#pragma once

#include "gp/algorithms/min_of.hpp"
#include "gp/containers/dynarray.hpp"
#include "gp/containers/vector.hpp"
#include "gp/functional/optional.hpp"

#include <stdint.h>

struct segment{
    int16_t priority = 0;
    gp::dynarray<char, 32> name;
    gp::dynarray<char, gp_config::limits::loggers_segment_size> text;
};

struct virtual_logging_segment{
    virtual size_t push_segment(gp::buffer<char> name, gp::buffer<char> text, int16_t prio = 0) = 0;
    virtual void set_segment(gp::buffer<char> name, gp::buffer<char> text, int16_t prio = 0) = 0;
    virtual gp::optional<gp::reference_wrapper<segment>> get_segment(gp::buffer<char> name) = 0;
    virtual size_t size() = 0;
    virtual segment& get_segment_by_idx(size_t) = 0;
    virtual void clear() = 0;
};


template<size_t capacity>
struct static_logging_segment : virtual_logging_segment{
    gp::dynarray<segment, capacity> data;
    gp::optional<size_t> wrap_around;
    //gp::function<void(virtual_logging_segment&)> on_destruct{[](virtual_logging_segment&){}, gp::nullopt};

    ~static_logging_segment() {
        //on_destruct(*this);
    }
    
    segment prepare_segment(gp::buffer<char> name, gp::buffer<char> text, int prio = 0) {
        segment prepared;
        prepared.priority = prio;
        {
            auto it = name.begin();
            auto end = name.begin()+gp::min(name.size(), prepared.name.capacity());
            while(it != end) {
                prepared.name.push_back(*it);
                ++it;
            }
        }
        {
            auto it = text.begin();
            auto end = text.begin()+gp::min(text.size(), prepared.text.capacity());
            while(it != end) {
                prepared.text.push_back(*it);
                ++it;
            }
            if(text.size()>prepared.text.capacity()) {
                auto it = prepared.text.rbegin();
                *it = '.'; ++it;
                *it = '.'; ++it;
                *it = '.';
            }
        }
        
        return prepared;
    }

    virtual size_t push_segment(gp::buffer<char> name, gp::buffer<char> text, int16_t prio = 0) {
        auto prepared = prepare_segment(name, text, prio);

        if(data.size() == data.capacity()) {
            wrap_around = 0;
        }
        
        if(wrap_around.has_value()) {
            size_t idx = wrap_around.value();
            int16_t override_prio = gp::min_of(data.begin(), data.end(), [](auto v){ return v.priority; });
            while(prio >= override_prio) {
                if(data[idx].priority == override_prio) {
                    data[idx] = prepared;
                    break;
                }
                idx = (++idx) % data.size();
            }
            idx = (++idx) % data.size();
            wrap_around = idx;
            return idx-1;
        } else {
            data.push_back(prepared);
            return data.size()-1;
        }
    }

    virtual void set_segment(gp::buffer<char> name, gp::buffer<char> text, int16_t prio = 0) {
        auto prepared = prepare_segment(name, text, prio);
        auto seg = get_segment(prepared.name.as_buffer());

        if(seg.has_value()) {
            seg.value().get() = prepared;

            return;
        }

        push_segment(prepared.name.as_buffer(), prepared.text.as_buffer(), prepared.priority);
    }

    virtual gp::optional<gp::reference_wrapper<segment>> get_segment(gp::buffer<char> name) {
        decltype(segment{}.name) tname;
        auto it = name.begin();
        auto end = name.begin()+gp::min(name.size(), tname.capacity());
        while(it != end) {
            tname.push_back(*it);
            ++it;
        }

        for(auto& elem : data) {
            if(elem.name == tname) {
                return gp::reference_wrapper<segment>(elem);
            }
        }

        return gp::nullopt;
    }

    virtual size_t size() {
        return data.size();
    }
    
    virtual segment& get_segment_by_idx(size_t idx) {
        return data[idx];
    }

    virtual void clear() {
        data.~dynarray();
        new(&data) decltype(data){};
    }
};

/*struct dynamic_logging_segment{

};*/