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https://github.com/ClickHouse/ClickHouse.git
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151 lines
6.0 KiB
Python
Executable File
151 lines
6.0 KiB
Python
Executable File
#!/usr/bin/python3.4
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# -*- coding: utf-8 -*-
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import sys
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import argparse
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import tempfile
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import random
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import subprocess
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import bisect
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from copy import deepcopy
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# Псевдослучайный генератор уникальных чисел.
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# http://preshing.com/20121224/how-to-generate-a-sequence-of-unique-random-integers/
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class UniqueRandomGenerator:
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prime = 4294967291
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def __init__(self, seed_base, seed_offset):
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self.index = self.permutePQR(self.permutePQR(seed_base) + 0x682f0161)
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self.intermediate_offset = self.permutePQR(self.permutePQR(seed_offset) + 0x46790905)
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def next(self):
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val = self.permutePQR((self.permutePQR(self.index) + self.intermediate_offset) ^ 0x5bf03635)
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self.index = self.index + 1
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return val
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def permutePQR(self, x):
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if x >=self.prime:
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return x
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else:
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residue = (x * x) % self.prime
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if x <= self.prime/2:
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return residue
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else:
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return self.prime - residue
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# Создать таблицу содержащую уникальные значения.
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def generate_data_source(host, port, http_port, min_cardinality, max_cardinality, count):
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chunk_size = round((max_cardinality - (min_cardinality + 1)) / float(count))
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used_values = 0
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cur_count = 0
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next_size = 0
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sup = 32768
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n1 = random.randrange(0, sup)
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n2 = random.randrange(0, sup)
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urng = UniqueRandomGenerator(n1, n2)
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is_first = True
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with tempfile.TemporaryDirectory() as tmp_dir:
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filename = tmp_dir + '/table.txt'
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with open(filename, 'w+b') as file_handle:
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while cur_count < count:
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if is_first == True:
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is_first = False
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if min_cardinality != 0:
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next_size = min_cardinality + 1
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else:
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next_size = chunk_size
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else:
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next_size += chunk_size
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while used_values < next_size:
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h = urng.next()
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used_values = used_values + 1
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out = str(h) + "\t" + str(cur_count) + "\n";
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file_handle.write(bytes(out, 'UTF-8'));
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cur_count = cur_count + 1
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query = "DROP TABLE IF EXISTS data_source"
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subprocess.check_output(["clickhouse-client", "--host", host, "--port", str(port), "--query", query])
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query = "CREATE TABLE data_source(UserID UInt64, KeyID UInt64) ENGINE=TinyLog"
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subprocess.check_output(["clickhouse-client", "--host", host, "--port", str(port), "--query", query])
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cat = subprocess.Popen(("cat", filename), stdout=subprocess.PIPE)
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subprocess.check_output(("POST", "http://{0}:{1}/?query=INSERT INTO data_source FORMAT TabSeparated".format(host, http_port)), stdin=cat.stdout)
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cat.wait()
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def perform_query(host, port):
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query = "SELECT runningAccumulate(uniqExactState(UserID)) AS exact, "
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query += "runningAccumulate(uniqCombinedRawState(UserID)) AS raw, "
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query += "runningAccumulate(uniqCombinedLinearCountingState(UserID)) AS linear_counting, "
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query += "runningAccumulate(uniqCombinedBiasCorrectedState(UserID)) AS bias_corrected "
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query += "FROM data_source GROUP BY KeyID"
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return subprocess.check_output(["clickhouse-client", "--host", host, "--port", port, "--query", query])
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def parse_clickhouse_response(response):
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parsed = []
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lines = response.decode().split("\n")
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for cur_line in lines:
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rows = cur_line.split("\t")
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if len(rows) == 4:
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parsed.append([float(rows[0]), float(rows[1]), float(rows[2]), float(rows[3])])
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return parsed
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def accumulate_data(accumulated_data, data):
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if not accumulated_data:
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accumulated_data = deepcopy(data)
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else:
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for row1, row2 in zip(accumulated_data, data):
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row1[1] += row2[1];
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row1[2] += row2[2];
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row1[3] += row2[3];
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return accumulated_data
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def dump_graphs(data, count):
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with open("raw_graph.txt", "w+b") as fh1, open("linear_counting_graph.txt", "w+b") as fh2, open("bias_corrected_graph.txt", "w+b") as fh3:
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expected_tab = []
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bias_tab = []
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for row in data:
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exact = row[0]
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raw = row[1] / count;
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linear_counting = row[2] / count;
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bias_corrected = row[3] / count;
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outstr = "{0}\t{1}\n".format(exact, abs(raw - exact) / exact)
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fh1.write(bytes(outstr, 'UTF-8'))
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outstr = "{0}\t{1}\n".format(exact, abs(linear_counting - exact) / exact)
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fh2.write(bytes(outstr, 'UTF-8'))
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outstr = "{0}\t{1}\n".format(exact, abs(bias_corrected - exact) / exact)
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fh3.write(bytes(outstr, 'UTF-8'))
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def start():
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parser = argparse.ArgumentParser(description = "Generate graphs that help to determine the linear counting threshold.")
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parser.add_argument("-x", "--host", default="localhost", help="clickhouse host name");
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parser.add_argument("-p", "--port", type=int, default=9000, help="clickhouse client TCP port");
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parser.add_argument("-t", "--http_port", type=int, default=8123, help="clickhouse HTTP port");
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parser.add_argument("-i", "--iterations", type=int, default=5000, help="number of iterations");
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parser.add_argument("-m", "--min_cardinality", type=int, default=16384, help="minimal cardinality");
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parser.add_argument("-M", "--max_cardinality", type=int, default=655360, help="maximal cardinality");
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args = parser.parse_args()
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accumulated_data = []
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for i in range(0, args.iterations):
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print(i + 1)
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sys.stdout.flush()
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generate_data_source(args.host, str(args.port), str(args.http_port), args.min_cardinality, args.max_cardinality, 1000)
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response = perform_query(args.host, str(args.port))
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data = parse_clickhouse_response(response)
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accumulated_data = accumulate_data(accumulated_data, data)
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dump_graphs(accumulated_data, args.iterations)
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if __name__ == "__main__": start()
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