/** * SDRangel * This is the web REST/JSON API of SDRangel SDR software. SDRangel is an Open Source Qt5/OpenGL 3.0+ (4.3+ in Windows) GUI and server Software Defined Radio and signal analyzer in software. It supports Airspy, BladeRF, HackRF, LimeSDR, PlutoSDR, RTL-SDR, SDRplay RSP1 and FunCube --- Limitations and specifcities: * In SDRangel GUI the first Rx device set cannot be deleted. Conversely the server starts with no device sets and its number of device sets can be reduced to zero by as many calls as necessary to /sdrangel/deviceset with DELETE method. * Preset import and export from/to file is a server only feature. * Device set focus is a GUI only feature. * The following channels are not implemented (status 501 is returned): ATV and DATV demodulators, Channel Analyzer NG, LoRa demodulator * The device settings and report structures contains only the sub-structure corresponding to the device type. The DeviceSettings and DeviceReport structures documented here shows all of them but only one will be or should be present at a time * The channel settings and report structures contains only the sub-structure corresponding to the channel type. The ChannelSettings and ChannelReport structures documented here shows all of them but only one will be or should be present at a time --- * * OpenAPI spec version: 6.0.0 * Contact: f4exb06@gmail.com * * NOTE: This class is auto generated by the swagger code generator program. * https://github.com/swagger-api/swagger-codegen.git * Do not edit the class manually. */ #include "SWGGLSpectrum.h" #include "SWGHelpers.h" #include #include #include #include namespace SWGSDRangel { SWGGLSpectrum::SWGGLSpectrum(QString* json) { init(); this->fromJson(*json); } SWGGLSpectrum::SWGGLSpectrum() { fft_size = 0; m_fft_size_isSet = false; fft_overlap = 0; m_fft_overlap_isSet = false; fft_window = 0; m_fft_window_isSet = false; ref_level = 0.0f; m_ref_level_isSet = false; power_range = 0.0f; m_power_range_isSet = false; fps_period_ms = 0; m_fps_period_ms_isSet = false; display_waterfall = 0; m_display_waterfall_isSet = false; inverted_waterfall = 0; m_inverted_waterfall_isSet = false; display_max_hold = 0; m_display_max_hold_isSet = false; display_histogram = 0; m_display_histogram_isSet = false; decay = 0; m_decay_isSet = false; display_grid = 0; m_display_grid_isSet = false; display_grid_intensity = 0; m_display_grid_intensity_isSet = false; decay_divisor = 0; m_decay_divisor_isSet = false; histogram_stroke = 0; m_histogram_stroke_isSet = false; display_current = 0; m_display_current_isSet = false; display_trace_intensity = 0; m_display_trace_intensity_isSet = false; waterfall_share = 0.0f; m_waterfall_share_isSet = false; averaging_mode = 0; m_averaging_mode_isSet = false; averaging_value = 0; m_averaging_value_isSet = false; linear = 0; m_linear_isSet = false; ssb = 0; m_ssb_isSet = false; usb = 0; m_usb_isSet = false; ws_spectrum = 0; m_ws_spectrum_isSet = false; ws_spectrum_address = nullptr; m_ws_spectrum_address_isSet = false; ws_spectrum_port = 0; m_ws_spectrum_port_isSet = false; histogram_markers = nullptr; m_histogram_markers_isSet = false; waterfall_markers = nullptr; m_waterfall_markers_isSet = false; annotation_markers = nullptr; m_annotation_markers_isSet = false; } SWGGLSpectrum::~SWGGLSpectrum() { this->cleanup(); } void SWGGLSpectrum::init() { fft_size = 0; m_fft_size_isSet = false; fft_overlap = 0; m_fft_overlap_isSet = false; fft_window = 0; m_fft_window_isSet = false; ref_level = 0.0f; m_ref_level_isSet = false; power_range = 0.0f; m_power_range_isSet = false; fps_period_ms = 0; m_fps_period_ms_isSet = false; display_waterfall = 0; m_display_waterfall_isSet = false; inverted_waterfall = 0; m_inverted_waterfall_isSet = false; display_max_hold = 0; m_display_max_hold_isSet = false; display_histogram = 0; m_display_histogram_isSet = false; decay = 0; m_decay_isSet = false; display_grid = 0; m_display_grid_isSet = false; display_grid_intensity = 0; m_display_grid_intensity_isSet = false; decay_divisor = 0; m_decay_divisor_isSet = false; histogram_stroke = 0; m_histogram_stroke_isSet = false; display_current = 0; m_display_current_isSet = false; display_trace_intensity = 0; m_display_trace_intensity_isSet = false; waterfall_share = 0.0f; m_waterfall_share_isSet = false; averaging_mode = 0; m_averaging_mode_isSet = false; averaging_value = 0; m_averaging_value_isSet = false; linear = 0; m_linear_isSet = false; ssb = 0; m_ssb_isSet = false; usb = 0; m_usb_isSet = false; ws_spectrum = 0; m_ws_spectrum_isSet = false; ws_spectrum_address = new QString(""); m_ws_spectrum_address_isSet = false; ws_spectrum_port = 0; m_ws_spectrum_port_isSet = false; histogram_markers = new QList(); m_histogram_markers_isSet = false; waterfall_markers = new QList(); m_waterfall_markers_isSet = false; annotation_markers = new QList(); m_annotation_markers_isSet = false; } void SWGGLSpectrum::cleanup() { if(ws_spectrum_address != nullptr) { delete ws_spectrum_address; } if(histogram_markers != nullptr) { auto arr = histogram_markers; for(auto o: *arr) { delete o; } delete histogram_markers; } if(waterfall_markers != nullptr) { auto arr = waterfall_markers; for(auto o: *arr) { delete o; } delete waterfall_markers; } if(annotation_markers != nullptr) { auto arr = annotation_markers; for(auto o: *arr) { delete o; } delete annotation_markers; } } SWGGLSpectrum* SWGGLSpectrum::fromJson(QString &json) { QByteArray array (json.toStdString().c_str()); QJsonDocument doc = QJsonDocument::fromJson(array); QJsonObject jsonObject = doc.object(); this->fromJsonObject(jsonObject); return this; } void SWGGLSpectrum::fromJsonObject(QJsonObject &pJson) { ::SWGSDRangel::setValue(&fft_size, pJson["fftSize"], "qint32", ""); ::SWGSDRangel::setValue(&fft_overlap, pJson["fftOverlap"], "qint32", ""); ::SWGSDRangel::setValue(&fft_window, pJson["fftWindow"], "qint32", ""); ::SWGSDRangel::setValue(&ref_level, pJson["refLevel"], "float", ""); ::SWGSDRangel::setValue(&power_range, pJson["powerRange"], "float", ""); ::SWGSDRangel::setValue(&fps_period_ms, pJson["fpsPeriodMs"], "qint32", ""); ::SWGSDRangel::setValue(&display_waterfall, pJson["displayWaterfall"], "qint32", ""); ::SWGSDRangel::setValue(&inverted_waterfall, pJson["invertedWaterfall"], "qint32", ""); ::SWGSDRangel::setValue(&display_max_hold, pJson["displayMaxHold"], "qint32", ""); ::SWGSDRangel::setValue(&display_histogram, pJson["displayHistogram"], "qint32", ""); ::SWGSDRangel::setValue(&decay, pJson["decay"], "qint32", ""); ::SWGSDRangel::setValue(&display_grid, pJson["displayGrid"], "qint32", ""); ::SWGSDRangel::setValue(&display_grid_intensity, pJson["displayGridIntensity"], "qint32", ""); ::SWGSDRangel::setValue(&decay_divisor, pJson["decayDivisor"], "qint32", ""); ::SWGSDRangel::setValue(&histogram_stroke, pJson["histogramStroke"], "qint32", ""); ::SWGSDRangel::setValue(&display_current, pJson["displayCurrent"], "qint32", ""); ::SWGSDRangel::setValue(&display_trace_intensity, pJson["displayTraceIntensity"], "qint32", ""); ::SWGSDRangel::setValue(&waterfall_share, pJson["waterfallShare"], "float", ""); ::SWGSDRangel::setValue(&averaging_mode, pJson["averagingMode"], "qint32", ""); ::SWGSDRangel::setValue(&averaging_value, pJson["averagingValue"], "qint32", ""); ::SWGSDRangel::setValue(&linear, pJson["linear"], "qint32", ""); ::SWGSDRangel::setValue(&ssb, pJson["ssb"], "qint32", ""); ::SWGSDRangel::setValue(&usb, pJson["usb"], "qint32", ""); ::SWGSDRangel::setValue(&ws_spectrum, pJson["wsSpectrum"], "qint32", ""); ::SWGSDRangel::setValue(&ws_spectrum_address, pJson["wsSpectrumAddress"], "QString", "QString"); ::SWGSDRangel::setValue(&ws_spectrum_port, pJson["wsSpectrumPort"], "qint32", ""); ::SWGSDRangel::setValue(&histogram_markers, pJson["histogramMarkers"], "QList", "SWGSpectrumHistogramMarker"); ::SWGSDRangel::setValue(&waterfall_markers, pJson["waterfallMarkers"], "QList", "SWGSpectrumWaterfallMarker"); ::SWGSDRangel::setValue(&annotation_markers, pJson["annotationMarkers"], "QList", "SWGSpectrumAnnotationMarker"); } QString SWGGLSpectrum::asJson () { QJsonObject* obj = this->asJsonObject(); QJsonDocument doc(*obj); QByteArray bytes = doc.toJson(); delete obj; return QString(bytes); } QJsonObject* SWGGLSpectrum::asJsonObject() { QJsonObject* obj = new QJsonObject(); if(m_fft_size_isSet){ obj->insert("fftSize", QJsonValue(fft_size)); } if(m_fft_overlap_isSet){ obj->insert("fftOverlap", QJsonValue(fft_overlap)); } if(m_fft_window_isSet){ obj->insert("fftWindow", QJsonValue(fft_window)); } if(m_ref_level_isSet){ obj->insert("refLevel", QJsonValue(ref_level)); } if(m_power_range_isSet){ obj->insert("powerRange", QJsonValue(power_range)); } if(m_fps_period_ms_isSet){ obj->insert("fpsPeriodMs", QJsonValue(fps_period_ms)); } if(m_display_waterfall_isSet){ obj->insert("displayWaterfall", QJsonValue(display_waterfall)); } if(m_inverted_waterfall_isSet){ obj->insert("invertedWaterfall", QJsonValue(inverted_waterfall)); } if(m_display_max_hold_isSet){ obj->insert("displayMaxHold", QJsonValue(display_max_hold)); } if(m_display_histogram_isSet){ obj->insert("displayHistogram", QJsonValue(display_histogram)); } if(m_decay_isSet){ obj->insert("decay", QJsonValue(decay)); } if(m_display_grid_isSet){ obj->insert("displayGrid", QJsonValue(display_grid)); } if(m_display_grid_intensity_isSet){ obj->insert("displayGridIntensity", QJsonValue(display_grid_intensity)); } if(m_decay_divisor_isSet){ obj->insert("decayDivisor", QJsonValue(decay_divisor)); } if(m_histogram_stroke_isSet){ obj->insert("histogramStroke", QJsonValue(histogram_stroke)); } if(m_display_current_isSet){ obj->insert("displayCurrent", QJsonValue(display_current)); } if(m_display_trace_intensity_isSet){ obj->insert("displayTraceIntensity", QJsonValue(display_trace_intensity)); } if(m_waterfall_share_isSet){ obj->insert("waterfallShare", QJsonValue(waterfall_share)); } if(m_averaging_mode_isSet){ obj->insert("averagingMode", QJsonValue(averaging_mode)); } if(m_averaging_value_isSet){ obj->insert("averagingValue", QJsonValue(averaging_value)); } if(m_linear_isSet){ obj->insert("linear", QJsonValue(linear)); } if(m_ssb_isSet){ obj->insert("ssb", QJsonValue(ssb)); } if(m_usb_isSet){ obj->insert("usb", QJsonValue(usb)); } if(m_ws_spectrum_isSet){ obj->insert("wsSpectrum", QJsonValue(ws_spectrum)); } if(ws_spectrum_address != nullptr && *ws_spectrum_address != QString("")){ toJsonValue(QString("wsSpectrumAddress"), ws_spectrum_address, obj, QString("QString")); } if(m_ws_spectrum_port_isSet){ obj->insert("wsSpectrumPort", QJsonValue(ws_spectrum_port)); } if(histogram_markers && histogram_markers->size() > 0){ toJsonArray((QList*)histogram_markers, obj, "histogramMarkers", "SWGSpectrumHistogramMarker"); } if(waterfall_markers && waterfall_markers->size() > 0){ toJsonArray((QList*)waterfall_markers, obj, "waterfallMarkers", "SWGSpectrumWaterfallMarker"); } if(annotation_markers && annotation_markers->size() > 0){ toJsonArray((QList*)annotation_markers, obj, "annotationMarkers", "SWGSpectrumAnnotationMarker"); } return obj; } qint32 SWGGLSpectrum::getFftSize() { return fft_size; } void SWGGLSpectrum::setFftSize(qint32 fft_size) { this->fft_size = fft_size; this->m_fft_size_isSet = true; } qint32 SWGGLSpectrum::getFftOverlap() { return fft_overlap; } void SWGGLSpectrum::setFftOverlap(qint32 fft_overlap) { this->fft_overlap = fft_overlap; this->m_fft_overlap_isSet = true; } qint32 SWGGLSpectrum::getFftWindow() { return fft_window; } void SWGGLSpectrum::setFftWindow(qint32 fft_window) { this->fft_window = fft_window; this->m_fft_window_isSet = true; } float SWGGLSpectrum::getRefLevel() { return ref_level; } void SWGGLSpectrum::setRefLevel(float ref_level) { this->ref_level = ref_level; this->m_ref_level_isSet = true; } float SWGGLSpectrum::getPowerRange() { return power_range; } void SWGGLSpectrum::setPowerRange(float power_range) { this->power_range = power_range; this->m_power_range_isSet = true; } qint32 SWGGLSpectrum::getFpsPeriodMs() { return fps_period_ms; } void SWGGLSpectrum::setFpsPeriodMs(qint32 fps_period_ms) { this->fps_period_ms = fps_period_ms; this->m_fps_period_ms_isSet = true; } qint32 SWGGLSpectrum::getDisplayWaterfall() { return display_waterfall; } void SWGGLSpectrum::setDisplayWaterfall(qint32 display_waterfall) { this->display_waterfall = display_waterfall; this->m_display_waterfall_isSet = true; } qint32 SWGGLSpectrum::getInvertedWaterfall() { return inverted_waterfall; } void SWGGLSpectrum::setInvertedWaterfall(qint32 inverted_waterfall) { this->inverted_waterfall = inverted_waterfall; this->m_inverted_waterfall_isSet = true; } qint32 SWGGLSpectrum::getDisplayMaxHold() { return display_max_hold; } void SWGGLSpectrum::setDisplayMaxHold(qint32 display_max_hold) { this->display_max_hold = display_max_hold; this->m_display_max_hold_isSet = true; } qint32 SWGGLSpectrum::getDisplayHistogram() { return display_histogram; } void SWGGLSpectrum::setDisplayHistogram(qint32 display_histogram) { this->display_histogram = display_histogram; this->m_display_histogram_isSet = true; } qint32 SWGGLSpectrum::getDecay() { return decay; } void SWGGLSpectrum::setDecay(qint32 decay) { this->decay = decay; this->m_decay_isSet = true; } qint32 SWGGLSpectrum::getDisplayGrid() { return display_grid; } void SWGGLSpectrum::setDisplayGrid(qint32 display_grid) { this->display_grid = display_grid; this->m_display_grid_isSet = true; } qint32 SWGGLSpectrum::getDisplayGridIntensity() { return display_grid_intensity; } void SWGGLSpectrum::setDisplayGridIntensity(qint32 display_grid_intensity) { this->display_grid_intensity = display_grid_intensity; this->m_display_grid_intensity_isSet = true; } qint32 SWGGLSpectrum::getDecayDivisor() { return decay_divisor; } void SWGGLSpectrum::setDecayDivisor(qint32 decay_divisor) { this->decay_divisor = decay_divisor; this->m_decay_divisor_isSet = true; } qint32 SWGGLSpectrum::getHistogramStroke() { return histogram_stroke; } void SWGGLSpectrum::setHistogramStroke(qint32 histogram_stroke) { this->histogram_stroke = histogram_stroke; this->m_histogram_stroke_isSet = true; } qint32 SWGGLSpectrum::getDisplayCurrent() { return display_current; } void SWGGLSpectrum::setDisplayCurrent(qint32 display_current) { this->display_current = display_current; this->m_display_current_isSet = true; } qint32 SWGGLSpectrum::getDisplayTraceIntensity() { return display_trace_intensity; } void SWGGLSpectrum::setDisplayTraceIntensity(qint32 display_trace_intensity) { this->display_trace_intensity = display_trace_intensity; this->m_display_trace_intensity_isSet = true; } float SWGGLSpectrum::getWaterfallShare() { return waterfall_share; } void SWGGLSpectrum::setWaterfallShare(float waterfall_share) { this->waterfall_share = waterfall_share; this->m_waterfall_share_isSet = true; } qint32 SWGGLSpectrum::getAveragingMode() { return averaging_mode; } void SWGGLSpectrum::setAveragingMode(qint32 averaging_mode) { this->averaging_mode = averaging_mode; this->m_averaging_mode_isSet = true; } qint32 SWGGLSpectrum::getAveragingValue() { return averaging_value; } void SWGGLSpectrum::setAveragingValue(qint32 averaging_value) { this->averaging_value = averaging_value; this->m_averaging_value_isSet = true; } qint32 SWGGLSpectrum::getLinear() { return linear; } void SWGGLSpectrum::setLinear(qint32 linear) { this->linear = linear; this->m_linear_isSet = true; } qint32 SWGGLSpectrum::getSsb() { return ssb; } void SWGGLSpectrum::setSsb(qint32 ssb) { this->ssb = ssb; this->m_ssb_isSet = true; } qint32 SWGGLSpectrum::getUsb() { return usb; } void SWGGLSpectrum::setUsb(qint32 usb) { this->usb = usb; this->m_usb_isSet = true; } qint32 SWGGLSpectrum::getWsSpectrum() { return ws_spectrum; } void SWGGLSpectrum::setWsSpectrum(qint32 ws_spectrum) { this->ws_spectrum = ws_spectrum; this->m_ws_spectrum_isSet = true; } QString* SWGGLSpectrum::getWsSpectrumAddress() { return ws_spectrum_address; } void SWGGLSpectrum::setWsSpectrumAddress(QString* ws_spectrum_address) { this->ws_spectrum_address = ws_spectrum_address; this->m_ws_spectrum_address_isSet = true; } qint32 SWGGLSpectrum::getWsSpectrumPort() { return ws_spectrum_port; } void SWGGLSpectrum::setWsSpectrumPort(qint32 ws_spectrum_port) { this->ws_spectrum_port = ws_spectrum_port; this->m_ws_spectrum_port_isSet = true; } QList* SWGGLSpectrum::getHistogramMarkers() { return histogram_markers; } void SWGGLSpectrum::setHistogramMarkers(QList* histogram_markers) { this->histogram_markers = histogram_markers; this->m_histogram_markers_isSet = true; } QList* SWGGLSpectrum::getWaterfallMarkers() { return waterfall_markers; } void SWGGLSpectrum::setWaterfallMarkers(QList* waterfall_markers) { this->waterfall_markers = waterfall_markers; this->m_waterfall_markers_isSet = true; } QList* SWGGLSpectrum::getAnnotationMarkers() { return annotation_markers; } void SWGGLSpectrum::setAnnotationMarkers(QList* annotation_markers) { this->annotation_markers = annotation_markers; this->m_annotation_markers_isSet = true; } bool SWGGLSpectrum::isSet(){ bool isObjectUpdated = false; do{ if(m_fft_size_isSet){ isObjectUpdated = true; break; } if(m_fft_overlap_isSet){ isObjectUpdated = true; break; } if(m_fft_window_isSet){ isObjectUpdated = true; break; } if(m_ref_level_isSet){ isObjectUpdated = true; break; } if(m_power_range_isSet){ isObjectUpdated = true; break; } if(m_fps_period_ms_isSet){ isObjectUpdated = true; break; } if(m_display_waterfall_isSet){ isObjectUpdated = true; break; } if(m_inverted_waterfall_isSet){ isObjectUpdated = true; break; } if(m_display_max_hold_isSet){ isObjectUpdated = true; break; } if(m_display_histogram_isSet){ isObjectUpdated = true; break; } if(m_decay_isSet){ isObjectUpdated = true; break; } if(m_display_grid_isSet){ isObjectUpdated = true; break; } if(m_display_grid_intensity_isSet){ isObjectUpdated = true; break; } if(m_decay_divisor_isSet){ isObjectUpdated = true; break; } if(m_histogram_stroke_isSet){ isObjectUpdated = true; break; } if(m_display_current_isSet){ isObjectUpdated = true; break; } if(m_display_trace_intensity_isSet){ isObjectUpdated = true; break; } if(m_waterfall_share_isSet){ isObjectUpdated = true; break; } if(m_averaging_mode_isSet){ isObjectUpdated = true; break; } if(m_averaging_value_isSet){ isObjectUpdated = true; break; } if(m_linear_isSet){ isObjectUpdated = true; break; } if(m_ssb_isSet){ isObjectUpdated = true; break; } if(m_usb_isSet){ isObjectUpdated = true; break; } if(m_ws_spectrum_isSet){ isObjectUpdated = true; break; } if(ws_spectrum_address && *ws_spectrum_address != QString("")){ isObjectUpdated = true; break; } if(m_ws_spectrum_port_isSet){ isObjectUpdated = true; break; } if(histogram_markers && (histogram_markers->size() > 0)){ isObjectUpdated = true; break; } if(waterfall_markers && (waterfall_markers->size() > 0)){ isObjectUpdated = true; break; } if(annotation_markers && (annotation_markers->size() > 0)){ isObjectUpdated = true; break; } }while(false); return isObjectUpdated; } }