/usr/bin/catkin_make is in catkin 0.7.8-1.
This file is owned by root:root, with mode 0o755.
The actual contents of the file can be viewed below.
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from __future__ import print_function
import argparse
import subprocess
import sys
import os
# find the import relatively if available to work before installing catkin or overlaying installed version
if os.path.exists(os.path.join(os.path.dirname(__file__), '..', 'python', 'catkin', '__init__.py')):
sys.path.insert(0, os.path.join(os.path.dirname(__file__), '..', 'python'))
from catkin.init_workspace import init_workspace
from catkin.terminal_color import disable_ANSI_colors, fmt
from catkin.builder import cmake_input_changed
from catkin.builder import determine_path_argument
from catkin.builder import extract_cmake_and_make_arguments
from catkin.builder import get_package_names_with_recursive_dependencies
from catkin.builder import handle_make_arguments
from catkin.builder import print_command_banner
from catkin.builder import run_command
from catkin.builder import run_command_colorized
from catkin_pkg.packages import find_packages
from catkin_pkg.tool_detection import get_previous_tool_used_on_the_space
from catkin_pkg.tool_detection import mark_space_as_built_by
from catkin_pkg.workspaces import ensure_workspace_marker
def main():
args = _parse_args()
cmake_args = args.cmake_args
# force --no-color if stdout is non-interactive
if not sys.stdout.isatty():
args.no_color = True
# disable colors if asked
if args.no_color:
disable_ANSI_colors()
# use PWD in order to work when being invoked in a symlinked location
cwd = os.getenv('PWD', os.curdir)
# verify that the base path is known
base_path = os.path.abspath(os.path.join(cwd, args.directory))
if not os.path.exists(base_path):
return fmt('@{rf}The specified base path @{boldon}"%s"@{boldoff} '
'does not exist' % base_path)
print('Base path: %s' % base_path)
# verify that the base path does not contain a package.xml
if os.path.exists(os.path.join(base_path, 'package.xml')):
return fmt('@{rf}The specified base path @{boldon}"%s"@{boldoff} '
'contains a package but "catkin_make" must be invoked '
'in the root of workspace' % base_path)
# determine source space
source_path = determine_path_argument(cwd, base_path, args.source, 'src')
if not os.path.exists(source_path):
return fmt('@{rf}The specified source space @{boldon}"%s"@{boldoff} '
'does not exist' % source_path)
print('Source space: %s' % source_path)
# verify that the base path does not contain a CMakeLists.txt
# except if base path equals source path
if (os.path.realpath(base_path) != os.path.realpath(source_path)) \
and os.path.exists(os.path.join(base_path, 'CMakeLists.txt')):
return fmt('@{rf}The specified base path @{boldon}"%s"@{boldoff} '
'contains a CMakeLists.txt but "catkin_make" must be '
'invoked in the root of workspace' % base_path)
build_path = determine_path_argument(cwd, base_path, args.build, 'build')
print('Build space: %s' % build_path)
# ensure the build space was previously built by catkin_make
previous_tool = get_previous_tool_used_on_the_space(build_path)
if previous_tool is not None and previous_tool != 'catkin_make':
if args.override_build_tool_check:
print(fmt(
"@{yf}Warning: build space at '%s' was previously built by '%s', "
"but --override-build-tool-check was passed so continuing anyways."
% (build_path, previous_tool)))
else:
return fmt(
"@{rf}The build space at '%s' was previously built by '%s'. "
"Please remove the build space or pick a different build space."
% (build_path, previous_tool))
mark_space_as_built_by(build_path, 'catkin_make')
# determine devel space
devel_arg = None
prefix = '-DCATKIN_DEVEL_PREFIX='
devel_prefix = [a for a in cmake_args if a.startswith(prefix)]
if devel_prefix:
devel_arg = devel_prefix[-1][len(prefix):]
cmake_args = [a for a in cmake_args if a not in devel_prefix]
devel_path = determine_path_argument(cwd, base_path, devel_arg, 'devel')
print('Devel space: %s' % devel_path)
cmake_args.append('-DCATKIN_DEVEL_PREFIX=%s' % devel_path)
# ensure the devel space was previously built by catkin_make
previous_tool = get_previous_tool_used_on_the_space(devel_path)
if previous_tool is not None and previous_tool != 'catkin_make':
if args.override_build_tool_check:
print(fmt(
"@{yf}Warning: devel space at '%s' was previously built by '%s', "
"but --override-build-tool-check was passed so continuing anyways."
% (devel_path, previous_tool)))
else:
return fmt(
"@{rf}The devel space at '%s' was previously built by '%s'. "
"Please remove the devel space or pick a different devel space."
% (devel_path, previous_tool))
mark_space_as_built_by(devel_path, 'catkin_make')
# determine install space
install_arg = None
prefix = '-DCMAKE_INSTALL_PREFIX='
install_prefix = [a for a in cmake_args if a.startswith(prefix)]
if install_prefix:
install_arg = install_prefix[-1][len(prefix):]
cmake_args = [a for a in cmake_args if a not in install_prefix]
install_path = determine_path_argument(
cwd, base_path, install_arg, 'install')
print('Install space: %s' % install_path)
cmake_args.append('-DCMAKE_INSTALL_PREFIX=%s' % install_path)
# ensure build folder exists
if not os.path.exists(build_path):
os.mkdir(build_path)
# ensure toplevel cmake file exists
toplevel_cmake = os.path.join(source_path, 'CMakeLists.txt')
if not os.path.exists(toplevel_cmake):
try:
init_workspace(source_path)
except Exception as e:
return fmt('@{rf}Creating the toplevel cmake file failed:@| %s' % str(e))
packages = find_packages(source_path, exclude_subspaces=True)
# whitelist packages and their dependencies in workspace
if args.only_pkg_with_deps:
package_names = [p.name for p in packages.values()]
unknown_packages = [name for name in args.only_pkg_with_deps if name not in package_names]
if len(unknown_packages) == len(args.only_pkg_with_deps):
# all package names are unknown
return fmt(
'@{rf}Packages @{boldon}"%s"@{boldoff} not found in the workspace'
% ', '.join(args.only_pkg_with_deps))
if unknown_packages:
# ignore unknown packages
print(fmt(
'@{yf}Packages @{boldon}"%s"@{boldoff} not found in the workspace - ignoring them'
% ', '.join(sorted(unknown_packages))), file=sys.stderr)
args.only_pkg_with_deps = [name for name in args.only_pkg_with_deps if name in package_names]
whitelist_pkg_names = get_package_names_with_recursive_dependencies(packages, args.only_pkg_with_deps)
print('Whitelisted packages: %s' % ', '.join(sorted(whitelist_pkg_names)))
packages = {path: p for path, p in packages.items() if p.name in whitelist_pkg_names}
cmake_args += ['-DCATKIN_WHITELIST_PACKAGES=%s' % ';'.join(sorted(whitelist_pkg_names))]
# verify that specified package exists in workspace
if args.pkg:
packages_by_name = {p.name: path for path, p in packages.items()}
unknown_packages = [name for name in args.pkg if name not in packages_by_name]
if len(unknown_packages) == len(args.pkg):
# all package names are unknown
return fmt('@{rf}Packages @{boldon}"%s"@{boldoff} not found in the workspace' % ', '.join(args.pkg))
if unknown_packages:
# ignore unknown packages
print(fmt(
'@{yf}Packages @{boldon}"%s"@{boldoff} not found in the workspace - ignoring them'
% ', '.join(sorted(unknown_packages))), file=sys.stderr)
args.pkg = [name for name in args.pkg if name in packages_by_name]
if not [arg for arg in cmake_args if arg.startswith('-G')]:
if args.use_ninja:
cmake_args += ['-G', 'Ninja']
elif args.use_nmake:
cmake_args += ['-G', 'NMake Makefiles']
else:
cmake_args += ['-G', 'Unix Makefiles']
elif args.use_ninja or args.use_nmake:
return fmt("@{rf}Error: either specify a generator using '-G...' or '--use-[ninja|nmake]' but not both")
# check if cmake must be run (either for a changed list of package paths or changed cmake arguments)
force_cmake = cmake_input_changed(packages, build_path, cmake_args=cmake_args)
# consider calling cmake
if not args.use_ninja:
makefile = os.path.join(build_path, 'Makefile')
else:
makefile = os.path.join(build_path, 'build.ninja')
if not os.path.exists(makefile) or args.force_cmake or force_cmake:
cmd = [
'cmake',
source_path,
]
cmd += cmake_args
try:
print_command_banner(cmd, build_path, color=not args.no_color)
if args.no_color:
run_command(cmd, build_path)
else:
run_command_colorized(cmd, build_path)
except subprocess.CalledProcessError:
return fmt('@{rf}Invoking @{boldon}"cmake"@{boldoff} failed')
else:
if args.use_ninja:
cmd = ['ninja', 'build.ninja']
elif args.use_nmake:
cmd = ['nmake', 'cmake_check_build_system']
else:
cmd = ['make', 'cmake_check_build_system']
try:
print_command_banner(cmd, build_path, color=not args.no_color)
if args.no_color:
run_command(cmd, build_path)
else:
run_command_colorized(cmd, build_path)
except subprocess.CalledProcessError:
return fmt('@{rf}Invoking @{boldon}"%s"@{boldoff} failed' % ' '.join(cmd))
ensure_workspace_marker(base_path)
# invoke make
if args.use_ninja:
cmd = ['ninja']
elif args.use_nmake:
cmd = ['nmake']
else:
cmd = ['make']
cmd.extend(handle_make_arguments(args.make_args))
try:
if not args.pkg:
make_paths = [build_path]
else:
make_paths = [os.path.join(build_path, packages_by_name[name]) for name in args.pkg]
for make_path in make_paths:
print_command_banner(cmd, make_path, color=not args.no_color)
run_command(cmd, make_path)
except subprocess.CalledProcessError:
return fmt('@{rf}Invoking @{boldon}"%s"@{boldoff} failed' % ' '.join(cmd))
def _parse_args(args=sys.argv[1:]):
args, cmake_args, make_args = extract_cmake_and_make_arguments(args)
parser = argparse.ArgumentParser(description=(
'Creates the catkin workspace layout and invokes cmake and make. '
'Any argument starting with "-D" will be passed to the "cmake" invocation. '
'The -j (--jobs) and -l (--load-average) arguments for make are also extracted and passed to make directly. '
'If no -j/-l arguments are given, then the MAKEFLAGS environment variable is searched for -j/-l flags. '
'If found then no -j/-l flags are passed to make explicitly (as not to override the MAKEFLAGS). '
'If MAKEFLAGS is not set then the job flags in the ROS_PARALLEL_JOBS environment variable are passed to make. '
'Note: ROS_PARALLEL_JOBS should contain the exact job flags, not just a number. '
'See: http://www.ros.org/wiki/ROS/EnvironmentVariables#ROS_PARALLEL_JOBS '
'If ROS_PARALLEL_JOBS is not set then the flags "-jn -ln" are used, where n is number of CPU cores. '
'If the number of CPU cores cannot be determined then no flags are given to make. '
'All other arguments (i.e. target names) are passed to the "make" invocation. '
'To ignore certain packages place a file named CATKIN_IGNORE in the package folder. '
'Or you can pass the list of package names to the CMake variable CATKIN_BLACKLIST_PACKAGES. '
'For example: catkin_make -DCATKIN_BLACKLIST_PACKAGES="foo;bar".'))
add = parser.add_argument
add('-C', '--directory', default=os.curdir, help="The base path of the workspace (default '%s')" % os.curdir)
add('--source', help="The path to the source space (default 'workspace_base/src')")
add('--build', help="The path to the build space (default 'workspace_base/build')")
add('--use-ninja', action='store_true', help="Use 'ninja' instead of 'make'")
add('--use-nmake', action='store_true', help="Use 'nmake' instead of 'make'")
add('--force-cmake', action='store_true', help="Invoke 'cmake' even if it has been executed before")
add('--no-color', action='store_true', help='Disables colored output (only for catkin_make and CMake)')
add('--pkg', nargs='+', help="Invoke 'make' on specific packages only")
add('--only-pkg-with-deps', nargs='+',
help='Whitelist only the specified packages and their dependencies by '
'setting the CATKIN_WHITELIST_PACKAGES variable. This variable is '
'stored in CMakeCache.txt and will persist between CMake calls '
'unless explicitly cleared; e.g. catkin_make -DCATKIN_WHITELIST_PACKAGES="".')
add('--cmake-args', dest='cmake_args', nargs='*', type=str,
help='Arbitrary arguments which are passes to CMake. '
'It must be passed after other arguments since it collects all following options.')
add('--make-args', dest='make_args', nargs='*', type=str,
help='Arbitrary arguments which are passes to make. '
'It must be passed after other arguments since it collects all following options. '
'This is only necessary in combination with --cmake-args since else all unknown '
'arguments are passed to make anyway.')
add('--override-build-tool-check', action='store_true', default=False,
help='use to override failure due to using differnt build tools on the same workspace.')
namespace, unknown_args = parser.parse_known_args(args)
namespace.cmake_args = cmake_args
namespace.make_args = unknown_args + make_args
return namespace
if __name__ == '__main__':
try:
sys.exit(main())
except Exception as e:
sys.exit(str(e))
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