# -*- coding: utf-8 -*- # :Project: python-rapidjson -- Performance tests # :Author: John Anderson # :License: MIT License # :Copyright: © 2015 John Anderson # :Copyright: © 2015, 2016, 2017, 2018 Lele Gaifax # import datetime import pathlib import random import sys import pytest benchmark = pytest.importorskip('pytest_benchmark') composite_object = { 'words': """ Lorem ipsum dolor sit amet, consectetur adipiscing elit. Mauris adipiscing adipiscing placerat. Vestibulum augue augue, pellentesque quis sollicitudin id, adipiscing. """, 'list': list(range(200)), 'dict': dict((str(i),'a') for i in range(200)), 'int': 100100100, 'float': 100999.123456 } user = { "userId": 3381293, "age": 213, "username": "johndoe", "fullname": u"John Doe the Second", "isAuthorized": True, "liked": 31231.31231202, "approval": 31.1471, "jobs": [ 1, 2 ], "currJob": None } friends = [ user, user, user, user, user, user, user, user ] doubles = [] numbers = [] unicode_strings = [] strings = [] booleans = [] datetimes = [] list_dicts = [] dict_lists = {} russian_string = "привет, мир!" * 1000 italian_string = "Ciao, mondo!" * 1000 complex_object = [ [user, friends], [user, friends], [user, friends], [user, friends], [user, friends], [user, friends] ] for _ in range(256): doubles.append(sys.maxsize * random.random()) numbers.append(sys.maxsize * random.random()) numbers.append(random.randint(0, sys.maxsize)) unicode_strings.append("نظام الحكم سلطاني وراثي في الذكور من ذرية السيد تركي بن سعيد بن سلطان ويشترط فيمن يختار لولاية الحكم من بينهم ان يكون مسلما رشيدا عاقلا ًوابنا شرعيا لابوين عمانيين ") strings.append("A pretty long string which is in a list") booleans.append(True) datetimes.append([datetime.date(random.randint(1900, 2000), random.randint(1, 12), random.randint(1, 28)), datetime.time(random.randint(0,23), random.randint(0, 59), random.randint(0, 59)), datetime.datetime.now()]) for _ in range(100): arrays = [] list_dicts.append({str(random.random()*20): int(random.random()*1000000)}) for _ in range(100): arrays.append({str(random.random() * 20): int(random.random()*1000000)}) dict_lists[str(random.random() * 20)] = arrays datasets = [('composite object', composite_object), ('256 doubles array', doubles), ('256 unicode array', unicode_strings), ('256 ascii array', strings), ('256 Trues array', booleans), ('100 dicts array', list_dicts), ('100 arrays dict', dict_lists), ('complex object', complex_object), ] @pytest.mark.benchmark(group='serialize') @pytest.mark.parametrize('data', [d[1] for d in datasets], ids=[d[0] for d in datasets]) def test_dumps(contender, data, benchmark): benchmark(contender.dumps, data) @pytest.mark.benchmark(group='deserialize') @pytest.mark.parametrize('data', [d[1] for d in datasets], ids=[d[0] for d in datasets]) def test_loads(contender, data, benchmark): data = contender.dumps(data) benchmark(contender.loads, data) # Special case 1: load datetimes as plain strings vs datetime.xxx instances @pytest.mark.benchmark(group='deserialize') @pytest.mark.parametrize('data', [datetimes], ids=['256x3 datetimes']) def test_loads_datetimes(datetimes_loads_contender, data, benchmark): from rapidjson import dumps, DM_ISO8601 data = dumps(data, datetime_mode=DM_ISO8601) benchmark(datetimes_loads_contender, data) # Special case 2: native numbers @pytest.mark.benchmark(group='serialize') @pytest.mark.parametrize('data', [numbers], ids=['512 numbers array']) def test_dumps_numbers(numbers_contender, data, benchmark): benchmark(numbers_contender.dumps, data) @pytest.mark.benchmark(group='deserialize') @pytest.mark.parametrize('data', [numbers], ids=['512 numbers array']) def test_loads_numbers(numbers_contender, data, benchmark): data = numbers_contender.dumps(data) benchmark(numbers_contender.loads, data) # Special case 3: ensure_ascii @pytest.mark.benchmark(group='serialize') @pytest.mark.parametrize('data', [italian_string], ids=['Long ASCII string']) def test_dumps_long_plain_ascii(string_contender, data, benchmark): benchmark(string_contender.dumps, data) @pytest.mark.benchmark(group='deserialize') @pytest.mark.parametrize('data', [italian_string], ids=['Long ASCII string']) def test_loads_long_plain_ascii(string_contender, data, benchmark): data = string_contender.dumps(data) benchmark(string_contender.loads, data) @pytest.mark.benchmark(group='serialize') @pytest.mark.parametrize('data', [russian_string], ids=['Long Unicode string']) def test_dumps_long_unicode(string_contender, data, benchmark): benchmark(string_contender.dumps, data) @pytest.mark.benchmark(group='deserialize') @pytest.mark.parametrize('data', [russian_string], ids=['Long Unicode string']) def test_loads_long_unicode(string_contender, data, benchmark): data = string_contender.dumps(data) benchmark(string_contender.loads, data) samples = list((pathlib.Path(__file__).parent / 'json').glob('*.json')) @pytest.mark.benchmark(group='serialize') @pytest.mark.parametrize('sample', samples, ids=[s.name for s in samples]) def test_dumps_sample(contender, sample, benchmark): data = contender.loads(sample.read_text()) benchmark(contender.dumps, data) @pytest.mark.benchmark(group='deserialize') @pytest.mark.parametrize('sample', samples, ids=[s.name for s in samples]) def test_loads_sample(contender, sample, benchmark): benchmark(contender.loads, sample.read_text())