Mercurial > hg > svcore
view data/model/Labeller.h @ 1670:623231712470 single-point
Add getPointCount, used in debug mode by AlignmentModel
author | Chris Cannam |
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date | Wed, 27 Mar 2019 11:26:22 +0000 |
parents | 08bed13d3a26 |
children | 9d82b164f264 |
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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 2006-2007 Chris Cannam and QMUL. 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_LABELLER_H #define SV_LABELLER_H #include "base/Selection.h" #include "base/Event.h" #include "EventCommands.h" #include <QObject> #include <map> #include <iostream> class Labeller : public QObject { Q_OBJECT public: enum ValueType { ValueNone, ValueFromSimpleCounter, ValueFromCyclicalCounter, ValueFromTwoLevelCounter, ValueFromFrameNumber, ValueFromRealTime, ValueFromDurationFromPrevious, ValueFromDurationToNext, ValueFromTempoFromPrevious, ValueFromTempoToNext, ValueFromExistingNeighbour, ValueFromLabel }; // uses: // // 1. when adding points to a time-value model, generate values // for those points based on their times or labels or a counter // // 2. when adding a single point to a time-instant model, generate // a label for it based on its time and that of the previous point // or a counter // // 3. when adding a single point to a time-instant model, generate // a label for the previous point based on its time and that of // the point just added (as tempo is based on time to the next // point, not the previous one) // // 4. re-label a set of points that have already been added to a // model // // 5. generate new labelled points in the gaps between other // points (subdivide), or remove them (winnow) Labeller(ValueType type = ValueNone) : m_type(type), m_counter(1), m_counter2(1), m_cycle(4), m_dp(10), m_rate(0) { } Labeller(const Labeller &l) : QObject(), m_type(l.m_type), m_counter(l.m_counter), m_counter2(l.m_counter2), m_cycle(l.m_cycle), m_dp(l.m_dp), m_rate(l.m_rate) { } virtual ~Labeller() { } typedef std::map<ValueType, QString> TypeNameMap; TypeNameMap getTypeNames() const { TypeNameMap m; m[ValueNone] = tr("No numbering"); m[ValueFromSimpleCounter] = tr("Simple counter"); m[ValueFromCyclicalCounter] = tr("Cyclical counter"); m[ValueFromTwoLevelCounter] = tr("Cyclical two-level counter (bar/beat)"); m[ValueFromFrameNumber] = tr("Audio sample frame number"); m[ValueFromRealTime] = tr("Time in seconds"); m[ValueFromDurationToNext] = tr("Duration to the following item"); m[ValueFromTempoToNext] = tr("Tempo (bpm) based on duration to following item"); m[ValueFromDurationFromPrevious] = tr("Duration since the previous item"); m[ValueFromTempoFromPrevious] = tr("Tempo (bpm) based on duration since previous item"); m[ValueFromExistingNeighbour] = tr("Same as the nearest previous item"); m[ValueFromLabel] = tr("Value extracted from the item's label (where possible)"); return m; } ValueType getType() const { return m_type; } void setType(ValueType type) { m_type = type; } int getCounterValue() const { return m_counter; } void setCounterValue(int v) { m_counter = v; } int getSecondLevelCounterValue() const { return m_counter2; } void setSecondLevelCounterValue(int v) { m_counter2 = v; } int getCounterCycleSize() const { return m_cycle; } void setCounterCycleSize(int s) { m_cycle = s; m_dp = 1; while (s > 0) { s /= 10; m_dp *= 10; } if (m_counter > m_cycle) m_counter = 1; } void setSampleRate(sv_samplerate_t rate) { m_rate = rate; } void resetCounters() { m_counter = 1; m_counter2 = 1; m_cycle = 4; } void incrementCounter() { m_counter++; if (m_type == ValueFromCyclicalCounter || m_type == ValueFromTwoLevelCounter) { if (m_counter > m_cycle) { m_counter = 1; m_counter2++; } } } enum Application { AppliesToThisEvent, AppliesToPreviousEvent }; typedef std::pair<Application, Event> Relabelling; typedef std::pair<Application, Event> Revaluing; /** * Return a labelled event based on the given event, previous * event if supplied, and internal labeller state. The returned * event replaces either the event provided or the previous event, * depending on the Application value in the returned pair. */ Relabelling label(Event e, const Event *prev = nullptr) { QString label = e.getLabel(); if (m_type == ValueNone) { label = ""; } else if (m_type == ValueFromTwoLevelCounter) { label = tr("%1.%2").arg(m_counter2).arg(m_counter); incrementCounter(); } else if (m_type == ValueFromFrameNumber) { // avoid going through floating-point value label = tr("%1").arg(e.getFrame()); } else { float value = getValueFor(e, prev); label = QString("%1").arg(value); } if (actingOnPrevEvent() && prev) { return { AppliesToPreviousEvent, prev->withLabel(label) }; } else { return { AppliesToThisEvent, e.withLabel(label) }; } } /** * Return an event with a value following the labelling scheme, * based on the given event, previous event if supplied, and * internal labeller state. The returned event replaces either the * event provided or the previous event, depending on the * Application value in the returned pair. */ Revaluing revalue(Event e, const Event *prev = nullptr) { float value = e.getValue(); if (m_type == ValueFromExistingNeighbour) { if (!prev) { std::cerr << "ERROR: Labeller::setValue: Previous point required but not provided" << std::endl; } else { return { AppliesToThisEvent, e.withValue(prev->getValue()) }; } } else { value = getValueFor(e, prev); } if (actingOnPrevEvent() && prev) { return { AppliesToPreviousEvent, prev->withValue(value) }; } else { return { AppliesToThisEvent, e.withValue(value) }; } } /** * Relabel all events in the given event vector that lie within * the given multi-selection, according to the labelling * properties of this labeller. Return a command that has been * executed but not yet added to the history. */ Command *labelAll(EventEditable *editable, MultiSelection *ms, const EventVector &allEvents) { ChangeEventsCommand *command = new ChangeEventsCommand (editable, tr("Label Points")); Event prev; bool havePrev = false; for (auto p: allEvents) { if (ms) { Selection s(ms->getContainingSelection(p.getFrame(), false)); if (!s.contains(p.getFrame())) { prev = p; havePrev = true; continue; } } auto labelling = label(p, havePrev ? &prev : nullptr); if (labelling.first == AppliesToThisEvent) { command->remove(p); } else { command->remove(prev); } command->add(labelling.second); prev = p; havePrev = true; } return command->finish(); } /** * For each event in the given event vector (except the last), if * that event lies within the given multi-selection, add n-1 new * events at equally spaced intervals between it and the following * event. Return a command that has been executed but not yet * added to the history. */ Command *subdivide(EventEditable *editable, MultiSelection *ms, const EventVector &allEvents, int n) { ChangeEventsCommand *command = new ChangeEventsCommand (editable, tr("Subdivide Points")); for (auto i = allEvents.begin(); i != allEvents.end(); ++i) { auto j = i; // require a "next point" even if it's not in selection if (++j == allEvents.end()) { break; } if (ms) { Selection s(ms->getContainingSelection(i->getFrame(), false)); if (!s.contains(i->getFrame())) { continue; } } Event p(*i); Event nextP(*j); // n is the number of subdivisions, so we add n-1 new // points equally spaced between p and nextP for (int m = 1; m < n; ++m) { sv_frame_t f = p.getFrame() + (m * (nextP.getFrame() - p.getFrame())) / n; Event newPoint = p .withFrame(f) .withLabel(tr("%1.%2").arg(p.getLabel()).arg(m+1)); command->add(newPoint); } } return command->finish(); } /** * The opposite of subdivide. Given an event vector, a * multi-selection, and a number n, remove all but every nth event * from the vector within the extents of the multi-selection. * Return a command that has been executed but not yet added to * the history. */ Command *winnow(EventEditable *editable, MultiSelection *ms, const EventVector &allEvents, int n) { ChangeEventsCommand *command = new ChangeEventsCommand (editable, tr("Winnow Points")); int counter = 0; for (auto p: allEvents) { if (ms) { Selection s(ms->getContainingSelection(p.getFrame(), false)); if (!s.contains(p.getFrame())) { counter = 0; continue; } } ++counter; if (counter == n+1) counter = 1; if (counter == 1) { // this is an Nth instant, don't remove it continue; } command->remove(p); } return command->finish(); } bool requiresPrevPoint() const { return (m_type == ValueFromDurationFromPrevious || m_type == ValueFromDurationToNext || m_type == ValueFromTempoFromPrevious || m_type == ValueFromDurationToNext); } bool actingOnPrevEvent() const { return (m_type == ValueFromDurationToNext || m_type == ValueFromTempoToNext); } protected: float getValueFor(Event p, const Event *prev) { float value = 0.f; switch (m_type) { case ValueNone: value = 0; break; case ValueFromSimpleCounter: case ValueFromCyclicalCounter: value = float(m_counter); incrementCounter(); break; case ValueFromTwoLevelCounter: value = float(m_counter2 + double(m_counter) / double(m_dp)); incrementCounter(); break; case ValueFromFrameNumber: value = float(p.getFrame()); break; case ValueFromRealTime: if (m_rate == 0.0) { std::cerr << "ERROR: Labeller::getValueFor: Real-time conversion required, but no sample rate set" << std::endl; } else { value = float(double(p.getFrame()) / m_rate); } break; case ValueFromDurationToNext: case ValueFromTempoToNext: case ValueFromDurationFromPrevious: case ValueFromTempoFromPrevious: if (m_rate == 0.0) { std::cerr << "ERROR: Labeller::getValueFor: Real-time conversion required, but no sample rate set" << std::endl; } else if (!prev) { std::cerr << "ERROR: Labeller::getValueFor: Time difference required, but only one point provided" << std::endl; } else { sv_frame_t f0 = prev->getFrame(), f1 = p.getFrame(); if (m_type == ValueFromDurationToNext || m_type == ValueFromDurationFromPrevious) { value = float(double(f1 - f0) / m_rate); } else { if (f1 > f0) { value = float((60.0 * m_rate) / double(f1 - f0)); } } } break; case ValueFromExistingNeighbour: // need to deal with this in the calling function, as this // function must handle points that don't have values to // read from break; case ValueFromLabel: if (p.getLabel() != "") { // more forgiving than QString::toFloat() value = float(atof(p.getLabel().toLocal8Bit())); } else { value = 0.f; } break; } return value; } ValueType m_type; int m_counter; int m_counter2; int m_cycle; int m_dp; sv_samplerate_t m_rate; }; #endif