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Jungfraujoch/broker/gen/model/Detector_status.cpp
leonarski_f 061152279c v1.0.0-rc.91
2025-10-20 20:43:44 +02:00

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/**
* Jungfraujoch
* API to control Jungfraujoch developed by the Paul Scherrer Institute (Switzerland). Jungfraujoch is a data acquisition and analysis system for pixel array detectors, primarly PSI JUNGFRAU. Jungfraujoch uses FPGA boards to acquire data at high data rates. # License Clarification While this API definition is licensed under GPL-3.0, **the GPL copyleft provisions do not apply** when this file is used solely to generate OpenAPI clients or when implementing applications that interact with the API. Generated client code and applications using this API definition are not subject to the GPL license requirements and may be distributed under terms of your choosing. This exception is similar in spirit to the Linux Kernel's approach to userspace API headers and the GCC Runtime Library Exception. The Linux Kernel developers have explicitly stated that user programs that merely use the kernel interfaces (syscalls, ioctl definitions, etc.) are not derivative works of the kernel and are not subject to the terms of the GPL. This exception is intended to allow wider use of this API specification without imposing GPL requirements on applications that merely interact with the API, regardless of whether they communicate through network calls or other mechanisms.
*
* The version of the OpenAPI document: 1.0.0-rc.91
* Contact: filip.leonarski@psi.ch
*
* NOTE: This class is auto generated by OpenAPI Generator (https://openapi-generator.tech).
* https://openapi-generator.tech
* Do not edit the class manually.
*/
#include "Detector_status.h"
#include "Helpers.h"
#include <sstream>
namespace org::openapitools::server::model
{
Detector_status::Detector_status()
{
m_Server_version = "";
m_Number_of_triggers_left = 0L;
}
void Detector_status::validate() const
{
std::stringstream msg;
if (!validate(msg))
{
throw org::openapitools::server::helpers::ValidationException(msg.str());
}
}
bool Detector_status::validate(std::stringstream& msg) const
{
return validate(msg, "");
}
bool Detector_status::validate(std::stringstream& msg, const std::string& pathPrefix) const
{
bool success = true;
const std::string _pathPrefix = pathPrefix.empty() ? "Detector_status" : pathPrefix;
/* Fpga_temp_degC */ {
const std::vector<int64_t>& value = m_Fpga_temp_degC;
const std::string currentValuePath = _pathPrefix + ".fpgaTempDegC";
{ // Recursive validation of array elements
const std::string oldValuePath = currentValuePath;
int i = 0;
for (const int64_t& value : value)
{
const std::string currentValuePath = oldValuePath + "[" + std::to_string(i) + "]";
i++;
}
}
}
/* High_voltage_V */ {
const std::vector<int64_t>& value = m_High_voltage_V;
const std::string currentValuePath = _pathPrefix + ".highVoltageV";
{ // Recursive validation of array elements
const std::string oldValuePath = currentValuePath;
int i = 0;
for (const int64_t& value : value)
{
const std::string currentValuePath = oldValuePath + "[" + std::to_string(i) + "]";
i++;
}
}
}
return success;
}
bool Detector_status::operator==(const Detector_status& rhs) const
{
return
(getState() == rhs.getState())
&&
(getPowerchip() == rhs.getPowerchip())
&&
(getServerVersion() == rhs.getServerVersion())
&&
(getNumberOfTriggersLeft() == rhs.getNumberOfTriggersLeft())
&&
(getFpgaTempDegC() == rhs.getFpgaTempDegC())
&&
(getHighVoltageV() == rhs.getHighVoltageV())
;
}
bool Detector_status::operator!=(const Detector_status& rhs) const
{
return !(*this == rhs);
}
void to_json(nlohmann::json& j, const Detector_status& o)
{
j = nlohmann::json::object();
j["state"] = o.m_State;
j["powerchip"] = o.m_Powerchip;
j["server_version"] = o.m_Server_version;
j["number_of_triggers_left"] = o.m_Number_of_triggers_left;
j["fpga_temp_degC"] = o.m_Fpga_temp_degC;
j["high_voltage_V"] = o.m_High_voltage_V;
}
void from_json(const nlohmann::json& j, Detector_status& o)
{
j.at("state").get_to(o.m_State);
j.at("powerchip").get_to(o.m_Powerchip);
j.at("server_version").get_to(o.m_Server_version);
j.at("number_of_triggers_left").get_to(o.m_Number_of_triggers_left);
j.at("fpga_temp_degC").get_to(o.m_Fpga_temp_degC);
j.at("high_voltage_V").get_to(o.m_High_voltage_V);
}
org::openapitools::server::model::Detector_state Detector_status::getState() const
{
return m_State;
}
void Detector_status::setState(org::openapitools::server::model::Detector_state const& value)
{
m_State = value;
}
org::openapitools::server::model::Detector_power_state Detector_status::getPowerchip() const
{
return m_Powerchip;
}
void Detector_status::setPowerchip(org::openapitools::server::model::Detector_power_state const& value)
{
m_Powerchip = value;
}
std::string Detector_status::getServerVersion() const
{
return m_Server_version;
}
void Detector_status::setServerVersion(std::string const& value)
{
m_Server_version = value;
}
int64_t Detector_status::getNumberOfTriggersLeft() const
{
return m_Number_of_triggers_left;
}
void Detector_status::setNumberOfTriggersLeft(int64_t const value)
{
m_Number_of_triggers_left = value;
}
std::vector<int64_t> Detector_status::getFpgaTempDegC() const
{
return m_Fpga_temp_degC;
}
void Detector_status::setFpgaTempDegC(std::vector<int64_t> const value)
{
m_Fpga_temp_degC = value;
}
std::vector<int64_t> Detector_status::getHighVoltageV() const
{
return m_High_voltage_V;
}
void Detector_status::setHighVoltageV(std::vector<int64_t> const value)
{
m_High_voltage_V = value;
}
} // namespace org::openapitools::server::model
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