int main(int argc, char *argv[]) { // The data for the chart double data0[] = {100, 100, 100, 100, 100}; double data1[] = {90, 85, 85, 80, 70}; double data2[] = {80, 65, 65, 75, 45}; // The labels for the chart const char *labels[] = {"Population<*br*><*font=arial.ttf*>6 millions", "GDP<*br*><*font=arial.ttf*>120 billions", "Export<*br*><*font=arial.ttf*>25 billions", "Import<*br*><*font=arial.ttf*>24 billions", "Investments<*br*><*font=arial.ttf*>20 billions"}; // Create a PolarChart object of size 480 x 460 pixels. Set background color to silver, with 1 // pixel 3D border effect PolarChart *c = new PolarChart(480, 460, Chart::silverColor(), 0x000000, 1); // Add a title to the chart using 15pt Times Bold Italic font. The title text is white (ffffff) // on a deep green (008000) background c->addTitle("Economic Growth", "timesbi.ttf", 15, 0xffffff)->setBackground(0x008000); // Set plot area center at (240, 270), with 150 pixels radius c->setPlotArea(240, 270, 150); // Use 1 pixel width semi-transparent black (c0000000) lines as grid lines c->setGridColor(0xc0000000, 1, 0xc0000000, 1); // Add a legend box at top-center of plot area (240, 35) using horizontal layout. Use 10pt Arial // Bold font, with silver background and 1 pixel 3D border effect. LegendBox *b = c->addLegend(240, 35, false, "arialbd.ttf", 10); b->setAlignment(Chart::TopCenter); b->setBackground(Chart::silverColor(), Chart::Transparent, 1); // Add area layers of different colors to represent the data c->addAreaLayer(DoubleArray(data0, (int)(sizeof(data0) / sizeof(data0[0]))), 0xcc8880, "Year 2004"); c->addAreaLayer(DoubleArray(data1, (int)(sizeof(data1) / sizeof(data1[0]))), 0xffd080, "Year 1994"); c->addAreaLayer(DoubleArray(data2, (int)(sizeof(data2) / sizeof(data2[0]))), 0xa0bce0, "Year 1984"); // Set the labels to the angular axis as spokes. c->angularAxis()->setLabels(StringArray(labels, (int)(sizeof(labels) / sizeof(labels[0])))); // Set radial axis from 0 - 100 with a tick every 20 units c->radialAxis()->setLinearScale(0, 100, 20); // Just show the radial axis as a grid line. Hide the axis labels by setting the label color to // Transparent c->radialAxis()->setColors(0xc0000000, Chart::Transparent); // Output the chart c->makeChart("stackradar.png"); //free up resources delete c; return 0; }
int main(int argc, char *argv[]) { // Data for the chart double data[] = {9.4, 1.8, 2.1, 2.3, 3.5, 7.7, 8.8, 6.1, 5.0, 3.1, 6.0, 4.3, 5.1, 2.6, 1.5, 2.2, 5.1, 4.3, 4.0, 9.0, 1.7, 8.8, 9.9, 9.5}; double angles[] = {0, 15, 30, 45, 60, 75, 90, 105, 120, 135, 150, 165, 180, 195, 210, 225, 240, 255, 270, 285, 300, 315, 330, 345}; // Create a PolarChart object of size 460 x 460 pixels, with a silver background // and a 1 pixel 3D border PolarChart *c = new PolarChart(460, 460, Chart::silverColor(), 0x000000, 1); // Add a title to the chart at the top left corner using 15pts Arial Bold Italic // font. Use white text on deep blue background. c->addTitle("Polar Vector Chart Demonstration", "arialbi.ttf", 15, 0xffffff )->setBackground(0x000080); // Set plot area center at (230, 240) with radius 180 pixels and white background c->setPlotArea(230, 240, 180, 0xffffff); // Set the grid style to circular grid c->setGridStyle(false); // Set angular axis as 0 - 360, with a spoke every 30 units c->angularAxis()->setLinearScale(0, 360, 30); // Add sectors to the chart as sector zones int i; for(i = 0; i < sizeof(data) / sizeof(data[0]); ++i) { c->angularAxis()->addZone(angles[i], angles[i] + 15, 0, data[i], 0x33ff33, 0x008000); } // Add an Transparent invisible layer to ensure the axis is auto-scaled using the // data c->addLineLayer(DoubleArray(data, sizeof(data)/sizeof(data[0])), Chart::Transparent); // output the chart c->makeChart("rose.png"); //free up resources delete c; return 0; }
int main(int argc, char *argv[]) { // The data for the chart double data0[] = {5.1, 2.6, 1.5, 2.2, 5.1, 4.3, 4.0, 9.0, 1.7, 8.8, 9.9, 9.5, 9.4, 1.8, 2.1, 2.3, 3.5, 7.7, 8.8, 6.1, 5.0, 3.1, 6.0, 4.3}; double angles0[] = {0, 15, 30, 45, 60, 75, 90, 105, 120, 135, 150, 165, 180, 195, 210, 225, 240, 255, 270, 285, 300, 315, 330, 345}; double data1[] = {8.1, 2.5, 5, 5.2, 6.5, 8.5, 9, 7.6, 8.7, 6.4, 5.5, 5.4, 3.0, 8.7, 7.1, 8.8, 7.9, 2.2, 5.0, 4.0, 1.5, 7.5, 8.3, 9.0}; double angles1[] = {0, 15, 30, 45, 60, 75, 90, 105, 120, 135, 150, 165, 180, 195, 210, 225, 240, 255, 270, 285, 300, 315, 330, 345}; // Create a PolarChart object of size 460 x 460 pixels PolarChart *c = new PolarChart(460, 460); // Add a title to the chart at the top left corner using 15pt Arial Bold Italic font c->addTitle(Chart::TopLeft, "<*underline=2*>EM Field Strength", "arialbi.ttf", 15); // Set center of plot area at (230, 240) with radius 180 pixels c->setPlotArea(230, 240, 180); // Set the grid style to circular grid c->setGridStyle(false); // Add a legend box at the top right corner of the chart using 9pt Arial Bold font c->addLegend(459, 0, true, "arialbd.ttf", 9)->setAlignment(Chart::TopRight); // Set angular axis as 0 - 360, with a spoke every 30 units c->angularAxis()->setLinearScale(0, 360, 30); // Add a red (0xff9999) spline area layer to the chart using (data0, angles0) c->addSplineAreaLayer(DoubleArray(data0, (int)(sizeof(data0) / sizeof(data0[0]))), 0xff9999, "Above 100MHz")->setAngles(DoubleArray(angles0, (int)(sizeof(angles0) / sizeof(angles0[0]))) ); // Add a blue (0xff) spline line layer to the chart using (data1, angle1) PolarSplineLineLayer *layer1 = c->addSplineLineLayer(DoubleArray(data1, (int)(sizeof(data1) / sizeof(data1[0]))), 0x0000ff, "Below 100MHz"); layer1->setAngles(DoubleArray(angles1, (int)(sizeof(angles1) / sizeof(angles1[0])))); // Set the line width to 3 pixels layer1->setLineWidth(3); // Output the chart c->makeChart("polarspline.png"); //free up resources delete c; return 0; }
//雷达图 polar radar QWidget * Widget::addPolar() { // The data for the chart double data[] = {90, 60, 65, 75, 40}; // The labels for the chart const char *labels[] = {"Speed", "Reliability", "Comfort", "Safety", "Efficiency"}; // Create a PolarChart object of size 450 x 350 pixels PolarChart *c = new PolarChart(450, 350); // Use 1 pixel width semi-transparent black (c0000000) lines as grid lines c->setGridColor(0xc0000000, 1, 0xc0000000, 1); // Set center of plot area at (225, 185) with radius 150 pixels c->setPlotArea(225, 185, 150); // Add an area layer to the polar chart c->addAreaLayer(DoubleArray(data, (int)(sizeof(data) / sizeof(data[0]))), 0x9999ff); //Add a red (0xcc6666)添加一个 区域的边框 // line layer using the same data with 3 pixel line width to highlight the border of the area. c->addLineLayer(DoubleArray(data, (int)(sizeof(data) / sizeof(data[0]))), 0x6666cc )->setLineWidth(3); // Set the labels to the angular axis as spokes c->angularAxis()->setLabels(StringArray(labels, (int)(sizeof(labels) / sizeof(labels[0])))); // // Set radial axis from 0 - 100 with a tick every 20 units // c->radialAxis()->setLinearScale(0, 100, 20); // // Just show the radial axis as a grid line. Hide the axis labels by setting the label color to // // Transparent // c->radialAxis()->setColors(0xc0F0DD00);//, Chart::Transparent); // Set angular axis as 0 - 360, with a spoke every 30 units //c->angularAxis()->setLinearScale(0, 360, 30); // Output the chart c->makeChart("simpleradar.png"); QWidget * _widget= new QWidget(); QChartViewer * _v= new QChartViewer(_widget); _v->setChart(c); return _widget; }
int main(int argc, char *argv[]) { // The data for the chart double data0[] = {43, 89, 76, 64, 48, 18, 92, 68, 44, 79, 71, 85}; double angles0[] = {45, 96, 169, 258, 15, 30, 330, 260, 60, 75, 110, 140}; double data1[] = {50, 91, 26, 29, 80, 53, 62, 87, 19, 40}; double angles1[] = {230, 210, 240, 310, 179, 250, 244, 199, 89, 160}; double data2[] = {88, 65, 76, 49, 80, 53}; double angles2[] = {340, 310, 340, 210, 30, 300}; // The labels on the angular axis (spokes) const char *labels[] = {"North", "North\nEast", "East", "South\nEast", "South", "South\nWest", "West", "North\nWest"}; // Create a PolarChart object of size 460 x 460 pixels PolarChart *c = new PolarChart(460, 460); // Add a title to the chart at the top left corner using 15pts Arial Bold Italic // font c->addTitle(Chart::TopLeft, "<*underline=2*>Plants in Wonderland", "arialbi.ttf", 15); // Set center of plot area at (230, 240) with radius 180 pixels c->setPlotArea(230, 240, 180); // Use alternative light grey/dark grey sector background color c->setPlotAreaBg(0xdddddd, 0xeeeeee, false); // Set the grid style to circular grid c->setGridStyle(false); // Add a legend box at the top right corner of the chart using 9 pts Arial Bold // font c->addLegend(459, 0, true, "arialbd.ttf", 9)->setAlignment(Chart::TopRight); // Set angular axis as 0 - 360, either 8 spokes c->angularAxis()->setLinearScale(0, 360, StringArray(labels, sizeof(labels)/sizeof(labels[0]))); // Set the radial axis label format c->radialAxis()->setLabelFormat("{value} km"); // Add a blue (0xff) polar line layer to the chart using (data0, angle0) PolarLineLayer *layer0 = c->addLineLayer(DoubleArray(data0, sizeof(data0)/sizeof(data0[0])), 0x0000ff, "Immortal Weed"); layer0->setAngles(DoubleArray(angles0, sizeof(angles0)/sizeof(angles0[0]))); layer0->setLineWidth(0); layer0->setDataSymbol(Chart::TriangleSymbol, 11); // Add a red (0xff0000) polar line layer to the chart using (data1, angles1) PolarLineLayer *layer1 = c->addLineLayer(DoubleArray(data1, sizeof(data1)/sizeof(data1[0])), 0xff0000, "Precious Flower"); layer1->setAngles(DoubleArray(angles1, sizeof(angles1)/sizeof(angles1[0]))); // Disable the line by setting its width to 0, so only the symbols are visible layer1->setLineWidth(0); // Use a 11 pixel diamond data point symbol layer1->setDataSymbol(Chart::DiamondSymbol, 11); // Add a green (0x00ff00) polar line layer to the chart using (data2, angles2) PolarLineLayer *layer2 = c->addLineLayer(DoubleArray(data2, sizeof(data2)/sizeof(data2[0])), 0x00ff00, "Magical Tree"); layer2->setAngles(DoubleArray(angles2, sizeof(angles2)/sizeof(angles2[0]))); // Disable the line by setting its width to 0, so only the symbols are visible layer2->setLineWidth(0); // Use a 9 pixel square data point symbol layer2->setDataSymbol(Chart::SquareSymbol, 9); // output the chart c->makeChart("polarscatter.png"); //free up resources delete c; return 0; }