void test()
{
// create some data, f(x) = abs(5-(x-2))
FrequencyData fd;
FrequencyData::container& data = fd.data();
for (int i=-5; i<=5; i++)
data.push_back(FrequencyDatum(i+2, 5-abs(i)));
fd.analyze(); // recache after changing data
// verify peak()
FrequencyData::const_iterator max = fd.max();
unit_assert(max->x == 2);
unit_assert(max->y == 5.);
// verify stats
unit_assert(fd.mean() == 25./11);
unit_assert(fd.meanSquare() == 85./11);
unit_assert(fd.sumSquares() == 85.);
unit_assert_equal(fd.variance(), 85./11 - 25.*25/11/11, 1e-12);
// write out data
if (os_) *os_ << "Writing " << filename1 << endl;
fd.write(filename1, FrequencyData::Text);
// read into const FrequencyData
string filename2 = "FrequencyDataTest.output2.txt";
FrequencyData fd2(filename1, FrequencyData::Text);
// verify normalize()
fd2.normalize();
unit_assert(fd2.shift() == -2);
unit_assert(fd2.scale() == 1./5);
max = fd2.max();
unit_assert(max->x == 0);
unit_assert(max->y == 1.);
// verify transform(shift, scale)
fd2.transform(-fd2.shift(), 1./fd2.scale());
// verify read/write
if (os_) *os_ << "Writing " << filename2 << endl;
fd2.write(filename2, FrequencyData::Text);
diff(filename1, filename2);
// test subrange
string filename3 = "FrequencyDataTest.output3.txt";
FrequencyData fd3(fd2, fd2.data().begin(), fd2.max()); // copy first half
if (os_) *os_ << "Writing " << filename3 << endl;
fd3.write(filename3, FrequencyData::Text);
FrequencyData fd4(fd2, fd2.max(), fd2.data().end()); // copy second half
ofstream os(filename3.c_str(), ios::app);
fd4.write(os, FrequencyData::Text);
os.close();
diff(filename1, filename3);
// read/write binary, and metadata
fd.scanNumber(555);
fd.retentionTime(444);
fd.calibrationParameters(CalibrationParameters(1,1));
fd.observationDuration(666);
fd.noiseFloor(777);
string filename4a = "FrequencyDataTest.output4a.txt";
if (os_) *os_ << "Writing " << filename4a << endl;
fd.write(filename4a, FrequencyData::Text);
string filenameBinary1 = "FrequencyDataTest.output1.cfd";
if (os_) *os_ << "Writing " << filenameBinary1 << endl;
fd.write(filenameBinary1);
FrequencyData fd5(filenameBinary1);
unit_assert(fd5.observationDuration() == 666);
fd5.observationDuration(fd.observationDurationEstimatedFromData());
unit_assert(fd5.scanNumber() == 555);
unit_assert(fd5.retentionTime() == 444);
unit_assert(fd5.observationDuration() == 1);
unit_assert(fd5.noiseFloor() == 777);
if (os_) *os_ << "Calibration: " << fd5.calibrationParameters().A << " " << fd5.calibrationParameters().B << endl;
string filename4b = "FrequencyDataTest.output4b.txt";
if (os_) *os_ << "Writing " << filename4b << endl;
fd5.write(filename4b, FrequencyData::Text);
diff(filename4a, filename4b);
fd.calibrationParameters(CalibrationParameters());
// test window
FrequencyData window1(fd, data.begin()+1, 2);
FrequencyData window2(fd, fd.max(), 1);
FrequencyData window3(fd, data.end()-2, 2);
string filename5 = "FrequencyDataTest.output5.txt";
if (os_) *os_ << "Writing " << filename5 << endl;
ofstream os5(filename5.c_str());
window1.write(os5, FrequencyData::Text);
window2.write(os5, FrequencyData::Text);
window3.write(os5, FrequencyData::Text);
os5.close();
diff(filename1, filename5);
}
