/* This file is part of cpp-ethereum. cpp-ethereum is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. cpp-ethereum is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with cpp-ethereum. If not, see . */ /** @file Common.h * @author Gav Wood * @date 2014 * * Very common stuff (i.e. that every other header needs except vector_ref.h). */ #pragma once // way to many unsigned to size_t warnings in 32 bit build #ifdef _M_IX86 #pragma warning(disable:4244) #endif #ifdef _MSC_VER #define _ALLOW_KEYWORD_MACROS #define noexcept throw() #endif #include #include #include #include #include #pragma warning(push) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wunused-parameter" #include #pragma warning(pop) #pragma GCC diagnostic pop #include "vector_ref.h" // CryptoPP defines byte in the global namespace, so must we. using byte = uint8_t; // Quote a given token stream to turn it into a string. #define DEV_QUOTED_HELPER(s) #s #define DEV_QUOTED(s) DEV_QUOTED_HELPER(s) #define DEV_IGNORE_EXCEPTIONS(X) try { X; } catch (...) {} namespace dev { extern char const* Version; // Binary data types. using bytes = std::vector; using bytesRef = vector_ref; using bytesConstRef = vector_ref; // Numeric types. using bigint = boost::multiprecision::number>; using u64 = boost::multiprecision::number>; using u128 = boost::multiprecision::number>; using u256 = boost::multiprecision::number>; using s256 = boost::multiprecision::number>; using u160 = boost::multiprecision::number>; using s160 = boost::multiprecision::number>; using u512 = boost::multiprecision::number>; using u256s = std::vector; using u160s = std::vector; using u256Set = std::set; using u160Set = std::set; // Map types. using StringMap = std::map; using u256Map = std::map; using HexMap = std::map; // String types. using strings = std::vector; // Fixed-length string types. using string32 = std::array; static const string32 ZeroString32 = {{ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 }}; // Null/Invalid values for convenience. static const u256 Invalid256 = ~(u256)0; static const bytes NullBytes; static const std::map EmptyMapU256U256; inline s256 u2s(u256 _u) { static const bigint c_end = (bigint)1 << 256; static const u256 c_send = (u256)1 << 255; if (_u < c_send) return (s256)_u; else return (s256)-(c_end - _u); } inline u256 s2u(s256 _u) { static const bigint c_end = (bigint)1 << 256; if (_u >= 0) return (u256)_u; else return (u256)(c_end + _u); } inline unsigned int toLog2(u256 _x) { unsigned ret; for (ret = 0; _x >>= 1; ++ret) {} return ret; } template inline N diff(N const& _a, N const& _b) { return std::max(_a, _b) - std::min(_a, _b); } /// RAII utility class whose destructor calls a given function. class ScopeGuard { public: ScopeGuard(std::function _f): m_f(_f) {} ~ScopeGuard() { m_f(); } private: std::function m_f; }; /// Inheritable for classes that have invariants. class HasInvariants { public: /// Check invariants are met, throw if not. void checkInvariants() const; protected: /// Reimplement to specify the invariants. virtual bool invariants() const = 0; }; /// RAII checker for invariant assertions. class InvariantChecker { public: InvariantChecker(HasInvariants* _this): m_this(_this) { m_this->checkInvariants(); } ~InvariantChecker() { m_this->checkInvariants(); } private: HasInvariants const* m_this; }; /// Scope guard for invariant check in a class derived from HasInvariants. #if ETH_DEBUG #define DEV_INVARIANT_CHECK ::dev::InvariantChecker __dev_invariantCheck(this) #else #define DEV_INVARIANT_CHECK (void)0; #endif /// Simple scope-based timer helper. class TimerHelper { public: TimerHelper(char const* _id, unsigned _msReportWhenGreater = 0): m_id(_id), m_ms(_msReportWhenGreater) {} ~TimerHelper(); private: boost::timer m_t; char const* m_id; unsigned m_ms; }; #define DEV_TIMED(S) for (::std::pair<::dev::TimerHelper, bool> __eth_t(#S, true); __eth_t.second; __eth_t.second = false) #define DEV_TIMED_SCOPE(S) ::dev::TimerHelper __eth_t(S) #if WIN32 #define DEV_TIMED_FUNCTION DEV_TIMED_SCOPE(__FUNCSIG__) #else #define DEV_TIMED_FUNCTION DEV_TIMED_SCOPE(__PRETTY_FUNCTION__) #endif #define DEV_TIMED_IF(S, MS) for (::std::pair<::dev::TimerHelper, bool> __eth_t(::dev::TimerHelper(#S, MS), true); __eth_t.second; __eth_t.second = false) #define DEV_TIMED_SCOPE_IF(S) ::dev::TimerHelper __eth_t(S, MS) #if WIN32 #define DEV_TIMED_FUNCTION_IF(MS) DEV_TIMED_SCOPE_IF(__FUNCSIG__, MS) #else #define DEV_TIMED_FUNCTION_IF(MS) DEV_TIMED_SCOPE_IF(__PRETTY_FUNCTION__, MS) #endif enum class WithExisting: int { Trust = 0, Verify, Kill }; } namespace std { inline dev::WithExisting max(dev::WithExisting _a, dev::WithExisting _b) { return static_cast(max(static_cast(_a), static_cast(_b))); } }