verdnatura-chat/ios/Pods/Flipper-Folly/folly/experimental/DynamicParser-inl.h

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/*
* Copyright (c) Facebook, Inc. and its affiliates.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#pragma once
#include <type_traits>
#include <boost/function_types/parameter_types.hpp>
#include <boost/mpl/equal.hpp>
#include <boost/mpl/pop_front.hpp>
#include <boost/mpl/transform.hpp>
#include <boost/mpl/vector.hpp>
#include <folly/Conv.h>
#include <folly/Traits.h>
namespace folly {
// Auto-conversion of key/value based on callback signature, documented in
// DynamicParser.h.
namespace detail {
class IdentifyCallable {
public:
enum class Kind { Function, MemberFunction };
template <typename Fn>
constexpr static Kind getKind() {
return test<Fn>(nullptr);
}
private:
template <typename Fn>
using IsMemFn = std::is_member_pointer<decltype(&Fn::operator())>;
template <typename Fn>
constexpr static typename std::enable_if<IsMemFn<Fn>::value, Kind>::type test(
IsMemFn<Fn>*) {
return IdentifyCallable::Kind::MemberFunction;
}
template <typename>
constexpr static Kind test(...) {
return IdentifyCallable::Kind::Function;
}
};
template <IdentifyCallable::Kind, typename Fn>
struct ArgumentTypesByKind {};
template <typename Fn>
struct ArgumentTypesByKind<IdentifyCallable::Kind::MemberFunction, Fn> {
using type = typename boost::mpl::template pop_front<
typename boost::function_types::template parameter_types<decltype(
&Fn::operator())>::type>::type;
};
template <typename Fn>
struct ArgumentTypesByKind<IdentifyCallable::Kind::Function, Fn> {
using type = typename boost::function_types::template parameter_types<Fn>;
};
template <typename Fn>
using ArgumentTypes =
typename ArgumentTypesByKind<IdentifyCallable::getKind<Fn>(), Fn>::type;
// At present, works for lambdas or plain old functions, but can be
// extended. The comparison deliberately strips cv-qualifiers and
// reference, leaving that choice up to the caller.
template <typename Fn, typename... Args>
struct HasArgumentTypes
: boost::mpl::template equal<
typename boost::mpl::
transform<ArgumentTypes<Fn>, remove_cvref<boost::mpl::_1>>::type,
boost::mpl::vector<Args...>>::type {};
template <typename... Args>
using EnableForArgTypes =
typename std::enable_if<HasArgumentTypes<Args...>::value, void>::type;
// No arguments
template <typename Fn>
EnableForArgTypes<Fn>
invokeForKeyValue(Fn f, const folly::dynamic&, const folly::dynamic&) {
f();
}
// 1 argument -- pass only the value
//
// folly::dynamic (no conversion)
template <typename Fn>
EnableForArgTypes<Fn, folly::dynamic>
invokeForKeyValue(Fn fn, const folly::dynamic&, const folly::dynamic& v) {
fn(v);
}
// int64_t
template <typename Fn>
EnableForArgTypes<Fn, int64_t>
invokeForKeyValue(Fn fn, const folly::dynamic&, const folly::dynamic& v) {
fn(v.asInt());
}
// bool
template <typename Fn>
EnableForArgTypes<Fn, bool>
invokeForKeyValue(Fn fn, const folly::dynamic&, const folly::dynamic& v) {
fn(v.asBool());
}
// double
template <typename Fn>
EnableForArgTypes<Fn, double>
invokeForKeyValue(Fn fn, const folly::dynamic&, const folly::dynamic& v) {
fn(v.asDouble());
}
// std::string
template <typename Fn>
EnableForArgTypes<Fn, std::string>
invokeForKeyValue(Fn fn, const folly::dynamic&, const folly::dynamic& v) {
fn(v.asString());
}
//
// 2 arguments -- pass both the key and the value.
//
// Pass the key as folly::dynamic, without conversion
//
// folly::dynamic, folly::dynamic (no conversion of value, either)
template <typename Fn>
EnableForArgTypes<Fn, folly::dynamic, folly::dynamic>
invokeForKeyValue(Fn fn, const folly::dynamic& k, const folly::dynamic& v) {
fn(k, v);
}
// folly::dynamic, int64_t
template <typename Fn>
EnableForArgTypes<Fn, folly::dynamic, int64_t>
invokeForKeyValue(Fn fn, const folly::dynamic& k, const folly::dynamic& v) {
fn(k, v.asInt());
}
// folly::dynamic, bool
template <typename Fn>
EnableForArgTypes<Fn, folly::dynamic, bool>
invokeForKeyValue(Fn fn, const folly::dynamic& k, const folly::dynamic& v) {
fn(k, v.asBool());
}
// folly::dynamic, double
template <typename Fn>
EnableForArgTypes<Fn, folly::dynamic, double>
invokeForKeyValue(Fn fn, const folly::dynamic& k, const folly::dynamic& v) {
fn(k, v.asDouble());
}
// folly::dynamic, std::string
template <typename Fn>
EnableForArgTypes<Fn, folly::dynamic, std::string>
invokeForKeyValue(Fn fn, const folly::dynamic& k, const folly::dynamic& v) {
fn(k, v.asString());
}
// Convert the key to std::string.
//
// std::string, folly::dynamic (no conversion of value)
template <typename Fn>
EnableForArgTypes<Fn, std::string, folly::dynamic>
invokeForKeyValue(Fn fn, const folly::dynamic& k, const folly::dynamic& v) {
fn(k.asString(), v);
}
// std::string, int64_t
template <typename Fn>
EnableForArgTypes<Fn, std::string, int64_t>
invokeForKeyValue(Fn fn, const folly::dynamic& k, const folly::dynamic& v) {
fn(k.asString(), v.asInt());
}
// std::string, bool
template <typename Fn>
EnableForArgTypes<Fn, std::string, bool>
invokeForKeyValue(Fn fn, const folly::dynamic& k, const folly::dynamic& v) {
fn(k.asString(), v.asBool());
}
// std::string, double
template <typename Fn>
EnableForArgTypes<Fn, std::string, double>
invokeForKeyValue(Fn fn, const folly::dynamic& k, const folly::dynamic& v) {
fn(k.asString(), v.asDouble());
}
// std::string, std::string
template <typename Fn>
EnableForArgTypes<Fn, std::string, std::string>
invokeForKeyValue(Fn fn, const folly::dynamic& k, const folly::dynamic& v) {
fn(k.asString(), v.asString());
}
// Convert the key to int64_t (good for arrays).
//
// int64_t, folly::dynamic (no conversion of value)
template <typename Fn>
EnableForArgTypes<Fn, int64_t, folly::dynamic>
invokeForKeyValue(Fn fn, const folly::dynamic& k, const folly::dynamic& v) {
fn(k.asInt(), v);
}
// int64_t, int64_t
template <typename Fn>
EnableForArgTypes<Fn, int64_t, int64_t>
invokeForKeyValue(Fn fn, const folly::dynamic& k, const folly::dynamic& v) {
fn(k.asInt(), v.asInt());
}
// int64_t, bool
template <typename Fn>
EnableForArgTypes<Fn, int64_t, bool>
invokeForKeyValue(Fn fn, const folly::dynamic& k, const folly::dynamic& v) {
fn(k.asInt(), v.asBool());
}
// int64_t, double
template <typename Fn>
EnableForArgTypes<Fn, int64_t, double>
invokeForKeyValue(Fn fn, const folly::dynamic& k, const folly::dynamic& v) {
fn(k.asInt(), v.asDouble());
}
// int64_t, std::string
template <typename Fn>
EnableForArgTypes<Fn, int64_t, std::string>
invokeForKeyValue(Fn fn, const folly::dynamic& k, const folly::dynamic& v) {
fn(k.asInt(), v.asString());
}
} // namespace detail
template <typename Fn>
void DynamicParser::optional(const folly::dynamic& key, Fn fn) {
wrapError(&key, [&]() {
if (auto vp = value().get_ptr(key)) {
parse(key, *vp, fn);
}
});
}
//
// Implementation of DynamicParser template & inline methods.
//
template <typename Fn>
void DynamicParser::required(const folly::dynamic& key, Fn fn) {
wrapError(&key, [&]() {
auto vp = value().get_ptr(key);
if (!vp) {
throw std::runtime_error(folly::to<std::string>(
"Couldn't find key ",
detail::toPseudoJson(key),
" in dynamic object"));
}
parse(key, *vp, fn);
});
}
template <typename Fn>
void DynamicParser::objectItems(Fn fn) {
wrapError(nullptr, [&]() {
for (const auto& kv : value().items()) { // .items() can throw
parse(kv.first, kv.second, fn);
}
});
}
template <typename Fn>
void DynamicParser::arrayItems(Fn fn) {
wrapError(nullptr, [&]() {
size_t i = 0;
for (const auto& v : value()) { // Iteration can throw
parse(i, v, fn); // i => dynamic cannot throw
++i;
}
});
}
template <typename Fn>
void DynamicParser::wrapError(const folly::dynamic* lookup_k, Fn fn) {
try {
fn();
} catch (DynamicParserLogicError&) {
// When the parser is misused, we throw all the way up to the user,
// instead of reporting it as if the input is invalid.
throw;
} catch (DynamicParserParseError&) {
// We are just bubbling up a parse error for OnError::THROW.
throw;
} catch (const std::exception& ex) {
reportError(lookup_k, ex);
}
}
template <typename Fn>
void DynamicParser::parse(
const folly::dynamic& k,
const folly::dynamic& v,
Fn fn) {
auto guard = stack_.push(k, v); // User code can nest parser calls.
wrapError(nullptr, [&]() { detail::invokeForKeyValue(fn, k, v); });
}
inline const folly::dynamic& DynamicParser::ParserStack::key() const {
if (!key_) {
throw DynamicParserLogicError("Only call key() inside parsing callbacks.");
}
return *key_;
}
inline const folly::dynamic& DynamicParser::ParserStack::value() const {
if (!value_) {
throw DynamicParserLogicError(
"Parsing nullptr, or parsing after releaseErrors()");
}
return *value_;
}
} // namespace folly