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annotate data/model/DenseTimeValueModel.h @ 266:2268963dabd1

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* FFT: fix invalid write of normalisation factor in compact mode of disc cache * FFT: fix range problem for normalisation factor in compact mode (it was stored as an unsigned scaled from an assumed float range of 0->1, which is not very plausible and not accurate enough even if true -- use a float instead) * Spectrogram: fix vertical zoom behaviour for log frequency spectrograms: make the thing in the middle of the display remain in the middle after zoom * Overview widget: don't update the detailed waveform if still decoding the audio file (too expensive to do all those redraws)
author Chris Cannam
date Fri, 08 Jun 2007 15:19:50 +0000
parents 0ed2b2e26b44
children 5877d68815c7
rev   line source
Chris@147 1 /* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */
Chris@147 2
Chris@147 3 /*
Chris@147 4 Sonic Visualiser
Chris@147 5 An audio file viewer and annotation editor.
Chris@147 6 Centre for Digital Music, Queen Mary, University of London.
Chris@147 7 This file copyright 2006 Chris Cannam.
Chris@147 8
Chris@147 9 This program is free software; you can redistribute it and/or
Chris@147 10 modify it under the terms of the GNU General Public License as
Chris@147 11 published by the Free Software Foundation; either version 2 of the
Chris@147 12 License, or (at your option) any later version. See the file
Chris@147 13 COPYING included with this distribution for more information.
Chris@147 14 */
Chris@147 15
Chris@147 16 #ifndef _DENSE_TIME_VALUE_MODEL_H_
Chris@147 17 #define _DENSE_TIME_VALUE_MODEL_H_
Chris@147 18
Chris@147 19 #include <QObject>
Chris@147 20
Chris@150 21 #include "Model.h"
Chris@147 22
Chris@147 23 /**
Chris@147 24 * Base class for models containing dense two-dimensional data (value
Chris@147 25 * against time). For example, audio waveform data.
Chris@147 26 */
Chris@147 27
Chris@179 28 class DenseTimeValueModel : public Model
Chris@147 29 {
Chris@147 30 Q_OBJECT
Chris@147 31
Chris@147 32 public:
Chris@147 33 DenseTimeValueModel();
Chris@147 34
Chris@147 35 /**
Chris@147 36 * Return the minimum possible value found in this model type.
Chris@147 37 * (That is, the minimum that would be valid, not the minimum
Chris@147 38 * actually found in a particular model).
Chris@147 39 */
Chris@147 40 virtual float getValueMinimum() const = 0;
Chris@147 41
Chris@147 42 /**
Chris@147 43 * Return the minimum possible value found in this model type.
Chris@147 44 * (That is, the minimum that would be valid, not the minimum
Chris@147 45 * actually found in a particular model).
Chris@147 46 */
Chris@147 47 virtual float getValueMaximum() const = 0;
Chris@147 48
Chris@147 49 /**
Chris@147 50 * Return the number of distinct channels for this model.
Chris@147 51 */
Chris@147 52 virtual size_t getChannelCount() const = 0;
Chris@147 53
Chris@147 54 /**
Chris@147 55 * Get the specified set of samples from the given channel of the
Chris@147 56 * model in single-precision floating-point format. Return the
Chris@147 57 * number of samples actually retrieved.
Chris@147 58 * If the channel is given as -1, mix all available channels and
Chris@147 59 * return the result.
Chris@147 60 */
Chris@147 61 virtual size_t getValues(int channel, size_t start, size_t end,
Chris@147 62 float *buffer) const = 0;
Chris@147 63
Chris@147 64 /**
Chris@147 65 * Get the specified set of samples from the given channel of the
Chris@147 66 * model in double-precision floating-point format. Return the
Chris@147 67 * number of samples actually retrieved.
Chris@147 68 * If the channel is given as -1, mix all available channels and
Chris@147 69 * return the result.
Chris@147 70 */
Chris@147 71 virtual size_t getValues(int channel, size_t start, size_t end,
Chris@147 72 double *buffer) const = 0;
Chris@147 73 };
Chris@147 74
Chris@147 75 #endif