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This file documents AutoGen version 5.5. It is a tool designed for generating program files that contain repetitive text with varied substitutions. This document is very long because it is intended as a reference document. For a quick start example, See section 1.2 A Simple Example. For a simple example of Automated Option processing, See section 7.2 Quick Start. For a full list of the Automated Option features, See section 7.1 AutoOpts Features.
This edition documents version 5.5, May 2003.
1. Introduction AutoGen's Purpose 2. AutoGen Definitions File 3. AutoGen Template 4. Augmenting AutoGen Features 5. Invoking autogen Invoking AutoGen 6. Configuring and Installing 7. Automated Option Processing 8. Add-on packages for AutoGen 9. Some ideas for the future. Concept Index General index Function Index Function index
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AutoGen is a tool designed for generating program files that contain repetitive text with varied substitutions. Its goal is to simplify the maintenance of programs that contain large amounts of repetitious text. This is especially valuable if there are several blocks of such text that must be kept synchronized in parallel tables.
One common example is the problem of maintaining the code required for processing program options. Processing options requires a minimum of four different constructs be kept in proper order in different places in your program. You need at least:
You will need more things besides this if you choose to implement long option names, rc/ini file processing, environment variables and so on. All of this can be done mechanically; with the proper templates and this program. In fact, it has already been done and AutoGen itself uses it See section 7. Automated Option Processing. For a simple example of Automated Option processing, See section 7.2 Quick Start. For a full list of the Automated Option features, See section 7.1 AutoOpts Features.
1.1 The Purpose of AutoGen 1.2 A Simple Example 1.3 csh/zsh caveat 1.4 A User's Perspective
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The idea of this program is to have a text file, a template if you will, that contains the general text of the desired output file. That file includes substitution expressions and sections of text that are replicated under the control of separate definition files.
AutoGen was designed with the following features:
${VAR}
construct in a shell here doc
.
These markers are not fixed strings. They are specified at the start of
each template. Template designers know best what fits into their
syntax and can avoid marker conflicts.
We did this because it is burdensome and difficult to avoid conflicts using either M4 tokenizaion or C preprocessor substitution rules. It also makes it easier to specify expressions that transform the value. Of course, our expressions are less cryptic than the shell methods.
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This is just one simple example that shows a few basic features.
If you are interested, you also may run "make check" with the
VERBOSE
enviornment variable set and see a number of other
examples in the `agen5/test/testdir' directory.
Assume you have an enumeration of names and you wish to associate some string with each name. Assume also, for the sake of this example, that it is either too complex or too large to maintain easily by hand. We will start by writing an abbreviated version of what the result is supposed to be. We will use that to construct our output templates.
In a header file, `list.h', you define the enumeration and the global array containing the associated strings:
typedef enum { IDX_ALPHA, IDX_BETA, IDX_OMEGA } list_enum; extern const char* az_name_list[ 3 ]; |
Then you also have `list.c' that defines the actual strings:
#include "list.h" const char* az_name_list[] = { "some alpha stuff", "more beta stuff", "final omega stuff" }; |
First, we will define the information that is unique for each enumeration name/string pair. This would be placed in a file named, `list.def', for example.
autogen definitions list; list = { list_element = alpha; list_info = "some alpha stuff"; }; list = { list_info = "more beta stuff"; list_element = beta; }; list = { list_element = omega; list_info = "final omega stuff"; }; |
The autogen definitions list;
entry defines the file as an AutoGen
definition file that uses a template named list
. That is followed by
three list
entries that define the associations between the
enumeration names and the strings. The order of the differently named
elements inside of list is unimportant. They are reversed inside of the
beta
entry and the output is unaffected.
Now, to actually create the output, we need a template or two that can be expanded into the files you want. In this program, we use a single template that is capable of multiple output files. The definitions above refer to a `list' template, so it would normally be named, `list.tpl'.
It looks something like this. (For a full description, See section 3. AutoGen Template.)
[+ AutoGen5 template h c +] [+ CASE (suffix) +][+ == h +] typedef enum {[+ FOR list "," +] IDX_[+ (string-upcase! (get "list_element")) +][+ ENDFOR list +] } list_enum; extern const char* az_name_list[ [+ (count "list") +] ]; [+ == c +] #include "list.h" const char* az_name_list[] = {[+ FOR list "," +] "[+list_info+]"[+ ENDFOR list +] };[+ ESAC +] |
The [+ AutoGen5 template h c +]
text tells AutoGen that this is
an AutoGen version 5 template file; that it is to be processed twice;
that the start macro marker is [+
; and the end marker is
+]
. The template will be processed first with a suffix value of
h
and then with c
. Normally, the suffix values are
appended to the `base-name' to create the output file name.
The [+ == h +]
and [+ == c +]
CASE
selection clauses
select different text for the two different passes. In this example,
the output is nearly disjoint and could have been put in two separate
templates. However, sometimes there are common sections and this is
just an example.
The [+FOR list "," +]
and [+ ENDFOR list +]
clauses delimit
a block of text that will be repeated for every definition of list
.
Inside of that block, the definition name-value pairs that
are members of each list
are available for substitutions.
The remainder of the macros are expressions. Some of these contain
special expression functions that are dependent on AutoGen named values;
others are simply Scheme expressions, the result of which will be
inserted into the output text. Other expressions are names of AutoGen
values. These values will be inserted into the output text. For example,
[+list_info+]
will result in the value associated with
the name list_info
being inserted between the double quotes and
(string-upcase! (get "list_element"))
will first "get" the value
associated with the name list_element
, then change the case of
all the letters to upper case. The result will be inserted into the
output document.
If you have compiled AutoGen, you can copy out the template and definitions
as described above and run autogen list.def
. This will produce
exactly the hypothesized desired output.
One more point, too. Lets say you decided it was too much trouble to figure out how to use AutoGen, so you created this enumeration and string list with thousands of entries. Now, requirements have changed and it has become necessary to map a string containing the enumeration name into the enumeration number. With AutoGen, you just alter the template to emit the table of names. It will be guaranteed to be in the correct order, missing none of the entries. If you want to do that by hand, well, good luck.
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AutoGen tries to use your normal shell so that you can supply shell code in a manner you are accustomed to using. If, however, you use csh or zsh, you cannot do this. Csh is sufficiently difficult to program that it is unsupported. Zsh, though largely programmable, also has some anomolies that make it incompatible with AutoGen usage. Therefore, when invoking AutoGen from these environments, you must be certain to set the SHELL environment variable to a Bourne-derived shell. e.g., sh, ksh or bash.
Any shell you choose for your own scripts need to follow these basic requirements:
trap $sig ":"
without output to standard out.
This is done when the server shell is first started.
If your shell does not handle this, then it may be able to by
loading functions from its start up files.
\\cd $PWD
is inserted. This ensures that cd
is not aliased to something
peculiar and each scriptlet starts life in the execution directory.
echo mumble
is
appended. The program you use as a shell must emit the single
argument mumble
on a line by itself.
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Alexandre wrote: > > I'd appreciate opinions from others about advantages/disadvantages of > each of these macro packages. |
I am using AutoGen in my pet project, and find one of its best points to be that it separates the operational data from the implementation.
Indulge me for a few paragraphs, and all will be revealed: In the manual, Bruce cites the example of maintaining command line flags inside the source code; traditionally spreading usage information, flag names, letters and processing across several functions (if not files). Investing the time in writing a sort of boiler plate (a template in AutoGen terminology) pays by moving all of the option details (usage, flags names etc.) into a well structured table (a definition file if you will), so that adding a new command line option becomes a simple matter of adding a set of details to the table.
So far so good! Of course, now that there is a template, writing all of that tedious optargs processing and usage functions is no longer an issue. Creating a table of the options needed for the new project and running AutoGen generates all of the option processing code in C automatically from just the tabular data. AutoGen in fact already ships with such a template... AutoOpts.
One final consequence of the good separation in the design of AutoGen is that it is retargetable to a greater extent. The egcs/gcc/fixinc/inclhack.def can equally be used (with different templates) to create a shell script (inclhack.sh) or a c program (fixincl.c).
This is just the tip of the iceberg. AutoGen is far more powerful than these examples might indicate, and has many other varied uses. I am certain Bruce or I could supply you with many and varied examples, and I would heartily recommend that you try it for your project and see for yourself how it compares to m4.
As an aside, I would be interested to see whether someone might be persuaded to rationalise autoconf with AutoGen in place of m4... Ben, are you listening? autoconf-3.0! `kay? =)O|
Sincerely, Gary V. Vaughan |
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This chapter describes the syntax and semantics of the AutoGen definition file. In order to instantiate a template, you normally must provide a definitions file that identifies itself and contains some value definitions. Consequently, we keep it very simple. For "advanced" users, there are preprocessing directives, sparse arrays, named indexes and comments that may be used as well.
The definitions file is used to associate values with names. Every value is implicitly an array of values, even if there is only one value. Values may be either simple strings or compound collections of name-value pairs. An array may not contain both simple and compound members. Fundamentally, it is as simple as:
prog_name = "autogen"; flag = { name = templ_dirs; value = L; descrip = "Template search directory list"; }; |
For purposes of commenting and controlling the processing of the
definitions, C-style comments and most C preprocessing directives are
honored. The major exception is that the #if
directive is
ignored, along with all following text through the matching
#endif
directive. The C preprocessor is not actually invoked, so
C macro substitution is not performed.
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The first definition in this file is used to identify it as a
AutoGen file. It consists of the two keywords,
`autogen' and `definitions' followed by the default
template name and a terminating semi-colon (;
). That is:
AutoGen Definitions template-name; |
Note that, other than the name template-name, the words `AutoGen' and `Definitions' are searched for without case sensitivity. Most lookups in this program are case insensitive.
Also, if the input contains more identification definitions, they will be ignored. This is done so that you may include (see section 2.5 Controlling What Gets Processed) other definition files without an identification conflict.
AutoGen uses the name of the template to find the corresponding template file. It searches for the file in the following way, stopping when it finds the file:
If AutoGen fails to find the template file in one of these places, it prints an error message and exits.
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Any name may have multiple values associated with it in the definition file. If there is more than one instance, the only way to expand all of the copies of it is by using the FOR (see section 3.6.13 FOR - Emit a template block multiple times) text function on it, as described in the next chapter.
There are two kinds of definitions, `simple' and `compound'. They are defined thus (see section 2.9 YACC Language Grammar):
compound_name '=' '{' definition-list '}' ';' simple_name '=' string ';' no_text_name ';' |
No_text_name
is a simple definition with a shorthand empty string
value. The string values for definitions may be specified in any of
several formation rules.
2.2.1 Definition List 2.2.2 Double Quote String 2.2.3 Single Quote String 2.2.5 An Unquoted String 2.2.4 Shell Output String 2.2.6 Scheme Result String 2.2.7 A Here String 2.2.8 Concatenated Strings
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definition-list
is a list of definitions that may or may not
contain nested compound definitions. Any such definitions may
only be expanded within a FOR
block iterating over the
containing compound definition. See section 3.6.13 FOR - Emit a template block multiple times.
Here is, again, the example definitions from the previous chapter, with three additional name value pairs. Two with an empty value assigned (first and last), and a "global" group_name.
autogen definitions list; group_name = example; list = { list_element = alpha; first; list_info = "some alpha stuff"; }; list = { list_info = "more beta stuff"; list_element = beta; }; list = { list_element = omega; last; list_info = "final omega stuff"; }; |
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The string follows the C-style escaping (\
, \n
, \f
,
\v
, etc.), plus octal character numbers specified as \ooo
.
The difference from "C" is that the string may span multiple lines.
Like ANSI "C", a series of these strings, possibly intermixed with
single quote strings, will be concatenated together.
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This is similar to the shell single-quote string. However, escapes
\
are honored before another escape, single quotes '
and hash characters #
. This latter is done specifically
to disambiguate lines starting with a hash character inside
of a quoted string. In other words,
fumble = ' #endif '; |
could be misinterpreted by the definitions scanner, whereas this would not:
fumble = ' \#endif '; |
As with the double quote string, a series of these, even intermixed
with double quote strings, will be concatenated together.
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This is assembled according to the same rules as the double quote string, except that there is no concatenation of strings and the resulting string is written to a shell server process. The definition takes on the value of the output string.
NB The text is interpreted by a server shell. There may be
left over state from previous `
processing and it may
leave state for subsequent processing. However, a cd
to the original directory is always issued before the new
command is issued.
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A simple string that does not contain white space may be left
unquoted. The string must not contain any of the characters special to
the definition text (i.e. "
, #
, '
, (
,
)
, ,
, ;
, <
, =
, >
, [
,
]
, `
, {
, or }
). This list is subject to
change, but it will never contain underscore (_
), period
(.
), slash (/
), colon (:
), hyphen (-
) or
backslash (\\
). Basically, if the string looks like it is a
normal DOS or UNIX file or variable name, and it is not one of two
keywords (`autogen' or `definitions') then it is OK to not
quote it, otherwise you should.
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A scheme result string must begin with an open parenthesis (
.
The scheme expression will be evaluated by Guile and the
value will be the result. The AutoGen expression functions
are disabled at this stage, so do not use them.
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A `here string' is formed in much the same way as a shell here doc. It is denoted with a doubled less than character and, optionally, a hyphen. This is followed by optional horizontal white space and an ending marker-identifier. This marker must follow the syntax rules for identifiers. Unlike the shell version, however, you must not quote this marker. The resulting string will start with the first character on the next line and continue up to but not including the newline that precedes the line that begins with the marker token. No backslash or any other kind of processing is done on this string. The characters are copied directly into the result string.
Here are two examples:
str1 = <<- STR_END $quotes = " ' ` STR_END; str2 = << STR_END $quotes = " ' ` STR_END; STR_END; |
The second string contains one new line character. The first character
is the tab character preceeding the dollar sign. The last character is
the semicolon after the STR_END
. That STR_END
does not
end the string because it is not at the beginning of the line. In the
preceeding case, the leading tab was stripped.
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If single or double quote characters are used, then you also have the option, a la ANSI-C syntax, of implicitly concatenating a series of them together, with intervening white space ignored.
NB You cannot use directives to alter the string content. That is,
str = "fumble" #ifdef LATER "stumble" #endif ; |
will result in a syntax error. The preprocessing directives are not carried out by the C preprocessor. However,
str = '"fumble\n" #ifdef LATER " stumble\n" #endif '; |
Will work. It will enclose the `#ifdef LATER'
and `#endif' in the string. But it may also wreak
havoc with the definition processing directives. The hash
characters in the first column should be disambiguated with
an escape \
or join them with previous lines:
"fumble\n#ifdef LATER...
.
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In AutoGen, every name is implicitly an array of values. When assigning values, they are usually implicitly assiged to the next highest slot. They can also be specified explicitly:
mumble[9] = stumble; mumble[0] = grumble; |
If, subsequently, you assign a value to mumble
without an
index, its index will be 10
, not 1
.
If indexes are specified, they must not cause conflicts.
#define
-d names may also be used for index values.
This is equivalent to the above:
#define FIRST 0 #define LAST 9 mumble[LAST] = stumble; mumble[FIRST] = grumble; |
All values in a range do not have to be filled in. If you leave gaps, then you will have a sparse array. This is fine (see section 3.6.13 FOR - Emit a template block multiple times). You have your choice of iterating over all the defined values, or iterating over a range of slots. This:
[+ FOR mumble +][+ ENDFOR +] |
iterates over all and only the defined entries, whereas this:
[+ FOR mumble (for-by 1) +][+ ENDFOR +] |
will iterate over all 10 "slots". Your template will likely have to contain something like this:
[+ IF (exist? (sprintf "mumble[%d]" (for-index))) +] |
or else "mumble" will have to be a compound value that, say, always contains a "grumble" value:
[+ IF (exist? "grumble") +] |
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There are several methods for including dynamic content inside a definitions
file. Three of them are mentioned above (2.2.4 Shell Output String and
see section 2.2.6 Scheme Result String) in the discussion of string formation rules.
Another method uses the #shell
processing directive.
It will be discussed in the next section (see section 2.5 Controlling What Gets Processed).
Guile/Scheme may also be used to yield to create definitions.
When the Scheme expression is preceeded by a backslash and single quote, then the expression is expected to be an alist of names and values that will be used to create AutoGen definitions.
This method can be be used as follows:
\'( (name (value-expression)) (name2 (another-expr)) ) |
This is entirely equivalent to:
name = (value-expression); name2 = (another-expr); |
Under the covers, the expression gets handed off to a Guile function
named alist->autogen-def
in an expression that looks like this:
(alist->autogen-def ( (name (value-expression)) (name2 (another-expr)) ) ) |
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Definition processing directives can only be processed
if the '#' character is the first character on a line. Also, if you
want a '#' as the first character of a line in one of your string
assignments, you should either escape it by preceding it with a
backslash `\', or by embedding it in the string as in "\n#"
.
All of the normal C preprocessing directives are recognized, though
several are ignored. There is also an additional #shell
-
#endshell
pair. Another minor difference is that AutoGen
directives must have the hash character (#
) in column 1.
The final tweak is that #!
is treated as a comment line.
Using this feature, you can use: `#! /usr/local/bin/autogen'
as the first line of a definitons file, set the mode to executable
and "run" the definitions file as if it were a direct invocation of
AutoGen. This was done for its hack value.
The ignored directives are:
`#assert', `#ident', `#pragma', and `#if'.
Note that when ignoring the #if
directive, all intervening
text through its matching #endif
is also ignored,
including the #else
clause.
The AutoGen directives that affect the processing of definitions are:
#define name [ <text> ]
Will add the name to the define list as if it were a DEFINE program argument. Its value will be the first non-whitespace token following the name. Quotes are not processed.
After the definitions file has been processed, any remaining entries in the define list will be added to the environment.
#elif
This must follow an #if
otherwise it will generate an error.
It will be ignored.
#else
This must follow an #if
, #ifdef
or #ifndef
.
If it follows the #if
, then it will be ignored. Otherwise,
it will change the processing state to the reverse of what it was.
#endif
This must follow an #if
, #ifdef
or #ifndef
.
In all cases, this will resume normal processing of text.
#endshell
Ends the text processed by a command shell into autogen definitions.
#error [ <descriptive text> ]
This directive will cause AutoGen to stop processing and exit with a status of EXIT_FAILURE.
#if [ <ignored conditional expression> ]
#if
expressions are not analyzed. Everything from here
to the matching #endif
is skipped.
#ifdef name-to-test
The definitions that follow, up to the matching #endif
will be
processed only if there is a corresponding -Dname
command line
option.
#ifndef name-to-test
The definitions that follow, up to the matching #endif
will be
processed only if there is not a corresponding -Dname
command line option or there was a canceling -Uname
option.
#include unadorned-file-name
This directive will insert definitions from another file into the current collection. If the file name is adorned with double quotes or angle brackets (as in a C program), then the include is ignored.
#line
Alters the current line number and/or file name. You may wish to
use this directive if you extract definition source from other files.
getdefs
uses this mechanism so AutoGen will report the correct
file and approximate line number of any errors found in extracted
definitions.
#option opt-name [ <text> ]
This directive will pass the option name and associated text to the AutoOpts optionLoadLine routine (see section process a text string for options). The option text may span multiple lines by continuing them with a backslash. The backslash/newline pair will be replaced with two space characters. This directive may be used to set a search path for locating template files For example, this:
#option templ-dirs $ENVVAR/dirname |
ENVVAR
environment variable to find
a directory named dirname
that (may) contain templates. Since these
directories are searched in most recently supplied first order, search
directories supplied in this way will be searched before any supplied on
the command line.
#shell
Invokes $SHELL
or `/bin/sh' on a script that should
generate AutoGen definitions. It does this using the same server
process that handles the back-quoted `
text.
CAUTION let not your $SHELL
be csh
.
#undef name-to-undefine
Will remove any entries from the define list that match the undef name pattern.
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When AutoGen starts, it tries to determine several names from the
operating environment and put them into environment variables for use in
both #ifdef
tests in the definitions files and in shell scripts
with environment variable tests. __autogen__
is always defined.
For other names, AutoGen will first try to use the POSIX version of the
sysinfo(2)
system call. Failing that, it will try for the POSIX
uname(2)
call. If neither is available, then only
"__autogen__
" will be inserted into the environment.
In all cases, the associated names are converted to lower case, surrounded
by doubled underscores and non-symbol characters are replaced with
underscores.
With Solaris on a sparc platform, sysinfo(2)
is available.
The following strings are used:
SI_SYSNAME
(e.g., "__sunos__")
SI_HOSTNAME
(e.g., "__ellen__")
SI_ARCHITECTURE
(e.g., "__sparc__")
SI_HW_PROVIDER
(e.g., "__sun_microsystems__")
SI_PLATFORM
(e.g., "__sun_ultra_5_10__")
SI_MACHINE
(e.g., "__sun4u__")
For Linux and other operating systems that only support the
uname(2)
call, AutoGen will use these values:
sysname
(e.g., "__linux__")
machine
(e.g., "__i586__")
nodename
(e.g., "__bach__")
By testing these pre-defines in my definitions, you can select
pieces of the definitions without resorting to writing shell
scripts that parse the output of uname(1)
. You can also
segregate real C code from autogen definitions by testing for
"__autogen__
".
#ifdef __bach__ location = home; #else location = work; #endif |
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The definitions file may contain C and C++ style comments.
/* * This is a comment. It continues for several lines and closes * when the characters '*' and '/' appear together. */ // this comment is a single line comment |
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This is an extended example:
autogen definitions `template-name'; /* * This is a comment that describes what these * definitions are all about. */ global = "value for a global text definition."; /* * Include a standard set of definitions */ #include standards.def a_block = { a_field; a_subblock = { sub_name = first; sub_field = "sub value."; }; #ifdef FEATURE a_subblock = { sub_name = second; }; #endif }; |
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The preprocessing directives and comments are not part of the grammar. They are handled by the scanner/lexer. The following was extracted directly from the defParse.y source file:
definitions : identity def_list TK_END { $$ = (YYSTYPE)(rootDefCtx.pDefs = (tDefEntry*)$2); } | identity TK_END { $$ = makeEmptyDefs(); } ; def_list : definition { $$ = $1; } | definition def_list { $$ = addSibMacro( $1, $2 ); } | identity def_list { $$ = $2; } ; identity : TK_AUTOGEN TK_DEFINITIONS filename ';' { $$ = identify( $3 ); } ; definition : value_name ';' { $$ = makeMacro( $1, (YYSTYPE)"", VALTYP_TEXT ); } | value_name '=' text_list ';' { $$ = makeMacroList( $1, $3, VALTYP_TEXT ); } | value_name '=' block_list ';' { $$ = makeMacroList( $1, $3, VALTYP_BLOCK ); } ; text_list : anystring { $$ = startList( $1 ); } | anystring ',' text_list { $$ = appendList( $1, $3 ); } ; block_list : def_block { $$ = startList( $1 ); } | def_block ',' block_list { $$ = appendList( $1, $3 ); } ; def_block : '{' def_list '}' { $$ = $2; } ; anystring : filename { $$ = $1; } | TK_NUMBER { $$ = $1; } ; filename : TK_OTHER_NAME { $$ = $1; } | TK_STRING { $$ = $1; } | TK_VAR_NAME { $$ = $1; } ; value_name : TK_VAR_NAME { $$ = findPlace( (YYSTYPE)$1, (YYSTYPE)NULL ); } | TK_VAR_NAME '[' TK_NUMBER ']' { $$ = findPlace( (YYSTYPE)$1, (YYSTYPE)$3 ); } | TK_VAR_NAME '[' TK_VAR_NAME ']' { $$ = findPlace( (YYSTYPE)$1, (YYSTYPE)$3 ); } ; |
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There are several methods for supplying data values for templates.
--override-tpl
and --no-definitions
options on the command line. See section 5. Invoking autogen.
REQUEST_METHOD
is defined
and set to either "GET" or "POST", See section 6.2 AutoGen as a CGI server. Obviously,
all the values are constrained to strings because there is no way
to represent nested values.
xml2ag
. Its output can
either be redirected to a file for later use, or the program can
be used as an AutoGen wrapper. See section 8.6 Invoking xml2ag.
The introductory template example (see section 1.2 A Simple Example) can be rewritten in XML as follows:
<EXAMPLE template="list.tpl"> <LIST list_element="alpha" list_info="some alpha stuff"/> <LIST list_info="more beta stuff" list_element="beta"/> <LIST list_element="omega" list_info="final omega stuff"/> </EXAMPLE> |
A more XML-normal form might look like this:
<EXAMPLE template="list.tpl"> <LIST list_element="alpha">some alpha stuff</LIST> <LIST list_element="beta" >more beta stuff</LIST> <LIST list_element="omega">final omega stuff</LIST> </EXAMPLE> |
list_info
references
into text
references.
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The AutoGen template file defines the content of the output text. It is composed of two parts. The first part consists of a pseudo macro invocation and commentary. It is followed by the template proper.
This pseudo macro is special. It is used to identify the file as a AutoGen template file, fixing the starting and ending marks for the macro invocations in the rest of the file, specifying the list of suffixes to be generated by the template and, optionally, the shell to use for processing shell commands embedded in the template.
AutoGen-ing a file consists of copying text from the template to the output file until a start macro marker is found. The text from the start marker to the end marker constitutes the macro text. AutoGen macros may cause sections of the template to be skipped or processed several times. The process continues until the end of the template is reached. The process is repeated once for each suffix specified in the pseudo macro.
This chapter describes the format of the AutoGen template macros and the usage of the AutoGen native macros. Users may augment these by defining their own macros. See section 3.6.4 DEFINE - Define a user AutoGen macro.
3.1 Format of the Pseudo Macro 3.2 Naming a value 3.3 Macro Expression Syntax 3.4 AutoGen Scheme Functions 3.5 Common Scheme Functions 3.6 AutoGen Native Macros 3.7 Redirecting Output
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The pseudo macro is used to tell AutoGen how to process a template. It tells autogen:
The next several components may be intermingled:
(suffix)
scheme function (see section 3.4.34 `suffix' - get the current suffix).
The suffix specification consists of a sequence of POSIX compliant file name
characters and, optionally, an equal sign and a file name "printf"-style
formatting string. Two string arguments are allowed for that string:
the base name of the definition file and the current suffix (that being
the text to the left of the equal sign). (Note: "POSIX compliant file
name characters" consist of alphanumerics plus the period (.
),
hyphen (-
) and underscore (_
) characters.)
#
]),
and edit mode comments (text between pairs of -*-
strings).
(setenv "SHELL" "/bin/sh") |
This is extremely useful to ensure that the shell used is the one the template was written to use. By default, AutoGen determines the shell to use by user preferences. Sometimes, that can be the "csh", though.
The scheme expression can also be used to save a pre-existing output file for later text extraction (see section 3.5.4 `extract' - extract text from another file).
(shellf "mv -f %1$s.c %1$s.sav" (base-name)) |
It is generally a good idea to use some sort of opening
bracket in the starting macro and closing bracket in the ending
macro (e.g. {
, (
, [
, or even <
in the starting macro). It helps both visually and with editors
capable of finding a balancing parenthesis. The closing marker
may not begin with an open parenthesis, as that is used
to enclose a scheme expression.
It is also helpful to avoid using the comment marker (#
);
the POSIXly acceptable file name characters period (.
),
hyphen (-
) and underscore (_
); and finally, it is
advisable to avoid using any of the quote characters double,
single or back-quote. But there is no special check for any of
these advisories.
As an example, assume we want to use [+
and +]
as the start
and end macro markers, and we wish to produce a `.c' and a `.h'
file, then the first macro invocation will look something like this:
[+ AutoGen5 template -*- Mode: emacs-mode-of-choice -*- h=chk-%s.h c # make sure we don't use csh: (setenv "SHELL" "/bin/sh") +] |
The template proper starts after the pseudo-macro. The starting character is either the first non-whitespace character or the first character after the newline that follows the end macro marker.
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When an AutoGen value is specified in a template, it is specified by name. The name may be a simple name, or a compound name of several components. Since each named value in AutoGen is implicitly an array of one or more values, each component may have an index associated with it.
It looks like this:
comp-name-1 . comp-name-2 [ 2 ] |
Note that if there are multiple components to a name, each component
name is separated by a dot (.
). Indexes follow a component name,
enclosed in square brackets ([
and ]
). The index may be
either an integer or an integer-valued define name. The first component
of the name is searched for in the current definition level. If not
found, higher levels will be searched until either a value is found,
or there are no more definition levels. Subsequent components of the
name must be found within the context of the newly-current definition
level. Also, if the named value is prefixed by a dot (.
), then
the value search is started in the current context only. No higher
levels are searched.
If someone rewrites this, I'll incorporate it. :-)
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AutoGen has two types of expressions: full expressions and basic ones. A full AutoGen expression can appear by itself, or as the argument to certain AutoGen built-in macros: CASE, IF, ELIF, INCLUDE, INVOKE (explicit invocation, see section 3.6.16 INVOKE - Invoke a User Defined Macro), and WHILE. If it appears by itself, the result is inserted into the output. If it is an argument to one of these macros, the macro code will act on it sensibly.
You are constrained to basic expressions only when passing arguments to user defined macros, See section 3.6.4 DEFINE - Define a user AutoGen macro.
The syntax of a full AutoGen expression is:
[[ <apply-code> ] <value-name> ] [ <basic-expr-1> [ <basic-expr-2> ]] |
How the expression is evaluated depends upon the presence or absence
of the apply code and value name. The "value name" is the name of
an AutoGen defined value, or not. If it does not name such a value,
the expression result is generally the empty string. All expressions
must contain either a value-name
or a basic-expr
.
3.3.1 Apply Code 3.3.2 Basic Expression
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The "apply code" selected determines the method of evaluating the expression. There are five apply codes, including the non-use of an apply code.
value-name
, if defined.
Otherwise it is the empty string.
value-name
, then the basic-expr
is evaluated. Otherwise, the result is the empty string.
value-name
is defined, use basic-expr
as a format
string for sprintf. Then, if the basic-expr
is either a back-quoted
string or a parenthesized expression, then hand the result to the
appropriate interpreter for further evaluation. Otherwise, for single
and double quote strings, the result is the result of the sprintf operation.
Naturally, if value-name
is not defined, the result is the empty
string.
For example, assume that fumble
had the string value, stumble
:
[+ % fumble `printf '%%x\\n' $%s` +] |
printf '%x\n' $stumble
".
Assuming that the shell variable stumble
had a numeric value,
the expression result would be that number, in hex. Note the need
for doubled percent characters and backslashes.
basic-expr
-s are required. If the value-name
is
defined, then the first basic-expr-1
is evaluated, otherwise
basic-expr-2
is.
basic-expr
only if value-name
is not defined.
value-name
is
defined, it behaves exactly like `%', above, using basic-expr-1
.
If not defined, then basic-expr-2
is evaluated.
For example, assume again that fumble
had the string value, stumble
:
[+ ?% fumble `cat $%s` `pwd` +] |
cat $stumble
".
If fumble
were not defined, then the result would be the name
of our current directory.
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A basic expression can have one of the following forms:
'
), hash characters (#
), or backslashes (\
)
in the string. All other characters of STRING are output as-is when the
single quoted string is evaluated. Backslashes are processed before the hash
character for consistency with the definition syntax. It is needed there
to avoid preprocessing conflicts.
STRING
" will output STRING with all
backslash sequences interpreted.
Additionally, other than in the %
and ?%
expressions, the
Guile expressions may be introduced with the Guile comment character
(;
) and you may put a series of Guile expressions within a single
macro. They will be implicitly evaluated as if they were arguments
to the (begin ...)
expression. The result will be the the
result of the last Guile expression evaluated.
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AutoGen uses Guile to interpret Scheme expressions within AutoGen macros. All of the normal Guile functions are available, plus several extensions (see section 3.5 Common Scheme Functions) have been added to augment the repertoire of string manipulation functions and manage the state of AutoGen processing.
This section describes those functions that are specific to AutoGen. Please take note that these AutoGen specific functions are not loaded and thus not made available until after the command line options have been processed and the AutoGen definitions have been loaded. They may, of course, be used in Scheme functions that get defined at those times, but they cannot be invoked.
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Usage: (ag-function? ag-name)
return SCM_BOOL_T if a specified name is a user-defined AutoGen
macro, otherwise return SCM_BOOL_F.
Arguments:
ag-name - name of AutoGen macro
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Usage: (base-name)
Returns a string containing the base name of the output file(s).
Generally, this is also the base name of the definitions file.
This Scheme function takes no arguments.
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Usage: (count ag-name)
Count the number of entries for a definition.
The input argument must be a string containing the name
of the AutoGen values to be counted. If there is no
value associated with the name, the result is an SCM
immediate integer value of zero.
Arguments:
ag-name - name of AutoGen value
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Usage: (def-file)
Get the name of the definitions file.
Returns the name of the source file containing the AutoGen
definitions.
This Scheme function takes no arguments.
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Usage: (dne prefix [ first_prefix ] [ optpfx ])
Generate a "DO NOT EDIT" or "EDIT WITH CARE" warning string.
Which depends on whether or not the --writable
command line
option was set. The first argument is a per-line string prefix.
The optional second argument is a prefix for the first-line and,
in read-only mode, activates the editor hints.
-*- buffer-read-only: t -*- vi: set ro: |
The optional third argument is used when the first argument is actually
an invocation option and the prefix arguments get shifted.
The first argument must be, specifically, "-d
". That is used
to signify that the date stamp should not be inserted into the output.
Arguments:
prefix - string for starting each output line
first_prefix - Optional - for the first output line
optpfx - Optional - shifted prefix
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Usage: (error message)
The argument is a string that printed out as part of an error
message. The message is formed from the formatting string:
DEFINITIONS ERROR in %s line %d for %s: %s\n |
The first three arguments to this format are provided by the routine and are: The name of the template file, the line within the template where the error was found, and the current output file name.
After displaying the message, the current output file is removed and autogen exits with the EXIT_FAILURE error code. IF, however, the argument begins with the number 0 (zero), or the string is the empty string, then processing continues with the next suffix.
Arguments:
message - message to display before exiting
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Usage: (exist? ag-name)
return SCM_BOOL_T iff a specified name has an AutoGen value.
The name may include indexes and/or member names.
All but the last member name must be an aggregate definition.
For example:
(exist? "foo[3].bar.baz") |
baz
for some group value bar
that
is a member of the foo
group with index 3
.
There may be multiple entries of bar
within
foo
, only one needs to contain a value for baz
.
Arguments:
ag-name - name of AutoGen value
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Usage: (find-file file-name [ suffix ])
AutoGen has a search path that it uses to locate template and definition
files. This function will search the same list for `file-name', both
with and without the `.suffix', if provided.
Arguments:
file-name - name of file with text
suffix - Optional - file suffix to try, too
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Usage: (first-for? [ for_var ])
Returns SCM_BOOL_T if the named FOR loop (or, if not named, the
current innermost loop) is on the first pass through the data.
Outside of any FOR loop, it returns SCM_UNDEFINED.
See section 3.6.13 FOR - Emit a template block multiple times.
Arguments:
for_var - Optional - which for loop
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Usage: (for-by by)
This function records the "step by" information
for an AutoGen FOR function.
Outside of the FOR macro itself, this function will emit an error.
See section 3.6.13 FOR - Emit a template block multiple times.
Arguments:
by - the iteration increment for the AutoGen FOR macro
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Usage: (for-from from)
This function records the initial index information
for an AutoGen FOR function.
Outside of the FOR macro itself, this function will emit an error.
See section 3.6.13 FOR - Emit a template block multiple times.
Arguments:
from - the initial index for the AutoGen FOR macro
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Usage: (for-index [ for_var ])
Returns the current index for the named FOR loop.
If not named, then the index for the innermost loop.
Outside of any FOR loop, it returns SCM_UNDEFINED.
See section 3.6.13 FOR - Emit a template block multiple times.
Arguments:
for_var - Optional - which for loop
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Usage: (for-sep separator)
This function records the separation string that is to be inserted
between each iteration of an AutoGen FOR function. This is often
nothing more than a comma.
Outside of the FOR macro itself, this function will emit an error.
Arguments:
separator - the text to insert between the output of
each FOR iteration
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Usage: (for-to to)
This function records the terminating value information
for an AutoGen FOR function.
Outside of the FOR macro itself, this function will emit an error.
See section 3.6.13 FOR - Emit a template block multiple times.
Arguments:
to - the final index for the AutoGen FOR macro
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Usage: (get ag-name [ alt-val ])
Get the first string value associated with the name.
It will either return the associated string value (if
the name resolves), the alternate value (if one is provided),
or else the empty string.
Arguments:
ag-name - name of AutoGen value
alt-val - Optional - value if not present
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Usage: (high-lim ag-name)
Returns the highest index associated with an array of definitions.
This is generally, but not necessarily, one less than the
count
value. (The indexes may be specified, rendering a
non-zero based or sparse array of values.)
This is very useful for specifying the size of a zero-based array of values where not all values are present. For example:
tMyStruct myVals[ [+ (+ 1 (high-lim "my-val-list")) +] ]; |
Arguments:
ag-name - name of AutoGen value
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Usage: (last-for? [ for_var ])
Returns SCM_BOOL_T if the named FOR loop (or, if not named, the
current innermost loop) is on the last pass through the data.
Outside of any FOR loop, it returns SCM_UNDEFINED.
See section 3.6.13 FOR - Emit a template block multiple times.
Arguments:
for_var - Optional - which for loop
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Usage: (len ag-name)
If the named object is a group definition, then "len" is
the same as "count". Otherwise, if it is one or more text
definitions, then it is the sum of their string lengths.
If it is a single text definition, then it is equivalent to
(string-length (get "ag-name"))
.
Arguments:
ag-name - name of AutoGen value
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Usage: (low-lim ag-name)
Returns the lowest index associated with an array of definitions.
Arguments:
ag-name - name of AutoGen value
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Usage: (match-value? op ag-name test-str)
This function answers the question, "Is there an AutoGen value named
ag-name
with a value that matches the pattern test-str
using the match function op
?" Return SCM_BOOL_T iff at least
one occurrence of the specified name has such a value. The operator
can be any function that takes two string arguments and yields a
boolean. It is expected that you will use one of the string matching
functions provided by AutoGen.
The value name must follow the same rules as the
ag-name
argument for exist?
(see section 3.4.7 `exist?' - test for value name).
Arguments:
op - boolean result operator
ag-name - name of AutoGen value
test-str - string to test against
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Usage: (out-delete)
Remove the current output file. Cease processing the template for
the current suffix. It is an error if there are push
-ed
output files. Use the (error "0")
scheme function instead.
See section 3.7 Redirecting Output.
This Scheme function takes no arguments.
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Usage: (out-depth)
Returns the depth of the output file stack.
See section 3.7 Redirecting Output.
This Scheme function takes no arguments.
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Usage: (out-move new-name)
Rename current output file. See section 3.7 Redirecting Output.
Please note: changing the name will not save a temporary
file from being deleted. It may, however, be used on the
root output file.
Arguments:
new-name - new name for the current output file
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Usage: (out-name)
Returns the name of the current output file. If the current file
is a temporary, unnamed file, then it will scan up the chain until
a real output file name is found.
See section 3.7 Redirecting Output.
This Scheme function takes no arguments.
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Usage: (out-pop [ disp ])
If there has been a push
on the output, then close that
file and go back to the previously open file. It is an error
if there has not been a push
. See section 3.7 Redirecting Output.
If there is no argument, no further action is taken. Otherwise,
the argument should be #t
and the contents of the file
are returned by the function.
Arguments:
disp - Optional - return contents of the file
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Usage: (out-push-add file-name)
Identical to push-new
, except the contents are not
purged, but appended to. See section 3.7 Redirecting Output.
Arguments:
file-name - name of the file to append text to
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Usage: (out-push-new [ file-name ])
Leave the current output file open, but purge and create
a new file that will remain open until a pop
delete
or switch
closes it. The file name is optional and, if omitted,
the output will be sent to a temporary file that will be deleted when
it is closed.
See section 3.7 Redirecting Output.
Arguments:
file-name - Optional - name of the file to create
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Usage: (out-resume suspName)
If there has been a suspended output, then make that output descriptor
current again. That output must have been suspended with the same tag
name given to this routine as its argument.
Arguments:
suspName - A name tag for reactivating
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Usage: (out-suspend suspName)
If there has been a push
on the output, then set aside the
output descriptor for later reactiviation with (out-resume "xxx")
.
The tag name need not reflect the name of the output file. In fact,
the output file may be an anonymous temporary file. You may also
change the tag every time you suspend output to a file, because the
tag names are forgotten as soon as the file has been "resumed".
Arguments:
suspName - A name tag for reactivating
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Usage: (out-switch file-name)
Switch output files - close current file and make the current
file pointer refer to the new file. This is equivalent to
out-pop
followed by out-push-new
, except that
you may not pop the base level output file, but you may
switch
it. See section 3.7 Redirecting Output.
Arguments:
file-name - name of the file to create
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Usage: (set-option opt)
The text argument must be an option name followed by any needed
option argument. Returns SCM_UNDEFINED.
Arguments:
opt - AutoGen option name + its argument
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Usage: (set-writable [ set? ])
This function will set the current output file to be writable
(or not). This is only effective if neither the --writable
nor --not-writable
have been specified. This state
is reset when the current suffix's output is complete.
Arguments:
set? - Optional - boolean arg, false to make output non-writable
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Usage: (stack ag-name)
Create a scheme list of all the strings that are associated
with a name. They must all be text values or we choke.
Arguments:
ag-name - AutoGen value name
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Usage: (suffix)
Returns the current active suffix (see section 3.1 Format of the Pseudo Macro).
This Scheme function takes no arguments.
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Usage: (tpl-file)
Returns the name of the current template file.
This Scheme function takes no arguments.
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Usage: (tpl-file-line [ msg-fmt ])
Returns the file and line number of the current template macro
using either the default format, "from %s line %d", or else
the format you supply. For example, if you want to insert a "C"
language file-line directive, you would supply the format "# %2$d %1$s".
Arguments:
msg-fmt - Optional - formatting for line message
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Emit a #ifndef
/#define
sequence based upon the output
file name and the provided prefix. It will also define a scheme
variables named, header-file
and header-guard
.
The #define
name is composed as follows:
_GUARD
".
The final #define
name is stored in an SCM symbol named
header-guard
. Consequently, the concluding #endif
for the
file should read something like:
#endif /* [+ (. header-guard) +] */ |
The name of the header file (the current output file) is also stored in an SCM
symbol, header-file
. Therefore, if you are also generating a
C file that uses the previously generated header file, you can put
this into that generated file:
#include "[+ (. header-file) +]" |
Obviously, if you are going to produce more than one header file from a particular template, you will need to be careful how these SCM symbols get handled.
Arguments:
prefix - first segment of #define
name
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This is a symbol defining the current AutoGen version number string. It was first defined in AutoGen-5.2.14. It is currently "5.5.4".
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This section describes a number of general purpose functions that make the kind of string processing that AutoGen does a little easier. Unlike the AutoGen specific functions (see section 3.4 AutoGen Scheme Functions), these functions are available for direct use during definition load time.
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Usage: (bsd prog_name owner prefix)
Emit a string that contains the Free BSD Public License.
It takes three arguments:
prefix
contains the string to start each output line.
owner
contains the copyright owner.
prog_name
contains the name of the program the copyright is about.
Arguments:
prog_name - name of the program under the BSD
owner - Grantor of the BSD License
prefix - String for starting each output line
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Usage: (c-string string)
Reform a string so that, when printed, the C compiler will be able to
compile the data and construct a string that contains exactly what the
current string contains. Many non-printing characters are replaced with
escape sequences. Newlines are replaced with a backslash, an n
, a
closing quote, a newline, seven spaces and another re-opening quote. The
compiler will implicitly concatenate them. The reader will see line
breaks.
A K&R compiler will choke. Use kr-string
for that compiler.
Arguments:
string - string to reformat
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Usage: (error-source-line)
This function is only invoked just before Guile displays
an error message. It displays the file name and line number
that triggered the evaluation error. You should not need to
invoke this routine directly. Guile will do it automatically.
This Scheme function takes no arguments.
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Usage: (extract file-name marker-fmt [ caveat ] [ default ])
This function is used to help construct output files that may contain
text that is carried from one version of the output to the next.
The first two arguments are required, the second are optional:
file-name
argument is used to name the file that
contains the demarcated text.
marker-fmt
is a formatting string that is used to construct
the starting and ending demarcation strings. The sprintf function is
given the marker-fmt
with two arguments. The first is either
"START" or "END". The second is either "DO NOT CHANGE THIS COMMENT"
or the optional caveat
argument.
caveat
is presumed to be absent if it is the empty string
(""
). If absent, "DO NOT CHANGE THIS COMMENT" is used
as the second string argument to the marker-fmt
.
default
argument is supplied and no pre-existing text
is found, then this text will be inserted between the START and END
markers.
[+ (extract "fname" "// %s - SOMETHING - %s" "" "example default") +] |
// START - SOMETHING - DO NOT CHANGE THIS COMMENT example default // END - SOMETHING - DO NOT CHANGE THIS COMMENT |
example default
" string can then be carried forward to
the next generation of the output, provided the output
is not named "fname
" and the old output is renamed to
"fname
" before AutoGen-eration begins.
[+ AutoGen5 Template -*- Mode: text -*- h=%s-fsm.h c=%s-fsm.c (shellf "[ -f %1$s-fsm.h ] && mv -f %1$s-fsm.h .fsm.head [ -f %1$s-fsm.c ] && mv -f %1$s-fsm.c .fsm.code" (base-name)) +] |
This code will move the two previously produced output files to files named ".fsm.head" and ".fsm.code". At the end of the 'c' output processing, I delete them.
Arguments:
file-name - name of file with text
marker-fmt - format for marker text
caveat - Optional - warn about changing marker
default - Optional - default initial text
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Usage: (format-arg-count format)
Sometimes, it is useful to simply be able to figure out how many
arguments are required by a format string. For example, if you
are extracting a format string for the purpose of generating a
macro to invoke a printf-like function, you can run the
formatting string through this function to determine how many
arguments to provide for in the macro. e.g. for this extraction
text:
/*=fumble bumble * fmt: 'stumble %s: %d\n' =*/ |
You may wish to generate a macro:
#define BUMBLE(a1,a2) printf_like(something,(a1),(a2)) |
You can do this by knowing that the format needs two arguments.
Arguments:
format - formatting string
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Usage: (fprintf port format [ format-arg ... ])
Format a string using arguments from the alist.
Write to a specified port. The result will NOT appear in your
output. Use this to print information messages to a template user.
Arguments:
port - Guile-scheme output port
format - formatting string
format-arg - Optional - list of arguments to formatting string
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Usage: (gperf name str)
Perform the perfect hash on the input string. This is only useful if
you have previously created a gperf program with the make-gperf
function See section 3.5.15 `make-gperf' - build a perfect hash function program. The name
you supply here must
match the name used to create the program and the string to hash must
be one of the strings supplied in the make-gperf
string list.
The result will be a perfect hash index.
See the documentation for gperf(1GNU)
for more details.
Arguments:
name - name of hash list
str - string to hash
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Usage: (gpl prog-name prefix)
Emit a string that contains the GNU General Public License.
It takes two arguments:
prefix
contains the string to start each output line, and
prog_name
contains the name of the program the copyright is
about.
Arguments:
prog-name - name of the program under the GPL
prefix - String for starting each output line
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Usage: (hide-email display eaddr)
Hides an email address as a java scriptlett.
The 'mailto:' tag and the email address are coded bytes
rather than plain text. They are also broken up.
Arguments:
display - display text
eaddr - email address
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Usage: (in? test-string string-list ...)
Return SCM_BOOL_T if the first argument string is found
in one of the entries in the second (list-of-strings) argument.
Arguments:
test-string - string to look for
string-list - list of strings to check
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Usage: (join separator list ...)
With the first argument as the separator string,
joins together an a-list of strings into one long string.
The list may contain nested lists, partly because you
cannot always control that.
Arguments:
separator - string to insert between entries
list - list of strings to join
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Usage: (kr-string string)
Reform a string so that, when printed, a K&R C compiler will be able
to compile the data and construct a string that contains exactly
what the current string contains. Many non-printing characters are
replaced with escape sequences. New-lines are replaced with a
backslash-n-backslash and newline sequence,
Arguments:
string - string to reformat
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Usage: (lgpl prog_name owner prefix)
Emit a string that contains the GNU Library General Public License.
It takes three arguments: prefix
contains the string to
start each output line. owner
contains the copyright owner.
prog_name
contains the name of the program the copyright is about.
Arguments:
prog_name - name of the program under the LGPL
owner - Grantor of the LGPL
prefix - String for starting each output line
[ < ] | [ > ] | [ << ] | [ Up ] | [ >> ] | [Top] | [Contents] | [Index] | [ ? ] |
Usage: (license lic_name prog_name owner prefix)
Emit a string that contains the named license. The license text
is read from a file named, lic_name
.lic, searching the standard
directories. The file contents are used as a format argument
to printf
(3), with prog_name
and owner
as
the two string formatting arguments. Each output line is automatically
prefixed with the string prefix
.
Arguments:
lic_name - file name of the license
prog_name - name of the licensed program or library
owner - Grantor of the License
prefix - String for starting each output line
[ < ] | [ > ] | [ << ] | [ Up ] | [ >> ] | [Top] | [Contents] | [Index] | [ ? ] |
Usage: (make-gperf name strings ...)
Build a program to perform perfect hashes of a known list of input
strings. This function produces no output, but prepares a program
named, `gperf_<name>' for use by the gperf function
See section 3.5.7 `gperf' - perform a perfect hash function.
This program will be obliterated within a few seconds after AutoGen exits.
Arguments:
name - name of hash list
strings - list of strings to hash
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Usage: (makefile-script text)
This function will take ordinary shell script text and reformat it
so that it will work properly inside of a makefile shell script.
Not every shell construct can be supported; the intent is to have
most ordinary scripts work without much, if any, alteration.
The following transformations are performed on the source text:
make
renders it impossible to use multi-line
constructs anyway.
$(<command>)
will not work. Though some
make
s accept ${var}
constructs, this function will
assume it is for shell interpretation and double the dollar character.
You must use $(var)
for all make
substitutions.
This function is intended to be used approximately as follows:
$(TARGET) : $(DEPENDENCIES) <+ (out-push-new) +> ....mostly arbitrary shell script text.... <+ (makefile-script (out-pop #t)) +> |
Arguments:
text - the text of the script
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Usage: (max list ...)
Return the maximum value in the list
Arguments:
list - list of values. Strings are converted to numbers
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Usage: (min list ...)
Return the minimum value in the list
Arguments:
list - list of values. Strings are converted to numbers
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Usage: (prefix prefix text)
Prefix every line in the second string with the first string.
For example, if the first string is "# " and the second contains:
two lines |
# two # lines |
Arguments:
prefix - string to insert at start of each line
text - multi-line block of text
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Usage: (printf format [ format-arg ... ])
Format a string using arguments from the alist.
Write to the standard out port. The result will NOT appear in your
output. Use this to print information messages to a template user.
Use "(sprintf ...)" to add text to your document.
Arguments:
format - formatting string
format-arg - Optional - list of arguments to formatting string
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Usage: (raw-shell-str string)
Convert the text of the string into a singly quoted string
that a normal shell will process into the original string.
(It will not do macro expansion later, either.)
Contained single quotes become tripled, with the middle quote
escaped with a backslash. Normal shells will reconstitute the
original string.
NOTE: some shells will not correctly handle unusual non-printing characters. This routine works for most reasonably conventional ASCII strings.
Arguments:
string - string to transform
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Usage: (shell command)
Generate a string by writing the value to
a server shell and reading the output back in. The template
programmer is responsible for ensuring that it completes
within 10 seconds. If it does not, the server will be killed,
the output tossed and a new server started.
Arguments:
command - shell command - the result value is stdout
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Usage: (shell-str string)
Convert the text of the string into a double quoted string that a normal
shell will process into the original string, almost. It will add the
escape character \\
before two special characters to
accomplish this: the backslash \\
and double quote "
.
NOTE: some shells will not correctly handle unusual non-printing characters. This routine works for most reasonably conventional ASCII strings.
WARNING:
This function omits the extra backslash in front of a backslash, however,
if it is followed by either a backquote or a dollar sign. It must do this
because otherwise it would be impossible to protect the dollar sign or
backquote from shell evaluation. Consequently, it is not possible to
render the strings "\\$" or "\\`". The lesser of two evils.
All others characters are copied directly into the output.
The sub-shell-str
variation of this routine behaves identically,
except that the extra backslash is omitted in front of "
instead
of `
. You have to think about it. I'm open to suggestions.
Meanwhile, the best way to document is with a detailed output example.
If the backslashes make it through the text processing correctly,
below you will see what happens with three example strings. The first
example string contains a list of quoted foo
s, the second is
the same with a single backslash before the quote characters and the
last is with two backslash escapes. Below each is the result of the
raw-shell-str
, shell-str
and sub-shell-str
functions.
foo[0] 'foo' "foo" `foo` $foo raw-shell-str -> ''\''foo'\'' "foo" `foo` $foo' shell-str -> "'foo' \"foo\" `foo` $foo" sub-shell-str -> `'foo' "foo" \`foo\` $foo` foo[1] \'bar\' \"bar\" \`bar\` \$bar raw-shell-str -> '\'\''bar\'\'' \"bar\" \`bar\` \$bar' shell-str -> "\\'bar\\' \\\"bar\\\" \`bar\` \$bar" sub-shell-str -> `\\'bar\\' \"bar\" \\\`bar\\\` \$bar` foo[2] \\'BAZ\\' \\"BAZ\\" \\`BAZ\\` \\$BAZ raw-shell-str -> '\\'\''BAZ\\'\'' \\"BAZ\\" \\`BAZ\\` \\$BAZ' shell-str -> "\\\\'BAZ\\\\' \\\\\"BAZ\\\\\" \\\`BAZ\\\` \\\$BAZ" sub-shell-str -> `\\\\'BAZ\\\\' \\\"BAZ\\\" \\\\\`BAZ\\\\\` \\\$BAZ` |
There should be four, three, five and three backslashes for the four examples on the last line, respectively. The next to last line should have four, five, three and three backslashes. If this was not accurately reproduced, take a look at the agen5/test/shell.test test. Notice the backslashes in front of the dollar signs. It goes from zero to one to three for the "cooked" string examples.
Arguments:
string - string to transform
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Usage: (shellf format [ format-arg ... ])
Format a string using arguments from the alist,
then send the result to the shell for interpretation.
Arguments:
format - formatting string
format-arg - Optional - list of arguments to formatting string
[ < ] | [ > ] | [ << ] | [ Up ] | [ >> ] | [Top] | [Contents] | [Index] | [ ? ] |
Usage: (sprintf format [ format-arg ... ])
Format a string using arguments from the alist.
Arguments:
format - formatting string
format-arg - Optional - list of arguments to formatting string
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Usage: (string-capitalize str)
Create a new SCM string containing the same text as the original,
only all the first letter of each word is upper cased and all
other letters are made lower case.
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Usage: (string-capitalize! str)
capitalize all the words in an SCM string.
Arguments:
str - input/output string
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Usage: (*=* text match)
string-contains-eqv?: Test to see if a string contains an equivalent string.
`equivalent' means the strings match, but without regard
to character case and certain characters are considered `equivalent'.
Viz., '-', '_' and '^' are equivalent.
Arguments:
text - text to test for pattern
match - pattern/substring to search for
[ < ] | [ > ] | [ << ] | [ Up ] | [ >> ] | [Top] | [Contents] | [Index] | [ ? ] |
Usage: (*==* text match)
string-contains?: Test to see if a string contains a substring. "strstr(3)"
will find an address.
Arguments:
text - text to test for pattern
match - pattern/substring to search for
[ < ] | [ > ] | [ << ] | [ Up ] | [ >> ] | [Top] | [Contents] | [Index] | [ ? ] |
Usage: (string-downcase str)
Create a new SCM string containing the same text as the original,
only all the upper case letters are changed to lower case.
[ < ] | [ > ] | [ << ] | [ Up ] | [ >> ] | [Top] | [Contents] | [Index] | [ ? ] |
Usage: (string-downcase! str)
Change to lower case all the characters in an SCM string.
Arguments:
str - input/output string
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Usage: (*~ text match)
string-end-eqv-match?: Test to see if a string ends with a pattern.
Case is not significant.
Arguments:
text - text to test for pattern
match - pattern/substring to search for
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Usage: (*~~ text match)
string-end-match?: Test to see if a string ends with a pattern.
Case is significant.
Arguments:
text - text to test for pattern
match - pattern/substring to search for
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Usage: (*= text match)
string-ends-eqv?: Test to see if a string ends with an equivalent string.
Arguments:
text - text to test for pattern
match - pattern/substring to search for
[ < ] | [ > ] | [ << ] | [ Up ] | [ >> ] | [Top] | [Contents] | [Index] | [ ? ] |
Usage: (*== text match)
string-ends-with?: Test to see if a string ends with a substring.
strcmp(3) returns zero for comparing the string ends.
Arguments:
text - text to test for pattern
match - pattern/substring to search for
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Usage: (== text match)
string-equals?: Test to see if two strings exactly match.
Arguments:
text - text to test for pattern
match - pattern/substring to search for
[ < ] | [ > ] | [ << ] | [ Up ] | [ >> ] | [Top] | [Contents] | [Index] | [ ? ] |
Usage: (~ text match)
string-eqv-match?: Test to see if a string fully matches a pattern.
Case is not significant, but any character equivalences
must be expressed in your regular expression.
Arguments:
text - text to test for pattern
match - pattern/substring to search for
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Usage: (= text match)
string-eqv?: Test to see if two strings are equivalent. `equivalent' means the
strings match, but without regard to character case and certain
characters are considered `equivalent'. Viz., '-', '_' and '^' are
equivalent. If the arguments are not strings, then the result of the
numeric comparison is returned.
This is an overloaded operation. If the arguments are not both
strings, then the query is passed through to scm_num_eq_p()
.
Arguments:
text - text to test for pattern
match - pattern/substring to search for
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Usage: (*~* text match)
string-has-eqv-match?: Test to see if a string contains a pattern.
Case is not significant.
Arguments:
text - text to test for pattern
match - pattern/substring to search for
[ < ] | [ > ] | [ << ] | [ Up ] | [ >> ] | [Top] | [Contents] | [Index] | [ ? ] |
Usage: (*~~* text match)
string-has-match?: Test to see if a string contains a pattern.
Case is significant.
Arguments:
text - text to test for pattern
match - pattern/substring to search for
[ < ] | [ > ] | [ << ] | [ Up ] | [ >> ] | [Top] | [Contents] | [Index] | [ ? ] |
Usage: (~~ text match)
string-match?: Test to see if a string fully matches a pattern.
Case is significant.
Arguments:
text - text to test for pattern
match - pattern/substring to search for
[ < ] | [ > ] | [ << ] | [ Up ] | [ >> ] | [Top] | [Contents] | [Index] | [ ? ] |
Usage: (~* text match)
string-start-eqv-match?: Test to see if a string starts with a pattern.
Case is not significant.
Arguments:
text - text to test for pattern
match - pattern/substring to search for
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Usage: (~~* text match)
string-start-match?: Test to see if a string starts with a pattern.
Case is significant.
Arguments:
text - text to test for pattern
match - pattern/substring to search for
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Usage: (=* text match)
string-starts-eqv?: Test to see if a string starts with an equivalent string.
Arguments:
text - text to test for pattern
match - pattern/substring to search for
[ < ] | [ > ] | [ << ] | [ Up ] | [ >> ] | [Top] | [Contents] | [Index] | [ ? ] |
Usage: (==* text match)
string-starts-with?: Test to see if a string starts with a substring.
Arguments:
text - text to test for pattern
match - pattern/substring to search for
[ < ] | [ > ] | [ << ] | [ Up ] | [ >> ] | [Top] | [Contents] | [Index] | [ ? ] |
Usage: (string-substitute source match repl)
match
and repl
may be either a single string or
a list of strings. Either way, they must have the same structure
and number of elements. For example, to replace all less than
and all greater than characters, do something like this:
(string-substitute source '("&" "<" ">") '("&" "<" ">")) |
Arguments:
source - string to transform
match - substring or substring list to be replaced
repl - replacement strings or substrings
[ < ] | [ > ] | [ << ] | [ Up ] | [ >> ] | [Top] | [Contents] | [Index] | [ ? ] |
Usage: (string->c-name! str)
Change all the graphic characters that are invalid in a C name token
into underscores. Whitespace characters are ignored. Any other
character type (i.e. non-graphic and non-white) will cause a failure.
Arguments:
str - input/output string
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Usage: (string-tr source match translation)
This is identical to string-tr!
, except that it does not
over-write the previous value.
Arguments:
source - string to transform
match - characters to be converted
translation - conversion list
[ < ] | [ > ] | [ << ] | [ Up ] | [ >> ] | [Top] | [Contents] | [Index] | [ ? ] |
Usage: (string-tr! source match translation)
This is the same as the tr(1)
program, except the
string to transform is the first argument. The second and
third arguments are used to construct mapping arrays for the
transformation of the first argument.
It is too bad this little program has so many different and incompatible implementations!
Arguments:
source - string to transform
match - characters to be converted
translation - conversion list
[ < ] | [ > ] | [ << ] | [ Up ] | [ >> ] | [Top] | [Contents] | [Index] | [ ? ] |
Usage: (string-upcase str)
Create a new SCM string containing the same text as the original,
only all the lower case letters are changed to upper case.
[ < ] | [ > ] | [ << ] | [ Up ] | [ >> ] | [Top] | [Contents] | [Index] | [ ? ] |
Usage: (string-upcase! str)
Change to upper case all the characters in an SCM string.
Arguments:
str - input/output string
[ < ] | [ > ] | [ << ] | [ Up ] | [ >> ] | [Top] | [Contents] | [Index] | [ ? ] |
Usage: (sub-shell-str string)
This function is substantially identical to shell-str
, except
that the quoting character is `
and the "leave the escape alone"
character is "
.
Arguments:
string - string to transform
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Usage: (sum list ...)
Compute the sum of the list of expressions.
Arguments:
list - list of values. Strings are converted to numbers
[ < ] | [ > ] | [ << ] | [ Up ] | [ >> ] | [Top] | [Contents] | [Index] | [ ? ] |
Usage: (html-escape-encode str)
Substitute escape sequences for characters that are special to HTML/XML.
It will replace "&
", "<
" and ">
" with the strings,
"&
", "<
", and ">
", respectively.
Arguments:
str - string to transform
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This section describes the various AutoGen natively defined macros. Unlike the Scheme functions, some of these macros are "block macros" with a scope that extends through a terminating macro. Block macros must not overlap. That is to say, a block macro started within the scope of an encompassing block macro must have its matching end macro appear before the encompassing block macro is either ended or subdivided.
The block macros are these:
CASE
ESAC
macro.
The scope is subdivided by SELECT
macros.
You must have at least one SELECT
macro.
DEFINE
ENDDEF
macro.
The defined user macro can never be a block macro.
FOR
ENDFOR
macro.
IF
ENDIF
macro.
The scope may be subdivided by ELIF
and ELSE
macros. Obviously, there may be only one ELSE
macro
and it must be the last of these subdivisions.
INCLUDE
WHILE
ENDWHILE
macro.
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The general syntax is:
[ { <native-macro-name> | <user-defined-name> } ] [ <arg> ... ] |
The syntax for <arg>
depends on the particular macro,
but is generally a full expression (see section 3.3 Macro Expression Syntax).
Here are the exceptions to that general rule:
INVOKE
macros, implicit or explicit, must be followed by
a list of name/string value pairs. The string values are
simple expressions, as described above.
That is, the INVOKE
syntax is either:
<user-macro-name> [ <name> [ = <expression> ] ... ] |
INVOKE <name-expression> [ <name> [ = <expression> ] ... ] |
FOR <name> [ <separator-string> ] |
FOR <name> (...Scheme expression list) |
<name>
must be a simple name and the Scheme expression list
is expected to contain one or more of the for-from
,
for-to
, for-by
, and for-sep
functions.
(See section 3.6.13 FOR - Emit a template block multiple times, and 3.4 AutoGen Scheme Functions)
DEFINE
macros must be followed by a simple name.
Anything after that is ignored. See section 3.6.4 DEFINE - Define a user AutoGen macro.
COMMENT
, ELSE
, ESAC
and the END*
macros take no arguments and ignore everything after the macro name
(e.g. see 3.6.3 COMMENT - A block of comment to be ignored)
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The arguments are evaluated and converted to a string, if necessary. (see section 3.6.12 EXPR - Evaluate and emit an Expression) The scope of the macro is up to the matching ESAC function. Within the scope of a CASE, this string is matched against case selection macros. There are sixteen match macros that are derived from four different ways the test may be performed, plus an "always true" match. The code for each selection expression is formed as follows:
*
).
*
).
=
).
If a pattern match, use a tilde (~
).
*
).
For example:
[+ CASE <full-expression> +] [+ ~~* "[Tt]est" +]reg exp must match at start, not at end [+ == "TeSt" +]a full-string, case sensitive compare [+ = "TEST" +]a full-string, case insensitive compare [+ * +]always match - no testing [+ ESAC +] |
<full-expression>
(see section 3.3 Macro Expression Syntax) may be any expression,
including the use of apply-codes and value-names. If the expression yields
a number, it is converted to a decimal string.
These case selection codes have also been implemented as Scheme expression functions using the same codes (see section 3.5 Common Scheme Functions).
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This function can be specified by the user, but there will never be a situation where it will be invoked at emit time. The macro is actually removed from the internal representation.
If the native macro name code is #
, then the
entire macro function is treated as a comment and ignored.
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This function will define a new macro. You must provide a name for the macro. You do not specify any arguments, though the invocation may specify a set of name/value pairs that are to be active during the processing of the macro.
[+ define foo +] ... macro body with macro functions ... [+ enddef +] ... [+ foo bar='raw text' baz=<<text expression>> +] |
Once the macro has been defined, this new macro can be invoked by
specifying the macro name as the first token after the start macro
marker. Alternatively, you may make the invocation explicitly invoke a
defined macro by specifying INVOKE
in the macro invocation. If
you do that, the macro name can be computed with an expression that gets
evaluated every time the INVOKE macro is encountered. See section 3.6.16 INVOKE - Invoke a User Defined Macro.
Any remaining text in the macro invocation will be used to create new name/value pairs that only persist for the duration of the processing of the macro. The expressions are evaluated the same way basic expressions are evaluated. See section 3.3 Macro Expression Syntax.
The resulting definitions are handled much like regular definitions, except:
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This macro must only appear after an IF
function, and
before any associated ELSE
or ENDIF
functions.
It denotes the start of an alternate template block for the
IF
function. Its expression argument is evaluated as are
the arguments to IF
. For a complete description See section 3.6.14 IF - Conditionally Emit a Template Block.
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This macro must only appear after an IF
function,
and before the associated ENDIF
function.
It denotes the start of an alternate template block for
the IF
function. For a complete description See section 3.6.14 IF - Conditionally Emit a Template Block.
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This macro ends the DEFINE
function template block.
For a complete description See section 3.6.4 DEFINE - Define a user AutoGen macro.
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FOR
function template block
This macro ends the FOR
function template block.
For a complete description See section 3.6.13 FOR - Emit a template block multiple times.
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IF
Template Block
This macro ends the IF
function template block.
For a complete description See section 3.6.14 IF - Conditionally Emit a Template Block.
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WHILE
Template Block
This macro ends the WHILE
function template block.
For a complete description See section 3.6.19 WHILE - Conditionally loop over a Template Block.
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CASE
Template Block
This macro ends the CASE
function template block.
For a complete description, See section 3.6.2 CASE - Select one of several template blocks.
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This macro does not have a name to cause it to be invoked explicitly, though if a macro starts with one of the apply codes or one of the simple expression markers, then an expression macro is inferred. The result of the expression evaluation (see section 3.3 Macro Expression Syntax) is written to the current output.
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This macro has a slight variation on the standard syntax:
FOR <value-name> [ <separator-string> ] |
FOR <value-name> (...Scheme expression list |
FOR <value-name> IN "quoted string" unquoted-string ... |
Other than for the last form, the first macro argument must be the name of
an AutoGen value. If there is no value associated with the name, the
FOR
template block is skipped entirely. The scope of the FOR
macro extends to the corresponding ENDFOR
macro. The last form will
create an array of string values named <value-name>
that only exists
within the context of this FOR
loop. With this form, in order to
use a separator-string
, you must code it into the end of the
template block using the (last-for?)
predicate function
(see section 3.4.17 `last-for?' - detect last iteration).
If there are any arguments after the value-name
, the initial
characters are used to determine the form. If the first character is
either a semi-colon (;
) or an opening parenthesis ((
), then
it is presumed to be a Scheme expression containing the FOR macro specific
functions for-from
, for-by
, for-to
, and/or
for-sep
. See section 3.4 AutoGen Scheme Functions. If it consists of an 'i
'
an 'n
' and separated by white space from more text, then the
FOR x IN
form is processed. Otherwise, the remaining text is
presumed to be a string for inserting between each iteration of the loop.
This string will be emitted one time less than the number of iterations of
the loop. That is, it is emitted after each loop, excepting for the last
iteration.
If the from/by/to functions are invoked, they will specify which copies of
the named value are to be processed. If there is no copy of the named
value associated with a particular index, the FOR
template block
will be instantiated anyway. The template must use methods for detecting
missing definitions and emitting default text. In this fashion, you can
insert entries from a sparse or non-zero based array into a dense, zero
based array.
NB: the for-from
, for-to
, for-by
and
for-sep
functions are disabled outside of the context of the
FOR
macro. Likewise, the first-for
, last-for
and for-index
functions are disabled outside of the range
of a FOR
block.
[+FOR var (for-from 0) (for-to <number>) (for-sep ",") +]
... text with |
this will repeat the ... text with
<number>+1 times. Each repetition,
except for the last, will have a comma var
ious
substitutions ...,
after it.
[+FOR var ",\n" +]
... text with |
This will do the same thing, but only for the index
values of var
that have actually been defined.
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Conditional block. Its arguments are evaluated (see section 3.6.12 EXPR - Evaluate and emit an Expression) and
if the result is non-zero or a string with one or more bytes,
then the condition is true and the text from that point
until a matched ELIF
, ELSE
or ENDIF
is emitted.
ELIF
introduces a conditional alternative if the IF
clause evaluated FALSE and ELSE
introduces an unconditional
alternative.
[+IF <full-expression> +] emit things that are for the true condition[+ ELIF <full-expression-2> +] emit things that are true maybe[+ ELSE "This may be a comment" +] emit this if all but else fails[+ ENDIF "This may *also* be a comment" +] |
<full-expression>
may be any expression described in the
EXPR
expression function, including the use of apply-codes
and value-names. If the expression yields an empty string, it
is interpreted as false.
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The entire contents of the named file is inserted at this point. The contents of the file are processed for macro expansion. The arguments are eval-ed, so you may compute the name of the file to be included. The included file must not contain any incomplete function blocks. Function blocks are template text beginning with any of the macro functions `CASE', `DEFINE', `FOR', `IF' and `WHILE'; extending through their respective terminating macro functions.
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User defined macros may be invoked explicitly or implicitly.
If you invoke one implicitly, the macro must begin with the
name of the defined macro. Consequently, this may not
be a computed value. If you explicitly invoke a user defined macro,
the macro begins with the macro name INVOKE
followed by
a basic expression that must yield a known user defined macro.
A macro name _must_ be found, or AutoGen will issue a diagnostic
and exit.
Arguments are passed to the invoked macro by name.
The text following the macro name must consist of a series of
names each of which is followed by an equal sign (=
) and
a basic expression that yields a string.
The string values may contain template macros that are parsed the first time the macro is processed and evaluated again every time the macro is evaluated.
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This macro selects a block of text by matching an expression
against the sample text expression evaluated in the CASE
macro. See section 3.6.2 CASE - Select one of several template blocks.
You do not specify a SELECT
macro with the word "select".
Instead, you must use one of the 17 match operators described in
the CASE
macro description.
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The macro text has started with a name not known to AutoGen. If, at run time, it turns out to be the name of a defined macro, then that macro is invoked. If it is not, then it is a conditional expression that is evaluated only if the name is defined at the time the macro is invoked.
You may not specify UNKNOWN
explicitly.
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Conditionally repeated block. Its arguments are evaluated (see section 3.6.12 EXPR - Evaluate and emit an Expression)
and as long as the result is non-zero or a string with one or more bytes,
then the condition is true and the text from that point
until a matched ENDWHILE
is emitted.
[+WHILE <full-expression> +] emit things that are for the true condition[+ ENDWHILE +] |
<full-expression>
may be any expression described in the
EXPR
expression function, including the use of apply-codes
and value-names. If the expression yields an empty string, it
is interpreted as false.
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AutoGen provides a means for redirecting the template output
to different files. It is accomplished by providing a set of
Scheme functions named out-*
(see section 3.4 AutoGen Scheme Functions).
There are also several functions for determining the output status. See section 3.4 AutoGen Scheme Functions.
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AutoGen was designed to be simple to enhance. You can do it by providing shell commands, Guile/Scheme macros or callout functions that can be invoked as a Guile macro. Here is how you do these.
4.1 Shell Output Commands 4.2 Guile Macros 4.3 Guile Callout Functions 4.4 AutoGen Macros
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Shell commands are run inside of a server process. This means that, unlike `make', context is kept from one command to the next. Consequently, you can define a shell function in one place inside of your template and invoke it in another. You may also store values in shell variables for later reference. If you load functions from a file containing shell functions, they will remain until AutoGen exits.
If your shell script should determine that AutoGen should stop processing, the recommended method for stopping AutoGen is:
echo "some error text" >&2 kill -2 ${AG_pid} |
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Guile also maintains context from one command to the next. This means
you may define functions and variables in one place and reference them
elsewhere. You also may load Guile macro definitions from a Scheme
file by using the --load-scheme
command line option
(see section 5.7 load-scheme option (-S)). Beware,
however, that the AutoGen specific scheme functions have not been loaded
at this time, so though you may define functions that reference them,
do not invoke the AutoGen functions at this time.
If your Scheme script should determine that AutoGen should stop processing, the recommended method for stopping AutoGen is:
(error "some error text") |
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Callout functions must be registered with Guile to work. This can
be accomplished either by putting your routines into a shared library
that contains a void scm_init( void )
routine that registers
these routines, or by building them into AutoGen.
To build them into AutoGen, you must place your routines in the source directory and name the files `exp*.c'. You also must have a stylized comment that `getdefs' can find that conforms to the following:
/*=gfunc <function-name> * * what: <short one-liner> * general_use: * string: <invocation-name-string> * exparg: <name>, <description> [, ['optional'] [, 'list']] * doc: A long description telling people how to use * this function. =*/ SCM ag_scm_<function-name>( SCM arg_name[, ...] ) { <code> } |
function-name
string will be transformed into
a reasonable invocation name. However, that is not always true.
If the result does not suit your needs, then supply an alternate string.
exparg
.
See the Guile documentation for more details. More information is also available in a large comment at the beginning of the `agen5/snarf.tpl' template file.
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There are two kinds those you define yourself and AutoGen native.
The user-defined macros may be defined in your templates or loaded
with the --lib-template
option
(See 3.6.4 DEFINE - Define a user AutoGen macro and 5.4 lib-template option (-l)).
As for AutoGen native macros, do not add any. It is easy to do, but I won't like it. The basic functions needed to accomplish looping over and selecting blocks of text have proven to be sufficient over a period of several years. New text transformations can be easily added via any of the AutoGen extension methods, as discussed above.
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The output file names are based on the template, but generally use the base name of the definition file. If standard in is read for the definitions, then `stdin' will be used for that base name. The suffixes to the base name are gotten from the template. However, the template file may specify the entire output file name. The generated files are always created in the current directory. If you need to place output in an alternate directory, `cd' to that directory and use the `--templ_dirs' option to search the original directory.
`loop-limit' is used in debugging to stop runaway expansions.
This chapter was generated by AutoGen, the aginfo template and the option descriptions for the autogen program. It documents the autogen usage text and option meanings.
This software is released under the GNU General Public License.
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This is the automatically generated usage text for autogen:
@exampleindent 0
autogen - The Automated Program Generator - Ver. 5.5.4 USAGE: autogen [ -<flag> [<val>] | --<name>[{=| }<val>] ]... [ <def-file> ] Flg Arg Option-Name Description -L Str templ-dirs Template search directory list - may appear multiple times -T Str override-tpl Override template file - may not be preset -l Str lib-template Library template file - may appear multiple times -b Str base-name Base name for output file(s) - may not be preset Str definitions Definitions input file - disabled as --no-definitions - enabled by default - may not be preset -S Str load-scheme Scheme code file to load -F Str load-functions Load scheme callout library -s Str skip-suffix Omit the file with this suffix - may not be preset - may appear multiple times -o opt select-suffix specify this output suffix - may not be preset - may appear multiple times no source-time set mod times to latest source - disabled as --no-source-time Str equate characters considered equivalent no writable Allow output files to be writable - disabled as --not-writable - may not be preset The following options are often useful while debugging new templates: Flg Arg Option-Name Description Num loop-limit Limit on increment loops it must lie in one of the ranges: -1 exactly, or 1 to 16777216 -t Num timeout Time limit for servers it must lie in the range: 0 to 3600 KWd trace tracing level of detail Str trace-out tracing output file or filter These options can be used to control what gets processed in the definitions files and template files. Flg Arg Option-Name Description -D Str define name to add to definition list - may appear multiple times -U Str undefine definition list removal pattern - an alternate for define Auto-supported Options: Flg Arg Option-Name Description -v opt version Output version information and exit -? no help Display usage information and exit -! no more-help Extended usage information passed thru pager -> opt save-opts Save the option state to an rc file -< Str load-opts Load options from an rc file - disabled as --no-load-opts - may appear multiple times Options are specified by doubled hyphens and their name or by a single hyphen and the flag character. AutoGen creates text files from templates using external definitions. The following option preset mechanisms are supported: - reading file /dev/null - reading file ./.autogenrc - examining environment variables named AUTOGEN_* The valid trace option keywords are: nothing templates block-macros expressions everything The definitions file (`<def-file>') can be specified with the `definitions' option or as the command argument, but not both. Omitting it or specifying `-' will result in reading definitions from standard input. The output file names are based on the template, but generally use the base name of the definition file. If standard in is read for the definitions, then `stdin' will be used for that base name. The suffixes to the base name are gotten from the template. However, the template file may specify the entire output file name. The generated files are always created in the current directory. If you need to place output in an alternate directory, `cd' to that directory and use the `--templ_dirs' option to search the original directory. `loop-limit' is used in debugging to stop runaway expansions. please send bug reports to: [email protected] |
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This is the "template search directory list" option.
This option has some usage constraints. It:
Add a directory to the list of directories to search when opening a template, either as the primary template or an included one. The last entry has the highest priority in the search list. That is to say, they are searched in reverse order.
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This is the "override template file" option.
This option has some usage constraints. It:
Definition files specify the standard template that is to be expanded. This option will override that name and expand a different template.
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This is the "library template file" option.
This option has some usage constraints. It:
DEFINE macros are saved from this template file for use in processing the main macro file. Template text aside from the DEFINE macros is is ignored.
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This is the "base name for output file(s)" option.
This option has some usage constraints. It:
A template may specify the exact name of the output file. Normally, it does not. Instead, the name is composed of the base name of the definitions file with suffixes appended. This option will override the base name derived from the definitions file name. This is required if there is no definitions file and advisable if definitions are being read from stdin. If the definitions are being read from standard in, the base name defaults to `stdin'.
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This is the "definitions input file" option.
This option has some usage constraints. It:
Use this argument to specify the input definitions file with a
command line option. If you do not specify this option, then
there must be a command line argument that specifies the file,
even if only to specify stdin with a hyphen (-
).
Specify, --no-definitions
when you wish to process
a template without any active AutoGen definitions.
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This is the "scheme code file to load" option. Use this option to pre-load Scheme scripts into the Guile interpreter before template processing begins. Please note that the AutoGen specific functions are not loaded until after argument processing. So, though they may be specified in lambda functions you define, they may not be invoked until after option processing is complete.
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This is the "load scheme callout library" option.
This option is used to load Guile-scheme callout functions. The
automatically called initialization routine scm_init
must be used to register these routines or data. This routine
can be generated by using the following command and the
`snarf.tpl' template. Read the introductory comment in
`snarf.tpl' to see what the `getdefs(1AG)' comment must contain.
First, create a config file for getdefs
,
and then invoke getdefs
loading that file:
cat > getdefs.cfg <<EOF subblock exparg=arg_name,arg_desc,arg_optional,arg_list defs-to-get gfunc template snarf srcfile linenum assign group = name_of_some_group assign init = _init EOF getdefs load=getdefs.cfg <<source-file-list>> |
Note, however, that your functions must be named:
name_of_some_group_scm_<<function_name>>(...) |
so you may wish to use a shorter group name.
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This is the "omit the file with this suffix" option.
This option has some usage constraints. It:
Occasionally, it may not be desirable to produce all of the output
files specified in the template. (For example, only the `.h'
header file, but not the `.c' program text.) To do this
specify --skip-suffix=c
on the command line.
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This is the "specify this output suffix" option.
This option has some usage constraints. It:
If you wish to override the suffix specifications in the template, you can use one or more copies of this option. See the suffix specification in the 3.1 Format of the Pseudo Macro section of the info doc.
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This is the "set mod times to latest source" option. If you stamp your output files with the `DNE' macro output, then your output files will always be different, even if the content has not really changed. If you use this option, then the modification time of the output files will change only if the input files change. This will help reduce unneeded builds.
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This is the "characters considered equivalent" option. This option will alter the list of characters considered equivalent. The default are the three characters, "_-^". (The latter is conventional on a Tandem, and I do a lot of work on the Tandem.)
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This is the "allow output files to be writable" option.
This option has some usage constraints. It:
This option will leave output files writable.Normally, output files are read-only.
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This is the "limit on increment loops" option. This option prevents runaway loops. For example, if you accidentally specify, "FOR x (for-from 1) (for-to -1) (for-by 1)", it will take a long time to finish. If you do have more than 256 entries in tables, you will need to specify a new limit with this option.
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This is the "time limit for servers" option.
This option has some usage constraints. It:
SHELL_ENABLED
during the compilation.
AutoGen works with a shell server process. Most normal commands will complete in less than 10 seconds. If, however, your commands need more time than this, use this option.
The valid range is 0 to 3600 seconds (1 hour). Zero will disable the server time limit.
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This is the "tracing level of detail" option. This option will cause AutoGen to display a trace of its template processing. There are five levels:
DEFINE
d macros and INCLUDE
s
IF
, FOR
,
CASE
and WHILE
.
TEXT
macros.
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This is the "tracing output file or filter" option.
The output specified may be either a file name, or, if the option
argument begins with the pipe
operator (|
),
a command that will receive the tracing output as standard in.
For example, --traceout='| less'
will run the trace output
through the less
program.
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This is the "show the definition tree" option.
This option has some usage constraints. It:
DEBUG
during the compilation.
This will print out the complete definition tree before processing the template.
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This is the "show shell commands" option.
This option has some usage constraints. It:
DEBUG
during the compilation.
This will cause set -x
to be executed in the shell, with
the resultant output printed to /dev/tty. This option will have no
effect if `--disable-shell' was specified at configure time.
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This is the "name to add to definition list" option.
This option has some usage constraints. It:
The AutoGen define names are used for the following purposes:
$NAME/
.
The $NAME
part of the name string will be replaced with
the define-d value for NAME
.
putenv(3)
.
These values can then be used in shell scripts with ${NAME}
references and in templates with (getenv "NAME")
.
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This is the "definition list removal pattern" option.
This option has some usage constraints. It:
Just like 'C', AutoGen uses #ifdef/#ifndef
preprocessing
directives. This option will cause the matching names to be
removed from the list of defined values.
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6.1 Configuring AutoGen 6.2 AutoGen as a CGI server 6.3 Signal Names 6.4 Installing AutoGen
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AutoGen is configured and built using Libtool, Automake and Autoconf. Consequently, you can install it whereever you wish using the various `--prefix' options. To the various configuration options supplied by these tools, AutoGen adds a few of its own:
However, doing this without disabling the server shell brings considerable risk. If you were to pass user input to a script that contained, say, the classic "``rm -rf /`'", you might have a problem. This configuration option will cause shell template commands to simply return the command string as the result. No mistakes. Much safer. Strongly recommended. The default is to have server shell scripting enabled.
Disabling the shell will have some build side effects, too.
#include <value>
C preprocessing statement. The path
from the
`--with-header-path=path' will be added to CPPFLAGS
as `-Ipath'.
The lib-specs
from `--with-regex-lib=lib-specs' will be added
to LDFLAGS
without any adornment.
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AutoGen is now capable of acting as a CGI forms server.
It behaves as a CGI server if the definitions input is from stdin
and the environment variable REQUEST_METHOD
is defined
and set to either "GET" or "POST". If set to anything else,
AutoGen will exit with a failure message. When set to one of those
values, the CGI data will be converted to AutoGen definitions
(see section 2. AutoGen Definitions File) and the template named "cgi.tpl
"
will be processed.
This works by including the name of the real template to process
in the form data and having the "cgi.tpl
" template include
that template for processing. I do this for processing the form
http://autogen.sourceforge.net/conftest.html. The "cgi.tpl
"
looks approximately like this:
<? AutoGen5 Template ?> <? IF (not (exist? "template")) ?><? form-error ?><? ELIF (=* (get "template") "/") ?><? form-error ?><? ELIF (define tpl-file (string-append "cgi-tpl/" (get "template"))) (access? tpl-file R_OK) ?><? INCLUDE (. tpl-file) ?><? ELIF (set! tpl-file (string-append tpl-file ".tpl")) (access? tpl-file R_OK) ?><? INCLUDE (. tpl-file) ?><? ELSE ?><? form-error ?><? ENDIF ?> |
This forces the template to be found in the "cgi-tpl/
"
directory. Note also that there is no suffix specified in the
pseudo macro (see section 3.1 Format of the Pseudo Macro). That tells AutoGen to emit
the output to stdout.
The output is actually spooled until it is complete so that, in the case of an error, the output can be discarded and a proper error message can be written in its stead.
Please also note that it is advisable, especially for network
accessible machines, to configure AutoGen (see section 6.1 Configuring AutoGen) with
shell processing disabled (--disable-shell
). That will make it
impossible for any referenced template to hand data to a subshell for
interpretation.
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When AutoGen is first built, it tries to use psignal(3)
,
sys_siglist
, strsigno(3)
and strsignal(3)
from the
host operating system. If your system does not supply these, the
AutoGen distribution will. However, it will use the distributed mapping
and this mapping is unlikely to match what your system uses. This can
be fixed. Once you have installed autogen, the mapping can be rebuilt
on the host operating system. To do so, you must perform the
following steps:
cd ${top_srcdir}/compat
autogen strsignal.def
If you have any problems or peculiarities that cause this process to fail on your platform, please send me copies of the header files containing the signal names and numbers, along with the full path names of these files. I will endeavor to fix it. There is a shell script inside of `strsignal.def' that tries to hunt down the information.
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There are several files that get installed. The number depend
whether or not both shared and archive libraries are to be
installed. The following assumes that everything is installed
relative to $prefix
. You can, of course, use
configure
to place these files where you wish.
NB AutoGen does not contain any compiled-in path names.
All support directories are located via option processing,
the environment variable HOME
or finding the directory where
the executable came from.
The installed files are:
This program, library and supporting files can be installed with three commands:
However, you may wish to insert make check
before the make install
command.
If you do perform a make check
and there are any failures, you
will find the results in <module>/test/FAILURES
. Needless to say, I
would be interested in seeing the contents of those files and any
associated messages. If you choose to go on and analyze one of these
failures, you will need to invoke the test scripts individually. You
may do so by specifying the test (or list of test) in the TESTS make
variable, thus:
gmake TESTS=test-name.test check |
I specify gmake
because most makes will not let you override
internal definitions with command line arguments. gmake
does.
All of the AutoGen tests are written to honor the contents of the VERBOSE environment variable. Normally, any commentary generated during a test run is discarded unless the VERBOSE environment variable is set. So, to see what is happening during the test, you might invoke the following with bash or ksh:
VERBOSE=1 gmake TESTS="for.test forcomma.test" check |
Or equivalently with csh:
env VERBOSE=1 gmake TESTS="for.test forcomma.test" check |
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AutoOpts 19.0 is bundled with AutoGen. It is a tool that virtually eliminates the hassle of processing options and keeping man pages, info docs and usage text up to date. This package allows you to specify several program attributes, up to a hundred option types and many option attributes. From this, it then produces all the code necessary to parse and handle the command line and initialization file options, and the documentation that should go with your program as well.
AutoOpts is distributed under The GNU Lesser General Public License. "Lesser" meaning you have greater license with it and may link it into commercial programs.
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AutoOpts supports option processing; option state saving; and program documentation with innumerable features. Here, we list a few obvious ones and some important ones, but the full list is really defined by all the attributes defined in the 7.3 Option Definitions section.
dis-abled
with a disablement prefix.
Such options may default to either an enabled or a disabled state. You
may also provide an enablement prifix, too, e.g., --allow-mumble
and --prevent-mumble
.
--help
and --version
are automatically supported.
--more-help
will page the generated help.
main()
routines can take advantage of all of AutoOpts' functionality.
test-main
is defined, the output `.c' file will contain a
main routine that will be compiled when TEST_<prog-name>_OPTS
is
defined. See section 7.7 AutoOpts for Shell Scripts. If you choose to compile this program,
it is currently capable of producing one of three results:
test-main
may specify a routine that will be called with a
pointer to the option descriptions as the single argument. You must
supply this routine and, obviously, you can cause it to do whatever you
wish it to do.
#include
-d into the client option definitions
and they specify an "anchor" option that has a callback and must be invoked.
That will give the library access to the option state for their options.
gnu-usage
attribute (see section 7.3.3 Program Information Attributes).
This can be overridden by the user himself with the
AUTOOPTS_USAGE
environment variable. If it exists and is set
to the string gnu
, it will force GNU-ish style format; if it is
set to the string autoopts
, it will force AutoOpts standard
format; otherwise, it will have no effect.
Explanatory details:
loading rc files saving rc files process a text string for options
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homerc
(see section 7.3.1 Program Description Attributes). The initialization values
are identified by the long option name followed by white space and any
associated value. The value, if any, will continue through the end of
the last line not continued with a backslash. Leading and trailing
white space is stripped.
Initialization files are selected both by the homerc
entries and,
optionally, via an automatically supplied command line option. The
first component of the homerc
entry may be an environment
variable such as $HOME
, or it may also be $$
(two
dollar sign characters) to specify the directory of the executable.
For example:
homerc = "$$/../share/autogen"; |
will cause the AutoOpts library to look in the normal autogen datadir for an initialization file.
The initialization files are processed in the order they are specified
by the homerc
attribute, so that each new file will normally
override the settings of the previous files. A few options may be
marked for immediate action
(see section 7.3.4.4 Immediate Action Attributes). Any such
options are acted upon in reverse order. The disabled
load-opts
(--no-load-opts
) option, for example, is an
immediate action option. Its presence in the last homerc
file
will prevent the processing of any prior homerc
files.
Further initialization file processing can be suppressed by
specifying --no-load-opts
on the command line, or
PROGRAM_LOAD_OPTS=no
in the environment, or no-load-opts
in any of the specified homerc
files.
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--save-opts
option.
All of the known option state will be written to either the specified
output file or, if it is not specified, then to the last specified
homerc
file.
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The optionLoadLine
takes two arguments:
Leading and trailing white space is trimmed from the value, but otherwise new lines are not discarded. The caller is expected to have NUL terminated the string at the correct point.
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Since it is generally easier to start with a simple example than it is
to look at the options that AutoGen uses itself, here is a very simple
AutoOpts example. You can copy this example out of the Info file and
into a source file to try it. You can then embellish it into what you
really need. For more extensive examples, you can also examine the help
output and option definitions for the commands columns
,
getdefs
and autogen
itself.
For our simple example, assume you have a program named check
that takes two options:
check
does.
You want this option available as a POSIX-style flag option
and a GNU long option. You want to allow as many of these
as the user wishes.
First, specify your program attributes and its options to AutoOpts, as with the following example.
AutoGen Definitions options; prog-name = check; prog-title = "Checkout Automated Options"; long-opts; test_main; flag = { name = check_dirs; value = L; /* flag style option character */ arg_type = string; /* option argument indication */ max = NOLIMIT; /* occurrence limit (none) */ stack_arg; /* save opt args in a stack */ descrip = "Checkout directory list"; }; flag = { name = show_defs; descrip = "Show the definition tree"; disable = dont; /* mark as enable/disable type */ /* option. Disable as `dont-' */ }; |
Then perform the following steps:
autogen checkopt.def
cc -o check -DTEST_CHECK_OPTS -g checkopt.c -L $prefix/lib -lopts
And now, ./check --help
yields:
check - Checkout Automated Options USAGE: check [-<flag> [<val>]]... [--<name>[{=| }<val>]]... Flg Arg Option-Name Description -L YES check-dirs Checkout directory list - may appear without limit no show-defs Show the definition tree - disabled as --dont-show-defs -? no help Display usage information and exit -! no more-help Extended usage information passed thru pager Options may be specified by doubled markers and their name or by a single marker and the flag character/option value. |
Normally, however, you would compile `checkopt.c' as in:
cc -o checkopt.o -I$prefix/include -c checkopt.c |
and link `checkopt.o' with the rest of your program.
The main program causes the options to be processed
by calling optionProcess
(see section 7.4.28.3 optionProcess):
main( int argc, char** argv ) { { int optct = optionProcess( &checkOptions, argc, argv ); argc -= optct; argv += optct; } |
The options are tested and used as in the following fragment:
if (HAVE_OPT( SHOW_DEFS ) && HAVE_OPT( CHECK_DIRS )) { int dirct = STACKCT_OPT( CHECK_DIRS ); char** dirs = STACKLST_OPT( CHECK_DIRS ); while (dirct-- > 0) { char* dir = *dirs++; ... |
A lot of magic happens to make this happen. The rest of this chapter will describe the myriad of option attributes supported by AutoOpts. However, keep in mind that, in general, you won't need much more than what was described in this "quick start" section.
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AutoOpts uses an AutoGen definitions file for the definitions of the program options and overall configuration attributes. The complete list of program and option attributes is quite extensive, so if you are reading to understand how to use AutoOpts, I recommend reading the "Quick Start" section (see section 7.2 Quick Start) and paying attention to the following:
prog-name
, prog-title
, and argument
, program
attributes, See section 7.3.1 Program Description Attributes.
name
and descrip
option attributes, See section 7.3.4.1 Required Attributes.
value
(flag character) and min
(occurrence counts)
option attributes, See section 7.3.4.2 Common Option Attributes.
arg-type
from the option argument specification section,
See section 7.3.4.6 Option Argument Specification.
Keep in mind that the majority are rarely used and can be safely ignored. However, when you have special option processing requirements, the flexibility is there.
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The following global definitions are used to define attributes of the entire program. These generally alter the configuration or global behavior of the AutoOpts option parser. The first two are required of every program. The rest have been alphabetized. Except as noted, there may be only one copy of each of these definitions:
string->c_name!
(see section 3.5.47 `string->c-name!' - map non-name chars to underscore).
ERRSKIP_OPTERR
and ERRSTOP_OPTERR
from the
generated interface file.
[
), then there is no requirement on the presence or
absence of command line argument following the options. Lastly, if it
is supplied and does not start with an open bracket, then option
processing must not consume all of the command line arguments.
PROGRAM_OPTNAME
, where PROGRAM
is the upper cased
C-name
of the program and OPTNAME
is the upper cased
C-name
of the option. The C-name
s are the regular
names with all special characters converted to underscores (_
).
If a particular option may be disabled, then its disabled state
is indicated by setting the value to the disablement prefix.
So, for example, if the disablement prefix were dont
, then
you can disable the optname
option by setting the
PROGRAM_OPTNAME
' environment variable to `dont'.
See section 7.3.4.2 Common Option Attributes.
#include
directives required by
flag_code
text and shared with other program text.
Do not specify your configuration header (`config.h') in this
attribute or the include
attribute, however. Instead, use
config-header
, below.
.
or `/usr/local/share/progname') or an environment variable (like
`$HOME/rc/' or `$PREFIX/share/progname') or the directory
where the executable was found (`$$[/...]') to use to try to find
the rcfile. Use as many as you like. The presence of this attribute
activates the --save-opts
and --load-opts
options.
See section loading rc files.
flag_code
program text.
long-opts
. If
none of your options specify an option value (flag character) and you do
not specify long-opts
, then command line arguments are processed
in "named option mode". This means that:
-
and --
are completely optional.
argument
program attribute is disallowed.
homerc
attribute.
default: .<prog-name>rc
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AutoOpts can generate the main procedure in certain circumstances. It will do this to help with integrating with the guile library environment, and for creating a program to convert command line options into environment variables for use in processing shell script options and for testing the command line interface.
guile-main
has been specified and if this is specified
as well, then this code will be inserted into the actual main()
procedure before gh_enter()
is called.
optionProcess()
and will
invoke any code specified by this attribute. If this attribute
does not specify any code, then calls to the AutoOpts library procedure
export_options_to_guile()
and then scm_shell()
will
be inserted into inner_main()
.
int main( int argc, char** argv ) { [+ main-text +] return EXIT_SUCCESS; } |
test-main
is short (3 or fewer characters), the
generated main() will call putBourneShell. That routine will emit
Bourne shell commands that can be eval-ed by a Bourne-derived shell to
incorporate the digested options into the shell's environment,
See section 7.7 AutoOpts for Shell Scripts. You would use it thus:
eval "`./programopts $@`" test -z "${OPTION_CT}" ] && exit 1 test ${OPTION_CT} -gt 0 && shift ${OPTION_CT} |
test-main
contains putShellParse
, the
program will generate portable Bourne shell commands that will parse the
command line options. The expectation is that this result will be
copied into a shell script and used there, See section 7.7 AutoOpts for Shell Scripts.
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These attributes are used to define how and what information is displayed to the user of the program.
copyright
is a structured value containing three to five
values. If copyright
is used, then the first three are required.
copyright = { date = "1992-2003"; owner = "Bruce Korb"; eaddr = '[email protected]'; type = GPL; }; |
settable
. The library client program will invoke the
SET_OPTION
macro which will invoke a handler function that will
finally set these global variables.
Every RC file will be considered partitioned by lines that commence with
the square open bracket ([
). All text before such a line is
always processed. Once such a line is found, the upper-cased
c-variable-syntax program name will be compared against the text
following that bracket. If there is a match and the next character
after that is a square close bracket (]
), then the section is
processed and the file closed. Otherwise, the section is ignored and a
matching section is searched for.
For exampe, if the fumble-stumble
options had a sectioned RC file,
then a line containing [FUMBLE_STUMBLE]
would be searched for.
optionUsage()
does not work for you. If you specify
gnu_usage
as the value of this attribute, for example,
you will use a procedure by that name for displaying usage.
Of course, you will need to provide that procedure.
optionUsage
procedure
is AutoOpts Standard. By specifying this attribute, the default format
will be GNU-ish style. Either default may be overridden by the user with
the AUTOOPTS_USAGE
environment variable. If it is set to gnu
or autoopts
, it will alter the style appropriately. This attribute
will conflict with the usage
attribute.
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For each option you wish to specify, you must have a block macro named
flag
defined. There are two required attributes: name
and
descrip
. If any options do not have a value
(traditional flag
character) attribute, then the long-opts
global text macro must also
be defined. As a special exception, if no options have a value
and long-opts
is not defined and argument
is
not defined, then all arguments to the program are named. In this case, the
-
and --
command line option markers are optional.
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Every option must have exactly one copy of both of these attributes.
usage()
output next to the option name. If, however, the
option is a documentation option, it will appear on one or more lines by
itself. It is thus used to visually separate and comment upon groups of
options in the usage text.
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These option attributes are optional. Any that do appear in the definition of a flag, may appear only once.
-L
.
mumble
that is indicated
with the compile time define, WITH_MUMBLING
, then add:
ifdef = WITH_MUMBLING; |
Note that case and spelling must match whatever you are using. Do not confuse these attributes with the AutoGen directives of the same names, See section 2.5 Controlling What Gets Processed. These cause C pre-processing directives to be inserted into the generated C text.
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These option attributes do not fit well with other categories.
TEMPL_DIRS
is a settable option for AutoGen, so a macro named
SET_OPT_TEMPL_DIRS(a)
appears in the interface file. This
attribute interacts with the documentation attribute.
For an option equivalence class, there is a single occurrence counter for all the members of the class. All members of the equivalence class must contain the same equivalenced-to option, including the equivalenced-to option itself. Thus, it must be a member.
As an example, cpio(1)
has three options -o
, -i
,
and -p
that define the operational mode of the program
(create
, extract
and pass-through
, respectively).
They form an equivalence class from which one and only one member must
appear on the command line. If cpio
were an AutoOpt-ed program,
then each of these option definitions would contain:
equivalence = create; |
and the program would be able to determine the operating mode with code that worked something like this:
switch (WHICH_IDX_CREATE) { case INDEX_OPT_CREATE: ... case INDEX_OPT_EXTRACT: ... case INDEX_OPT_PASS_THROUGH: ... default: /* cannot happen */ } |
If present, this option disables all other attributes except
settable
, call_proc
and flag_code
. settable
must be and is only specified if call_proc
or flag_code
has been specified. When present, the descrip
attribute will be
displayed only when the --help
option has been specified. It
will be displayed flush to the left hand margin and may consist of one
or more lines of text. The name of the option will not be printed.
Documentation options are for clarifying the usage text and will not appear in generated man pages or in the generated invoking texinfo doc.
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Certain options may need to be processed early. For example, in order
to suppress the processing of RC files, it is necessary to process the
command line option --no-load-opts
before the RC files
are processed. To accommodate this, certain options may have their
enabled or disabled forms marked for immediate processing. The
consequence of this is that they are processed ahead of all other
options in the reverse of normal order.
Normally, the first options processed are the options specified in the
first homerc
file, followed by then next homerc
file
through to the end of RC file processing. Next, environment variables
are processed and finally, the command line options. The later
options override settings processed earlier. That actually gives them
higher priority. Command line immediate action options actually have
the lowest priority of all. They would be used only if they are to have
an effect on the processing of subsequent options.
help
and more-help
options are so specified. They will also call exit()
upon
completion, so they do have an effect on the processing
of the remaining options :-).
load-opts
option is
so specified. The --no-load-opts
command line option will
suppress the processing of RC files and environment variables.
Contrariwise, the --load-opts
command line option is
processed normally. That means that the options specified in that file
will be processed after all the homerc
files and, in fact, after
options that precede it on the command line.
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These attributes may be used as many times as you need. They are used at the end of the option processing to verify that the context within which each option is found does not conflict with the presence or absence of other options.
This is not a complete cover of all possible conflicts and requirements, but it simple to implement and covers the more common situations.
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Several attributes relate to the handling of arguments to options.
Each may appear only once, except for the arg-range
attribute.
It may appear as often as may be needed.
arg-range
section below for some considerations.
AutoOpts contains a library procedure to convert the string to a number.
If you specify range checking with arg-range
, then AutoOpts
produces a special purpose procedure for this option.
f
, F
, n
or N
(representing False or No). Anything else will be interpreted as True.
optn-name
,
the strings will be converted into an enumeration of type te_Optn_Name
with the values OPTN_NAME_KEYWORD
. If you have not
specified a default value, the value OPTN_NAME_UNDEFINED
will be
inserted with the value zero. The option will be initialized to that
value. You may now use this in your code as follows:
te_Optn_Name opt = OPT_VALUE_OPTN_NAME; switch (opt) { case OPTN_NAME_UNDEFINED: /* undefined things */ break; case OPTN_NAME_KEYWORD: /* `keyword' things */ break; default: /* utterly impossible */ ; } |
AutoOpts produces a special purpose procedure for this option.
arg-type
is keyword
, then you must specify the
list of keywords by a series of keyword
entries. The interface
file will contain an enumeration of <OPTN_NAME>_<KEYWORD>
for
each keyword entry.
string
or keyword
. If it is keyword
, then
this attribute may also specify the default keyword to assume when
the argument is not supplied. If left empty, arg-default or
the zero-valued keyword will be used.
arg-type
specified, but not the arg-optional
attribute. That is to say,
the option argument must be required.
If you have done this, then any arguments that do not match an option
name and do not contain an equal sign (=
) will be interpreted as
an option argument to the default option.
arg-type
is number
, then arg-range
s may be
specified, too. If you specify one or more of these option attributes,
then AutoOpts will create a callback procedure for handling it. The
argument value supplied for the option must match one of the range
entries. Each arg-range should consist of either an integer by itself
or an integer range. The integer range is specified by one or two
integers separated by the two character sequence, ->
.
The generated procedure imposes some constraints:
INT_MIN
,
both for obvious reasons and because
that value is used to indicate a single-valued match.
The usage procedure displays these ranges by calling the callback
with the pOptDesc
pointer set to NULL
. Therefore,
all callback procedures designed to handle options with numeric
arguments must be prepared to handle a call with that
pointer set NULL
.
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AutoOpts will automatically generate a callback procedure for options with enumerated keyword arguments and numeric arguments with range checking. If you have specified such an option, you may not specify any of the attributes listed here.
Otherwise, you may pick zero or one of the following attributes.
The first two attributes interact with the documentation
and
settable
attributes, See section 7.3.4.3 Special Option Handling.
static void doOpt<name>( tOptions* pOptions, tOptDesc* pOptDesc ) { <flag_code> } |
Only certain fields within the tOptions
and tOptDesc
structures may be accessed. See section 7.4.1 Data for Option Processing.
flag_code
, except that the
source is kept in the output file instead of the definitions file.
A long comment is used to demarcate the code. You must not modify
that marker. Before regenerating the option code file,
the old file is renamed from MUMBLE.c to MUMBLE.c.save. The template
will be looking there for the text to copy into the new output file.
doOpt<name>
. It has the same restrictions
regarding the fields within the structures passed in as arguments.
See section 7.4.1 Data for Option Processing.
flag_code
can be executed
when this option is encountered.
STACKCT_OPT(NAME)
) and to obtain a
pointer to a list of pointers to the argument values
(STACKLST_OPT(NAME)
). Obviously, for a stackable argument,
the max
attribute needs to be set higher than 1
.
If two options are equivalenced (see section 7.3.4.3 Special Option Handling) and
specify this attribute, then the "equivalenced-to" option will add
entries to the stack, and the "equivalencing" option, if specified,
will remove entries that match the regular expression argument. The
pattern, ".*
" will efficiently remove all the entries in the
stack. It would not be useful to have more than two options in this
equivalence class.
If the stacked option has a disablement prefix, then the entire
stack of arguments will be cleared even more efficiently than the
".*
" regular expression. A stacked, equivalencing option with
a disablement prefix will cause undefined results.
If all of this is confusing, then don't mess with equivalenced stacked
option arguments. If you really want to know, the AutoGen --define
option (see section 5.20 define option (-D)) has a stacked argument, and --undefine
(see section 5.21 undefine option (-U)) is equivalenced to it.
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AutoOpts includes AutoGen templates for producing abbreviated man pages and for producing the invoking section of an info document. To take advantage of these templates, you must add several attributes to your option definitions.
flag
definition other than "documentation"
definitions, must have a doc
attribute defined. If the option takes
an argument, then it will need an arg-name
attribute as well. The
doc
text should be in plain sentences with minimal formatting. The
Texinfo commands @code
, and @var
will have its enclosed text
made into \fB entries in the man page, and the @file
text
will be made into \fI entries. The arg-name
attribute is
used to display the option's argument in the man page.
Options marked with the "documentation" attribute are for documenting the usage text. All other options should have the "doc" attribute in order to document the usage of the option in the generated man pages.
arg-type
, but
it will likely be clearer with something else like, file-name
instead of string
(the type).
detail
definition, this may be sufficient.
If not, or if you need special formatting for one of the manual formats,
then you will need either a definition for prog-man-descrip
or
prog-info-descrip
or both. These will be inserted verbatim
in the man page document and the info document, respectively.
SEE ALSO
or
USAGE
or other, put that text in a man-doc
definition. This
text will be inserted verbatim in the man page after the OPTIONS
section and before the AUTHOR
section.
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AutoOpts provides automated support for five options. help
and
more-help
are always provided. version
is provided if
version
is defined in the option definitions See section 7.3.1 Program Description Attributes.
save-opts
and load-opts
are provided if at least
one homerc
is defined See section 7.3.1 Program Description Attributes.
Below are the option names and flag values. The flags are activated if and
only if at least one user-defined option also uses a flag value. These
flags may be deleted or changed to characters of your choosing by specifying
xxx-value = "y";
, where xxx
is one of the five names below and
y
is either empty or the character of your choice. For example, to
change the help flag from ?
to h
, specify help-value = "h";
;
and to require that save-opts
be specified only with its long
option name, specify save-opts-value = "";
.
USAGE()
procedure
and display the usage line, a description of each option with
its description and option usage information. This is followed
by the contents of the definition of the detail
text macro.
help
option, except that
it also includes the contents of the detail-file
file
(if provided and found), plus the output is passed through
a pager program. (more
by default, or the program identified
by the PAGER
environment variable.)
c
and a value for copyright
and owner
have
been provided, then the copyright will be printed, too. If it is followed
by the letter n
, then the full copyright notice (if available) will
be printed.
The output file will be the RC/INI file name (default or provided by
rcfile
) in the last directory named in a homerc
definition.
This option may be set from within your program by invoking the
"SET_OPT_SAVE_OPTS(filename)
" macro (see section 7.4.16 SET_OPT_name - Force an option to be set).
Invoking this macro will set the file name for saving the option processing
state, but the state will not actually be saved. You must call
optionSaveFile
to do that (see section 7.4.28.5 optionSaveFile).
CAVEAT: if, after invoking this macro, you call
optionProcess
, the option processing state will be saved to this file
and optionProcess
will not return. You may wish to invoke
CLEAR_OPT( SAVE_OPTS )
(see section 7.4.2 CLEAR_OPT( <NAME> ) - Clear Option Markings) beforehand.
It is ultimately intended that specifying the option,
no-load-opts
will suppress the processing of rc/ini files and
environment variables. To do this, AutoOpts must first implement
pre-scanning of the options, environment and rc files.
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AutoOpts has developed a set of standardized options.
You may incorporate these options in your program simply by first
adding a #define
for the options you want, and then the line,
#include stdoptions.def |
in your option definitions. The supported options are specified thus:
#define DEBUG #define DIRECTORY #define DRY_RUN #define INPUT #define INTERACTIVE #define OUTPUT #define WARN #define SILENT #define QUIET #define BRIEF #define VERBOSE |
By default, only the long form of the option will be available.
To specify the short (flag) form, suffix these names with _FLAG
.
e.g.,
#define DEBUG_FLAG |
--silent
, --quiet
, --brief
and --verbose
are
related in that they all indicate some level of diagnostic output.
These options are all designed to conflict with each other.
Instead of four different options, however, several levels can be
incorporated by #define
-ing VERBOSE_ENUM
. In conjunction
with VERBOSE
, it incorporates the notion of 5 levels in an
enumeration: silent
, quiet
, brief
,
informative
and verbose
; with the default being
brief
.
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The user interface for access to the argument information is completely defined in the generated header file and in the portions of the distributed file "options.h" that are marked "public".
In the following macros, text marked <NAME>
or name
is the name of the option in upper case and segmented
with underscores _
. The macros and enumerations defined in the
options header (interface) file are used as follows:
To see how these #define
macros are used in a program,
the reader is referred to the several `opts.h' files
included with the AutoGen sources.
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This section describes the data that may be accessed from within the
option processing callback routines. The following fields may be used
in the following ways and may be used for read only. The first set is
addressed from the tOptDesc*
pointer:
OPTST_
, e.g. OPTST_INIT
):
SET_OPT()
macro.
optionLoadLine()
routine.
disabled
.)
As an example of how this might be used, in AutoGen I want to allow
template writers to specify that the template output can be left
in a writable or read-only state. To support this, there is a Guile
function named set-writable
(see section 3.4.32 `set-writable' - Make the output file be writable).
Also, I provide for command options --writable
and
--not-writable
. I give precedence to command line and RC
file options, thus:
switch (STATE_OPT( WRITABLE )) { case OPTST_DEFINED: case OPTST_PRESET: fprintf( stderr, zOverrideWarn, pCurTemplate->pzFileName, pCurMacro->lineNo ); break; default: if (gh_boolean_p( set ) && (set == SCM_BOOL_F)) CLEAR_OPT( WRITABLE ); else SET_OPT_WRITABLE; } |
The following two fields are addressed from the tOptions*
pointer:
Note these fields get filled in during the first call to
optionProcess()
. All other fields are private, for the exclusive
use of AutoOpts code and is subject to change.
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Make as if the option had never been specified.
HAVE_OPT(<NAME>)
will yield FALSE
after invoking this macro.
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This macro will tell you how many times the option was specified on the command line. It does not include counts of preset options.
if (COUNT_OPT( NAME ) != desired-count) { make-an-undesirable-message. } |
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This macro is used internally by other AutoOpt macros. It is not for general use. It is used to obtain the option description corresponding to its UPPER CASED option name argument. This is primarily used in other macro definitions.
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This macro is emitted if it is both settable and it can be disabled. If it cannot be disabled, it may always be CLEAR-ed (see above).
The form of the macro will actually depend on whether the
option is equivalenced to another, and/or has an assigned
handler procedure. Unlike the SET_OPT
macro,
this macro does not allow an option argument.
DISABLE_OPT_NAME; |
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Yields true if the option defaults to disabled and
ISUNUSED_OPT()
would yield true. It also yields true if
the option has been specified with a disablement prefix,
disablement value or the DISABLE_OPT_NAME
macro was invoked.
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When it is necessary to continue (return to caller) on option errors, invoke this option. It is reversible. See section 7.4.8 ERRSTOP_OPTERR - Stop on Errors.
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After invoking this macro, if optionProcess()
encounters an error, it will call exit(1)
rather than return.
This is the default processing mode. It can be overridden by
specifying allow-errors
in the definitions file,
or invoking the macro See section 7.4.7 ERRSKIP_OPTERR - Ignore Option Errors.
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This macro yields true if the option has been specified in any fashion at all. It is used thus:
if (HAVE_OPT( NAME )) { <do-things-associated-with-opt-name>; } |
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This macro yields true if the option has been specified either on the command line or via a SET/DISABLE macro.
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This macro yields true if the option has
never been specified, or has been cleared via the
CLEAR_OPT()
macro.
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The full count of all options, both those defined and those generated automatically by AutoOpts. This is primarily used to initialize the program option descriptor structure.
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The option argument value as a pointer to string. Note that argument
values that have been specified as numbers are stored as numbers or
keywords. For such options, use instead the OPT_VALUE_name
define. It is used thus:
if (HAVE_OPT( NAME )) { char* p = OPT_ARG( NAME ); <do-things-with-opt-name-argument-string>; } |
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This macro gets emitted only for options that take numeric or keyword arguments. The macro yields a word-sized integer containing the enumeration or numeric value of the option argument.
int opt_val = OPT_VALUE_NAME; |
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If option processing has stopped (either because of an error
or something was encountered that looked like a program argument),
it can be resumed by providing this macro with the index n
of the next option to process and calling optionProcess()
again.
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This macro gets emitted only when the given
option has the settable
attribute specified.
The form of the macro will actually depend on whether the option is equivalenced to another, has an option argument and/or has an assigned handler procedure. If the option has an argument, then this macro will too. Beware that the argument is not reallocated, so the value must not be on the stack or deallocated in any other way for as long as the value might get referenced.
If you have supplied at least one `homerc' file
(see section 7.3.1 Program Description Attributes), this macro will be emitted for the
--save-opts
option.
SET_OPT_SAVE_OPTS( "filename" ); |
See section 7.3.6 Automatically Supported Options, for a discussion of the implications of using this particular example.
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When the option handling attribute is specified
as stack_arg
, this macro may be used to determine how
many of them actually got stacked.
Do not use this on options that have not been stacked or has not been
specified (the stack_arg
attribute must have been specified,
and HAVE_OPT(<NAME>)
must yield TRUE).
Otherwise, you will likely seg fault.
if (HAVE_OPT( NAME )) { int ct = STACKCT_OPT( NAME ); char** pp = STACKLST_OPT( NAME ); do { char* p = *pp++; do-things-with-p; } while (--ct > 0); } |
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The address of the list of pointers to the option arguments. The pointers are ordered by the order in which they were encountered in the option presets and command line processing.
Do not use this on options that have not been stacked or has not been
specified (the stack_arg
attribute must have been specified,
and HAVE_OPT(<OPTION>)
must yield TRUE).
Otherwise, you will likely seg fault.
if (HAVE_OPT( NAME )) { int ct = STACKCT_OPT( NAME ); char** pp = STACKLST_OPT( NAME ); do { char* p = *pp++; do-things-with-p; } while (--ct > 0); } |
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This is just a shortcut for RESTART_OPT(1) (See section 7.4.15 RESTART_OPT( n ) - Resume Option Processing.)
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If you need to know if an option was set because of
presetting actions (RC/INI processing or environment variables),
versus a command line entry versus one of the SET/DISABLE macros,
then use this macro. It will yield one of four values:
OPTST_INIT
, OPTST_SET
, OPTST_PRESET
or OPTST_DEFINED
. It is used thus:
switch (STATE_OPT( NAME )) { case OPTST_INIT: not-preset, set or on the command line. (unless CLEAR-ed) case OPTST_SET: option set via the SET_OPT_NAME() macro. case OPTST_PRESET: option set via an RC/INI file or environment variable case OPTST_DEFINED: option set via a command line option. default: cannot happen :) } |
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This macro invokes the procedure registered to display
the usage text. Normally, this will be optionUsage
from the
AutoOpts library, but you may select another procedure by specifying
usage = "proc_name"
program attribute. This procedure must
take two arguments first, a pointer to the option descriptor, and
second the exit code. The macro supplies the option descriptor
automatically. This routine is expected to call exit(3)
with
the provided exit code.
The optionUsage
routine also behaves differently depending
on the exit code. If the exit code is zero, it is assumed that
assistance has been requested. Consequently, a little more
information is provided than when displaying usage and exiting
with a non-zero exit code.
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This is a #define for the flag character used to
specify an option on the command line. If value
was not
specified for the option, then it is a unique number associated
with the option. option value
refers to this value,
option argument
refers to the (optional) argument to the
option.
switch (WHICH_OPT_OTHER_OPT) { case VALUE_OPT_NAME: this-option-was-really-opt-name; case VALUE_OPT_OTHER_OPT: this-option-was-really-other-opt; } |
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If the version
attribute is defined for the program,
then a stringified version will be #defined as PROGRAM_VERSION and
PROGRAM_FULL_VERSION. PROGRAM_FULL_VERSION is used for printing
the program version in response to the version option. The version
option is automatically supplied in response to this attribute, too.
You may access PROGRAM_VERSION via programOptions.pzFullVersion
.
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This macro gets emitted only for equivalenced-to options. It is used to obtain the index for the one of the several equivalence class members set the equivalenced-to option.
switch (WHICH_IDX_OTHER_OPT) { case INDEX_OPT_NAME: this-option-was-really-opt-name; case INDEX_OPT_OTHER_OPT: this-option-was-really-other-opt; } |
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This macro gets emitted only for equivalenced-to options. It is used to obtain the value code for the one of the several equivalence class members set the equivalenced-to option.
switch (WHICH_OPT_OTHER_OPT) { case VALUE_OPT_NAME: this-option-was-really-opt-name; case VALUE_OPT_OTHER_OPT: this-option-was-really-other-opt; } |
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This enum defines the complete set of options, both user specified and automatically provided. This can be used, for example, to distinguish which of the equivalenced options was actually used.
switch (pOptDesc->optActualIndex) { case INDEX_OPT_FIRST: stuff; case INDEX_OPT_DIFFERENT: different-stuff; default: unknown-things; } |
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You will not actually need to reference this value, but you need to be
aware that it is there. It is the first value in the option descriptor
that you pass to optionProcess
. It contains a magic number and
version information. Normally, you should be able to work with a more
recent option library than the one you compiled with. However, if the
library is changed incompatibly, then the library will detect the out of
date magic marker, explain the difficulty and exit. You will then need
to rebuild and recompile your option definitions. This has rarely been
necessary.
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These are the routines that libopts users may call directly from their code. There are several other routines that can be called by code generated by the libopts option templates, but they are not to be called from any other user code. The `options.h' is fairly clear about this, too.
7.4.28.1 optionFree 7.4.28.2 optionLoadLine 7.4.28.3 optionProcess 7.4.28.4 optionRestore 7.4.28.5 optionSaveFile 7.4.28.6 optionSaveState 7.4.28.7 optionVersion
This subsection was automatically generated by AutoGen using extracted information and the aginfo3.tpl template.
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free allocated option processing memory
Usage:
optionFree( pOpts ); |
Name | Type | Description | |
----- | ----- | ------------- | |
pOpts | tOptions* |
program options descriptor |
AutoOpts sometimes allocates memory and puts pointers to it in the option state structures. This routine deallocates all such memory.
As long as memory has not been corrupted, this routine is always successful.
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process a string for an option name and value
Usage:
optionLoadLine( pOpts, pzLine ); |
Name | Type | Description | |
----- | ----- | ------------- | |
pOpts | tOptions* |
program options descriptor | |
pzLine | const char* |
NUL-terminated text |
This is a user callable routine for setting options from, for example, the contents of a file that they read in. Only one option may appear in the text. It will be treated as a normal (non-preset) option.
When passed a pointer to the option struct and a string, it will find the option named by the first token on the string and set the option argument to the remainder of the string. The caller must NUL terminate the string. Any embedded new lines will be included in the option argument.
Invalid options are silently ignored. Invalid option arguments will cause a warning to print, but the function should return.
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this is the main option processing routine
Usage:
int res = optionProcess( pOpts, argc, argv ); |
Name | Type | Description | |
----- | ----- | ------------- | |
pOpts | tOptions* |
program options descriptor | |
argc | int |
program arg count | |
argv | char** |
program arg vector | |
returns | int | the count of the arguments processed |
This is the main entry point for processing options. It is intended that this procedure be called once at the beginning of the execution of a program. Depending on options selected earlier, it is sometimes necessary to stop and restart option processing, or to select completely different sets of options. This can be done easily, but you generally do not want to do this.
The number of arguments processed always includes the program name. If one of the arguments is "--", then it is counted and the processing stops. If an error was encountered and errors are to be tolerated, then the returned value is the index of the argument causing the error.
Errors will cause diagnostics to be printed. exit(3)
may
or may not be called. It depends upon whether or not the options
were generated with the "allow-errors" attribute, or if the
ERRSKIP_OPTERR or ERRSTOP_OPTERR macros were invoked.
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restore option state from memory copy
Usage:
optionRestore( pOpts ); |
Name | Type | Description | |
----- | ----- | ------------- | |
pOpts | tOptions* |
program options descriptor |
Copy back the option state from saved memory. The allocated memory is left intact, so this routine can be called repeatedly without having to call optionSaveState again.
If you have not called optionSaveState
before, a diagnostic is
printed to stderr
and exit is called.
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saves the option state to a file
Usage:
optionSaveFile( pOpts ); |
Name | Type | Description | |
----- | ----- | ------------- | |
pOpts | tOptions* |
program options descriptor |
This routine will save the state of option processing to a file. The name
of that file can be specified with the argument to the --save-opts
option, or by appending the rcfile
attribute to the last
homerc
attribute. If no rcfile
attribute was specified, it
will default to .programnamerc
. If you wish to specify another
file, you should invoke the SET_OPT_SAVE_OPTS( filename )
macro.
If no homerc
file was specified, this routine will silently return
and do nothing. If the output file cannot be created or updated, a message
will be printed to stderr
and the routine will return.
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saves the option state to memory
Usage:
optionSaveState( pOpts ); |
Name | Type | Description | |
----- | ----- | ------------- | |
pOpts | tOptions* |
program options descriptor |
This routine will allocate enough memory to save the current option processing state. If this routine has been called before, that memory will be reused. You may only save one copy of the option state. This routine may be called before optionProcess(3).
If it fails to allocate the memory, it will print a message to stderr and exit. Otherwise, it will always succeed.
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return the compiled AutoOpts version number
Usage:
const char* res = optionVersion(); |
Name | Type | Description | |
----- | ----- | ------------- | |
returns | const char* | the version string in constant memory |
Returns the full version string compiled into the library. The returned string cannot be modified.
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This is the module that is to be compiled and linked with your program.
It contains internal data and procedures subject to change. Basically,
it contains a single global data structure containing all the
information provided in the option definitions, plus a number of static
strings and any callout procedures that are specified or required. You
should never have need for looking at this, except, perhaps, to examine
the code generated for implementing the flag_code
construct.
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There are actually several levels of "using" autoopts. Which you choose depends upon how you plan to distribute (or not) your application.
7.6.1 local-only use 7.6.2 binary distro, AutoOpts not installed 7.6.3 binary distro, AutoOpts pre-installed 7.6.4 source distro, AutoOpts pre-installed 7.6.5 source distro, AutoOpts not installed
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To use AutoOpts in your application where you do not have to worry about distribution issues, your issues are simple and few.
myopts.h
)
and the option descriptor code (myopts.c
):
autogen myopts.def |
#include "myopts.h"
.
#define ARGC_MIN some-lower-limit #define ARGC_MAX some-upper-limit main( int argc, char** argv ) { { int arg_ct = optionProcess( &myprogOptions, argc, argv ); argc -= arg_ct; if ((argc < ARGC_MIN) || (argc > ARGC_MAX)) { fprintf( stderr, "%s ERROR: remaining args (%d) " "out of range\n", myprogOptions.pzProgName, argc ); USAGE( EXIT_FAILURE ); } argv += arg_ct; } if (HAVE_OPT(OPTN_NAME)) respond_to_optn_name(); ... } |
myopts.c -I$prefix/include -L $prefix/lib -lopts |
These values can be derived from the "autoopts-config" script:
myopts.c `autoopts-config cflags` `autoopts-config ldflags` |
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If you will be distributing (or copying) your project to a system that does not have AutoOpts installed, you will need to statically link the AutoOpts library, "libopts" into your program. Add the output from the following to your link command:
autoopts-config static-libs |
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If you will be distributing (or copying) your project to a system that
does have AutoOpts installed, you will still need to ensure that the library
is findable at program load time, or you will still have to statically
link. The former can be accomplished by linking your project with
--rpath
or by setting the LD_LIBRARY_PATH
appropriately.
Otherwise, See section 7.6.2 binary distro, AutoOpts not installed.
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If you will be distributing your project to a system that will build your product but it may not be pre-installed with AutoOpts, you will need to do some configuration checking before you start the build. Assuming you are willing to fail the build if AutoOpts has not been installed, you will still need to do a little work.
AutoOpts is distributed with a configuration check M4 script,
`autoopts.m4'. It will add an autoconf
macro named,
AG_PATH_AUTOOPTS
. Add this to your `configure.ac' script
and use the following substitution values:
AUTOGEN
AUTOGEN_TPLIB
AUTOOPTS_CFLAGS
AUTOOPTS_LIBS
libopts
library
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If you will be distributing your project to a system that will build
your product but it may not be pre-installed with AutoOpts, you may
wish to incorporate the sources for libopts
in your project.
To do this, I recommend reading the tear-off libopts library
`README' that you can find in the `pkg/libopts' directory.
You can also examine an example package (blocksort) that incorporates
this tear off library in the autogen distribution directory. There is
also a web page that describes what you need to do:
http://autogen.sourceforge.net/blocksort.html |
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AutoOpts may be used with shell scripts by automatically creating a complete program that will process command line options and pass back the results to the invoking shell by issuing shell variable assignment commands. It may also be used to generate portable shell code that can be inserted into your script.
The functionality of these features, of course, is somewhat constrained compared with the normal program facilities. Specifically, you cannot invoke callout procedures with either of these methods. Additionally, if you generate a shell script:
Both of these methods are enabled by running AutoGen on the definitions file with the additional global attribute:
test-main [ = proc-to-call ] ; |
If you do not supply a proc-to-call
, it will default
to putBourneShell
. That will produce a program that
will process the options and generate shell text for the
invoking shell to interpret. If you supply the name,
putShellParse
, then you will have a program that
will generate a shell script that can parse the options.
If you supply a different procedure name, you will have to
provide that routine and it may do whatever you like.
In summary, you will need to issue approximately the following two commands to have a working program:
autogen -L <opt-template-dir> program.def cc -o progopts -L <opt-lib-dir> -I <opt-include-dir> \ -DTEST_program_OPTS program.c -lopts |
The resulting program can be used within your shell script as follows:
eval `./progopts $@` if [ -z "${OPTION_CT}" ] ; then exit 1 ; fi shift ${OPTION_CT} |
If you had used test-main = putShellParse
instead, then you can,
at this point, merely run the program and it will write the parsing
script to standard out. You may also provide this program with command
line options to specify the shell script file to create or edit, and you
may specify the shell program to use on the first shell script line.
That program's usage text would look something like this:
genshellopt - Generate Shell Option Processing Script - Ver. 1 USAGE: genshellopt [ -<flag> [<val>] | --<name>[{=| }<val>] ]... Flg Arg Option-Name Description -o Str script Output Script File -s Str shell Shell name (follows "#!" magic) - disabled as --no-shell - enabled by default -v opt version Output version information and exit -? no help Display usage information and exit -! no more-help Extended usage information passed thru pager Options are specified by doubled hyphens and their name or by a single hyphen and the flag character. Note that `shell' is only useful if the output file does not already exist. If it does, then the shell name and optional first argument will be extracted from the script file. If the script file already exists and contains Automated Option Processing text, the second line of the file through the ending tag will be replaced by the newly generated text. The first `#!' line will be regenerated. please send bug reports to: [email protected] = = = = = = = = This incarnation of genshell will produce a shell script to parse the options for getdefs: getdefs - AutoGen Definition Extraction Tool - Ver. 1.4 USAGE: getdefs [ <option-name>[{=| }<val>] ]... Arg Option-Name Description Str defs-to-get Regexp to look for after the "/*=" opt ordering Alphabetize or use named file Num first-index The first index to apply to groups Str input Input file to search for defs Str subblock subblock definition names Str listattr attribute with list of values opt filelist Insert source file names into defs Str assign Global assignments Str common-assign Assignments common to all blocks Str copy File(s) to copy into definitions opt srcfile Insert source file name into each def opt linenum Insert source line number into each def Str output Output file to open opt autogen Invoke AutoGen with defs Str template Template Name Str agarg AutoGen Argument Str base-name Base name for output file(s) opt version Output version information and exit no help Display usage information and exit no more-help Extended usage information passed thru pager opt save-opts Save the option state to an rc file Str load-opts Load options from an rc file All arguments are named options. If no ``input'' argument is provided or is set to simply "-", and if ``stdin'' is not a ``tty'', then the list of input files will be read from ``stdin''. please send bug reports to: [email protected] |
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AutoOpts provides two templates for producing `.texi' documentation. `aginfo.tpl' for the invoking section, and `aginfo3.tpl' for describing exported library functions and macros.
For both types of documents, the documentation level is selected by passing a `-DLEVEL=<level-name>' argument to AutoGen when you build the document. (See the example invocation below.)
Two files will be produced, a `.texi' file and a `.menu' file. You should include the `.menu' file in your document where you wish to reference the `invoking' chapter, section or subsection.
The `.texi' file will contain an introductory paragraph, a menu and a subordinate section for the invocation usage and for each documented option. The introductory paragraph is normally the boiler plate text, along the lines of:
This chapter documents the @file{AutoOpts} generated usage text and option meanings for the @file{your-program} program. |
or:
These are the publicly exported procedures from the libname library. Any other functions mentioned in the header file are for the private use of the library. |
7.8.1 "invoking" info docs 7.8.2 library info docs
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Using the option definitions for an AutoOpt client program, the `aginfo.tpl' template will produce texinfo text that documents the invocation of your program. The text emitted is designed to be included in the full texinfo document for your product. It is not a stand-alone document. The usage text for the 5.1 autogen usage help (-?), 8.5.1 getdefs usage help and 8.4.1 columns usage help (-?) programs, are included in this document and are all generated using this template.
If your program's option definitions include a `prog-info-descrip' section, then that text will replace the boilerplate introductory paragraph.
These files are produced by invoking the following command:
autogen -L ${prefix}/share/autogen -T aginfo.tpl \ -DLEVEL=section your-opts.def |
Where `${prefix}' is the AutoGen installation prefix and `your-opts.def' is the name of your product's option definition file.
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The `texinfo' doc for libraries is derived from mostly the same
information as is used for producing man pages See section 7.9.2 library man pages. The main
difference is that there is only one output file and the individual
functions are referenced from a .texi
menu. There is also
a small difference in the global attributes used:
lib_description | A description of the library. This text appears before the menu. If not provided, the standard boilerplate version will be inserted. | |
see_also | The SEE ALSO functionality is not supported for the
`texinfo' documentation, so any see_also attribute will be ignored.
|
These files are produced by invoking the following commands:
getdefs linenum srcfile template=aginfo3.tpl output=libexport.def \ <source-file-list> autogen -L ${prefix}/share/autogen -DLEVEL=section libexport.def |
Where `${prefix}' is the AutoGen installation prefix and `libexport.def' is some name that suits you.
An example of this can be seen in this document, See section 7.4.28 libopts External Procedures.
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AutoOpts provides two templates for producing man pages. The command (`man1') pages are derived from the options definition file, and the library (`man3') pages are derived from stylized comments (see section 8.5 Invoking getdefs).
7.9.1 command line man pages 7.9.2 library man pages
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Using the option definitions for an AutoOpt client program, the `agman1.tpl' template will produce an nroff document suitable for use as a `man(1)' page document for a command line command. The description section of the document is either the `prog-man-descrip' text, if present, or the `detail' text.
Each option in the option definitions file is fully documented
in its usage. This includes all the information documented
above for each option (see section 7.3.4 Option Attributes), plus
the `doc' attribute is appended. Since the `doc'
text is presumed to be designed for texinfo
documentation,
sed
is used to convert some constructs from texi
to nroff
-for-man
-pages. Specifically,
convert @code, @var and @samp into \fB...\fP phrases convert @file into \fI...\fP phrases Remove the '@' prefix from curly braces Indent example regions Delete the example commands Replace `end example' command with ".br" Replace the `@*' command with ".br" |
This document is produced by invoking the following command:
AutoGen -L ${prefix}/share/autogen -T agman1.tpl options.def |
Where `${prefix}' is the AutoGen installation prefix and `options.def' is the name of your product's option definition file. I do not use this very much, so any feedback or improvements would be greatly appreciated.
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Two global definitions are required, and then
one library man page is produced for each export_func
definition
that is found. It is generally convenient to place these definitions
as `getdefs' comments (see section 8.5 Invoking getdefs) near the procedure
definition, but they may also be a separate AutoGen definitions file
(see section 2. AutoGen Definitions File). Each function will be cross referenced
with their sister functions in a `SEE ALSO' section. A global
see_also
definition will be appended to this cross referencing text.
The two global definitions required are:
library | This is the name of your library, without the `lib' prefix.
The AutoOpts library is named `libopts.so...', so the library
attribute would have the value opts .
| |
header | Generally, using a library with a compiled program entails
#include -ing a header file. Name that header with this attribute.
In the case of AutoOpts, it is generated and will vary based on the
name of the option definition file. Consequently, `your-opts.h' is
specified.
|
The export_func
definition should contain the following attributes:
name | The name of the procedure the library user may call. | |
what | A brief sentence describing what the procedure does. | |
doc | A detailed description of what the procedure does. It may ramble on for as long as necessary to properly describe it. | |
err | A short description of how errors are handled. | |
ret_type | The data type returned by the procedure.
Omit this for void procedures.
| |
ret_desc | Describe what the returned value is, if needed. | |
private | If specified, the function will not be documented. This is used, for example, to produce external declarations for functions that are not available for public use, but are used in the generated text. | |
arg | This is a compound attribute that contains: |
arg_type | The data type of the argument. | ||
arg_name | A short name for it. | ||
arg_desc | A brief description. |
As a `getdefs' comment, this would appear something like this:
/*=--subblock=arg=arg_type,arg_name,arg_desc =*/ /*=* * library: opts * header: your-opts.h =*/ /*=export_func optionProcess * * what: this is the main option processing routine * arg: + tOptions* + pOpts + program options descriptor + * arg: + int + argc + program arg count + * arg: + char** + argv + program arg vector + * ret_type: int * ret_desc: the count of the arguments processed * * doc: This is what it does. * err: When it can't, it does this. =*/ |
Note the subblock
and library
comments.
subblock
is an embedded `getdefs'
option (see section 8.5.6 subblock option) that tells it how to parse the
arg
attribute. The library
and header
entries
are global definitions that apply to all the documented functions.
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This chapter includes several programs that either work closely with AutoGen (extracting definitions or providing special formatting functions), or leverage off of AutoGen technology. There is also a formatting library that helps make AutoGen possible.
AutoOpts ought to appear in this list as well, but since it is the primary reason why many people would even look into AutoGen at all, I decided to leave it in the list of chapters.
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The templates to generate a finite state machine in C or C++ is included with AutoGen. The documentation is not. The documentation is in HTML format for viewing, or you can download FSM.
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The templates and NFSv4 definitions are not included with AutoGen in any way.
The folks that designed NFSv4 noticed that much time and bandwidth was
wasted sending queries and responses when many of them could be bundled.
The protocol bundles the data, but there is no support for it in rpcgen.
That means you have to write your own code to do that. Until now.
Download this and you will have a large, complex example of how to use
AutoXDR
for generating the marshalling and unmarshalling of combined
RPC calls. There is a brief example
on the web, but
you should download AutoXDR.
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Large software development projects invariably have a need to manage the distribution and display of state information and state changes. In other words, they need to manage their software events. Generally, each such project invents its own way of accomplishing this and then struggles to get all of its components to play the same way. It is a difficult process and not always completely successful. This project helps with that.
AutoEvents completely separates the tasks of supplying the data needed for a particular event from the methods used to manage the distribution and display of that event. Consequently, the programmer writing the code no longer has to worry about that part of the problem. Likewise the persons responsible for designing the event management and distribution no longer have to worry about getting programmers to write conforming code.
This is a work in progress. See my web page on the subject, if you are interested. I have some useful things put together, but it is not ready to call a product.
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This program was designed for the purpose of generating compact, columnized tables. It will read a list of text items from standard in or a specified input file and produce a columnized listing of all the non-blank lines. Leading white space on each line is preserved, but trailing white space is stripped. Methods of applying per-entry and per-line embellishments are provided. See the formatting and separation arguments below.
This program is used by AutoGen to help clean up and organize its output.
See `autogen/agen5/fsm.tpl' and the generated output `pseudo-fsm.h'.
This function was not implemented as an expression function because either it would have to be many expression functions, or a provision would have to be added to provide options to expression functions. Maybe not a bad idea, but it is not being implemented at the moment.
A side benefit is that you can use it outside of AutoGen to columnize
input, a la the ls
command.
This section was generated by AutoGen, the aginfo template and the option descriptions for the columns program. It documents the columns usage text and option meanings.
This software is released under the GNU General Public License.
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This is the automatically generated usage text for columns:
@exampleindent 0
columns - Columnize Input Text - Ver. 1.1 USAGE: columns [ -<flag> [<val>] | --<name>[{=| }<val>] ]... Flg Arg Option-Name Description -W Num width Maximum Line Width -c Num columns Desired number of columns -w Num col-width Set width of each column Num spread maximum spread added to column width -I Str indent Line prefix or indentation Str first-indent First line prefix - requires these options: indent Num tab-width tab width -s opt sort Sort input text -f Str format Formatting string for each input -S Str separation Separation string - follows all but last Str line-separation string at end of all lines but last no by-columns Print entries in column order -i Str input Input file (if not stdin) -v opt version Output version information and exit -? no help Display usage information and exit -! no more-help Extended usage information passed thru pager Options are specified by doubled hyphens and their name or by a single hyphen and the flag character. This program was designed for the purpose of generating compact, columnized tables. It will read a list of text items from standard in or a specified input file and produce a columnized listing of all the non-blank lines. Leading white space on each line is preserved, but trailing white space is stripped. Methods of applying per-entry and per-line embellishments are provided. See the formatting and separation arguments below. This program is used by AutoGen to help clean up and organize its output. please send bug reports to: [email protected] |
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This is the "maximum line width" option. This option specifies the full width of the output line, including any start-of-line indentation. The output will fill each line as completely as possible, unless the column width has been explicitly specified. If the maximum width is less than the length of the widest input, you will get a single column of output.
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This is the "desired number of columns" option. Use this option to specify exactly how many columns to produce. If that many columns will not fit within line_width, then the count will be reduced to the number that fit.
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This is the "set width of each column" option. Use this option to specify exactly how many characters are to be allocated for each column. If it is narrower than the widest entry, it will be over-ridden with the required width.
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This is the "maximum spread added to column width" option. Use this option to specify exactly how many characters may be added to each column. It allows you to prevent columns from becoming too far apart.
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This is the "line prefix or indentation" option. If a number, then this many spaces will be inserted at the start of every line. Otherwise, it is a line prefix that will be inserted at the start of every line.
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This is the "first line prefix" option.
This option has some usage constraints. It:
If a number, then this many spaces will be inserted at the start of the first line. Otherwise, it is a line prefix that will be inserted at the start of that line.
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This is the "tab width" option. If an indentation string contains tabs, then this value is used to compute the ending column of the prefix string.
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This is the "sort input text" option.
Causes the input text to be sorted. If an argument is supplied,
it is presumed to be a pattern and the sort is based upon the
matched text. If the pattern starts with or consists of
an asterisk (*
), then the sort is case insensitive.
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This is the "formatting string for each input" option.
If you need to reformat each input text, the argument to this
option is interpreted as an sprintf(3)
format that is used
to produce each output entry.
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This is the "separation string - follows all but last" option. Use this option if, for example, you wish a comma to appear after each entry except the last.
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This is the "string at end of all lines but last" option. Use this option if, for example, you wish a backslash to appear at the end of every line, except the last.
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This is the "print entries in column order" option. Normally, the entries are printed out in order by rows and then columns. This option will cause the entries to be ordered within columns. The final column, instead of the final row, may be shorter than the others.
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This is the "input file (if not stdin)" option.
This program normally runs as a filter
, reading from standard
input, columnizing and writing to standard out. This option redirects
input to a file.
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input
argument is provided or is set to simply "-", and if
stdin
is not a tty
, then the list of input files will be
read from stdin
.
This program extracts AutoGen definitions from a list of source files.
Definitions are delimited by `/*=<entry-type> <entry-name>\n' and `=*/\n'.
From that, this program creates a definition of the following form:
#line nnn "source-file-name" entry_type = { name = entry_name; ... }; |
The ellipsis "..." is filled in by text found between the two delimiters, using the following rules:
* mumble: * " this is some\n" * " indented text." |
#ifdef if_name #line nnn "source-file-name" entry_type = { name = entry_name; ... }; #endif |
subblock
option, you can specify a nested
value, See section 8.5.6 subblock option. That is, this text:
* arg: int, this, what-it-is |
with the `--subblock=arg=type,name,doc' option would yield:
arg = { type = int; name = this; doc = what-it-is; }; |
This section was generated by AutoGen, the aginfo template and the option descriptions for the getdefs program. It documents the getdefs usage text and option meanings.
This software is released under the GNU General Public License.
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This is the automatically generated usage text for getdefs:
@exampleindent 0
getdefs - AutoGen Definition Extraction Tool - Ver. 1.4 USAGE: getdefs [ <option-name>[{=| }<val>] ]... Arg Option-Name Description Str defs-to-get Regexp to look for after the "/*=" opt ordering Alphabetize or use named file - disabled as --no-ordering - enabled by default Num first-index The first index to apply to groups Str input Input file to search for defs - may appear multiple times - default option for unnamed options Str subblock subblock definition names - may appear multiple times Str listattr attribute with list of values - may appear multiple times opt filelist Insert source file names into defs Definition insertion options Arg Option-Name Description Str assign Global assignments - may appear multiple times Str common-assign Assignments common to all blocks - may appear multiple times Str copy File(s) to copy into definitions - may appear multiple times opt srcfile Insert source file name into each def opt linenum Insert source line number into each def Definition output disposition options: Arg Option-Name Description Str output Output file to open - an alternate for autogen opt autogen Invoke AutoGen with defs - disabled as --no-autogen - enabled by default Str template Template Name Str agarg AutoGen Argument - prohibits these options: output - may appear multiple times Str base-name Base name for output file(s) - prohibits these options: output Auto-supported Options: Arg Option-Name Description opt version Output version information and exit no help Display usage information and exit no more-help Extended usage information passed thru pager opt save-opts Save the option state to an rc file Str load-opts Load options from an rc file - disabled as --no-load-opts - may appear multiple times All arguments are named options. If no ``input'' argument is provided or is set to simply "-", and if ``stdin'' is not a ``tty'', then the list of input files will be read from ``stdin''. The following option preset mechanisms are supported: - reading file /dev/null This program extracts AutoGen definitions from a list of source files. Definitions are delimited by `/*=<entry-type> <entry-name>\n' and `=*/\n'. From that, this program creates a definition of the following form: #line nnn "source-file-name" entry_type = { name = entry_name; ... }; The ellipsis '...' is filled in by text found between the two delimiters, with everything up through the first sequence of asterisks deleted on every line. There are two special ``entry types'': * The entry_type enclosure and the name entry will be omitted and the ellipsis will become top-level definitions. -- The contents of the comment must be a single getdefs option. The option name must follow the double hyphen and its argument will be everything following the name. This is intended for use with the ``subblock'' and ``listattr'' options. please send bug reports to: [email protected] |
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This is the "regexp to look for after the "/*="" option.
If you want definitions only from a particular category, or even
with names matching particular patterns, then specify this regular
expression for the text that must follow the /*=
.
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This is the "alphabetize or use named file" option.
This option has some usage constraints. It:
By default, ordering is alphabetical by the entry name. Use,
no-ordering
if order is unimportant. Use ordering
with no argument to order without case sensitivity. Use
ordering=<file-name>
if chronological order is important.
getdefs will maintain the text content of file-name
.
file-name
need not exist.
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This is the "the first index to apply to groups" option. By default, the first occurrance of a named definition will have an index of zero. Sometimes, that needs to be a reserved value. Provide this option to specify a different starting point.
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This is the "input file to search for defs" option.
This option has some usage constraints. It:
All files that are to be searched for definitions must be named on
the command line or read from stdin
. If there is only one
input
option and it is the string, "-", then the input file
list is read from stdin
. If a command line argument is not
an option name and does not contain an assignment operator
(=
), then it defaults to being an input file name.
At least one input file must be specified.
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This is the "subblock definition names" option.
This option has some usage constraints. It:
This option is used to create shorthand entries for nested definitions. For example, with:
--subblock=arg=argname,type,null
arg
thus
arg: this, char *
arg = { argname = this; type = "char *"; };
arg = { argname = mumble; null = "yes"; };
.
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This is the "attribute with list of values" option.
This option has some usage constraints. It:
This option is used to create shorthand entries for definitions
that generally appear several times. That is, they tend to be
a list of values. For example, with:
listattr=foo
defined, the text:
foo: this, is, a, multi-list
will then expand to:
foo = 'this', 'is', 'a', 'multi-list';
The texts are separated by the commas, with the
white space removed. You may use characters other than commas by
starting the value string with a punctuation character other than
a single or double quote character.
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This is the "insert source file names into defs" option. Inserts the name of each input file into the output definitions. If no argument is supplied, the format will be:
infile = '%s'; |
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This is the "global assignments" option.
This option has some usage constraints. It:
The argument to each copy of this option will be inserted into the output definitions, with only a semicolon attached.
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This is the "assignments common to all blocks" option.
This option has some usage constraints. It:
The argument to each copy of this option will be inserted into each output definition, with only a semicolon attached.
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This is the "file(s) to copy into definitions" option.
This option has some usage constraints. It:
The content of each file named by these options will be inserted into the output definitions.
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This is the "insert source file name into each def" option. Inserts the name of the input file where a definition was found into the output definition. If no argument is supplied, the format will be:
srcfile = '%s'; |
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This is the "insert source line number into each def" option. Inserts the line number in the input file where a definition was found into the output definition. If no argument is supplied, the format will be:
linenum = '%s'; |
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This is the "output file to open" option.
This option has some usage constraints. It:
If you are not sending the output to an AutoGen process, you may name an output file instead.
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This is the "invoke autogen with defs" option.
This option has some usage constraints. It:
This is the default output mode. Specifying no-autogen
is
equivalent to output=-
. If you supply an argument to this
option, that program will be started as if it were AutoGen and
its standard in will be set to the output definitions of this program.
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This is the "template name" option. Specifies the template name to be used for generating the final output.
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This is the "autogen argument" option.
This option has some usage constraints. It:
This is a pass-through argument. It allows you to specify any arbitrary argument to be passed to AutoGen.
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This is the "base name for output file(s)" option.
This option has some usage constraints. It:
When output is going to AutoGen, a base name must either be supplied
or derived. If this option is not supplied, then it is taken from
the template
option. If that is not provided either, then
it is set to the base name of the current directory.
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template
"
The base-name for the output will similarly be either:
The definitions derived from XML generally have an extra layer of definition. Specifically, this XML input:
<mumble attr="foo"> mumble-1 <grumble> grumble, grumble, grumble. </grumble>mumble, mumble </mumble> |
mumble = { grumble = { text = 'grumble, grumble, grumble'; }; text = 'mumble-1'; text = 'mumble, mumble'; }; |
grumble = 'grumble, grumble, grumble.'; |
This section was generated by AutoGen, the aginfo template and the option descriptions for the xml2ag program. It documents the xml2ag usage text and option meanings.
This software is released under the GNU General Public License.
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This is the automatically generated usage text for xml2ag:
@exampleindent 0
xml2ag - XML to AutoGen Definiton Converter - Ver. 5.5.4 USAGE: xml2ag [ -<flag> [<val>] | --<name>[{=| }<val>] ]... [ <def-file> ] Flg Arg Option-Name Description -O Str output Output file in lieu of AutoGen processing -L Str templ-dirs Template search directory list - may appear multiple times -T Str override-tpl Override template file -l Str lib-template Library template file - may appear multiple times -b Str base-name Base name for output file(s) Str definitions Definitions input file -S Str load-scheme Scheme code file to load -F Str load-functions Load scheme callout library -s Str skip-suffix Omit the file with this suffix - may appear multiple times -o opt select-suffix specify this output suffix - may appear multiple times no source-time set mod times to latest source Str equate characters considered equivalent no writable Allow output files to be writable - disabled as --not-writable Num loop-limit Limit on increment loops it must lie in one of the ranges: -1 exactly, or 1 to 16777216 -t Num timeout Time limit for servers it must lie in the range: 0 to 3600 KWd trace tracing level of detail Str trace-out tracing output file or filter no show-defs Show the definition tree no show-shell Show shell commands -D Str define name to add to definition list - may appear multiple times -U Str undefine definition list removal pattern - an alternate for define -v opt version Output version information and exit -? no help Display usage information and exit -! no more-help Extended usage information passed thru pager Options are specified by doubled hyphens and their name or by a single hyphen and the flag character. This program will convert any arbitrary XML file into equivalent AutoGen definitions, and invoke AutoGen. The valid trace option keywords are: nothing templates block-macros expressions everything The template will be derived from either: * the ``--override-tpl'' command line option * a top level XML attribute named, "template" The ``base-name'' for the output will similarly be either: * the ``--base-name'' command line option * the base name of the .xml file please send bug reports to: [email protected] |
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This is the "output file in lieu of autogen processing" option. By default, the output is handed to an AutoGen for processing. However, you may save the definitions to a file instead.
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This is the "template search directory list" option.
This option has some usage constraints. It:
Pass-through AutoGen argument
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This is the "override template file" option. Pass-through AutoGen argument
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This is the "library template file" option.
This option has some usage constraints. It:
Pass-through AutoGen argument
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This is the "base name for output file(s)" option. Pass-through AutoGen argument
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This is the "definitions input file" option. Pass-through AutoGen argument
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This is the "scheme code file to load" option. Pass-through AutoGen argument
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This is the "load scheme callout library" option. Pass-through AutoGen argument
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This is the "omit the file with this suffix" option.
This option has some usage constraints. It:
Pass-through AutoGen argument
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This is the "specify this output suffix" option.
This option has some usage constraints. It:
Pass-through AutoGen argument
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This is the "set mod times to latest source" option. Pass-through AutoGen argument
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This is the "characters considered equivalent" option. Pass-through AutoGen argument
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This is the "allow output files to be writable" option. Pass-through AutoGen argument
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This is the "limit on increment loops" option. Pass-through AutoGen argument
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This is the "time limit for servers" option. Pass-through AutoGen argument
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This is the "tracing level of detail" option. Pass-through AutoGen argument
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This is the "tracing output file or filter" option. Pass-through AutoGen argument
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This is the "show the definition tree" option. Pass-through AutoGen argument
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This is the "show shell commands" option. Pass-through AutoGen argument
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This is the "name to add to definition list" option.
This option has some usage constraints. It:
Pass-through AutoGen argument
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This is the "definition list removal pattern" option.
This option has some usage constraints. It:
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Using the `printf' formatting routines in a portable fashion has always been a pain, and this package has been way more pain than anyone ever imagined. Hopefully, with this release of snprintfv, the pain is now over for all time.
The issues with portable usage are these:
These four issues made it impossible for AutoGen to ship without its own implementation of the `printf' formatting routines. Since we were forced to do this, we decided to make the formatting routines both better and more complete :-). We addressed these issues and added the following features to the common printf API:
"%{struct stat}\n" |
might be used with '{' registered to a procedure that would look up "struct stat" in a symbol table and do appropriate things, consuming the format string through the '}' character.
Gary V. Vaughan was generous enough to supply this implementation. Many thanks!!
For further details, the reader is referred to the snprintfv documentation. These functions are also available in the template processing as `sprintf' (see section 3.5.25 `sprintf' - format a string), `printf' (see section 3.5.20 `printf' - format to stdout), `fprintf' (see section 3.5.6 `fprintf' - format to a file), and `shellf' (see section 3.5.24 `shellf' - format a string, run shell).
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Here are some things that might happen in the distant future.
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Jump to: | #
.
A B C D E F G H I K L M N O P Q R S T U V W X |
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Jump to: | #
.
A B C D E F G H I K L M N O P Q R S T U V W X |
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Jump to: | *
=
~
A B C D E F G H I J K L M O P R S T U V W |
---|
Jump to: | *
=
~
A B C D E F G H I J K L M O P R S T U V W |
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[Top] | [Contents] | [Index] | [ ? ] |
FOR
function template block
IF
Template Block
WHILE
Template Block
CASE
Template Block
[Top] | [Contents] | [Index] | [ ? ] |
1. Introduction
2. AutoGen Definitions File
3. AutoGen Template
4. Augmenting AutoGen Features
5. Invoking autogen
6. Configuring and Installing
7. Automated Option Processing
8. Add-on packages for AutoGen
9. Some ideas for the future.
Concept Index
Function Index
[Top] | [Contents] | [Index] | [ ? ] |
Button | Name | Go to | From 1.2.3 go to |
---|---|---|---|
[ < ] | Back | previous section in reading order | 1.2.2 |
[ > ] | Forward | next section in reading order | 1.2.4 |
[ << ] | FastBack | previous or up-and-previous section | 1.1 |
[ Up ] | Up | up section | 1.2 |
[ >> ] | FastForward | next or up-and-next section | 1.3 |
[Top] | Top | cover (top) of document | |
[Contents] | Contents | table of contents | |
[Index] | Index | concept index | |
[ ? ] | About | this page |