mirror of
https://github.com/ClickHouse/ClickHouse.git
synced 2024-11-18 13:42:02 +00:00
378 lines
12 KiB
C++
378 lines
12 KiB
C++
#include <iostream>
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#include <random>
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#include <cmath>
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#include <IO/WriteBufferFromFileDescriptor.h>
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#include <IO/WriteHelpers.h>
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#include <IO/ReadBufferFromFile.h>
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#include <Common/HashTable/Hash.h>
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#include "MarkovModel.h"
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/** Generate infinite stream of pseudo-random data
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* like 'hits' table in Yandex.Metrica (with structure as it was in 2013)
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* and output it in TabSeparated format.
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*/
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using namespace DB;
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struct Models
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{
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MarkovModel Title;
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MarkovModel URL;
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MarkovModel SearchPhrase;
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static void read(MarkovModel & model, const String & path)
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{
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ReadBufferFromFile in(path);
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model.read(in);
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}
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Models()
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{
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read(Title, "Title.model");
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read(URL, "URL.model");
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read(SearchPhrase, "SearchPhrase.model");
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}
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};
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struct Generator
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{
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WriteBufferFromFileDescriptor out;
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std::mt19937_64 random;
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std::mt19937_64 random_with_seed;
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Models models;
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// UInt64 WatchID = random();
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String Title;
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String URL;
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/* String Referer;
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String FlashMinor2;
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String UserAgentMinor;
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String MobilePhoneModel;
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String Params;*/
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String SearchPhrase;
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/* String PageCharset;
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String OriginalURL;
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String BrowserLanguage;
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String BrowserCountry;
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String SocialNetwork;
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String SocialAction;
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String SocialSourcePage;
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String ParamCurrency;
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String OpenstatServiceName;
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String OpenstatCampaignID;
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String OpenstatAdID;
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String OpenstatSourceID;
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String UTMSource;
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String UTMMedium;
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String UTMCampaign;
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String UTMContent;
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String UTMTerm;
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String FromTag;*/
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Generator() : out(STDOUT_FILENO) {}
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/** Choosing of distributions parameters sometimes resembles real data, but quite arbitary.
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*/
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void generateRow()
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{
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// auto gen_random64 = [&]{ return random(); };
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/// Unique identifier of event.
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/* WatchID += std::uniform_int_distribution<UInt64>(0, 10000000000)(random);
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writeText(WatchID, out);
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writeChar('\t', out);
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bool JavaEnable = std::bernoulli_distribution(0.6)(random);
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writeText(JavaEnable, out);
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writeChar('\t', out);*/
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LocalDateTime EventTime;
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EventTime.year(2013);
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EventTime.month(7);
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EventTime.day(std::discrete_distribution<>({
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0, 0, 13, 30, 0, 14, 42, 5, 6, 31, 17, 0, 0, 0, 0, 23, 10, 0, 0, 0, 19, 24, 8, 7, 0, 0, 8, 2, 15, 12, 7, 29})(random));
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EventTime.hour(std::discrete_distribution<>({
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13, 7, 4, 3, 2, 3, 4, 6, 10, 16, 20, 23, 24, 23, 18, 19, 19, 19, 14, 15, 14, 13, 17, 17})(random));
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EventTime.minute(std::uniform_int_distribution<UInt8>(0, 59)(random));
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EventTime.second(std::uniform_int_distribution<UInt8>(0, 59)(random));
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UInt64 UserID = hash(4, powerLaw(5000, 1.1));
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UserID = UserID / 10000000000ULL * 10000000000ULL + static_cast<time_t>(EventTime) + UserID % 1000000;
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random_with_seed.seed(powerLaw(5000, 1.1));
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auto get_random_with_seed = [&]{ return random_with_seed(); };
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Title.resize(10000);
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Title.resize(models.Title.generate(&Title[0], Title.size(), get_random_with_seed));
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writeText(Title, out);
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writeChar('\t', out);
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/* bool GoodEvent = 1;
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writeText(GoodEvent, out);
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writeChar('\t', out);*/
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writeText(EventTime, out);
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writeChar('\t', out);
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LocalDate EventDate = EventTime.toDate();
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writeText(EventDate, out);
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writeChar('\t', out);
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UInt32 CounterID = hash(1, powerLaw(20, 1.1)) % 10000000;
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writeText(CounterID, out);
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writeChar('\t', out);
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/* UInt32 ClientIP = hash(2, powerLaw(5000, 1.1));
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writeText(ClientIP, out);
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writeChar('\t', out);
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UInt32 RegionID = hash(3, powerLaw(15, 1.1)) % 5000;
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writeText(RegionID, out);
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writeChar('\t', out);
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*/
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writeText(UserID, out);
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writeChar('\t', out);
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/* bool CounterClass = (hash(5, CounterID) % 100) < 25;
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writeText(CounterClass, out);
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writeChar('\t', out);
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UInt8 OS = hash(6, powerLaw(10, 4)) % 100;
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writeText(OS, out);
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writeChar('\t', out);
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UInt8 UserAgent = hash(7, powerLaw(10, 4)) % 100;
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writeText(UserAgent, out);
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writeChar('\t', out);
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*/
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URL.resize(10000);
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URL.resize(models.URL.generate(&URL[0], URL.size(), get_random_with_seed));
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writeText(URL, out);
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writeChar('\t', out);
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/// Referer
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/* bool Refresh = std::bernoulli_distribution(0.1)(random);
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writeText(Refresh, out);
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writeChar('\t', out);
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UInt16 RefererCategoryID = std::bernoulli_distribution(0.1)(random) ? 0 : (hash(8, powerLaw(10, 4)) % 10000);
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writeText(RefererCategoryID, out);
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writeChar('\t', out);
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UInt32 RefererRegionID = std::bernoulli_distribution(0.1)(random) ? 0 : (hash(9, powerLaw(15, 1.1)) % 5000);
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writeText(RefererRegionID, out);
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writeChar('\t', out);
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UInt16 URLCategoryID = std::bernoulli_distribution(0.1)(random) ? 0 : (hash(10, powerLaw(10, 4)) % 10000);
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writeText(URLCategoryID, out);
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writeChar('\t', out);
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UInt32 URLRegionID = std::bernoulli_distribution(0.1)(random) ? 0 : (hash(11, powerLaw(15, 1.1)) % 5000);
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writeText(URLRegionID, out);
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writeChar('\t', out);
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UInt16 ResolutionWidth;
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UInt16 ResolutionHeight;
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std::tie(ResolutionWidth, ResolutionHeight) = powerLawSampleFrom<std::pair<UInt16, UInt16>>(15, 1.1,
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{
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{1366, 768}, {1280, 1024}, {1920, 1080}, {0, 0}, {1024, 768},
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{1280, 800}, {1440, 900}, {1600, 900}, {1600, 900}, {1680, 1050},
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{768, 1024}, {1024, 600}, {1360, 768}, {1280, 720}, {1152, 864},
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{1280, 768}, {320, 480}, {1920, 1200}, {320, 568}, {1093, 614},
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});
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if (std::bernoulli_distribution(0.1)(random))
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{
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ResolutionWidth = std::bernoulli_distribution(0.1)(random)
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? std::uniform_int_distribution<UInt16>(160, 3000)(random)
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: (std::uniform_int_distribution<UInt16>(160, 3000)(random) / 16 * 16);
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ResolutionHeight = std::bernoulli_distribution(0.1)(random)
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? std::uniform_int_distribution<UInt16>(160, 3000)(random)
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: (ResolutionWidth / 16 * 10);
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}
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writeText(ResolutionWidth, out);
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writeChar('\t', out);
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writeText(ResolutionHeight, out);
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writeChar('\t', out);
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UInt8 ResolutionDepth = weightedSelect<UInt8>({32, 24, 0, 16, 8}, {2000000, 700000, 300000, 50000, 100});
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writeText(ResolutionDepth, out);
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writeChar('\t', out);
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UInt8 FlashMajor = weightedSelect<UInt8>({11, 0, 10, 6, 9, 8, 7, 5, 12}, {2000000, 600000, 200000, 100000, 8000, 800, 600, 20, 10});
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UInt8 FlashMinor = weightedSelect<UInt8>({7, 0, 8, 1, 6, 3, 2, 5, 4}, {1500000, 700000, 500000, 150000, 100000, 80000, 60000, 50000, 50000});
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writeText(FlashMajor, out);
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writeChar('\t', out);
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writeText(FlashMinor, out);
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writeChar('\t', out);
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FlashMinor2.clear();
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if (FlashMajor && FlashMinor)
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{
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FlashMinor2 = toString(hash(12, powerLaw(10, 4)) % 1000);
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if (std::bernoulli_distribution(0.2)(random))
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{
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FlashMinor2 += '.';
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FlashMinor2 += toString(hash(13, powerLaw(10, 4)) % 1000);
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}
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}
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writeText(FlashMinor2, out);
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writeChar('\t', out);
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UInt8 NetMajor = weightedSelect<UInt8>({0, 3, 2, 1, 4}, {3000000, 100000, 10000, 5000, 2});
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UInt8 NetMinor = weightedSelect<UInt8>({0, 5, 1}, {3000000, 200000, 5000});
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writeText(NetMajor, out);
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writeChar('\t', out);
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writeText(NetMinor, out);
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writeChar('\t', out);
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UInt16 UserAgentMajor = UserAgent ? hash(14, powerLaw(10, 4)) % 100 : 0;
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writeText(UserAgentMajor, out);
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writeChar('\t', out);
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UserAgentMinor.clear();
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if (UserAgentMajor)
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{
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UserAgentMinor = toString(hash(15, powerLaw(10, 4)) % 100);
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if (UserAgentMinor.size() == 1 && std::bernoulli_distribution(0.1)(random))
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UserAgentMinor += 'a' + std::uniform_int_distribution<UInt8>(0, 25)(random);
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}
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writeText(UserAgentMinor, out);
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writeChar('\t', out);
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bool CookieEnable = std::bernoulli_distribution(0.999)(random);
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writeText(CookieEnable, out);
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writeChar('\t', out);
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bool JavascriptEnable = std::bernoulli_distribution(0.95)(random);
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writeText(JavascriptEnable, out);
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writeChar('\t', out);
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bool IsMobile = std::bernoulli_distribution(0.15)(random);
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writeText(IsMobile, out);
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writeChar('\t', out);
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UInt8 MobilePhone = IsMobile ? hash(16, powerLaw(10, 4)) % 100 : 0;
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writeText(MobilePhone, out);
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writeChar('\t', out);
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*/
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/* MobilePhoneModel.resize(100);
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MobilePhoneModel.resize(models.MobilePhoneModel.generate(&MobilePhoneModel[0], MobilePhoneModel.size(), gen_random64));
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writeText(MobilePhoneModel, out);
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writeChar('\t', out);
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Params.resize(10000);
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Params.resize(models.Params.generate(&Params[0], Params.size(), gen_random64));
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writeText(Params, out);
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writeChar('\t', out);
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UInt32 IPNetworkID = hash(17, powerLaw(15, 1.1)) % 5000;
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writeText(IPNetworkID, out);
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writeChar('\t', out);
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Int8 TraficSourceID = weightedSelect<Int8>(
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{-1, 0, 1, 2, 3, 4, 5, 6, 7, 8}, {2000000, 300000, 200000, 600000, 50000, 700, 30000, 40000, 500, 2500});
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writeText(TraficSourceID, out);
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writeChar('\t', out);
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UInt16 SearchEngineID = TraficSourceID == 2
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? hash(18, powerLaw(10, 4)) % 100
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: (TraficSourceID == 3
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? (std::bernoulli_distribution(0.5)(random)
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? hash(19, powerLaw(10, 4)) % 10
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: 0)
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: 0);
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if (!SearchEngineID)
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SearchPhrase.clear();
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else
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{*/
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SearchPhrase.resize(1000);
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SearchPhrase.resize(models.SearchPhrase.generate(&SearchPhrase[0], SearchPhrase.size(), get_random_with_seed));
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// }
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writeText(SearchPhrase, out);
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/* writeChar('\t', out);
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UInt8 AdvEngineID = weightedSelect<UInt8>(
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{0, 2, 12, 17, 18, 27, 34, 36}, {3000000, 30000, 3000, 30000, 1, 100, 40, 30});
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writeText(AdvEngineID, out);
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writeChar('\t', out);
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bool IsArtificial = std::bernoulli_distribution(0.07)(random);
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writeText(IsArtificial, out);
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writeChar('\t', out);
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UInt16 WindowClientWidth = std::max(3000, ResolutionWidth - hash(20, UserID) % 100);
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UInt16 WindowClientHeight = std::max(3000, ResolutionHeight - hash(21, UserID) % 100);
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writeText(WindowClientWidth, out);
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writeChar('\t', out);
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writeText(WindowClientHeight, out);*/
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writeChar('\n', out);
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}
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UInt64 powerLawImpl(double scale, double alpha, double unit_random_value)
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{
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return scale * std::pow(unit_random_value, -1.0 / alpha) - scale;
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}
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UInt64 powerLaw(double scale, double alpha)
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{
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return powerLawImpl(scale, alpha, std::uniform_real_distribution<double>(0, 1)(random));
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}
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template <typename T>
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T powerLawSampleFrom(double scale, double alpha, std::initializer_list<T> set)
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{
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return set.begin()[powerLaw(scale, alpha) % set.size()];
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}
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template <typename T>
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T weightedSelect(std::initializer_list<T> items, std::initializer_list<double> weights)
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{
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return items.begin()[std::discrete_distribution<>(weights)(random)];
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}
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static UInt64 hash(unsigned seed, UInt64 x)
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{
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return intHash64(x + seed * 0xDEADBEEF);
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}
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};
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int main(int argc, char ** argv)
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try
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{
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Generator generator;
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while (true)
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generator.generateRow();
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return 0;
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}
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catch (...)
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{
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/// Broken pipe, when piped to 'head', by example.
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if (errno != EPIPE)
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{
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std::cerr << getCurrentExceptionMessage(true) << '\n';
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throw;
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}
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}
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