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-<!--
-
-  Copyright (c) 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010, 2011, 2012, 2013 The SCons Foundation
-
-  Permission is hereby granted, free of charge, to any person obtaining
-  a copy of this software and associated documentation files (the
-  "Software"), to deal in the Software without restriction, including
-  without limitation the rights to use, copy, modify, merge, publish,
-  distribute, sublicense, and/or sell copies of the Software, and to
-  permit persons to whom the Software is furnished to do so, subject to
-  the following conditions:
-
-  The above copyright notice and this permission notice shall be included
-  in all copies or substantial portions of the Software.
-
-  THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY
-  KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE
-  WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
-  NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
-  LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
-  OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
-  WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
-
--->
-
-<!--
-
-=head1 Invoking Cons
-
-The C<cons> command is usually invoked from the root of the build tree. A
-F<Construct> file must exist in that directory. If the C<-f> argument is
-used, then an alternate F<Construct> file may be used (and, possibly, an
-alternate root, since C<cons> will cd to F<Construct> file's containing
-directory).
-
-If C<cons> is invoked from a child of the root of the build tree with
-the C<-t> argument, it will walk up the directory hierarchy looking for a
-F<Construct> file.  (An alternate name may still be specified with C<-f>.)
-The targets supplied on the command line will be modified to be relative
-to the discovered F<Construct> file.  For example, from a directory
-containing a top-level F<Construct> file, the following invocation:
-
-  % cd libfoo/subdir
-  % cons -t target
-
-is exactly equivalent to:
-
-  % cons libfoo/subdir/target
-
-If there are any C<Default> targets specified in the directory hierarchy's
-F<Construct> or F<Conscript> files, only the default targets at or below
-the directory from which C<cons -t> was invoked will be built.
-
-The command is invoked as follows:
-
-  cons <arguments> ,  <construct-args>
-
-where I<arguments> can be any of the following, in any order:
-
-=over 10
-
-=item I<target>
-
-Build the specified target. If I<target> is a directory, then recursively
-build everything within that directory.
-
-=item I<+pattern>
-
-Limit the F<Conscript> files considered to just those that match I<pattern>,
-which is a Perl regular expression. Multiple C<+> arguments are accepted.
-
-=item I<name>=<val>
-
-Sets I<name> to value I<val> in the C<ARG> hash passed to the top-level
-F<Construct> file.
-
-=item C<-cc>
-
-Show command that would have been executed, when retrieving from cache. No
-indication that the file has been retrieved is given; this is useful for
-generating build logs that can be compared with real build logs.
-
-=item C<-cd>
-
-Disable all caching. Do not retrieve from cache nor flush to cache.
-
-=item C<-cr>
-
-Build dependencies in random order. This is useful when building multiple
-similar trees with caching enabled.
-
-=item C<-cs>
-
-Synchronize existing build targets that are found to be up-to-date with
-cache. This is useful if caching has been disabled with -cc or just recently
-enabled with UseCache.
-
-=item C<-d>
-
-Enable dependency debugging.
-
-=item C<-f> <file>
-
-Use the specified file instead of F<Construct> (but first change to
-containing directory of I<file>).
-
-=item C<-h>
-
-Show a help message local to the current build if one such is defined, and
-exit.
-
-=item C<-k>
-
-Keep going as far as possible after errors.
-
-=item C<-o> <file>
-
-Read override file I<file>.
-
-=item C<-p>
-
-Show construction products in specified trees. No build is attempted.
-
-=item C<-pa>
-
-Show construction products and associated actions. No build is attempted.
-
-=item C<-pw>
-
-Show products and where they are defined. No build is attempted.
-
-=item C<-q>
-
-Make the build quiet.  Multiple C<-q> options may be specified.
-
-A single C<-q> options suppress messages about Installing and Removing
-targets.
-
-Two C<-q> options suppress build command lines and target up-to-date
-messages.
-
-=item C<-r>
-
-Remove construction products associated with <targets>. No build is
-attempted.
-
-=item C<-R> <repos>
-
-Search for files in I<repos>.  Multiple B<-R> I<repos> directories are
-searched in the order specified.
-
-=item C<-S> <pkg>
-
-Use the sig::<pkg> package to calculate.  Supported <pkg> values
-include "md5" for MD5 signature calculation and "md5::debug" for debug
-information about MD5 signature calculation.
-
-If the specified package ends in <::debug>, signature debug information
-will be printed to the file name specified in the C<CONS_SIG_DEBUG>
-environment variable, or to standard output if the environment variable
-is not set.
-
-=item C<-t>
-
-Traverse up the directory hierarchy looking for a F<Construct> file,
-if none exists in the current directory.  Targets will be modified to
-be relative to the F<Construct> file.
-
-Internally, C<cons> will change its working directory to the directory
-which contains the top-level F<Construct> file and report:
-
-  cons: Entering directory `top-level-directory'
-
-This message indicates to an invoking editor (such as emacs) or build
-environment that Cons will now report all file names relative to the
-top-level directory.  This message can not be suppressed with the C<-q>
-option.
-
-=item C<-v>
-
-Show C<cons> version and continue processing.
-
-=item C<-V>
-
-Show C<cons> version and exit.
-
-=item C<-wf> <file>
-
-Write all filenames considered into I<file>.
-
-=item C<-x>
-
-Show a help message similar to this one, and exit.
-
-=back
-
-And I<construct-args> can be any arguments that you wish to process in the
-F<Construct> file. Note that there should be a B<-,-> separating the arguments
-to cons and the arguments that you wish to process in the F<Construct> file.
-
-Processing of I<construct-args> can be done by any standard package like
-B<Getopt> or its variants, or any user defined package. B<cons> will pass in
-the I<construct-args> as B<@ARGV> and will not attempt to interpret anything
-after the B<-,->.
-
-  % cons -R /usr/local/repository -d os=solaris +driver -,- -c test -f DEBUG
-
-would pass the following to cons
-
-  -R /usr/local/repository -d os=solaris +driver
-
-and the following, to the top level F<Construct> file as B<@ARGV>
-
-  -c test -f DEBUG
-
-Note that C<cons -r .> is equivalent to a full recursive C<make clean>,
-but requires no support in the F<Construct> file or any F<Conscript>
-files. This is most useful if you are compiling files into source
-directories (if you separate the F<build> and F<export> directories,
-then you can just remove the directories).
-
-The options C<-p>, C<-pa>, and C<-pw> are extremely useful for use as an aid
-in reading scripts or debugging them. If you want to know what script
-installs F<export/include/foo.h>, for example, just type:
-
-  % cons -pw export/include/foo.h
-
-=head1 Selective builds
-
-Cons provides two methods for reducing the size of given build. The first is
-by specifying targets on the command line, and the second is a method for
-pruning the build tree. We'll consider target specification first.
-
-
-=head2 Selective targeting
-
-Like make, Cons allows the specification of ``targets'' on the command
-line. Cons targets may be either files or directories. When a directory is
-specified, this is simply a short-hand notation for every derivable
-product-,-that Cons knows about-,-in the specified directory and below. For
-example:
-
-  % cons build/hello/hello.o
-
-means build F<hello.o> and everything that F<hello.o> might need. This is
-from a previous version of the B<Hello, World!> program in which F<hello.o>
-depended upon F<export/include/world.h>. If that file is not up-to-date
-(because someone modified F<src/world/world.h)>, then it will be rebuilt,
-even though it is in a directory remote from F<build/hello>.
-
-In this example:
-
-  % cons build
-
-Everything in the F<build> directory is built, if necessary. Again, this may
-cause more files to be built. In particular, both F<export/include/world.h>
-and F<export/lib/libworld.a> are required by the F<build/hello> directory,
-and so they will be built if they are out-of-date.
-
-If we do, instead:
-
-  % cons export
-
-then only the files that should be installed in the export directory will be
-rebuilt, if necessary, and then installed there. Note that C<cons build>
-might build files that C<cons export> doesn't build, and vice-versa.
-
-
-=head1 Build Pruning
-
-In conjunction with target selection, B<build pruning> can be used to reduce
-the scope of the build. In the previous peAcH and baNaNa example, we have
-already seen how script-driven build pruning can be used to make only half
-of the potential build available for any given invocation of C<cons>. Cons
-also provides, as a convenience, a command line convention that allows you
-to specify which F<Conscript> files actually get ``built''-,-that is,
-incorporated into the build tree. For example:
-
-  % cons build +world
-
-The C<+> argument introduces a Perl regular expression. This must, of
-course, be quoted at the shell level if there are any shell meta-characters
-within the expression. The expression is matched against each F<Conscript>
-file which has been mentioned in a C<Build> statement, and only those
-scripts with matching names are actually incorporated into the build
-tree. Multiple such arguments are allowed, in which case a match against any
-of them is sufficient to cause a script to be included.
-
-In the example, above, the F<hello> program will not be built, since Cons
-will have no knowledge of the script F<hello/Conscript>. The F<libworld.a>
-archive will be built, however, if need be.
-
-There are a couple of uses for build pruning via the command line. Perhaps
-the most useful is the ability to make local changes, and then, with
-sufficient knowledge of the consequences of those changes, restrict the size
-of the build tree in order to speed up the rebuild time. A second use for
-build pruning is to actively prevent the recompilation of certain files that
-you know will recompile due to, for example, a modified header file. You may
-know that either the changes to the header file are immaterial, or that the
-changes may be safely ignored for most of the tree, for testing
-purposes.With Cons, the view is that it is pragmatic to admit this type of
-behavior, with the understanding that on the next full build everything that
-needs to be rebuilt will be. There is no equivalent to a ``make touch''
-command, to mark files as permanently up-to-date. So any risk that is
-incurred by build pruning is mitigated. For release quality work, obviously,
-we recommend that you do not use build pruning (it's perfectly OK to use
-during integration, however, for checking compilation, etc. Just be sure to
-do an unconstrained build before committing the integration).
-
--->
-
-  <para>
-
-    XXX
-
-  </para>
-
-  <section>
-  <title>Command-Line Options</title>
-
-    <para>
-
-    XXX
-
-    </para>
-
-  </section>
-
-  <section>
-  <title>Getting at Command-Line Arguments</title>
-
-    <para>
-
-    XXX
-
-    </para>
-
-  </section>
-
-  <section>
-  <title>Selective Builds</title>
-
-    <para>
-
-    XXX
-
-    </para>
-
-  </section>
-
-  <!--
-
-  <section>
-  <title>Build Pruning</title>
-
-    <para>
-
-    XXX
-
-    </para>
-
-  </section>
-
-  -->
-
-  <section>
-  <title>Overriding Construction Variables</title>
-
-    <para>
-
-    XXX
-
-    </para>
-
-  </section>