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sdrangel/swagger/sdrangel/code/qt5/client/SWGLimeSdrInputSettings.cpp

732 lines
20 KiB
C++

/**
* 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 "SWGLimeSdrInputSettings.h"
#include "SWGHelpers.h"
#include <QJsonDocument>
#include <QJsonArray>
#include <QObject>
#include <QDebug>
namespace SWGSDRangel {
SWGLimeSdrInputSettings::SWGLimeSdrInputSettings(QString* json) {
init();
this->fromJson(*json);
}
SWGLimeSdrInputSettings::SWGLimeSdrInputSettings() {
center_frequency = 0L;
m_center_frequency_isSet = false;
dev_sample_rate = 0;
m_dev_sample_rate_isSet = false;
log2_hard_decim = 0;
m_log2_hard_decim_isSet = false;
dc_block = 0;
m_dc_block_isSet = false;
iq_correction = 0;
m_iq_correction_isSet = false;
log2_soft_decim = 0;
m_log2_soft_decim_isSet = false;
lpf_bw = 0;
m_lpf_bw_isSet = false;
lpf_fir_enable = 0;
m_lpf_fir_enable_isSet = false;
lpf_firbw = 0;
m_lpf_firbw_isSet = false;
gain = 0;
m_gain_isSet = false;
nco_enable = 0;
m_nco_enable_isSet = false;
nco_frequency = 0;
m_nco_frequency_isSet = false;
antenna_path = 0;
m_antenna_path_isSet = false;
gain_mode = 0;
m_gain_mode_isSet = false;
lna_gain = 0;
m_lna_gain_isSet = false;
tia_gain = 0;
m_tia_gain_isSet = false;
pga_gain = 0;
m_pga_gain_isSet = false;
ext_clock = 0;
m_ext_clock_isSet = false;
ext_clock_freq = 0;
m_ext_clock_freq_isSet = false;
transverter_mode = 0;
m_transverter_mode_isSet = false;
transverter_delta_frequency = 0L;
m_transverter_delta_frequency_isSet = false;
iq_order = 0;
m_iq_order_isSet = false;
gpio_dir = 0;
m_gpio_dir_isSet = false;
gpio_pins = 0;
m_gpio_pins_isSet = false;
use_reverse_api = 0;
m_use_reverse_api_isSet = false;
reverse_api_address = nullptr;
m_reverse_api_address_isSet = false;
reverse_api_port = 0;
m_reverse_api_port_isSet = false;
reverse_api_device_index = 0;
m_reverse_api_device_index_isSet = false;
}
SWGLimeSdrInputSettings::~SWGLimeSdrInputSettings() {
this->cleanup();
}
void
SWGLimeSdrInputSettings::init() {
center_frequency = 0L;
m_center_frequency_isSet = false;
dev_sample_rate = 0;
m_dev_sample_rate_isSet = false;
log2_hard_decim = 0;
m_log2_hard_decim_isSet = false;
dc_block = 0;
m_dc_block_isSet = false;
iq_correction = 0;
m_iq_correction_isSet = false;
log2_soft_decim = 0;
m_log2_soft_decim_isSet = false;
lpf_bw = 0;
m_lpf_bw_isSet = false;
lpf_fir_enable = 0;
m_lpf_fir_enable_isSet = false;
lpf_firbw = 0;
m_lpf_firbw_isSet = false;
gain = 0;
m_gain_isSet = false;
nco_enable = 0;
m_nco_enable_isSet = false;
nco_frequency = 0;
m_nco_frequency_isSet = false;
antenna_path = 0;
m_antenna_path_isSet = false;
gain_mode = 0;
m_gain_mode_isSet = false;
lna_gain = 0;
m_lna_gain_isSet = false;
tia_gain = 0;
m_tia_gain_isSet = false;
pga_gain = 0;
m_pga_gain_isSet = false;
ext_clock = 0;
m_ext_clock_isSet = false;
ext_clock_freq = 0;
m_ext_clock_freq_isSet = false;
transverter_mode = 0;
m_transverter_mode_isSet = false;
transverter_delta_frequency = 0L;
m_transverter_delta_frequency_isSet = false;
iq_order = 0;
m_iq_order_isSet = false;
gpio_dir = 0;
m_gpio_dir_isSet = false;
gpio_pins = 0;
m_gpio_pins_isSet = false;
use_reverse_api = 0;
m_use_reverse_api_isSet = false;
reverse_api_address = new QString("");
m_reverse_api_address_isSet = false;
reverse_api_port = 0;
m_reverse_api_port_isSet = false;
reverse_api_device_index = 0;
m_reverse_api_device_index_isSet = false;
}
void
SWGLimeSdrInputSettings::cleanup() {
if(reverse_api_address != nullptr) {
delete reverse_api_address;
}
}
SWGLimeSdrInputSettings*
SWGLimeSdrInputSettings::fromJson(QString &json) {
QByteArray array (json.toStdString().c_str());
QJsonDocument doc = QJsonDocument::fromJson(array);
QJsonObject jsonObject = doc.object();
this->fromJsonObject(jsonObject);
return this;
}
void
SWGLimeSdrInputSettings::fromJsonObject(QJsonObject &pJson) {
::SWGSDRangel::setValue(&center_frequency, pJson["centerFrequency"], "qint64", "");
::SWGSDRangel::setValue(&dev_sample_rate, pJson["devSampleRate"], "qint32", "");
::SWGSDRangel::setValue(&log2_hard_decim, pJson["log2HardDecim"], "qint32", "");
::SWGSDRangel::setValue(&dc_block, pJson["dcBlock"], "qint32", "");
::SWGSDRangel::setValue(&iq_correction, pJson["iqCorrection"], "qint32", "");
::SWGSDRangel::setValue(&log2_soft_decim, pJson["log2SoftDecim"], "qint32", "");
::SWGSDRangel::setValue(&lpf_bw, pJson["lpfBW"], "qint32", "");
::SWGSDRangel::setValue(&lpf_fir_enable, pJson["lpfFIREnable"], "qint32", "");
::SWGSDRangel::setValue(&lpf_firbw, pJson["lpfFIRBW"], "qint32", "");
::SWGSDRangel::setValue(&gain, pJson["gain"], "qint32", "");
::SWGSDRangel::setValue(&nco_enable, pJson["ncoEnable"], "qint32", "");
::SWGSDRangel::setValue(&nco_frequency, pJson["ncoFrequency"], "qint32", "");
::SWGSDRangel::setValue(&antenna_path, pJson["antennaPath"], "qint32", "");
::SWGSDRangel::setValue(&gain_mode, pJson["gainMode"], "qint32", "");
::SWGSDRangel::setValue(&lna_gain, pJson["lnaGain"], "qint32", "");
::SWGSDRangel::setValue(&tia_gain, pJson["tiaGain"], "qint32", "");
::SWGSDRangel::setValue(&pga_gain, pJson["pgaGain"], "qint32", "");
::SWGSDRangel::setValue(&ext_clock, pJson["extClock"], "qint32", "");
::SWGSDRangel::setValue(&ext_clock_freq, pJson["extClockFreq"], "qint32", "");
::SWGSDRangel::setValue(&transverter_mode, pJson["transverterMode"], "qint32", "");
::SWGSDRangel::setValue(&transverter_delta_frequency, pJson["transverterDeltaFrequency"], "qint64", "");
::SWGSDRangel::setValue(&iq_order, pJson["iqOrder"], "qint32", "");
::SWGSDRangel::setValue(&gpio_dir, pJson["gpioDir"], "qint32", "");
::SWGSDRangel::setValue(&gpio_pins, pJson["gpioPins"], "qint32", "");
::SWGSDRangel::setValue(&use_reverse_api, pJson["useReverseAPI"], "qint32", "");
::SWGSDRangel::setValue(&reverse_api_address, pJson["reverseAPIAddress"], "QString", "QString");
::SWGSDRangel::setValue(&reverse_api_port, pJson["reverseAPIPort"], "qint32", "");
::SWGSDRangel::setValue(&reverse_api_device_index, pJson["reverseAPIDeviceIndex"], "qint32", "");
}
QString
SWGLimeSdrInputSettings::asJson ()
{
QJsonObject* obj = this->asJsonObject();
QJsonDocument doc(*obj);
QByteArray bytes = doc.toJson();
delete obj;
return QString(bytes);
}
QJsonObject*
SWGLimeSdrInputSettings::asJsonObject() {
QJsonObject* obj = new QJsonObject();
if(m_center_frequency_isSet){
obj->insert("centerFrequency", QJsonValue(center_frequency));
}
if(m_dev_sample_rate_isSet){
obj->insert("devSampleRate", QJsonValue(dev_sample_rate));
}
if(m_log2_hard_decim_isSet){
obj->insert("log2HardDecim", QJsonValue(log2_hard_decim));
}
if(m_dc_block_isSet){
obj->insert("dcBlock", QJsonValue(dc_block));
}
if(m_iq_correction_isSet){
obj->insert("iqCorrection", QJsonValue(iq_correction));
}
if(m_log2_soft_decim_isSet){
obj->insert("log2SoftDecim", QJsonValue(log2_soft_decim));
}
if(m_lpf_bw_isSet){
obj->insert("lpfBW", QJsonValue(lpf_bw));
}
if(m_lpf_fir_enable_isSet){
obj->insert("lpfFIREnable", QJsonValue(lpf_fir_enable));
}
if(m_lpf_firbw_isSet){
obj->insert("lpfFIRBW", QJsonValue(lpf_firbw));
}
if(m_gain_isSet){
obj->insert("gain", QJsonValue(gain));
}
if(m_nco_enable_isSet){
obj->insert("ncoEnable", QJsonValue(nco_enable));
}
if(m_nco_frequency_isSet){
obj->insert("ncoFrequency", QJsonValue(nco_frequency));
}
if(m_antenna_path_isSet){
obj->insert("antennaPath", QJsonValue(antenna_path));
}
if(m_gain_mode_isSet){
obj->insert("gainMode", QJsonValue(gain_mode));
}
if(m_lna_gain_isSet){
obj->insert("lnaGain", QJsonValue(lna_gain));
}
if(m_tia_gain_isSet){
obj->insert("tiaGain", QJsonValue(tia_gain));
}
if(m_pga_gain_isSet){
obj->insert("pgaGain", QJsonValue(pga_gain));
}
if(m_ext_clock_isSet){
obj->insert("extClock", QJsonValue(ext_clock));
}
if(m_ext_clock_freq_isSet){
obj->insert("extClockFreq", QJsonValue(ext_clock_freq));
}
if(m_transverter_mode_isSet){
obj->insert("transverterMode", QJsonValue(transverter_mode));
}
if(m_transverter_delta_frequency_isSet){
obj->insert("transverterDeltaFrequency", QJsonValue(transverter_delta_frequency));
}
if(m_iq_order_isSet){
obj->insert("iqOrder", QJsonValue(iq_order));
}
if(m_gpio_dir_isSet){
obj->insert("gpioDir", QJsonValue(gpio_dir));
}
if(m_gpio_pins_isSet){
obj->insert("gpioPins", QJsonValue(gpio_pins));
}
if(m_use_reverse_api_isSet){
obj->insert("useReverseAPI", QJsonValue(use_reverse_api));
}
if(reverse_api_address != nullptr && *reverse_api_address != QString("")){
toJsonValue(QString("reverseAPIAddress"), reverse_api_address, obj, QString("QString"));
}
if(m_reverse_api_port_isSet){
obj->insert("reverseAPIPort", QJsonValue(reverse_api_port));
}
if(m_reverse_api_device_index_isSet){
obj->insert("reverseAPIDeviceIndex", QJsonValue(reverse_api_device_index));
}
return obj;
}
qint64
SWGLimeSdrInputSettings::getCenterFrequency() {
return center_frequency;
}
void
SWGLimeSdrInputSettings::setCenterFrequency(qint64 center_frequency) {
this->center_frequency = center_frequency;
this->m_center_frequency_isSet = true;
}
qint32
SWGLimeSdrInputSettings::getDevSampleRate() {
return dev_sample_rate;
}
void
SWGLimeSdrInputSettings::setDevSampleRate(qint32 dev_sample_rate) {
this->dev_sample_rate = dev_sample_rate;
this->m_dev_sample_rate_isSet = true;
}
qint32
SWGLimeSdrInputSettings::getLog2HardDecim() {
return log2_hard_decim;
}
void
SWGLimeSdrInputSettings::setLog2HardDecim(qint32 log2_hard_decim) {
this->log2_hard_decim = log2_hard_decim;
this->m_log2_hard_decim_isSet = true;
}
qint32
SWGLimeSdrInputSettings::getDcBlock() {
return dc_block;
}
void
SWGLimeSdrInputSettings::setDcBlock(qint32 dc_block) {
this->dc_block = dc_block;
this->m_dc_block_isSet = true;
}
qint32
SWGLimeSdrInputSettings::getIqCorrection() {
return iq_correction;
}
void
SWGLimeSdrInputSettings::setIqCorrection(qint32 iq_correction) {
this->iq_correction = iq_correction;
this->m_iq_correction_isSet = true;
}
qint32
SWGLimeSdrInputSettings::getLog2SoftDecim() {
return log2_soft_decim;
}
void
SWGLimeSdrInputSettings::setLog2SoftDecim(qint32 log2_soft_decim) {
this->log2_soft_decim = log2_soft_decim;
this->m_log2_soft_decim_isSet = true;
}
qint32
SWGLimeSdrInputSettings::getLpfBw() {
return lpf_bw;
}
void
SWGLimeSdrInputSettings::setLpfBw(qint32 lpf_bw) {
this->lpf_bw = lpf_bw;
this->m_lpf_bw_isSet = true;
}
qint32
SWGLimeSdrInputSettings::getLpfFirEnable() {
return lpf_fir_enable;
}
void
SWGLimeSdrInputSettings::setLpfFirEnable(qint32 lpf_fir_enable) {
this->lpf_fir_enable = lpf_fir_enable;
this->m_lpf_fir_enable_isSet = true;
}
qint32
SWGLimeSdrInputSettings::getLpfFirbw() {
return lpf_firbw;
}
void
SWGLimeSdrInputSettings::setLpfFirbw(qint32 lpf_firbw) {
this->lpf_firbw = lpf_firbw;
this->m_lpf_firbw_isSet = true;
}
qint32
SWGLimeSdrInputSettings::getGain() {
return gain;
}
void
SWGLimeSdrInputSettings::setGain(qint32 gain) {
this->gain = gain;
this->m_gain_isSet = true;
}
qint32
SWGLimeSdrInputSettings::getNcoEnable() {
return nco_enable;
}
void
SWGLimeSdrInputSettings::setNcoEnable(qint32 nco_enable) {
this->nco_enable = nco_enable;
this->m_nco_enable_isSet = true;
}
qint32
SWGLimeSdrInputSettings::getNcoFrequency() {
return nco_frequency;
}
void
SWGLimeSdrInputSettings::setNcoFrequency(qint32 nco_frequency) {
this->nco_frequency = nco_frequency;
this->m_nco_frequency_isSet = true;
}
qint32
SWGLimeSdrInputSettings::getAntennaPath() {
return antenna_path;
}
void
SWGLimeSdrInputSettings::setAntennaPath(qint32 antenna_path) {
this->antenna_path = antenna_path;
this->m_antenna_path_isSet = true;
}
qint32
SWGLimeSdrInputSettings::getGainMode() {
return gain_mode;
}
void
SWGLimeSdrInputSettings::setGainMode(qint32 gain_mode) {
this->gain_mode = gain_mode;
this->m_gain_mode_isSet = true;
}
qint32
SWGLimeSdrInputSettings::getLnaGain() {
return lna_gain;
}
void
SWGLimeSdrInputSettings::setLnaGain(qint32 lna_gain) {
this->lna_gain = lna_gain;
this->m_lna_gain_isSet = true;
}
qint32
SWGLimeSdrInputSettings::getTiaGain() {
return tia_gain;
}
void
SWGLimeSdrInputSettings::setTiaGain(qint32 tia_gain) {
this->tia_gain = tia_gain;
this->m_tia_gain_isSet = true;
}
qint32
SWGLimeSdrInputSettings::getPgaGain() {
return pga_gain;
}
void
SWGLimeSdrInputSettings::setPgaGain(qint32 pga_gain) {
this->pga_gain = pga_gain;
this->m_pga_gain_isSet = true;
}
qint32
SWGLimeSdrInputSettings::getExtClock() {
return ext_clock;
}
void
SWGLimeSdrInputSettings::setExtClock(qint32 ext_clock) {
this->ext_clock = ext_clock;
this->m_ext_clock_isSet = true;
}
qint32
SWGLimeSdrInputSettings::getExtClockFreq() {
return ext_clock_freq;
}
void
SWGLimeSdrInputSettings::setExtClockFreq(qint32 ext_clock_freq) {
this->ext_clock_freq = ext_clock_freq;
this->m_ext_clock_freq_isSet = true;
}
qint32
SWGLimeSdrInputSettings::getTransverterMode() {
return transverter_mode;
}
void
SWGLimeSdrInputSettings::setTransverterMode(qint32 transverter_mode) {
this->transverter_mode = transverter_mode;
this->m_transverter_mode_isSet = true;
}
qint64
SWGLimeSdrInputSettings::getTransverterDeltaFrequency() {
return transverter_delta_frequency;
}
void
SWGLimeSdrInputSettings::setTransverterDeltaFrequency(qint64 transverter_delta_frequency) {
this->transverter_delta_frequency = transverter_delta_frequency;
this->m_transverter_delta_frequency_isSet = true;
}
qint32
SWGLimeSdrInputSettings::getIqOrder() {
return iq_order;
}
void
SWGLimeSdrInputSettings::setIqOrder(qint32 iq_order) {
this->iq_order = iq_order;
this->m_iq_order_isSet = true;
}
qint32
SWGLimeSdrInputSettings::getGpioDir() {
return gpio_dir;
}
void
SWGLimeSdrInputSettings::setGpioDir(qint32 gpio_dir) {
this->gpio_dir = gpio_dir;
this->m_gpio_dir_isSet = true;
}
qint32
SWGLimeSdrInputSettings::getGpioPins() {
return gpio_pins;
}
void
SWGLimeSdrInputSettings::setGpioPins(qint32 gpio_pins) {
this->gpio_pins = gpio_pins;
this->m_gpio_pins_isSet = true;
}
qint32
SWGLimeSdrInputSettings::getUseReverseApi() {
return use_reverse_api;
}
void
SWGLimeSdrInputSettings::setUseReverseApi(qint32 use_reverse_api) {
this->use_reverse_api = use_reverse_api;
this->m_use_reverse_api_isSet = true;
}
QString*
SWGLimeSdrInputSettings::getReverseApiAddress() {
return reverse_api_address;
}
void
SWGLimeSdrInputSettings::setReverseApiAddress(QString* reverse_api_address) {
this->reverse_api_address = reverse_api_address;
this->m_reverse_api_address_isSet = true;
}
qint32
SWGLimeSdrInputSettings::getReverseApiPort() {
return reverse_api_port;
}
void
SWGLimeSdrInputSettings::setReverseApiPort(qint32 reverse_api_port) {
this->reverse_api_port = reverse_api_port;
this->m_reverse_api_port_isSet = true;
}
qint32
SWGLimeSdrInputSettings::getReverseApiDeviceIndex() {
return reverse_api_device_index;
}
void
SWGLimeSdrInputSettings::setReverseApiDeviceIndex(qint32 reverse_api_device_index) {
this->reverse_api_device_index = reverse_api_device_index;
this->m_reverse_api_device_index_isSet = true;
}
bool
SWGLimeSdrInputSettings::isSet(){
bool isObjectUpdated = false;
do{
if(m_center_frequency_isSet){
isObjectUpdated = true; break;
}
if(m_dev_sample_rate_isSet){
isObjectUpdated = true; break;
}
if(m_log2_hard_decim_isSet){
isObjectUpdated = true; break;
}
if(m_dc_block_isSet){
isObjectUpdated = true; break;
}
if(m_iq_correction_isSet){
isObjectUpdated = true; break;
}
if(m_log2_soft_decim_isSet){
isObjectUpdated = true; break;
}
if(m_lpf_bw_isSet){
isObjectUpdated = true; break;
}
if(m_lpf_fir_enable_isSet){
isObjectUpdated = true; break;
}
if(m_lpf_firbw_isSet){
isObjectUpdated = true; break;
}
if(m_gain_isSet){
isObjectUpdated = true; break;
}
if(m_nco_enable_isSet){
isObjectUpdated = true; break;
}
if(m_nco_frequency_isSet){
isObjectUpdated = true; break;
}
if(m_antenna_path_isSet){
isObjectUpdated = true; break;
}
if(m_gain_mode_isSet){
isObjectUpdated = true; break;
}
if(m_lna_gain_isSet){
isObjectUpdated = true; break;
}
if(m_tia_gain_isSet){
isObjectUpdated = true; break;
}
if(m_pga_gain_isSet){
isObjectUpdated = true; break;
}
if(m_ext_clock_isSet){
isObjectUpdated = true; break;
}
if(m_ext_clock_freq_isSet){
isObjectUpdated = true; break;
}
if(m_transverter_mode_isSet){
isObjectUpdated = true; break;
}
if(m_transverter_delta_frequency_isSet){
isObjectUpdated = true; break;
}
if(m_iq_order_isSet){
isObjectUpdated = true; break;
}
if(m_gpio_dir_isSet){
isObjectUpdated = true; break;
}
if(m_gpio_pins_isSet){
isObjectUpdated = true; break;
}
if(m_use_reverse_api_isSet){
isObjectUpdated = true; break;
}
if(reverse_api_address && *reverse_api_address != QString("")){
isObjectUpdated = true; break;
}
if(m_reverse_api_port_isSet){
isObjectUpdated = true; break;
}
if(m_reverse_api_device_index_isSet){
isObjectUpdated = true; break;
}
}while(false);
return isObjectUpdated;
}
}