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2 /* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */
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3
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4 /*
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5 Sonic Visualiser
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6 An audio file viewer and annotation editor.
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7 Centre for Digital Music, Queen Mary, University of London.
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8 This file copyright 2006 Chris Cannam.
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9
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10 This program is free software; you can redistribute it and/or
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11 modify it under the terms of the GNU General Public License as
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12 published by the Free Software Foundation; either version 2 of the
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13 License, or (at your option) any later version. See the file
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14 COPYING included with this distribution for more information.
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15 */
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16
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17 #ifndef _LAYER_H_
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18 #define _LAYER_H_
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19
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20 #include "PropertyContainer.h"
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21 #include "XmlExportable.h"
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22 #include "Selection.h"
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23
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24 #include <QObject>
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25 #include <QRect>
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26 #include <QXmlAttributes>
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27
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28 #include <map>
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29
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30 class ZoomConstraint;
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31 class Model;
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32 class QPainter;
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33 class View;
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34 class QMouseEvent;
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35 class Clipboard;
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36
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37 /**
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38 * The base class for visual representations of the data found in a
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39 * Model. Layers are expected to be able to draw themselves onto a
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40 * View, and may also be editable.
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41 */
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42
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43 class Layer : public PropertyContainer,
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44 public XmlExportable
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45 {
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46 Q_OBJECT
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47
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48 public:
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49 Layer();
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50 virtual ~Layer();
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51
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52 virtual const Model *getModel() const = 0;
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53 virtual Model *getModel() {
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54 return const_cast<Model *>(const_cast<const Layer *>(this)->getModel());
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55 }
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56
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57 virtual const ZoomConstraint *getZoomConstraint() const { return 0; }
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58 virtual void paint(View *, QPainter &, QRect) const = 0;
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59
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60 enum VerticalPosition {
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61 PositionTop, PositionMiddle, PositionBottom
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62 };
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63 virtual VerticalPosition getPreferredTimeRulerPosition() const {
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64 return PositionMiddle;
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65 }
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66 virtual VerticalPosition getPreferredFrameCountPosition() const {
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67 return PositionBottom;
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68 }
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69
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70 virtual QString getPropertyContainerIconName() const;
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71
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72 virtual QString getPropertyContainerName() const {
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73 return objectName();
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74 }
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75
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76 virtual QString getLayerPresentationName() const;
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77
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78 virtual int getVerticalScaleWidth(View *, QPainter &) const { return 0; }
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79 virtual void paintVerticalScale(View *, QPainter &, QRect) const { }
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80
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81 virtual bool getCrosshairExtents(View *, QPainter &, QPoint cursorPos,
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82 std::vector<QRect> &) const { return false; }
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83 virtual void paintCrosshairs(View *, QPainter &, QPoint) const { }
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84
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85 virtual QString getFeatureDescription(View *, QPoint &) const {
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86 return "";
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87 }
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88
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89 enum SnapType {
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90 SnapLeft,
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91 SnapRight,
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92 SnapNearest,
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93 SnapNeighbouring
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94 };
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95
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96 /**
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97 * Adjust the given frame to snap to the nearest feature, if
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98 * possible.
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99 *
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100 * If snap is SnapLeft or SnapRight, adjust the frame to match
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101 * that of the nearest feature in the given direction regardless
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102 * of how far away it is. If snap is SnapNearest, adjust the
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103 * frame to that of the nearest feature in either direction. If
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104 * snap is SnapNeighbouring, adjust the frame to that of the
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105 * nearest feature if it is close, and leave it alone (returning
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106 * false) otherwise. SnapNeighbouring should always choose the
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107 * same feature that would be used in an editing operation through
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108 * calls to editStart etc.
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109 *
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110 * Return true if a suitable feature was found and frame adjusted
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111 * accordingly. Return false if no suitable feature was
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112 * available. Also return the resolution of the model in this
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113 * layer in sample frames.
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114 */
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115 virtual bool snapToFeatureFrame(View *v,
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116 int &frame,
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117 size_t &resolution,
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118 SnapType snap) const {
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119 resolution = 1;
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120 return false;
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121 }
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122
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123 // Draw and edit modes:
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124 //
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125 // Layer needs to get actual mouse events, I guess. Draw mode is
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126 // probably the easier.
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127
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128 virtual void drawStart(View *, QMouseEvent *) { }
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129 virtual void drawDrag(View *, QMouseEvent *) { }
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130 virtual void drawEnd(View *, QMouseEvent *) { }
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131
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132 virtual void editStart(View *, QMouseEvent *) { }
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133 virtual void editDrag(View *, QMouseEvent *) { }
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134 virtual void editEnd(View *, QMouseEvent *) { }
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135
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136 virtual void editOpen(View *, QMouseEvent *) { } // on double-click
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137
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138 virtual void moveSelection(Selection s, size_t newStartFrame) { }
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139 virtual void resizeSelection(Selection s, Selection newSize) { }
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140 virtual void deleteSelection(Selection s) { }
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141
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142 virtual void copy(Selection s, Clipboard &to) { }
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143 virtual void paste(const Clipboard &from, int frameOffset) { }
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144
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145 // Text mode:
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146 //
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147 // Label nearest feature. We need to get the feature coordinates
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148 // and current label from the layer, and then the pane can pop up
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149 // a little text entry dialog at the right location. Or we edit
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150 // in place? Probably the dialog is easier.
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151
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152 /**
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153 * This should return true if the layer can safely be scrolled
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154 * automatically by a given view (simply copying the existing data
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155 * and then refreshing the exposed area) without altering its
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156 * meaning. For the view widget as a whole this is usually not
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157 * possible because of invariant (non-scrolling) material
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158 * displayed over the top, but the widget may be able to optimise
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159 * scrolling better if it is known that individual views can be
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160 * scrolled safely in this way.
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161 */
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162 virtual bool isLayerScrollable(const View *) const { return true; }
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163
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164 /**
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165 * This should return true if the layer completely obscures any
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166 * underlying layers. It's used to determine whether the view can
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167 * safely draw any selection rectangles under the layer instead of
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168 * over it, in the case where the layer is not scrollable and
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169 * therefore needs to be redrawn each time (so that the selection
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170 * rectangle can be cached).
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171 */
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172 virtual bool isLayerOpaque() const { return false; }
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173
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174 /**
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175 * This should return true if the layer can be edited by the user.
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176 * If this is the case, the appropriate edit tools may be made
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177 * available by the application and the layer's drawStart/Drag/End
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178 * and editStart/Drag/End methods should be implemented.
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179 */
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180 virtual bool isLayerEditable() const { return false; }
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181
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182 /**
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183 * Return the proportion of background work complete in drawing
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184 * this view, as a percentage -- in most cases this will be the
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185 * value returned by pointer from a call to the underlying model's
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186 * isReady(int *) call. The widget may choose to show a progress
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187 * meter if it finds that this returns < 100 at any given moment.
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188 */
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189 virtual int getCompletion(View *) const { return 100; }
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190
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191 virtual void setObjectName(const QString &name);
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192
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193 /**
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194 * Convert the layer's data (though not those of the model it
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195 * refers to) into an XML string for file output. This class
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196 * implements the basic name/type/model-id output; subclasses will
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197 * typically call this superclass implementation with extra
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198 * attributes describing their particular properties.
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199 */
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200 virtual QString toXmlString(QString indent = "",
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201 QString extraAttributes = "") const;
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202
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203 /**
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204 * Set the particular properties of a layer (those specific to the
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205 * subclass) from a set of XML attributes. This is the effective
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206 * inverse of the toXmlString method.
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207 */
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208 virtual void setProperties(const QXmlAttributes &) = 0;
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209
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210 /**
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211 * Indicate that a layer is not currently visible in the given
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212 * view and is not expected to become visible in the near future
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213 * (for example because the user has explicitly removed or hidden
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214 * it). The layer may respond by (for example) freeing any cache
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215 * memory it is using, until next time its paint method is called,
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216 * when it should set itself un-dormant again.
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217 */
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218 virtual void setLayerDormant(const View *v, bool dormant) {
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219 m_dormancy[v] = dormant;
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220 }
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221
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222 /**
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223 * Return whether the layer is dormant (i.e. hidden) in the given
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224 * view.
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225 */
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226 virtual bool isLayerDormant(const View *v) const {
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227 if (m_dormancy.find(v) == m_dormancy.end()) return false;
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228 return m_dormancy.find(v)->second;
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229 }
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230
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231 virtual PlayParameters *getPlayParameters();
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232
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233 virtual bool needsTextLabelHeight() const { return false; }
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234
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235 /**
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236 * Return the minimum and maximum values for the y axis of the
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237 * model in this layer, as well as whether the layer is configured
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238 * to use a logarithmic y axis display. Also return the unit for
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239 * these values if known.
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240 *
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241 * This function returns the "normal" extents for the layer, not
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242 * necessarily the extents actually in use in the display.
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243 */
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244 virtual bool getValueExtents(float &min, float &max,
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245 bool &logarithmic, QString &unit) const = 0;
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246
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247 /**
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248 * Return the minimum and maximum values within the displayed
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249 * range for the y axis, if only a subset of the whole range of
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250 * the model (returned by getValueExtents) is being displayed.
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251 * Return false if the layer is not imposing a particular display
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252 * extent (using the normal layer extents or deferring to whatever
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253 * is in use for the same units elsewhere in the view).
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254 */
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255 virtual bool getDisplayExtents(float &min, float &max) const {
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256 return false;
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257 }
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258
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259 /**
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260 * Set the displayed minimum and maximum values for the y axis to
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261 * the given range, if supported. Return false if not supported
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262 * on this layer (and set nothing). In most cases, layers that
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263 * return false for getDisplayExtents should also return false for
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264 * this function.
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265 */
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266 virtual bool setDisplayExtents(float min, float max) {
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267 return false;
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268 }
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269
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270 public slots:
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271 void showLayer(View *, bool show);
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272
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273 signals:
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274 void modelChanged();
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275 void modelCompletionChanged();
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276 void modelChanged(size_t startFrame, size_t endFrame);
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277 void modelReplaced();
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278
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279 void layerParametersChanged();
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280 void layerNameChanged();
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281
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282 protected:
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283 mutable std::map<const void *, bool> m_dormancy;
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284 };
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285
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286 #endif
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287
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