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annotate garage-resampler/Resampler.h @ 18:23a1bf117b3a

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Add test sweep
author Chris Cannam
date Fri, 18 Oct 2013 15:47:14 +0100
parents 66abf86c864d
children
rev   line source
Chris@0 1 /* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */
Chris@0 2
Chris@0 3 #ifndef RESAMPLER_H
Chris@0 4 #define RESAMPLER_H
Chris@0 5
Chris@0 6 #include <vector>
Chris@0 7
Chris@0 8 class Resampler
Chris@0 9 {
Chris@0 10 public:
Chris@0 11 /**
Chris@0 12 * Construct a Resampler to resample from sourceRate to
Chris@0 13 * targetRate.
Chris@0 14 */
Chris@0 15 Resampler(int sourceRate, int targetRate);
Chris@16 16
Chris@16 17 /**
Chris@16 18 * Construct a Resampler to resample from sourceRate to
Chris@16 19 * targetRate, using the given filter parameters.
Chris@16 20 */
Chris@16 21 Resampler(int sourceRate, int targetRate,
Chris@16 22 double snr, double bandwidth);
Chris@16 23
Chris@0 24 virtual ~Resampler();
Chris@0 25
Chris@0 26 /**
Chris@0 27 * Read n input samples from src and write resampled data to
Chris@0 28 * dst. The return value is the number of samples written, which
Chris@0 29 * will be no more than ceil((n * targetRate) / sourceRate). The
Chris@0 30 * caller must ensure the dst buffer has enough space for the
Chris@0 31 * samples returned.
Chris@0 32 */
Chris@0 33 int process(const double *src, double *dst, int n);
Chris@0 34
Chris@0 35 /**
Chris@0 36 * Return the number of samples of latency at the output due by
Chris@0 37 * the filter. (That is, the output will be delayed by this number
Chris@0 38 * of samples relative to the input.)
Chris@0 39 */
Chris@0 40 int getLatency() const { return m_latency; }
Chris@0 41
Chris@1 42 /**
Chris@1 43 * Carry out a one-off resample of a single block of n
Chris@1 44 * samples. The output is latency-compensated.
Chris@1 45 */
Chris@1 46 static std::vector<double> resample
Chris@1 47 (int sourceRate, int targetRate, const double *data, int n);
Chris@1 48
Chris@0 49 private:
Chris@0 50 int m_sourceRate;
Chris@0 51 int m_targetRate;
Chris@0 52 int m_gcd;
Chris@0 53 int m_filterLength;
Chris@0 54 int m_bufferLength;
Chris@0 55 int m_latency;
Chris@0 56
Chris@0 57 struct Phase {
Chris@0 58 int nextPhase;
Chris@0 59 std::vector<double> filter;
Chris@0 60 int drop;
Chris@0 61 };
Chris@0 62
Chris@0 63 Phase *m_phaseData;
Chris@0 64 int m_phase;
Chris@2 65 std::vector<double> m_buffer;
Chris@8 66 int m_bufferOrigin;
Chris@0 67
Chris@16 68 void initialise(double, double);
Chris@4 69 double reconstructOne();
Chris@0 70 };
Chris@0 71
Chris@0 72 #endif
Chris@0 73