238 lines
6.4 KiB
C++
238 lines
6.4 KiB
C++
/* #define DEBUGTRACE_ENABLED */
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#include "debugtrace.hpp"
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#include "lasp_daqconfig.h"
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#include "lasp_deviceinfo.h"
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#include <algorithm>
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#include <cassert>
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#include <stdexcept>
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using std::vector;
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vector<DaqApi> DaqApi::getAvailableApis() {
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vector<DaqApi> apis;
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#if LASP_HAS_ULDAQ == 1
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apis.push_back(uldaqapi);
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#endif
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#if LASP_HAS_RTAUDIO == 1
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apis.push_back(rtaudioAlsaApi);
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apis.push_back(rtaudioPulseaudioApi);
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apis.push_back(rtaudioWasapiApi);
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apis.push_back(rtaudioDsApi);
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apis.push_back(rtaudioAsioApi);
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#endif
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return apis;
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}
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DaqConfiguration::DaqConfiguration(const DeviceInfo &device) {
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api = device.api;
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device_name = device.device_name;
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inchannel_config.resize(device.ninchannels);
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outchannel_config.resize(device.noutchannels);
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us i = 0;
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for (auto &inch : inchannel_config) {
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inch.name = "Unnamed input channel " + std::to_string(i);
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i++;
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}
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i = 0;
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for (auto &outch : outchannel_config) {
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outch.name = "Unnamed output channel " + std::to_string(i);
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i++;
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}
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sampleRateIndex = device.prefSampleRateIndex;
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dataTypeIndex = device.prefDataTypeIndex;
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framesPerBlockIndex = device.prefFramesPerBlockIndex;
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monitorOutput = false;
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assert(match(device));
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}
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bool DaqConfiguration::match(const DeviceInfo &dev) const {
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return (dev.device_name == device_name && dev.api == api);
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}
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int DaqConfiguration::getHighestEnabledInChannel() const {
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for (int i = inchannel_config.size() - 1; i > -1; i--) {
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if (inchannel_config.at(i).enabled)
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return i;
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}
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return -1;
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}
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int DaqConfiguration::getHighestEnabledOutChannel() const {
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for (us i = outchannel_config.size() - 1; i >= 0; i--) {
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if (outchannel_config.at(i).enabled)
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return i;
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}
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return -1;
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}
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int DaqConfiguration::getLowestEnabledInChannel() const {
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for (us i = 0; i < inchannel_config.size(); i++) {
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if (inchannel_config.at(i).enabled)
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return i;
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}
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return -1;
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}
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int DaqConfiguration::getLowestEnabledOutChannel() const {
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for (us i = 0; i < outchannel_config.size(); i++) {
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if (outchannel_config.at(i).enabled)
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return i;
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}
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return -1;
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}
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vector<DaqChannel> DaqConfiguration::enabledInChannels(const bool include_monitor) const {
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vector<DaqChannel> res;
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if(monitorOutput && include_monitor) {
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DaqChannel ch;
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ch.name = "Internal output monitor (loopback)";
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ch.enabled = true;
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ch.sensitivity = 1;
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ch.qty = DaqChannel::Qty::Number;
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res.emplace_back(std::move(ch));
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}
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for(auto& ch: inchannel_config) {
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if(ch.enabled) { res.push_back(ch);}
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}
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return res;
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}
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#include "toml++/toml.h"
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#include <sstream>
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toml::table daqChannelToTOML(const DaqChannel &ch) {
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DEBUGTRACE_ENTER;
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toml::table tbl;
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tbl.emplace("enabled", ch.enabled);
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tbl.emplace("name", ch.name);
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tbl.emplace("sensitivity", ch.sensitivity);
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tbl.emplace("IEPEEnabled", ch.IEPEEnabled);
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tbl.emplace("ACCouplingMode", ch.ACCouplingMode);
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tbl.emplace("rangeIndex", ch.rangeIndex);
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tbl.emplace("qty", static_cast<int>(ch.qty));
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tbl.emplace("digitalHighpassCutOn", ch.digitalHighPassCutOn);
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return tbl;
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}
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string DaqConfiguration::toTOML() const {
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DEBUGTRACE_ENTER;
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toml::table apitbl{
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{"apiname", api.apiname}, // Api name
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{"apicode", api.apicode}, // Api code
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{"api_specific_subcode", api.api_specific_subcode} // Subcode
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};
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toml::table tbl{{"daqapi", apitbl}};
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tbl.emplace("device_name", device_name);
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tbl.emplace("sampleRateIndex", sampleRateIndex);
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tbl.emplace("dataTypeIndex", dataTypeIndex);
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tbl.emplace("framesPerBlockIndex", framesPerBlockIndex);
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tbl.emplace("monitorOutput", monitorOutput);
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toml::array inchannel_config_tbl;
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for (const auto &ch : inchannel_config) {
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inchannel_config_tbl.emplace_back(daqChannelToTOML(ch));
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}
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tbl.emplace("inchannel_config", inchannel_config_tbl);
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toml::array outchannel_config_tbl;
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for (const auto &ch : outchannel_config) {
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outchannel_config_tbl.emplace_back(daqChannelToTOML(ch));
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}
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tbl.emplace("outchannel_config", outchannel_config_tbl);
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std::stringstream str;
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str << tbl;
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return str.str();
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}
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template <typename T,typename R> T getValue(R &tbl, const char* key) {
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using std::runtime_error;
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DEBUGTRACE_ENTER;
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// Yeah, weird syntax quirck of C++
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std::optional<T> val = tbl[key].template value<T>();
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if (!val) {
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throw runtime_error(string("Error while parsing Daq configuration. Table "
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"does not contain key: ") +
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key);
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}
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return val.value();
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}
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template<typename T> DaqChannel TOMLToDaqChannel(T& node) {
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DEBUGTRACE_ENTER;
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DaqChannel d;
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toml::table& tbl = *node.as_table();
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d.enabled = getValue<bool>(tbl, "enabled");
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d.name = getValue<string>(tbl, "name");
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d.sensitivity = getValue<double>(tbl, "sensitivity");
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d.IEPEEnabled = getValue<bool>(tbl, "IEPEEnabled");
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d.ACCouplingMode = getValue<bool>(tbl, "ACCouplingMode");
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d.rangeIndex = getValue<bool>(tbl, "rangeIndex");
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d.qty = static_cast<DaqChannel::Qty>(getValue<int64_t>(tbl, "qty"));
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d.digitalHighPassCutOn = getValue<double>(tbl, "digitalHighpassCutOn");
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return d;
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}
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DaqConfiguration DaqConfiguration::fromTOML(const std::string &tomlstr) {
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DEBUGTRACE_ENTER;
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using std::runtime_error;
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try {
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toml::table tbl = toml::parse(tomlstr);
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DaqConfiguration config;
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auto daqapi = tbl["daqapi"];
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DaqApi api;
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api.apicode = getValue<int64_t>(daqapi, "apicode");
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api.api_specific_subcode = getValue<int64_t>(daqapi, "api_specific_subcode");
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api.apiname = getValue<string>(daqapi, "apiname");
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config.api = api;
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config.device_name = getValue<string>(tbl, "device_name");
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config.sampleRateIndex = getValue<int64_t>(tbl, "sampleRateIndex");
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config.dataTypeIndex = getValue<int>(tbl, "dataTypeIndex");
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config.framesPerBlockIndex = getValue<int64_t>(tbl, "framesPerBlockIndex");
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config.monitorOutput = getValue<bool>(tbl, "monitorOutput");
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if(toml::array* in_arr = tbl["inchannel_config"].as_array()) {
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for(auto& el: *in_arr) {
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config.inchannel_config.push_back(TOMLToDaqChannel(el));
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}
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} else {
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throw runtime_error("inchannel_config is not an array");
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}
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if(toml::array* out_arr = tbl["outchannel_config"].as_array()) {
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for(auto& el: *out_arr) {
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config.outchannel_config.push_back(TOMLToDaqChannel(el));
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}
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} else {
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throw runtime_error("outchannel_config is not an array");
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}
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return config;
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} catch (const toml::parse_error &e) {
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throw std::runtime_error(string("Error parsing TOML DaqConfiguration: ") +
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e.what());
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}
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}
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