diff options
author | Matthias P. Braendli <matthias.braendli@mpb.li> | 2018-10-29 15:35:13 +0100 |
---|---|---|
committer | Matthias P. Braendli <matthias.braendli@mpb.li> | 2018-10-29 15:35:13 +0100 |
commit | bf82967d4c04946ae6e0490ea28e160a856fc81b (patch) | |
tree | e6eaffeed8741ea6203a0323826153179a3d91df /src | |
parent | 234420f5c8a37acd94a41ddd1dc33979bc843e76 (diff) | |
download | dabmux-bf82967d4c04946ae6e0490ea28e160a856fc81b.tar.gz dabmux-bf82967d4c04946ae6e0490ea28e160a856fc81b.tar.bz2 dabmux-bf82967d4c04946ae6e0490ea28e160a856fc81b.zip |
Rework inputstat to use absolute timestamps internally
Diffstat (limited to 'src')
-rw-r--r-- | src/ManagementServer.cpp | 145 | ||||
-rw-r--r-- | src/ManagementServer.h | 28 |
2 files changed, 93 insertions, 80 deletions
diff --git a/src/ManagementServer.cpp b/src/ManagementServer.cpp index 5741e38..201fc7b 100644 --- a/src/ManagementServer.cpp +++ b/src/ManagementServer.cpp @@ -355,21 +355,10 @@ void ManagementServer::update_ptree(const boost::property_tree::ptree& pt) /************************************************/ -InputStat::InputStat(const std::string& name) - : m_name(name) +InputStat::InputStat(const std::string& name) : + m_name(name), + m_time_last_event(std::chrono::steady_clock::now()) { - /* Statistics */ - m_num_underruns = 0; - m_num_overruns = 0; - - /* State handling */ - m_time_last_event = std::chrono::steady_clock::now(); - m_glitch_counter = 0; - m_silence_counter = 0; - - m_buffer_fill_stats.clear(); - m_peaks_left.clear(); - m_peaks_right.clear(); } InputStat::~InputStat() @@ -386,61 +375,65 @@ void InputStat::notifyBuffer(long bufsize) { unique_lock<mutex> lock(m_mutex); - m_buffer_fill_stats.push_front(bufsize); - using namespace std::chrono; const auto time_now = steady_clock::now(); - if (m_buffer_fill_stats.size() > 1) { - auto insertion_interval = time_now - m_time_last_buffer_notify; - auto total_length = insertion_interval * m_buffer_fill_stats.size(); + m_buffer_fill_stats.push_front({time_now, bufsize}); - if (total_length > BUFFER_STATS_KEEP_DURATION) { - m_buffer_fill_stats.pop_back(); - } - } - m_time_last_buffer_notify = time_now; + // Keep only stats whose timestamp are more recent than + // BUFFER_STATS_KEEP_DURATION ago + m_buffer_fill_stats.erase(remove_if( + m_buffer_fill_stats.begin(), m_buffer_fill_stats.end(), + [&](const fill_stat_t& fs) { + return fs.timestamp + BUFFER_STATS_KEEP_DURATION < time_now; + }), + m_buffer_fill_stats.end()); } void InputStat::notifyPeakLevels(int peak_left, int peak_right) { unique_lock<mutex> lock(m_mutex); - m_peaks_left.push_front(peak_left); - m_peaks_right.push_front(peak_right); - using namespace std::chrono; - const auto time_now = steady_clock::now(); - if (m_peaks_left.size() < 2) { - m_time_last_peak_notify = time_now; - } - else { - const auto insertion_interval = time_now - m_time_last_peak_notify; - const auto peaks_total_length = insertion_interval * m_peaks_left.size(); - - if (peaks_total_length > PEAK_STATS_KEEP_DURATION) { - m_peaks_left.pop_back(); - m_peaks_right.pop_back(); - } + m_peak_stats.push_front({time_now, peak_left, peak_right}); - m_time_last_peak_notify = time_now; + // Keep only stats whose timestamp are more recent than + // BUFFER_STATS_KEEP_DURATION ago + m_peak_stats.erase(remove_if( + m_peak_stats.begin(), m_peak_stats.end(), + [&](const peak_stat_t& ps) { + return ps.timestamp + PEAK_STATS_KEEP_DURATION < time_now; + }), + m_peak_stats.end()); + if (m_peak_stats.size() >= 2) { // Calculate the peak over the short window - m_short_window_length = PEAK_STATS_SHORT_WINDOW / insertion_interval; - const size_t short_window = std::min( - m_peaks_left.size(), m_short_window_length); - const auto max_left = *max_element(m_peaks_left.begin(), - m_peaks_left.begin() + short_window); - const auto max_right = *max_element(m_peaks_right.begin(), - m_peaks_right.begin() + short_window); - - // State - - // using the lower of the two channels allows us to detect if only one + vector<peak_stat_t> short_peaks; + copy_if(m_peak_stats.begin(), m_peak_stats.end(), + back_inserter(short_peaks), + [&](const peak_stat_t& ps) { + return ps.timestamp + PEAK_STATS_SHORT_WINDOW >= time_now; + }); + + const auto& short_left_peak_max = max_element( + short_peaks.begin(), short_peaks.end(), + [](const peak_stat_t& lhs, const peak_stat_t& rhs) { + return lhs.peak_left < rhs.peak_left; + }); + + const auto& short_right_peak_max = max_element( + short_peaks.begin(), short_peaks.end(), + [](const peak_stat_t& lhs, const peak_stat_t& rhs) { + return lhs.peak_right < rhs.peak_right; + }); + + // Using the lower of the two channels allows us to detect if only one // channel is silent. - const int lower_peak = max_left < max_right ? max_left : max_right; + const int lower_peak = min( + short_left_peak_max->peak_left, short_right_peak_max->peak_right); + // State const int16_t int16_max = std::numeric_limits<int16_t>::max(); int peak_dB = lower_peak ? round(20*log10((double)lower_peak / int16_max)) : @@ -474,8 +467,7 @@ void InputStat::notifyUnderrun(void) else { // As we don't receive level notifications anymore, clear the // audio level information - m_peaks_left.clear(); - m_peaks_right.clear(); + m_peak_stats.clear(); } } @@ -506,16 +498,28 @@ std::string InputStat::encodeValuesJSON() int peak_left = 0; int peak_right = 0; - if (not m_peaks_left.empty() and not m_peaks_right.empty()) { - peak_left = *max_element(m_peaks_left.begin(), m_peaks_left.end()); - peak_right = *max_element(m_peaks_right.begin(), m_peaks_right.end()); - - if (m_peaks_left.size() >= m_short_window_length and - m_peaks_right.size() >= m_short_window_length) { - peak_left_short = *max_element(m_peaks_left.begin(), - m_peaks_left.begin() + m_short_window_length); - peak_right_short = *max_element(m_peaks_right.begin(), - m_peaks_right.begin() + m_short_window_length); + if (not m_peak_stats.empty()) { + peak_left = max_element(m_peak_stats.begin(), m_peak_stats.end(), + [](const peak_stat_t& lhs, const peak_stat_t& rhs) { + return lhs.peak_left < rhs.peak_left; + })->peak_left; + peak_right = max_element(m_peak_stats.begin(), m_peak_stats.end(), + [](const peak_stat_t& lhs, const peak_stat_t& rhs) { + return lhs.peak_right < rhs.peak_right; + })->peak_right; + + if (m_peak_stats.size() > m_short_window_length) { + peak_left_short = max_element(m_peak_stats.begin(), + m_peak_stats.begin() + m_short_window_length, + [](const peak_stat_t& lhs, const peak_stat_t& rhs) { + return lhs.peak_left < rhs.peak_left; + })->peak_left; + + peak_right_short = max_element(m_peak_stats.begin(), + m_peak_stats.begin() + m_short_window_length, + [](const peak_stat_t& lhs, const peak_stat_t& rhs) { + return lhs.peak_right < rhs.peak_right; + })->peak_right; } else { peak_left_short = peak_left; @@ -526,10 +530,13 @@ std::string InputStat::encodeValuesJSON() long min_fill_buffer = MIN_FILL_BUFFER_UNDEF; long max_fill_buffer = 0; if (not m_buffer_fill_stats.empty()) { - auto buffer_min_max_fill = minmax_element(m_buffer_fill_stats.begin(), - m_buffer_fill_stats.end()); - min_fill_buffer = *buffer_min_max_fill.first; - max_fill_buffer = *buffer_min_max_fill.second; + const auto& buffer_min_max_fill = minmax_element( + m_buffer_fill_stats.begin(), m_buffer_fill_stats.end(), + [](const fill_stat_t& lhs, const fill_stat_t& rhs) { + return lhs.bufsize < rhs.bufsize; + }); + min_fill_buffer = buffer_min_max_fill.first->bufsize; + max_fill_buffer = buffer_min_max_fill.second->bufsize; } /* convert to dB */ @@ -596,7 +603,7 @@ input_state_t InputStat::determineState() */ if (std::all_of( m_buffer_fill_stats.begin(), m_buffer_fill_stats.end(), - [](long fill) { return fill == 0; }) ) { + [](const fill_stat_t& fs) { return fs.bufsize == 0; }) ) { state = input_state_t::NoData; } /* Otherwise, the state depends on the glitch counter */ diff --git a/src/ManagementServer.h b/src/ManagementServer.h index 17b8bda..18af48c 100644 --- a/src/ManagementServer.h +++ b/src/ManagementServer.h @@ -107,28 +107,34 @@ class InputStat std::string m_name; /************ STATISTICS ***********/ - // Calculate minimum and maximum buffer fill from - // a FIFO of values from the last few seconds - std::deque<long> m_buffer_fill_stats; - std::chrono::time_point<std::chrono::steady_clock> m_time_last_buffer_notify; + // Keep track of buffer fill with timestamps, so that we + // can calculate the correct state from it. + struct fill_stat_t { + std::chrono::time_point<std::chrono::steady_clock> timestamp; + long bufsize; + }; + std::deque<fill_stat_t> m_buffer_fill_stats; // counter of number of overruns and underruns since startup - uint32_t m_num_underruns; - uint32_t m_num_overruns; + uint32_t m_num_underruns = 0; + uint32_t m_num_overruns = 0; // Peak audio levels (linear 16-bit PCM) for the two channels. // Keep a FIFO of values from the last minutes, apply // a short window to also see short-term fluctuations. - std::deque<int> m_peaks_left; - std::deque<int> m_peaks_right; - std::chrono::time_point<std::chrono::steady_clock> m_time_last_peak_notify; + struct peak_stat_t { + std::chrono::time_point<std::chrono::steady_clock> timestamp; + int peak_left; + int peak_right; + }; + std::deque<peak_stat_t> m_peak_stats; size_t m_short_window_length = 0; /************* STATE ***************/ /* Variables used for determining the input state */ - int m_glitch_counter; // saturating counter - int m_silence_counter; // saturating counter + int m_glitch_counter = 0; // saturating counter + int m_silence_counter = 0; // saturating counter std::chrono::time_point<std::chrono::steady_clock> m_time_last_event; // The mutex that has to be held during all notify and readout |