Mercurial > hg > svcore
view base/MovingMedian.h @ 1799:8c34ecba70df
Compatibility with Qt 5.2 (for the Ubuntu 14.04 build)
author | Chris Cannam |
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date | Thu, 10 Oct 2019 09:12:12 +0100 |
parents | f04038819c26 |
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/* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */ /* Sonic Visualiser An audio file viewer and annotation editor. Centre for Digital Music, Queen Mary, University of London. This file copyright 2007-2015 Particular Programs Ltd, copyright 2018 Queen Mary University of London. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. See the file COPYING included with this distribution for more information. */ #ifndef SV_MOVING_MEDIAN_H #define SV_MOVING_MEDIAN_H #include <bqvec/Allocators.h> #include <bqvec/VectorOps.h> #include <algorithm> #include <iostream> #include <stdexcept> /** * Obtain the median (or other percentile) of a moving window across a * time series. Construct the MovingMedian object, then push() each * new value in the time series and get() the median of the most * recent window. The size of the window, and the percentile * calculated, can both be changed after construction. * * Note that for even-sized windows, the "median" is taken to be the * value at the start of the second half when sorted, e.g. for size 4, * the element at index 2 (zero-based) in the sorted window. * * Not thread-safe. */ template <typename T> class MovingMedian { public: MovingMedian(int size, double percentile = 50.f) : m_size(size), m_percentile(percentile) { if (size < 1) throw std::logic_error("size must be >= 1"); m_frame = breakfastquay::allocate_and_zero<T>(size); m_sorted = breakfastquay::allocate_and_zero<T>(size); calculateIndex(); } ~MovingMedian() { breakfastquay::deallocate(m_frame); breakfastquay::deallocate(m_sorted); } MovingMedian(const MovingMedian &) =delete; MovingMedian &operator=(const MovingMedian &) =delete; void setPercentile(double p) { m_percentile = p; calculateIndex(); } void push(T value) { if (value != value) { std::cerr << "WARNING: MovingMedian: NaN encountered" << std::endl; value = T(); } drop(m_frame[0]); breakfastquay::v_move(m_frame, m_frame+1, m_size-1); m_frame[m_size-1] = value; put(value); } T get() const { return m_sorted[m_index]; } int size() const { return m_size; } void reset() { breakfastquay::v_zero(m_frame, m_size); breakfastquay::v_zero(m_sorted, m_size); } void resize(int target) { if (target == m_size) return; int diff = std::abs(target - m_size); if (target > m_size) { // grow // we don't want to change the median, so fill spaces with it T fillValue = get(); m_frame = breakfastquay::reallocate(m_frame, m_size, target); breakfastquay::v_move(m_frame + diff, m_frame, m_size); breakfastquay::v_set(m_frame, fillValue, diff); m_sorted = breakfastquay::reallocate(m_sorted, m_size, target); for (int sz = m_size + 1; sz <= target; ++sz) { put(m_sorted, sz, fillValue); } } else { // shrink for (int i = 0; i < diff; ++i) { drop(m_sorted, m_size - i, m_frame[i]); } m_sorted = breakfastquay::reallocate(m_sorted, m_size, target); breakfastquay::v_move(m_frame, m_frame + diff, target); m_frame = breakfastquay::reallocate(m_frame, m_size, target); } m_size = target; calculateIndex(); } void checkIntegrity() const { check(); } private: int m_size; double m_percentile; int m_index; T *m_frame; T *m_sorted; void calculateIndex() { m_index = int((m_size * m_percentile) / 100.f); if (m_index >= m_size) m_index = m_size-1; if (m_index < 0) m_index = 0; } void put(T value) { put(m_sorted, m_size, value); } static void put(T *const sorted, int size, T value) { // precondition: sorted points to size-1 sorted values, // followed by an unused slot (i.e. only the first size-1 // values of sorted are actually sorted) // // postcondition: sorted points to size sorted values T *ptr = std::lower_bound(sorted, sorted + size - 1, value); breakfastquay::v_move(ptr + 1, ptr, int(sorted + size - ptr) - 1); *ptr = value; } void drop(T value) { drop(m_sorted, m_size, value); } static void drop(T *const sorted, int size, T value) { // precondition: sorted points to size sorted values, one of // which is value // // postcondition: sorted points to size-1 sorted values, // followed by a slot that has been reset to default value // (i.e. only the first size-1 values of sorted are actually // sorted) T *ptr = std::lower_bound(sorted, sorted + size, value); if (*ptr != value) { throw std::logic_error ("MovingMedian::drop: value being dropped is not in array"); } breakfastquay::v_move(ptr, ptr + 1, int(sorted + size - ptr) - 1); sorted[size-1] = T(); } void check() const { bool good = true; for (int i = 1; i < m_size; ++i) { if (m_sorted[i] < m_sorted[i-1]) { std::cerr << "ERROR: MovingMedian::checkIntegrity: " << "mis-ordered elements in sorted array starting " << "at index " << i << std::endl; good = false; break; } } for (int i = 0; i < m_size; ++i) { bool found = false; for (int j = 0; j < m_size; ++j) { if (m_sorted[j] == m_frame[i]) { found = true; break; } } if (!found) { std::cerr << "ERROR: MovingMedian::checkIntegrity: " << "element in frame at index " << i << " not found in sorted array" << std::endl; good = false; break; } } for (int i = 0; i < m_size; ++i) { bool found = false; for (int j = 0; j < m_size; ++j) { if (m_sorted[i] == m_frame[j]) { found = true; break; } } if (!found) { std::cerr << "ERROR: MovingMedian::checkIntegrity: " << "element in sorted array at index " << i << " not found in source frame" << std::endl; good = false; break; } } if (!good) { std::cerr << "Frame contains:" << std::endl; std::cerr << "[ "; for (int j = 0; j < m_size; ++j) { std::cerr << m_frame[j] << " "; } std::cerr << "]" << std::endl; std::cerr << "Sorted array contains:" << std::endl; std::cerr << "[ "; for (int j = 0; j < m_size; ++j) { std::cerr << m_sorted[j] << " "; } std::cerr << "]" << std::endl; throw std::logic_error("MovingMedian failed integrity check"); } } }; #endif