#!/usr/bin/env python """\ @file run_build_test.py @author Nat Goodspeed @date 2009-09-03 @brief Helper script to allow CMake to run some command after setting environment variables. CMake has commands to run an external program. But remember that each CMake command must be backed by multiple build-system implementations. Unfortunately it seems CMake can't promise that every target build system can set specified environment variables before running the external program of interest. This helper script is a workaround. It simply sets the requested environment variables and then executes the program specified on the rest of its command line. Example: python run_build_test.py -DFOO=bar myprog somearg otherarg sets environment variable FOO=bar, then runs: myprog somearg otherarg $LicenseInfo:firstyear=2009&license=viewerlgpl$ Second Life Viewer Source Code Copyright (C) 2009-2010, Linden Research, Inc. This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; version 2.1 of the License only. This library 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 Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA $/LicenseInfo$ """ import os import sys import subprocess def main(command, libpath=[], vars={}): """Pass: command is a sequence (e.g. a list) of strings. The first item in the list must be the command name, the rest are its arguments. libpath is a sequence of directory pathnames. These will be appended to the platform-specific dynamic library search path environment variable. vars is a dict of arbitrary (var, value) pairs to be added to the environment before running 'command'. This function runs the specified command, waits for it to terminate and returns its return code. This will be negative if the command terminated with a signal, else it will be the process's specified exit code. """ # Handle platform-dependent libpath first. if sys.platform == "win32": lpvars = ["PATH"] elif sys.platform == "darwin": lpvars = ["LD_LIBRARY_PATH", "DYLD_LIBRARY_PATH"] elif sys.platform.startswith("linux"): lpvars = ["LD_LIBRARY_PATH"] else: # No idea what the right pathname might be! But only crump if this # feature is requested. if libpath: raise NotImplemented("run_build_test: unknown platform %s" % sys.platform) lpvars = [] for var in lpvars: # Split the existing path. Bear in mind that the variable in question # might not exist; instead of KeyError, just use an empty string. dirs = os.environ.get(var, "").split(os.pathsep) # Append the sequence in libpath print "%s += %r" % (var, libpath) for dir in libpath: # append system paths at the end if dir in ('/lib', '/usr/lib'): dirs.append(dir) # prepend non-system paths else: dirs.insert(0, dir) # Filter out some useless pieces clean_dirs = [] for dir in dirs: if dir and dir not in ('', '.'): clean_dirs.append(dir) # Now rebuild the path string. This way we use a minimum of separators # -- and we avoid adding a pointless separator when libpath is empty. os.environ[var] = os.pathsep.join(clean_dirs) print "%s = %r" % (var, os.environ[var]) # Now handle arbitrary environment variables. The tricky part is ensuring # that all the keys and values we try to pass are actually strings. if vars: print "Setting:" for key, value in vars.iteritems(): print "%s=%s" % (key, value) os.environ.update(dict([(str(key), str(value)) for key, value in vars.iteritems()])) # Run the child process. print "Running: %s" % " ".join(command) return subprocess.call(command) if __name__ == "__main__": from optparse import OptionParser parser = OptionParser(usage="usage: %prog [options] command args...") # We want optparse support for the options we ourselves handle -- but we # DO NOT want it looking at options for the executable we intend to run, # rejecting them as invalid because we don't define them. So configure the # parser to stop looking for options as soon as it sees the first # positional argument (traditional Unix syntax). parser.disable_interspersed_args() parser.add_option("-D", "--define", dest="vars", default=[], action="append", metavar="VAR=value", help="Add VAR=value to the env variables defined") parser.add_option("-l", "--libpath", dest="libpath", default=[], action="append", metavar="DIR", help="Add DIR to the platform-dependent DLL search path") opts, args = parser.parse_args() # What we have in opts.vars is a list of strings of the form "VAR=value" # or possibly just "VAR". What we want is a dict. We can build that dict by # constructing a list of ["VAR", "value"] pairs -- so split each # "VAR=value" string on the '=' sign (but only once, in case we have # "VAR=some=user=string"). To handle the case of just "VAR", append "" to # the list returned by split(), then slice off anything after the pair we # want. rc = main(command=args, libpath=opts.libpath, vars=dict([(pair.split('=', 1) + [""])[:2] for pair in opts.vars])) if rc not in (None, 0): print >>sys.stderr, "Failure running: %s" % " ".join(args) print >>sys.stderr, "Error: %s" % rc sys.exit((rc < 0) and 255 or rc)