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C/C++ preprocessor-like tool for a range of languages (i.e., #ifdef, #ifndef, #if-else, #include, etc. for Python, LaTeX, Bash, JavaScript, "whatever").

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preprocess.py: a portable multi-language file preprocessor

Download the latest preprocess.py packages from https://github.com/hplgit/preprocess.git.

Home https://github.com/hplgit/preprocess.git
License MIT (see LICENSE.txt)
Platforms Windows, Linux, Mac OS X, Unix
Current Version 1.2
Dev Status Fairly mature
Requirements Python >= 2.7 or Python >= 3.4
Dependencies python-future
Author Trent Mick

Why preprocess.py?

There are millions of templating systems out there (most of them developed for the web). This isn't one of those, though it does share some basics: a markup syntax for templates that are processed to give resultant text output. The main difference with preprocess.py is that its syntax is hidden in comments (whatever the syntax for comments maybe in the target filetype) so that the file can still have valid syntax. A comparison with the C preprocessor is more apt.

preprocess.py is targetted at build systems that deal with many types of files. Languages for which it works include: C++, Python, Perl, Tcl, XML, JavaScript, CSS, IDL, TeX, Fortran, PHP, Java, Shell scripts (Bash, CSH, etc.) and C#. Preprocess is usable both as a command line app and as a Python module.

Here is how is works: All preprocessor statements are on their own line. A preprocessor statement is a comment (as appropriate for the language of the file being preprocessed). This way the preprocessor statements do not make an unpreprocessed file syntactically incorrect.

Here is a simple example from Python code in some file myapp1.p.py:

    def myfunc():
        """
        Function for computing fundamental arithmetics.
    # #if EXTENSIVE_DOC
    # #include "../myfunc_doc.txt"
    # #endif
        """
        return 1 + 1

Running

    preprocess myapp1.p.py > myapp1.py

yields

    def myfunc():
        """
        Function for computing fundamental arithmetics.
        """
        return 1 + 1

in myapp1.py since EXTENSIVE_DOC is not defined, but

    preprocess -DEXTENSIVE_DOC myapp1.p.py > myapp1.py

defines EXTENSIVE_DOC and the file ../myfunc_doc.txt is copied by the #include statement, resulting in the output

    def myfunc():
        """
        Function for computing fundamental arithmetics.
        This function takes
        the expression "1 + 1"
        and returns its result.
        """
        return 1 + 1

if the file ../myfunc_doc.txt contains the text

        This function takes
        the expression "1 + 1"
        and returns its result.

Here is another example where a variable defined on the command line is a list:

    preprocess -DFEATURES=macros,scc myapp2.p.py

The code to the left is transformed to the code to the right:

    ...                                     ...
    # #if "macros" in FEATURES
    def do_work_with_macros():              def do_work_with_macros():
        pass                                    pass
    # #else
    def do_work_without_macros():
        pass
    # #endif
    ...                                     ...

Or, with a JavaScript file,

    ...                                     ...
    // #if "macros" in FEATURES
    function do_work_with_macros() {        function do_work_with_macros() {
    }                                       }
    // #else
    function do_work_without_macros() {
    }
    // #endif
    ...                                     ...

Preprocess has proved useful for build-time code differentiation in the Komodo build system -- which includes source code in Python, JavaScript, XML, CSS, Perl, and C/C++. Preprocess is also a key tool in the DocOnce documentation system.

The #if expression ("macros" in FEATURES in the example) is Python code, so it has Python's full comparison richness. A number of preprocessor statements are implemented:

    #define VAR [VALUE]
    #undef VAR
    #ifdef VAR
    #ifndef VAR
    #if EXPRESSION
    #elif EXPRESSION
    #else
    #endif
    #error ERROR_STRING
    #include "FILE"
    #include "FILE" fromto: from-regex@to-regex
    #include "FILE" fromto_: from-regex@to-regex

Run pydoc preprocess to see more explanation.

As well, preprocess can do in-line substitution of defined variables. Although this is currently off by default because substitution will occur in program strings (and actually anywhere), which is not ideal.

Please send any feedback to the original author Trent Mick or the current maintainer Hans Petter Langtangen.

Install Notes

Download the latest preprocess zip source package, unzip it, and run python setup.py install:

    unzip master.zip
    cd preprocess
    python setup.py install

Note that preprocess.py version 1.2 depends on python-future. If you have pip installed, python-future is easily installed by

    pip install future

The setup.py command will install preprocess.py into your Python site-packages and also into your Python bin directory. If you can now run preprocess and get a response then you are good to go, otherwise read on.

The problem is that the Python bin directory is not always on your PATH on some operating systems - notably Mac OS X. To finish the install on OS X either manually move 'preprocess' to somewhere on your PATH:

    cp preprocess.py /usr/local/bin/preprocess

or create a symlink to it (try one of these depending on your Python version):

    ln -s /System/Library/Frameworks/Python.framework/Versions/2.3/bin/preprocess /usr/local/bin/preprocess
    ln -s /Library/Frameworks/Python.framework/Versions/2.4/bin/preprocess /usr/local/bin/preprocess

(Note: You'll probably need to prefix those commands with sudo and the exact paths may differ on your system.)

Getting Started

Once you have the package installed, run preprocess --help for full usage information:

    $ preprocess --help
    Preprocess a file.

    Command Line Usage:
        preprocess [<options>...] <infile>

    Options:
        -h, --help      Print this help and exit.
        -V, --version   Print the version info and exit.
        -v, --verbose   Give verbose output for errors.

        -o <outfile>    Write output to the given file instead of to stdout.
        -f, --force     Overwrite given output file. (Otherwise an IOError
                        will be raised if <outfile> already exists.
        -D <define>     Define a variable for preprocessing. <define>
                        can simply be a variable name (in which case it
                        will be true) or it can be of the form
                        <var>=<val>. An attempt will be made to convert
                        <val> to an integer so "-D FOO=0" will create a
                        false value.
        -I <dir>        Add an directory to the include path for
                        #include directives.

        -k, --keep-lines    Emit empty lines for preprocessor statement
                        lines and skipped output lines. This allows line
                        numbers to stay constant.
        -s, --substitute    Substitute defines into emitted lines. By
                        default substitution is NOT done because it
                        currently will substitute into program strings.

    Module Usage:
        from preprocess import preprocess
        preprocess(infile, outfile=sys.stdout, defines={}, force=0,
                   keepLines=0, includePath=[], substitute=0)

    The <infile> can be marked up with special preprocessor statement lines
    of the form:
        <comment-prefix> <preprocessor-statement> <comment-suffix>
    where the <comment-prefix/suffix> are the native comment delimiters for
    that file type.


    Examples
    --------

    HTML (*.htm, *.html) or XML (*.xml, *.kpf, *.xul) files:

        <!-- #if FOO -->
        ...
        <!-- #endif -->

    Python (*.py), Perl (*.pl), Tcl (*.tcl), Ruby (*.rb), Bash (*.sh),
    or make ([Mm]akefile*) files:

        # #if defined('FAV_COLOR') and FAV_COLOR == "blue"
        ...
        # #elif FAV_COLOR == "red"
        ...
        # #else
        ...
        # #endif

    C (*.c, *.h), C++ (*.cpp, *.cxx, *.cc, *.h, *.hpp, *.hxx, *.hh),
    Java (*.java), PHP (*.php) or C# (*.cs) files:

        // #define FAV_COLOR 'blue'
        ...
        /* #ifndef FAV_COLOR */
        ...
        // #endif

    Fortran 77 (*.f) or 90/95 (*.f90) files:

        C     #if COEFF == 'var'
              ...
        C     #endif


    Preprocessor Syntax
    -------------------

    - Valid statements:
        #define <var> [<value>]
        #undef <var>
        #ifdef <var>
        #ifndef <var>
        #if <expr>
        #elif <expr>
        #else
        #endif
        #error <error string>
        #include "<file>"
      where <expr> is any valid Python expression.
    - The expression after #if/elif may be a Python statement. It is an
      error to refer to a variable that has not been defined by a -D
      option or by an in-content #define.
    - Special built-in methods for expressions:
        defined(varName)    Return true if given variable is defined.

    Tips
    ----

    A suggested file naming convention is to let input files to
    preprocess be of the form <basename>.p.<ext> and direct the output
    of preprocess to <basename>.<ext>, e.g.:
        preprocess -o foo.py foo.p.py
    The advantage is that other tools (esp. editors) will still
    recognize the unpreprocessed file as the original language.

And, for module usage, read the preprocess.preprocess() docstring:

    pydoc preprocess.preprocess

Change Log

v1.2.2

Added --substitute_include and -i options for substitutions of defined variables (-DVAR=value) in #include statements (makes it possible to have variables in included filenames: # #include "myfile_VAR.do.txt"). (By Hans Petter Langtangen.)

v1.2.1

Added support for including just parts of a file (from a regex to a regex). (By Hans Petter Langtangen.)

v1.2.0

Used python-future and the futurize script to port the code to a common Python 2/3 base. Preprocess now depends on python-future. Moved code base to GitHub. (By Hans Petter Langtangen.)

Note that v1.1.0 has moved from code.google.com to github.com: https://github.com/trentm/preprocess, but this version is does not (yet) feature the enhancements in v1.2.0 and later.

v1.1.0

  • Move to code.google.com/p/preprocess for code hosting.
  • Re-org directory structure to assist with deployment to pypi and better installation with setup.py.
  • Pulled the content.types file that assists with filetype determination into preprocess.py. This makes preprocess.py fully independent and also makes the setup.py script simpler. The -c|--content-types-path option can be used to specify addition content types information.

v1.0.9

  • Fix the 'contentType' optional arg for #include's.
  • Add cheap XML content sniffing.

v1.0.8

  • Allow for JS and CSS-style comment delims in XML/HTML. Ideally this would deal with full lexing but that isn't going to happen soon.

v1.0.7

  • Allow explicit specification of content type.

v1.0.6

  • Add ability to include a filename mentioned in a define: #include VAR. (Note: v1.2.2 has -i option for substituting into parts of the filename.)

v1.0.5

  • Make sure to use the longest define names first when doing substitutions. This ensure that substitution in this line: FOO and BAR are FOOBAR will do the right thing if there are "FOO" and "FOOBAR" defines.

v1.0.4

  • Add WiX XML file extensions.
  • Add XSLT file extensions.

v1.0.3

  • TeX support (from Hans Petter Langtangen)

v1.0.2

  • Fix a bug with -k|--keep-lines and preprocessor some directives in ignored if blocks (undef, define, error, include): those lines were not kept. (bug noted by Eric Promislow)

v1.0.1

  • Fix documentation error for #define statement. The correct syntax is #define VAR [VALUE] while the docs used to say #define VAR[=VALUE]. (from Hans Petter Langtangen)
  • Correct '! ...' comment-style for Fortran -- the '!' can be on any column in Fortran 90. (from Hans Petter Langtangen)
  • Return a non-zero exit code on error.

v1.0.0

  • Update the test suite (it had been broken for quite a while) and add a Fortran test case.
  • Improve Fortran support to support any char in the first column to indicate a comment. (Idea from Hans Petter Langtangen)
  • Recognize '.f90' files as Fortran. (from Hans Petter Langtangen)
  • Add Java, C#, Shell script and PHP support. (from Hans Petter Langtangen)

v0.9.2

  • Add Fortran support (from Hans Petter Langtangen)
  • Ensure content.types gets written to "bindir" next to preprocess.py there so it can be picked up (from Hans Petter Langtangen).

v0.9.1

  • Fully read in the input file before processing. This allows preprocessing of a file onto itself.

v0.9.0

  • Change version attributes and semantics. Before: had a _version_ tuple. After: __version__ is a string, __version_info__ is a tuple.

v0.8.1

  • Mentioned #ifdef and #ifndef in documentation (these have been there for a while).
  • Add preprocess.exe to source package (should fix installation on Windows).
  • Incorporate Komodo changes:
    • change 171050: add Ruby support
    • change 160914: Only attempt to convert define strings from the command-line to int instead of eval'ing as any Python expression: which could surprise with strings that work as floats.
    • change 67962: Fix #include directives in preprocessed files.

v0.8.0

  • Move hosting to trentm.com. Improve the starter docs a little bit.

0.7.0:

  • Fix bug 1: Nested #if-blocks will not be properly handled.
  • Add 'Text' type for .txt files and default (with a warn) unknown filetypes to 'Text'. Text files are defined to use to #...-style comments to allow if/else/.../endif directives as in Perl/Python/Tcl files.

0.6.1:

  • Fix a bug where preprocessor statements were not ignored when not emitting. For example the following should not cause an error:
    # #if 0
    # #error womba womba womba
    # #endif
  • Fix a bug where multiple uses of preprocess.preprocess() in the same interpreter would erroneously re-use the same list of __preprocessedFiles. This could cause false detection of recursive #include's.
  • Fix #include, broken in 0.6.0.

0.6.0:

  • substitution: Variables can now replaced with their defined value in preprocessed file content. This is turned OFF by default because, IMO, substitution should not be done in program strings. I need to add lexing for all supported languages before I can do that properly. Substitution can be turned on with the --substitute command-line option or the subst=1 module interface option.
  • Add support for preprocessing HTML files.

0.5.0:

  • Add #error, #define, #undef, #ifdef and #ifndef statements.
  • #include statement, -I command line option and includePath module interface option to specify an include path
  • Add __FILE__ and __LINE__ default defines.
  • More strict and more helpful error messages:
    • Lines of the form #else <expr> and #endif <expr> no longer match.
    • error messages for illegal #if-block constructs
    • error messages for use of defined(BAR) instead of defined('BAR') in expressions
  • New "keep lines" option to output blank lines for skipped content lines and preprocessor statement lines (to preserve line numbers in the processed file).

0.4.0:

  • Add #elif preprocessor statement.
  • Add defined() built-in, e.g. #if defined('FOO')

0.3.2:

  • Make #if expressions Python code.
  • Change "defines" attribute of preprocess.preprocess().
  • Add -f|--force option to overwrite given output file.

0.2.0:

  • Add content types for C/C++.
  • Better module documentation.
  • You can define false vars on the command line now.
  • python setup.py install works.

0.1.0:

  • First release.

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C/C++ preprocessor-like tool for a range of languages (i.e., #ifdef, #ifndef, #if-else, #include, etc. for Python, LaTeX, Bash, JavaScript, "whatever").

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