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/*
* MANIFEST: use of SCons in project config file to build itself
*
* SCons has a Repository feature, introduced in SCons 0.09, that was
* designed to work well with Aegis.
*/
/*
* The build_command field of the project config file is used to invoke
* the relevant build command. This command tells SCons where to find
* the rules.
*
* Our chicken-and-egg dilemma is this: we want to use the version of
* SCons under development in an Aegis change to build itself. But the
* pieces of SCons are likely only partly in this change, and partly in
* baselines.
*
* Python only imports things on a module-by-module basis--which is to
* say, once it finds __init__.py in a given directory, it assumes that
* all other files in that module are in the same directory. But that's
* not the way Aegis works, because if a file hasn't changed on the
* branch, it will only be in its parent's baseline directory.
*
* Aegis' mechanism for working around this sort of problem is to make
* symlinks to the proper baseline versions of each file, which makes
* it look like everything is in the local tree. That's unattractive,
* though, because we really want to eat our own dog food and use the
* SCons -Y options to pull things from the baseline repositories.
*
* So our solution (suggested by Anthony Roach) is a bootstrap.py script
* that does some Aegis-like searching through the baseline directories
* and makes a bootstrap copy of the version of SCons under development
* that we can use for building. After it makes this copy of SCons, it
* executes it with the same command-line arguments we supplied (and
* setting $SCONS_LIB_DIR to the right directory) so we can use it
* here with command-line options as if it were SCons itself. (Note,
* however, that bootstrap.py only understands the specific command-line
* options already in use here, so if you change the call below to add
* some other SCons options, you may have to modify bootstrap.py to
* recognize them.
*
* The ${Source bootstrap.py} substitution finds bootstrap.py wherever
* it may be in the Aegis baselines.
*
* The long -Y${SUBSTitute...} substitution takes the Aegis baseline
* search path and turns it into the right -Y command-line options for
* SCons.
*
* The rest of the substitutions (${DEVeloper}, etc.) should be obvious.
*
* Look in aesub(5) for more information about command substitutions.
*/
build_command = "python1.5 ${Source bootstrap.py} -Y${SUBSTitute : \\ -Y $Search_Path} date='${DAte %Y/%m/%d %H:%M:%S}' developer=${DEVeloper} version=${VERsion} change=${Change}";
/*
* SCons removes its targets before constructing them, which qualifies it
* for the following entry in the config file. The files must be removed
* first, otherwise the baseline would cease to be self-consistent.
*/
link_integration_directory = true;
/*
* This is set temporarily to allow us to build using the SCons
* currently checked in to the src directory.
create_symlinks_before_build = true;
*/
/*
* aegis - project change supervisor
* This file is in the Public Domain, 1995, 1998 Peter Miller.
*
* MANIFEST: example of using rcs in the project config file
*
* The entries for the commands are listed below. RCS uses a slightly
* different model than aegis wants, so some maneuvering is required.
* The command strings in this section assume that the RCS commands ci and co
* and rcs and rlog are in the command search PATH, but you may like to
* hard-wire the paths, or set PATH at the start of each. You should also note
* that the strings are always handed to the Bourne shell to be executed, and
* are set to exit with an error immediately a sub-command fails.
*
* In these commands, the RCS file is kept unlocked, since only the owner will
* be checking changes in. The RCS functionality for coordinating shared
* access is not required.
*
* One advantage of using RCS version 5.6 or later is that binary files are
* supported, should you want to have binary files in the baseline.
*
* The ${quote ...} construct is used to quote filenames which contain
* shell special characters. A minimum of quoting is performed, so if
* the filenames do not contail shell special characters, no quotes will
* be used.
*/
/*
* This command is used to create a new file history.
* This command is always executed as the project owner.
* The following substitutions are available:
*
* ${Input}
* absolute path of the source file
* ${History}
* absolute path of the history file
*
* The "ci -f" option is used to specify that a copy is to be checked-in even
* if there are no changes.
* The "ci -u" option is used to specify that an unlocked copy will remain in
* the baseline.
* The "ci -d" option is used to specify that the file time rather than the
* current time is to be used for the new revision.
* The "ci -M" option is used to specify that the mode date on the original
* file is not to be altered.
* The "ci -t" option is used to specify that there is to be no description
* text for the new RCS file.
* The "ci -m" option is used to specify that the change number is to be stored
* in the file log if this is actually an update (typically from aenf
* after aerm on the same file name).
* The "rcs -U" option is used to specify that the new RCS file is to have
* unstrict locking.
* The "rcs -kk" option is used to specify that keyword substitution is
* disabled (only keyword names, not values, are substituted).
*/
history_create_command =
"ci -f -u -d -M -m$c -t/dev/null ${quote $input} ${quote $history,v}; \
rcs -kk -U ${quote $history,v}";
/*
* This command is used to get a specific edit back from history.
* This command is always executed as the project owner.
* The following substitutions are available:
*
* ${History}
* absolute path of the history file
* ${Edit}
* edit number, as given by history_\%query_\%command
* ${Output}
* absolute path of the destination file
*
* The "co -r" option is used to specify the edit to be retrieved.
* The "co -p" option is used to specify that the results be printed on the
* standard output; this is because the destination filename will never
* look anything like the history source filename.
* The "rcs -kk" option is used to specify that keyword substitution is
* disabled (only keyword names, not values, are substituted).
*/
history_get_command =
"co -kk -r${quote $edit} -p ${quote $history,v} > ${quote $output}";
/*
* This command is used to add a new "top-most" entry to the history file.
* This command is always executed as the project owner.
* The following substitutions are available:
*
* ${Input}
* absolute path of source file
* ${History}
* absolute path of history file
*
* The "ci -f" option is used to specify that a copy is to be checked-in even
* if there are no changes.
* The "ci -u" option is used to specify that an unlocked copy will remain in
* the baseline.
* The "ci -d" option is used to specify that the file time rather than the
* current time is to be used for the new revision.
* The "ci -M" option is used to specify that the mode date on the original
* file is not to be altered.
* The "ci -m" option is used to specify that the change number is to be stored
* in the file log, which allows rlog to be used to find the change
* numbers to which each revision of the file corresponds.
*
* It is possible for a a very cautious approach has been taken, in which case
* the history_put_command may be set to the same string specified above for
* the history_create_command.
*/
history_put_command =
"ci -f -u -d -M -m$c ${quote $input} ${quote $history,v}";
/*
* This command is used to query what the history mechanism calls the top-most
* edit of a history file. The result may be any arbitrary string, it need not
* be anything like a number, just so long as it uniquely identifies the edit
* for use by the history_get_command at a later date. The edit number is to
* be printed on the standard output. This command is always executed as the
* project owner.
*
* The following substitutions are available:
*
* ${History}
* absolute path of the history file
*/
history_query_command =
"rlog -r ${quote $history,v} | awk '/^head:/ {print $$2}'";
/*
* RCS also provides a merge program, which can be used to provide a three-way
* merge. It has an ouput format some sites prefer to the fmerge output.
*
* This command is used by aed(1) to produce a difference listing when a file
* in the development directory is out of date compared to the current version
* in the baseline.
*
* All of the command substitutions described in aesub(5) are available.
* In addition, the following substitutions are also available:
*
* ${ORiginal}
* The absolute path name of a file containing the common ancestor
* version of ${MostRecent} and {$Input}. Usually the version originally
* copied into the change. Usually in a temporary file.
* ${Most_Recent}
* The absolute path name of a file containing the most recent version.
* Usually in the baseline.
* ${Input}
* The absolute path name of the edited version of the file. Usually in
* the development directory.
* ${Output}
* The absolute path name of the file in which to write the difference
* listing. Usually in the development directory.
*
* An exit status of 0 means successful, even of the files differ (and they
* usually do). An exit status which is non-zero means something is wrong.
*
* The "merge -L" options are used to specify labels for the baseline and the
* development directory, respecticvely, when conflict lines are inserted
* into the result.
* The "merge -p" options is used to specify that the results are to be printed
* on the standard output.
*/
diff3_command =
"set +e; \
merge -p -L baseline -L C$c ${quote $mostrecent} ${quote $original} \
${quote $input} > ${quote $output}; \
test $? -le 1";
/*
* The diff command in Red Hat 8.0 changed the exit status so it *fails*
* when *it* thinks it's trying to diff a binary (non-ASCII-text) file.
* The -a option disables this behavior and makes diff's exit status
* behave like it used to, even on any binary files we have checked in.
*/
diff_command =
"set +e; \
diff -a -c ${quote $original} ${quote $input} > ${quote $output}; \
test $? -le 1";
/*
* We use a runtest.py script to execute tests. This takes care of
* massaging environment variables and the like to test against the
* unpacked package in the current directory.
*
* Note that we must include $spe in the batch_test_command line (so
* that Aegis thinks we're smart about testing ourselves against the
* baseline) but we don't actually need it. Our tests always run
* relative to the package built under the current directory, which
* is set appropriately during a baseline test. So we just use the
* proper aesub variable to comment out the expanded $spe.
*/
test_command = "python1.5 ${Source runtest.py Absolute} -p tar-gz -t -v ${SUBSTitute '\\.[CD][0-9]+$' '' ${VERsion}} -q --sp ${Search_Path} --spe ${Search_Path_Executable} ${File_Name}";
batch_test_command = "python1.5 ${Source runtest.py Absolute} -p tar-gz -t -v ${SUBSTitute '\\.[CD][0-9]+$' '' ${VERsion}} -o ${Output} --aegis --sp ${Search_Path} --spe ${Search_Path_Executable} ${File_Names}";
new_test_filename = "test/CHANGETHIS.py";
/*
*
*/
file_template =
[
{
pattern = [ "src/engine/*__init__.py" ];
body = "${read_file ${source template/__init__.py abs}}";
},
{
pattern = [ "src/engine/*Tests.py" ];
body = "${read_file ${source template/Tests.py abs}}";
},
{
pattern = [ "src/engine/*.py" ];
body = "${read_file ${source template/file.py abs}}";
},
{
pattern = [ "test/*.py" ];
body = "${read_file ${source template/test.py abs}}";
},
];
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