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authorMatthias P. Braendli <matthias.braendli@mpb.li>2018-03-01 16:33:09 +0100
committerMatthias P. Braendli <matthias.braendli@mpb.li>2018-03-01 16:33:09 +0100
commiteb91bc3b5c8079e8e9486dba342d5d123ac483e0 (patch)
treeb4ec889dd475ab94ee2c46d4d7e3538d6020b2e6 /src/ConfigParser.cpp
parent1c0c84eb56beec849abe025ee1fc9ce1364aa34c (diff)
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Rework frequency information representation
Diffstat (limited to 'src/ConfigParser.cpp')
-rw-r--r--src/ConfigParser.cpp248
1 files changed, 97 insertions, 151 deletions
diff --git a/src/ConfigParser.cpp b/src/ConfigParser.cpp
index 4aee3ac..d6bd553 100644
--- a/src/ConfigParser.cpp
+++ b/src/ConfigParser.cpp
@@ -163,8 +163,7 @@ static void parse_linkage(ptree& pt,
}
// Parse the FI section
-static void parse_freq_info(ptree& pt,
- std::shared_ptr<dabEnsemble> ensemble)
+static void parse_freq_info(ptree& pt, std::shared_ptr<dabEnsemble> ensemble)
{
auto pt_frequency_information = pt.get_child_optional("frequency_information");
if (pt_frequency_information)
@@ -173,168 +172,115 @@ static void parse_freq_info(ptree& pt,
const string fi_uid = it_fi.first;
const ptree pt_fi = it_fi.second;
- auto fi = make_shared<FrequencyInformation>();
+ FrequencyInformation fi;
- fi->uid = fi_uid;
- fi->other_ensemble = pt_fi.get("oe", false);
+ fi.uid = fi_uid;
- for (const auto& it_fle : pt_fi) {
- const string fle_uid = it_fle.first;
- if (fle_uid == "oe") {
- continue;
- }
+ fi.other_ensemble = pt_fi.get("oe", false);
+ string rm_str = pt_fi.get("range_modulation", "");
+ if (rm_str == "dab") {
+ fi.rm = RangeModulation::dab_ensemble;
+ }
+ else if (rm_str == "fm") {
+ fi.rm = RangeModulation::fm_with_rds;
+ }
+ else if (rm_str == "drm") {
+ fi.rm = RangeModulation::drm;
+ }
+ else if (rm_str == "amss") {
+ fi.rm = RangeModulation::amss;
+ }
+ else if (rm_str == "") {
+ throw runtime_error("Missing range_modulation in FI " + fi_uid);
+ }
+ else {
+ throw runtime_error("Invalid range_modulation '" + rm_str +
+ "' in FI " + fi_uid);
+ }
- const ptree pt_entry = it_fle.second;
+ fi.continuity = pt_fi.get<bool>("continuity");
- FrequencyListEntry fle;
+ try {
+ switch (fi.rm) {
+ case RangeModulation::dab_ensemble:
+ {
+ fi.fi_dab.eid = hexparse(pt_fi.get<string>("eid"));
- fle.uid = fle_uid;
+ for (const auto& list_it : pt_fi.get_child("frequencies")) {
+ const string fi_list_uid = list_it.first;
+ const ptree pt_list_entry = list_it.second;
- string rm_str = pt_entry.get("range_modulation", "");
- if (rm_str == "dab") {
- fle.rm = RangeModulation::dab_ensemble;
- }
- else if (rm_str == "fm") {
- fle.rm = RangeModulation::fm_with_rds;
- }
- else if (rm_str == "drm") {
- fle.rm = RangeModulation::drm;
- }
- else if (rm_str == "amss") {
- fle.rm = RangeModulation::amss;
- }
- else if (rm_str == "") {
- throw runtime_error("Missing range_modulation in FI " + fi_uid);
- }
- else {
- throw runtime_error("Invalid range_modulation '" + rm_str +
- "' in FI " + fi_uid);
- }
+ FrequencyInfoDab::ListElement el;
+ el.uid = fi_list_uid;
+ el.frequency = pt_list_entry.get<float>("frequency");
- fle.continuity = pt_entry.get<bool>("continuity");
+ bool signal_mode_1 = pt_list_entry.get("signal_mode_1", false);
+ bool adjacent = pt_list_entry.get("adjacent", false);
- try {
- switch (fle.rm) {
- case RangeModulation::dab_ensemble:
- {
- fle.fi_dab.eid = hexparse(pt_entry.get<string>("eid"));
-
- for (const auto& list_it : pt_entry.get_child("frequencies")) {
- const string fi_list_uid = list_it.first;
- const ptree pt_list_entry = list_it.second;
-
- FrequencyInfoDab::ListElement el;
- el.uid = fi_list_uid;
- el.frequency = pt_list_entry.get<float>("frequency");
-
- bool signal_mode_1 = pt_list_entry.get("signal_mode_1", false);
- bool adjacent = pt_list_entry.get("adjacent", false);
-
- if (adjacent and signal_mode_1) {
- el.control_field = FrequencyInfoDab::ControlField_e::adjacent_mode1;
- }
- else if (adjacent and not signal_mode_1) {
- el.control_field = FrequencyInfoDab::ControlField_e::adjacent_no_mode;
- }
- if (not adjacent and signal_mode_1) {
- el.control_field = FrequencyInfoDab::ControlField_e::disjoint_mode1;
- }
- else if (not adjacent and not signal_mode_1) {
- el.control_field = FrequencyInfoDab::ControlField_e::disjoint_no_mode;
- }
- fle.fi_dab.frequencies.push_back(el);
- }
- if (fle.fi_dab.frequencies.size() > 2) {
- throw runtime_error("Too many frequency entries in FI " + fle.uid);
- }
- } break;
- case RangeModulation::fm_with_rds:
- {
- fle.fi_fm.pi_code = hexparse(pt_entry.get<string>("pi_code"));
-
- std::stringstream frequencies_ss;
- frequencies_ss << pt_entry.get<string>("frequencies");
- for (std::string freq; std::getline(frequencies_ss, freq, ' '); ) {
- fle.fi_fm.frequencies.push_back(std::stof(freq));
- }
- if (fle.fi_fm.frequencies.size() > 7) {
- throw runtime_error("Too many frequency entries in FI " + fle.uid);
- }
- } break;
- case RangeModulation::drm:
- {
- fle.fi_drm.drm_service_id = hexparse(pt_entry.get<string>("drm_id"));
-
- std::stringstream frequencies_ss;
- frequencies_ss << pt_entry.get<string>("frequencies");
- for (std::string freq; std::getline(frequencies_ss, freq, ' '); ) {
- fle.fi_drm.frequencies.push_back(std::stof(freq));
+ if (adjacent and signal_mode_1) {
+ el.control_field = FrequencyInfoDab::ControlField_e::adjacent_mode1;
}
- if (fle.fi_drm.frequencies.size() > 3) {
- throw runtime_error("Too many frequency entries in FI " + fle.uid);
+ else if (adjacent and not signal_mode_1) {
+ el.control_field = FrequencyInfoDab::ControlField_e::adjacent_no_mode;
}
- } break;
- case RangeModulation::amss:
- {
- fle.fi_amss.amss_service_id = hexparse(pt_entry.get<string>("amss_id"));
-
- std::stringstream frequencies_ss;
- frequencies_ss << pt_entry.get<string>("frequencies");
- for (std::string freq; std::getline(frequencies_ss, freq, ' '); ) {
- fle.fi_amss.frequencies.push_back(std::stof(freq));
+ if (not adjacent and signal_mode_1) {
+ el.control_field = FrequencyInfoDab::ControlField_e::disjoint_mode1;
}
- if (fle.fi_amss.frequencies.size() > 3) {
- throw runtime_error("Too many frequency entries in FI " + fle.uid);
+ else if (not adjacent and not signal_mode_1) {
+ el.control_field = FrequencyInfoDab::ControlField_e::disjoint_no_mode;
}
- } break;
- } // switch(rm)
- }
- catch (const ptree_error &e) {
- throw runtime_error("invalid configuration for FI " + fle_uid);
- }
-
- fi->frequency_information.push_back(fle);
-
- } // for over fle
-
- size_t required_fi_size = 0; // Without RegionId + length of FI list
- for (const auto& fle : fi->frequency_information) {
- size_t list_entry_size = 3; // size of FIG0/21 FI list header
- switch (fle.rm) {
- case RangeModulation::dab_ensemble:
- list_entry_size += fle.fi_dab.frequencies.size() * 3;
- break;
+ fi.fi_dab.frequencies.push_back(el);
+ }
+ if (fi.fi_dab.frequencies.empty()) {
+ throw runtime_error("Empty frequency list in FI " + fi.uid);
+ }
+ } break;
case RangeModulation::fm_with_rds:
- list_entry_size += fle.fi_fm.frequencies.size() * 1;
- break;
- case RangeModulation::amss:
- list_entry_size += 1; // Id field 2
- list_entry_size += fle.fi_amss.frequencies.size() * 2;
- break;
+ {
+ fi.fi_fm.pi_code = hexparse(pt_fi.get<string>("pi_code"));
+
+ std::stringstream frequencies_ss;
+ frequencies_ss << pt_fi.get<string>("frequencies");
+ for (std::string freq; std::getline(frequencies_ss, freq, ' '); ) {
+ fi.fi_fm.frequencies.push_back(std::stof(freq));
+ }
+ if (fi.fi_fm.frequencies.empty()) {
+ throw runtime_error("Empty frequency list in FI " + fi.uid);
+ }
+ } break;
case RangeModulation::drm:
- list_entry_size += 1; // Id field 2
- list_entry_size += fle.fi_drm.frequencies.size() * 2;
- break;
- }
- required_fi_size += list_entry_size;
+ {
+ fi.fi_drm.drm_service_id = hexparse(pt_fi.get<string>("drm_id"));
+
+ std::stringstream frequencies_ss;
+ frequencies_ss << pt_fi.get<string>("frequencies");
+ for (std::string freq; std::getline(frequencies_ss, freq, ' '); ) {
+ fi.fi_drm.frequencies.push_back(std::stof(freq));
+ }
+ if (fi.fi_drm.frequencies.empty()) {
+ throw runtime_error("Empty frequency list in FI " + fi.uid);
+ }
+ } break;
+ case RangeModulation::amss:
+ {
+ fi.fi_amss.amss_service_id = hexparse(pt_fi.get<string>("amss_id"));
+
+ std::stringstream frequencies_ss;
+ frequencies_ss << pt_fi.get<string>("frequencies");
+ for (std::string freq; std::getline(frequencies_ss, freq, ' '); ) {
+ fi.fi_amss.frequencies.push_back(std::stof(freq));
+ }
+ if (fi.fi_amss.frequencies.empty()) {
+ throw runtime_error("Empty frequency list in FI " + fi.uid);
+ }
+ } break;
+ } // switch(rm)
}
-
- /* Length of FI list: this 5-bit field, expressed as an unsigned
- * binary number, shall represent the length in bytes of the field
- * containing FI list q to FI list g (maximum 26 bytes).
- *
- * ETSI EN 300 401 Clause 8.1.8
- */
- if (required_fi_size > 26) {
- throw runtime_error("Too much information carried in FI " +
- fi_uid + ": " + to_string(required_fi_size) +
- " bytes needed out of 26 available");
+ catch (const ptree_error &e) {
+ throw runtime_error("invalid configuration for FI " + fi_uid);
}
- ensemble->frequency_information.push_back(fi);
-
-
-
+ ensemble->frequency_information.emplace_back(move(fi));
} // for over fi
/* We sort all FI to have the OE=0 first and the OE=1 afterwards, to
@@ -342,10 +288,10 @@ static void parse_freq_info(ptree& pt,
std::sort(
ensemble->frequency_information.begin(),
ensemble->frequency_information.end(),
- [](const shared_ptr<FrequencyInformation>& first,
- const shared_ptr<FrequencyInformation>& second) {
- const int oe_first = first->other_ensemble ? 1 : 0;
- const int oe_second = second->other_ensemble ? 1 : 0;
+ [](const FrequencyInformation& first,
+ const FrequencyInformation& second) {
+ const int oe_first = first.other_ensemble ? 1 : 0;
+ const int oe_second = second.other_ensemble ? 1 : 0;
return oe_first < oe_second;
} );
} // if FI present