NAME
    whouses - impact analysis in a clearmake build environment

MOTTO
    *"You give me a clean CR, I'll give you a clean impact analysis."*

SYNOPSIS
    Run this script with the "-help" option for usage details. Here are some
    additional sample usages with explanations:

      whouses foobar.h

    Shows all DOs that make use of any file matching /foobar.h/.

      whouses -recurse foobar.h

    Same as above but follows the chain of derived files recursively.

      whouses -exact foobar.h

    Shows all DOs that make use of the specified file. The "-exact" flag
    suppresses pattern matching and shows only DOs which reference the exact
    file.

DESCRIPTION
    Whouses provides a limited form of "impact analysis" in a clearmake
    build environment. This is different from traditional impact analysis
    (see TRUE CODE ANALYSIS COMPARED below for details). In particular, it
    operates at the granularity of files rather than language elements.

    Whouses is best described by example. Imagine you have a VOB /vobs_sw in
    which you build the incredibly simple application "foo" from "foo.c".
    You have a Makefile which compiles "foo.c" to "foo.o" and then links it
    to produce "foo". And let's further assume you've just done a build
    using clearmake.

    Thus, "foo" is a derived object (*DO*) which has a config record (*CR*)
    showing how it was made. Whouses analyzes that CR and prints the data in
    easy-to-read indented textual format. For instance:

            % whouses -do foo foo.c
            /vobs_sw/src/foo.c  =>
              /vobs_sw/src/foo.o

    The "-do foo" points to the derived object from which to extract and
    analyze the CR; it will be implicit in the remaining examples. The
    output indicates that "foo.o uses foo.c", or in other words that "foo.c"
    is a *contributor* to "foo.o". If we add the "-recurse" flag:

            % whouses -r foo.c
            /vobs_sw/src/foo.c =>
              /vobs_sw/src/foo.o
                /vobs_sw/src/foo

    We see all files to which "foo.c" contributes, indented according to how
    many generations removed they are. If we now add "-terminals"

            % whouses -r -t foo.c
            /vobs_sw/src/foo.c =>
              /vobs_sw/src/foo

    Intermediate targets such as "foo.o" are suppressed so we see only the
    "final" targets descended from "foo.c".

    We can also go in the other direction using "-backward":

            % whouses -b -e foo
            /vobs_sw/src/foo <=
              /vobs_sw/src/foo.o

    Which shows "foo.o" as a progenitor of "foo". Note that the arrow (<=)
    is turned around to indicate "-backward" mode. We also introduced the
    "-exact" flag here. By default, arguments to whouses are treated as
    patterns, not file names, and since "foo" has no extension it would have
    matched "foo.c" and "foo.o" as well. Use of "-exact" suppresses pattern
    matching.

    Of course we can go backward recursively as well:

            % whouses -back -exact -recurse foo
            /vobs_sw/src/foo <=
              /vobs_sw/src/foo.o
                  /vobs_sw/src/foo.c
                  /vobs_sw/src/foo.h
                  /vobs_sw/src/bar.h

    And discover that "foo.h" and "bar.h" were also used.

    When used recursively in the forward direction, this script answers the
    question "if I change file X, which derived files will need to be
    rebuilt"? This is the classic use, the one for which it was written.
    When used recursively in the backward direction it can depict the entire
    dependency tree in an easily readable format.

    Because extracting a recursive CR can be quite slow for large build
    systems, whouses provides ways of dumping the CR data to a file
    representation for speed. Use of "-save":

            % whouses -do foo -save ...

    will write out the data to foo.crdb. Subsequently, if foo.crdb exists it
    will be used unless a new the "-do" flag is used. See also the "-db" and
    "-fmt" flags.

    The default save format is that of Data::Dumper. It was chosen because
    it results in a nicely indented, human-readable text format file.

SELECTING DERIVED OBJECTS TO ANALYZE
    If a "-do" flag is given, the CRs are taken from the specified derived
    object(s). Multiple DOs may be specified with multiple "-do" flags or as
    a comma-separated list. Alternatively, if the "CRDB_DO" environment
    variable exists, its value is used as if specified with "-do".

    If no DOs are specified directly, "whouses" will look for stored DO data
    in files specified with "-db" or the "CRDB_DB" EV. The format is the
    same as above.

    Failing that, "whouses" will search for files named "*.crdb" along a
    path specified with "-dir" or "CRDB_PATH", defaulting to the current
    directory.

.AUDIT FILES
    As a special case, derived objects matching the Perl regular expression
    "/\.AUDIT/i" are ignored while traversing the recursive config spec.
    These are presumed to be *meta-DOs* by convention, which aren't part of
    the production build per se but rather pseudo-targets whose only purpose
    is to hold CRs referring back to all real deliverables. Thus if you
    construct your Makefile to create a meta-DO, you might want to name it
    ".AUDIT" or ".prog.AUDIT" or something.

ClearCase::CRDB
    Most of the logic is actually in the "ClearCase::CRDB" module; the
    "whouses" program is just a wrapper which uses the module. It's done
    this way so ClearCase::CRDB can provide an API for other potential tools
    which need to do CR analysis.

TRUE CODE ANALYSIS COMPARED
    Whouses is somewhat different from "real" impact analysis products.
    There are a number of such tools on the market, for example SNiFF+ from
    WindRiver. Typically these work by parsing the source code into some
    database representation which they can then analyze. It's a powerful
    technique but entails some tradeoffs:

  MINUSES
    *   A true code analysis tool must have knowledge of each programming
        language in use. I.e. to add support for Java, a Java parser must be
        added.

    *   A corollary of the above is that it requires lot of work by expert
        programmers. Thus the tools tend to be large, complex and expensive.
        Note: there is also *cscope* which is free, and maybe others. But as
        the name implies *cscope* is limited to C-like languages.

    *   Another corollary is that the tool must track each advance in each
        language, usually with significant lag time, and may not be
        bug-for-bug compatible with the compiler.

    *   Also, since analysis basically entails compiling the code, analysis
        of a large code base can take a long time, potentially as long or
        longer than actually building it.

    *   If some part of the application is written in a language the tool
        doesn't know (say Python or Visual Basic or Perl or an IDL), no
        analysis of that area can take place.

  PLUSES
    *   The analysis can be as granular and as language-knowledgeable as its
        developers can make it. If you change the signature of a C function,
        it can tell you how many uses of that function, in what files and on
        what lines, will need to change.

    *   A code analysis tool may be tied to a set of languages but by the
        same token it's NOT tied to a particular SCM or build system.

    The minuses above are not design flaws but inherent tradeoffs. For true
    code impact analysis you must buy one of these tools and accept the
    costs.

    Whouses doesn't attempt code analysis per se. As noted above, true code
    analysis programs are tied to language but not to an SCM system. Whouses
    flips this around; it doesn't care about language but it only works with
    build systems that use clearmake within a ClearCase VOB.

    Whouses takes the *config records* generated by clearmake, analyzes
    them, and tells you which files depend on which other files according to
    the CRs. Both techniques have fuzziness of different kinds: code
    analysis predicts what the real compiler will do based on what the
    analysis compiler found; divergence is possible. Whouses predicts what
    the next build will do based on what the last build did. If changes have
    taken place since, divergence is possible here too.

AUTHOR
    David Boyce <dsbperl AT boyski.com>

COPYRIGHT
    Copyright (c) 2000-2006 David Boyce. All rights reserved. This Perl
    program is free software; you may redistribute and/or modify it under
    the same terms as Perl itself.

STATUS
    This is currently ALPHA code and thus I reserve the right to change the
    UI incompatibly. At some point I'll bump the version suitably and remove
    this warning, which will constitute an (almost) ironclad promise to
    leave the interface alone.

PORTING
    I've tried to write this in a platform independent style but it hasn't
    been heavily tested on Windows (actually it hasn't been *all* that
    heavily tested anywhere). It does pass "make test" on Windows and
    appears to work fine in limited testing.

SEE ALSO
    perl(1), ClearCase::CRDB(3), "cleartool man catcr"