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author | Egor Tensin <Egor.Tensin@gmail.com> | 2015-05-06 06:14:54 +0300 |
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committer | Egor Tensin <Egor.Tensin@gmail.com> | 2015-05-06 06:14:54 +0300 |
commit | d6de118675a192ce6e01574eb4eb2541db7aca7a (patch) | |
tree | f5899b5089029fc5637435482cce5e279fa5e2ce /plot.py | |
download | sorting-algorithms-d6de118675a192ce6e01574eb4eb2541db7aca7a.tar.gz sorting-algorithms-d6de118675a192ce6e01574eb4eb2541db7aca7a.zip |
initial commit
Diffstat (limited to 'plot.py')
-rw-r--r-- | plot.py | 145 |
1 files changed, 145 insertions, 0 deletions
@@ -0,0 +1,145 @@ +# Copyright 2015 Egor Tensin <Egor.Tensin@gmail.com> +# This file is licensed under the terms of the MIT License. +# See LICENSE.txt for details. + +from time import clock +import gc + +_ALGORITHMS = ( + 'bubble', + 'bubble_optimized', + 'heap', + 'insertion', + 'merge', + 'quick_first', + 'quick_second', + 'quick_middle', + 'quick_last', + 'quick_random', + 'selection', +) + +def _get_context(): + import argparse + parser = argparse.ArgumentParser() + parser.add_argument('--repetitions', '-r', type=int, default=1, + help='set number of sorting repetitions') + parser.add_argument('--input', '-i', + default='randomized', metavar='INPUT', + choices=('sorted', 'randomized', 'reversed'), + help='choose initial input state') + parser.add_argument('--algorithm', '-l', metavar='ALGORITHM', + choices=_ALGORITHMS, required=True, + help='select sorting algorithm to use') + parser.add_argument('--min', '-a', type=int, required=True, + help='set min input length', + dest='min_input_length') + parser.add_argument('--max', '-b', type=int, required=True, + help='set max input length', + dest='max_input_length') + parser.add_argument('--output', '-o', dest='plot_path', + help='set plot output path') + args = parser.parse_args() + if args.repetitions < 1: + parser.error('number of repetitions must be > 0') + if args.min_input_length < 0: + parser.error('min sequence length must be >= 0') + if args.max_input_length < 0: + parser.error('max sequence length must be >= 0') + if args.max_input_length < args.min_input_length: + parser.error('max sequence length cannot be less than min sequence length') + return args + +def get_timestamp(): + return clock() + +def init_clock(): + get_timestamp() + +def gen_input(args, n): + if args.input == 'sorted': + return list(range(n)) + elif args.input == 'reversed': + return sorted(range(n), reverse=True) + elif args.input == 'randomized': + from random import sample + return sample(range(n), n) + else: + raise NotImplementedError( + 'unimplemented initial input state \'{}\''.format(args.input)) + +def measure_running_time(ctx, algorithm, input_length): + xs = gen_input(ctx, input_length) + assert algorithm(list(xs)) == sorted(xs) + input_copies = [list(xs) for i in range(ctx.repetitions)] + gc.disable() + starting_time = get_timestamp() + for i in range(ctx.repetitions): + algorithm(input_copies[i]) + running_time = get_timestamp() - starting_time + gc.enable() + return running_time + +def _decorate_plot(ctx, plt): + plt.grid() + plt.xlabel('Input length') + plt.ylabel('Running time (sec)') + plt.title('{} sort, {} repetition(s), {} input'.format( + ctx.algorithm, ctx.repetitions, ctx.input)) + +def plot_algorithm(ctx, algorithm): + import matplotlib.pyplot as plt + _decorate_plot(ctx, plt) + input_length = range(ctx.min_input_length, + ctx.max_input_length + 1) + running_time = [] + for n in input_length: + running_time.append(measure_running_time(ctx, algorithm, n)) + plt.plot(input_length, running_time) + if ctx.plot_path is not None: + plt.savefig(ctx.plot_path) + else: + plt.show() + +def plot(ctx): + if ctx.algorithm == 'bubble': + from bubble_sort import bubble_sort + plot_algorithm(ctx, bubble_sort) + elif ctx.algorithm == 'bubble_optimized': + from bubble_sort import bubble_sort_optimized + plot_algorithm(ctx, bubble_sort_optimized) + elif ctx.algorithm == 'heap': + from heapsort import heapsort + plot_algorithm(ctx, heapsort) + elif ctx.algorithm == 'insertion': + from insertion_sort import insertion_sort + plot_algorithm(ctx, insertion_sort) + elif ctx.algorithm == 'merge': + from merge_sort import merge_sort + plot_algorithm(ctx, merge_sort) + elif ctx.algorithm == 'quick_first': + from quicksort import quicksort_first + plot_algorithm(ctx, quicksort_first) + elif ctx.algorithm == 'quick_second': + from quicksort import quicksort_second + plot_algorithm(ctx, quicksort_second) + elif ctx.algorithm == 'quick_middle': + from quicksort import quicksort_middle + plot_algorithm(ctx, quicksort_middle) + elif ctx.algorithm == 'quick_last': + from quicksort import quicksort_last + plot_algorithm(ctx, quicksort_last) + elif ctx.algorithm == 'quick_random': + from quicksort import quicksort_random + plot_algorithm(ctx, quicksort_random) + elif ctx.algorithm == 'selection': + from selection_sort import selection_sort + plot_algorithm(ctx, selection_sort) + else: + raise NotImplementedError( + 'unknown algorithm \'{}\''.format(ctx.algorithm)) + +if __name__ == '__main__': + ctx = _get_context() + init_clock() + plot(ctx) |