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1 /* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */
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2
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3 /*
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4 Sonic Visualiser
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5 An audio file viewer and annotation editor.
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6 Centre for Digital Music, Queen Mary, University of London.
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7 This file copyright 2006 Chris Cannam and QMUL.
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8
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9 This program is free software; you can redistribute it and/or
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10 modify it under the terms of the GNU General Public License as
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11 published by the Free Software Foundation; either version 2 of the
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12 License, or (at your option) any later version. See the file
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13 COPYING included with this distribution for more information.
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14 */
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15
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16 #ifndef _LAYER_H_
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17 #define _LAYER_H_
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18
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19 #include "base/PropertyContainer.h"
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20 #include "base/XmlExportable.h"
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21 #include "base/Selection.h"
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22
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23 #include <QObject>
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24 #include <QRect>
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25 #include <QXmlAttributes>
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26 #include <QMutex>
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27 #include <QPixmap>
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28
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29 #include <map>
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30 #include <set>
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31
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32 class ZoomConstraint;
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33 class Model;
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34 class QPainter;
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35 class View;
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36 class QMouseEvent;
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37 class Clipboard;
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38 class RangeMapper;
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39
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40 /**
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41 * The base class for visual representations of the data found in a
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42 * Model. Layers are expected to be able to draw themselves onto a
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43 * View, and may also be editable.
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44 */
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45
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46 class Layer : public PropertyContainer,
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47 public XmlExportable
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48 {
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49 Q_OBJECT
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50
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51 public:
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52 Layer();
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53 virtual ~Layer();
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54
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55 virtual const Model *getModel() const = 0;
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56 virtual Model *getModel() {
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57 return const_cast<Model *>(const_cast<const Layer *>(this)->getModel());
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58 }
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59
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60 /**
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61 * Return a zoom constraint object defining the supported zoom
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62 * levels for this layer. If this returns zero, the layer will
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63 * support any integer zoom level.
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64 */
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65 virtual const ZoomConstraint *getZoomConstraint() const { return 0; }
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66
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67 /**
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68 * Return true if this layer can handle zoom levels other than
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69 * those supported by its zoom constraint (presumably less
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70 * efficiently or accurately than the officially supported zoom
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71 * levels). If true, the layer will unenthusistically accept any
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72 * integer zoom level from 1 to the maximum returned by its zoom
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73 * constraint.
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74 */
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75 virtual bool supportsOtherZoomLevels() const { return true; }
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76
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77 virtual void paint(View *, QPainter &, QRect) const = 0;
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78
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79 enum VerticalPosition {
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80 PositionTop, PositionMiddle, PositionBottom
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81 };
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82 virtual VerticalPosition getPreferredTimeRulerPosition() const {
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83 return PositionMiddle;
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84 }
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85 virtual VerticalPosition getPreferredFrameCountPosition() const {
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86 return PositionBottom;
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87 }
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88 virtual bool hasLightBackground() const {
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89 return true;
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90 }
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91
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92 virtual QString getPropertyContainerIconName() const;
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93
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94 virtual QString getPropertyContainerName() const {
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95 if (m_presentationName != "") return m_presentationName;
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96 else return objectName();
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97 }
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98
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99 virtual void setPresentationName(QString name);
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100
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101 virtual QString getLayerPresentationName() const;
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102 virtual QPixmap getLayerPresentationPixmap(QSize) const { return QPixmap(); }
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103
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104 virtual int getVerticalScaleWidth(View *, QPainter &) const { return 0; }
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105 virtual void paintVerticalScale(View *, QPainter &, QRect) const { }
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106
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107 virtual bool getCrosshairExtents(View *, QPainter &, QPoint /* cursorPos */,
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108 std::vector<QRect> &) const {
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109 return false;
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110 }
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111 virtual void paintCrosshairs(View *, QPainter &, QPoint) const { }
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112
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113 virtual void paintMeasurementRects(View *, QPainter &,
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114 bool showFocus, QPoint focusPoint) const;
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115
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116 virtual bool nearestMeasurementRectChanged(View *, QPoint prev,
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117 QPoint now) const;
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118
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119 virtual QString getFeatureDescription(View *, QPoint &) const {
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120 return "";
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121 }
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122
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123 enum SnapType {
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124 SnapLeft,
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125 SnapRight,
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126 SnapNearest,
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127 SnapNeighbouring
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128 };
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129
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130 /**
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131 * Adjust the given frame to snap to the nearest feature, if
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132 * possible.
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133 *
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134 * If snap is SnapLeft or SnapRight, adjust the frame to match
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135 * that of the nearest feature in the given direction regardless
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136 * of how far away it is. If snap is SnapNearest, adjust the
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137 * frame to that of the nearest feature in either direction. If
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138 * snap is SnapNeighbouring, adjust the frame to that of the
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139 * nearest feature if it is close, and leave it alone (returning
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140 * false) otherwise. SnapNeighbouring should always choose the
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141 * same feature that would be used in an editing operation through
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142 * calls to editStart etc.
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143 *
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144 * Return true if a suitable feature was found and frame adjusted
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145 * accordingly. Return false if no suitable feature was available
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146 * (and leave frame unmodified). Also return the resolution of
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147 * the model in this layer in sample frames.
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148 */
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149 virtual bool snapToFeatureFrame(View * /* v */,
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150 int & /* frame */,
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151 size_t &resolution,
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152 SnapType /* snap */) const {
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153 resolution = 1;
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154 return false;
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155 }
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156
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157 // Draw, erase, and edit modes:
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158 //
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159 // Layer needs to get actual mouse events, I guess. Draw mode is
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160 // probably the easier.
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161
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162 virtual void drawStart(View *, QMouseEvent *) { }
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163 virtual void drawDrag(View *, QMouseEvent *) { }
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164 virtual void drawEnd(View *, QMouseEvent *) { }
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165
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166 virtual void eraseStart(View *, QMouseEvent *) { }
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167 virtual void eraseDrag(View *, QMouseEvent *) { }
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168 virtual void eraseEnd(View *, QMouseEvent *) { }
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169
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170 virtual void editStart(View *, QMouseEvent *) { }
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171 virtual void editDrag(View *, QMouseEvent *) { }
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172 virtual void editEnd(View *, QMouseEvent *) { }
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173
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174 // Measurement rectangle (or equivalent). Unlike draw and edit,
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175 // the base Layer class can provide working implementations of
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176 // these for most situations.
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177 //
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178 virtual void measureStart(View *, QMouseEvent *);
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179 virtual void measureDrag(View *, QMouseEvent *);
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180 virtual void measureEnd(View *, QMouseEvent *);
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181 virtual void measureDoubleClick(View *, QMouseEvent *);
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182
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183 virtual bool haveCurrentMeasureRect() const {
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184 return m_haveCurrentMeasureRect;
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185 }
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186 virtual void deleteCurrentMeasureRect(); // using a command
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187
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188 /**
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189 * Open an editor on the item under the mouse (e.g. on
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190 * double-click). If there is no item or editing is not
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191 * supported, return false.
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192 */
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193 virtual bool editOpen(View *, QMouseEvent *) { return false; }
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194
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195 virtual void moveSelection(Selection, size_t /* newStartFrame */) { }
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196 virtual void resizeSelection(Selection, Selection /* newSize */) { }
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197 virtual void deleteSelection(Selection) { }
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198
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199 virtual void copy(View *, Selection, Clipboard & /* to */) { }
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200
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201 /**
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202 * Paste from the given clipboard onto the layer at the given
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203 * frame offset. If interactive is true, the layer may ask the
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204 * user about paste options through a dialog if desired, and may
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205 * return false if the user cancelled the paste operation. This
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206 * function should return true if a paste actually occurred.
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207 */
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208 virtual bool paste(View *,
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209 const Clipboard & /* from */,
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210 int /* frameOffset */,
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211 bool /* interactive */) { return false; }
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212
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213 // Text mode:
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214 //
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215 // Label nearest feature. We need to get the feature coordinates
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216 // and current label from the layer, and then the pane can pop up
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217 // a little text entry dialog at the right location. Or we edit
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218 // in place? Probably the dialog is easier.
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219
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220 /**
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221 * This should return true if the layer can safely be scrolled
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222 * automatically by a given view (simply copying the existing data
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223 * and then refreshing the exposed area) without altering its
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224 * meaning. For the view widget as a whole this is usually not
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225 * possible because of invariant (non-scrolling) material
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226 * displayed over the top, but the widget may be able to optimise
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227 * scrolling better if it is known that individual views can be
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228 * scrolled safely in this way.
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229 */
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230 virtual bool isLayerScrollable(const View *) const { return true; }
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231
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232 /**
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233 * This should return true if the layer completely obscures any
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234 * underlying layers. It's used to determine whether the view can
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235 * safely draw any selection rectangles under the layer instead of
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236 * over it, in the case where the layer is not scrollable and
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237 * therefore needs to be redrawn each time (so that the selection
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238 * rectangle can be cached).
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239 */
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240 virtual bool isLayerOpaque() const { return false; }
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241
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242 enum ColourSignificance {
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243 ColourAbsent,
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244 ColourIrrelevant,
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245 ColourDistinguishes,
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246 ColourAndBackgroundSignificant,
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247 ColourHasMeaningfulValue
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248 };
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249
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250 /**
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251 * This should return the degree of meaning associated with colour
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252 * in this layer.
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253 *
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254 * If ColourAbsent, the layer does not use colour. If
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255 * ColourIrrelevant, the layer is coloured and the colour may be
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256 * set by the user, but it doesn't really matter what the colour
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257 * is (for example, in a time ruler layer). If
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258 * ColourDistinguishes, then the colour is used to distinguish
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259 * this layer from other similar layers (e.g. for data layers).
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260 * If ColourAndBackgroundSignificant, then the layer should be
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261 * given greater weight than ColourDistinguishes layers when
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262 * choosing a background colour (e.g. for waveforms). If
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263 * ColourHasMeaningfulValue, colours are actually meaningful --
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264 * the view will then show selections using unfilled rectangles
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265 * instead of translucent filled rectangles, so as not to disturb
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266 * the colours underneath.
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267 */
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268 virtual ColourSignificance getLayerColourSignificance() const = 0;
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269
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270 /**
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271 * This should return true if the layer can be edited by the user.
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272 * If this is the case, the appropriate edit tools may be made
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273 * available by the application and the layer's drawStart/Drag/End
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274 * and editStart/Drag/End methods should be implemented.
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275 */
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276 virtual bool isLayerEditable() const { return false; }
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277
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278 /**
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279 * Return the proportion of background work complete in drawing
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280 * this view, as a percentage -- in most cases this will be the
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281 * value returned by pointer from a call to the underlying model's
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282 * isReady(int *) call. The view may choose to show a progress
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283 * meter if it finds that this returns < 100 at any given moment.
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284 */
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285 virtual int getCompletion(View *) const { return 100; }
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286
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287 virtual void setObjectName(const QString &name);
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288
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289 /**
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290 * Convert the layer's data (though not those of the model it
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291 * refers to) into XML for file output. This class implements the
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292 * basic name/type/model-id output; subclasses will typically call
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293 * this superclass implementation with extra attributes describing
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294 * their particular properties.
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295 */
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296 virtual void toXml(QTextStream &stream, QString indent = "",
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297 QString extraAttributes = "") const;
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298
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299 /**
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300 * Set the particular properties of a layer (those specific to the
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301 * subclass) from a set of XML attributes. This is the effective
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302 * inverse of the toXml method.
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303 */
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304 virtual void setProperties(const QXmlAttributes &) = 0;
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305
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306 /**
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307 * Produce XML containing the layer's ID and type. This is used
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308 * to refer to the layer in the display section of the SV session
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309 * file, for a layer that has already been described in the data
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310 * section.
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311 */
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312 virtual void toBriefXml(QTextStream &stream,
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313 QString indent = "",
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314 QString extraAttributes = "") const;
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315
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316 /**
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317 * Add a measurement rectangle from the given XML attributes
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318 * (presumably taken from a measurement element).
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319 * Does not use a command.
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320 */
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321 virtual void addMeasurementRect(const QXmlAttributes &);
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322
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323 /**
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324 * Indicate that a layer is not currently visible in the given
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325 * view and is not expected to become visible in the near future
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326 * (for example because the user has explicitly removed or hidden
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327 * it). The layer may respond by (for example) freeing any cache
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328 * memory it is using, until next time its paint method is called,
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329 * when it should set itself un-dormant again.
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330 *
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331 * A layer class that overrides this function must also call this
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332 * class's implementation.
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333 */
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334 virtual void setLayerDormant(const View *v, bool dormant);
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335
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336 /**
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337 * Return whether the layer is dormant (i.e. hidden) in the given
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338 * view.
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339 */
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340 virtual bool isLayerDormant(const View *v) const;
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341
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342 virtual PlayParameters *getPlayParameters();
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343
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344 virtual bool needsTextLabelHeight() const { return false; }
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345
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346 virtual bool hasTimeXAxis() const { return true; }
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347
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348 /**
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349 * Return the minimum and maximum values for the y axis of the
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350 * model in this layer, as well as whether the layer is configured
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351 * to use a logarithmic y axis display. Also return the unit for
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352 * these values if known.
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353 *
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354 * This function returns the "normal" extents for the layer, not
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355 * necessarily the extents actually in use in the display.
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356 */
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357 virtual bool getValueExtents(float &min, float &max,
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358 bool &logarithmic, QString &unit) const = 0;
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359
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360 /**
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361 * Return the minimum and maximum values within the displayed
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362 * range for the y axis, if only a subset of the whole range of
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363 * the model (returned by getValueExtents) is being displayed.
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364 * Return false if the layer is not imposing a particular display
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365 * extent (using the normal layer extents or deferring to whatever
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366 * is in use for the same units elsewhere in the view).
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367 */
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368 virtual bool getDisplayExtents(float & /* min */,
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369 float & /* max */) const {
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370 return false;
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371 }
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372
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373 /**
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374 * Set the displayed minimum and maximum values for the y axis to
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375 * the given range, if supported. Return false if not supported
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376 * on this layer (and set nothing). In most cases, layers that
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377 * return false for getDisplayExtents should also return false for
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378 * this function.
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379 */
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Chris@127
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380 virtual bool setDisplayExtents(float /* min */,
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Chris@127
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381 float /* max */) {
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Chris@127
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382 return false;
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Chris@127
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383 }
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Chris@127
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384
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Chris@133
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385 /**
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Chris@260
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386 * Return the value and unit at the given x coordinate in the
|
Chris@260
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387 * given view. This is for descriptive purposes using the
|
Chris@260
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388 * measurement tool. The default implementation works correctly
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Chris@260
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389 * if the layer hasTimeXAxis().
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Chris@260
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390 */
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Chris@267
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391 virtual bool getXScaleValue(const View *v, int x,
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Chris@260
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392 float &value, QString &unit) const;
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Chris@260
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393
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Chris@260
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394 /**
|
Chris@260
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395 * Return the value and unit at the given y coordinate in the
|
Chris@260
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396 * given view.
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Chris@260
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397 */
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Chris@267
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398 virtual bool getYScaleValue(const View *, int /* y */,
|
Chris@260
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399 float &/* value */, QString &/* unit */) const {
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Chris@260
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400 return false;
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Chris@260
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401 }
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Chris@260
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402
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Chris@260
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403 /**
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Chris@274
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404 * Return the difference between the values at the given y
|
Chris@274
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405 * coordinates in the given view, and the unit of the difference.
|
Chris@274
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406 * The default implementation just calls getYScaleValue twice and
|
Chris@274
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407 * returns the difference, with the same unit.
|
Chris@274
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408 */
|
Chris@274
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409 virtual bool getYScaleDifference(const View *v, int y0, int y1,
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Chris@274
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410 float &diff, QString &unit) const;
|
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411
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Chris@274
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412 /**
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Chris@133
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413 * Get the number of vertical zoom steps available for this layer.
|
Chris@133
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414 * If vertical zooming is not available, return 0. The meaning of
|
Chris@133
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415 * "zooming" is entirely up to the layer -- changing the zoom
|
Chris@133
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416 * level may cause the layer to reset its display extents or
|
Chris@180
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417 * change another property such as display gain. However, layers
|
Chris@180
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418 * are advised for consistency to treat smaller zoom steps as
|
Chris@180
|
419 * "more distant" or "zoomed out" and larger ones as "closer" or
|
Chris@180
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420 * "zoomed in".
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Chris@180
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421 *
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Chris@133
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422 * Layers that provide this facility should also emit the
|
Chris@133
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423 * verticalZoomChanged signal if their vertical zoom changes
|
Chris@133
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424 * due to factors other than setVerticalZoomStep being called.
|
Chris@133
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425 */
|
Chris@248
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426 virtual int getVerticalZoomSteps(int & /* defaultStep */) const { return 0; }
|
Chris@133
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427
|
Chris@133
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428 /**
|
Chris@133
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429 * Get the current vertical zoom step. A layer may support finer
|
Chris@133
|
430 * control over ranges etc than is available through the integer
|
Chris@133
|
431 * zoom step mechanism; if this one does, it should just return
|
Chris@133
|
432 * the nearest of the available zoom steps to the current settings.
|
Chris@133
|
433 */
|
Chris@133
|
434 virtual int getCurrentVerticalZoomStep() const { return 0; }
|
Chris@133
|
435
|
Chris@133
|
436 /**
|
Chris@133
|
437 * Set the vertical zoom step. The meaning of "zooming" is
|
Chris@133
|
438 * entirely up to the layer -- changing the zoom level may cause
|
Chris@133
|
439 * the layer to reset its display extents or change another
|
Chris@133
|
440 * property such as display gain.
|
Chris@133
|
441 */
|
Chris@133
|
442 virtual void setVerticalZoomStep(int) { }
|
Chris@133
|
443
|
Chris@187
|
444 /**
|
Chris@187
|
445 * Create and return a range mapper for vertical zoom step values.
|
Chris@187
|
446 * See the RangeMapper documentation for more details. The
|
Chris@187
|
447 * returned value is allocated on the heap and will be deleted by
|
Chris@187
|
448 * the caller.
|
Chris@187
|
449 */
|
Chris@187
|
450 virtual RangeMapper *getNewVerticalZoomRangeMapper() const { return 0; }
|
Chris@187
|
451
|
Chris@127
|
452 public slots:
|
Chris@127
|
453 void showLayer(View *, bool show);
|
Chris@127
|
454
|
Chris@127
|
455 signals:
|
Chris@127
|
456 void modelChanged();
|
Chris@127
|
457 void modelCompletionChanged();
|
Chris@320
|
458 void modelAlignmentCompletionChanged();
|
Chris@127
|
459 void modelChanged(size_t startFrame, size_t endFrame);
|
Chris@127
|
460 void modelReplaced();
|
Chris@127
|
461
|
Chris@127
|
462 void layerParametersChanged();
|
Chris@197
|
463 void layerParameterRangesChanged();
|
Chris@268
|
464 void layerMeasurementRectsChanged();
|
Chris@127
|
465 void layerNameChanged();
|
Chris@127
|
466
|
Chris@133
|
467 void verticalZoomChanged();
|
Chris@133
|
468
|
Chris@267
|
469 protected:
|
Chris@320
|
470 void connectSignals(const Model *);
|
Chris@320
|
471
|
Chris@373
|
472 virtual size_t alignToReference(View *v, size_t frame) const;
|
Chris@373
|
473 virtual size_t alignFromReference(View *v, size_t frame) const;
|
Chris@373
|
474 bool clipboardHasDifferentAlignment(View *v, const Clipboard &clip) const;
|
Chris@373
|
475
|
Chris@267
|
476 struct MeasureRect {
|
Chris@268
|
477
|
Chris@267
|
478 mutable QRect pixrect;
|
Chris@268
|
479 bool haveFrames;
|
Chris@268
|
480 long startFrame; // only valid if haveFrames
|
Chris@267
|
481 long endFrame; // ditto
|
Chris@273
|
482 double startY;
|
Chris@273
|
483 double endY;
|
Chris@268
|
484
|
Chris@268
|
485 bool operator<(const MeasureRect &mr) const;
|
Chris@316
|
486 void toXml(QTextStream &stream, QString indent) const;
|
Chris@267
|
487 };
|
Chris@267
|
488
|
Chris@268
|
489 class AddMeasurementRectCommand : public Command
|
Chris@268
|
490 {
|
Chris@268
|
491 public:
|
Chris@268
|
492 AddMeasurementRectCommand(Layer *layer, MeasureRect rect) :
|
Chris@268
|
493 m_layer(layer), m_rect(rect) { }
|
Chris@268
|
494
|
Chris@268
|
495 virtual QString getName() const;
|
Chris@268
|
496 virtual void execute();
|
Chris@268
|
497 virtual void unexecute();
|
Chris@268
|
498
|
Chris@268
|
499 private:
|
Chris@268
|
500 Layer *m_layer;
|
Chris@268
|
501 MeasureRect m_rect;
|
Chris@268
|
502 };
|
Chris@268
|
503
|
Chris@283
|
504 class DeleteMeasurementRectCommand : public Command
|
Chris@283
|
505 {
|
Chris@283
|
506 public:
|
Chris@283
|
507 DeleteMeasurementRectCommand(Layer *layer, MeasureRect rect) :
|
Chris@283
|
508 m_layer(layer), m_rect(rect) { }
|
Chris@283
|
509
|
Chris@283
|
510 virtual QString getName() const;
|
Chris@283
|
511 virtual void execute();
|
Chris@283
|
512 virtual void unexecute();
|
Chris@283
|
513
|
Chris@283
|
514 private:
|
Chris@283
|
515 Layer *m_layer;
|
Chris@283
|
516 MeasureRect m_rect;
|
Chris@283
|
517 };
|
Chris@283
|
518
|
Chris@269
|
519 void addMeasureRectToSet(const MeasureRect &r) {
|
Chris@268
|
520 m_measureRects.insert(r);
|
Chris@268
|
521 emit layerMeasurementRectsChanged();
|
Chris@268
|
522 }
|
Chris@268
|
523
|
Chris@269
|
524 void deleteMeasureRectFromSet(const MeasureRect &r) {
|
Chris@268
|
525 m_measureRects.erase(r);
|
Chris@268
|
526 emit layerMeasurementRectsChanged();
|
Chris@268
|
527 }
|
Chris@268
|
528
|
Chris@268
|
529 typedef std::set<MeasureRect> MeasureRectSet;
|
Chris@268
|
530 MeasureRectSet m_measureRects;
|
Chris@267
|
531 MeasureRect m_draggingRect;
|
Chris@267
|
532 bool m_haveDraggingRect;
|
Chris@283
|
533 mutable bool m_haveCurrentMeasureRect;
|
Chris@283
|
534 mutable QPoint m_currentMeasureRectPoint;
|
Chris@272
|
535
|
Chris@272
|
536 // Note that pixrects are only correct for a single view.
|
Chris@272
|
537 // So we should update them at the start of the paint procedure
|
Chris@272
|
538 // (painting is single threaded) and only use them after that.
|
Chris@273
|
539 void updateMeasurePixrects(View *v) const;
|
Chris@273
|
540
|
Chris@273
|
541 virtual void updateMeasureRectYCoords(View *v, const MeasureRect &r) const;
|
Chris@273
|
542 virtual void setMeasureRectYCoord(View *v, MeasureRect &r, bool start, int y) const;
|
Chris@283
|
543 virtual void setMeasureRectFromPixrect(View *v, MeasureRect &r, QRect pixrect) const;
|
Chris@272
|
544
|
Chris@272
|
545 // This assumes updateMeasurementPixrects has been called
|
Chris@272
|
546 MeasureRectSet::const_iterator findFocusedMeasureRect(QPoint) const;
|
Chris@267
|
547
|
Chris@269
|
548 void paintMeasurementRect(View *v, QPainter &paint,
|
Chris@270
|
549 const MeasureRect &r, bool focus) const;
|
Chris@268
|
550
|
Chris@373
|
551 QString m_presentationName;
|
Chris@373
|
552
|
Chris@131
|
553 private:
|
Chris@131
|
554 mutable QMutex m_dormancyMutex;
|
Chris@127
|
555 mutable std::map<const void *, bool> m_dormancy;
|
Chris@127
|
556 };
|
Chris@127
|
557
|
Chris@127
|
558 #endif
|
Chris@127
|
559
|