entered in either octal or hexadecimal notation (see further below). As an additional feature, the magic repeat operator [*a#] stops on both class and range boundaries. Character specifications can be complemented by preceding them with the caret ^.
Specifications may contain ranges of characters such as a-z and 0-9. Posix character classes are allowed. The available classes are
[:alnum:]
[:alpha:]
[:cntrl:]
[:digit:]
[:graph:]
[:lower:]
[:print:]
[:punct:]
[:space:]
[:upper:]
[:xdigit:]
Characters can be specified using octal notation, e.g. \012 encodes the newline. Use \173 for the opening curly, \175 for the closing curly, \134 for the backslash, and \036 for the caret if it is the first character in a specification. DON'T use \\, \{, or \} in this case! Hexadecimal notation is written as \x7b (the left curly in this instance).
See EXAMPLES for an example of tr#2 usage.
Some primitives interface with UNIX libraries that require backslash escape sequences to encode certain tokens or characters. The backslash is special in zoem too and without further measures it can become very cumbersome to encode the correct escape sequences as it is not always clear which tokens should be escaped or unprotected at what point. It is especially difficult to handle the zoem characters with special meaning, {, } and \.
The two primitives under consideration are \inspect#4 and \tr#2. Both treat the tilde as an additional escape character for certain arguments (as documented in the user manual). These arguments are subjected to tilde expansion, where the tilde and the character it proceeds are translated to a new character or character sequence. There are three different sets of tilde escapes, ZOEM, UNIX and REGEX escapes. \tr#2 only accepts UNIX escapes, \inspect#4 accepts all. Tilde expansion is always the last processing step before strings are passed on to external libraries.
The ZOEM scheme contains some convenience escapes, such as ~E to encode a double backslash.
ZOEM tilde expansion
meta sequence replacement .-----------------------------. | ~~ | ~ | | ~E | \\ | | ~e | \ | | ~I | \{ | | ~J | \} | | ~x | \x | | ~i | { | | ~j | } | `-----------------------------'
The zoem tr specification language accepts \x** as hexadecimal notation, e.g. \x0a denotes a newline in the ASCII character set.
UNIX tilde expansion
meta sequence replacement .-----------------------------. | ~a | \a | | ~b | \b | | ~f | \f | | ~n | \n | | ~r | \r | | ~t | \t | | ~v | \v | | ~0 | \0 | | ~1 | \1 | | ~2 | \2 | | ~3 | \3 | `-----------------------------'
REGEX tilde expansion
meta sequence replacement .-----------------------------. | ~^ | \^ | | ~. | \. | | ~[ | \[ | | ~$ | \$ | | ~( | \( | | ~) | \) | | ~| | \| | | ~* | \* | | ~+ | \+ | | ~? | \? | `-----------------------------'
The environment variable ZOEMSEARCHPATH may contain a colon and/or whitespace separated list of paths. It will be used when searching for files included via one of the dofile aliases \input, \import, \read, and \load. Note that the zoem macro \__searchpath__ contains the location where the zoem macro files were copied at the time of installation of zoem.
On error, Zoem prints a file name and a line number to which it was able to trace the error. The number reported is the same as the one stored in the session macro \__line__. For an error-trigering macro which is not nested within another macro the line number should be correct. For a macro that does occur nested within another macro the line number will be the line number of the closing curly in the outermost containing macro.
If in despair, use one of the tracing modes, --trace-keys is one of the first to come to mind. Another possibility is to supply the -x option.
No known bugs. \inspect#4 has not received thorough stress-testing, and the more esoteric parts of its interface will probably change.
Aephea is a document authoring framework largely for HTML documents.
Portable Unix Documentation provides two mini-languages for authoring in the unix environment. These languages, pud-man and pud-faq are both written in zoem.
This is a relatively new section, aimed at assembling useful or explanatory snippets.
Create a vararg containing file names matching a pattern (png in this example).
\setx{images}{
\inspect{
{mods}{iter-lines,discard-miss}
}{(.*~.png)}{_#1{{\1}}}{\system{ls}} }
Use magic boundary stops with tr#2.
\tr{
{from}{[:lower:][:upper:][:digit:][:space:][:punct:]}
{to}{[*L#][*U#][*D#][*S#][*P#]}}{
!"#$%&'()*+,-./0123456789:;<=>?@ ABCDEFGHIJKLMNOPQRSTUVWXYZ [\\]^_` abcdefghijklmnopqrstuvwxyz \{|\}~]}
Stijn van Dongen.
7 Dec 2021 | zoem 21-341 |