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fuchsia / third_party / github.com / llvm / llvm-project / 60a25202a7dd1e00067fcfce512086ebf3788537 / . / libc / benchmarks / JSON.cpp
blob: 2f370414498378178e9c24e59f2a4c55471c9763 [file] [log] [blame]
//===-- JSON serialization routines ---------------------------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#include "JSON.h"
#include "LibcBenchmark.h"
#include "llvm/ADT/DenseSet.h"
#include "llvm/ADT/SmallVector.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/ADT/StringSwitch.h"
#include "llvm/Support/Errc.h"
#include "llvm/Support/Error.h"
#include "llvm/Support/ErrorHandling.h"
#include "llvm/Support/JSON.h"
#include "llvm/Support/MathExtras.h"
#include <chrono>
#include <limits>
#include <memory>
#include <string>
#include <vector>
namespace llvm {
namespace libc_benchmarks {
template <typename T>
static Error intFromJsonTemplate(const json::Value &V, T &Out) {
if (const auto &MaybeInt64 = V.getAsInteger()) {
int64_t Value = *MaybeInt64;
if (Value < std::numeric_limits<T>::min() ||
Value > std::numeric_limits<T>::max())
return createStringError(errc::io_error, "Out of bound Integer");
Out = Value;
return Error::success();
}
return createStringError(errc::io_error, "Can't parse Integer");
}
static Error fromJson(const json::Value &V, double &Out) {
if (auto S = V.getAsNumber()) {
Out = *S;
return Error::success();
}
return createStringError(errc::io_error, "Can't parse Double");
}
static Error fromJson(const json::Value &V, std::string &Out) {
if (auto S = V.getAsString()) {
Out = std::string(*S);
return Error::success();
}
return createStringError(errc::io_error, "Can't parse String");
}
static Error fromJson(const json::Value &V, uint32_t &Out) {
return intFromJsonTemplate(V, Out);
}
static Error fromJson(const json::Value &V, uint8_t &Out) {
return intFromJsonTemplate(V, Out);
}
static Error fromJson(const json::Value &V, int &Out) {
return intFromJsonTemplate(V, Out);
}
static Error fromJson(const json::Value &V, libc_benchmarks::Duration &D) {
if (V.kind() != json::Value::Kind::Number)
return createStringError(errc::io_error, "Can't parse Duration");
D = libc_benchmarks::Duration(*V.getAsNumber());
return Error::success();
}
static Error fromJson(const json::Value &V, MaybeAlign &Out) {
const auto MaybeInt = V.getAsInteger();
if (!MaybeInt)
return createStringError(errc::io_error,
"Can't parse Align, not an Integer");
const int64_t Value = *MaybeInt;
if (!Value) {
Out = None;
return Error::success();
}
if (isPowerOf2_64(Value)) {
Out = Align(Value);
return Error::success();
}
return createStringError(errc::io_error,
"Can't parse Align, not a power of two");
}
static Error fromJson(const json::Value &V,
libc_benchmarks::BenchmarkLog &Out) {
if (V.kind() != json::Value::Kind::String)
return createStringError(errc::io_error,
"Can't parse BenchmarkLog, not a String");
const auto String = *V.getAsString();
auto Parsed =
llvm::StringSwitch<Optional<libc_benchmarks::BenchmarkLog>>(String)
.Case("None", libc_benchmarks::BenchmarkLog::None)
.Case("Last", libc_benchmarks::BenchmarkLog::Last)
.Case("Full", libc_benchmarks::BenchmarkLog::Full)
.Default(None);
if (!Parsed)
return createStringError(errc::io_error,
Twine("Can't parse BenchmarkLog, invalid value '")
.concat(String)
.concat("'"));
Out = *Parsed;
return Error::success();
}
template <typename C>
Error vectorFromJsonTemplate(const json::Value &V, C &Out) {
auto *A = V.getAsArray();
if (!A)
return createStringError(errc::io_error, "Can't parse Array");
Out.clear();
Out.resize(A->size());
for (auto InOutPair : llvm::zip(*A, Out))
if (auto E = fromJson(std::get<0>(InOutPair), std::get<1>(InOutPair)))
return std::move(E);
return Error::success();
}
template <typename T>
static Error fromJson(const json::Value &V, std::vector<T> &Out) {
return vectorFromJsonTemplate(V, Out);
}
template <typename T>
static Error fromJson(const json::Value &V, SmallVectorImpl<T> &Out) {
return vectorFromJsonTemplate(V, Out);
}
// Same as llvm::json::ObjectMapper but adds a finer error reporting mechanism.
class JsonObjectMapper {
const json::Object *O;
Error E;
SmallDenseSet<StringRef> SeenFields;
public:
explicit JsonObjectMapper(const json::Value &V)
: O(V.getAsObject()),
E(O ? Error::success()
: createStringError(errc::io_error, "Expected JSON Object")) {}
Error takeError() {
if (E)
return std::move(E);
for (const auto &Itr : *O) {
const StringRef Key = Itr.getFirst();
if (!SeenFields.count(Key))
E = createStringError(errc::io_error,
Twine("Unknown field: ").concat(Key));
}
return std::move(E);
}
template <typename T> void map(StringRef Key, T &Out) {
if (E)
return;
if (const json::Value *Value = O->get(Key)) {
SeenFields.insert(Key);
E = fromJson(*Value, Out);
}
}
};
static Error fromJson(const json::Value &V,
libc_benchmarks::BenchmarkOptions &Out) {
JsonObjectMapper O(V);
O.map("MinDuration", Out.MinDuration);
O.map("MaxDuration", Out.MaxDuration);
O.map("InitialIterations", Out.InitialIterations);
O.map("MaxIterations", Out.MaxIterations);
O.map("MinSamples", Out.MinSamples);
O.map("MaxSamples", Out.MaxSamples);
O.map("Epsilon", Out.Epsilon);
O.map("ScalingFactor", Out.ScalingFactor);
O.map("Log", Out.Log);
return O.takeError();
}
static Error fromJson(const json::Value &V, libc_benchmarks::SizeRange &Out) {
JsonObjectMapper O(V);
O.map("From", Out.From);
O.map("To", Out.To);
O.map("Step", Out.Step);
return O.takeError();
}
static Error fromJson(const json::Value &V,
libc_benchmarks::StudyConfiguration &Out) {
JsonObjectMapper O(V);
O.map("Runs", Out.Runs);
O.map("BufferSize", Out.BufferSize);
O.map("Size", Out.Size);
O.map("AddressAlignment", Out.AddressAlignment);
O.map("MemsetValue", Out.MemsetValue);
O.map("MemcmpMismatchAt", Out.MemcmpMismatchAt);
return O.takeError();
}
static Error fromJson(const json::Value &V, libc_benchmarks::CacheInfo &Out) {
JsonObjectMapper O(V);
O.map("Type", Out.Type);
O.map("Level", Out.Level);
O.map("Size", Out.Size);
O.map("NumSharing", Out.NumSharing);
return O.takeError();
}
static Error fromJson(const json::Value &V, libc_benchmarks::HostState &Out) {
JsonObjectMapper O(V);
O.map("CpuName", Out.CpuName);
O.map("CpuFrequency", Out.CpuFrequency);
O.map("Caches", Out.Caches);
return O.takeError();
}
static Error fromJson(const json::Value &V,
libc_benchmarks::FunctionMeasurements &Out) {
JsonObjectMapper O(V);
O.map("Name", Out.Name);
std::vector<uint32_t> Sizes;
O.map("Sizes", Sizes);
std::vector<libc_benchmarks::Duration> Runtimes;
O.map("Runtimes", Runtimes);
if (Sizes.size() != Runtimes.size())
return createStringError(errc::io_error,
"Measurement Size and Runtime mistmatch");
Out.Measurements.resize(Sizes.size());
for (size_t I = 0; I < Sizes.size(); ++I) {
Out.Measurements[I].Size = Sizes[I];
Out.Measurements[I].Runtime = Runtimes[I];
}
return O.takeError();
}
static Error fromJson(const json::Value &V, libc_benchmarks::Study &Out) {
JsonObjectMapper O(V);
O.map("Host", Out.Host);
O.map("Options", Out.Options);
O.map("Configuration", Out.Configuration);
O.map("Functions", Out.Functions);
return O.takeError();
}
static double Seconds(const Duration &D) {
return std::chrono::duration<double>(D).count();
}
Expected<Study> ParseJsonStudy(StringRef Content) {
Expected<json::Value> EV = json::parse(Content);
if (!EV)
return EV.takeError();
Study S;
if (Error E = fromJson(*EV, S))
return std::move(E);
return S;
}
static StringRef Serialize(const BenchmarkLog &L) {
switch (L) {
case BenchmarkLog::None:
return "None";
case BenchmarkLog::Last:
return "Last";
case BenchmarkLog::Full:
return "Full";
}
llvm_unreachable("Unhandled BenchmarkLog value");
}
static void Serialize(const BenchmarkOptions &BO, json::OStream &JOS) {
JOS.object([&]() {
JOS.attribute("MinDuration", Seconds(BO.MinDuration));
JOS.attribute("MaxDuration", Seconds(BO.MaxDuration));
JOS.attribute("InitialIterations", BO.InitialIterations);
JOS.attribute("MaxIterations", BO.MaxIterations);
JOS.attribute("MinSamples", BO.MinSamples);
JOS.attribute("MaxSamples", BO.MaxSamples);
JOS.attribute("Epsilon", BO.Epsilon);
JOS.attribute("ScalingFactor", BO.ScalingFactor);
JOS.attribute("Log", Serialize(BO.Log));
});
}
static void Serialize(const CacheInfo &CI, json::OStream &JOS) {
JOS.object([&]() {
JOS.attribute("Type", CI.Type);
JOS.attribute("Level", CI.Level);
JOS.attribute("Size", CI.Size);
JOS.attribute("NumSharing", CI.NumSharing);
});
}
static void Serialize(const HostState &HS, json::OStream &JOS) {
JOS.object([&]() {
JOS.attribute("CpuName", HS.CpuName);
JOS.attribute("CpuFrequency", HS.CpuFrequency);
JOS.attributeArray("Caches", [&]() {
for (const auto &CI : HS.Caches)
Serialize(CI, JOS);
});
});
}
static void Serialize(const StudyConfiguration &SC, json::OStream &JOS) {
JOS.object([&]() {
JOS.attribute("Runs", SC.Runs);
JOS.attribute("BufferSize", SC.BufferSize);
JOS.attributeObject("Size", [&]() {
JOS.attribute("From", SC.Size.From);
JOS.attribute("To", SC.Size.To);
JOS.attribute("Step", SC.Size.Step);
});
if (SC.AddressAlignment)
JOS.attribute("AddressAlignment",
static_cast<int64_t>(SC.AddressAlignment->value()));
JOS.attribute("MemsetValue", SC.MemsetValue);
JOS.attribute("MemcmpMismatchAt", SC.MemcmpMismatchAt);
});
}
static void Serialize(const FunctionMeasurements &FM, json::OStream &JOS) {
JOS.object([&]() {
JOS.attribute("Name", FM.Name);
JOS.attributeArray("Sizes", [&]() {
for (const auto &M : FM.Measurements)
JOS.value(M.Size);
});
JOS.attributeArray("Runtimes", [&]() {
for (const auto &M : FM.Measurements)
JOS.value(Seconds(M.Runtime));
});
});
}
void SerializeToJson(const Study &S, json::OStream &JOS) {
JOS.object([&]() {
JOS.attributeBegin("Host");
Serialize(S.Host, JOS);
JOS.attributeEnd();
JOS.attributeBegin("Options");
Serialize(S.Options, JOS);
JOS.attributeEnd();
JOS.attributeBegin("Configuration");
Serialize(S.Configuration, JOS);
JOS.attributeEnd();
if (!S.Functions.empty()) {
JOS.attributeArray("Functions", [&]() {
for (const auto &FM : S.Functions)
Serialize(FM, JOS);
});
}
});
}
} // namespace libc_benchmarks
} // namespace llvm