mirror of
https://github.com/ethereum/solidity
synced 2023-10-03 13:03:40 +00:00
596 lines
19 KiB
C++
596 lines
19 KiB
C++
/*
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This file is part of solidity.
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solidity is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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solidity is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with solidity. If not, see <http://www.gnu.org/licenses/>.
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*/
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// SPDX-License-Identifier: GPL-3.0
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/** @file CommonData.h
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* @author Gav Wood <i@gavwood.com>
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* @date 2014
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*
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* Shared algorithms and data types.
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*/
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#pragma once
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#include <iterator>
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#include <libsolutil/Common.h>
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#include <vector>
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#include <type_traits>
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#include <cstring>
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#include <optional>
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#include <string>
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#include <set>
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#include <functional>
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#include <utility>
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#include <type_traits>
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/// Operators need to stay in the global namespace.
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/// Concatenate the contents of a container onto a vector
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template <class T, class U> std::vector<T>& operator+=(std::vector<T>& _a, U& _b)
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{
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for (auto const& i: _b)
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_a.push_back(T(i));
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return _a;
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}
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/// Concatenate the contents of a container onto a vector, move variant.
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template <class T, class U> std::vector<T>& operator+=(std::vector<T>& _a, U&& _b)
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{
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std::move(_b.begin(), _b.end(), std::back_inserter(_a));
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return _a;
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}
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/// Concatenate the contents of a container onto a multiset
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template <class U, class... T> std::multiset<T...>& operator+=(std::multiset<T...>& _a, U& _b)
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{
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_a.insert(_b.begin(), _b.end());
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return _a;
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}
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/// Concatenate the contents of a container onto a multiset, move variant.
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template <class U, class... T> std::multiset<T...>& operator+=(std::multiset<T...>& _a, U&& _b)
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{
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for (auto&& x: _b)
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_a.insert(std::move(x));
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return _a;
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}
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/// Concatenate the contents of a container onto a set
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template <class U, class... T> std::set<T...>& operator+=(std::set<T...>& _a, U& _b)
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{
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_a.insert(_b.begin(), _b.end());
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return _a;
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}
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/// Concatenate the contents of a container onto a set, move variant.
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template <class U, class... T> std::set<T...>& operator+=(std::set<T...>& _a, U&& _b)
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{
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for (auto&& x: _b)
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_a.insert(std::move(x));
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return _a;
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}
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/// Concatenate two vectors of elements.
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template <class T>
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inline std::vector<T> operator+(std::vector<T> const& _a, std::vector<T> const& _b)
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{
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std::vector<T> ret(_a);
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ret += _b;
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return ret;
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}
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/// Concatenate two vectors of elements, moving them.
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template <class T>
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inline std::vector<T> operator+(std::vector<T>&& _a, std::vector<T>&& _b)
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{
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std::vector<T> ret(std::move(_a));
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assert(&_a != &_b);
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ret += std::move(_b);
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return ret;
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}
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/// Concatenate something to a sets of elements.
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template <class U, class... T>
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inline std::set<T...> operator+(std::set<T...> const& _a, U&& _b)
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{
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std::set<T...> ret(_a);
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ret += std::forward<U>(_b);
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return ret;
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}
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/// Concatenate something to a sets of elements, move variant.
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template <class U, class... T>
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inline std::set<T...> operator+(std::set<T...>&& _a, U&& _b)
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{
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std::set<T...> ret(std::move(_a));
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ret += std::forward<U>(_b);
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return ret;
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}
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/// Remove the elements of a container from a set.
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template <class C, class... T>
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inline std::set<T...>& operator-=(std::set<T...>& _a, C const& _b)
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{
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for (auto const& x: _b)
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_a.erase(x);
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return _a;
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}
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template <class C, class... T>
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inline std::set<T...> operator-(std::set<T...> const& _a, C const& _b)
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{
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auto result = _a;
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result -= _b;
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return result;
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}
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/// Remove the elements of a container from a multiset.
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template <class C, class... T>
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inline std::multiset<T...>& operator-=(std::multiset<T...>& _a, C const& _b)
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{
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for (auto const& x: _b)
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_a.erase(x);
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return _a;
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}
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namespace solidity::util
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{
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/// Functional map.
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/// Returns a container _oc applying @param _op to each element in @param _c.
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/// By default _oc is a vector.
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/// If another return type is desired, an empty contained of that type
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/// is given as @param _oc.
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template<class Container, class Callable, class OutputContainer =
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std::vector<std::invoke_result_t<
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Callable,
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decltype(*std::begin(std::declval<Container>()))
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>>>
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auto applyMap(Container const& _c, Callable&& _op, OutputContainer _oc = OutputContainer{})
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{
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std::transform(std::begin(_c), std::end(_c), std::inserter(_oc, std::end(_oc)), _op);
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return _oc;
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}
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/// Filter a vector.
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/// Returns a copy of the vector after only taking indices `i` such that `_mask[i]` is true.
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template<typename T>
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std::vector<T> filter(std::vector<T> const& _vec, std::vector<bool> const& _mask)
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{
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assert(_vec.size() == _mask.size());
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std::vector<T> ret;
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for (size_t i = 0; i < _mask.size(); ++i)
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if (_mask[i])
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ret.push_back(_vec[i]);
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return ret;
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}
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/// Functional fold.
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/// Given a container @param _c, an initial value @param _acc,
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/// and a binary operator @param _binaryOp(T, U), accumulate
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/// the elements of _c over _acc.
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/// Note that <numeric> has a similar function `accumulate` which
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/// until C++20 does *not* std::move the partial accumulated.
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template<class C, class T, class Callable>
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auto fold(C const& _c, T _acc, Callable&& _binaryOp)
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{
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for (auto const& e: _c)
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_acc = _binaryOp(std::move(_acc), e);
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return _acc;
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}
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template <class T, class U>
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T convertContainer(U const& _from)
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{
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return T{_from.cbegin(), _from.cend()};
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}
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template <class T, class U>
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T convertContainer(U&& _from)
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{
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return T{
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std::make_move_iterator(_from.begin()),
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std::make_move_iterator(_from.end())
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};
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}
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/// Gets a @a K -> @a V map and returns a map where values from the original map are keys and keys
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/// from the original map are values.
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///
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/// @pre @a originalMap must have unique values.
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template <typename K, typename V>
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std::map<V, K> invertMap(std::map<K, V> const& originalMap)
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{
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std::map<V, K> inverseMap;
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for (auto const& originalPair: originalMap)
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{
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assert(inverseMap.count(originalPair.second) == 0);
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inverseMap.insert({originalPair.second, originalPair.first});
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}
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return inverseMap;
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}
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/// Returns a set of keys of a map.
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template <typename K, typename V>
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std::set<K> keys(std::map<K, V> const& _map)
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{
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return applyMap(_map, [](auto const& _elem) { return _elem.first; }, std::set<K>{});
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}
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/// @returns a pointer to the entry of @a _map at @a _key, if there is one, and nullptr otherwise.
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template<typename MapType, typename KeyType>
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decltype(auto) valueOrNullptr(MapType&& _map, KeyType const& _key)
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{
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auto it = _map.find(_key);
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return (it == _map.end()) ? nullptr : &it->second;
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}
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namespace detail
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{
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struct allow_copy {};
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}
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static constexpr auto allow_copy = detail::allow_copy{};
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/// @returns a reference to the entry of @a _map at @a _key, if there is one, and @a _defaultValue otherwise.
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/// Makes sure no copy is involved, unless allow_copy is passed as fourth argument.
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template<
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typename MapType,
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typename KeyType,
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typename ValueType = std::decay_t<decltype(std::declval<MapType>().find(std::declval<KeyType>())->second)> const&,
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typename AllowCopyType = void*
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>
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decltype(auto) valueOrDefault(MapType&& _map, KeyType const& _key, ValueType&& _defaultValue = {}, AllowCopyType = nullptr)
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{
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auto it = _map.find(_key);
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static_assert(
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std::is_same_v<AllowCopyType, detail::allow_copy> ||
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std::is_reference_v<decltype((it == _map.end()) ? _defaultValue : it->second)>,
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"valueOrDefault does not allow copies by default. Pass allow_copy as additional argument, if you want to allow copies."
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);
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return (it == _map.end()) ? _defaultValue : it->second;
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}
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namespace detail
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{
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template<typename Callable>
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struct MapTuple
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{
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Callable callable;
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template<typename TupleType>
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decltype(auto) operator()(TupleType&& _tuple) {
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using PlainTupleType = std::remove_cv_t<std::remove_reference_t<TupleType>>;
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return operator()(
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std::forward<TupleType>(_tuple),
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std::make_index_sequence<std::tuple_size_v<PlainTupleType>>{}
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);
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}
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private:
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template<typename TupleType, size_t... I>
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decltype(auto) operator()(TupleType&& _tuple, std::index_sequence<I...>)
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{
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return callable(std::get<I>(std::forward<TupleType>(_tuple))...);
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}
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};
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}
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/// Wraps @a _callable, which takes multiple arguments, into a callable that takes a single tuple of arguments.
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/// Since structured binding in lambdas is not allowed, i.e. [](auto&& [key, value]) { ... } is invalid, this allows
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/// to instead use mapTuple([](auto&& key, auto&& value) { ... }).
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template<typename Callable>
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decltype(auto) mapTuple(Callable&& _callable)
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{
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return detail::MapTuple<Callable>{std::forward<Callable>(_callable)};
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}
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// String conversion functions, mainly to/from hex/nibble/byte representations.
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enum class WhenError
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{
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DontThrow = 0,
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Throw = 1,
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};
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enum class HexPrefix
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{
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DontAdd = 0,
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Add = 1,
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};
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enum class HexCase
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{
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Lower = 0,
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Upper = 1,
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Mixed = 2,
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};
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/// Convert a single byte to a string of hex characters (of length two),
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/// optionally with uppercase hex letters.
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std::string toHex(uint8_t _data, HexCase _case = HexCase::Lower);
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/// Convert a series of bytes to the corresponding string of hex duplets,
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/// optionally with "0x" prefix and with uppercase hex letters.
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std::string toHex(bytes const& _data, HexPrefix _prefix = HexPrefix::DontAdd, HexCase _case = HexCase::Lower);
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/// Converts a (printable) ASCII hex character into the corresponding integer value.
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/// @example fromHex('A') == 10 && fromHex('f') == 15 && fromHex('5') == 5
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int fromHex(char _i, WhenError _throw);
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/// Converts a (printable) ASCII hex string into the corresponding byte stream.
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/// @example fromHex("41626261") == asBytes("Abba")
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/// If _throw = ThrowType::DontThrow, it replaces bad hex characters with 0's, otherwise it will throw an exception.
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bytes fromHex(std::string const& _s, WhenError _throw = WhenError::DontThrow);
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/// Converts byte array to a string containing the same (binary) data. Unless
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/// the byte array happens to contain ASCII data, this won't be printable.
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inline std::string asString(bytes const& _b)
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{
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return std::string((char const*)_b.data(), (char const*)(_b.data() + _b.size()));
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}
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/// Converts byte array ref to a string containing the same (binary) data. Unless
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/// the byte array happens to contain ASCII data, this won't be printable.
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inline std::string asString(bytesConstRef _b)
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{
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return std::string((char const*)_b.data(), (char const*)(_b.data() + _b.size()));
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}
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/// Converts a string to a byte array containing the string's (byte) data.
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inline bytes asBytes(std::string const& _b)
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{
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return bytes((uint8_t const*)_b.data(), (uint8_t const*)(_b.data() + _b.size()));
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}
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// Big-endian to/from host endian conversion functions.
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/// Converts a templated integer value to the big-endian byte-stream represented on a templated collection.
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/// The size of the collection object will be unchanged. If it is too small, it will not represent the
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/// value properly, if too big then the additional elements will be zeroed out.
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/// @a Out will typically be either std::string or bytes.
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/// @a T will typically by unsigned, u160, u256 or bigint.
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template <class T, class Out>
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inline void toBigEndian(T _val, Out& o_out)
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{
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static_assert(std::is_same<bigint, T>::value || !std::numeric_limits<T>::is_signed, "only unsigned types or bigint supported"); //bigint does not carry sign bit on shift
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for (auto i = o_out.size(); i != 0; _val >>= 8, i--)
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{
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T v = _val & (T)0xff;
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o_out[i - 1] = (typename Out::value_type)(uint8_t)v;
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}
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}
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/// Converts a big-endian byte-stream represented on a templated collection to a templated integer value.
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/// @a In will typically be either std::string or bytes.
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/// @a T will typically by unsigned, u256 or bigint.
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template <class T, class In>
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inline T fromBigEndian(In const& _bytes)
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{
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T ret = (T)0;
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for (auto i: _bytes)
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ret = (T)((ret << 8) | (uint8_t)(typename std::make_unsigned<typename In::value_type>::type)i);
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return ret;
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}
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inline bytes toBigEndian(u256 _val) { bytes ret(32); toBigEndian(_val, ret); return ret; }
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/// Convenience function for toBigEndian.
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/// @returns a byte array just big enough to represent @a _val.
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template <class T>
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inline bytes toCompactBigEndian(T _val, unsigned _min = 0)
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{
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static_assert(std::is_same<bigint, T>::value || !std::numeric_limits<T>::is_signed, "only unsigned types or bigint supported"); //bigint does not carry sign bit on shift
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unsigned i = 0;
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for (T v = _val; v; ++i, v >>= 8) {}
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bytes ret(std::max<unsigned>(_min, i), 0);
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toBigEndian(_val, ret);
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return ret;
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}
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/// Convenience function for conversion of a u256 to hex
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inline std::string toHex(u256 val, HexPrefix prefix = HexPrefix::DontAdd)
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{
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std::string str = toHex(toBigEndian(val));
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return (prefix == HexPrefix::Add) ? "0x" + str : str;
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}
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template <class T>
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inline std::string toCompactHexWithPrefix(T _value)
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{
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return toHex(toCompactBigEndian(_value, 1), HexPrefix::Add);
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}
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/// Returns decimal representation for small numbers and hex for large numbers.
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inline std::string formatNumber(bigint const& _value)
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{
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if (_value < 0)
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return "-" + formatNumber(-_value);
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if (_value > 0x1000000)
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return toHex(toCompactBigEndian(_value, 1), HexPrefix::Add);
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else
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return _value.str();
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}
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inline std::string formatNumber(u256 const& _value)
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{
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if (_value > 0x1000000)
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return toCompactHexWithPrefix(_value);
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else
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return _value.str();
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}
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// Algorithms for string and string-like collections.
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/// Determine bytes required to encode the given integer value. @returns 0 if @a _i is zero.
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template <class T>
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inline unsigned bytesRequired(T _i)
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{
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static_assert(std::is_same<bigint, T>::value || !std::numeric_limits<T>::is_signed, "only unsigned types or bigint supported"); //bigint does not carry sign bit on shift
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unsigned i = 0;
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for (; _i != 0; ++i, _i >>= 8) {}
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return i;
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}
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template <class T, class V>
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bool contains(T const& _t, V const& _v)
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{
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return std::end(_t) != std::find(std::begin(_t), std::end(_t), _v);
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}
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template <class T, class Predicate>
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bool contains_if(T const& _t, Predicate const& _p)
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{
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return std::end(_t) != std::find_if(std::begin(_t), std::end(_t), _p);
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}
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/// Function that iterates over a vector, calling a function on each of its
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/// elements. If that function returns a vector, the element is replaced by
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/// the returned vector. During the iteration, the original vector is only valid
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/// on the current element and after that. The actual replacement takes
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/// place at the end, but already visited elements might be invalidated.
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/// If nothing is replaced, no copy is performed.
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template <typename T, typename F>
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void iterateReplacing(std::vector<T>& _vector, F const& _f)
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{
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// Concept: _f must be Callable, must accept param T&, must return optional<vector<T>>
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bool useModified = false;
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std::vector<T> modifiedVector;
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for (size_t i = 0; i < _vector.size(); ++i)
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{
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if (std::optional<std::vector<T>> r = _f(_vector[i]))
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{
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if (!useModified)
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{
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std::move(_vector.begin(), _vector.begin() + ptrdiff_t(i), back_inserter(modifiedVector));
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useModified = true;
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}
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modifiedVector += std::move(*r);
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}
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|
else if (useModified)
|
|
modifiedVector.emplace_back(std::move(_vector[i]));
|
|
}
|
|
if (useModified)
|
|
_vector = std::move(modifiedVector);
|
|
}
|
|
|
|
namespace detail
|
|
{
|
|
template <typename T, typename F, std::size_t... I>
|
|
void iterateReplacingWindow(std::vector<T>& _vector, F const& _f, std::index_sequence<I...>)
|
|
{
|
|
// Concept: _f must be Callable, must accept sizeof...(I) parameters of type T&, must return optional<vector<T>>
|
|
bool useModified = false;
|
|
std::vector<T> modifiedVector;
|
|
size_t i = 0;
|
|
for (; i + sizeof...(I) <= _vector.size(); ++i)
|
|
{
|
|
if (std::optional<std::vector<T>> r = _f(_vector[i + I]...))
|
|
{
|
|
if (!useModified)
|
|
{
|
|
std::move(_vector.begin(), _vector.begin() + ptrdiff_t(i), back_inserter(modifiedVector));
|
|
useModified = true;
|
|
}
|
|
modifiedVector += std::move(*r);
|
|
i += sizeof...(I) - 1;
|
|
}
|
|
else if (useModified)
|
|
modifiedVector.emplace_back(std::move(_vector[i]));
|
|
}
|
|
if (useModified)
|
|
{
|
|
for (; i < _vector.size(); ++i)
|
|
modifiedVector.emplace_back(std::move(_vector[i]));
|
|
_vector = std::move(modifiedVector);
|
|
}
|
|
}
|
|
|
|
}
|
|
|
|
/// Function that iterates over the vector @param _vector,
|
|
/// calling the function @param _f on sequences of @tparam N of its
|
|
/// elements. If @param _f returns a vector, these elements are replaced by
|
|
/// the returned vector and the iteration continues with the next @tparam N elements.
|
|
/// If the function does not return a vector, the iteration continues with an overlapping
|
|
/// sequence of @tparam N elements that starts with the second element of the previous
|
|
/// iteration.
|
|
/// During the iteration, the original vector is only valid
|
|
/// on the current element and after that. The actual replacement takes
|
|
/// place at the end, but already visited elements might be invalidated.
|
|
/// If nothing is replaced, no copy is performed.
|
|
template <std::size_t N, typename T, typename F>
|
|
void iterateReplacingWindow(std::vector<T>& _vector, F const& _f)
|
|
{
|
|
// Concept: _f must be Callable, must accept N parameters of type T&, must return optional<vector<T>>
|
|
detail::iterateReplacingWindow(_vector, _f, std::make_index_sequence<N>{});
|
|
}
|
|
|
|
/// @returns true iff @a _str passess the hex address checksum test.
|
|
/// @param _strict if false, hex strings with only uppercase or only lowercase letters
|
|
/// are considered valid.
|
|
bool passesAddressChecksum(std::string const& _str, bool _strict);
|
|
|
|
/// @returns the checksummed version of an address
|
|
/// @param hex strings that look like an address
|
|
std::string getChecksummedAddress(std::string const& _addr);
|
|
|
|
bool isValidHex(std::string const& _string);
|
|
bool isValidDecimal(std::string const& _string);
|
|
|
|
/// @returns a quoted string if all characters are printable ASCII chars,
|
|
/// or its hex representation otherwise.
|
|
/// _value cannot be longer than 32 bytes.
|
|
std::string formatAsStringOrNumber(std::string const& _value);
|
|
|
|
/// @returns a string with the usual backslash-escapes for non-printable and non-ASCII
|
|
/// characters and surrounded by '"'-characters.
|
|
std::string escapeAndQuoteString(std::string const& _input);
|
|
|
|
template<typename Container, typename Compare>
|
|
bool containerEqual(Container const& _lhs, Container const& _rhs, Compare&& _compare)
|
|
{
|
|
return std::equal(std::begin(_lhs), std::end(_lhs), std::begin(_rhs), std::end(_rhs), std::forward<Compare>(_compare));
|
|
}
|
|
|
|
inline std::string findAnyOf(std::string const& _haystack, std::vector<std::string> const& _needles)
|
|
{
|
|
for (std::string const& needle: _needles)
|
|
if (_haystack.find(needle) != std::string::npos)
|
|
return needle;
|
|
return "";
|
|
}
|
|
|
|
|
|
namespace detail
|
|
{
|
|
template<typename T>
|
|
void variadicEmplaceBack(std::vector<T>&) {}
|
|
template<typename T, typename A, typename... Args>
|
|
void variadicEmplaceBack(std::vector<T>& _vector, A&& _a, Args&&... _args)
|
|
{
|
|
_vector.emplace_back(std::forward<A>(_a));
|
|
variadicEmplaceBack(_vector, std::forward<Args>(_args)...);
|
|
}
|
|
}
|
|
|
|
template<typename T, typename... Args>
|
|
std::vector<T> make_vector(Args&&... _args)
|
|
{
|
|
std::vector<T> result;
|
|
result.reserve(sizeof...(_args));
|
|
detail::variadicEmplaceBack(result, std::forward<Args>(_args)...);
|
|
return result;
|
|
}
|
|
|
|
}
|