Marco Zecchini
/
Example_RTOS
Rtos API example
mbed-os/tools/build.py
- Committer:
- marcozecchini
- Date:
- 2019-02-23
- Revision:
- 0:9fca2b23d0ba
File content as of revision 0:9fca2b23d0ba:
#! /usr/bin/env python2 """ mbed SDK Copyright (c) 2011-2013 ARM Limited Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. LIBRARIES BUILD """ import sys from time import time from os.path import join, abspath, dirname # Be sure that the tools directory is in the search path ROOT = abspath(join(dirname(__file__), "..")) sys.path.insert(0, ROOT) from tools.toolchains import TOOLCHAINS, TOOLCHAIN_CLASSES, TOOLCHAIN_PATHS from tools.toolchains import mbedToolchain from tools.targets import TARGET_NAMES, TARGET_MAP from tools.options import get_default_options_parser from tools.options import extract_profile from tools.options import extract_mcus from tools.build_api import build_library, build_mbed_libs, build_lib from tools.build_api import mcu_toolchain_matrix from tools.build_api import print_build_results from tools.settings import CPPCHECK_CMD, CPPCHECK_MSG_FORMAT from utils import argparse_filestring_type, args_error from tools.settings import CPPCHECK_CMD, CPPCHECK_MSG_FORMAT, CLI_COLOR_MAP from utils import argparse_filestring_type, argparse_dir_not_parent if __name__ == '__main__': start = time() # Parse Options parser = get_default_options_parser() parser.add_argument("--source", dest="source_dir", type=argparse_filestring_type, default=None, help="The source (input) directory", action="append") parser.add_argument("--build", dest="build_dir", type=argparse_dir_not_parent(ROOT), default=None, help="The build (output) directory") parser.add_argument("--no-archive", dest="no_archive", action="store_true", default=False, help="Do not produce archive (.ar) file, but rather .o") # Extra libraries parser.add_argument("-r", "--rtos", action="store_true", dest="rtos", default=False, help="Compile the rtos") parser.add_argument("--rpc", action="store_true", dest="rpc", default=False, help="Compile the rpc library") parser.add_argument("-u", "--usb", action="store_true", dest="usb", default=False, help="Compile the USB Device library") parser.add_argument("-d", "--dsp", action="store_true", dest="dsp", default=False, help="Compile the DSP library") parser.add_argument( "--cpputest", action="store_true", dest="cpputest_lib", default=False, help="Compiles 'cpputest' unit test library (library should be on the same directory level as mbed repository)") parser.add_argument("-D", action="append", dest="macros", help="Add a macro definition") parser.add_argument("-S", "--supported-toolchains", action="store_true", dest="supported_toolchains", default=False, help="Displays supported matrix of MCUs and toolchains") parser.add_argument('-f', '--filter', dest='general_filter_regex', default=None, help='For some commands you can use filter to filter out results') parser.add_argument("-j", "--jobs", type=int, dest="jobs", default=0, help="Number of concurrent jobs. Default: 0/auto (based on host machine's number of CPUs)") parser.add_argument("-N", "--artifact-name", dest="artifact_name", default=None, help="The built project's name") parser.add_argument("-v", "--verbose", action="store_true", dest="verbose", default=False, help="Verbose diagnostic output") parser.add_argument("--silent", action="store_true", dest="silent", default=False, help="Silent diagnostic output (no copy, compile notification)") parser.add_argument("-x", "--extra-verbose-notifications", action="store_true", dest="extra_verbose_notify", default=False, help="Makes compiler more verbose, CI friendly.") options = parser.parse_args() # Only prints matrix of supported toolchains if options.supported_toolchains: print mcu_toolchain_matrix(platform_filter=options.general_filter_regex) exit(0) # Get target list targets = extract_mcus(parser, options) if options.mcu else TARGET_NAMES # Get toolchains list toolchains = options.tool if options.tool else TOOLCHAINS if options.source_dir and not options.build_dir: args_error(parser, "argument --build is required by argument --source") if options.color: # This import happens late to prevent initializing colorization when we don't need it import colorize if options.verbose: notify = mbedToolchain.print_notify_verbose else: notify = mbedToolchain.print_notify notify = colorize.print_in_color_notifier(CLI_COLOR_MAP, notify) else: notify = None # Get libraries list libraries = [] # Additional Libraries if options.rpc: libraries.extend(["rpc"]) if options.usb: libraries.append("usb") if options.dsp: libraries.extend(["dsp"]) if options.cpputest_lib: libraries.extend(["cpputest"]) # Build results failures = [] successes = [] skipped = [] for toolchain in toolchains: if not TOOLCHAIN_CLASSES[toolchain].check_executable(): search_path = TOOLCHAIN_PATHS[toolchain] or "No path set" args_error(parser, "Could not find executable for %s.\n" "Currently set search path: %s" % (toolchain, search_path)) for toolchain in toolchains: for target in targets: tt_id = "%s::%s" % (toolchain, target) if toolchain not in TARGET_MAP[target].supported_toolchains: # Log this later print "%s skipped: toolchain not supported" % tt_id skipped.append(tt_id) else: try: mcu = TARGET_MAP[target] profile = extract_profile(parser, options, toolchain) if options.source_dir: lib_build_res = build_library(options.source_dir, options.build_dir, mcu, toolchain, extra_verbose=options.extra_verbose_notify, verbose=options.verbose, silent=options.silent, jobs=options.jobs, clean=options.clean, archive=(not options.no_archive), macros=options.macros, name=options.artifact_name, build_profile=profile) else: lib_build_res = build_mbed_libs(mcu, toolchain, extra_verbose=options.extra_verbose_notify, verbose=options.verbose, silent=options.silent, jobs=options.jobs, clean=options.clean, macros=options.macros, build_profile=profile) for lib_id in libraries: build_lib(lib_id, mcu, toolchain, extra_verbose=options.extra_verbose_notify, verbose=options.verbose, silent=options.silent, clean=options.clean, macros=options.macros, jobs=options.jobs, build_profile=profile) if lib_build_res: successes.append(tt_id) else: skipped.append(tt_id) except Exception, e: if options.verbose: import traceback traceback.print_exc(file=sys.stdout) sys.exit(1) failures.append(tt_id) print e # Write summary of the builds print print "Completed in: (%.2f)s" % (time() - start) print for report, report_name in [(successes, "Build successes:"), (skipped, "Build skipped:"), (failures, "Build failures:"), ]: if report: print print_build_results(report, report_name), if failures: sys.exit(1)