#pragma once

#define MAIN_DEVICE_ID "rc-gateway"
#define BATTERY_PERCENTAGE_TEMPLATE(min, diff) "{{ ((value_json.sensor.diagnostic.voltage|float-" #min ")|round(2)*100/" #diff ")|int }}"

#include "esp.h"
#include "ha.h"

using namespace Ha;

typedef unordered_multimap<uint32_t, Ha::Switch*> mapswitches;

mapswitches onSwitches;
mapswitches offSwitches;
unordered_map<string, Ha::Switch*> p1Switches;

auto gatewayDevice = &DeviceConfig::create(MAIN_DEVICE_ID).withName("RC Gateway").withManufacturer("Adafruit").withModel("Huzzah Esp8266");

struct PollinSwitch : Switch {
    constexpr static const char* man = "Pollin";
    const char* group;
    uint8_t channel;

    PollinSwitch(const char* group, const uint8_t channel, const char* name = nullptr, const char* area = nullptr)
        : Switch(nullptr, [group, channel]{
                // copy id from string into a new pointer, to avoid memory leaks
                return (new string{Protocol_1::buildId(group, channel)})->c_str();
            }()), group(group), channel(channel) {
        if (!name) name = (new string{string(man).append(" ").append(id)})->c_str();
        mainDevice = &DeviceConfig::create(id).withName(name).withManufacturer(man).withArea(area).withParent(gatewayDevice);
        withStateTopic();
        deviceClass = "outlet";
        p1Switches.insert({ string(id), this });
    }

    void onCommand(const char* msg) override {
        strcmp("ON", msg) == 0 ? mySwitch.switchOn(group, channel) : mySwitch.switchOff(group, channel);
        publisher(State::topic, msg);
    }

};

struct EasyHomeSwitch : Switch {
    uint32_t on[8] = { 4326554, 4537114, 4767530, 4972714 };
    uint32_t off[8] = { 4483146, 4626810, 4661562, 4819642 };

    EasyHomeSwitch(const char remotePosition, uint32_t on[4], uint32_t off[4], const char* name = nullptr, const char* area = nullptr)
        : Switch(nullptr, [remotePosition] {
            auto uId = new string("easy_home_");
            (*uId) += tolower(remotePosition);
            return uId->c_str();
        }()) {
        memcpy(&this->on[4], on, 4 * sizeof(uint32_t));
        memcpy(&this->off[4], off, 4 * sizeof(uint32_t));
        if (!name) {
            auto n = new string("Easy Home ");
            (*n) += remotePosition;
            name = n->c_str();
        }
        mainDevice = &DeviceConfig::create(id).withName(name).withManufacturer("Intertek").withModel("Easy Home").withArea(area).withParent(gatewayDevice);
        withStateTopic();
        deviceClass = "outlet";
        for (int i = 0; i < 8; i++) {
            onSwitches.insert({ this->on[i], this });
            offSwitches.insert({ this->off[i], this });
        }
    }

    void onCommand(const char* msg) override {
        mySwitch.setProtocol(4);
        strcmp("ON", msg) == 0 ? mySwitch.send(on[4], 24) : mySwitch.send(off[4], 24);
        publisher(State::topic, msg);
    }
};

template <class T>
auto batterySensors(const char* id, const char* batterySensorTemplate) {
    return [id, batterySensorTemplate](Builder<T>& builder) -> Builder<T>& {
        builder
            .addDiagnostic(new VoltageSensor{id, "Battery voltage", "{{ value_json.sensor.diagnostic.voltage }}"})
            .addDiagnostic(new BatterySensor{id, "Battery level", batterySensorTemplate})
            .build();
        return builder;
    };
}