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author | Matthias P. Braendli <matthias.braendli@mpb.li> | 2016-10-02 12:37:44 +0200 |
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committer | Matthias P. Braendli <matthias.braendli@mpb.li> | 2016-10-02 12:37:44 +0200 |
commit | 9bcd309e3812263a11ee13d7999e85c4e6a48ebd (patch) | |
tree | a8983d634629748b4f0ab7dbb9500b6f797d59fe /src | |
parent | 1b851434726b3521add4dc226ee041b1e44bb7b3 (diff) | |
download | dabmux-9bcd309e3812263a11ee13d7999e85c4e6a48ebd.tar.gz dabmux-9bcd309e3812263a11ee13d7999e85c4e6a48ebd.tar.bz2 dabmux-9bcd309e3812263a11ee13d7999e85c4e6a48ebd.zip |
Refactor handling of FIG state out of 0/19
We are going to need this for other FIGs too
Diffstat (limited to 'src')
-rw-r--r-- | src/fig/FIG0.cpp | 104 | ||||
-rw-r--r-- | src/fig/FIG0.h | 47 |
2 files changed, 69 insertions, 82 deletions
diff --git a/src/fig/FIG0.cpp b/src/fig/FIG0.cpp index 4233b5b..03fb00c 100644 --- a/src/fig/FIG0.cpp +++ b/src/fig/FIG0.cpp @@ -1258,24 +1258,27 @@ FillStatus FIG0_19::fill(uint8_t *buf, size_t max_size) { using namespace std; - update_state(); + auto ensemble = m_rti->ensemble; + + // We are called every 24ms, and must timeout after 2s + const int timeout = 2000/24; + + m_transition.update_state(timeout, ensemble->clusters); FillStatus fs; ssize_t remaining = max_size; - auto ensemble = m_rti->ensemble; - FIGtype0* fig0 = NULL; // Combine all clusters into one list set<AnnouncementCluster*> allclusters; - for (const auto& cluster : m_new_announcements) { + for (const auto& cluster : m_transition.new_entries) { allclusters.insert(cluster.first.get()); } - for (const auto& cluster : m_repeated_announcements) { + for (const auto& cluster : m_transition.repeated_entries) { allclusters.insert(cluster.get()); } - for (const auto& cluster : m_disabled_announcements) { + for (const auto& cluster : m_transition.disabled_entries) { allclusters.insert(cluster.first.get()); } @@ -1341,86 +1344,59 @@ FillStatus FIG0_19::fill(uint8_t *buf, size_t max_size) return fs; } -void FIG0_19::update_state() +template<class T> +void TransitionHandler<T>::update_state(int timeout, std::vector<std::shared_ptr<T> > all_entries) { - auto ensemble = m_rti->ensemble; - - // We are called every 24ms, and must timeout after 2s - const int timeout = 2000/24; - -//#define DEBUG_FIG0_19 -#ifdef DEBUG_FIG0_19 - etiLog.level(info) << " FIG0/19 new"; - for (const auto& cluster : m_new_announcements) { - etiLog.level(info) << " " << cluster.first->tostring() - << ": " << cluster.second; - } - etiLog.level(info) << " FIG0/19 repeated"; - for (const auto& cluster : m_repeated_announcements) { - etiLog.level(info) << " " << cluster->tostring(); - } - etiLog.level(info) << " FIG0/19 disabled"; - for (const auto& cluster : m_disabled_announcements) { - etiLog.level(info) << " " << cluster.first->tostring() - << ": " << cluster.second; - } - - etiLog.level(info) << " FIG0/19 in ensemble"; -#endif - - for (const auto& cluster : ensemble->clusters) { -#ifdef DEBUG_FIG0_19 - etiLog.level(info) << " " << cluster->tostring(); -#endif - if (cluster->is_active()) { - if (m_repeated_announcements.count(cluster) > 0) { - // We are currently announcing this cluster + for (const auto& entry : all_entries) { + if (entry->is_active()) { + if (repeated_entries.count(entry) > 0) { + // We are currently announcing this entry continue; } - if (m_new_announcements.count(cluster) > 0) { - // We are currently announcing this cluster at a + if (new_entries.count(entry) > 0) { + // We are currently announcing this entry at a // fast rate. Handle timeout: - m_new_announcements[cluster] -= 1; - if (m_new_announcements[cluster] <= 0) { - m_repeated_announcements.insert(cluster); - m_new_announcements.erase(cluster); + new_entries[entry] -= 1; + if (new_entries[entry] <= 0) { + repeated_entries.insert(entry); + new_entries.erase(entry); } continue; } // unlikely - if (m_disabled_announcements.count(cluster) > 0) { - m_new_announcements[cluster] = timeout; - m_disabled_announcements.erase(cluster); + if (disabled_entries.count(entry) > 0) { + new_entries[entry] = timeout; + disabled_entries.erase(entry); continue; } - // It's a new announcement! - m_new_announcements[cluster] = timeout; + // It's a new entry! + new_entries[entry] = timeout; } else { // Not active - if (m_disabled_announcements.count(cluster) > 0) { - m_disabled_announcements[cluster] -= 1; - if (m_disabled_announcements[cluster] <= 0) { - m_disabled_announcements.erase(cluster); + if (disabled_entries.count(entry) > 0) { + disabled_entries[entry] -= 1; + if (disabled_entries[entry] <= 0) { + disabled_entries.erase(entry); } continue; } - if (m_repeated_announcements.count(cluster) > 0) { - // We are currently announcing this cluster - m_disabled_announcements[cluster] = timeout; - m_repeated_announcements.erase(cluster); + if (repeated_entries.count(entry) > 0) { + // We are currently announcing this entry + disabled_entries[entry] = timeout; + repeated_entries.erase(entry); continue; } // unlikely - if (m_new_announcements.count(cluster) > 0) { - // We are currently announcing this cluster at a + if (new_entries.count(entry) > 0) { + // We are currently announcing this entry at a // fast rate. We must stop announcing it - m_disabled_announcements[cluster] = timeout; - m_new_announcements.erase(cluster); + disabled_entries[entry] = timeout; + new_entries.erase(entry); continue; } } @@ -1429,8 +1405,8 @@ void FIG0_19::update_state() FIG_rate FIG0_19::repetition_rate(void) { - if ( m_new_announcements.size() > 0 or - m_disabled_announcements.size() ) { + if ( m_transition.new_entries.size() > 0 or + m_transition.disabled_entries.size() ) { return FIG_rate::A_B; } else { diff --git a/src/fig/FIG0.h b/src/fig/FIG0.h index 95a8a85..84bde41 100644 --- a/src/fig/FIG0.h +++ b/src/fig/FIG0.h @@ -34,6 +34,34 @@ namespace FIC { +// Some FIGs need to adapt their rate or their contents depending +// on if some data entries are stable or currently undergoing a +// change. The TransitionHandler keeps track of which entries +// are in what state. +template<class T> +class TransitionHandler { + public: + // update_state must be called once per ETI frame, and will + // move entries from new to repeated to disabled depending + // on their is_active() return value. + void update_state(int timeout, std::vector<std::shared_ptr<T> > all_entries); + + // The FIG that needs the information about what state an entry is in + // can read from the following data structures. It shall not modify them. + + /* Map to frame count */ + std::map< + std::shared_ptr<T>,int> new_entries; + + std::set< + std::shared_ptr<T> > repeated_entries; + + /* Map to frame count */ + std::map< + std::shared_ptr<T>,int> disabled_entries; +}; + + // FIG type 0/0, Multiplex Configuration Info (MCI), // Ensemble information class FIG0_0 : public IFIG @@ -260,24 +288,7 @@ class FIG0_19 : public IFIG private: FIGRuntimeInformation *m_rti; - void update_state(void); - - /* When a new announcement gets active, it is moved into the list - * of new announcements, and gets transmitted at a faster rate for - * two seconds. - * Same for recently disabled announcements. - */ - - /* Map of cluster to frame count */ - std::map< - std::shared_ptr<AnnouncementCluster>,int> m_new_announcements; - - std::set< - std::shared_ptr<AnnouncementCluster> > m_repeated_announcements; - - /* Map of cluster to frame count */ - std::map< - std::shared_ptr<AnnouncementCluster>,int> m_disabled_announcements; + TransitionHandler<AnnouncementCluster> m_transition; }; #ifdef _WIN32 |