mbed-os
Dependents: cobaLCDJoyMotor_Thread odometry_omni_3roda_v3 odometry_omni_3roda_v1 odometry_omni_3roda_v2 ... more
tools/arm_pack_manager/pack_manager.py
- Committer:
- be_bryan
- Date:
- 2017-12-11
- Revision:
- 0:b74591d5ab33
File content as of revision 0:b74591d5ab33:
import argparse from os.path import basename from tools.arm_pack_manager import Cache from os.path import basename, join, dirname, exists from os import makedirs from itertools import takewhile from fuzzywuzzy import process from tools.arm_pack_manager import Cache parser = argparse.ArgumentParser(description='A Handy little utility for keeping your cache of pack files up to date.') subparsers = parser.add_subparsers(title="Commands") def subcommand(name, *args, **kwargs): def subcommand(command): subparser = subparsers.add_parser(name, **kwargs) for arg in args: arg = dict(arg) opt = arg['name'] del arg['name'] if isinstance(opt, basestring): subparser.add_argument(opt, **arg) else: subparser.add_argument(*opt, **arg) subparser.add_argument("-v", "--verbose", action="store_true", dest="verbose", help="Verbose diagnostic output") subparser.add_argument("-vv", "--very_verbose", action="store_true", dest="very_verbose", help="Very verbose diagnostic output") subparser.add_argument("--no-timeouts", action="store_true", help="Remove all timeouts and try to download unconditionally") subparser.add_argument("--and", action="store_true", dest="intersection", help="combine search terms as if with an and") subparser.add_argument("--or", action="store_false", dest="intersection", help="combine search terms as if with an or") subparser.add_argument("--union", action="store_false", dest="intersection", help="combine search terms as if with a set union") subparser.add_argument("--intersection", action="store_true", dest="intersection", help="combine search terms as if with a set intersection") def thunk(parsed_args): cache = Cache(not parsed_args.verbose, parsed_args.no_timeouts) argv = [arg['dest'] if 'dest' in arg else arg['name'] for arg in args] argv = [(arg if isinstance(arg, basestring) else arg[-1]).strip('-') for arg in argv] argv = {arg: vars(parsed_args)[arg] for arg in argv if vars(parsed_args)[arg] is not None} return command(cache, **argv) subparser.set_defaults(command=thunk) return command return subcommand def user_selection (message, options) : print(message) for choice, index in zip(options, range(len(options))) : print("({}) {}".format(index, choice)) pick = None while pick is None : stdout.write("please select an integer from 0 to {} or \"all\"".format(len(options)-1)) input = raw_input() try : if input == "all" : pick = options else : pick = [options[int(input)]] except ValueError : print("I did not understand your input") return pick def fuzzy_find(matches, urls) : choices = {} for match in matches : for key, value in process.extract(match, urls, limit=None) : choices.setdefault(key, 0) choices[key] += value choices = sorted([(v, k) for k, v in choices.iteritems()], reverse=True) if not choices : return [] elif len(choices) == 1 : return [choices[0][1]] elif choices[0][0] > choices[1][0] : choices = choices[:1] else : choices = list(takewhile(lambda t: t[0] == choices[0][0], choices)) return [v for k,v in choices] @subcommand('cache', dict(name='matches', nargs="*", help="a bunch of things to search for in part names"), dict(name=['-e','--everything'], action="store_true", help="download everything possible"), dict(name=['-d','--descriptors'], action="store_true", help="download all descriptors"), dict(name=["-b","--batch"], action="store_true", help="don't ask for user input and assume download all"), help="Cache a group of PACK or PDSC files") def command_cache (cache, matches, everything=False, descriptors=False, batch=False, verbose= False, intersection=True) : if everything : cache.cache_everything() return True if descriptors : cache.cache_descriptors() return True if not matches : print("No action specified nothing to do") else : urls = cache.get_urls() if intersection : choices = fuzzy_find(matches, map(basename, urls)) else : choices = sum([fuzzy_find([m], map(basename, urls)) for m in matches], []) if not batch and len(choices) > 1 : choices = user_selection("Please select a file to cache", choices) to_download = [] for choice in choices : for url in urls : if choice in url : to_download.append(url) cache.cache_pack_list(to_download) return True @subcommand('find-part', dict(name='matches', nargs="+", help="words to match to processors"), dict(name=['-l',"--long"], action="store_true", help="print out part details with part"), dict(name=['-p', '--parts-only'], action="store_false", dest="print_aliases"), dict(name=['-a', '--aliases-only'], action="store_false", dest="print_parts"), help="Find a Part and it's description within the cache") def command_find_part (cache, matches, long=False, intersection=True, print_aliases=True, print_parts=True) : if long : import pprint pp = pprint.PrettyPrinter() parts = cache.index if intersection : choices = fuzzy_find(matches, parts.keys()) aliases = fuzzy_find(matches, cache.aliases.keys()) else : choices = sum([fuzzy_find([m], parts.keys()) for m in matches], []) aliases = sum([fuzzy_find([m], cache.aliases.keys()) for m in matches], []) if print_parts: for part in choices : print part if long : pp.pprint(cache.index[part]) if print_aliases: for alias in aliases : print alias if long : pp.pprint(cache.index[cache.aliases[alias]]) @subcommand('dump-parts', dict(name='out', help='directory to dump to'), dict(name='parts', nargs='+', help='parts to dump'), help='Create a directory with an index.json describing the part and all of their associated flashing algorithms.' ) def command_dump_parts (cache, out, parts, intersection=False) : index = {} if intersection : for part in fuzzy_find(parts, cache.index): index.update(cache.index[part]) else : for part in parts : index.update(dict(cache.find_device(part))) for n, p in index.iteritems() : try : if not exists(join(out, dirname(p['algorithm']['file']))) : makedirs(join(out, dirname(p['algorithm']['file']))) with open(join(out, p['algorithm']['file']), "wb+") as fd : fd.write(cache.get_flash_algorthim_binary(n).read()) except KeyError: print("[Warning] {} does not have an associated flashing algorithm".format(n)) with open(join(out, "index.json"), "wb+") as fd : dump(index,fd) @subcommand('cache-part', dict(name='matches', nargs="+", help="words to match to devices"), help='Cache PACK files associated with the parts matching the provided words') def command_cache_part (cache, matches, intersection=True) : index = cache.index if intersection : choices = fuzzy_find(matches, index.keys()) aliases = fuzzy_find(matches, cache.aliases.keys()) else : choices = sum([fuzzy_find([m], index.keys()) for m in matches], []) aliases = sum([fuzzy_find([m], cache.aliases.keys()) for m in matches], []) urls = set([index[c]['pdsc_file'] for c in choices]) urls += set([index[cache.aliasse[a]] for a in aliases]) cache.cache_pack_list(list(urls)) def get_argparse() : return parser def main() : args = parser.parse_args() args.command(args)