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improved readme
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@ -8,79 +8,51 @@ The soruce code of the main application is (see [`jkqtplotter_simpletest_impulse
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First the data columns for three x-y-curves are generated. One column of x-values with entries 0,1,2,...,254,255 (256 entries).
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First data for a curve is calculated and stored in `QVector<double`:
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```c++
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size_t columnX=ds->addLinearColumn(256, 0, 255, "x");
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QVector<double> X, Y;
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for (int i=0; i<Ndata; i++) {
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const double xx=double(i)/double(Ndata)*6.0*M_PI;
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X << xx;
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Y << cos(xx)*exp(-xx/10.0);
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}
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```
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And three columns with 256 entries each, which will be filled with the R-, G- and B-histograms of an image `example.bmp`:
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... and finally the data is copied into the datastore
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```c++
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size_t columnR=ds->addColumn(256, "historam_R");
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size_t columnG=ds->addColumn(256, "historam_G");
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size_t columnB=ds->addColumn(256, "historam_B");
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size_t columnX=ds->addCopiedColumn(X, "x");
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size_t columnY=ds->addCopiedColumn(Y, "y");
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```
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In this example we will access the data in the internal datastore directly. This access is possible through objects of type JKQTPcolumn, which is a proxy to the data in one of the columns in a `JKQTdatastore`:
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Now an impulse graph object is generated and added to the plot:
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```c++
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JKQTPcolumn cG=ds->getColumn(columnG);
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JKQTPcolumn cR=ds->getColumn(columnR);
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JKQTPcolumn cB=ds->getColumn(columnB);
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JKQTPimpulsesVerticalGraph* graph=new JKQTPimpulsesVerticalGraph(&plot);
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graph->set_xColumn(columnX);
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graph->set_yColumn(columnY);
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graph->set_lineWidth(2);
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graph->set_color(QColor("red"));
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graph->set_title(QObject::tr("$\\cos(x)\\cdot\\exp(-x/10)$"));
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plot.addGraph(graph);
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```
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In order to calculate the histograms, first all entries in the columns are set to 0:
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```c++
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cR.setAll(0);
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cG.setAll(0);
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cB.setAll(0);
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```
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Finally the histogram is calculated:
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```c++
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QImage image(":/example.bmp");
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for (int y=0; y<image.height(); y++) {
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for (int x=0; x<image.width(); x++) {
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QRgb pix=image.pixel(x,y);
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cR.incValue(qRed(pix), 1);
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cG.incValue(qGreen(pix), 1);
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cB.incValue(qBlue(pix), 1);
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}
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}
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cR.scale(100.0/static_cast<double>(image.width()*image.height()));
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cG.scale(100.0/static_cast<double>(image.width()*image.height()));
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cB.scale(100.0/static_cast<double>(image.width()*image.height()));
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```
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Finally three `JKQTPfilledCurveXGraph` objects are generated and added to the plot (here we show the code for the R-channel only):
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```c++
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JKQTPfilledCurveXGraph* graphR=new JKQTPfilledCurveXGraph(&plot);
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// set graph titles
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graphR->set_title("R-channel");
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// set graph colors (lines: non-transparent, fill: semi-transparent
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QColor col;
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col=QColor("red"); graphR->set_color(col);
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col.setAlphaF(0.25); graphR->set_fillColor(col);
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// set data
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graphR->set_xColumn(columnX); graphR->set_yColumn(columnR);
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// add the graphs to the plot, so they are actually displayed
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plot.addGraph(graphR);
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```
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The result looks like this:
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![jkqtplotter_simpletest_impulsesplot](https://raw.githubusercontent.com/jkriege2/JKQtPlotter/master/screenshots/jkqtplotter_simpletest_impulsesplot.png)
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There is an alternative class `JKQTPimpulsesHorizontalGraph` which draws horizontal impulse plots:
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```c++
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JKQTPimpulsesHorizontalGraph* graph=new JKQTPimpulsesHorizontalGraph(&plot);
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graph->set_yColumn(columnX);
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graph->set_xColumn(columnY);
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graph->set_lineWidth(2);
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graph->set_color(QColor("blue"));
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graph->set_title(QObject::tr("$\\cos(x)\\cdot\\exp(-x/10)$"));
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```
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This code snippet results in a plot like this:
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![jkqtplotter_simpletest_impulsesplot](https://raw.githubusercontent.com/jkriege2/JKQtPlotter/master/screenshots/jkqtplotter_simpletest_impulsesplot_horizontal.png)
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[Back to JKQTPlotter main page](https://github.com/jkriege2/JKQtPlotter/)
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