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annotate src/Analyser.h @ 271:846df0ea9c82 v0.5

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author Chris Cannam <chris.cannam@eecs.qmul.ac.uk>
date Thu, 03 Apr 2014 09:39:16 +0100
parents 8eb167e817e7
children 2a2fd6eb8fa8
rev   line source
Chris@6 1 /* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */
Chris@6 2
Chris@6 3 /*
Chris@6 4 Tony
Chris@6 5 An intonation analysis and annotation tool
Chris@6 6 Centre for Digital Music, Queen Mary, University of London.
Chris@6 7 This file copyright 2006-2012 Chris Cannam and QMUL.
Chris@6 8
Chris@6 9 This program is free software; you can redistribute it and/or
Chris@6 10 modify it under the terms of the GNU General Public License as
Chris@6 11 published by the Free Software Foundation; either version 2 of the
Chris@6 12 License, or (at your option) any later version. See the file
Chris@6 13 COPYING included with this distribution for more information.
Chris@6 14 */
Chris@6 15
Chris@6 16 #ifndef ANALYSER_H
Chris@6 17 #define ANALYSER_H
Chris@6 18
Chris@6 19 #include <QObject>
Chris@191 20 #include <QRect>
Chris@6 21
Chris@128 22 #include <map>
Chris@163 23 #include <vector>
Chris@163 24
Chris@163 25 #include "framework/Document.h"
Chris@164 26 #include "base/Selection.h"
Chris@194 27 #include "base/Clipboard.h"
Chris@6 28
Chris@6 29 class WaveFileModel;
Chris@6 30 class Pane;
Chris@6 31 class PaneStack;
Chris@6 32 class Layer;
Chris@128 33 class TimeValueLayer;
Chris@128 34 class Layer;
Chris@6 35
Chris@163 36 class Analyser : public QObject,
Chris@163 37 public Document::LayerCreationHandler
Chris@6 38 {
Chris@6 39 Q_OBJECT
Chris@6 40
Chris@6 41 public:
Chris@6 42 Analyser();
Chris@6 43 virtual ~Analyser();
Chris@6 44
Chris@140 45 // Process new main model, add derived layers; return "" on success or error string on failure
Chris@140 46 QString newFileLoaded(Document *newDocument, WaveFileModel *model,
Chris@140 47 PaneStack *paneStack, Pane *pane);
Chris@226 48
Chris@226 49 // Discard any layers etc associated with the current document
Chris@226 50 void fileClosed();
gyorgyf@45 51
gyorgyf@45 52 void setIntelligentActions(bool);
Chris@6 53
Chris@227 54 bool getDisplayFrequencyExtents(float &min, float &max);
Chris@227 55 bool setDisplayFrequencyExtents(float min, float max);
Chris@227 56
Chris@128 57 enum Component {
Chris@242 58 Audio = 0,
Chris@242 59 PitchTrack = 1,
Chris@242 60 Notes = 2,
Chris@242 61 Spectrogram = 3,
Chris@128 62 };
Chris@128 63
Chris@128 64 bool isVisible(Component c) const;
Chris@128 65 void setVisible(Component c, bool v);
Chris@144 66 void toggleVisible(Component c) { setVisible(c, !isVisible(c)); }
Chris@128 67
Chris@128 68 bool isAudible(Component c) const;
Chris@128 69 void setAudible(Component c, bool v);
Chris@144 70 void toggleAudible(Component c) { setAudible(c, !isAudible(c)); }
Chris@128 71
Chris@128 72 void cycleStatus(Component c) {
Chris@128 73 if (isVisible(c)) {
Chris@128 74 if (isAudible(c)) {
Chris@128 75 setVisible(c, false);
Chris@128 76 setAudible(c, false);
Chris@128 77 } else {
Chris@128 78 setAudible(c, true);
Chris@128 79 }
Chris@128 80 } else {
Chris@128 81 setVisible(c, true);
Chris@128 82 setAudible(c, false);
Chris@128 83 }
Chris@128 84 }
Chris@128 85
Chris@260 86 WaveFileModel *getMainModel() const {
Chris@260 87 return m_fileModel;
Chris@260 88 }
Chris@260 89
Chris@158 90 float getGain(Component c) const;
Chris@158 91 void setGain(Component c, float gain);
Chris@158 92
Chris@158 93 float getPan(Component c) const;
Chris@158 94 void setPan(Component c, float pan);
Chris@158 95
Chris@139 96 void getEnclosingSelectionScope(size_t f, size_t &f0, size_t &f1);
Chris@139 97
Chris@192 98 struct FrequencyRange {
Chris@192 99 FrequencyRange() : min(0), max(0) { }
Chris@192 100 FrequencyRange(float min_, float max_) : min(min_), max(max_) { }
Chris@192 101 bool isConstrained() const { return min != max; }
Chris@192 102 float min;
Chris@192 103 float max;
Chris@192 104 };
Chris@192 105
Chris@164 106 /**
Chris@165 107 * Analyse the selection and schedule asynchronous adds of
Chris@165 108 * candidate layers for the region it contains. Returns "" on
Chris@192 109 * success or a user-readable error string on failure. If the
Chris@192 110 * frequency range isConstrained(), analysis will be constrained
Chris@192 111 * to that range.
Chris@164 112 */
Chris@192 113 QString reAnalyseSelection(Selection sel, FrequencyRange range);
Chris@164 114
Chris@167 115 /**
Chris@184 116 * Return true if the analysed pitch candidates are currently
Chris@199 117 * visible (they are hidden from the call to reAnalyseSelection
Chris@199 118 * until they are requested through showPitchCandidates()). Note
Chris@199 119 * that this may return true even when no pitch candidate layers
Chris@199 120 * actually exist yet, because they are constructed
Chris@199 121 * asynchronously. If that is the case, then the layers will
Chris@199 122 * appear when they are created (otherwise they will remain hidden
Chris@199 123 * after creation).
Chris@184 124 */
Chris@184 125 bool arePitchCandidatesShown() const;
Chris@184 126
Chris@184 127 /**
Chris@199 128 * Show or hide the analysed pitch candidate layers. This is reset
Chris@199 129 * (to "hide") with each new call to reAnalyseSelection. Because
Chris@199 130 * the layers are created asynchronously, setting this to true
Chris@199 131 * does not guarantee that they appear immediately, only that they
Chris@199 132 * will appear once they have been created.
Chris@184 133 */
Chris@184 134 void showPitchCandidates(bool shown);
Chris@184 135
Chris@184 136 /**
Chris@167 137 * If a re-analysis has been activated, switch the selected area
Chris@167 138 * of the main pitch track to a different candidate from the
Chris@167 139 * analysis results.
Chris@167 140 */
Chris@167 141 void switchPitchCandidate(Selection sel, bool up);
Chris@167 142
Chris@167 143 /**
Chris@199 144 * Return true if it is possible to switch up to another pitch
Chris@199 145 * candidate. This may mean that the currently selected pitch
Chris@199 146 * candidate is not the highest, or it may mean that no alternate
Chris@199 147 * pitch candidate has been selected at all yet (but some are
Chris@199 148 * available).
Chris@199 149 */
Chris@199 150 bool haveHigherPitchCandidate() const;
Chris@199 151
Chris@199 152 /**
Chris@199 153 * Return true if it is possible to switch down to another pitch
Chris@199 154 * candidate. This may mean that the currently selected pitch
Chris@199 155 * candidate is not the lowest, or it may mean that no alternate
Chris@199 156 * pitch candidate has been selected at all yet (but some are
Chris@199 157 * available).
Chris@199 158 */
Chris@199 159 bool haveLowerPitchCandidate() const;
Chris@199 160
Chris@199 161 /**
Chris@184 162 * Delete the pitch estimates from the selected area of the main
Chris@168 163 * pitch track.
Chris@168 164 */
Chris@184 165 void deletePitches(Selection sel);
Chris@168 166
Chris@168 167 /**
Chris@168 168 * Move the main pitch track and any active analysis candidate
Chris@168 169 * tracks up or down an octave in the selected area.
Chris@168 170 */
Chris@168 171 void shiftOctave(Selection sel, bool up);
Chris@168 172
Chris@168 173 /**
Chris@199 174 * Remove any re-analysis layers and also reset the pitch track in
Chris@194 175 * the given selection to its state prior to the last re-analysis,
Chris@199 176 * abandoning any changes made since then. No re-analysis layers
Chris@199 177 * will be available until after the next call to
Chris@199 178 * reAnalyseSelection.
Chris@167 179 */
Chris@199 180 void abandonReAnalysis(Selection sel);
Chris@167 181
Chris@174 182 /**
Chris@269 183 * Remove any re-analysis layers, without any expectation of
Chris@269 184 * adding them later, unlike showPitchCandidates(false), and
Chris@269 185 * without changing the current pitch track, unlike
Chris@269 186 * abandonReAnalysis().
Chris@269 187 */
Chris@269 188 void clearReAnalysis();
Chris@269 189
Chris@269 190 /**
Chris@174 191 * Import the pitch track from the given layer into our
Chris@174 192 * pitch-track layer.
Chris@174 193 */
Chris@174 194 void takePitchTrackFrom(Layer *layer);
Chris@174 195
Chris@174 196 Pane *getPane() {
Chris@174 197 return m_pane;
Chris@174 198 }
Chris@174 199
Chris@174 200 Layer *getLayer(Component type) {
Chris@174 201 return m_layers[type];
Chris@174 202 }
Chris@174 203
Chris@128 204 signals:
Chris@128 205 void layersChanged();
Chris@128 206
Chris@242 207 protected slots:
Chris@242 208 void layerAboutToBeDeleted(Layer *);
Chris@242 209
Chris@6 210 protected:
Chris@6 211 Document *m_document;
Chris@6 212 WaveFileModel *m_fileModel;
Chris@133 213 PaneStack *m_paneStack;
Chris@6 214 Pane *m_pane;
Chris@165 215
Chris@128 216 mutable std::map<Component, Layer *> m_layers;
Chris@132 217
Chris@194 218 Clipboard m_preAnalysis;
Chris@165 219 Selection m_reAnalysingSelection;
Chris@165 220 std::vector<Layer *> m_reAnalysisCandidates;
Chris@167 221 int m_currentCandidate;
Chris@184 222 bool m_candidatesVisible;
Chris@165 223
Chris@161 224 QString addVisualisations();
Chris@161 225 QString addWaveform();
Chris@161 226 QString addAnalyses();
Chris@161 227
Chris@199 228 void discardPitchCandidates();
Chris@260 229
Chris@260 230 void stackLayers();
Chris@199 231
Chris@163 232 // Document::LayerCreationHandler method
Chris@163 233 void layersCreated(std::vector<Layer *>, std::vector<Layer *>);
Chris@163 234
Chris@132 235 void saveState(Component c) const;
Chris@132 236 void loadState(Component c);
Chris@6 237 };
Chris@6 238
Chris@6 239 #endif