+ return (channel_) ? channel_->index() : 0;
+}
+
+unsigned int SignalBase::logic_bit_index() const
+{
+ if (channel_type_ == LogicChannel)
+ return channel_->index();
+ else
+ return 0;
+}
+
+QColor SignalBase::color() const
+{
+ return color_;
+}
+
+void SignalBase::set_color(QColor color)
+{
+ color_ = color;
+
+ bgcolor_ = color;
+ bgcolor_.setAlpha(ColorBGAlpha);
+
+ color_changed(color);
+}
+
+QColor SignalBase::bgcolor() const
+{
+ return bgcolor_;
+}
+
+void SignalBase::set_data(shared_ptr<pv::data::SignalData> data)
+{
+ if (data_) {
+ disconnect(data.get(), SIGNAL(samples_cleared()),
+ this, SLOT(on_samples_cleared()));
+ disconnect(data.get(), SIGNAL(samples_added(QObject*, uint64_t, uint64_t)),
+ this, SLOT(on_samples_added(QObject*, uint64_t, uint64_t)));
+
+ if (channel_type_ == AnalogChannel) {
+ shared_ptr<Analog> analog = analog_data();
+ assert(analog);
+
+ disconnect(analog.get(), SIGNAL(min_max_changed(float, float)),
+ this, SLOT(on_min_max_changed(float, float)));
+ }
+ }
+
+ data_ = data;
+
+ if (data_) {
+ connect(data.get(), SIGNAL(samples_cleared()),
+ this, SLOT(on_samples_cleared()));
+ connect(data.get(), SIGNAL(samples_added(QObject*, uint64_t, uint64_t)),
+ this, SLOT(on_samples_added(QObject*, uint64_t, uint64_t)));
+
+ if (channel_type_ == AnalogChannel) {
+ shared_ptr<Analog> analog = analog_data();
+ assert(analog);
+
+ connect(analog.get(), SIGNAL(min_max_changed(float, float)),
+ this, SLOT(on_min_max_changed(float, float)));
+ }
+ }
+}
+
+shared_ptr<data::Analog> SignalBase::analog_data() const
+{
+ shared_ptr<Analog> result = nullptr;
+
+ if (channel_type_ == AnalogChannel)
+ result = dynamic_pointer_cast<Analog>(data_);
+
+ return result;
+}
+
+shared_ptr<data::Logic> SignalBase::logic_data() const
+{
+ shared_ptr<Logic> result = nullptr;
+
+ if (channel_type_ == LogicChannel)
+ result = dynamic_pointer_cast<Logic>(data_);
+
+ if (((conversion_type_ == A2LConversionByThreshold) ||
+ (conversion_type_ == A2LConversionBySchmittTrigger)))
+ result = dynamic_pointer_cast<Logic>(converted_data_);
+
+ return result;
+}
+
+bool SignalBase::segment_is_complete(uint32_t segment_id) const
+{
+ bool result = true;
+
+ if (channel_type_ == AnalogChannel)
+ {
+ shared_ptr<Analog> data = dynamic_pointer_cast<Analog>(data_);
+ auto segments = data->analog_segments();
+ try {
+ result = segments.at(segment_id)->is_complete();
+ } catch (out_of_range&) {
+ // Do nothing
+ }
+ }
+
+ if (channel_type_ == LogicChannel)
+ {
+ shared_ptr<Logic> data = dynamic_pointer_cast<Logic>(data_);
+ auto segments = data->logic_segments();
+ try {
+ result = segments.at(segment_id)->is_complete();
+ } catch (out_of_range&) {
+ // Do nothing
+ }
+ }
+
+ return result;
+}
+
+bool SignalBase::has_samples() const
+{
+ bool result = false;
+
+ if (channel_type_ == AnalogChannel)
+ {
+ shared_ptr<Analog> data = dynamic_pointer_cast<Analog>(data_);
+ if (data) {
+ auto segments = data->analog_segments();
+ if ((segments.size() > 0) && (segments.front()->get_sample_count() > 0))
+ result = true;
+ }
+ }
+
+ if (channel_type_ == LogicChannel)
+ {
+ shared_ptr<Logic> data = dynamic_pointer_cast<Logic>(data_);
+ if (data) {
+ auto segments = data->logic_segments();
+ if ((segments.size() > 0) && (segments.front()->get_sample_count() > 0))
+ result = true;
+ }
+ }
+
+ return result;
+}
+
+SignalBase::ConversionType SignalBase::get_conversion_type() const
+{
+ return conversion_type_;
+}
+
+void SignalBase::set_conversion_type(ConversionType t)
+{
+ if (conversion_type_ != NoConversion) {
+ stop_conversion();
+
+ // Discard converted data
+ converted_data_.reset();
+ samples_cleared();
+ }
+
+ conversion_type_ = t;
+
+ // Re-create an empty container
+ // so that the signal is recognized as providing logic data
+ // and thus can be assigned to a decoder
+ if (conversion_is_a2l())
+ if (!converted_data_)
+ converted_data_ = make_shared<Logic>(1); // Contains only one channel
+
+ start_conversion();
+
+ conversion_type_changed(t);
+}
+
+map<QString, QVariant> SignalBase::get_conversion_options() const
+{
+ return conversion_options_;
+}
+
+bool SignalBase::set_conversion_option(QString key, QVariant value)
+{
+ QVariant old_value;
+
+ auto key_iter = conversion_options_.find(key);
+ if (key_iter != conversion_options_.end())
+ old_value = key_iter->second;
+
+ conversion_options_[key] = value;
+
+ return (value != old_value);
+}
+
+vector<double> SignalBase::get_conversion_thresholds(const ConversionType t,
+ const bool always_custom) const
+{
+ vector<double> result;
+ ConversionType conv_type = t;
+ ConversionPreset preset;
+
+ // Use currently active conversion if no conversion type was supplied
+ if (conv_type == NoConversion)
+ conv_type = conversion_type_;
+
+ if (always_custom)
+ preset = NoPreset;
+ else
+ preset = get_current_conversion_preset();
+
+ if (conv_type == A2LConversionByThreshold) {
+ double thr = 0;
+
+ if (preset == NoPreset) {
+ auto thr_iter = conversion_options_.find("threshold_value");
+ if (thr_iter != conversion_options_.end())
+ thr = (thr_iter->second).toDouble();
+ }
+
+ if (preset == DynamicPreset)
+ thr = (min_value_ + max_value_) * 0.5; // middle between min and max
+
+ if ((int)preset == 1) thr = 0.9;
+ if ((int)preset == 2) thr = 1.8;
+ if ((int)preset == 3) thr = 2.5;
+ if ((int)preset == 4) thr = 1.5;
+
+ result.push_back(thr);
+ }
+
+ if (conv_type == A2LConversionBySchmittTrigger) {
+ double thr_lo = 0, thr_hi = 0;
+
+ if (preset == NoPreset) {
+ auto thr_lo_iter = conversion_options_.find("threshold_value_low");
+ if (thr_lo_iter != conversion_options_.end())
+ thr_lo = (thr_lo_iter->second).toDouble();
+
+ auto thr_hi_iter = conversion_options_.find("threshold_value_high");
+ if (thr_hi_iter != conversion_options_.end())
+ thr_hi = (thr_hi_iter->second).toDouble();
+ }
+
+ if (preset == DynamicPreset) {
+ const double amplitude = max_value_ - min_value_;
+ const double center = min_value_ + (amplitude / 2);
+ thr_lo = center - (amplitude * 0.15); // 15% margin
+ thr_hi = center + (amplitude * 0.15); // 15% margin
+ }
+
+ if ((int)preset == 1) { thr_lo = 0.3; thr_hi = 1.2; }
+ if ((int)preset == 2) { thr_lo = 0.7; thr_hi = 2.5; }
+ if ((int)preset == 3) { thr_lo = 1.3; thr_hi = 3.7; }
+ if ((int)preset == 4) { thr_lo = 0.8; thr_hi = 2.0; }
+
+ result.push_back(thr_lo);
+ result.push_back(thr_hi);
+ }
+
+ return result;
+}
+
+vector< pair<QString, int> > SignalBase::get_conversion_presets() const
+{
+ vector< pair<QString, int> > presets;
+
+ if (conversion_type_ == A2LConversionByThreshold) {
+ // Source: http://www.interfacebus.com/voltage_threshold.html
+ presets.emplace_back(tr("Signal average"), 0);
+ presets.emplace_back(tr("0.9V (for 1.8V CMOS)"), 1);
+ presets.emplace_back(tr("1.8V (for 3.3V CMOS)"), 2);
+ presets.emplace_back(tr("2.5V (for 5.0V CMOS)"), 3);
+ presets.emplace_back(tr("1.5V (for TTL)"), 4);
+ }
+
+ if (conversion_type_ == A2LConversionBySchmittTrigger) {
+ // Source: http://www.interfacebus.com/voltage_threshold.html
+ presets.emplace_back(tr("Signal average +/- 15%"), 0);
+ presets.emplace_back(tr("0.3V/1.2V (for 1.8V CMOS)"), 1);
+ presets.emplace_back(tr("0.7V/2.5V (for 3.3V CMOS)"), 2);
+ presets.emplace_back(tr("1.3V/3.7V (for 5.0V CMOS)"), 3);
+ presets.emplace_back(tr("0.8V/2.0V (for TTL)"), 4);
+ }
+
+ return presets;
+}
+
+SignalBase::ConversionPreset SignalBase::get_current_conversion_preset() const
+{
+ auto preset = conversion_options_.find("preset");
+ if (preset != conversion_options_.end())
+ return (ConversionPreset)((preset->second).toInt());
+
+ return DynamicPreset;
+}
+
+void SignalBase::set_conversion_preset(ConversionPreset id)
+{
+ conversion_options_["preset"] = (int)id;
+}
+
+#ifdef ENABLE_DECODE
+bool SignalBase::is_decode_signal() const
+{
+ return (channel_type_ == DecodeChannel);
+}
+#endif
+
+void SignalBase::save_settings(QSettings &settings) const
+{
+ settings.setValue("name", name());
+ settings.setValue("enabled", enabled());
+ settings.setValue("color", color());
+ settings.setValue("conversion_type", (int)conversion_type_);
+
+ settings.setValue("conv_options", (int)(conversion_options_.size()));
+ int i = 0;
+ for (auto kvp : conversion_options_) {
+ settings.setValue(QString("conv_option%1_key").arg(i), kvp.first);
+ settings.setValue(QString("conv_option%1_value").arg(i), kvp.second);
+ i++;
+ }
+}
+
+void SignalBase::restore_settings(QSettings &settings)
+{
+ if (settings.contains("name"))
+ set_name(settings.value("name").toString());
+
+ if (settings.contains("enabled"))
+ set_enabled(settings.value("enabled").toBool());
+
+ if (settings.contains("color"))
+ set_color(settings.value("color").value<QColor>());
+
+ if (settings.contains("conversion_type"))
+ set_conversion_type((ConversionType)settings.value("conversion_type").toInt());
+
+ int conv_options = 0;
+ if (settings.contains("conv_options"))
+ conv_options = settings.value("conv_options").toInt();
+
+ if (conv_options)
+ for (int i = 0; i < conv_options; i++) {
+ const QString key_id = QString("conv_option%1_key").arg(i);
+ const QString value_id = QString("conv_option%1_value").arg(i);
+
+ if (settings.contains(key_id) && settings.contains(value_id))
+ conversion_options_[settings.value(key_id).toString()] =
+ settings.value(value_id);
+ }