//------------------------------------------------------------------------------ /* This file is part of rippled: https://github.com/ripple/rippled Copyright (c) 2012, 2013 Ripple Labs Inc. Permission to use, copy, modify, and/or distribute this software for any purpose with or without fee is hereby granted, provided that the above copyright notice and this permission notice appear in all copies. THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL , DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ //============================================================================== #ifndef RIPPLE_PROTOCOL_QUALITY_H_INCLUDED #define RIPPLE_PROTOCOL_QUALITY_H_INCLUDED #include #include #include #include #include #include namespace ripple { /** Represents a pair of input and output currencies. The input currency can be converted to the output currency by multiplying by the rate, represented by Quality. For offers, "in" is always TakerPays and "out" is always TakerGets. */ template struct TAmounts { TAmounts() = default; TAmounts (beast::Zero, beast::Zero) : in (beast::zero) , out (beast::zero) { } TAmounts (In const& in_, Out const& out_) : in (in_) , out (out_) { } /** Returns `true` if either quantity is not positive. */ bool empty() const noexcept { return in <= zero || out <= zero; } TAmounts& operator+=(TAmounts const& rhs) { in += rhs.in; out += rhs.out; return *this; } TAmounts& operator-=(TAmounts const& rhs) { in -= rhs.in; out -= rhs.out; return *this; } In in; Out out; }; template TAmounts make_Amounts(In const& in, Out const& out) { return TAmounts(in, out); } using Amounts = TAmounts; template bool operator== ( TAmounts const& lhs, TAmounts const& rhs) noexcept { return lhs.in == rhs.in && lhs.out == rhs.out; } template bool operator!= ( TAmounts const& lhs, TAmounts const& rhs) noexcept { return ! (lhs == rhs); } //------------------------------------------------------------------------------ // Ripple specific constant used for parsing qualities and other things #define QUALITY_ONE 1000000000 /** Represents the logical ratio of output currency to input currency. Internally this is stored using a custom floating point representation, as the inverse of the ratio, so that quality will be descending in a sequence of actual values that represent qualities. */ class Quality { public: // Type of the internal representation. Higher qualities // have lower unsigned integer representations. using value_type = std::uint64_t; static const int minTickSize = 3; static const int maxTickSize = 16; private: value_type m_value; public: Quality() = default; /** Create a quality from the integer encoding of an STAmount */ explicit Quality (std::uint64_t value); /** Create a quality from the ratio of two amounts. */ explicit Quality (Amounts const& amount); /** Create a quality from the ratio of two amounts. */ template Quality (Out const& out, In const& in) : Quality (Amounts (toSTAmount (in), toSTAmount (out))) {} /** Advances to the next higher quality level. */ /** @{ */ Quality& operator++(); Quality operator++ (int); /** @} */ /** Advances to the next lower quality level. */ /** @{ */ Quality& operator--(); Quality operator-- (int); /** @} */ /** Returns the quality as STAmount. */ STAmount rate () const { return amountFromQuality (m_value); } /** Returns the quality rounded up to the specified number of decimal digits. */ Quality round (int tickSize) const; /** Returns the scaled amount with in capped. Math is avoided if the result is exact. The output is clamped to prevent money creation. */ Amounts ceil_in (Amounts const& amount, STAmount const& limit) const; template TAmounts ceil_in (TAmounts const& amount, In const& limit) const { if (amount.in <= limit) return amount; // Use the existing STAmount implementation for now, but consider // replacing with code specific to IOUAMount and XRPAmount Amounts stAmt (toSTAmount (amount.in), toSTAmount (amount.out)); STAmount stLim (toSTAmount (limit)); auto const stRes = ceil_in (stAmt, stLim); return TAmounts (toAmount (stRes.in), toAmount (stRes.out)); } /** Returns the scaled amount with out capped. Math is avoided if the result is exact. The input is clamped to prevent money creation. */ Amounts ceil_out (Amounts const& amount, STAmount const& limit) const; template TAmounts ceil_out (TAmounts const& amount, Out const& limit) const { if (amount.out <= limit) return amount; // Use the existing STAmount implementation for now, but consider // replacing with code specific to IOUAMount and XRPAmount Amounts stAmt (toSTAmount (amount.in), toSTAmount (amount.out)); STAmount stLim (toSTAmount (limit)); auto const stRes = ceil_out (stAmt, stLim); return TAmounts (toAmount (stRes.in), toAmount (stRes.out)); } /** Returns `true` if lhs is lower quality than `rhs`. Lower quality means the taker receives a worse deal. Higher quality is better for the taker. */ friend bool operator< (Quality const& lhs, Quality const& rhs) noexcept { return lhs.m_value > rhs.m_value; } friend bool operator> (Quality const& lhs, Quality const& rhs) noexcept { return lhs.m_value < rhs.m_value; } friend bool operator== (Quality const& lhs, Quality const& rhs) noexcept { return lhs.m_value == rhs.m_value; } friend bool operator!= (Quality const& lhs, Quality const& rhs) noexcept { return ! (lhs == rhs); } friend std::ostream& operator<< (std::ostream& os, Quality const& quality) { os << quality.m_value; return os; } }; /** Calculate the quality of a two-hop path given the two hops. @param lhs The first leg of the path: input to intermediate. @param rhs The second leg of the path: intermediate to output. */ Quality composed_quality (Quality const& lhs, Quality const& rhs); } #endif