Provided by: wml_2.32.0~ds1-1_all 
NAME
WML Introduction - An introduction to WML's basic concepts
DESCRIPTION
WML is a free HTML generation toolkit for Unix, internally consisting of 9 independent languages. The
main idea of WML is a sequential filtering scheme where each language provides one of 9 processing
passes. So the frontend wml reads inputfile (or from "stdin" if inputfile is a dash or completely
missing), applies passes 1-9 (or only the passes specified by -p) and finally produces one or more
outputfiles.
WML implements a total of three essential concepts which interact with each other:
CONCEPT 1: SEQUENTIAL FILTERING SCHEME
This concept implements the various language features by making use of maximum software leverage, i.e.
WML is built on top of 9 languages which are run in a well-ordered fashion by the wml frontend.
Pass 1: Source Reading and Include File Expansion
Processing: explicit
Implementation: Include Pre-Processor (IPP)
Author: Ralf S. Engelschall <rse@engelschall.com>
See Also: wml_p1_ipp(3)
Description:
This first pass reads inputfile and expands all inlined include file directives by (perhaps
recursively) substituting them with the contents of the corresponding file. The file itself will be
read from the current working directory or from a list of dedicated include directories (compiled in
ones and also given via option -I). When "name=value" pairs are appended to the include directive
"$(name)" is expanded to "value" in this particular include file and all its recursively included
files. Additionally this Pass provides an End-Of-Line continuation feature and three special
strings. ``"__FILE__"'' and ``"__LINE__"'' expand to the current include file and line number while
``"__END__"'' terminates the reading of the current include file.
Summary Of Essential Features:
#include 'file.wml' [name[=value] ...]
#include "file.wml" [name[=value] ...]
#include <category/file.wml> [name[=value] ...]
#use wml::category::file [name[=value] ...]
some text which is \
continued at this line
$(name)
__FILE__, __LINE__
__END__
Example:
#use wml::std::tags
This FooBar, contained in file __FILE__, line __LINE__.
__END__
Documentation of FooBar...
Pass 2: High-Level Macro Construct Expansion
Processing: explicit
Implementation: Macro Processor for HTML Documents (mp4h)
Author: Denis Barbier <barbier@engelschall.com>
See Also: mp4h(1)
http://www.engelschall.com/sw/mp4h/
Description:
This is the HTML-like macro definition and expansion pass. Here new HTML tags are defined via
"<define-tag foo>" and later expanded at the location of their usage ("<foo>". The goal of this pass
is to create new HTML tags which encapsulate either raw text or even programmed functionality of Pass
3 (ePerl).
Summary Of Essential Features:
<define-tag foo>
...%attributes...
</define-tag>
<define-tag bar endtag=required>
...%attributes...%body...
</define-tag>
<foo ...>
<bar ...>...</bar>
Example:
<define-tag me>RSE</define-tag>
This is <me>.
Pass 3: Programming Construct Expansion
Processing: explicit
Implementation: Embedded Perl 5 Language (ePerl)
Author: Ralf S. Engelschall <rse@engelschall.com>
See Also: eperl(1)
http://www.engelschall.com/sw/eperl/
Description:
In this pass the real programming takes place. The used language is Larry Wall's Perl 5 scripting
language. The language constructs are bristled into the HTML markup code by the use of begin ("<:")
and end (":>") delimiters. Additionally this pass provides some nice shortcut: First a
<#if..#elsif..#else..#endif> construct which gets expanded to the corresponding Perl construct,
second a shorthand ("<:= ...:>") for the construct ("<: print ...:>" which is used most of the time.
And there is a container tag in wml::std::tags which provides the more high-level container tag
"<perl>".
Summary Of Essential Features:
<perl> ...Perl 5 constructs... </perl>
<: ...Perl 5 constructs... :>
<:= ... :>
Example:
#use wml::std::tags
<perl>
sub isotime {
my ($time) = @_;
my ($sec, $min, $hour, $mday, $mon, $year, $wday, $yday, $isdst) =
localtime($time);
my ($str) = sprintf("%04d-%02d-%02d %02d:%02d:%02d",
$year+1900, $mon+1, $mday, $hour, $min, $sec);
return $str;
}
</perl>
The current date is <:= &isotime(time()) :>.
Pass 4: Low-Level Macro Construct Expansion
Processing: explicit
Implementation: GNU m4
Author: Ren'e Seindal (FSF)
See Also: m4(1)
http://www.gnu.mit.edu/
Description:
In this pass another macro processor run takes place. While in pass 2 a macro processor with a HTML-
like syntax was used for high-level macro programming, this pass uses a macro processor for low-level
programming. Mainly this pass is intended to provide low-level symbol and function definitions
("m4_define()". There is a definition in wml::std::tags which provides a more high-level usage via
the "<symbol>" tag.
Notice: This pass is run under a special environment: First, all m4 builtin macros have to be
prefixed with ""m4_"". Second, all variables which are defined by WML (both internal ones and the
ones from the -D option) are directly accessible via symbols prefixed with "m4_", i.e. variable
"NAME" is interpolated when "m4_NAME" occurs. Third, the quoting characters are disabled per default
to prevent problems with the generated content. If you need quotes (for instance in include files)
you have to enable them via "m4""_quotes" and disable them later via "m4""_noquotes".
Summary Of Essential Features:
m4_quotes
m4_define(`name', `value')
m4_noquotes
<symbol name value>
Example:
#use wml::std::tags
<symbol bar BAZ>
foo bar quux
Pass 5: Diversion Filter
Processing: explicit
Implementation: Divert
Author: Ralf S. Engelschall <rse@engelschall.com>
See Also: wml_p5_divert(3)
Description:
In this pass a flexible and powerful diversion filter is applied. This is intended to provide a
mechanism to change and intermix the order of data blocks. Do not intermix this with neither the
general macro mechanisms of pass 2 and 4 nor the less powerful "divert" mechanism of GNU m4. The
idea is to define locations (via "{#NAME#}") at any point and fill such locations later by diverting
the data flow to it (via "{#NAME#:" and ":#NAME#}") at another point. What makes this filter such
powerful is the fact that both the definition points and the diversion points can be done in any
order and they can even be nested. Again WML provides high-level support tags in wml::std::tags for
this functionality.
Summary Of Essential Features:
{#NAME#}
<dump NAME>
{#NAME#:
data for location `NAME'
:##}
<enter NAME>
data for location `NAME'
<leave>
<divert NAME>
data for location `NAME'
</divert>
Example:
<table>
<tr>
<td><dump LBORDER></td>
<td><dump BODY></td>
<td><dump RBORDER></td>
</tr>
</table>
<divert LBORDER>
Stuff for the left border
</divert>
<divert RBORDER>
Stuff for the right border
</divert>
<divert BODY>
The main data
</divert>
Pass 6: Character and String Substitution
Processing: explicit
Implementation: Area Subst (ASubst)
Author: Ralf S. Engelschall <rse@engelschall.com>
See Also: wml_p6_asubst(3)
Description:
In this pass single characters or substrings are substituted within dedicated areas (delimited by "{:
... :}"). The intend is to support ISO-Latin-1 or other special characters which will be entered as
8 Bit character codes and are substituted by their HTML entity-encoding string. Do not intermix this
with macro-expansion of Pass 2 or 4. This is generalized regular expression based substitution pass
where you can use Perl's "s/../../" and "tr/../../" commands to specify the substitutions. These can
be placed anywhere inside the substitution area and just have to be marked by "[[...]]" delimiters.
But the commands are always applied to the whole area.
Summary Of Essential Features:
{: ...text..[[s/../../flags]]..
...text..[[tr/../../flags]].. :}
Example:
{: [[s|X|ä|]] [[s|X|ü|]]
Foo Bar Baz Quux with Umlauts X and X
:}
Pass 7: Markup Code Fixup
Processing: implicit
Implementation: HTMLfix
Author: Ralf S. Engelschall <rse@engelschall.com>
See Also: wml_p7_htmlfix(3)
Description:
In this pass some commonly known HTML markup code fixups are done. For instance missing "WIDTH" and
"HEIGHT" attributes for all "IMG" tags are calculated and added, "ALT" tags are added where missing,
missing `"#"' characters in front of hextriple color attributes are added, numeric attribute values
are surrounded by quotes, obsolete HTML markup code like the proprietary "<center>" tag is replaced
by new standard HTML 3.2 tags ("<div align=center>"), etc. pp.
Pass 8: Markup Code Stripping
Processing: implicit
Implementation: HTMLstrip
Author: Ralf S. Engelschall <rse@engelschall.com>
See Also: wml_p8_htmlfix(3)
Description:
Because macro definitions add newlines to the output (or you have to always use
""..."<"/define-tag">";;;"", etc), additional comments shell-style would be useful and whitespaces
can often be stripped from HTML markup code without changing the result, this special HTML markup
code reducement pass is done. The amount of stripping can be controlled by the WML option -O. Default
is -O2 which does a really good job without destroying anything. There is one special feature one
should know: This pass recognizes pre-formatted areas ( "<pre>..</pre>") and skips them. Additionally
when you want some area of your input file Threaten like pre-formatted, then this Pass also supports
its own container tag named "<nostrip>...</nostrip>". This has the same effect like "<pre>" but is
itself stripped, too.
Pass 9: Markup Code Splitting and Output Generation
Processing: implicit/explicit
Implementation: Slice
Author: Ralf S. Engelschall <rse@engelschall.com>
See Also: slice(1)
http://www.engelschall.com/sw/slice/
Description:
The last and final pass is a really tricky one again, because one feature is still not implemented.
We need some way to conditionally create output to different output files. To accomplish this another
source file construct ("[NAME:...:NAME]") is recognized which defines so-called slices. Those slices
are (possibly overlapped or nested) named areas of the input file which can be used via WML's -o
option. This option can contain a slice-term in front of the filename which selects the slices to be
written to the output file. Such slice-terms are actually set theory terms where slices with the same
name define a set.
Summary Of Essential Features:
[NAME: ... :NAME]
[NAME: ... :]
Example:
[EN:Welcome to:][DE:Willkommen zu:] Foo Bar Baz Quux!
CONCEPT 2: WMLRC FILE HIERARCHY AND WMLOPTS VARIABLE
The second essential idea of WML is the use of .wmlrc files and a "WMLOPTS" environment variable for
additionally command line options. On startup the frontend wml first processes all options found in
"WMLOPTS", then it reads all options from $HOME/.wmlrc followed by the options of all .wmlrc files found
in all parent directories (i.e. ../.wmlrc, ../../.wmlrc, etc) of the directory containing input file.
And finally it processes all options given on the command line. For instance this feature provides you
with the ability to setup defaults via -D options in the .wmlrc file at the top of your Webarea.
And there is one more special case: The option form
-DNAME~VALUE
is always sticky to its location, i.e. it always gets evaluated for its local directory context instead
of the current working directory where wml was started. Use this to easily introduce path or URL
variables which adjust automatically to the current context of the generated webpage.
CONCEPT 3: AUTO-ADJUSTED URL AND FILENAME VARIABLES
The third essential idea of WML is the above shortly described variable adjustment concept which can be
used via variable interpolation. The frontend wml provides a -D option for defining variables which get
interpolated in each pass:
-DNAME=VALUE
-DNAME~VALUE
For both forms the value can be interpolated via <"get-var NAME"> inside Pass 2 and via "<:=$NAME:>" in
Pass 3. The difference between the two forms is the tricky part of adjustment here:
"-D NAME=VALUE"
Here the variable NAME gets statically set to VALUE. Each time you interpolate the variable the
result is exactly VALUE.
"-D NAME~VALUE"
Here the variable NAME gets initialized with VALUE and VALUE will be treated as either a (not fully
qualified) URL or filename. When you interpolate the variable the result is VALUE if the current
working directory is the same as where you used the -D option (either where you run the frontend wml
or a .wmlrc file). Else the result is VALUE relative path-adjusted for the current working directory.
On the first look this seems useless, but combined with CONCEPT 2 this provides a very essential feature.
Here it provides a powerful mechanism to automatically let URLs or pathnames re-calculated for the local
context. For instance when you define "-DROOT~." in your top-level .wmlrc file then the variable "ROOT"
will be interpolated to `"."' at the top-level, to `".."' at the first subdir level, to `"../.."' at the
second subdir level, etc. Use this for creating navigation bars or URL references across subtrees.
MORE INFORMATION
Now you've seen the various core languages of WML. For a step-by-step introduction to this functionality
and to see real examples, I recommend you to read the WML tutorial in wml_tutorial(7) now.
Additionally can can step through the set of available standard include files WML ships with. Start with
the top-level include file wml::all(3).
SEE ALSO
wml_tutorial(7), wml_tags(7).
wml_p1_ipp(3), mp4h(1), eperl(1), m4(1), wml_p5_divert(3), wml_p6_asubst(3), wml_p7_htmlfix(3),
wml_p8_htmlstrip(3), slice(1).
wml::all(3)