/* * Copyright 2003-2016 The Music Player Daemon Project * http://www.musicpd.org * * This program 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 2 of the License, or * (at your option) any later version. * * This program 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 this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #ifndef MPD_CHRONO_HXX #define MPD_CHRONO_HXX #include #include #include /** * A time stamp within a song. Granularity is 1 millisecond and the * maximum value is about 49 days. */ class SongTime : public std::chrono::duration { typedef std::chrono::duration Base; typedef Base::rep rep; public: SongTime() = default; template explicit constexpr SongTime(T t):Base(t) {} static constexpr SongTime zero() { return SongTime(Base::zero()); } static constexpr SongTime FromS(unsigned s) { return SongTime(rep(s) * 1000); } static constexpr SongTime FromS(float s) { return SongTime(rep(s * 1000)); } static constexpr SongTime FromS(double s) { return SongTime(rep(s * 1000)); } static constexpr SongTime FromMS(rep ms) { return SongTime(ms); } constexpr rep ToS() const { return count() / rep(1000); } constexpr rep RoundS() const { return (count() + 500) / rep(1000); } constexpr rep ToMS() const { return count(); } template constexpr T ToScale(unsigned scale) const { return count() * T(scale) / 1000; } /** * Convert a scalar value with the given scale to a #SongTime * instance. * * @param value the input value * @param scale the value's scale in Hz */ template static constexpr SongTime FromScale(T value, unsigned scale) { return SongTime(value * T(1000) / T(scale)); } constexpr double ToDoubleS() const { return double(count()) / 1000.; }; constexpr bool IsZero() const { return count() == 0; } constexpr bool IsPositive() const { return count() > 0; } constexpr SongTime operator+(const SongTime &other) const { return SongTime(*(const Base *)this + (const Base &)other); } constexpr SongTime operator-(const SongTime &other) const { return SongTime(*(const Base *)this - (const Base &)other); } }; /** * A variant of #SongTime that is based on a signed integer. It can * be used for relative values. */ class SignedSongTime : public std::chrono::duration { typedef std::chrono::duration Base; typedef Base::rep rep; public: SignedSongTime() = default; template explicit constexpr SignedSongTime(T t):Base(t) {} /** * Allow implicit conversion from SongTime to SignedSongTime. */ constexpr SignedSongTime(SongTime t):Base(t) {} static constexpr SignedSongTime zero() { return SignedSongTime(Base::zero()); } /** * Generate a negative value. */ static constexpr SignedSongTime Negative() { return SignedSongTime(-1); } static constexpr SignedSongTime FromS(int s) { return SignedSongTime(rep(s) * 1000); } static constexpr SignedSongTime FromS(unsigned s) { return SignedSongTime(rep(s) * 1000); } static constexpr SignedSongTime FromS(float s) { return SignedSongTime(rep(s * 1000)); } static constexpr SignedSongTime FromS(double s) { return SignedSongTime(rep(s * 1000)); } static constexpr SignedSongTime FromMS(rep ms) { return SignedSongTime(ms); } constexpr rep ToS() const { return count() / rep(1000); } constexpr rep RoundS() const { return (count() + 500) / rep(1000); } constexpr rep ToMS() const { return count(); } template constexpr T ToScale(unsigned scale) const { return count() * T(scale) / 1000; } /** * Convert a scalar value with the given scale to a * #SignedSongTime instance. * * @param value the input value * @param scale the value's scale in Hz */ template static constexpr SignedSongTime FromScale(T value, unsigned scale) { return SignedSongTime(value * T(1000) / T(scale)); } constexpr double ToDoubleS() const { return double(count()) / 1000.; }; constexpr bool IsZero() const { return count() == 0; } constexpr bool IsPositive() const { return count() > 0; } constexpr bool IsNegative() const { return count() < 0; } constexpr SignedSongTime operator+(const SignedSongTime &other) const { return SignedSongTime(*(const Base *)this + (const Base &)other); } constexpr SignedSongTime operator-(const SignedSongTime &other) const { return SignedSongTime(*(const Base *)this - (const Base &)other); } }; #endif