# Copyright (c) 2015 Egor Tensin # This file is part of the "Sorting algorithms" project. # For details, see https://github.com/egor-tensin/sorting-algorithms. # Distributed under the MIT License. import argparse import sys from algorithms.inputgen import InputKind from algorithms.params import AlgorithmParameters import algorithms.registry as registry _DEFAULT_ITERATIONS = 100 _DEFAULT_INPUT_KIND = InputKind.AVERAGE _DEFAULT_MIN_LENGTH = 0 _DEFAULT_MAX_LENGTH = 200 def plot_algorithm(algorithm, input_kind=_DEFAULT_INPUT_KIND, min_len=_DEFAULT_MIN_LENGTH, max_len=_DEFAULT_MAX_LENGTH, iterations=_DEFAULT_ITERATIONS, output_path=None): if isinstance(algorithm, str): algorithm = registry.get(algorithm) params = AlgorithmParameters(algorithm, min_len, max_len, input_kind=input_kind, iterations=iterations) params.plot_running_time(output_path) def _parse_non_negative_integer(s): try: n = int(s) except ValueError: raise argparse.ArgumentTypeError('must be a non-negative integer: ' + str(s)) if n < 0: raise argparse.ArgumentTypeError('must be a non-negative integer') return n def _parse_positive_integer(s): try: n = int(s) except ValueError: raise argparse.ArgumentTypeError('must be a positive integer: ' + str(s)) if n < 1: raise argparse.ArgumentTypeError('must be a positive integer') return n def _parse_input_kind(s): try: return InputKind(s) except ValueError: raise argparse.ArgumentTypeError('invalid input kind: ' + str(s)) def _format_algorithm(codename): return '* {}: {}'.format(codename, registry.get(codename).display_name) def _format_available_algorithms(): descr = 'available algorithms (in the CODENAME: DISPLAY_NAME format):\n' return descr + '\n'.join(map( _format_algorithm, sorted(registry.get_codenames()))) def _format_description(): return _format_available_algorithms() def _create_argument_parser(): return argparse.ArgumentParser( description=_format_description(), formatter_class=argparse.RawDescriptionHelpFormatter) def _parse_args(args=None): if args is None: args = sys.argv[1:] parser = _create_argument_parser() parser.add_argument('algorithm', metavar='CODENAME', choices=registry.get_codenames(), help='algorithm codename') parser.add_argument('--iterations', '-r', metavar='N', type=_parse_positive_integer, default=_DEFAULT_ITERATIONS, help='set number of algorithm iterations') parser.add_argument('--input', '-i', dest='input_kind', choices=InputKind, type=_parse_input_kind, default=_DEFAULT_INPUT_KIND, help='specify input kind') parser.add_argument('--min', '-a', metavar='N', dest='min_len', type=_parse_non_negative_integer, default=_DEFAULT_MIN_LENGTH, help='set min input length') parser.add_argument('--max', '-b', metavar='N', dest='max_len', type=_parse_non_negative_integer, default=_DEFAULT_MAX_LENGTH, help='set max input length') parser.add_argument('--output', '-o', metavar='PATH', dest='output_path', help='set plot file path') return parser.parse_args(args) def main(args=None): plot_algorithm(**vars(_parse_args(args))) if __name__ == '__main__': main()