Chris@147: /* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */ Chris@147: Chris@147: /* Chris@147: Sonic Visualiser Chris@147: An audio file viewer and annotation editor. Chris@147: Centre for Digital Music, Queen Mary, University of London. Chris@202: This file copyright 2006 Chris Cannam and QMUL. Chris@147: Chris@147: This program is free software; you can redistribute it and/or Chris@147: modify it under the terms of the GNU General Public License as Chris@147: published by the Free Software Foundation; either version 2 of the Chris@147: License, or (at your option) any later version. See the file Chris@147: COPYING included with this distribution for more information. Chris@147: */ Chris@147: Chris@147: #ifndef _DENSE_THREE_DIMENSIONAL_MODEL_H_ Chris@147: #define _DENSE_THREE_DIMENSIONAL_MODEL_H_ Chris@147: Chris@150: #include "Model.h" Chris@500: #include "TabularModel.h" Chris@147: #include "base/ZoomConstraint.h" Chris@500: #include "base/RealTime.h" Chris@147: Chris@147: #include Chris@533: #include Chris@147: Chris@500: class DenseThreeDimensionalModel : public Model, Chris@500: public TabularModel Chris@147: { Chris@147: Q_OBJECT Chris@147: Chris@147: public: Chris@147: /** Chris@182: * Return the number of sample frames covered by each column of bins. Chris@147: */ Chris@929: virtual int getResolution() const = 0; Chris@147: Chris@147: /** Chris@182: * Return the number of columns of bins in the model. Chris@147: */ Chris@929: virtual int getWidth() const = 0; Chris@147: Chris@147: /** Chris@182: * Return the number of bins in each column. Chris@182: */ Chris@929: virtual int getHeight() const = 0; Chris@182: Chris@182: /** Chris@182: * Return the minimum permissible value in each bin. Chris@147: */ Chris@152: virtual float getMinimumLevel() const = 0; Chris@147: Chris@147: /** Chris@182: * Return the maximum permissible value in each bin. Chris@147: */ Chris@152: virtual float getMaximumLevel() const = 0; Chris@147: Chris@1154: typedef std::vector Column; Chris@147: Chris@147: /** Chris@182: * Get data from the given column of bin values. Chris@147: */ Chris@929: virtual Column getColumn(int column) const = 0; Chris@147: Chris@147: /** Chris@182: * Get the single data point from the n'th bin of the given column. Chris@147: */ Chris@929: virtual float getValueAt(int column, int n) const = 0; Chris@147: Chris@182: /** Chris@182: * Get the name of a given bin (i.e. a label to associate with Chris@182: * that bin across all columns). Chris@182: */ Chris@929: virtual QString getBinName(int n) const = 0; Chris@147: Chris@182: /** Chris@887: * Return true if the bins have values as well as names. If this Chris@887: * returns true, getBinValue() may be used to retrieve the values. Chris@887: */ Chris@887: virtual bool hasBinValues() const { return false; } Chris@887: Chris@887: /** Chris@887: * Return the value of bin n, if any. This is a "vertical scale" Chris@887: * value which does not vary from one column to the next. This is Chris@887: * only meaningful if hasBinValues() returns true. Chris@887: */ Chris@1038: virtual float getBinValue(int n) const { return float(n); } Chris@887: Chris@887: /** Chris@887: * Obtain the name of the unit of the values returned from Chris@887: * getBinValue(), if any. Chris@887: */ Chris@887: virtual QString getBinValueUnit() const { return ""; } Chris@887: Chris@887: /** Chris@478: * Estimate whether a logarithmic scale might be appropriate for Chris@478: * the value scale. Chris@478: */ Chris@478: virtual bool shouldUseLogValueScale() const = 0; Chris@478: Chris@478: /** Chris@182: * Utility function to query whether a given bin is greater than Chris@182: * its (vertical) neighbours. Chris@182: */ Chris@929: bool isLocalPeak(int x, int y) { Chris@182: float value = getValueAt(x, y); Chris@182: if (y > 0 && value < getValueAt(x, y - 1)) return false; Chris@182: if (y < getHeight() - 1 && value < getValueAt(x, y + 1)) return false; Chris@182: return true; Chris@182: } Chris@182: Chris@182: /** Chris@182: * Utility function to query whether a given bin is greater than a Chris@182: * certain threshold. Chris@182: */ Chris@929: bool isOverThreshold(int x, int y, float threshold) { Chris@182: return getValueAt(x, y) > threshold; Chris@182: } Chris@182: Chris@345: QString getTypeName() const { return tr("Dense 3-D"); } Chris@345: Chris@152: virtual int getCompletion() const = 0; Chris@147: Chris@500: /* Chris@500: TabularModel methods. Chris@500: This class is non-editable -- subclasses may be editable. Chris@500: Row and column are transposed for the tabular view (which is Chris@500: "on its side"). Chris@500: */ Chris@500: Chris@500: virtual int getRowCount() const { return getWidth(); } Chris@500: virtual int getColumnCount() const { return getHeight() + 2; } Chris@500: Chris@500: virtual QString getHeading(int column) const Chris@500: { Chris@500: switch (column) { Chris@500: case 0: return tr("Time"); Chris@500: case 1: return tr("Frame"); Chris@500: default: return getBinName(column - 2); Chris@500: } Chris@500: } Chris@500: Chris@568: virtual QVariant getData(int row, int column, int) const Chris@500: { Chris@500: switch (column) { Chris@500: case 0: { Chris@500: RealTime rt = RealTime::frame2RealTime(row * getResolution(), Chris@500: getSampleRate()); Chris@500: return rt.toText().c_str(); Chris@500: } Chris@500: case 1: Chris@500: return int(row * getResolution()); Chris@500: default: Chris@500: return getValueAt(row, column - 2); Chris@500: } Chris@500: } Chris@500: Chris@500: virtual bool isColumnTimeValue(int col) const { Chris@500: return col < 2; Chris@500: } Chris@568: virtual SortType getSortType(int) const { Chris@500: return SortNumeric; Chris@500: } Chris@500: Chris@1038: virtual sv_frame_t getFrameForRow(int row) const { Chris@1038: return sv_frame_t(row) * getResolution(); Chris@500: } Chris@1038: virtual int getRowForFrame(sv_frame_t frame) const { Chris@1038: return int(frame / getResolution()); Chris@500: } Chris@500: Chris@147: protected: Chris@152: DenseThreeDimensionalModel() { } Chris@147: }; Chris@147: Chris@147: #endif