Mercurial > hg > svcore
view base/Event.h @ 1642:d591836e47ef single-point
Fix compiler warning
| author | Chris Cannam |
|---|---|
| date | Wed, 13 Mar 2019 14:46:54 +0000 |
| parents | 751a52865270 |
| children | 29a20719796e |
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/* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */ /* Sonic Visualiser An audio file viewer and annotation editor. Centre for Digital Music, Queen Mary, University of London. This file copyright 2006 Chris Cannam. 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. See the file COPYING included with this distribution for more information. */ #ifndef SV_EVENT_H #define SV_EVENT_H #include "BaseTypes.h" #include "NoteData.h" #include "XmlExportable.h" #include "DataExportOptions.h" #include <vector> #include <stdexcept> #include <QString> /** * An immutable type used for point and event representation in sparse * models, as well as for interchange within the clipboard. An event * always has a frame and (possibly empty) label, and optionally has * numerical value, level, duration in frames, and a mapped reference * frame. Event has an operator< defining a total ordering, by frame * first and then by the other properties. * * Event is based on the Clipboard::Point type up to SV v3.2.1 and is * intended also to replace the custom point types previously found in * sparse models. */ class Event { public: Event() : m_haveValue(false), m_haveLevel(false), m_haveDuration(false), m_haveReferenceFrame(false), m_value(0.f), m_level(0.f), m_frame(0), m_duration(0), m_referenceFrame(0), m_label() { } Event(sv_frame_t frame) : m_haveValue(false), m_haveLevel(false), m_haveDuration(false), m_haveReferenceFrame(false), m_value(0.f), m_level(0.f), m_frame(frame), m_duration(0), m_referenceFrame(0), m_label() { } Event(sv_frame_t frame, QString label) : m_haveValue(false), m_haveLevel(false), m_haveDuration(false), m_haveReferenceFrame(false), m_value(0.f), m_level(0.f), m_frame(frame), m_duration(0), m_referenceFrame(0), m_label(label) { } Event(sv_frame_t frame, float value, QString label) : m_haveValue(true), m_haveLevel(false), m_haveDuration(false), m_haveReferenceFrame(false), m_value(value), m_level(0.f), m_frame(frame), m_duration(0), m_referenceFrame(0), m_label(label) { } Event(sv_frame_t frame, float value, sv_frame_t duration, QString label) : m_haveValue(true), m_haveLevel(false), m_haveDuration(true), m_haveReferenceFrame(false), m_value(value), m_level(0.f), m_frame(frame), m_duration(duration), m_referenceFrame(0), m_label(label) { if (m_duration < 0) throw std::logic_error("duration must be >= 0"); } Event(sv_frame_t frame, float value, sv_frame_t duration, float level, QString label) : m_haveValue(true), m_haveLevel(true), m_haveDuration(true), m_haveReferenceFrame(false), m_value(value), m_level(level), m_frame(frame), m_duration(duration), m_referenceFrame(0), m_label(label) { if (m_duration < 0) throw std::logic_error("duration must be >= 0"); } Event(const Event &event) =default; Event &operator=(const Event &event) =default; Event &operator=(Event &&event) =default; sv_frame_t getFrame() const { return m_frame; } Event withFrame(sv_frame_t frame) const { Event p(*this); p.m_frame = frame; return p; } bool hasValue() const { return m_haveValue; } float getValue() const { return m_haveValue ? m_value : 0.f; } Event withValue(float value) const { Event p(*this); p.m_haveValue = true; p.m_value = value; return p; } Event withoutValue() const { Event p(*this); p.m_haveValue = false; p.m_value = 0.f; return p; } bool hasDuration() const { return m_haveDuration; } sv_frame_t getDuration() const { return m_haveDuration ? m_duration : 0; } Event withDuration(sv_frame_t duration) const { Event p(*this); p.m_duration = duration; p.m_haveDuration = true; if (duration < 0) throw std::logic_error("duration must be >= 0"); return p; } Event withoutDuration() const { Event p(*this); p.m_haveDuration = false; p.m_duration = 0; return p; } bool hasLabel() const { return m_label != QString(); } QString getLabel() const { return m_label; } Event withLabel(QString label) const { Event p(*this); p.m_label = label; return p; } bool hasLevel() const { return m_haveLevel; } float getLevel() const { return m_haveLevel ? m_level : 0.f; } Event withLevel(float level) const { Event p(*this); p.m_haveLevel = true; p.m_level = level; return p; } Event withoutLevel() const { Event p(*this); p.m_haveLevel = false; p.m_level = 0.f; return p; } bool hasReferenceFrame() const { return m_haveReferenceFrame; } sv_frame_t getReferenceFrame() const { return m_haveReferenceFrame ? m_referenceFrame : m_frame; } bool referenceFrameDiffers() const { // from event frame return m_haveReferenceFrame && (m_referenceFrame != m_frame); } Event withReferenceFrame(sv_frame_t frame) const { Event p(*this); p.m_haveReferenceFrame = true; p.m_referenceFrame = frame; return p; } Event withoutReferenceFrame() const { Event p(*this); p.m_haveReferenceFrame = false; p.m_referenceFrame = 0; return p; } bool operator==(const Event &p) const { if (m_frame != p.m_frame) return false; if (m_haveDuration != p.m_haveDuration) return false; if (m_haveDuration && (m_duration != p.m_duration)) return false; if (m_haveValue != p.m_haveValue) return false; if (m_haveValue && (m_value != p.m_value)) return false; if (m_haveLevel != p.m_haveLevel) return false; if (m_haveLevel && (m_level != p.m_level)) return false; if (m_haveReferenceFrame != p.m_haveReferenceFrame) return false; if (m_haveReferenceFrame && (m_referenceFrame != p.m_referenceFrame)) return false; if (m_label != p.m_label) return false; return true; } bool operator!=(const Event &p) const { return !operator==(p); } bool operator<(const Event &p) const { if (m_frame != p.m_frame) { return m_frame < p.m_frame; } // events without a property sort before events with that property if (m_haveDuration != p.m_haveDuration) { return !m_haveDuration; } if (m_haveDuration && (m_duration != p.m_duration)) { return m_duration < p.m_duration; } if (m_haveValue != p.m_haveValue) { return !m_haveValue; } if (m_haveValue && (m_value != p.m_value)) { return m_value < p.m_value; } if (m_haveLevel != p.m_haveLevel) { return !m_haveLevel; } if (m_haveLevel && (m_level != p.m_level)) { return m_level < p.m_level; } if (m_haveReferenceFrame != p.m_haveReferenceFrame) { return !m_haveReferenceFrame; } if (m_haveReferenceFrame && (m_referenceFrame != p.m_referenceFrame)) { return m_referenceFrame < p.m_referenceFrame; } return m_label < p.m_label; } void toXml(QTextStream &stream, QString indent = "", QString extraAttributes = "") const { // For I/O purposes these are points, not events stream << indent << QString("<point frame=\"%1\" ").arg(m_frame); if (m_haveValue) stream << QString("value=\"%1\" ").arg(m_value); if (m_haveDuration) stream << QString("duration=\"%1\" ").arg(m_duration); if (m_haveLevel) stream << QString("level=\"%1\" ").arg(m_level); if (m_haveReferenceFrame) stream << QString("referenceFrame=\"%1\" ") .arg(m_referenceFrame); stream << QString("label=\"%1\" ") .arg(XmlExportable::encodeEntities(m_label)); stream << extraAttributes << "/>\n"; } QString toXmlString(QString indent = "", QString extraAttributes = "") const { QString s; QTextStream out(&s); toXml(out, indent, extraAttributes); out.flush(); return s; } NoteData toNoteData(sv_samplerate_t sampleRate, bool valueIsMidiPitch) const { sv_frame_t duration; if (m_haveDuration && m_duration > 0) { duration = m_duration; } else { duration = sv_frame_t(sampleRate / 6); // arbitrary short duration } int midiPitch; float frequency = 0.f; if (m_haveValue) { if (valueIsMidiPitch) { midiPitch = int(roundf(m_value)); } else { frequency = m_value; midiPitch = Pitch::getPitchForFrequency(frequency); } } else { midiPitch = 64; valueIsMidiPitch = true; } int velocity = 100; if (m_haveLevel) { if (m_level > 0.f && m_level <= 1.f) { velocity = int(roundf(m_level * 127.f)); } } NoteData n(m_frame, duration, midiPitch, velocity); n.isMidiPitchQuantized = valueIsMidiPitch; if (!valueIsMidiPitch) { n.frequency = frequency; } return n; } QString toDelimitedDataString(QString delimiter, DataExportOptions opts, sv_samplerate_t sampleRate) const { QStringList list; list << RealTime::frame2RealTime(m_frame, sampleRate) .toString().c_str(); if (m_haveValue) { list << QString("%1").arg(m_value); } if (m_haveDuration) { list << RealTime::frame2RealTime(m_duration, sampleRate) .toString().c_str(); } if (m_haveLevel) { if (!(opts & DataExportOmitLevels)) { list << QString("%1").arg(m_level); } } if (m_label != "") list << m_label; return list.join(delimiter); } uint hash(uint seed = 0) const { uint h = qHash(m_label, seed); if (m_haveValue) h ^= qHash(m_value); if (m_haveLevel) h ^= qHash(m_level); h ^= qHash(m_frame); if (m_haveDuration) h ^= qHash(m_duration); if (m_haveReferenceFrame) h ^= qHash(m_referenceFrame); return h; } private: // The order of fields here is chosen to minimise overall size of struct. // We potentially store very many of these objects. // If you change something, check what difference it makes to packing. bool m_haveValue : 1; bool m_haveLevel : 1; bool m_haveDuration : 1; bool m_haveReferenceFrame : 1; float m_value; float m_level; sv_frame_t m_frame; sv_frame_t m_duration; sv_frame_t m_referenceFrame; QString m_label; }; inline uint qHash(const Event &e, uint seed = 0) { return e.hash(seed); } typedef std::vector<Event> EventVector; #endif