JKQtPlotter/examples/datastore_iterators

Tutorial (JKQTPDatastore): Iterator-Based usage of JKQTPDatastore

[JKQTPlotterBasicJKQTPDatastore]: @ref JKQTPlotterBasicJKQTPDatastore "Basic Usage of JKQTPDatastore" [JKQTPlotterBasicJKQTPDatastoreIterators]: @ref JKQTPlotterBasicJKQTPDatastoreIterators "Iterator-Based usage of JKQTPDatastore" [JKQTPlotterBasicJKQTPDatastoreStatistics]: @ref JKQTPlotterBasicJKQTPDatastoreStatistics "Advanced 1-Dimensional Statistics with JKQTPDatastore" [JKQTPlotterBasicJKQTPDatastoreRegression]: @ref JKQTPlotterBasicJKQTPDatastoreRegression "Regression Analysis (with the Statistics Library)" [JKQTPlotterBasicJKQTPDatastoreStatisticsGroupedStat]: @ref JKQTPlotterBasicJKQTPDatastoreStatisticsGroupedStat "1-Dimensional Group Statistics with JKQTPDatastore" [JKQTPlotterBasicJKQTPDatastoreStatistics2D]: @ref JKQTPlotterBasicJKQTPDatastoreStatistics2D "Advanced 2-Dimensional Statistics with JKQTPDatastore" [statisticslibrary]: @ref jkqtptools_math_statistics "JKQTPlotter Statistics Library"

This tutorial project (see ./examples/datastore_iterators/) explains how to use the iterator-based interface to JKQTPDatastore.

Note that there are additional tutorial explaining other aspects of data mangement in JKQTPDatastore:

• [JKQTPlotterBasicJKQTPDatastore]
• [JKQTPlotterBasicJKQTPDatastoreIterators]
• [JKQTPlotterBasicJKQTPDatastoreStatistics]
• [JKQTPlotterBasicJKQTPDatastoreRegression]
• [JKQTPlotterBasicJKQTPDatastoreStatisticsGroupedStat]
• [JKQTPlotterBasicJKQTPDatastoreStatistics2D]

[TOC]

The source code of the main application can be found in datastore_iterators.cpp. This tutorial cites parts of this code to demonstrate different ways of working with JKQTPDatastore's iterator-interface.

In every code-segment below, we will use these two declarations from the code to access the internal datastore of the JKQTPlotter instance:

    // 1. create a plotter window and get a pointer to the internal datastore (for convenience)
    JKQTPlotter plot;
    JKQTPDatastore* datastore=plot.getDatastore();

In the example [JKQTPlotterBasicJKQTPDatastore] we discussed how to copy data from external container into and explicitly access data in columns inside a JKQTPDatastore. This tutorial explains how to use the iterator interface of JKQTPDatastore to access the data, build columns and also interact with algorithms from the C++ standard template library (or other iterator-based libraries, like e.g. boost). Also have a look at the [statisticslibrary] and [JKQTPlotterBasicJKQTPDatastoreStatistics], as these also use the iterator-interface of JKQTPDatastore.

Iterator-based Column Data Access To Existing Rows

In other tutorials we used e.g. JKQTPDatastore::set() to set values in data columns. Using this scheme, you can write code like shown below to draw a cose curve:

    size_t XCol=datastore->addLinearColumn(50, 0, 4.0*M_PI, "cos curve: x-data");
    size_t YCol=datastore->addColumn(datastore->getRows(XCol), "cos curve: y-data");
    for (size_t i=0; i<datastore->getRows(XCol); i++) {
        datastore->set(YCol, i, cos(datastore->get(XCol, i)));
    }

Here we added two columns with 50 entries. XCol contains linearly spaced values between 0 and 2*pi and YCol contains 50 uninitialized values. Then we iterate an index i over all these items (datastore->getRows(XCol) returns the rows in a column, i.e. 50 in the example above) and used JKQTPDatastore::set() to store the calculated values in the two columns. The current x-values is read from XCol using JKQTPDatastore::get(). The resulting plot looks like this:

The same loop can be written using iterators:

    size_t XCol=datastore->addLinearColumn(50, 0, 4.0*M_PI, "cos curve: x-data");
    size_t YCol=datastore->addColumn(datastore->getRows(XCol), "cos curve: y-data");
    auto itY=datastore->begin(YCol);
    for (auto itX=datastore->begin(XCol); itX!=datastore->end(XCol); ++itX, ++itY) {
        *itY=cos(*itX);
    }

Back-Inserter for Columns

Above we used two previously sized columns and accessed (read and writing) existing rows in them. But JKQTPDatastore also provides an iterator comparable to std::back_inserter, which allows to add rows at the end of an existing (here initially empty) column:

    size_t XCol=datastore->addColumn("cos curve: x-data");
    size_t YCol=datastore->addColumn("cos curve: y-data");
    auto biXCol=datastore->backInserter(XCol);
    auto biYCol=datastore->backInserter(YCol);
    for (double x=0; x<4.0*M_PI; x+=4.0*M_PI/50.0) {
        *++biXCol=x;
        *++biYCol=cos(x);
    }

Using C++ STL algorithms

You can write this a bit more compact, if you use JKQTPDatastore::addLinearColumn() and the C++ STL-algorithm std::transform():

    size_t XCol=datastore->addLinearColumn(50, 0, 4.0*M_PI, "cos curve: x-data");
    size_t YCol=datastore->addColumn("cos curve: y-data");
    std::transform(datastore->begin(XCol), datastore->end(XCol), datastore->backInserter(YCol), &cos);

Of course you can now also interface other algorithms, like e.g. std::sort():

    std::sort(datastore->begin(colY), datastore->end(colY));

With this line of code, the YCol is sorted in ascending order and the plot becomes:

Another example would be to replace all value y<-0.5 with the value 1.0 using std::replace_if():

    std::replace_if(datastore->begin(YCol), datastore->end(YCol), [](double v) { return v<-0.5; }, 1.0);

Finally also the erase-remove idiom (e.g. known from std::vector) is supported:

    datastore->eraseFromColumn(std::remove_if(datastore->begin(YCol), datastore->end(YCol), [](double v) { return v<0; }), datastore->end(YCol));

Special Properties of the JKQTPDatastore-Iterators

Note that the iterator classes of JKQTPDatastore (namely JKQTPColumnIterator and JKQTPColumnConstIterator) provide additional function to access the properties of the data-column row they point to:

• JKQTPColumnIterator::isValid() checks whether the iterator points to a valid row in a column. it is false e.g. for an iterator returned by JKQTPDatastore::end()
• JKQTPColumnIterator::getPosition() returns the row/position inside the column the iterator points to
• JKQTPColumnIterator::getImagePosition() / JKQTPColumnIterator::getImagePositionX() / JKQTPColumnIterator::getImagePositionY() return the x-/y-location of the pointed-to pixel in an image column
• JKQTPColumnIterator::getImageColumns() / JKQTPColumnIterator::getImageRows() return the width/height of the image represented by the image column (the pointed-to pixel is part of)