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diff dsp/keydetection/GetKeyMode.cpp @ 298:255e431ae3d4

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* Key detector: when returning key strengths, use the peak value of the three underlying chromagram correlations (from 36-bin chromagram) corresponding to each key, instead of the mean. Rationale: This is the same method as used when returning the key value, and it's nice to have the same results in both returned value and plot. The peak performed better than the sum with a simple test set of triads, so it seems reasonable to change the plot to match the key output rather than the other way around. * FFT: kiss_fftr returns only the non-conjugate bins, synthesise the rest rather than leaving them (perhaps dangerously) undefined. Fixes an uninitialised data error in chromagram that could cause garbage results from key detector. * Constant Q: remove precalculated values again, I reckon they're not proving such a good tradeoff.
author Chris Cannam <c.cannam@qmul.ac.uk>
date Fri, 05 Jun 2009 15:12:39 +0000
parents 5e125f030287
children 715f779d0b4f
line wrap: on
line diff
--- a/dsp/keydetection/GetKeyMode.cpp	Tue Jun 02 11:25:58 2009 +0000
+++ b/dsp/keydetection/GetKeyMode.cpp	Fri Jun 05 15:12:39 2009 +0000
@@ -174,13 +174,13 @@
     // Added 21.11.07 by Chris Sutton based on debugging with Katy
     // Noland + comparison with Matlab equivalent.
     MathUtilities::circShift( m_ChrPointer, m_BPO, 1);
-
 /*
-  std::cout << "raw chroma: ";
-  for (int ii = 0; ii < m_BPO; ++ii) {
-  std::cout << m_ChrPointer[ii] << " ";
-  }
-  std::cout << std::endl;
+    std::cout << "raw chroma: ";
+    for (int ii = 0; ii < m_BPO; ++ii) {
+      if (ii % (m_BPO/12) == 0) std::cout << "\n";
+        std::cout << m_ChrPointer[ii] << " ";
+    }
+    std::cout << std::endl;
 */
     // populate hpcp values;
     int cbidx;
@@ -232,13 +232,27 @@
 
     for( k = 0; k < m_BPO*2; k++ )
     {
-        m_keyStrengths[k/(m_BPO/12)] += m_Keys[k];
+        int idx = k / (m_BPO/12);
+        int rem = k % (m_BPO/12);
+        if (rem == 0 || m_Keys[k] > m_keyStrengths[idx]) {
+            m_keyStrengths[idx] = m_Keys[k];
+        }
+
+//        m_keyStrengths[k/(m_BPO/12)] += m_Keys[k];
     }
 
 /*
   std::cout << "raw keys: ";
   for (int ii = 0; ii < 2*m_BPO; ++ii) {
-  std::cout << m_Keys[ii] << " ";
+      if (ii % (m_BPO/12) == 0) std::cout << "\n";
+      std::cout << m_Keys[ii] << " ";
+  }
+  std::cout << std::endl;
+
+  std::cout << "key strengths: ";
+  for (int ii = 0; ii < 24; ++ii) {
+      if (ii % 6 == 0) std::cout << "\n";
+      std::cout << m_keyStrengths[ii] << " ";
   }
   std::cout << std::endl;
 */
@@ -246,7 +260,7 @@
     // '1 +' because we number keys 1-24, not 0-23.
     key = 1 + (int)ceil( (double)MathUtilities::getMax( m_Keys, 2* m_BPO, &dummy )/3 );
 
-//	std::cout << "key pre-sorting: " << key << std::endl;
+//    std::cout << "key pre-sorting: " << key << std::endl;
 
 
     //Median filtering
@@ -285,11 +299,15 @@
     int sortlength = m_MedianBufferFilling;
     int midpoint = (int)ceil((double)sortlength/2);
 
+//  std::cout << "midpoint = " << midpoint << endl;
+
     if( midpoint <= 0 )
         midpoint = 1;
 
     key = m_SortedBuffer[midpoint-1];
 
+// std::cout << "returning key = " << key << endl;
+
     return key;
 }