Mercurial > hg > svcore

diff data/model/test/TestFFTModel.h @ 1088:5fab8e4f5f19

Find changesets by keywords (author, files, the commit message), revision number or hash, or revset expression.
Start making the FFT model tests into proper tests
author Chris Cannam
date Fri, 12 Jun 2015 12:41:19 +0100
parents 9f4505ac9072
children 655cd4e68e9a 1517d4c60e88
line wrap: on
line diff
--- a/data/model/test/TestFFTModel.h	Thu Jun 11 09:09:11 2015 +0100
+++ b/data/model/test/TestFFTModel.h	Fri Jun 12 12:41:19 2015 +0100
@@ -26,6 +26,7 @@
 #include <QDir>
 
 #include <iostream>
+#include <complex>
 
 using namespace std;
 
@@ -33,26 +34,85 @@
 {
     Q_OBJECT
 
+private:
+    void test(DenseTimeValueModel *model,
+              WindowType window, int windowSize, int windowIncrement, int fftSize,
+              int columnNo, vector<vector<complex<float>>> expectedValues,
+              int expectedWidth) {
+        for (int ch = 0; in_range_for(expectedValues, ch); ++ch) {
+            for (int polar = 0; polar <= 1; ++polar) {
+                FFTModel fftm(model, ch, window, windowSize, windowIncrement,
+                              fftSize, bool(polar));
+                QCOMPARE(fftm.getWidth(), expectedWidth);
+                int hs1 = fftSize/2 + 1;
+                QCOMPARE(fftm.getHeight(), hs1);
+                vector<float> reals(hs1 + 1, 0.f);
+                vector<float> imags(hs1 + 1, 0.f);
+                reals[hs1] = 999.f; // overrun guards
+                imags[hs1] = 999.f;
+                fftm.getValuesAt(columnNo, &reals[0], &imags[0]);
+                for (int i = 0; i < hs1; ++i) {
+                    float eRe = expectedValues[ch][i].real();
+                    float eIm = expectedValues[ch][i].imag();
+                    if (reals[i] != eRe || imags[i] != eIm) {
+                        cerr << "ERROR: output is not as expected for column "
+                             << i << " in channel " << ch << " (polar store = "
+                             << polar << ")" << endl;
+                        cerr << "expected : ";
+                        for (int j = 0; j < hs1; ++j) {
+                            cerr << expectedValues[ch][j] << " ";
+                        }
+                        cerr << "\nactual   : ";
+                        for (int j = 0; j < hs1; ++j) {
+                            cerr << complex<float>(reals[j], imags[j]) << " ";
+                        }
+                        cerr << endl;
+                    }
+                    QCOMPARE(reals[i], eRe);
+                    QCOMPARE(imags[i], eIm);
+                }
+                QCOMPARE(reals[hs1], 999.f);
+                QCOMPARE(imags[hs1], 999.f);
+            }
+        }
+    }
+    
 private slots:
 
-    void example() {
-	MockWaveModel mwm({ DC }, 16);
-	FFTModel fftm(&mwm, 0, RectangularWindow, 8, 8, 8, false);
-	float reals[6], imags[6];
-	reals[5] = 999.f; // overrun guards
-	imags[5] = 999.f;
-	fftm.getValuesAt(0, reals, imags);
-	cerr << "reals: " << reals[0] << "," << reals[1] << "," << reals[2] << "," << reals[3] << "," << reals[4] <<  endl;
-	cerr << "imags: " << imags[0] << "," << imags[1] << "," << imags[2] << "," << imags[3] << "," << imags[4] <<  endl;
-	QCOMPARE(reals[0], 4.f); // rectangular window scales by 0.5
-	QCOMPARE(reals[1], 0.f);
-	QCOMPARE(reals[2], 0.f);
-	QCOMPARE(reals[3], 0.f);
-	QCOMPARE(reals[4], 0.f);
-	QCOMPARE(reals[5], 999.f);
-	QCOMPARE(imags[5], 999.f);
-	imags[5] = 0.f;
-	COMPARE_ALL_TO_F(imags, 0.f);
+    // NB. FFTModel columns are centred on the sample frame, and in
+    // particular this means column 0 is centred at sample 0 (i.e. it
+    // contains only half the window-size worth of real samples, the
+    // others are 0-valued from before the origin).  Generally in
+    // these tests we are padding our signal with half a window of
+    // zeros, in order that the result for column 0 is all zeros
+    // (rather than something with a step in it that is harder to
+    // reason about the FFT of) and the results for subsequent columns
+    // are those of our expected signal.
+
+    void dc_simple_rect() {
+	MockWaveModel mwm({ DC }, 16, 4);
+        test(&mwm, RectangularWindow, 8, 8, 8, 0,
+             { { {}, {}, {}, {}, {} } }, 4);
+        test(&mwm, RectangularWindow, 8, 8, 8, 1,
+             { { { 4.f, 0.f }, {}, {}, {}, {} } }, 4);
+        test(&mwm, RectangularWindow, 8, 8, 8, 2,
+             { { { 4.f, 0.f }, {}, {}, {}, {} } }, 4);
+        test(&mwm, RectangularWindow, 8, 8, 8, 3,
+             { { { }, {}, {}, {}, {} } }, 4);
+    }
+
+    void dc_simple_hann() {
+        // The Hann window function is a simple sinusoid with period
+        // equal to twice the window size, and it halves the DC energy
+	MockWaveModel mwm({ DC }, 16, 4);
+        test(&mwm, HanningWindow, 8, 8, 8, 0,
+             { { {}, {}, {}, {}, {} } }, 4);
+        test(&mwm, HanningWindow, 8, 8, 8, 1,
+             { { { 4.f, 0.f }, { 2.f, 0.f }, {}, {}, {} } }, 4);
+        test(&mwm, HanningWindow, 8, 8, 8, 2,
+             { { { 4.f, 0.f }, { 2.f, 0.f }, {}, {}, {} } }, 4);
+        test(&mwm, HanningWindow, 8, 8, 8, 3,
+             { { { }, {}, {}, {}, {} } }, 4);
     }
     
 };