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113 lines
6.1 KiB
Markdown
113 lines
6.1 KiB
Markdown
# Example (JKQTPlotter): Scatter Graph with Parametrized Symbols/Colors {#JKQTPlotterParamScatter}
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This project (see `./examples/simpletest_paramscatterplot/`) demonstrates the capabilities of `JKQTPXYParametrizedScatterGraph`. This graph class plots symbol&line-graphs, juts like [`JKQTPXYLineGraph`](https://github.com/jkriege2/JKQtPlotter/tree/master/examples/simpletest_symbols_and_styles/) and in addition modifies several properties of each plot point by data from an additional column. These properties can be modified:
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- symbol size
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- symbol type
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- symbol/line color
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- line width
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The source code of the main application can be found in [`jkqtplotter_simpletest_paramscatterplot.cpp`](https://github.com/jkriege2/JKQtPlotter/tree/master/examples/simpletest_paramscatterplot/jkqtplotter_simpletest_paramscatterplot.cpp). First, several datasets are generated and added to the internal datastore. the resulting datatable looks like this:
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![jkqtplotter_simpletest_paramscatterplot](https://raw.githubusercontent.com/jkriege2/JKQtPlotter/master/screenshots/jkqtplotter_simpletest_paramscatterplot_datatable.png)
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Then several plots are added that modify different properties.
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The simplest case is to modify the symbol type. Simply set the property `symbolColumn` with `graph1->setSymbolColumn(columnP)` to a data column. The values in the data column will be cast to an integer and then will be translated to `JKQTPGraphSymbols`. If the numbers are larger than the available symbol types in `JKQTPGraphSymbols`, the graph will cycle through the available symbols (via a modulo-operation with the max. symbol count!).
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```.cpp
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JKQTPXYParametrizedScatterGraph* graph1=new JKQTPXYParametrizedScatterGraph(&plot);
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graph1->setXColumn(columnX);
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graph1->setYColumn(columnY1);
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graph1->setSymbolColumn(columnP);
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graph1->setDrawLine(true);
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graph1->setColor(QColor("blueviolet"));
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graph1->setTitle("1: symbol type");
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plot.addGraph(graph1);
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```
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The next two code snippets show how to modify the size of the symbols and the line width of the lines, connecting the symbols (ensure to set `graph6->setDrawLine(true)`, because otherwise no line will be drawn). The principle is the same as above, but here you need to set the properties `sizeColumn` for the symbol size and `linewidthColumn` for the line width. All values in the line width or symbol size columns are interpreted as sizes in dtp points (pt)!
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```.cpp
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// symbol size
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JKQTPXYParametrizedScatterGraph* graph3=new JKQTPXYParametrizedScatterGraph(&plot);
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graph3->setXColumn(columnX);
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graph3->setYColumn(columnY3);
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graph3->setSizeColumn(columnS);
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graph3->setSymbol(JKQTPFilledCircle);
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graph3->setDrawLine(true);
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graph3->setTitle("3: symbol size");
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plot.addGraph(graph3);
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// line width
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JKQTPXYParametrizedScatterGraph* graph6=new JKQTPXYParametrizedScatterGraph(&plot);
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graph6->setXColumn(columnX);
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graph6->setYColumn(columnY6);
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graph6->setLinewidthColumn(columnLW);
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graph6->setDrawLine(true);
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graph6->setSymbol(JKQTPNoSymbol);
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graph6->setTitle("6: line width");
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plot.addGraph(graph6);
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```
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Finally you can set the color of each symbol, based on data in the column `colorColumn`. Here two possibilities exist: First you can store the RGB(A) value for each datapoint explicitly. For this, you first need to create the data in the column, using the Qt-function [`qRgb()`](http://doc.qt.io/qt-5/qcolor.html#qRgb) or [`qRgba()`}(http://doc.qt.io/qt-5/qcolor.html#qRgba):
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```.cpp
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QVector<double> RGB;
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const int Ndata=10; // number of plot points in each curve
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for (int i=0; i<Ndata; i++) {
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const double x=double(i)/double(Ndata)*2.0*M_PI;
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RGB<<double(qRgb(double(i)/double(Ndata)*255,0,255-double(i)/double(Ndata)*255));
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}
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size_t columnRGB=ds->addCopiedColumn(RGB, "rgb");
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```.cpp
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Basically the data points in a RGB(A)-column will be interpreted by castig them to [`QRgb`](http://doc.qt.io/qt-5/qcolor.html#QRgb-typedef).
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Now you can add the graph. In order to interpret the color column as RGB(A)-values, ensure to set `graph4->setColorColumnContainsRGB(true)`:
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```.cpp
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JKQTPXYParametrizedScatterGraph* graph4=new JKQTPXYParametrizedScatterGraph(&plot);
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graph4->setXColumn(columnX);
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graph4->setYColumn(columnY4);
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graph4->setColorColumn(columnRGB);
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graph4->setColorColumnContainsRGB(true);
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graph4->setDrawLine(true);
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graph4->setSymbol(JKQTPFilledDownTriangle);
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graph4->setTitle("4: RGB-color");
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plot.addGraph(graph4);
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```
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The second variant for setting the color of each datapoint is by mapping the values in the column to a color palette (`JKQTPMathImageRYGB` in this example). For this you simply need to define the color coumn and the palette to use. By default, the color palette spans the full range of values in `colorColumn`:
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```.cpp
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JKQTPXYParametrizedScatterGraph* graph2=new JKQTPXYParametrizedScatterGraph(&plot);
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graph2->setXColumn(columnX);
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graph2->setYColumn(columnY2);
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graph2->setColorColumn(columnC);
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graph2->setPalette(JKQTPMathImageRYGB);
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graph2->setSymbol(JKQTPFilledRect);
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graph2->setDrawLine(true);
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graph2->setTitle("2: color");
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graph2->getColorBarRightAxis()->setAxisLabel("color scale for graph2");
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plot.addGraph(graph2);
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```
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Note: If you want to set the range manually, use `ste_imageMin()` and `setImageMax()` after setting `setAutoImageRange(false)`.
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Note also that it is possible to combine any of parametrizations above in a single graph, by setting two or more columns:
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```.cpp
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JKQTPXYParametrizedScatterGraph* graph5=new JKQTPXYParametrizedScatterGraph(&plot);
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graph5->setXColumn(columnX);
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graph5->setYColumn(columnY5);
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graph5->setColorColumn(columnC);
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graph5->setSizeColumn(columnS);
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graph5->setPalette(JKQTPMathImageBLUEYELLOW);
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graph5->setDrawLine(true);
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graph5->setTitle("5: color+size");
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graph5->getColorBarRightAxis()->setAxisLabel("color scale for graph5");
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plot.addGraph(graph5);
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```
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The full test appication combines all these variants and the result looks like this:
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![jkqtplotter_simpletest_paramscatterplot](https://raw.githubusercontent.com/jkriege2/JKQtPlotter/master/screenshots/jkqtplotter_simpletest_paramscatterplot.png)
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