Provided by: filepp_1.8.0-4_all bug

NAME

       filepp - A generic file preprocessor

SYNOPSIS

       filepp [options] filename(s)

DESCRIPTION

       filepp  is a generic file preprocessor designed to allow the functionality provided by the
       C preprocessor cpp(1) to be used with any file type.  filepp  is  designed  to  be  easily
       customised and extended.

OPTIONS

       filepp accepts the following command line options:

       -b     Suppress blank lines originating from include files (this has no effect on the top-
              level file).

       -c     Read input from STDIN instead of a file.  Note: if both  -c  and  input  files  are
              specified, both are used as inputs in the order given.

       -Dmacro
              Predefine macro to have a definition of  `1'.

       -Dmacro=defn
              Predefine macro to have a definition of defn.

       -d     Output debugging information.

       -dd    Output  verbose  debugging  information.   This  option  shows all normal debugging
              information, plus the full list of defined macros every time the list changes.

       -dl    Output  light  debugging  information.   This  option   shows   minimal   debugging
              information.

       -dprechar
              Prefix  all  debugging  information  with char (can be character or string), can be
              used to make debugging easier to read.

       -dpostchar
              Postfix all debugging information with char (can  be  character  or  string),  this
              defaults to a newline.  If char does not contain a newline, then no newline will be
              printed after  debugging  messages.   (Newlines  can  be  put  in  char  using  the
              __NEWLINE__ macro.)

       -ds    Print debugging info on stdout rather than stderr.

       -e     Define all environment variables as macros with prefix envchar.

       -ec char
              Set  envchar  (prefix of environment variables defined as macros) to char, defaults
              to $. (Note: this option only takes effect at the time  the  environment  variables
              are converted to macros).

       -ecn   Set  envchar  (prefix  of  environment  variables defined as macros) to nothing (no
              prefix).

       -h     Show summary of options.

       -Idir  Append directory dir to the list of directories searched for include files.

       -imacros file
              Reads in macros from file, but discards everything else in the file.

       -k     Turn off parsing of all keywords.  This is useful if you just want to use the macro
              expansion  facilities  of  filepp.   With  this  option  all keywords found will be
              ignored, filepp will just  replace  any  macros  specified  with  the  -Dmacro=defn
              option.

       -kc char
              Set  keyword  prefix character to char (can also be a string).  All filepp keywords
              are prefixed with the character # by default.  This option allows the prefix to  be
              changed to something else.

       -lc char
              Set  line  continuation  character  to  char (can also be a string).  When the line
              continuation character is found with a newline following it, it and the newline are
              replaced  by  the  line  continuation  replacement  character. Default is \ (cpp(1)
              style).

       -lec char
              Set optional keyword line end character to char  (can  also  be  a  string).   This
              allows  extra  characters  to  be placed at the end of a line containing a keyword.
              The extra characters will be ignored.   This  is  useful  if  keywords  are  to  be
              embedded  in  HTML  or C style comments.  For example, to embed keywords in an HTML
              comment the keyword prefix character could be set to <--!# and the optional keyword
              line end character set to -->.  An example keyword would then be:

              <!--#include "header.h" -->

              In the case the optional keyword line end characters --> would be ignored.

       -lr char
              Set  line  continuation  replacement  character  to  char  (can  also be a string).
              Default is a null string (cpp(1) style).

       -lrn   Set line continuation replacement character to be a newline.

       -m module.pm
              Load module module.pm.  module.pm is a perl(1) module which can be used  to  extend
              or  modify  the  behaviour  of  filepp.   See section FILEPP MODULES for details of
              modules included with filepp and FILEPP MODULE API for details on how to write your
              own modules.

       -Mdir  Append  directory dir to the list of directories searched for filepp modules.  This
              list defaults to the directory the filepp modules are installed (if any)  plus  the
              default Perl module paths.  (Note: this adds the directory to the Perl @INC list.)

       -mp char
              Prefix  all  macros with char.  Macros are defined in the normal way, but will only
              be replaced when found prefixed with char.  For example, filepp macros will  behave
              similar to Bourne shell (sh(1)) variables if char is set to $.

       -mpnk  Turns off macro prefixes within keywords.  When using a macro prefix character this
              option allows macros to be used without the  prefix  in  keyword  processing.   For
              example, if the macro prefix is $ then and #if would be written as:

              #if $MACRO == 1

              Using the mpnk option allows the #if to be written as:

              #if MACRO == 1

       -o name
              Write output to name instead of STDOUT.  If there is only one input file and it has
              the same name as the output file, the original input  file  will  be  backed-up  as
              name~.

       -ov    Overwrite  mode,  causes  the output file to overwrite the input file.  Useful when
              modifying a large number of files at once, eg:

              filepp -ov -DTHIS=THAT *

              The original input file(s) will be backed-up as name~.

       -ovc IN=OUT
              Similar to overwrite mode, the difference is the output filename is input  filename
              with  IN  part converted to OUT.  For example, to process a set of files all ending
              with .in and have the output files all ending in .out do:

              filepp -ovc .in=.out *.in

              In this case a file called test.in will be processed and the output  file  will  be
              test.out.   Note:  if  the input file does not contain IN then the output file will
              have the same name as the input file and the original input file(s) will be backed-
              up as name~!

       -pb    Preserve  blank  lines.   Using  this  option attempts to keep as many lines in the
              output file as are in the input file, so all blank lines which normally  would  not
              get printed are printed.  Useful when comparing intput file with output.

       -re    Treat  keyword  and macro prefix characters and line continuation character as Perl
              regular expressions instead of normal strings.

       -s     Run filepp in safe mode.  This turns off the pragma keyword.

       -Umacro
              Undefine previously defined macro.

       -u     Undefine all currently defined macros, including predefined ones.

       -v     Show version of program.

       -w     Turn on word boundaries when replacing macros.  When word boundaries are on, macros
              will  only be replaced if the macro appears in the text as a word.  For example, by
              default macro would be replaced in both cases of the following text:

              macro as word, macroNOTaword

              but only the first occurrence would be replaced with the -w option.

              With this option enabled filepp will only replace macros which contain alphanumeric
              characters.  International (non-ASCII) character sets can be supported using Perl's
              locale handling.

KEYWORDS

       filepp supports the following keywords:

       #include <FILE>
              Include a file in the file being processed.  This  variant  is  used  for  "system"
              include  files.   It  searches  for  a  file  named  FILE  in a list of directories
              specified by you.  Directories are specified with the command option `-I'.   filepp
              does not predefine any system directories in which to search for files.

       #include "FILE"
              Include a file in the file being processed.  This variant is used for include files
              of your own project.  It searches for a  file  named  FILE  first  in  the  current
              directory,  then in the list of directories specified with the command option `-I'.
              The current directory is the directory the base input file is in.

       #define macro
              Define the macro macro to have a definition of `1'.  macro can then  be  used  with
              the keywords #ifdef and #ifndef.

       #define macro defn
              Define  the  macro  macro  to have the value defn.  macro can then be used with the
              keywords #ifdef and #ifndef.  Also, all instances of macro  following  the  #define
              statement  will  be  replaced with the string defn.  The string defn is taken to be
              all the characters on the line following macro.

       #define macro(arg1, arg2, ...) defn
              Define the macro macro to have the value defn with  arguments  (arg1,  arg2,  ...).
              macro can be used as follows:

              #define macro(foo) defn with foo in

              Now when replacing occurs:

              macro(bar)

              will become:

              defn with bar in

              Macros can have any number of comma separated arguments.

              Macros  can also have variable numbers of arguments if the final macro ends in ...,
              for example:

              #define error(string, args...) fprintf(stderr, string, args);

              Here the first argument given becomes string and all other  arguments  will  become
              args. If called as: error("%d,%s", i, string) it will give

              fprintf(stderr, "%d,%s", i, string);

              Also, if a macro with a variable number of arguments is passed no arguments for the
              variable argument, then commas can be optionally removed  from  the  definition  by
              preceding the definition with "##".  For example:

              #define error(string, args...) fprintf(stderr, string, ##args);

              If this is called as: error("empty") then result will be:

              fprintf(stderr, "empty");

              The comma immediately before ##args has been removed.

       #if expr
              A  conditional statement, expr will be evaluated to true (1) or false (0).  If expr
              evaluates to true, the text between the #if and the next #else or  #endif  will  be
              included.   If expr evaluates to false, the text between the #if and the next #else
              or #endif will be ignored.  expr can use all the usual cpp style  comparisons  (==,
              !=,  <,  >, etc.).  Multiple comparisons can be combined with and (&&) and or (||).
              The defined keyword can also be used to check if macros are defined.  For example:

              #if defined macro && macro == defn

              Note: filepp's #if does not work in exactly the same way as cpp(1)'s #if.  cpp(1)'s
              #if only does numerical style comparisons.  Filepp's #if statement can also compare
              strings  and  regular  expressions  using  perl(1)'s  full  range   of   comaprison
              operations.  For example, to test if two strings are exactly equal use:

              #if "MACRO" eq "string"

              To  test  if  strings  are not equal use ne instead of eq.  Regular expressions can
              also be tested, for example to test if a macro has any whitespace in it use:

              #if "MACRO" =~ /\s/

              To test if a macro does not have any whitespace in it =~ can be replaced with !~.

              Perl experts: #if works by first parsing expr for the defined keyword and  checking
              if  the  macro  it  refers  to is defined, replacing it with 1 if it is and 0 if it
              isn't.  It then checks expr for any other  macros  and  replaces  them  with  their
              definition.   Finally  it  passes  expr through Perl's eval function, which returns
              true or false.

       #elif expr
              #elif  stands  for  "else  if".   Like  #else,  it  goes  in  the   middle   of   a
              #if[n][def]-#endif pair and subdivides it; it does not require a matching #endif of
              its own.  Like #if, the #elif directive includes an expression to be tested.

       #ifdef macro
              A conditional statement, if macro has been defined the text between the #ifdef  and
              the  next #else or #endif will be included.  If macro has not been defined the text
              between the #ifdef and the next #else or #endif will be ignored.

       #ifndef macro
              The reverse case of the #ifdef conditional.

       #else  The #else directive can be added to a conditional to provide alternative text to be
              used if the condition is false.

       #endif Used to terminate a conditional statement.  Normal processing resumes following the
              #endif.

       #undef macro
              Undefine a previously defined macro.

       #error mesg
              Causes filepp to exit with the error message mesg.

       #warning mesg
              Causes filepp to issue the warning message mesg.

       #comment mesg
              As filepp is supposed to be a generic file  preprocessor,  it  cannot  support  any
              known  comment  styles,  therefore it defines its own with this keyword.  All lines
              starting with #comment are treated as comments and removed by filepp.

       #pragma filepp function arg1, arg2, ...
              The #pragma keyword immediately followed by the word  filepp  allows  the  user  to
              execute  a  Perl function during parsing.  The word immediately following filepp is
              taken as the name of the function and the remainder of the line is taken  to  be  a
              comma  separated  list  of  arguments  to the function.  Any of the filepp internal
              functions (see section FILEPP MODULE API) can be called with the #pragma keyword.

              Warning: There are obvious security risks with allowing arbitrary functions  to  be
              run,  so  the  -s  (safe  mode)  command line option has been added which turns the
              #pragma keyword off.

PREDEFINED MACROS

       filepp supports a set of predefined macros.  All the predefined macros  are  of  the  form
       __MACRO__, where MACRO is:

       FILE   This macro expands to the name of the current input file.

       LINE   This macro expands to the current input line number.

       DATE   This macro expands to a string that describes the date on which the preprocessor is
              being run.  The string contains eleven characters and looks like "Oct 29 2012".

       ISO_DATE
              This macro expands to a string that describes the date on which the preprocessor is
              being  run.   The  string  is  in the format specified by ISO 8601 (YYYY-MM-DD) and
              looks like "2012-10-29".

       TIME   This macro expands to a string that describes the time at which the preprocessor is
              being run.  The string contains eight characters and looks like "02:35:47".

       BASE_FILE
              This macro expands to the name of the main input file.

       INCLUDE_LEVEL
              This  macro  expands  to  a  decimal  integer constant that represents the depth of
              nesting in include files.  The value of this macro is incremented on every #include
              directive and decremented at every end of file.

       NEWLINE
              This macro expands to a newline.

       TAB    This macro expands to a tab.

       NULL   This  macro expands to nothing.  It is useful if you want to define something to be
              nothing.

       VERSION
              This macro expands to a string constant  which  describes  the  version  number  of
              filepp.  The string is a sequence of decimal numbers separated by periods and looks
              like "1.8.0".

       FILEPP_INPUT
              This macro expands  to  a  string  constant  which  says  the  file  was  generated
              automatically  from  the  current BASE_FILE and looks like "Generated automatically
              from ./filepp.1.in by filepp".

FILEPP MODULES

       The following modules are included with the main filepp distribution:

FOR MODULE - for.pm

       The for module implements a simple for loop. Its file name is for.pm.

       The for loop is similar in functionality to that of other programming  languages  such  as
       Perl  or  or  C.   It has a single variable (a filepp macro) which is assigned a numerical
       value.  This numerical value changes by a set increment  on  each  iteration  through  the
       loop.  The loop termiates when the value no longer passes a comparison test.

       The for module implements the following keywords:

       #for macro start compare end increment
              The #for keyword is functionally equivalent to the following Perl or C style loop:

              for(macro=start; macro compare end; macro+=increment)

              The #for keyword requires the following space separated parameters:

              macro  :  The  name  of the macro to which the for loop should assign its numerical
              value.

              start : The value macro should be assigned at the start of the loop.  start  should
              be a numerical value.

              compare  :  The comparison to make between the current value of macro and the value
              end to determine when the loop should terminate.  Valid values for compare  are  <,
              >, >=, <=.

              end : the for loop will terminate when the test

                macro compare end

              fails.  end should be a numerical value.

              increment : The value to increment macro on each iteration of the loop.  At the end
              of each iteration the value of increment is added to the current  value  of  macro.
              increment should be a numerical value.

       #endfor
              The  #endfor keyword is used to signify the end of the loop.  Everything within the
              opening #for and the closing #endfor will be processed on  each  iteration  of  the
              loop.

       Example usage:

       #for COUNTER 10 > 1 -2.5

         COUNTER

       #endfor

       In  the  above  example COUNTER will be defined to have values 10, 7.5, 5 and 2.5 for each
       successive iteration through the loop.

       Nested loops are also possible, as is changing the value of the  macro  within  the  loop.
       start,  end  and  increment  should all be numerical values, however it is possible to use
       macros instead provided the macros are defined to have numerical values.

FOREACH MODULE - foreach.pm

       The foreach module implements a simple foreach loop. Its file name is foreach.pm.

       The foreach loop is similar in functionality to that of other programming  languages  such
       as  Perl.   It  takes  a  list  of  values separated by a user definable delimiter (',' by
       default).  It then iterates through all values in the list, defining a macro  to  be  each
       individual value for each iteration of the loop.  The loop terminates when all values have
       been used.

       The foreach module implements the following keywords:

       #foreach macro list
              The #foreach keyword is functionally equivalent to the following Perl style loop:

              foreach macro (split(/delim/, list))

              The #foreach keyword requires the following space separated parameters:

              macro : The name of the macro to which the foreach loop should assign  the  current
              list value.

              list : The list of values, separated by delim (see #foreachdelim keyword for how to
              set delim). list can also be a macro or contain macros.

              The loop will run from the #foreach keyword to the next #endforeach keyword.

       #endforeach
              The #endforeach keyword is used to signify the end of the loop.  Everything  within
              the  opening  #foreach  and  the  closing  #endforeach  will  be  processed on each
              iteration of the loop.

       Example usage:

       #foreach VALUE one, two, three, four

         VALUE

       #endforeach

       In the above example VALUE will be defined to have values one, two,  three  and  four  for
       each successive iteration through the loop.

       Nested loops are also possible.

       #foreachdelim /delim/
              The  #foreachdelim  keyword  is  used  to set the delimiter used in each list.  The
              delimiter can be any character, string or regular expression.  The delimiter should
              be  enclosed  in  forward  slashes,  in the same style as Perl regular expressions.
              The default value for delim is ','.  To set the delimiter to be a single space do:

              #foreachdelim / /

              To set delim to be any amount of white space do:

              #foreachdelim /\s+/

              See the Perl documentation on regular expressions for more advanced uses.

LITERAL MODULE - literal.pm

       The literal module prevents macros appearing in literal strings from  being  replaced.   A
       literal string is defined as having the form:

       "literal string with macro in"

       In the above example, macro will not be replaced.

       The behaviour of the literal module can be reveresed by defining the macro LITERAL_REVERSE
       before loading the module, for example:

       filepp -DLITERAL_REVERSE -m literal.pm <files>

       This has the effect of only replacing macros which appear in strings.

TOUPPER MODULE - toupper.pm

       The toupper module converts all lowercase letters to uppercase.

TOLOWER MODULE - tolower.pm

       The tolower module converts all uppercase letters to lowercase.

C/C++ COMMENT MODULE - c-comment.pm

       The c-comment module removes all C style:

       /* comment */

       and C++ style:

       // comment

       comments from a file.  C and C++ comments are removed after keywords have been  processed.
       If  you  wish to remove C and C++ comments before keywords are processed, define the macro
       REMOVE_C_COMMENTS_FIRST before loading the module, eg:

       filepp -DREMOVE_C_COMMENTS_FIRST -m c-comment.pm

HASH COMMENT MODULE - hash-comment.pm

       The hash-comment module removes all comments of the style:

       # comment

       from a file.  This is the commenting style used by Perl, Bourne Shell, C  Shell  and  many
       other  programs  and  configuration  files.  Hash comments are removed after keywords have
       been processed.  If you wish to remove hash comments before keywords are processed, define
       the  macro  REMOVE_HASH_COMMENTS_FIRST before loading the module (Note: if you do this and
       also use # as the keyword character then the keywords will  be  removed  BEFORE  they  are
       processed).

FUNCTION MODULE - function.pm

       The function module allows the user write macros which call Perl functions.  Its file name
       is function.pm.

       The function module allows macros of the form:

       macro(arg1, arg2, arg3, ...)

       to be added to a file.  When the macro is found, it  will  run  a  function  from  a  Perl
       module,  with  arguments  arg1, arg2, arg3, ... passed to the function.  The function must
       return a string.  The returned string will replace the call to the function in the output.
       The function can have any number of arguments.  If the function has no arguments it should
       be called with an empty argument list:

       macro()

       If the word macro is found in the input file without being followed by  a  (  it  will  be
       ignored.

       To  use  the function module, the user must provide a Perl function which optionally takes
       in arguments and returns a string.  The function can either be one  of  filepp's  internal
       functions  or  one of the user's own provided in a Perl module.  The function can be added
       in two ways.  The first way is through the function keyword:

       #function macro function
              macro is the name of the macro which is used to signify a call to the  function  in
              the input file and function is the name of the function to be called.

       The second method of adding a function is to call the Perl function:

       Function::AddFunction($macro,$function)
              which has the same inputs as the function keyword.

       Functions can be removed either through the keyword:

       #rmfunction macro
              or through the Perl function

       Function::RemoveFunction($macro)

MATHS MODULE - maths.pm

       The  module  provides  a  set  of  macros which perform mathematical operations.  When the
       macros are encoutered in an input file, they are evaluated and the result is  returned  in
       the output.

       The maths module includes the following macros:

       add(a, b, c, ...)
              Takes in any number of arguments and returns their sum: (a + b + c + ...)

       sub(a, b)
              Returns a minus b: (a - b)

       mul(a, b, c, ...)
              Takes in any number of arguments and returns their product: (a * b * c * ...)

       div(a, b)
              Returns a over b: (a / b)

       abs(a) Returns the absoulte value of a.

       atan2(a, b)
              Returns the arctangent of a/b in the range -pi to pi.

       cos(a) Returns the cosine of a in radians.

       exp(a) Returns the e to the power of a.

       int(a) Returns the integer portion of a.

       log(a) Returns the natural logarithm (base e) of a.

       rand(a)
              Returns  a  random  fractional  number between the range 0 and a.  If a is omitted,
              returns a value between 0 and 1.

       sin(a) Returns the sine of a in radians.

       sqrt(a)
              Returns the square root of a.

       srand(a)
              Sets the random number seed for rand().

       The maths module also defines pi as M_PI as e as M_E.

       The maths macros are implemented using the function.pm module.  Nested macros are allowed,
       as is passing other macros with numerical defintions as arguments.

FORMAT MODULE - format.pm

       This module provides a set of macros for formating strings and numbers.

       The format module provides the following macros:

       printf(format, arg1, arg2, ...)
              The  printf  macro behaves in the same way as the Perl/C function printf.  It takes
              in a format string followed by a list of arguments to print.  See the printf(3) man
              page or Perl documentation for full details of the printf function.

       toupper(string)
              Converts input string to upper case.

       toupperfirst(string)
              Converts first character of input string to upper case.

       tolower(string)
              Converts input string to lower case.

       tolowerfirst(string)
              Converts first character of input string to lower case.

       substr(string, offset, length)
              Extracts a substring from input string.  substr behaves in the same way as the Perl
              substr function.  offset is used to specifiy the first character of the  string  to
              output (negative for offset from end of string), length is the length of the string
              to output.  If length is omitted everything  from  the  offset  is  returned.   For
              further information on substr see the Perl documentation.

       The format macros are implemented using the function.pm module.

BIGDEF MODULE - bigdef.pm

       The bigdef module allows easy definition of multi-line macros. Its file name is bigdef.pm.

       A  multi-line macro is a macro which has a definition which spans more than one line.  The
       normal way to define these is to place a line continuation character at the  end  of  each
       line in the definition.  However, this can be annoying and unreadable for large multi-line
       macros.  The bigdef module tries to improve on this by providing two keywords:

       #bigdef macro definition...
              The #bigdef keyword has the same syntax as #define, the only difference  being  the
              macro  definition  is  everything  following the macro name including all following
              lines up to the next #endbigdef keyword.

       #endbigdef
              Ends a bigdef.  Everything between this keyword and the last preceding  #bigdef  is
              included in the macro.

       Any  keywords found in the definition will be evaluated as normal AT THE TIME THE MACRO IS
       DEFINED and any output from these will be included in the definition.

       Note: The difference between bigfunc and bigdef is the time keywords in the definition are
       evaluated.  Bigdef evaluates them as the macro is DEFINED, bigfunc evaluates them whenever
       the macro is REPLACED.

BIGFUNC MODULE - bigfunc.pm

       The bigfunc module  allows  easy  definition  of  multi-line  macros.  Its  file  name  is
       bigfunc.pm.

       A  multi-line macro is a macro which has a definition which spans more than one line.  The
       normal way to define these is to place a line continuation character at the  end  of  each
       line in the definition.  However, this can be annoying and unreadable for large multi-line
       macros.  The bigfunc module tries to improve on this by providing two keywords:

       #bigfunc macro definition...
              The #bigfunc keyword has the same syntax as #define, the only difference being  the
              macro  definition  is  everything  following the macro name including all following
              lines up to the next #endbigfunc keyword.

       #endbigfunc
              Ends a bigfunc.  Everything between this keyword and the last preceding #bigfunc is
              included in the macro.

       Any  keywords found in the definition will be evaluated as normal AT THE TIME THE MACRO IS
       REPLACED and any output from these will be included in the definition.

       Note: The difference between bigfunc and bigdef is the time keywords in the definition are
       evaluated.  Bigdef evaluates them as the macro is DEFINED, bigfunc evaluates them whenever
       the macro is REPLACED.

DEFPLUS MODULE - defplus.pm

       The defplus module allows extra information to be appended to an existing macro. Its  file
       name is defplus.pm.

       The  defplus  module  allows  further things to be appended to existing macros. The module
       implements one keyword:

       #defplus macro definition...
              The #defplus keyword has the same syntax as #define, the only difference  being  if
              the macro is already defined then definition is appended to the existing definition
              of the macro.  If the macro is undefined then #defplus behaves in exactly the  same
              way as #define.

REGEXP MODULE - regexp.pm

       The  regexp  module allows Perl regular expression replacement to be done with filepp. Its
       file name is regexp.pm.

       Perl regular expression replacement allows a regular expression to  be  searched  for  and
       replaced with something else.  Regular expressions are defined as follows:

       #regexp /regexp/replacement/
              It  is very similar to the Perl syntax and the following Perl code will be executed
              on each line of the input file:

       $line =~ s/regexp/replacement/g
              For users who don't understand Perl, this means replace all occurrences  of  regexp
              in the current line with replacement.

       A full description of regular expressions and possible replacements is beyond the scope of
       this man page.  More information can be found in the Perl documentation using the command:

       perldoc perlre

       Any number of regular expressions can be defined.  Each regular  expression  is  evaluated
       once for each line of the input file.  Regular expressions are evaluated in the order they
       are defined.

       Regular expressions can be undefined in the following way:

       #rmregexp /regexp/replacement/
              This will remove the specified regular expression.

       In debugging mode the current list of regular expressions can be viewed using  the  pragma
       keyword:

       #pragma filepp ShowRegexp
              When not in debugging mode, this will produce no output.

       A  single  regular  expression  can  also  be defined on the command line using the REGEXP
       macro, for example:

       filepp -DREGEXP=/regexp/replacement/ -m regexp.pm inputfile

       Note: the REGEXP macro must be  defined  BEFORE  the  regexp  module  is  loaded,  putting
       -DREGEXP...  after  -m  regexp.pm will not work.  When using the command line approach, if
       the REGEXP macro is successfully parsed as a regular expression it will be undefined  from
       the  normal  filepp  macro  list before processing starts.  Care should obviously be taken
       when escaping special characters in the shell with command line regexps.

BLC MODULE - blc.pm

       The Bracket Line Continuation module causes lines to be continued if they have  more  open
       brackets:  "("  than  close  brackets: ")" on a line.  The line will be continued until an
       equal number of open and close brackets are found.

       Brackets can be prevented from being counted for line continuation by escaping them with a
       backslash:  "\("  and "\)".  Any brackets found with a preceding backslash will be ignored
       when deciding if line continuation should be done and then have the backslash removed once
       the full line has been found.

C MACROS MODULE - cmacros.pm

       The  cmacros module causes the definition of the following predefined macros to be quoted:
       DATE, TIME, VERSION, BASE_FILE, FILE, (note: predefined macros are written as __MACRO__).

       This makes the macros more "C" like, as the C preprocessor also puts quotes  around  these
       macros.

C MACROS MODULE - cpp.pm

       The cpp makes filepp behave in a similar manner to a C preprocessor cpp(1).

       DISCLAIMER: filepp is not meant to be a drop in replacement for a C preprocessor even with
       this module.  I would not recommend using filepp as a  C  preprocessor  unless  you  fully
       understand how it differs from a real C preprocessor.  The output from filepp with the cpp
       module will not be the same as a real C preprocessor.

GRAB MODULE - grab.pm

       The grab module is used to grab input before processing. Its file name is grab.pm.

       The grab module is mainly for use in other modules, such as  for.pm  and  bigfunc.pm.   It
       grabs  all  input  from  a  file  before  any processing is done on it.  This allows other
       modules to do processing on the original input data before the main  processing  is  done.
       For example, the for module will store the original input inside a loop and re-use it each
       time the loop is processed.

       #grab macro definition...
              The grab module will start grabbing of all input from the grab keyword, onwards.

       #endgrab
              Ends a grab.  Everything between this keyword and the last preceding #grab will  be
              grabbed and stored for use in other modules.

       Grabs can be nested if required.

       When calling grab from another module, use the following functions:

       Grab::StartGrab($startkeyword,$endkeyword)
              $startkeyword  is  the  keyword  that StartGrab is called from.  $endkeyword is the
              keyword that grabbing should stop at.

       @List=Grab::GetInput()
              Returns a Perl list containing all input grabbed from when grab was last run.

       $line=Grab::GetInputLine()
              Returns the line number of the input file where grabbing last started.

FILEPP MODULE API

       The behaviour of filepp can be modified or extended through the use  of  modules.   filepp
       modules are in fact perl(1) modules, and the rest of this section assumes the reader has a
       knowledge of Perl.

       filepp modules are perl(1) modules which extend or modify  filepp's  behaviour  by  either
       calling or replacing filepp's internal functions.  filepp has the Perl package name Filepp
       so its internal functions can be called within modules  either  as  Filepp::function()  or
       just function().  Any of filepp's internal functions can be called or replaced from within
       a filepp module, the most useful ones are:

       Debug($string,$number)
              Print $string as  debugging  information  if  debugging  is  enabled.   $number  is
              optional  and  can  be  used  to set the debugging level at which $string should be
              printed, lower numbers being higher priority.  Command line  option  d  prints  all
              debugging  info  for  2 and below, option dd prints all debugging information for 3
              and below and option dl prints all debugging  information  for  1  and  below.   If
              $number is not provided, defaults to 1.

       AddProcessor($function,$pos,$type)
              Allows  the  module to add a function named $function to filepp's processing chain.
              The processing chain is a set of functions which are run on each line of a file  as
              it  is  processed.  The default functions in the processing chain are ParseKeywords
              which does  keyword  parsing  and  ReplaceDefines  which  does  macro  replacement.
              Further  functions  can  be  added to the chain, with each function taking a string
              (the current line) as input and returning the processed string as output.

              By default, or if $pos is set to 0, the processor  is  added  to  the  end  of  the
              processing  chain.   If $pos is set to 1 the processor is added to the start of the
              processing chain.

              $type controls what the processor is run on.  There are three options for  this,  0
              (default):  the processor runs on everything passed to the processing chain; 1: the
              processor runs on full lines only; 2: the processor runs on part lines only (a part
              line  is  the  text  following  a  keyword  such as if which needs to be parsed for
              macros).

              Both $pos and $type are optional parameters.

       AddProcessorAfter($function,$existing,$type)
              Adds function $function to the processing chain directly after  existing  processor
              $existing.   If  $existing  is  not found then $function is added to the end of the
              processing chain.  Regular expression matching is used to  compare  $existing  with
              the names of the functions in the processing chain.

              $type is optional.

       AddProcessorBefore($function,$existing,$type)
              Adds  function $function to the processing chain directly before existing processor
              $existing.  If $existing is not found then $function is added to the start  of  the
              processing  chain.   Regular  expression matching is used to compare $existing with
              the names of the functions in the processing chain.

              $type is optional.

       RemoveProcessor($function)
              Removes the processor function $function from the processing chain.

       $string=ReplaceDefines($string)
              Replaces all macros in $string with their definitions  and  returns  the  processed
              string.

       AddKeyword($string,$function)
              Add  the  keyword  named $string.  When the keyword is found in text processing the
              function named $function will be run with everything following the  keyword  passed
              as a single argument.

       RemoveKeyword($string)
              Removes the keyword named $string.

       RemoveAllKeywords()
              Removes all the keywords currently defined for filepp (used for the -k command line
              option).

       AddIfword($string)
              Adds keyword named $string to Ifword list.  An Ifword takes in the string following
              the  keyword  and  optionally parses it, returning a 1 if the string parses to true
              and 0 for false.  The default Ifwords are if, ifdef and ifndef.

       RemoveIfword($string)
              Removes keyword named $string from Ifword list (note:  this  does  NOT  remove  the
              keyword, use RemoveKeyword for that).

       AddElseword($string)
              Adds  keyword  named  $string  to  Elseword  list.  An Elseword takes in the string
              following the keyword and optionally parses it, returning a 1 if the string  parses
              to true and 0 for false.  The default Elsewords are else and elif.

       RemoveElseword($string)
              Removes keyword named $string from Elseword list.

       AddEndifword($string)
              Adds  keyword  named  $string to Endifword list.  An Endifword should return a 1 to
              indicate successful termination of the if block.  If the Endifword  returns  0  the
              Endifword  is  ignored and filepp assumes the current if block carries on after the
              Endifword.  The default Endifword is endif.

       RemoveEndifword($string)
              Removes keyword named $string from Endifword list.

       AddIncludePath($string)
              Adds the include path $string to the list of  directories  to  search  for  include
              files (used for the -I command line option).

       AddModulePath($string)
              Adds the path $string to the list of directories to search for filepp modules (used
              for the -M command line option).

       AddOpenInputFunc($function)
              Adds a $function to a list of functions to be run each time a new base  input  file
              is opened.

       AddCloseInputFunc($function)
              Adds  a  $function to a list of functions to be run each time a new base input file
              is closed.

       AddOpenOutputFunc($function)
              Adds a $function to a list of functions to be run  each  time  an  output  file  is
              opened.

       AddCloseOutputFunc($function)
              Adds  a  $function  to  a  list  of functions to be run each time an output file is
              closed.

       AddInputFile($string)
              Adds another input file to the list of files to be processed (used for adding input
              files at the command line).

       ChangeOutputFile($string)
              Closes the current output file and attempts to open a new one named $string.

       SetKeywordchar($string)
              Set the initial keyword char to $string (used for the -kc command line option).

       SetContchar($string)
              Set the line continuation char to $string (used for the -lc command line option).

       SetContrepchar($string)
              Set  the  line  continuation  replacement char to $string (used for the -lr command
              line option).

       SetOptLineEndchar($string)
              Set the optional keyword line end character to $string (used for the  -lec  command
              line option).

       SetBlankSupp(1/0)
              Turns  blank-line  suppression  on/off  (1  =  suppress, 0 = don't suppress).  When
              blank-line suppression is on, blank lines in input files will not be copied to  the
              output.   Unlike the corresponding command-line option (-b), this function can also
              have effect in the top-level file.  The setting of blank-line  suppression  applies
              to the current file being processed and all files included in the current file.

       ResetBlankSupp()
              Resets  blank-line  suppression  to  the  command-line  specified value.  This only
              affects the output of blank lines from the current file  being  processed  and  all
              files  included  in  the  current  file.   In the top-level file, this always turns
              blank-line suppression off.

       SetEatTrail($string)
              If $string is a macro, whenever the macro is replaced all blank space  between  the
              macro's replacement and the next character on the line will be eaten.  For example,
              if macro foo is defined to bar and foo has been set to have it's trail  eaten,  the
              following:

               eat my foo trail

              is replaced with

               eat my bartrail

       CheckEatTrail($string)
              Returns 1 if macro $string will have it's tail eaten, 0 otherwise.

       SetEnvchar($string)
              Set  the  prefix  of environment variables converted to macros (envchar) to $string
              (used for -ec and -ecn command line options).

       DefineEnv()
              Define all environment variables as macros with prefix envchar (used for -e command
              line option).

       SetOutput(1/0)
              Turns  writing  of  parsed  input  file to output file on/off.  This takes either 1
              (output on) or 0 (output off) as input.  When the output is turned  off,  the  only
              output produced from filepp will be that generated by modules.

       SetWordBoundaries(1/0)
              Turns on(1) or off(0) word boundary checking when replacing macros (used for the -w
              command line option).

       SetCharPerlre(1/0)
              Turns on(1) or off(0) allowing of keyword prefix char and line continuation char to
              be Perl regular expressions (used for the -re command line option).

       UndefAll()
              Undefines  all currently defined macros, including predefined ones (used for the -u
              command line option).

       UseModule($string)
              Loads a perl(1) module named $string using the Perl command require (used  for  the
              -m command line option).

       SetParseLineEnd($function)
              Sets  the function to determine if line continuation should be done on current line
              to $function.

       $string=GetNextLine()
              Returns the next line (after line continuation has been dealt with)  of  the  input
              file currently being processed.  Returns NULL for end of file.

       Write($string)
              Writes $string to the current output file.

       Output($string)
              Conditionally  writes  $string  to the current output file.  If output is turned on
              then writes $string.  Output is toggled off/on using SetOutput function.

       In addition all the standard filepp keywords have equivalent  functions  which  optionally
       take  a  single  argument.   The  functions have the same name as the keyword, only with a
       capital first letter (eg: #define string calls the function Define(string)).

       A full description of the Parse function and all the other filepp  internal  functions  is
       beyond  the  scope  of  this  man page.  The filepp script is well commented and hopefully
       readable by a Perl programmer, so use the source Luke!

BUGS

       filepp has no known bugs, only "features".  If you find any "features", please report them
       to the author.

COPYING

       Copyright (C) 2000-2007 Darren Miller

       filepp  is  free software; you can redistribute it and/or modify it under the terms of the
       GNU General Public License as published by the Free Software Foundation; either version  2
       of the License, or (at your option) any later version.

       This  program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
       without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR  PURPOSE.
       See the GNU General Public License for more details.

       You should have received a copy of the GNU General Public License along with this program;
       see the file COPYING.  If not, write to  the  Free  Software  Foundation,  675  Mass  Ave,
       Cambridge, MA 02139, USA.

SEE ALSO

       cpp(1), perl(1)

AUTHOR

       Darren Miller <darren@cabaret.demon.co.uk>.