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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 2006-2016 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 #include "Colour3DPlotRenderer.h"
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Chris@1074
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17 #include "RenderTimer.h"
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18
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Chris@1117
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19 #include "base/Profiler.h"
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Chris@1214
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20 #include "base/HitCount.h"
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Chris@1117
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21
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Chris@1075
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22 #include "data/model/DenseThreeDimensionalModel.h"
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Chris@1075
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23 #include "data/model/Dense3DModelPeakCache.h"
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Chris@1075
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24 #include "data/model/FFTModel.h"
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25
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Chris@1077
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26 #include "LayerGeometryProvider.h"
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Chris@1082
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27 #include "VerticalBinLayer.h"
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Chris@1109
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28 #include "PaintAssistant.h"
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Chris@1139
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29 #include "ImageRegionFinder.h"
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30
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31 #include "view/ViewManager.h" // for main model sample rate. Pity
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32
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Chris@1079
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33 #include <vector>
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34
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Chris@1170
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35 //#define DEBUG_COLOUR_PLOT_REPAINT 1
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36
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37 using namespace std;
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38
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39 Colour3DPlotRenderer::RenderResult
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40 Colour3DPlotRenderer::render(const LayerGeometryProvider *v, QPainter &paint, QRect rect)
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Chris@1076
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41 {
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Chris@1090
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42 return render(v, paint, rect, false);
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Chris@1076
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43 }
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44
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45 Colour3DPlotRenderer::RenderResult
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46 Colour3DPlotRenderer::renderTimeConstrained(const LayerGeometryProvider *v,
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47 QPainter &paint, QRect rect)
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Chris@1076
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48 {
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Chris@1090
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49 return render(v, paint, rect, true);
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50 }
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51
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52 QRect
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53 Colour3DPlotRenderer::getLargestUncachedRect(const LayerGeometryProvider *v)
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Chris@1096
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54 {
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55 RenderType renderType = decideRenderType(v);
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56
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57 if (renderType == DirectTranslucent) {
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58 return QRect(); // never cached
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59 }
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60
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Chris@1096
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61 int h = m_cache.getSize().height();
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62
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63 QRect areaLeft(0, 0, m_cache.getValidLeft(), h);
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64 QRect areaRight(m_cache.getValidRight(), 0,
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65 m_cache.getSize().width() - m_cache.getValidRight(), h);
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66
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67 if (areaRight.width() > areaLeft.width()) {
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68 return areaRight;
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Chris@1096
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69 } else {
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70 return areaLeft;
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71 }
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72 }
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73
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74 bool
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75 Colour3DPlotRenderer::geometryChanged(const LayerGeometryProvider *v)
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76 {
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77 RenderType renderType = decideRenderType(v);
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78
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79 if (renderType == DirectTranslucent) {
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80 return true; // never cached
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81 }
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82
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83 if (m_cache.getSize() == v->getPaintSize() &&
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84 m_cache.getZoomLevel() == v->getZoomLevel() &&
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85 m_cache.getStartFrame() == v->getStartFrame()) {
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86 return false;
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87 } else {
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88 return true;
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89 }
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90 }
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91
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92 Colour3DPlotRenderer::RenderResult
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93 Colour3DPlotRenderer::render(const LayerGeometryProvider *v,
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94 QPainter &paint, QRect rect, bool timeConstrained)
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Chris@1073
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95 {
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96 RenderType renderType = decideRenderType(v);
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97
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98 if (timeConstrained) {
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99 if (renderType != DrawBufferPixelResolution) {
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Chris@1221
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100 // Rendering should be fast in bin-resolution and direct
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101 // draw cases because we are quite well zoomed-in, and the
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102 // sums are easier this way. Calculating boundaries later
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103 // will be fiddly for partial paints otherwise.
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104 timeConstrained = false;
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105
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Chris@1221
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106 } else if (m_secondsPerXPixelValid) {
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107 double predicted = m_secondsPerXPixel * rect.width();
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Chris@1235
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108 /#ifdef DEBUG_COLOUR_PLOT_REPAINT
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109 SVDEBUG << "Predicted time for width " << rect.width() << " = "
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110 << predicted << endl;
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111 #endif
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112 if (predicted < 0.1) {
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113 #ifdef DEBUG_COLOUR_PLOT_REPAINT
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114 SVDEBUG << "Predicted time looks fast enough: no partial renders"
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115 << endl;
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116 #endif
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117 timeConstrained = false;
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118 }
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119 }
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120 }
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121
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122 int x0 = v->getXForViewX(rect.x());
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123 int x1 = v->getXForViewX(rect.x() + rect.width());
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124 if (x0 < 0) x0 = 0;
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125 if (x1 > v->getPaintWidth()) x1 = v->getPaintWidth();
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126
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127 sv_frame_t startFrame = v->getStartFrame();
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128
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129 m_cache.resize(v->getPaintSize());
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130 m_cache.setZoomLevel(v->getZoomLevel());
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131
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132 m_magCache.resize(v->getPaintSize().width());
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133 m_magCache.setZoomLevel(v->getZoomLevel());
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134
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135 if (renderType == DirectTranslucent) {
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136 MagnitudeRange range = renderDirectTranslucent(v, paint, rect);
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137 return { rect, range };
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138 }
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139
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140 #ifdef DEBUG_COLOUR_PLOT_REPAINT
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141 SVDEBUG << "cache start " << m_cache.getStartFrame()
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142 << " valid left " << m_cache.getValidLeft()
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143 << " valid right " << m_cache.getValidRight()
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144 << endl;
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145 SVDEBUG << " view start " << startFrame
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146 << " x0 " << x0
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147 << " x1 " << x1
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148 << endl;
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149 #endif
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150
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Chris@1214
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151 static HitCount count("Colour3DPlotRenderer: image cache");
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152
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153 if (m_cache.isValid()) { // some part of the cache is valid
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154
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155 if (v->getXForFrame(m_cache.getStartFrame()) ==
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156 v->getXForFrame(startFrame) &&
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157 m_cache.getValidLeft() <= x0 &&
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158 m_cache.getValidRight() >= x1) {
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159
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160 #ifdef DEBUG_COLOUR_PLOT_REPAINT
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161 SVDEBUG << "cache hit" << endl;
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162 #endif
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163 count.hit();
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164
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165 // cache is valid for the complete requested area
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166 paint.drawImage(rect, m_cache.getImage(), rect);
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167
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168 MagnitudeRange range = m_magCache.getRange(x0, x1 - x0);
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169
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170 return { rect, range };
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171
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172 } else {
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173 #ifdef DEBUG_COLOUR_PLOT_REPAINT
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174 SVDEBUG << "cache partial hit" << endl;
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175 #endif
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176 count.partial();
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177
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178 // cache doesn't begin at the right frame or doesn't
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179 // contain the complete view, but might be scrollable or
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180 // partially usable
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181 m_cache.scrollTo(v, startFrame);
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182 m_magCache.scrollTo(v, startFrame);
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183
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184 // if we are not time-constrained, then we want to paint
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185 // the whole area in one go; we don't return a partial
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186 // paint. To avoid providing the more complex logic to
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187 // handle painting discontiguous areas, if the only valid
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188 // part of cache is in the middle, just make the whole
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189 // thing invalid and start again.
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190 if (!timeConstrained) {
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191 if (m_cache.getValidLeft() > x0 &&
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192 m_cache.getValidRight() < x1) {
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193 m_cache.invalidate();
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Chris@1079
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194 }
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Chris@1079
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195 }
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196 }
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197 } else {
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198 // cache is completely invalid
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199 count.miss();
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200 m_cache.setStartFrame(startFrame);
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201 m_magCache.setStartFrame(startFrame);
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202 }
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203
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204 bool rightToLeft = false;
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205
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206 int reqx0 = x0;
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207 int reqx1 = x1;
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208
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209 if (!m_cache.isValid() && timeConstrained) {
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210 // When rendering the whole area, in a context where we might
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211 // not be able to complete the work, start from somewhere near
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212 // the middle so that the region of interest appears
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213 // first. But only if we aren't using a peak cache, as
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214 // rendering from peak cache is usually (not always) quick and
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215 // looks odd if we make a habit of jumping back after reaching
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216 // the end.
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217 if (x0 == 0 && x1 == v->getPaintWidth()) {
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218 int peakCacheIndex = -1, binsPerPeak = -1;
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219 getPreferredPeakCache(v, peakCacheIndex, binsPerPeak);
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220 if (peakCacheIndex == -1) { // no peak cache
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221 double offset = 0.5 * (double(rand()) / double(RAND_MAX));
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222 x0 = int(x1 * offset);
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Chris@1213
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223 }
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Chris@1079
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224 }
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Chris@1079
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225 }
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Chris@1079
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226
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227 if (m_cache.isValid()) {
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228
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229 // When rendering only a part of the cache, we need to make
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230 // sure that the part we're rendering is adjacent to (or
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231 // overlapping) a valid area of cache, if we have one. The
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232 // alternative is to ditch the valid area of cache and render
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233 // only the requested area, but that's risky because this can
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234 // happen when just waving the pointer over a small part of
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235 // the view -- if we lose the partly-built cache every time
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236 // the user does that, we'll never finish building it.
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Chris@1079
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237 int left = x0;
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238 int width = x1 - x0;
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239 bool isLeftOfValidArea = false;
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240 m_cache.adjustToTouchValidArea(left, width, isLeftOfValidArea);
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241 x0 = left;
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242 x1 = x0 + width;
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243
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Chris@1079
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244 // That call also told us whether we should be painting
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245 // sub-regions of our target region in right-to-left order in
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246 // order to ensure contiguity
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247 rightToLeft = isLeftOfValidArea;
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248 }
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249
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250 // Note, we always paint the full height to cache. We want to
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251 // ensure the cache is coherent without having to worry about
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252 // vertical matching of required and valid areas as well as
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Chris@1109
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253 // horizontal.
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254
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255 if (renderType == DrawBufferBinResolution) {
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256
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257 renderToCacheBinResolution(v, x0, x1 - x0);
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258
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Chris@1109
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259 } else { // must be DrawBufferPixelResolution, handled DirectTranslucent earlier
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260
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261 renderToCachePixelResolution(v, x0, x1 - x0, rightToLeft, timeConstrained);
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Chris@1094
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262 }
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263
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264 QRect pr = rect & m_cache.getValidArea();
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265 paint.drawImage(pr.x(), pr.y(), m_cache.getImage(),
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266 pr.x(), pr.y(), pr.width(), pr.height());
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267
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Chris@1079
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268 if (!timeConstrained && (pr != rect)) {
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Chris@1141
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269 cerr << "WARNING: failed to render entire requested rect "
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Chris@1141
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270 << "even when not time-constrained" << endl;
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Chris@1079
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271 }
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272
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273 MagnitudeRange range = m_magCache.getRange(reqx0, reqx1 - reqx0);
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274
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275 return { pr, range };
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276 }
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277
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278 Colour3DPlotRenderer::RenderType
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279 Colour3DPlotRenderer::decideRenderType(const LayerGeometryProvider *v) const
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280 {
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281 const DenseThreeDimensionalModel *model = m_sources.source;
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282 if (!model || !v || !(v->getViewManager())) {
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283 return DrawBufferPixelResolution; // or anything
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Chris@1109
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284 }
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285
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Chris@1094
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286 int binResolution = model->getResolution();
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Chris@1094
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287 int zoomLevel = v->getZoomLevel();
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Chris@1109
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288 sv_samplerate_t modelRate = model->getSampleRate();
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Chris@1109
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289
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290 double rateRatio = v->getViewManager()->getMainModelSampleRate() / modelRate;
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291 double relativeBinResolution = binResolution * rateRatio;
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292
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293 if (m_params.binDisplay == BinDisplay::PeakFrequencies) {
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Chris@1109
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294 // no alternative works here
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295 return DrawBufferPixelResolution;
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Chris@1109
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296 }
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Chris@1109
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297
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Chris@1109
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298 if (!m_params.alwaysOpaque && !m_params.interpolate) {
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Chris@1109
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299
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Chris@1109
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300 // consider translucent option -- only if not smoothing & not
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Chris@1109
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301 // explicitly requested opaque & sufficiently zoomed-in
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302
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Chris@1117
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303 if (model->getHeight() * 3 < v->getPaintHeight() &&
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Chris@1117
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304 relativeBinResolution >= 3 * zoomLevel) {
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Chris@1109
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305 return DirectTranslucent;
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Chris@1109
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306 }
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Chris@1109
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307 }
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Chris@1109
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308
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Chris@1109
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309 if (relativeBinResolution > zoomLevel) {
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Chris@1109
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310 return DrawBufferBinResolution;
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Chris@1109
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311 } else {
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Chris@1109
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312 return DrawBufferPixelResolution;
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Chris@1109
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313 }
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Chris@1109
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314 }
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Chris@1109
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315
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Chris@1138
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316 ColumnOp::Column
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Chris@1161
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317 Colour3DPlotRenderer::getColumn(int sx, int minbin, int nbins,
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Chris@1212
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318 int peakCacheIndex) const
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Chris@1138
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319 {
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Chris@1164
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320 Profiler profiler("Colour3DPlotRenderer::getColumn");
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Chris@1164
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321
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Chris@1138
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322 // order:
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Chris@1138
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323 // get column -> scale -> normalise -> record extents ->
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Chris@1138
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324 // peak pick -> distribute/interpolate -> apply display gain
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Chris@1138
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325
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Chris@1138
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326 // we do the first bit here:
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Chris@1138
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327 // get column -> scale -> normalise
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Chris@1138
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328
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Chris@1138
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329 ColumnOp::Column column;
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Chris@1138
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330
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Chris@1138
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331 if (m_params.colourScale.getScale() == ColourScaleType::Phase &&
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Chris@1138
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332 m_sources.fft) {
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Chris@1138
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333
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Chris@1138
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334 ColumnOp::Column fullColumn = m_sources.fft->getPhases(sx);
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Chris@1138
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335
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Chris@1138
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336 column = vector<float>(fullColumn.data() + minbin,
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Chris@1138
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337 fullColumn.data() + minbin + nbins);
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Chris@1138
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338
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Chris@1138
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339 } else {
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Chris@1212
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340
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Chris@1161
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341 ColumnOp::Column fullColumn =
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Chris@1212
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342 (peakCacheIndex >= 0 ?
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Chris@1212
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343 m_sources.peakCaches[peakCacheIndex] :
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Chris@1212
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344 m_sources.source)
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Chris@1212
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345 ->getColumn(sx);
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Chris@1138
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346
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Chris@1138
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347 column = vector<float>(fullColumn.data() + minbin,
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Chris@1138
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348 fullColumn.data() + minbin + nbins);
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Chris@1138
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349
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Chris@1138
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350 column = ColumnOp::applyGain(column, m_params.scaleFactor);
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Chris@1138
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351
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Chris@1138
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352 column = ColumnOp::normalize(column, m_params.normalization);
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Chris@1138
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353 }
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Chris@1138
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354
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Chris@1138
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355 return column;
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Chris@1138
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356 }
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Chris@1138
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357
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Chris@1121
|
358 MagnitudeRange
|
Chris@1113
|
359 Colour3DPlotRenderer::renderDirectTranslucent(const LayerGeometryProvider *v,
|
Chris@1109
|
360 QPainter &paint,
|
Chris@1109
|
361 QRect rect)
|
Chris@1109
|
362 {
|
Chris@1117
|
363 Profiler profiler("Colour3DPlotRenderer::renderDirectTranslucent");
|
Chris@1117
|
364
|
Chris@1121
|
365 MagnitudeRange magRange;
|
Chris@1121
|
366
|
Chris@1115
|
367 QPoint illuminatePos;
|
Chris@1115
|
368 bool illuminate = v->shouldIlluminateLocalFeatures
|
Chris@1115
|
369 (m_sources.verticalBinLayer, illuminatePos);
|
Chris@1109
|
370
|
Chris@1109
|
371 const DenseThreeDimensionalModel *model = m_sources.source;
|
Chris@1109
|
372
|
Chris@1109
|
373 int x0 = rect.left();
|
Chris@1109
|
374 int x1 = rect.right() + 1;
|
Chris@1109
|
375
|
Chris@1109
|
376 int h = v->getPaintHeight();
|
Chris@1109
|
377
|
Chris@1109
|
378 sv_frame_t modelStart = model->getStartFrame();
|
Chris@1109
|
379 sv_frame_t modelEnd = model->getEndFrame();
|
Chris@1109
|
380 int modelResolution = model->getResolution();
|
Chris@1109
|
381
|
Chris@1109
|
382 double rateRatio =
|
Chris@1109
|
383 v->getViewManager()->getMainModelSampleRate() / model->getSampleRate();
|
Chris@1109
|
384
|
Chris@1109
|
385 // the s-prefix values are source, i.e. model, column and bin numbers
|
Chris@1109
|
386 int sx0 = int((double(v->getFrameForX(x0)) / rateRatio - double(modelStart))
|
Chris@1109
|
387 / modelResolution);
|
Chris@1109
|
388 int sx1 = int((double(v->getFrameForX(x1)) / rateRatio - double(modelStart))
|
Chris@1109
|
389 / modelResolution);
|
Chris@1109
|
390
|
Chris@1109
|
391 int sh = model->getHeight();
|
Chris@1109
|
392
|
Chris@1109
|
393 const int buflen = 40;
|
Chris@1109
|
394 char labelbuf[buflen];
|
Chris@1109
|
395
|
Chris@1133
|
396 int minbin = m_sources.verticalBinLayer->getIBinForY(v, h);
|
Chris@1135
|
397 if (minbin >= sh) minbin = sh - 1;
|
Chris@1135
|
398 if (minbin < 0) minbin = 0;
|
Chris@1135
|
399
|
Chris@1135
|
400 int nbins = m_sources.verticalBinLayer->getIBinForY(v, 0) - minbin + 1;
|
Chris@1135
|
401 if (minbin + nbins > sh) nbins = sh - minbin;
|
Chris@1133
|
402
|
Chris@1109
|
403 int psx = -1;
|
Chris@1109
|
404
|
Chris@1109
|
405 vector<float> preparedColumn;
|
Chris@1109
|
406
|
Chris@1109
|
407 int modelWidth = model->getWidth();
|
Chris@1109
|
408
|
Chris@1109
|
409 for (int sx = sx0; sx <= sx1; ++sx) {
|
Chris@1109
|
410
|
Chris@1109
|
411 if (sx < 0 || sx >= modelWidth) {
|
Chris@1109
|
412 continue;
|
Chris@1109
|
413 }
|
Chris@1109
|
414
|
Chris@1109
|
415 if (sx != psx) {
|
Chris@1109
|
416
|
Chris@1138
|
417 // order:
|
Chris@1138
|
418 // get column -> scale -> normalise -> record extents ->
|
Chris@1138
|
419 // peak pick -> distribute/interpolate -> apply display gain
|
Chris@1109
|
420
|
Chris@1138
|
421 // this does the first three:
|
Chris@1219
|
422 preparedColumn = getColumn(sx, minbin, nbins, -1);
|
Chris@1131
|
423
|
Chris@1131
|
424 magRange.sample(preparedColumn);
|
Chris@1109
|
425
|
Chris@1109
|
426 if (m_params.binDisplay == BinDisplay::PeakBins) {
|
Chris@1115
|
427 preparedColumn = ColumnOp::peakPick(preparedColumn);
|
Chris@1109
|
428 }
|
Chris@1109
|
429
|
Chris@1124
|
430 // Display gain belongs to the colour scale and is
|
Chris@1124
|
431 // applied by the colour scale object when mapping it
|
Chris@1124
|
432
|
Chris@1109
|
433 psx = sx;
|
Chris@1109
|
434 }
|
Chris@1109
|
435
|
Chris@1109
|
436 sv_frame_t fx = sx * modelResolution + modelStart;
|
Chris@1109
|
437
|
Chris@1109
|
438 if (fx + modelResolution <= modelStart || fx > modelEnd) continue;
|
Chris@1109
|
439
|
Chris@1109
|
440 int rx0 = v->getXForFrame(int(double(fx) * rateRatio));
|
Chris@1109
|
441 int rx1 = v->getXForFrame(int(double(fx + modelResolution + 1) * rateRatio));
|
Chris@1109
|
442
|
Chris@1109
|
443 int rw = rx1 - rx0;
|
Chris@1109
|
444 if (rw < 1) rw = 1;
|
Chris@1109
|
445
|
Chris@1109
|
446 bool showLabel = (rw > 10 &&
|
Chris@1109
|
447 paint.fontMetrics().width("0.000000") < rw - 3 &&
|
Chris@1109
|
448 paint.fontMetrics().height() < (h / sh));
|
Chris@1109
|
449
|
Chris@1135
|
450 for (int sy = minbin; sy < minbin + nbins; ++sy) {
|
Chris@1109
|
451
|
Chris@1109
|
452 int ry0 = m_sources.verticalBinLayer->getIYForBin(v, sy);
|
Chris@1109
|
453 int ry1 = m_sources.verticalBinLayer->getIYForBin(v, sy + 1);
|
Chris@1116
|
454
|
Chris@1116
|
455 if (m_params.invertVertical) {
|
Chris@1116
|
456 ry0 = h - ry0 - 1;
|
Chris@1116
|
457 ry1 = h - ry1 - 1;
|
Chris@1116
|
458 }
|
Chris@1116
|
459
|
Chris@1109
|
460 QRect r(rx0, ry1, rw, ry0 - ry1);
|
Chris@1109
|
461
|
Chris@1109
|
462 float value = preparedColumn[sy - minbin];
|
Chris@1112
|
463 QColor colour = m_params.colourScale.getColour(value,
|
Chris@1112
|
464 m_params.colourRotation);
|
Chris@1109
|
465
|
Chris@1109
|
466 if (rw == 1) {
|
Chris@1109
|
467 paint.setPen(colour);
|
Chris@1109
|
468 paint.setBrush(Qt::NoBrush);
|
Chris@1109
|
469 paint.drawLine(r.x(), r.y(), r.x(), r.y() + r.height() - 1);
|
Chris@1109
|
470 continue;
|
Chris@1109
|
471 }
|
Chris@1109
|
472
|
Chris@1109
|
473 QColor pen(255, 255, 255, 80);
|
Chris@1109
|
474 QColor brush(colour);
|
Chris@1109
|
475
|
Chris@1109
|
476 if (rw > 3 && r.height() > 3) {
|
Chris@1109
|
477 brush.setAlpha(160);
|
Chris@1109
|
478 }
|
Chris@1109
|
479
|
Chris@1109
|
480 paint.setPen(Qt::NoPen);
|
Chris@1109
|
481 paint.setBrush(brush);
|
Chris@1109
|
482
|
Chris@1115
|
483 if (illuminate) {
|
Chris@1115
|
484 if (r.contains(illuminatePos)) {
|
Chris@1115
|
485 paint.setPen(v->getForeground());
|
Chris@1115
|
486 }
|
Chris@1115
|
487 }
|
Chris@1109
|
488
|
Chris@1214
|
489 #ifdef DEBUG_COLOUR_PLOT_REPAINT
|
Chris@1214
|
490 // SVDEBUG << "rect " << r.x() << "," << r.y() << " "
|
Chris@1109
|
491 // << r.width() << "x" << r.height() << endl;
|
Chris@1109
|
492 #endif
|
Chris@1109
|
493
|
Chris@1109
|
494 paint.drawRect(r);
|
Chris@1109
|
495
|
Chris@1109
|
496 if (showLabel) {
|
Chris@1109
|
497 double value = model->getValueAt(sx, sy);
|
Chris@1109
|
498 snprintf(labelbuf, buflen, "%06f", value);
|
Chris@1109
|
499 QString text(labelbuf);
|
Chris@1109
|
500 PaintAssistant::drawVisibleText
|
Chris@1109
|
501 (v,
|
Chris@1109
|
502 paint,
|
Chris@1109
|
503 rx0 + 2,
|
Chris@1109
|
504 ry0 - h / sh - 1 + 2 + paint.fontMetrics().ascent(),
|
Chris@1109
|
505 text,
|
Chris@1109
|
506 PaintAssistant::OutlinedText);
|
Chris@1109
|
507 }
|
Chris@1109
|
508 }
|
Chris@1109
|
509 }
|
Chris@1121
|
510
|
Chris@1121
|
511 return magRange;
|
Chris@1094
|
512 }
|
Chris@1094
|
513
|
Chris@1080
|
514 void
|
Chris@1213
|
515 Colour3DPlotRenderer::getPreferredPeakCache(const LayerGeometryProvider *v,
|
Chris@1213
|
516 int &peakCacheIndex,
|
Chris@1213
|
517 int &binsPerPeak) const
|
Chris@1213
|
518 {
|
Chris@1213
|
519 peakCacheIndex = -1;
|
Chris@1213
|
520 binsPerPeak = -1;
|
Chris@1213
|
521
|
Chris@1213
|
522 const DenseThreeDimensionalModel *model = m_sources.source;
|
Chris@1213
|
523 if (!model) return;
|
Chris@1217
|
524 if (m_params.binDisplay == BinDisplay::PeakFrequencies) return;
|
Chris@1217
|
525 if (m_params.colourScale.getScale() == ColourScaleType::Phase) return;
|
Chris@1213
|
526
|
Chris@1213
|
527 int zoomLevel = v->getZoomLevel();
|
Chris@1213
|
528 int binResolution = model->getResolution();
|
Chris@1213
|
529
|
Chris@1213
|
530 for (int ix = 0; in_range_for(m_sources.peakCaches, ix); ++ix) {
|
Chris@1213
|
531 int bpp = m_sources.peakCaches[ix]->getColumnsPerPeak();
|
Chris@1213
|
532 int equivZoom = binResolution * bpp;
|
Chris@1213
|
533 if (zoomLevel >= equivZoom) {
|
Chris@1213
|
534 // this peak cache would work, though it might not be best
|
Chris@1213
|
535 if (bpp > binsPerPeak) {
|
Chris@1213
|
536 // ok, it's better than the best one we've found so far
|
Chris@1213
|
537 peakCacheIndex = ix;
|
Chris@1213
|
538 binsPerPeak = bpp;
|
Chris@1213
|
539 }
|
Chris@1213
|
540 }
|
Chris@1213
|
541 }
|
Chris@1213
|
542
|
Chris@1214
|
543 #ifdef DEBUG_COLOUR_PLOT_REPAINT
|
Chris@1213
|
544 SVDEBUG << "getPreferredPeakCache: zoomLevel = " << zoomLevel
|
Chris@1213
|
545 << ", binResolution " << binResolution
|
Chris@1213
|
546 << ", binsPerPeak " << binsPerPeak
|
Chris@1213
|
547 << ", peakCacheIndex " << peakCacheIndex
|
Chris@1213
|
548 << ", peakCaches " << m_sources.peakCaches.size()
|
Chris@1213
|
549 << endl;
|
Chris@1214
|
550 #endif
|
Chris@1213
|
551 }
|
Chris@1213
|
552
|
Chris@1213
|
553 void
|
Chris@1113
|
554 Colour3DPlotRenderer::renderToCachePixelResolution(const LayerGeometryProvider *v,
|
Chris@1094
|
555 int x0, int repaintWidth,
|
Chris@1094
|
556 bool rightToLeft,
|
Chris@1094
|
557 bool timeConstrained)
|
Chris@1079
|
558 {
|
Chris@1117
|
559 Profiler profiler("Colour3DPlotRenderer::renderToCachePixelResolution");
|
Chris@1143
|
560 #ifdef DEBUG_COLOUR_PLOT_REPAINT
|
Chris@1214
|
561 SVDEBUG << "renderToCachePixelResolution" << endl;
|
Chris@1143
|
562 #endif
|
Chris@1094
|
563
|
Chris@1094
|
564 // Draw to the draw buffer, and then copy from there. The draw
|
Chris@1094
|
565 // buffer is at the same resolution as the target in the cache, so
|
Chris@1094
|
566 // no extra scaling needed.
|
Chris@1079
|
567
|
Chris@1100
|
568 const DenseThreeDimensionalModel *model = m_sources.source;
|
Chris@1079
|
569 if (!model || !model->isOK() || !model->isReady()) {
|
Chris@1079
|
570 throw std::logic_error("no source model provided, or model not ready");
|
Chris@1079
|
571 }
|
Chris@1079
|
572
|
Chris@1079
|
573 int h = v->getPaintHeight();
|
Chris@1079
|
574
|
Chris@1094
|
575 clearDrawBuffer(repaintWidth, h);
|
Chris@1079
|
576
|
Chris@1094
|
577 vector<int> binforx(repaintWidth);
|
Chris@1079
|
578 vector<double> binfory(h);
|
Chris@1079
|
579
|
Chris@1094
|
580 int binResolution = model->getResolution();
|
Chris@1079
|
581
|
Chris@1094
|
582 for (int x = 0; x < repaintWidth; ++x) {
|
Chris@1094
|
583 sv_frame_t f0 = v->getFrameForX(x0 + x);
|
Chris@1094
|
584 double s0 = double(f0 - model->getStartFrame()) / binResolution;
|
Chris@1094
|
585 binforx[x] = int(s0 + 0.0001);
|
Chris@1094
|
586 }
|
Chris@1080
|
587
|
Chris@1212
|
588 int peakCacheIndex = -1;
|
Chris@1212
|
589 int binsPerPeak = -1;
|
Chris@1212
|
590
|
Chris@1217
|
591 getPreferredPeakCache(v, peakCacheIndex, binsPerPeak);
|
Chris@1094
|
592
|
Chris@1080
|
593 for (int y = 0; y < h; ++y) {
|
Chris@1090
|
594 binfory[y] = m_sources.verticalBinLayer->getBinForY(v, h - y - 1);
|
Chris@1080
|
595 }
|
Chris@1079
|
596
|
Chris@1097
|
597 int attainedWidth;
|
Chris@1097
|
598
|
Chris@1103
|
599 if (m_params.binDisplay == BinDisplay::PeakFrequencies) {
|
Chris@1097
|
600 attainedWidth = renderDrawBufferPeakFrequencies(v,
|
Chris@1097
|
601 repaintWidth,
|
Chris@1097
|
602 h,
|
Chris@1097
|
603 binforx,
|
Chris@1097
|
604 binfory,
|
Chris@1097
|
605 rightToLeft,
|
Chris@1097
|
606 timeConstrained);
|
Chris@1097
|
607
|
Chris@1097
|
608 } else {
|
Chris@1097
|
609 attainedWidth = renderDrawBuffer(repaintWidth,
|
Chris@1080
|
610 h,
|
Chris@1080
|
611 binforx,
|
Chris@1080
|
612 binfory,
|
Chris@1212
|
613 peakCacheIndex,
|
Chris@1080
|
614 rightToLeft,
|
Chris@1080
|
615 timeConstrained);
|
Chris@1097
|
616 }
|
Chris@1083
|
617
|
Chris@1094
|
618 if (attainedWidth == 0) return;
|
Chris@1084
|
619
|
Chris@1094
|
620 // draw buffer is pixel resolution, no scaling factors or padding involved
|
Chris@1084
|
621
|
Chris@1084
|
622 int paintedLeft = x0;
|
Chris@1084
|
623 if (rightToLeft) {
|
Chris@1084
|
624 paintedLeft += (repaintWidth - attainedWidth);
|
Chris@1084
|
625 }
|
Chris@1084
|
626
|
Chris@1094
|
627 m_cache.drawImage(paintedLeft, attainedWidth,
|
Chris@1094
|
628 m_drawBuffer,
|
Chris@1094
|
629 paintedLeft - x0, attainedWidth);
|
Chris@1121
|
630
|
Chris@1121
|
631 for (int i = 0; in_range_for(m_magRanges, i); ++i) {
|
Chris@1121
|
632 m_magCache.sampleColumn(i, m_magRanges.at(i));
|
Chris@1121
|
633 }
|
Chris@1094
|
634 }
|
Chris@1084
|
635
|
Chris@1167
|
636 QImage
|
Chris@1167
|
637 Colour3DPlotRenderer::scaleDrawBufferImage(QImage image,
|
Chris@1167
|
638 int targetWidth,
|
Chris@1167
|
639 int targetHeight) const
|
Chris@1167
|
640 {
|
Chris@1167
|
641 int sourceWidth = image.width();
|
Chris@1167
|
642 int sourceHeight = image.height();
|
Chris@1167
|
643
|
Chris@1167
|
644 // We can only do this if we're making the image larger --
|
Chris@1167
|
645 // otherwise peaks may be lost. So this should be called only when
|
Chris@1167
|
646 // rendering in DrawBufferBinResolution mode. Whenever the bin
|
Chris@1167
|
647 // size is smaller than the pixel size, in either x or y axis, we
|
Chris@1167
|
648 // should be using DrawBufferPixelResolution mode instead
|
Chris@1167
|
649
|
Chris@1167
|
650 if (targetWidth < sourceWidth || targetHeight < sourceHeight) {
|
Chris@1167
|
651 throw std::logic_error("Colour3DPlotRenderer::scaleDrawBufferImage: Can only use this function when making the image larger; should be rendering DrawBufferPixelResolution instead");
|
Chris@1167
|
652 }
|
Chris@1167
|
653
|
Chris@1167
|
654 if (sourceWidth <= 0 || sourceHeight <= 0) {
|
Chris@1167
|
655 throw std::logic_error("Colour3DPlotRenderer::scaleDrawBufferImage: Source image is empty");
|
Chris@1167
|
656 }
|
Chris@1167
|
657
|
Chris@1167
|
658 if (targetWidth <= 0 || targetHeight <= 0) {
|
Chris@1167
|
659 throw std::logic_error("Colour3DPlotRenderer::scaleDrawBufferImage: Target image is empty");
|
Chris@1167
|
660 }
|
Chris@1167
|
661
|
Chris@1167
|
662 // This function exists because of some unpredictable behaviour
|
Chris@1167
|
663 // from Qt when scaling images with FastTransformation mode. We
|
Chris@1167
|
664 // continue to use Qt's scaler for SmoothTransformation but let's
|
Chris@1167
|
665 // bring the non-interpolated version "in-house" so we know what
|
Chris@1167
|
666 // it's really doing.
|
Chris@1167
|
667
|
Chris@1167
|
668 if (m_params.interpolate) {
|
Chris@1167
|
669 return image.scaled(targetWidth, targetHeight,
|
Chris@1167
|
670 Qt::IgnoreAspectRatio,
|
Chris@1167
|
671 Qt::SmoothTransformation);
|
Chris@1167
|
672 }
|
Chris@1167
|
673
|
Chris@1167
|
674 // Same format as the target cache
|
Chris@1167
|
675 QImage target(targetWidth, targetHeight, QImage::Format_ARGB32_Premultiplied);
|
Chris@1167
|
676
|
Chris@1167
|
677 for (int y = 0; y < targetHeight; ++y) {
|
Chris@1167
|
678
|
Chris@1167
|
679 QRgb *targetLine = reinterpret_cast<QRgb *>(target.scanLine(y));
|
Chris@1167
|
680
|
Chris@1167
|
681 int sy = int((uint64_t(y) * sourceHeight) / targetHeight);
|
Chris@1167
|
682 if (sy == sourceHeight) --sy;
|
Chris@1167
|
683
|
Chris@1167
|
684 for (int x = 0; x < targetWidth; ++x) {
|
Chris@1167
|
685
|
Chris@1167
|
686 int sx = int((uint64_t(x) * sourceWidth) / targetWidth);
|
Chris@1167
|
687 if (sx == sourceWidth) --sx;
|
Chris@1167
|
688
|
Chris@1167
|
689 targetLine[x] = image.pixel(sx, sy);
|
Chris@1167
|
690 }
|
Chris@1167
|
691 }
|
Chris@1167
|
692
|
Chris@1167
|
693 return target;
|
Chris@1167
|
694 }
|
Chris@1167
|
695
|
Chris@1094
|
696 void
|
Chris@1113
|
697 Colour3DPlotRenderer::renderToCacheBinResolution(const LayerGeometryProvider *v,
|
Chris@1094
|
698 int x0, int repaintWidth)
|
Chris@1094
|
699 {
|
Chris@1117
|
700 Profiler profiler("Colour3DPlotRenderer::renderToCacheBinResolution");
|
Chris@1143
|
701 #ifdef DEBUG_COLOUR_PLOT_REPAINT
|
Chris@1214
|
702 SVDEBUG << "renderToCacheBinResolution" << endl;
|
Chris@1143
|
703 #endif
|
Chris@1094
|
704
|
Chris@1094
|
705 // Draw to the draw buffer, and then scale-copy from there. Draw
|
Chris@1094
|
706 // buffer is at bin resolution, i.e. buffer x == source column
|
Chris@1094
|
707 // number. We use toolkit smooth scaling for interpolation.
|
Chris@1084
|
708
|
Chris@1100
|
709 const DenseThreeDimensionalModel *model = m_sources.source;
|
Chris@1094
|
710 if (!model || !model->isOK() || !model->isReady()) {
|
Chris@1094
|
711 throw std::logic_error("no source model provided, or model not ready");
|
Chris@1094
|
712 }
|
Chris@1094
|
713
|
Chris@1094
|
714 // The draw buffer will contain a fragment at bin resolution. We
|
Chris@1094
|
715 // need to ensure that it starts and ends at points where a
|
Chris@1094
|
716 // time-bin boundary occurs at an exact pixel boundary, and with a
|
Chris@1094
|
717 // certain amount of overlap across existing pixels so that we can
|
Chris@1094
|
718 // scale and draw from it without smoothing errors at the edges.
|
Chris@1094
|
719
|
Chris@1094
|
720 // If (getFrameForX(x) / increment) * increment ==
|
Chris@1094
|
721 // getFrameForX(x), then x is a time-bin boundary. We want two
|
Chris@1094
|
722 // such boundaries at either side of the draw buffer -- one which
|
Chris@1094
|
723 // we draw up to, and one which we subsequently crop at.
|
Chris@1094
|
724
|
Chris@1094
|
725 sv_frame_t leftBoundaryFrame = -1, leftCropFrame = -1;
|
Chris@1094
|
726 sv_frame_t rightBoundaryFrame = -1, rightCropFrame = -1;
|
Chris@1094
|
727
|
Chris@1094
|
728 int drawBufferWidth;
|
Chris@1094
|
729 int binResolution = model->getResolution();
|
Chris@1094
|
730
|
Chris@1094
|
731 for (int x = x0; ; --x) {
|
Chris@1094
|
732 sv_frame_t f = v->getFrameForX(x);
|
Chris@1094
|
733 if ((f / binResolution) * binResolution == f) {
|
Chris@1094
|
734 if (leftCropFrame == -1) leftCropFrame = f;
|
Chris@1094
|
735 else if (x < x0 - 2) {
|
Chris@1094
|
736 leftBoundaryFrame = f;
|
Chris@1094
|
737 break;
|
Chris@1094
|
738 }
|
Chris@1094
|
739 }
|
Chris@1094
|
740 }
|
Chris@1094
|
741 for (int x = x0 + repaintWidth; ; ++x) {
|
Chris@1094
|
742 sv_frame_t f = v->getFrameForX(x);
|
Chris@1094
|
743 if ((f / binResolution) * binResolution == f) {
|
Chris@1094
|
744 if (rightCropFrame == -1) rightCropFrame = f;
|
Chris@1094
|
745 else if (x > x0 + repaintWidth + 2) {
|
Chris@1094
|
746 rightBoundaryFrame = f;
|
Chris@1094
|
747 break;
|
Chris@1094
|
748 }
|
Chris@1094
|
749 }
|
Chris@1094
|
750 }
|
Chris@1094
|
751 drawBufferWidth = int
|
Chris@1094
|
752 ((rightBoundaryFrame - leftBoundaryFrame) / binResolution);
|
Chris@1094
|
753
|
Chris@1094
|
754 int h = v->getPaintHeight();
|
Chris@1094
|
755
|
Chris@1095
|
756 // For our purposes here, the draw buffer needs to be exactly our
|
Chris@1095
|
757 // target size (so we recreate always rather than just clear it)
|
Chris@1095
|
758
|
Chris@1095
|
759 recreateDrawBuffer(drawBufferWidth, h);
|
Chris@1094
|
760
|
Chris@1094
|
761 vector<int> binforx(drawBufferWidth);
|
Chris@1094
|
762 vector<double> binfory(h);
|
Chris@1094
|
763
|
Chris@1094
|
764 for (int x = 0; x < drawBufferWidth; ++x) {
|
Chris@1094
|
765 binforx[x] = int(leftBoundaryFrame / binResolution) + x;
|
Chris@1094
|
766 }
|
Chris@1094
|
767
|
Chris@1214
|
768 #ifdef DEBUG_COLOUR_PLOT_REPAINT
|
Chris@1167
|
769 SVDEBUG << "[BIN] binResolution " << binResolution << endl;
|
Chris@1214
|
770 #endif
|
Chris@1094
|
771
|
Chris@1094
|
772 for (int y = 0; y < h; ++y) {
|
Chris@1094
|
773 binfory[y] = m_sources.verticalBinLayer->getBinForY(v, h - y - 1);
|
Chris@1094
|
774 }
|
Chris@1094
|
775
|
Chris@1094
|
776 int attainedWidth = renderDrawBuffer(drawBufferWidth,
|
Chris@1094
|
777 h,
|
Chris@1094
|
778 binforx,
|
Chris@1094
|
779 binfory,
|
Chris@1212
|
780 -1,
|
Chris@1094
|
781 false,
|
Chris@1094
|
782 false);
|
Chris@1094
|
783
|
Chris@1094
|
784 if (attainedWidth == 0) return;
|
Chris@1094
|
785
|
Chris@1094
|
786 int scaledLeft = v->getXForFrame(leftBoundaryFrame);
|
Chris@1094
|
787 int scaledRight = v->getXForFrame(rightBoundaryFrame);
|
Chris@1095
|
788
|
Chris@1143
|
789 #ifdef DEBUG_COLOUR_PLOT_REPAINT
|
Chris@1212
|
790 SVDEBUG << "scaling draw buffer from width " << m_drawBuffer.width()
|
Chris@1212
|
791 << " to " << (scaledRight - scaledLeft) << " (nb drawBufferWidth = "
|
Chris@1212
|
792 << drawBufferWidth << ")" << endl;
|
Chris@1143
|
793 #endif
|
Chris@1167
|
794
|
Chris@1167
|
795 QImage scaled = scaleDrawBufferImage
|
Chris@1167
|
796 (m_drawBuffer, scaledRight - scaledLeft, h);
|
Chris@1084
|
797
|
Chris@1094
|
798 int scaledLeftCrop = v->getXForFrame(leftCropFrame);
|
Chris@1094
|
799 int scaledRightCrop = v->getXForFrame(rightCropFrame);
|
Chris@1094
|
800
|
Chris@1094
|
801 int targetLeft = scaledLeftCrop;
|
Chris@1094
|
802 if (targetLeft < 0) {
|
Chris@1094
|
803 targetLeft = 0;
|
Chris@1094
|
804 }
|
Chris@1094
|
805
|
Chris@1094
|
806 int targetWidth = scaledRightCrop - targetLeft;
|
Chris@1094
|
807 if (targetLeft + targetWidth > m_cache.getSize().width()) {
|
Chris@1094
|
808 targetWidth = m_cache.getSize().width() - targetLeft;
|
Chris@1094
|
809 }
|
Chris@1094
|
810
|
Chris@1094
|
811 int sourceLeft = targetLeft - scaledLeft;
|
Chris@1094
|
812 if (sourceLeft < 0) {
|
Chris@1094
|
813 sourceLeft = 0;
|
Chris@1094
|
814 }
|
Chris@1094
|
815
|
Chris@1143
|
816 #ifdef DEBUG_COLOUR_PLOT_REPAINT
|
Chris@1214
|
817 SVDEBUG << "repaintWidth = " << repaintWidth
|
Chris@1214
|
818 << ", targetWidth = " << targetWidth << endl;
|
Chris@1143
|
819 #endif
|
Chris@1094
|
820
|
Chris@1094
|
821 if (targetWidth > 0) {
|
Chris@1136
|
822 // we are copying from an image that has already been scaled,
|
Chris@1136
|
823 // hence using the same width in both geometries
|
Chris@1094
|
824 m_cache.drawImage(targetLeft, targetWidth,
|
Chris@1094
|
825 scaled,
|
Chris@1136
|
826 sourceLeft, targetWidth);
|
Chris@1084
|
827 }
|
Chris@1121
|
828
|
Chris@1121
|
829 for (int i = 0; i < targetWidth; ++i) {
|
Chris@1136
|
830 // but the mag range vector has not been scaled
|
Chris@1136
|
831 int sourceIx = int((double(i + sourceLeft) / scaled.width())
|
Chris@1136
|
832 * int(m_magRanges.size()));
|
Chris@1121
|
833 if (in_range_for(m_magRanges, sourceIx)) {
|
Chris@1121
|
834 m_magCache.sampleColumn(i, m_magRanges.at(sourceIx));
|
Chris@1121
|
835 }
|
Chris@1121
|
836 }
|
Chris@1079
|
837 }
|
Chris@1083
|
838
|
Chris@1083
|
839 int
|
Chris@1083
|
840 Colour3DPlotRenderer::renderDrawBuffer(int w, int h,
|
Chris@1083
|
841 const vector<int> &binforx,
|
Chris@1083
|
842 const vector<double> &binfory,
|
Chris@1212
|
843 int peakCacheIndex,
|
Chris@1083
|
844 bool rightToLeft,
|
Chris@1083
|
845 bool timeConstrained)
|
Chris@1083
|
846 {
|
Chris@1083
|
847 // Callers must have checked that the appropriate subset of
|
Chris@1083
|
848 // Sources data members are set for the supplied flags (e.g. that
|
Chris@1212
|
849 // peakCache corresponding to peakCacheIndex exists)
|
Chris@1083
|
850
|
Chris@1083
|
851 RenderTimer timer(timeConstrained ?
|
Chris@1083
|
852 RenderTimer::FastRender :
|
Chris@1083
|
853 RenderTimer::NoTimeout);
|
Chris@1083
|
854
|
Chris@1164
|
855 Profiler profiler("Colour3DPlotRenderer::renderDrawBuffer");
|
Chris@1164
|
856
|
Chris@1083
|
857 int divisor = 1;
|
Chris@1100
|
858 const DenseThreeDimensionalModel *sourceModel = m_sources.source;
|
Chris@1212
|
859 if (peakCacheIndex >= 0) {
|
Chris@1212
|
860 divisor = m_sources.peakCaches[peakCacheIndex]->getColumnsPerPeak();
|
Chris@1212
|
861 sourceModel = m_sources.peakCaches[peakCacheIndex];
|
Chris@1083
|
862 }
|
Chris@1083
|
863
|
Chris@1214
|
864 #ifdef DEBUG_COLOUR_PLOT_REPAINT
|
cannam@1171
|
865 SVDEBUG << "renderDrawBuffer: w = " << w << ", h = " << h
|
Chris@1212
|
866 << ", peakCacheIndex = " << peakCacheIndex << " (divisor = "
|
cannam@1171
|
867 << divisor << "), rightToLeft = " << rightToLeft
|
cannam@1171
|
868 << ", timeConstrained = " << timeConstrained << endl;
|
cannam@1171
|
869 SVDEBUG << "renderDrawBuffer: normalization = " << int(m_params.normalization)
|
cannam@1171
|
870 << ", binDisplay = " << int(m_params.binDisplay)
|
cannam@1171
|
871 << ", binScale = " << int(m_params.binScale)
|
cannam@1171
|
872 << ", alwaysOpaque = " << m_params.alwaysOpaque
|
cannam@1171
|
873 << ", interpolate = " << m_params.interpolate << endl;
|
Chris@1214
|
874 #endif
|
cannam@1171
|
875
|
Chris@1135
|
876 int sh = sourceModel->getHeight();
|
Chris@1135
|
877
|
Chris@1135
|
878 int minbin = int(binfory[0] + 0.0001);
|
Chris@1135
|
879 if (minbin >= sh) minbin = sh - 1;
|
Chris@1135
|
880 if (minbin < 0) minbin = 0;
|
Chris@1135
|
881
|
Chris@1170
|
882 int nbins = int(binfory[h-1] + 0.0001) - minbin + 1;
|
Chris@1135
|
883 if (minbin + nbins > sh) nbins = sh - minbin;
|
Chris@1162
|
884
|
Chris@1162
|
885 #ifdef DEBUG_COLOUR_PLOT_REPAINT
|
Chris@1214
|
886 SVDEBUG << "minbin = " << minbin << ", nbins = " << nbins << ", last binfory = "
|
Chris@1170
|
887 << binfory[h-1] << " (rounds to " << int(binfory[h-1]) << ") (model height " << sh << ")" << endl;
|
Chris@1162
|
888 #endif
|
Chris@1135
|
889
|
Chris@1083
|
890 int psx = -1;
|
Chris@1083
|
891
|
Chris@1083
|
892 int start = 0;
|
Chris@1083
|
893 int finish = w;
|
Chris@1083
|
894 int step = 1;
|
Chris@1083
|
895
|
Chris@1083
|
896 if (rightToLeft) {
|
Chris@1083
|
897 start = w-1;
|
Chris@1083
|
898 finish = -1;
|
Chris@1083
|
899 step = -1;
|
Chris@1083
|
900 }
|
Chris@1083
|
901
|
Chris@1221
|
902 int xPixelCount = 0;
|
Chris@1083
|
903
|
Chris@1083
|
904 vector<float> preparedColumn;
|
Chris@1094
|
905
|
Chris@1094
|
906 int modelWidth = sourceModel->getWidth();
|
Chris@1121
|
907
|
Chris@1143
|
908 #ifdef DEBUG_COLOUR_PLOT_REPAINT
|
Chris@1214
|
909 SVDEBUG << "modelWidth " << modelWidth << ", divisor " << divisor << endl;
|
Chris@1143
|
910 #endif
|
Chris@1143
|
911
|
Chris@1083
|
912 for (int x = start; x != finish; x += step) {
|
Chris@1083
|
913
|
Chris@1083
|
914 // x is the on-canvas pixel coord; sx (later) will be the
|
Chris@1083
|
915 // source column index
|
Chris@1083
|
916
|
Chris@1221
|
917 ++xPixelCount;
|
Chris@1083
|
918
|
Chris@1083
|
919 if (binforx[x] < 0) continue;
|
Chris@1083
|
920
|
Chris@1083
|
921 int sx0 = binforx[x] / divisor;
|
Chris@1083
|
922 int sx1 = sx0;
|
Chris@1083
|
923 if (x+1 < w) sx1 = binforx[x+1] / divisor;
|
Chris@1083
|
924 if (sx0 < 0) sx0 = sx1 - 1;
|
Chris@1083
|
925 if (sx0 < 0) continue;
|
Chris@1083
|
926 if (sx1 <= sx0) sx1 = sx0 + 1;
|
Chris@1083
|
927
|
Chris@1161
|
928 #ifdef DEBUG_COLOUR_PLOT_REPAINT
|
Chris@1214
|
929 // SVDEBUG << "x = " << x << ", binforx[x] = " << binforx[x] << ", sx range " << sx0 << " -> " << sx1 << endl;
|
Chris@1161
|
930 #endif
|
Chris@1161
|
931
|
Chris@1083
|
932 vector<float> pixelPeakColumn;
|
Chris@1121
|
933 MagnitudeRange magRange;
|
Chris@1083
|
934
|
Chris@1083
|
935 for (int sx = sx0; sx < sx1; ++sx) {
|
Chris@1083
|
936
|
Chris@1094
|
937 if (sx < 0 || sx >= modelWidth) {
|
Chris@1083
|
938 continue;
|
Chris@1083
|
939 }
|
Chris@1083
|
940
|
Chris@1083
|
941 if (sx != psx) {
|
Chris@1138
|
942
|
Chris@1138
|
943 // order:
|
Chris@1138
|
944 // get column -> scale -> normalise -> record extents ->
|
Chris@1138
|
945 // peak pick -> distribute/interpolate -> apply display gain
|
Chris@1083
|
946
|
Chris@1138
|
947 // this does the first three:
|
Chris@1161
|
948 ColumnOp::Column column = getColumn(sx, minbin, nbins,
|
Chris@1212
|
949 peakCacheIndex);
|
Chris@1083
|
950
|
Chris@1131
|
951 magRange.sample(column);
|
Chris@1162
|
952
|
Chris@1103
|
953 if (m_params.binDisplay == BinDisplay::PeakBins) {
|
Chris@1083
|
954 column = ColumnOp::peakPick(column);
|
Chris@1083
|
955 }
|
Chris@1083
|
956
|
Chris@1083
|
957 preparedColumn =
|
Chris@1124
|
958 ColumnOp::distribute(column,
|
Chris@1083
|
959 h,
|
Chris@1083
|
960 binfory,
|
Chris@1083
|
961 minbin,
|
Chris@1083
|
962 m_params.interpolate);
|
Chris@1124
|
963
|
Chris@1124
|
964 // Display gain belongs to the colour scale and is
|
Chris@1124
|
965 // applied by the colour scale object when mapping it
|
Chris@1083
|
966
|
Chris@1083
|
967 psx = sx;
|
Chris@1083
|
968 }
|
Chris@1083
|
969
|
Chris@1083
|
970 if (sx == sx0) {
|
Chris@1083
|
971 pixelPeakColumn = preparedColumn;
|
Chris@1083
|
972 } else {
|
Chris@1083
|
973 for (int i = 0; in_range_for(pixelPeakColumn, i); ++i) {
|
Chris@1083
|
974 pixelPeakColumn[i] = std::max(pixelPeakColumn[i],
|
Chris@1083
|
975 preparedColumn[i]);
|
Chris@1083
|
976 }
|
Chris@1083
|
977 }
|
Chris@1083
|
978 }
|
Chris@1083
|
979
|
Chris@1083
|
980 if (!pixelPeakColumn.empty()) {
|
Chris@1121
|
981
|
Chris@1083
|
982 for (int y = 0; y < h; ++y) {
|
Chris@1116
|
983 int py;
|
Chris@1116
|
984 if (m_params.invertVertical) {
|
Chris@1116
|
985 py = y;
|
Chris@1116
|
986 } else {
|
Chris@1116
|
987 py = h - y - 1;
|
Chris@1116
|
988 }
|
Chris@1083
|
989 m_drawBuffer.setPixel
|
Chris@1083
|
990 (x,
|
Chris@1116
|
991 py,
|
Chris@1083
|
992 m_params.colourScale.getPixel(pixelPeakColumn[y]));
|
Chris@1083
|
993 }
|
Chris@1121
|
994
|
Chris@1121
|
995 m_magRanges.push_back(magRange);
|
Chris@1083
|
996 }
|
Chris@1083
|
997
|
Chris@1221
|
998 double fractionComplete = double(xPixelCount) / double(w);
|
Chris@1083
|
999 if (timer.outOfTime(fractionComplete)) {
|
Chris@1214
|
1000 #ifdef DEBUG_COLOUR_PLOT_REPAINT
|
Chris@1212
|
1001 SVDEBUG << "out of time" << endl;
|
Chris@1214
|
1002 #endif
|
Chris@1221
|
1003 updateTimings(timer, xPixelCount);
|
Chris@1221
|
1004 return xPixelCount;
|
Chris@1083
|
1005 }
|
Chris@1083
|
1006 }
|
Chris@1083
|
1007
|
Chris@1221
|
1008 updateTimings(timer, xPixelCount);
|
Chris@1221
|
1009 return xPixelCount;
|
Chris@1083
|
1010 }
|
Chris@1083
|
1011
|
Chris@1097
|
1012 int
|
Chris@1113
|
1013 Colour3DPlotRenderer::renderDrawBufferPeakFrequencies(const LayerGeometryProvider *v,
|
Chris@1097
|
1014 int w, int h,
|
Chris@1097
|
1015 const vector<int> &binforx,
|
Chris@1097
|
1016 const vector<double> &binfory,
|
Chris@1097
|
1017 bool rightToLeft,
|
Chris@1097
|
1018 bool timeConstrained)
|
Chris@1097
|
1019 {
|
Chris@1097
|
1020 // Callers must have checked that the appropriate subset of
|
Chris@1097
|
1021 // Sources data members are set for the supplied flags (e.g. that
|
Chris@1097
|
1022 // fft model exists)
|
Chris@1097
|
1023
|
Chris@1097
|
1024 RenderTimer timer(timeConstrained ?
|
Chris@1221
|
1025 RenderTimer::SlowRender :
|
Chris@1097
|
1026 RenderTimer::NoTimeout);
|
Chris@1097
|
1027
|
Chris@1135
|
1028 const FFTModel *fft = m_sources.fft;
|
Chris@1135
|
1029
|
Chris@1135
|
1030 int sh = fft->getHeight();
|
Chris@1135
|
1031
|
Chris@1097
|
1032 int minbin = int(binfory[0] + 0.0001);
|
Chris@1135
|
1033 if (minbin >= sh) minbin = sh - 1;
|
Chris@1097
|
1034 if (minbin < 0) minbin = 0;
|
Chris@1097
|
1035
|
Chris@1135
|
1036 int nbins = int(binfory[h-1]) - minbin + 1;
|
Chris@1135
|
1037 if (minbin + nbins > sh) nbins = sh - minbin;
|
Chris@1097
|
1038
|
Chris@1097
|
1039 FFTModel::PeakSet peakfreqs;
|
Chris@1097
|
1040
|
Chris@1097
|
1041 int psx = -1;
|
Chris@1097
|
1042
|
Chris@1097
|
1043 int start = 0;
|
Chris@1097
|
1044 int finish = w;
|
Chris@1097
|
1045 int step = 1;
|
Chris@1097
|
1046
|
Chris@1097
|
1047 if (rightToLeft) {
|
Chris@1097
|
1048 start = w-1;
|
Chris@1097
|
1049 finish = -1;
|
Chris@1097
|
1050 step = -1;
|
Chris@1097
|
1051 }
|
Chris@1097
|
1052
|
Chris@1221
|
1053 int xPixelCount = 0;
|
Chris@1097
|
1054
|
Chris@1097
|
1055 vector<float> preparedColumn;
|
Chris@1097
|
1056
|
Chris@1097
|
1057 int modelWidth = fft->getWidth();
|
Chris@1143
|
1058 #ifdef DEBUG_COLOUR_PLOT_REPAINT
|
Chris@1214
|
1059 SVDEBUG << "modelWidth " << modelWidth << endl;
|
Chris@1143
|
1060 #endif
|
Chris@1143
|
1061
|
Chris@1135
|
1062 double minFreq =
|
Chris@1135
|
1063 (double(minbin) * fft->getSampleRate()) / fft->getFFTSize();
|
Chris@1135
|
1064 double maxFreq =
|
Chris@1135
|
1065 (double(minbin + nbins - 1) * fft->getSampleRate()) / fft->getFFTSize();
|
Chris@1097
|
1066
|
Chris@1103
|
1067 bool logarithmic = (m_params.binScale == BinScale::Log);
|
Chris@1217
|
1068
|
Chris@1218
|
1069 #ifdef DEBUG_COLOUR_PLOT_REPAINT
|
Chris@1218
|
1070 SVDEBUG << "start = " << start << ", finish = " << finish
|
Chris@1218
|
1071 << ", step = " << step << endl;
|
Chris@1218
|
1072 #endif
|
Chris@1218
|
1073
|
Chris@1097
|
1074 for (int x = start; x != finish; x += step) {
|
Chris@1097
|
1075
|
Chris@1097
|
1076 // x is the on-canvas pixel coord; sx (later) will be the
|
Chris@1097
|
1077 // source column index
|
Chris@1097
|
1078
|
Chris@1221
|
1079 ++xPixelCount;
|
Chris@1097
|
1080
|
Chris@1097
|
1081 if (binforx[x] < 0) continue;
|
Chris@1097
|
1082
|
Chris@1097
|
1083 int sx0 = binforx[x];
|
Chris@1097
|
1084 int sx1 = sx0;
|
Chris@1097
|
1085 if (x+1 < w) sx1 = binforx[x+1];
|
Chris@1097
|
1086 if (sx0 < 0) sx0 = sx1 - 1;
|
Chris@1097
|
1087 if (sx0 < 0) continue;
|
Chris@1097
|
1088 if (sx1 <= sx0) sx1 = sx0 + 1;
|
Chris@1097
|
1089
|
Chris@1097
|
1090 vector<float> pixelPeakColumn;
|
Chris@1121
|
1091 MagnitudeRange magRange;
|
Chris@1097
|
1092
|
Chris@1097
|
1093 for (int sx = sx0; sx < sx1; ++sx) {
|
Chris@1097
|
1094
|
Chris@1097
|
1095 if (sx < 0 || sx >= modelWidth) {
|
Chris@1097
|
1096 continue;
|
Chris@1097
|
1097 }
|
Chris@1097
|
1098
|
Chris@1097
|
1099 if (sx != psx) {
|
Chris@1219
|
1100 preparedColumn = getColumn(sx, minbin, nbins, -1);
|
Chris@1131
|
1101 magRange.sample(preparedColumn);
|
Chris@1097
|
1102 psx = sx;
|
Chris@1097
|
1103 }
|
Chris@1097
|
1104
|
Chris@1097
|
1105 if (sx == sx0) {
|
Chris@1097
|
1106 pixelPeakColumn = preparedColumn;
|
Chris@1097
|
1107 peakfreqs = fft->getPeakFrequencies(FFTModel::AllPeaks, sx,
|
Chris@1135
|
1108 minbin, minbin + nbins - 1);
|
Chris@1097
|
1109 } else {
|
Chris@1097
|
1110 for (int i = 0; in_range_for(pixelPeakColumn, i); ++i) {
|
Chris@1097
|
1111 pixelPeakColumn[i] = std::max(pixelPeakColumn[i],
|
Chris@1097
|
1112 preparedColumn[i]);
|
Chris@1097
|
1113 }
|
Chris@1097
|
1114 }
|
Chris@1097
|
1115 }
|
Chris@1097
|
1116
|
Chris@1097
|
1117 if (!pixelPeakColumn.empty()) {
|
Chris@1164
|
1118
|
Chris@1218
|
1119 #ifdef DEBUG_COLOUR_PLOT_REPAINT
|
Chris@1221
|
1120 // SVDEBUG << "found " << peakfreqs.size() << " peak freqs at column "
|
Chris@1221
|
1121 // << sx0 << endl;
|
Chris@1218
|
1122 #endif
|
Chris@1218
|
1123
|
Chris@1097
|
1124 for (FFTModel::PeakSet::const_iterator pi = peakfreqs.begin();
|
Chris@1097
|
1125 pi != peakfreqs.end(); ++pi) {
|
Chris@1097
|
1126
|
Chris@1097
|
1127 int bin = pi->first;
|
Chris@1097
|
1128 double freq = pi->second;
|
Chris@1097
|
1129
|
Chris@1097
|
1130 if (bin < minbin) continue;
|
Chris@1135
|
1131 if (bin >= minbin + nbins) break;
|
Chris@1097
|
1132
|
Chris@1097
|
1133 double value = pixelPeakColumn[bin - minbin];
|
Chris@1097
|
1134
|
Chris@1097
|
1135 double y = v->getYForFrequency
|
Chris@1097
|
1136 (freq, minFreq, maxFreq, logarithmic);
|
Chris@1097
|
1137
|
Chris@1097
|
1138 int iy = int(y + 0.5);
|
Chris@1097
|
1139 if (iy < 0 || iy >= h) continue;
|
Chris@1097
|
1140
|
Chris@1219
|
1141 auto pixel = m_params.colourScale.getPixel(value);
|
Chris@1219
|
1142
|
Chris@1219
|
1143 #ifdef DEBUG_COLOUR_PLOT_REPAINT
|
Chris@1219
|
1144 // SVDEBUG << "frequency " << freq << " for bin " << bin
|
Chris@1219
|
1145 // << " -> y = " << y << ", iy = " << iy << ", value = "
|
Chris@1219
|
1146 // << value << ", pixel " << pixel << "\n";
|
Chris@1219
|
1147 #endif
|
Chris@1219
|
1148
|
Chris@1219
|
1149 m_drawBuffer.setPixel(x, iy, pixel);
|
Chris@1097
|
1150 }
|
Chris@1121
|
1151
|
Chris@1121
|
1152 m_magRanges.push_back(magRange);
|
Chris@1218
|
1153
|
Chris@1218
|
1154 } else {
|
Chris@1218
|
1155 #ifdef DEBUG_COLOUR_PLOT_REPAINT
|
Chris@1218
|
1156 SVDEBUG << "pixel peak column for range " << sx0 << " to " << sx1
|
Chris@1218
|
1157 << " is empty" << endl;
|
Chris@1218
|
1158 #endif
|
Chris@1097
|
1159 }
|
Chris@1097
|
1160
|
Chris@1221
|
1161 double fractionComplete = double(xPixelCount) / double(w);
|
Chris@1097
|
1162 if (timer.outOfTime(fractionComplete)) {
|
Chris@1218
|
1163 #ifdef DEBUG_COLOUR_PLOT_REPAINT
|
Chris@1218
|
1164 SVDEBUG << "out of time" << endl;
|
Chris@1218
|
1165 #endif
|
Chris@1221
|
1166 updateTimings(timer, xPixelCount);
|
Chris@1221
|
1167 return xPixelCount;
|
Chris@1097
|
1168 }
|
Chris@1097
|
1169 }
|
Chris@1097
|
1170
|
Chris@1221
|
1171 updateTimings(timer, xPixelCount);
|
Chris@1221
|
1172 return xPixelCount;
|
Chris@1221
|
1173 }
|
Chris@1221
|
1174
|
Chris@1221
|
1175 void
|
Chris@1221
|
1176 Colour3DPlotRenderer::updateTimings(const RenderTimer &timer, int xPixelCount)
|
Chris@1221
|
1177 {
|
Chris@1221
|
1178 m_secondsPerXPixel = timer.secondsPerItem(xPixelCount);
|
Chris@1221
|
1179 m_secondsPerXPixelValid = (xPixelCount > 10);
|
Chris@1221
|
1180
|
Chris@1221
|
1181 #ifdef DEBUG_COLOUR_PLOT_REPAINT
|
Chris@1221
|
1182 SVDEBUG << "seconds per x pixel = " << m_secondsPerXPixel
|
Chris@1221
|
1183 << " (enough data? " << (m_secondsPerXPixelValid ? "yes" : "no")
|
Chris@1221
|
1184 << ")" << endl;
|
Chris@1221
|
1185 #endif
|
Chris@1221
|
1186
|
Chris@1097
|
1187 }
|
Chris@1097
|
1188
|
Chris@1079
|
1189 void
|
Chris@1095
|
1190 Colour3DPlotRenderer::recreateDrawBuffer(int w, int h)
|
Chris@1079
|
1191 {
|
Chris@1095
|
1192 m_drawBuffer = QImage(w, h, QImage::Format_Indexed8);
|
Chris@1079
|
1193
|
Chris@1095
|
1194 for (int pixel = 0; pixel < 256; ++pixel) {
|
Chris@1095
|
1195 m_drawBuffer.setColor
|
Chris@1095
|
1196 ((unsigned char)pixel,
|
Chris@1112
|
1197 m_params.colourScale.getColourForPixel
|
Chris@1112
|
1198 (pixel, m_params.colourRotation).rgb());
|
Chris@1079
|
1199 }
|
Chris@1079
|
1200
|
Chris@1079
|
1201 m_drawBuffer.fill(0);
|
Chris@1121
|
1202 m_magRanges.clear();
|
Chris@1079
|
1203 }
|
Chris@1079
|
1204
|
Chris@1095
|
1205 void
|
Chris@1095
|
1206 Colour3DPlotRenderer::clearDrawBuffer(int w, int h)
|
Chris@1095
|
1207 {
|
Chris@1095
|
1208 if (m_drawBuffer.width() < w || m_drawBuffer.height() != h) {
|
Chris@1095
|
1209 recreateDrawBuffer(w, h);
|
Chris@1095
|
1210 } else {
|
Chris@1095
|
1211 m_drawBuffer.fill(0);
|
Chris@1121
|
1212 m_magRanges.clear();
|
Chris@1095
|
1213 }
|
Chris@1095
|
1214 }
|
Chris@1079
|
1215
|
Chris@1139
|
1216 QRect
|
Chris@1139
|
1217 Colour3DPlotRenderer::findSimilarRegionExtents(QPoint p) const
|
Chris@1139
|
1218 {
|
Chris@1139
|
1219 QImage image = m_cache.getImage();
|
Chris@1139
|
1220 ImageRegionFinder finder;
|
Chris@1139
|
1221 QRect rect = finder.findRegionExtents(&image, p);
|
Chris@1139
|
1222 return rect;
|
Chris@1139
|
1223 }
|