599 lines
36 KiB
C++
599 lines
36 KiB
C++
#include "config_mgr.h"
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#include <QDebug>
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#include <QJsonDocument>
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#include <QJsonArray>
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#include <QJsonObject>
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#include "data_config.h"
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#include "vibrationdata.h"
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#include "tachometer_data.h"
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#include "keyphase_data.h"
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#include "singlerelay_data.h"
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#include "tmrrelayassociation_data.h"
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#include <QCoreApplication>
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ConfigMgr *ConfigMgr::instance = nullptr;
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ConfigMgr::~ConfigMgr() {
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}
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void ConfigMgr::Save(QString & file_path) {
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QJsonObject doc_obj;
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int slot = 0;
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QJsonArray card_type;
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for (int i = 0; i < SLOT_NUM; ++i) {
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if (card_type_[i] == kCardNone) {
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continue;
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}
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QJsonObject card_item;
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slot = i + 1;
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card_item["type"] = card_type_[i];
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card_item["slot"] = slot;
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card_type.append(card_item);
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if (card_type_[i] != kCardVibSingle &&
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card_type_[i] != kCardVibTMRPrimary &&
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card_type_[i] != kCardSpeedSingle &&
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card_type_[i] != kCardSpeedTMRPrimary &&
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card_type_[i] != kCardKeyphaseSingle &&
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card_type_[i] != kCardRelaySingle &&
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card_type_[i] != kCardRelayTMRPrimary &&
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card_type_[i] != kCardRelaySingleNOK) {
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continue;
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}
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// process slot
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QJsonObject slot_item;
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if (card_type_[i] != kCardRelaySingle &&
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card_type_[i] != kCardRelayTMRPrimary &&
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card_type_[i] != kCardRelaySingleNOK &&
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card_type_[i] != kCardRelayTMRBackup) {
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for (int cid = 0; cid < CHANNEL_COUNT; ++cid) {
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QJsonObject channel_item;
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if (card_type_[i] == kCardVibSingle ||
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card_type_[i] == kCardVibTMRPrimary) {
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std::shared_ptr<CardBase> base_ptr = ConfigMgr::Instance()->GetSlotPtr(slot);
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if (base_ptr == nullptr) {
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continue;
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}
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std::shared_ptr<VibrationData> ptr = std::dynamic_pointer_cast<VibrationData>(base_ptr);
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channel_item["standby"] = ptr->base_config_[cid].standby;
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channel_item["active"] = ptr->base_config_[cid].active;
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channel_item["rack_type"] = 0; // TODO:
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channel_item["channel_type"] = ptr->base_config_[cid].channel_type;
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channel_item["transducer_id"] = ptr->base_config_[cid].transducer_id;
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channel_item["scale_factor"] = ptr->base_config_[cid].scale_factor;
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channel_item["sampling_rate"] = ptr->base_config_[cid].sampling_rate;
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channel_item["power"] = ptr->base_config_[cid].power;
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channel_item["point_name"] = ptr->base_config_[cid].point_name;
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channel_item["chan_id"] = ptr->base_config_[cid].chan_id;
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QJsonArray voltage_range;
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voltage_range.append(ptr->base_config_[cid].normal_voltage_low);
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voltage_range.append(ptr->base_config_[cid].normal_voltage_high);
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channel_item["normal_voltage_range"] = voltage_range;
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QJsonObject setpoint_data;
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setpoint_data["direct_upper"] = qRound(ptr->alert_danger[cid].direct_upper * 10)/10.0;
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setpoint_data["direct_enable"] = ptr->alert_danger[cid].direct_enable;
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setpoint_data["1x_ampl_upper"] = qRound(ptr->alert_danger[cid].x1_ampl_upper * 10)/10.0;
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setpoint_data["1x_ampl_lower"] = qRound(ptr->alert_danger[cid].x1_ampl_lower * 10)/10.0;
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setpoint_data["1x_ampl_enable"] = ptr->alert_danger[cid].x1_ampl_enable;
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setpoint_data["2x_ampl_upper"] = qRound(ptr->alert_danger[cid].x2_ampl_upper * 10)/10.0;
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setpoint_data["2x_ampl_lower"] = qRound(ptr->alert_danger[cid].x2_ampl_lower * 10)/10.0;
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setpoint_data["2x_ampl_enable"] = ptr->alert_danger[cid].x2_ampl_enable;
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setpoint_data["danger_param"] = ptr->alert_danger[cid].danger_param;
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setpoint_data["danger_upper"] = qRound(ptr->alert_danger[cid].danger_upper * 10)/10.0;
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setpoint_data["danger_enable"] = ptr->alert_danger[cid].danger_enable;
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channel_item["setpoint"] = setpoint_data;
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// variables
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QJsonObject variables;
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std::shared_ptr<VariableBase> base_channel_ptr = ptr->GetChannelPtr(cid + 1);
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if (base_channel_ptr == nullptr) {
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continue;
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}
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if (ptr->base_config_[cid].channel_type == kVibRadial) {
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std::shared_ptr<RadialVariable> radial_ptr = std::dynamic_pointer_cast<RadialVariable>(base_channel_ptr);
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if(radial_ptr == nullptr){
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continue;
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}
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// filter
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QJsonArray filter;
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QJsonObject low_pass;
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low_pass["low"] = radial_ptr->filter_[0].low;
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low_pass["high"] = radial_ptr->filter_[0].high;
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low_pass["checked"] = radial_ptr->filter_[0].checked;
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filter.append(low_pass);
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QJsonObject high_pass;
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high_pass["low"] = radial_ptr->filter_[1].low;
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high_pass["high"] = radial_ptr->filter_[1].high;
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high_pass["checked"] = radial_ptr->filter_[1].checked;
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filter.append(high_pass);
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QJsonObject band_pass;
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band_pass["low"] = radial_ptr->filter_[2].low;
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band_pass["high"] = radial_ptr->filter_[2].high;
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band_pass["checked"] = radial_ptr->filter_[2].checked;
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filter.append(band_pass);
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variables["filter"] = filter;
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QJsonObject direct;
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QJsonObject x1;
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QJsonObject x2;
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QJsonObject recorder_out;
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QJsonObject delay;
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QJsonArray latching;
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direct["full_scale_range"] = radial_ptr->direct_.full_scale_range;
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direct["clamp_value"] = radial_ptr->direct_.clamp_value;
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direct["custom"] = radial_ptr->direct_.custom;
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variables["direct"] = direct;
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x1["checked"] = radial_ptr->x1_.checked;
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x1["full_scale_range"] = radial_ptr->x1_.full_scale_range;
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x1["clamp_value"] = radial_ptr->x1_.clamp_value;
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x1["custom"] = radial_ptr->x1_.custom;
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x1["phase_lag"] = radial_ptr->x1_.phase_lag;
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variables["x1"] = x1;
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x2["checked"] = radial_ptr->x2_.checked;
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x2["full_scale_range"] = radial_ptr->x2_.full_scale_range;
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x2["clamp_value"] = radial_ptr->x2_.clamp_value;
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x2["custom"] = radial_ptr->x2_.custom;
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x2["phase_lag"] = radial_ptr->x2_.phase_lag;
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variables["x2"] = x2;
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recorder_out["recorder_output"] = radial_ptr->recorder_out_.recorder_output;
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recorder_out["two_ma_clamp"] = radial_ptr->recorder_out_.two_ma_clamp;
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recorder_out["trip_multiply"] = radial_ptr->recorder_out_.trip_multiply;
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recorder_out["comparision"] = radial_ptr->recorder_out_.comparision;
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recorder_out["percentage"] = radial_ptr->recorder_out_.percentage;
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variables["recorder_out"] = recorder_out;
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delay["alert"] = radial_ptr->delay_.alert;
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delay["danger"] = radial_ptr->delay_.danger;
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delay["active_100ms"] = radial_ptr->delay_.active_100ms;
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variables["delay"] = delay;
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latching.append(radial_ptr->alert_latching_);
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latching.append(radial_ptr->danger_latching_);
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variables["latching"] = latching;
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} else {
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std::shared_ptr<AccVelVariable> av_ptr = std::dynamic_pointer_cast<AccVelVariable>(base_channel_ptr);
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if(av_ptr == nullptr){
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continue;
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}
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// filter
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QJsonArray filter;
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QJsonObject low_pass;
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low_pass["low"] = av_ptr->filter_[0].low;
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low_pass["high"] = av_ptr->filter_[0].high;
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low_pass["checked"] = av_ptr->filter_[0].checked;
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filter.append(low_pass);
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QJsonObject high_pass;
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high_pass["low"] = av_ptr->filter_[1].low;
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high_pass["high"] = av_ptr->filter_[1].high;
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high_pass["checked"] = av_ptr->filter_[1].checked;
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filter.append(high_pass);
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QJsonObject band_pass;
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band_pass["low"] = av_ptr->filter_[2].low;
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band_pass["high"] = av_ptr->filter_[2].high;
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band_pass["checked"] = av_ptr->filter_[2].checked;
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filter.append(band_pass);
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variables["filter"] = filter;
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QJsonObject direct;
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QJsonObject x1;
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QJsonObject x2;
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QJsonObject recorder_out;
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QJsonObject delay;
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QJsonArray latching;
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direct["full_scale_range"] = av_ptr->direct_.full_scale_range;
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direct["clamp_value"] = av_ptr->direct_.clamp_value;
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direct["custom"] = av_ptr->direct_.custom;
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variables["direct"] = direct;
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x1["checked"] = av_ptr->x1_.checked;
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x1["full_scale_range"] = av_ptr->x1_.full_scale_range;
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x1["clamp_value"] = av_ptr->x1_.clamp_value;
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x1["custom"] = av_ptr->x1_.custom;
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x1["phase_lag"] = av_ptr->x1_.phase_lag;
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variables["x1"] = x1;
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x2["checked"] = av_ptr->x2_.checked;
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x2["full_scale_range"] = av_ptr->x2_.full_scale_range;
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x2["clamp_value"] = av_ptr->x2_.clamp_value;
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x2["custom"] = av_ptr->x2_.custom;
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x2["phase_lag"] = av_ptr->x2_.phase_lag;
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variables["x2"] = x2;
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QJsonObject rms_integrate;
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rms_integrate["rms_active"] = av_ptr->rms_active_;
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rms_integrate["integrate_active"] = av_ptr->integrate_active_;
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variables["rms_integrate"] = rms_integrate;
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recorder_out["recorder_output"] = av_ptr->recorder_out_.recorder_output;
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recorder_out["two_ma_clamp"] = av_ptr->recorder_out_.two_ma_clamp;
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recorder_out["trip_multiply"] = av_ptr->recorder_out_.trip_multiply;
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recorder_out["comparision"] = av_ptr->recorder_out_.comparision;
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recorder_out["percentage"] = av_ptr->recorder_out_.percentage;
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variables["recorder_out"] = recorder_out;
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delay["alert"] = av_ptr->delay_.alert;
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delay["danger"] = av_ptr->delay_.danger;
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delay["active_100ms"] = av_ptr->delay_.active_100ms;
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variables["delay"] = delay;
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latching.append(av_ptr->alert_latching_);
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latching.append(av_ptr->danger_latching_);
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latching.append(av_ptr->timed_ok_);
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variables["latching"] = latching;
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}
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channel_item["variable"] = variables;
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} else if (card_type_[i] == kCardSpeedSingle || card_type_[i] == kCardSpeedTMRPrimary) {
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std::shared_ptr<CardBase> base_ptr = ConfigMgr::Instance()->GetSlotPtr(slot);
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if (base_ptr == nullptr) {
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continue;
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}
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std::shared_ptr<TachometerData> ptr = std::dynamic_pointer_cast<TachometerData>(base_ptr);
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QJsonArray voltage_range_array;
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voltage_range_array.append(ptr->variables_[cid].normal_voltage_low);
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voltage_range_array.append(ptr->variables_[cid].normal_voltage_high);
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QJsonObject setpoint_data;
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setpoint_data["speed_upper"] = qRound(ptr->alert_danger[cid].speed_upper * 10)/10.0;
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setpoint_data["speed_lower"] = ptr->alert_danger[cid].speed_lower;
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setpoint_data["speed_upper_enable"] = ptr->alert_danger[cid].speed_upper_enable;
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setpoint_data["speed_lower_enable"] = ptr->alert_danger[cid].speed_lower_enable;
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setpoint_data["danger_speed_upper"] = ptr->alert_danger[cid].danger_speed_upper;
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channel_item["setpoint"] = setpoint_data;
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channel_item.insert("active", ptr->variables_[cid].active);
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channel_item.insert("normal_voltage_range", voltage_range_array);
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channel_item.insert("threshold", ptr->variables_[cid].threshold);
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channel_item.insert("hysteresis", ptr->variables_[cid].hysteresis);
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channel_item.insert("events_per_revolution", ptr->variables_[cid].events_per_revolution);
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channel_item.insert("record_output", ptr->variables_[cid].record_output);
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channel_item.insert("two_ma_clamp", ptr->variables_[cid].two_ma_clamp);
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channel_item.insert("alert_latching", ptr->variables_[cid].alert_latching);
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channel_item.insert("overspeed_latching", ptr->variables_[cid].overspeed_latching);
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channel_item.insert("normal_latching", ptr->variables_[cid].normal_latching);
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channel_item.insert("speed_peak", ptr->variables_[cid].speed_peek);
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channel_item.insert("default_speed", ptr->variables_[cid].default_speed);
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channel_item.insert("automatic_threshold",ptr->variables_[cid].automatic_threshold);
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} else if (card_type_[i] == kCardKeyphaseSingle) {
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std::shared_ptr<CardBase> base_ptr = ConfigMgr::Instance()->GetSlotPtr(slot);
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if (base_ptr == nullptr) {
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continue;
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}
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std::shared_ptr<KeyphaseData> ptr = std::dynamic_pointer_cast<KeyphaseData>(base_ptr);
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QJsonArray voltage_range_array;
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voltage_range_array.append(ptr->variables_[cid].normal_voltage_low);
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voltage_range_array.append(ptr->variables_[cid].normal_voltage_high);
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channel_item.insert("active", ptr->variables_[cid].active);
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channel_item.insert("normal_voltage_range", voltage_range_array);
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channel_item.insert("threshold", ptr->variables_[cid].threshold);
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channel_item.insert("hysteresis", ptr->variables_[cid].hysteresis);
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channel_item.insert("events_per_revolution", ptr->variables_[cid].events_per_revolution);
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channel_item.insert("automatic_threshold",ptr->variables_[cid].automatic_threshold);
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}
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slot_item[QString::number(cid + 1)] = channel_item;
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}
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slot_item["version"] = 1;
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}else{
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for(int ch = 0;ch < RELAY_COUNT;++ch){
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QJsonObject channel_item;
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if(card_type_[i] == kCardRelaySingleNOK){
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std::shared_ptr<CardBase> base_ptr = ConfigMgr::Instance()->GetSlotPtr(slot);
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if (base_ptr == nullptr) {
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continue;
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}
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std::shared_ptr<SingleRelayDataNOK> ptr = std::dynamic_pointer_cast<SingleRelayDataNOK>(base_ptr);
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if(ptr->single_relay_nok[ch].logic_expression != ""){
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qDebug() << "ch" << ch << ptr->single_relay_nok[ch].logic_expression;
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channel_item.insert("logic_expression", ptr->single_relay_nok[ch].logic_expression);
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}
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}else if(card_type_[i] == kCardRelaySingle){
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std::shared_ptr<CardBase> base_ptr = ConfigMgr::Instance()->GetSlotPtr(slot);
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if (base_ptr == nullptr) {
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continue;
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}
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std::shared_ptr<TmrrelayassociationData> ptr = std::dynamic_pointer_cast<TmrrelayassociationData>(base_ptr);
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if(ptr->tmr_relay[ch].logic_expression != "")
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channel_item.insert("logic_expression", ptr->tmr_relay[ch].logic_expression);
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}else if(card_type_[i] == kCardRelayTMRPrimary){
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std::shared_ptr<CardBase> base_ptr = ConfigMgr::Instance()->GetSlotPtr(slot);
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if (base_ptr == nullptr) {
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continue;
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}
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std::shared_ptr<TmrrelayassociationData> ptr = std::dynamic_pointer_cast<TmrrelayassociationData>(base_ptr);
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slot_item["sgcc_enable"] = ptr->sgcc_enable;
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if(ptr->tmr_relay[ch].logic_expression != ""){
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channel_item.insert("logic_expression", ptr->tmr_relay[ch].logic_expression);
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}
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}
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if(!channel_item.isEmpty() ){
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slot_item[QString::number(ch + 1)] = channel_item;
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}
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}
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slot_item["version"] = 1;
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}
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doc_obj[QString::number(slot)] = slot_item;
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}
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doc_obj["card_type"] = card_type;
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// TODO: show success message box
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QJsonDocument jsonDoc;
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jsonDoc.setObject(doc_obj);
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QFile file(file_path);
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file.open(QIODevice::WriteOnly);
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file.write(jsonDoc.toJson());
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file.close();
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}
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void ConfigMgr::Load(QString filename) {
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QFile file(filename);
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if (!file.open(QIODevice::ReadOnly | QIODevice::Text)) {
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// TODO: show message box
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qDebug() << "Cannot open file for reading:" << filename;
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return;
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}
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QString content = file.readAll();
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file.close();
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QByteArray jsonData = content.toUtf8();
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QJsonDocument jsonDoc = QJsonDocument::fromJson(jsonData);
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if (jsonDoc.isNull()) {
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// TODO: show message box
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qDebug() << "Cannot parse JSON document";
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return;
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}
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if (!jsonDoc.isObject() && !jsonDoc.isArray()) {
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// TODO: show message box
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qDebug() << "JSON document is not an object or an array";
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return;
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}
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filename_ = filename;
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QJsonObject json_obj = jsonDoc.object();
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// parse card_type
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QJsonArray card_type = json_obj["card_type"].toArray();
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int slot = 0;
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QJsonObject temp_obj;
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for (int i = 0; i < card_type.size(); ++i) {
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temp_obj = card_type[i].toObject();
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slot = temp_obj["slot"].toInt();
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card_type_[slot - 1] = static_cast<CardType>(temp_obj["type"].toInt());
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}
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// parse each slot
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QJsonObject channel;
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for (int i = 0; i < SLOT_NUM; ++i) {
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if (card_type_[i] == kCardNone) {
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continue;
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}
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slot = i + 1;
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if (json_obj[QString::number(slot)].isNull() && card_type_[i] != kCardRelayTMRBackup) {
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continue;
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}
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temp_obj = json_obj[QString::number(slot)].toObject();
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if (card_type_[i] == kCardVibSingle) {
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std::shared_ptr<VibrationData> vib_data = std::make_shared<VibrationData>();
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vib_data->version_ = temp_obj["version"].toInt();
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vib_data->card_type_ = static_cast<CardType>(card_type_[i]);
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vib_data->slot_ = slot;
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for (int j = 0; j < CHANNEL_COUNT; ++j) {
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std::shared_ptr<VariableBase> base_channel_ptr = vib_data->GetChannelPtr(j + 1);
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channel = temp_obj[QString::number(j + 1)].toObject();
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if(channel.isEmpty())
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continue;
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// base info
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vib_data->base_config_[j].standby = channel["standby"].toBool();
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vib_data->base_config_[j].active = channel["active"].toBool();
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vib_data->base_config_[j].rack_type = channel["rack_type"].toInt();
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// vib_data->base_config_[j].tmr_group = channel["tmr_group"].toString();
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vib_data->base_config_[j].channel_type = channel["channel_type"].toInt();
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vib_data->base_config_[j].transducer_id = channel["transducer_id"].toInt();
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vib_data->base_config_[j].scale_factor = channel["scale_factor"].toDouble();
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vib_data->base_config_[j].sampling_rate = channel["sampling_rate"].toInt();
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QJsonArray voltage_range_array = channel["normal_voltage_range"].toArray();
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vib_data->base_config_[j].normal_voltage_low = voltage_range_array[0].toDouble();
|
|
vib_data->base_config_[j].normal_voltage_high = voltage_range_array[1].toDouble();
|
|
vib_data->base_config_[j].power = channel["power"].toBool();
|
|
vib_data->base_config_[j].point_name = channel["point_name"].toString();
|
|
vib_data->base_config_[j].chan_id = channel["chan_id"].toString();
|
|
//setpoint
|
|
QJsonObject setpoint_data = channel["setpoint"].toObject();
|
|
vib_data->alert_danger[j].direct_upper = setpoint_data["direct_upper"].toDouble();
|
|
vib_data->alert_danger[j].direct_enable = setpoint_data["direct_enable"].toBool();
|
|
vib_data->alert_danger[j].x1_ampl_upper = setpoint_data["1x_ampl_upper"].toDouble();
|
|
vib_data->alert_danger[j].x1_ampl_lower = setpoint_data["1x_ampl_lower"].toDouble();
|
|
vib_data->alert_danger[j].x1_ampl_enable = setpoint_data["1x_ampl_enable"].toBool();
|
|
vib_data->alert_danger[j].x2_ampl_upper = setpoint_data["2x_ampl_upper"].toDouble();
|
|
vib_data->alert_danger[j].x2_ampl_lower = setpoint_data["2x_ampl_lower"].toDouble();
|
|
vib_data->alert_danger[j].x2_ampl_enable = setpoint_data["2x_ampl_enable"].toBool();
|
|
vib_data->alert_danger[j].danger_param = setpoint_data["danger_param"].toInt();
|
|
vib_data->alert_danger[j].danger_upper = setpoint_data["danger_upper"].toDouble();
|
|
vib_data->alert_danger[j].danger_enable = setpoint_data["danger_enable"].toBool();
|
|
// variables
|
|
QJsonObject tmp_variable = channel["variable"].toObject();
|
|
switch (vib_data->base_config_[j].channel_type) {
|
|
case kVibRadial: {
|
|
std::shared_ptr<RadialVariable> variable = std::make_shared<RadialVariable>();
|
|
// filter
|
|
QJsonArray filter_array = tmp_variable["filter"].toArray();
|
|
for (int k = 0; k < filter_array.size(); k++) {
|
|
QJsonObject filter_ele = filter_array[k].toObject();
|
|
variable->filter_[k].low = filter_ele["low"].toInt();
|
|
variable->filter_[k].high = filter_ele["high"].toInt();
|
|
variable->filter_[k].checked = filter_ele["checked"].toBool();
|
|
}
|
|
variable->id_ = j + 1;
|
|
QJsonObject direct = tmp_variable["direct"].toObject();
|
|
variable->direct_.full_scale_range = direct["full_scale_range"].toInt();
|
|
variable->direct_.clamp_value = direct["clamp_value"].toDouble();
|
|
variable->direct_.custom = direct["custom"].toDouble();
|
|
QJsonObject x1 = tmp_variable["x1"].toObject();
|
|
variable->x1_.checked = x1["checked"].toBool();
|
|
variable->x1_.full_scale_range = x1["full_scale_range"].toInt();
|
|
variable->x1_.clamp_value = x1["clamp_value"].toDouble();
|
|
variable->x1_.custom = x1["custom"].toDouble();
|
|
variable->x1_.phase_lag = x1["phase_lag"].toInt();
|
|
QJsonObject x2 = tmp_variable["x2"].toObject();
|
|
variable->x2_.checked = x2["checked"].toBool();
|
|
variable->x2_.full_scale_range = x2["full_scale_range"].toInt();
|
|
variable->x2_.clamp_value = x2["clamp_value"].toDouble();
|
|
variable->x2_.custom = x2["custom"].toDouble();
|
|
variable->x2_.phase_lag = x2["phase_lag"].toInt();
|
|
QJsonObject recorder_out = tmp_variable["recorder_out"].toObject();
|
|
variable->recorder_out_.recorder_output = recorder_out["recorder_output"].toInt();
|
|
variable->recorder_out_.two_ma_clamp = recorder_out["two_ma_clamp"].toBool();
|
|
variable->recorder_out_.trip_multiply = recorder_out["trip_multiply"].toDouble();
|
|
variable->recorder_out_.comparision = recorder_out["comparision"].toInt();
|
|
variable->recorder_out_.percentage = recorder_out["percentage"].toInt();
|
|
QJsonObject delay = tmp_variable["delay"].toObject();
|
|
variable->delay_.alert = delay["alert"].toInt();
|
|
variable->delay_.danger = delay["danger"].toDouble();
|
|
variable->delay_.active_100ms = delay["active_100ms"].toBool();
|
|
QJsonObject latching = tmp_variable["latching"].toObject();
|
|
variable->alert_latching_ = latching["alert"].toBool();
|
|
variable->danger_latching_ = latching["danger"].toBool();
|
|
vib_data->variables_.push_back(variable);
|
|
break;
|
|
}
|
|
case kVibVelocity:
|
|
case kVibAcc: {
|
|
std::shared_ptr<AccVelVariable> variable = std::make_shared<AccVelVariable>();
|
|
// filter
|
|
QJsonArray filter_array = tmp_variable["filter"].toArray();
|
|
for (int k = 0; k < filter_array.size(); k++) {
|
|
QJsonObject filter_ele = filter_array[k].toObject();
|
|
variable->filter_[k].low = filter_ele["low"].toInt();
|
|
variable->filter_[k].high = filter_ele["high"].toInt();
|
|
variable->filter_[k].checked = filter_ele["checked"].toBool();
|
|
}
|
|
variable->id_ = j + 1;
|
|
QJsonObject direct = tmp_variable["direct"].toObject();
|
|
variable->direct_.full_scale_range = direct["full_scale_range"].toInt();
|
|
variable->direct_.clamp_value = direct["clamp_value"].toDouble();
|
|
variable->direct_.custom = direct["custom"].toDouble();
|
|
QJsonObject x1 = tmp_variable["x1"].toObject();
|
|
variable->x1_.checked = x1["checked"].toBool();
|
|
variable->x1_.full_scale_range = x1["full_scale_range"].toInt();
|
|
variable->x1_.clamp_value = x1["clamp_value"].toDouble();
|
|
variable->x1_.custom = x1["custom"].toDouble();
|
|
variable->x1_.phase_lag = x1["phase_lag"].toInt();
|
|
QJsonObject x2 = tmp_variable["x2"].toObject();
|
|
variable->x2_.checked = x2["checked"].toBool();
|
|
variable->x2_.full_scale_range = x2["full_scale_range"].toInt();
|
|
variable->x2_.clamp_value = x2["clamp_value"].toDouble();
|
|
variable->x2_.custom = x2["custom"].toDouble();
|
|
variable->x2_.phase_lag = x2["phase_lag"].toInt();
|
|
QJsonObject rms_integrate = tmp_variable["rms_integrate"].toObject();
|
|
variable->rms_active_ = rms_integrate["rms_active"].toBool();
|
|
variable->integrate_active_ = rms_integrate["integrate_active"].toBool();
|
|
QJsonObject recorder_out = tmp_variable["recorder_out"].toObject();
|
|
variable->recorder_out_.recorder_output = recorder_out["recorder_output"].toInt();
|
|
variable->recorder_out_.two_ma_clamp = recorder_out["two_ma_clamp"].toBool();
|
|
variable->recorder_out_.trip_multiply = recorder_out["trip_multiply"].toDouble();
|
|
variable->recorder_out_.comparision = recorder_out["comparision"].toInt();
|
|
variable->recorder_out_.percentage = recorder_out["percentage"].toInt();
|
|
QJsonObject delay = tmp_variable["delay"].toObject();
|
|
variable->delay_.alert = delay["alert"].toInt();
|
|
variable->delay_.danger = delay["danger"].toDouble();
|
|
variable->delay_.active_100ms = delay["active_100ms"].toBool();
|
|
QJsonObject latching = tmp_variable["latching"].toObject();
|
|
variable->alert_latching_ = latching["alert"].toBool();
|
|
variable->danger_latching_ = latching["danger"].toBool();
|
|
variable->timed_ok_ = latching["timed_ok"].toBool();
|
|
vib_data->variables_.push_back(variable);
|
|
break;
|
|
}
|
|
}
|
|
}
|
|
cards_.push_back(vib_data);
|
|
} else if (card_type_[i] == kCardSpeedSingle ||
|
|
card_type_[i] == kCardSpeedTMRPrimary) {
|
|
std::shared_ptr<TachometerData> speed_data = std::make_shared<TachometerData>();
|
|
speed_data->slot_ = slot;
|
|
speed_data->card_type_ = static_cast<CardType>(card_type_[i]);
|
|
speed_data->version_ = temp_obj["version"].toInt();
|
|
for (int j = 0; j < CHANNEL_COUNT; ++j) {
|
|
channel = temp_obj[QString::number(j + 1)].toObject();
|
|
speed_data->variables_[j].active = channel["active"].toBool();
|
|
QJsonArray voltage_range_array = channel["normal_voltage_range"].toArray();
|
|
speed_data->variables_[j].normal_voltage_high = voltage_range_array[1].toDouble();
|
|
speed_data->variables_[j].normal_voltage_low = voltage_range_array[0].toDouble();
|
|
speed_data->variables_[j].threshold = channel["threshold"].toDouble();
|
|
speed_data->variables_[j].hysteresis = channel["hysteresis"].toDouble();
|
|
speed_data->variables_[j].events_per_revolution = channel["events_per_revolution"].toInt();
|
|
speed_data->variables_[j].record_output = channel["record_output"].toInt();
|
|
speed_data->variables_[j].two_ma_clamp = channel["two_ma_clamp"].toBool();
|
|
speed_data->variables_[j].alert_latching = channel["alert_latching"].toBool();
|
|
speed_data->variables_[j].overspeed_latching = channel["overspeed_latching"].toBool();
|
|
speed_data->variables_[j].normal_latching = channel["normal_latching"].toBool();
|
|
speed_data->variables_[j].speed_peek = channel["speed_peak"].toInt();
|
|
speed_data->variables_[j].default_speed = channel["default_speed"].toInt();
|
|
speed_data->variables_[j].automatic_threshold = channel["automatic_threshold"].toBool();
|
|
|
|
|
|
QJsonObject setpoint_data = channel["setpoint"].toObject();
|
|
speed_data->alert_danger[j].speed_upper = setpoint_data["speed_upper"].toDouble();
|
|
speed_data->alert_danger[j].speed_lower = setpoint_data["speed_lower"].toDouble();
|
|
speed_data->alert_danger[j].speed_upper_enable = setpoint_data["speed_upper_enable"].toBool();
|
|
speed_data->alert_danger[j].speed_lower_enable = setpoint_data["speed_lower_enable"].toBool();
|
|
speed_data->alert_danger[j].danger_speed_upper = setpoint_data["danger_speed_upper"].toDouble();
|
|
}
|
|
cards_.push_back(speed_data);
|
|
} else if (card_type_[i] == kCardKeyphaseSingle) {
|
|
std::shared_ptr<KeyphaseData> keyphase_data = std::make_shared<KeyphaseData>();
|
|
keyphase_data->slot_ = slot;
|
|
keyphase_data->card_type_ = static_cast<CardType>(card_type_[i]);
|
|
keyphase_data->version_ = temp_obj["version"].toInt();
|
|
for (int j = 0; j < CHANNEL_COUNT; ++j) {
|
|
channel = temp_obj[QString::number(j + 1)].toObject();
|
|
keyphase_data->variables_[j].active = channel["active"].toBool();
|
|
QJsonArray voltage_range_array = channel["normal_voltage_range"].toArray();
|
|
keyphase_data->variables_[j].normal_voltage_high = voltage_range_array[1].toDouble();
|
|
keyphase_data->variables_[j].normal_voltage_low = voltage_range_array[0].toDouble();
|
|
keyphase_data->variables_[j].threshold = channel["threshold"].toDouble();
|
|
keyphase_data->variables_[j].hysteresis = channel["hysteresis"].toDouble();
|
|
keyphase_data->variables_[j].events_per_revolution = channel["events_per_revolution"].toInt();
|
|
keyphase_data->variables_[j].automatic_threshold = channel["automatic_threshold"].toBool();
|
|
}
|
|
cards_.push_back(keyphase_data);
|
|
}else if (card_type_[i] == kCardRelaySingleNOK ){
|
|
std::shared_ptr<SingleRelayDataNOK> singlerelay_data = std::make_shared<SingleRelayDataNOK>();
|
|
singlerelay_data->slot_ = slot;
|
|
singlerelay_data->card_type_ = static_cast<CardType>(card_type_[i]);
|
|
singlerelay_data->version_ = temp_obj["version"].toInt();
|
|
for (int j = 0; j < RELAY_COUNT; ++j) {
|
|
channel = temp_obj[QString::number(j + 1)].toObject();
|
|
singlerelay_data->single_relay_nok[j].logic_expression = channel["logic_expression"].toString();
|
|
}
|
|
cards_.push_back(singlerelay_data);
|
|
}else if(card_type_[i] == kCardRelaySingle){
|
|
std::shared_ptr<TmrrelayassociationData> relay_data = std::make_shared<TmrrelayassociationData>();
|
|
relay_data->slot_ = slot;
|
|
relay_data->card_type_ = static_cast<CardType>(card_type_[i]);
|
|
relay_data->version_ = temp_obj["version"].toInt();
|
|
for (int j = 0; j < RELAY_COUNT; ++j) {
|
|
channel = temp_obj[QString::number(j + 1)].toObject();
|
|
relay_data->tmr_relay[j].logic_expression = channel["logic_expression"].toString();
|
|
}
|
|
cards_.push_back(relay_data);
|
|
}else if(card_type_[i] == kCardRelayTMRPrimary){
|
|
std::shared_ptr<TmrrelayassociationData> relay_data = std::make_shared<TmrrelayassociationData>();
|
|
relay_data->slot_ = slot;
|
|
relay_data->card_type_ = static_cast<CardType>(card_type_[i]);
|
|
relay_data->version_ = temp_obj["version"].toInt();
|
|
relay_data->sgcc_enable = temp_obj["sgcc_enable"].toBool();
|
|
for (int j = 0; j < RELAY_COUNT; ++j) {
|
|
channel = temp_obj[QString::number(j + 1)].toObject();
|
|
relay_data->tmr_relay[j].logic_expression = channel["logic_expression"].toString();
|
|
|
|
}
|
|
cards_.push_back(relay_data);
|
|
}else if(card_type_[i] == kCardRelayTMRBackup){
|
|
std::shared_ptr<TmrrelayassociationData> relay_data = std::make_shared<TmrrelayassociationData>();
|
|
relay_data->slot_ = slot;
|
|
relay_data->card_type_ = static_cast<CardType>(card_type_[i]);
|
|
cards_.push_back(relay_data);
|
|
}
|
|
}
|
|
}
|
|
|
|
std::shared_ptr<CardBase> ConfigMgr::GetSlotPtr(int slot) {
|
|
for (auto &item : cards_) {
|
|
if (item->slot_ == slot) {
|
|
return item;
|
|
}
|
|
}
|
|
return nullptr;
|
|
}
|
|
|
|
void ConfigMgr::AddCard(std::shared_ptr<CardBase> ptr) {
|
|
cards_.push_back(ptr);
|
|
}
|
|
void ConfigMgr::RemoveCard(std::shared_ptr<CardBase> ptr) {
|
|
cards_.erase(remove(cards_.begin(), cards_.end(), ptr));
|
|
}
|