#include "tachometer.h"
#include "ui_tachometer.h"
#include <QDebug>
#include <QFile>
#include <QJsonDocument>
#include <QJsonObject>
#include <QJsonParseError>
#include <QJsonArray>

Tachometer::Tachometer(int slot_no_, QWidget *parent)
    : QDialog(parent)
    , ui(new Ui::Tachometer) {
    ui->setupUi(this);
    ui->widget_body->setProperty("flag", "body");
    setWindowFlags(windowFlags() & ~Qt::WindowContextHelpButtonHint);
    slot_no = slot_no_;
    QString slot = QString("%1").arg(slot_no);
    ui->label_slot->setText(slot);
    QString filePath_tachometer = QCoreApplication::applicationDirPath() + QString("\\config\\%1\\tachometer.json").arg(slot_no);
    readJsonFile(filePath_tachometer);
    Init();
    connect(ui->radioButton_manual_threshold_1, &QRadioButton::toggled, this, &Tachometer::on_manual_threshold_1_clicked);
    connect(ui->radioButton_manual_threshold_2, &QRadioButton::toggled, this, &Tachometer::on_manual_threshold_2_clicked);
    connect(ui->radioButton_manual_threshold_3, &QRadioButton::toggled, this, &Tachometer::on_manual_threshold_3_clicked);
    connect(ui->radioButton_manual_threshold_4, &QRadioButton::toggled, this, &Tachometer::on_manual_threshold_4_clicked);
}

Tachometer::~Tachometer() {
    delete ui;
}

void Tachometer::on_manual_threshold_1_clicked(bool checked) {
    if (checked) {
        ui->doubleSpinBox_threshold_1->setEnabled(true);
        ui->doubleSpinBox_hysteresis_1->setEnabled(true);
        return;
    }
    ui->doubleSpinBox_threshold_1->setEnabled(false);
    ui->doubleSpinBox_hysteresis_1->setEnabled(false);
}

void Tachometer::on_manual_threshold_2_clicked(bool checked) {
    if (checked) {
        ui->doubleSpinBox_threshold_2->setEnabled(true);
        ui->doubleSpinBox_hysteresis_2->setEnabled(true);
        return;
    }
    ui->doubleSpinBox_threshold_2->setEnabled(false);
    ui->doubleSpinBox_hysteresis_2->setEnabled(false);
}

void Tachometer::on_manual_threshold_3_clicked(bool checked) {
    if (checked) {
        ui->doubleSpinBox_threshold_3->setEnabled(true);
        ui->doubleSpinBox_hysteresis_3->setEnabled(true);
        return;
    }
    ui->doubleSpinBox_threshold_3->setEnabled(false);
    ui->doubleSpinBox_hysteresis_3->setEnabled(false);
}

void Tachometer::on_manual_threshold_4_clicked(bool checked) {
    if (checked) {
        ui->doubleSpinBox_threshold_4->setEnabled(true);
        ui->doubleSpinBox_hysteresis_4->setEnabled(true);
        return;
    }
    ui->doubleSpinBox_threshold_4->setEnabled(false);
    ui->doubleSpinBox_hysteresis_4->setEnabled(false);
}

void Tachometer::readJsonFile(const QString &filePath) {
    QFile file(filePath);
    if (!file.open(QIODevice::ReadOnly | QIODevice::Text)) {
        qDebug() << "Cannot open file for reading:" << filePath;
        return;
    }
    QString content = file.readAll();
    file.close();
    QByteArray jsonData = content.toUtf8();
    QJsonDocument jsonDoc = QJsonDocument::fromJson(jsonData);
    if (jsonDoc.isNull()) {
        qDebug() << "Cannot parse JSON document";
        return;
    }
    if (!jsonDoc.isObject() && !jsonDoc.isArray()) {
        qDebug() << "JSON document is not an object or an array";
        return;
    }
    QJsonObject json_obj = jsonDoc.object();
    QJsonArray chan_array = json_obj["chan"].toArray();
    for (int i = 0; i < chan_array.size(); i++) {
        QJsonObject temp_obj = chan_array[i].toObject();
        tachometer_variables[i].id = temp_obj["id"].toInt();
        tachometer_variables[i].active = temp_obj["active"].toBool();
        QJsonArray voltage_range_array = temp_obj["normal_voltage_range"].toArray();
        tachometer_variables[i].normal_voltage_high = voltage_range_array[1].toDouble();
        tachometer_variables[i].normal_voltage_low = voltage_range_array[0].toDouble();
        tachometer_variables[i].threshold = temp_obj["threshold"].toDouble();
        tachometer_variables[i].hysteresis = temp_obj["hysteresis"].toDouble();
        tachometer_variables[i].events_per_revolution = temp_obj["events_per_revolution"].toInt();
        tachometer_variables[i].record_output = temp_obj["record_output"].toString();
        tachometer_variables[i].two_ma_clamp = temp_obj["two_ma_clamp"].toBool();
        tachometer_variables[i].alert_latching = temp_obj["alert_latching"].toBool();
        tachometer_variables[i].overspeed_latching = temp_obj["overspeed_latching"].toBool();
        tachometer_variables[i].normal_latching = temp_obj["normal_latching"].toBool();
        tachometer_variables[i].alert_response_time = temp_obj["alert_response_time"].toInt();
        tachometer_variables[i].danger_response_time = temp_obj["danger_response_time"].toInt();
    }
}
void Tachometer::Init() {
    for (int i = 0; i < CHANNLE_COUNT; i++) {
        if (tachometer_variables[i].id == 1) {
            ui->checkBox_chan_1->setChecked(tachometer_variables[i].active);
            ui->doubleSpinBox_high_1->setValue(tachometer_variables[i].normal_voltage_high);
            ui->doubleSpinBox_low_1->setValue(tachometer_variables[i].normal_voltage_low);
            if (tachometer_variables[i].automatic_threshold) {
                ui->radioButton_automatic_threshold_1->setChecked(true);
            } else {
                ui->radioButton_manual_threshold_1->setChecked(true);
            }
            ui->doubleSpinBox_threshold_1->setValue(tachometer_variables[i].threshold);
            ui->doubleSpinBox_hysteresis_1->setValue(tachometer_variables[i].hysteresis);
            ui->spinBox_events_per_revolution_1->setValue(tachometer_variables[i].events_per_revolution);
            ui->comboBox_record_output_1->setCurrentText(tachometer_variables[i].record_output);
            ui->checkBox_two_ma_clamp_1->setChecked(tachometer_variables[i].two_ma_clamp);
            if (tachometer_variables[i].alert_latching) {
                ui->radioButton_alert_latching_1->setCheckable(true);
            } else {
                ui->radioButton_alert_latching_1->setCheckable(false);
            }
            if (tachometer_variables[i].overspeed_latching) {
                ui->radioButton_overspeed_latching_1->setCheckable(true);
            } else {
                ui->radioButton_overspeed_latching_1->setCheckable(false);
            }
        }
        if (tachometer_variables[i].id == 2) {
            ui->checkBox_chan_2->setChecked(tachometer_variables[i].active);
            ui->doubleSpinBox_high_2->setValue(tachometer_variables[i].normal_voltage_high);
            ui->doubleSpinBox_low_2->setValue(tachometer_variables[i].normal_voltage_low);
            if (tachometer_variables[i].automatic_threshold) {
                ui->radioButton_automatic_threshold_2->setChecked(true);
            } else {
                ui->radioButton_manual_threshold_2->setChecked(true);
            }
            ui->doubleSpinBox_threshold_2->setValue(tachometer_variables[i].threshold);
            ui->doubleSpinBox_hysteresis_2->setValue(tachometer_variables[i].hysteresis);
            ui->spinBox_events_per_revolution_2->setValue(tachometer_variables[i].events_per_revolution);
            ui->comboBox_record_output_2->setCurrentText(tachometer_variables[i].record_output);
            ui->checkBox_two_ma_clamp_2->setChecked(tachometer_variables[i].two_ma_clamp);
            if (tachometer_variables[i].alert_latching) {
                ui->radioButton_alert_latching_2->setCheckable(true);
            } else {
                ui->radioButton_alert_latching_2->setCheckable(false);
            }
            if (tachometer_variables[i].overspeed_latching) {
                ui->radioButton_overspeed_latching_2->setCheckable(true);
            } else {
                ui->radioButton_overspeed_latching_2->setCheckable(false);
            }
        }
        if (tachometer_variables[i].id == 3) {
            ui->checkBox_chan_3->setChecked(tachometer_variables[i].active);
            ui->doubleSpinBox_high_3->setValue(tachometer_variables[i].normal_voltage_high);
            ui->doubleSpinBox_low_3->setValue(tachometer_variables[i].normal_voltage_low);
            if (tachometer_variables[i].automatic_threshold) {
                ui->radioButton_automatic_threshold_3->setChecked(true);
            } else {
                ui->radioButton_manual_threshold_3->setChecked(true);
            }
            ui->doubleSpinBox_threshold_3->setValue(tachometer_variables[i].threshold);
            ui->doubleSpinBox_hysteresis_3->setValue(tachometer_variables[i].hysteresis);
            ui->spinBox_events_per_revolution_3->setValue(tachometer_variables[i].events_per_revolution);
            ui->comboBox_record_output_3->setCurrentText(tachometer_variables[i].record_output);
            ui->checkBox_two_ma_clamp_3->setChecked(tachometer_variables[i].two_ma_clamp);
            if (tachometer_variables[i].alert_latching) {
                ui->radioButton_alert_latching_3->setCheckable(true);
            } else {
                ui->radioButton_alert_latching_3->setCheckable(false);
            }
            if (tachometer_variables[i].overspeed_latching) {
                ui->radioButton_overspeed_latching_3->setCheckable(true);
            } else {
                ui->radioButton_overspeed_latching_3->setCheckable(false);
            }
        }
        if (tachometer_variables[i].id == 4) {
            ui->checkBox_chan_4->setChecked(tachometer_variables[i].active);
            ui->doubleSpinBox_high_4->setValue(tachometer_variables[i].normal_voltage_high);
            ui->doubleSpinBox_low_4->setValue(tachometer_variables[i].normal_voltage_low);
            if (tachometer_variables[i].automatic_threshold) {
                ui->radioButton_automatic_threshold_4->setChecked(true);
            } else {
                ui->radioButton_manual_threshold_4->setChecked(true);
            }
            ui->doubleSpinBox_threshold_4->setValue(tachometer_variables[i].threshold);
            ui->doubleSpinBox_hysteresis_4->setValue(tachometer_variables[i].hysteresis);
            ui->spinBox_events_per_revolution_4->setValue(tachometer_variables[i].events_per_revolution);
            ui->comboBox_record_output_4->setCurrentText(tachometer_variables[i].record_output);
            ui->checkBox_two_ma_clamp_4->setChecked(tachometer_variables[i].two_ma_clamp);
            if (tachometer_variables[i].alert_latching) {
                ui->radioButton_alert_latching_4->setCheckable(true);
            } else {
                ui->radioButton_alert_latching_4->setCheckable(false);
            }
            if (tachometer_variables[i].overspeed_latching) {
                ui->radioButton_overspeed_latching_4->setCheckable(true);
            } else {
                ui->radioButton_overspeed_latching_4->setCheckable(false);
            }
        }
    }
}
void Tachometer::on_pushButton_confirm_clicked() {
    for (int i = 0; i < CHANNLE_COUNT; i++) {
        if (tachometer_variables[i].id == 1) {
            tachometer_variables[i].active = ui->checkBox_chan_1->isChecked();
            tachometer_variables[i].normal_voltage_high = ui->doubleSpinBox_high_1->value();
            tachometer_variables[i].normal_voltage_low = ui->doubleSpinBox_low_1->value();
            tachometer_variables[i].automatic_threshold = ui->radioButton_automatic_threshold_1->isChecked();
            tachometer_variables[i].threshold = ui->doubleSpinBox_threshold_1->value();
            tachometer_variables[i].hysteresis = ui->doubleSpinBox_hysteresis_1->value();
            tachometer_variables[i].events_per_revolution = ui->spinBox_events_per_revolution_1->value();
            tachometer_variables[i].record_output = ui->comboBox_record_output_1->currentText();
            tachometer_variables[i].two_ma_clamp = ui->checkBox_two_ma_clamp_1->isChecked();
            tachometer_variables[i].alert_latching = ui->radioButton_alert_latching_1->isChecked();
            tachometer_variables[i].overspeed_latching = ui->radioButton_overspeed_latching_1->isChecked();
        }
        if (tachometer_variables[i].id == 2) {
            tachometer_variables[i].active = ui->checkBox_chan_2->isChecked();
            tachometer_variables[i].normal_voltage_high = ui->doubleSpinBox_high_2->value();
            tachometer_variables[i].normal_voltage_low = ui->doubleSpinBox_low_2->value();
            tachometer_variables[i].automatic_threshold = ui->radioButton_automatic_threshold_2->isChecked();
            tachometer_variables[i].threshold = ui->doubleSpinBox_threshold_2->value();
            tachometer_variables[i].hysteresis = ui->doubleSpinBox_hysteresis_2->value();
            tachometer_variables[i].events_per_revolution = ui->spinBox_events_per_revolution_2->value();
            tachometer_variables[i].record_output = ui->comboBox_record_output_2->currentText();
            tachometer_variables[i].two_ma_clamp = ui->checkBox_two_ma_clamp_2->isChecked();
            tachometer_variables[i].alert_latching = ui->radioButton_alert_latching_2->isChecked();
            tachometer_variables[i].overspeed_latching = ui->radioButton_overspeed_latching_2->isChecked();
        }
        if (tachometer_variables[i].id == 3) {
            tachometer_variables[i].active = ui->checkBox_chan_3->isChecked();
            tachometer_variables[i].normal_voltage_high = ui->doubleSpinBox_high_3->value();
            tachometer_variables[i].normal_voltage_low = ui->doubleSpinBox_low_3->value();
            tachometer_variables[i].automatic_threshold = ui->radioButton_automatic_threshold_3->isChecked();
            tachometer_variables[i].threshold = ui->doubleSpinBox_threshold_3->value();
            tachometer_variables[i].hysteresis = ui->doubleSpinBox_hysteresis_3->value();
            tachometer_variables[i].events_per_revolution = ui->spinBox_events_per_revolution_3->value();
            tachometer_variables[i].record_output = ui->comboBox_record_output_3->currentText();
            tachometer_variables[i].two_ma_clamp = ui->checkBox_two_ma_clamp_3->isChecked();
            tachometer_variables[i].alert_latching = ui->radioButton_alert_latching_3->isChecked();
            tachometer_variables[i].overspeed_latching = ui->radioButton_overspeed_latching_3->isChecked();
        }
        if (tachometer_variables[i].id == 4) {
            tachometer_variables[i].active = ui->checkBox_chan_4->isChecked();
            tachometer_variables[i].normal_voltage_high = ui->doubleSpinBox_high_4->value();
            tachometer_variables[i].normal_voltage_low = ui->doubleSpinBox_low_4->value();
            tachometer_variables[i].automatic_threshold = ui->radioButton_automatic_threshold_4->isChecked();
            tachometer_variables[i].threshold = ui->doubleSpinBox_threshold_4->value();
            tachometer_variables[i].hysteresis = ui->doubleSpinBox_hysteresis_4->value();
            tachometer_variables[i].events_per_revolution = ui->spinBox_events_per_revolution_4->value();
            tachometer_variables[i].record_output = ui->comboBox_record_output_4->currentText();
            tachometer_variables[i].two_ma_clamp = ui->checkBox_two_ma_clamp_4->isChecked();
            tachometer_variables[i].alert_latching = ui->radioButton_alert_latching_4->isChecked();
            tachometer_variables[i].overspeed_latching = ui->radioButton_overspeed_latching_4->isChecked();
        }
    }
    QString slot = QString("%1").arg(slot_no);
    QString filePath_tachometer = QCoreApplication::applicationDirPath() + QString("\\config\\%1\\tachometer.json").arg(slot_no);
    QFile file(filePath_tachometer);
    if (!file.open(QIODevice::WriteOnly)) {
        qDebug() << "Could not open file for writing";
        return;
    }
    QJsonObject json_obj;
    QJsonArray chan_array;
    for (int i = 0; i < CHANNLE_COUNT; i++) {
        QJsonObject temp_obj;
        temp_obj.insert("id", tachometer_variables[i].id);
        temp_obj.insert("active", tachometer_variables[i].active);
        QJsonArray voltage_range_array;
        voltage_range_array.append(tachometer_variables[i].normal_voltage_low);
        voltage_range_array.append(tachometer_variables[i].normal_voltage_high);
        temp_obj.insert("normal_voltage_range", voltage_range_array);
        temp_obj.insert("threshold", tachometer_variables[i].threshold);
        temp_obj.insert("hysteresis", tachometer_variables[i].hysteresis);
        temp_obj.insert("events_per_revolution", tachometer_variables[i].events_per_revolution);
        temp_obj.insert("record_output", tachometer_variables[i].record_output);
        temp_obj.insert("two_ma_clamp", tachometer_variables[i].two_ma_clamp);
        temp_obj.insert("alert_latching", tachometer_variables[i].alert_latching);
        temp_obj.insert("overspeed_latching", tachometer_variables[i].overspeed_latching);
        temp_obj.insert("normal_latching", tachometer_variables[i].normal_latching);
        temp_obj.insert("alert_response_time", tachometer_variables[i].alert_response_time);
        temp_obj.insert("danger_response_time", tachometer_variables[i].danger_response_time);
        chan_array.append(temp_obj);
    }
    json_obj.insert("chan", chan_array);
    json_obj.insert("version", 1);
    json_obj.insert("slot", slot_no);
    json_obj.insert("card_type", 2);
    QJsonDocument json_doc;
    json_doc.setObject(json_obj);
    QByteArray byte_array = json_doc.toJson();
    file.write(byte_array);
    file.close();
}
void Tachometer::on_pushButton_cancel_clicked() {
    this->close();
}