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#include "library/cpp/json/yson/json2yson.h"
#include <library/cpp/blockcodecs/codecs.h>
#include <library/cpp/histogram/simple/histogram.h>
#include <library/cpp/testing/unittest/registar.h>
#include <library/cpp/testing/unittest/tests_data.h>
#include <util/datetime/cputimer.h>
#include <util/stream/file.h>
template <typename TCallBack>
ui64 Run(TCallBack&& callBack) {
TSimpleTimer timer;
callBack();
return timer.Get().MicroSeconds();
}
static TString GetRequestsWithDecoding(const TString& inputPath, const NBlockCodecs::ICodec* codec) {
TIFStream inputFileStream(inputPath);
TString encodedRequests = inputFileStream.ReadAll();
TString requests;
codec->Decode(encodedRequests, requests);
return requests;
}
Y_UNIT_TEST_SUITE(Json2Yson) {
Y_UNIT_TEST(NOAPACHE_REQUESTS) {
const ui32 warmUpRetries = 5;
const TVector<double> percentiles = {0.25, 0.5, 0.6, 0.7, 0.75, 0.8, 0.85, 0.9, 0.95, 0.97, 0.99, 1.0};
NSimpleHistogram::TMultiHistogramCalcer<ui64> calcer;
TString requests = GetRequestsWithDecoding(GetWorkPath() + "/noapache_requests_sample_lz4", NBlockCodecs::Codec("lz4"));
TStringInput inputStream(requests);
for (TString jsonRequest, jsonString, ysonString; inputStream.ReadLine(jsonRequest);) {
TStringInput jsonInput(jsonRequest);
NJson::TJsonValue readedJson;
NJson::ReadJsonTree(&jsonInput, &readedJson, true);
jsonRequest.clear();
ui64 writeTime = Max<ui64>();
ui64 readTime = Max<ui64>();
for (ui32 i = 0; i < warmUpRetries; ++i) {
NJson::TJsonValue Json2Json;
TStringOutput jsonWriteOutput(jsonString);
NJsonWriter::TBuf jsonBuf(NJsonWriter::HEM_UNSAFE, &jsonWriteOutput);
writeTime = Min(writeTime, Run([&]() {
jsonBuf.WriteJsonValue(&readedJson);
}));
TStringInput jsonInput(jsonString);
NJson::TJsonReaderConfig config;
config.DontValidateUtf8 = true;
readTime = Min(readTime, Run([&]() {
NJson::ReadJsonTree(&jsonInput, &config, &Json2Json, true);
}));
UNIT_ASSERT_VALUES_EQUAL(
NJsonWriter::TBuf().WriteJsonValue(&readedJson, true).Str(),
NJsonWriter::TBuf().WriteJsonValue(&Json2Json, true).Str());
jsonString.clear();
}
calcer.RecordValue("read_json", readTime);
calcer.RecordValue("write_json", writeTime);
calcer.RecordValue("read_and_write_json", readTime + writeTime);
writeTime = Max<ui64>();
readTime = Max<ui64>();
for (ui32 i = 0; i < warmUpRetries; ++i) {
NJson::TJsonValue convertedJson;
TStringOutput ysonOutput(ysonString);
writeTime = Min(writeTime, Run([&]() {
NJson2Yson::SerializeJsonValueAsYson(readedJson, &ysonOutput);
}));
TStringInput ysonInput(ysonString);
readTime = Min(readTime, Run([&]() {
NJson2Yson::DeserializeYsonAsJsonValue(&ysonInput, &convertedJson);
}));
UNIT_ASSERT_VALUES_EQUAL(
NJsonWriter::TBuf().WriteJsonValue(&convertedJson, true).Str(),
NJsonWriter::TBuf().WriteJsonValue(&readedJson, true).Str());
ysonString.clear();
}
calcer.RecordValue("read_yson", readTime);
calcer.RecordValue("write_yson", writeTime);
calcer.RecordValue("read_and_write_yson", readTime + writeTime);
}
NJson::TJsonValue histogramJson = NSimpleHistogram::ToJson(calcer.Calc(), percentiles);
for (const auto& it : histogramJson.GetMap()) {
for (const auto& percentileValue : it.second.GetMap()) {
UNIT_ADD_METRIC(it.first + "_" + percentileValue.first, percentileValue.second.GetUInteger() / 1000.0);
}
}
}
}
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