use std::collections::HashMap;

use ::rltk::{RandomNumberGenerator, RGB};
use ::specs::prelude::*;
use ::specs::saveload::{MarkedBuilder, SimpleMarker};

use crate::components::*;
use crate::random_table::RandomTable;
use crate::raws::{get_spawn_table_for_depth, spawn_named_entity, SpawnType, RAWS};
use crate::{Map, Rect, TileType};

/// Spawns the player and returns their entity object
pub fn player(ecs: &mut World, player_x: i32, player_y: i32) -> Entity {
    ecs.create_entity()
        .with(Position {
            x: player_x,
            y: player_y,
        })
        .with(Renderable {
            glyph: rltk::to_cp437('@'),
            fg: RGB::named(rltk::YELLOW),
            bg: RGB::named(rltk::BLACK),
            render_order: 0,
        })
        .with(Player {})
        .with(Viewshed::default())
        .with(Name::from("Player"))
        .with(CombatStats {
            max_hp: 30,
            hp: 30,
            defense: 2,
            power: 5,
        })
        .with(HungerClock {
            state: HungerState::WellFed,
            duration: 20,
        })
        .with(Attributes {
            might: Attribute::new(11),
            fitness: Attribute::new(11),
            quickness: Attribute::new(11),
            intelligence: Attribute::new(11),
        })
        .marked::<SimpleMarker<SerializeMe>>()
        .build()
}

const MAX_MONSTERS: i32 = 4;

fn room_table(map_depth: i32) -> RandomTable {
    get_spawn_table_for_depth(&RAWS.lock().unwrap(), map_depth)
}

/// fills a room with stuff!
#[allow(clippy::map_entry)]
pub fn spawn_room(
    map: &Map,
    rng: &mut RandomNumberGenerator,
    room: &Rect,
    map_depth: i32,
    spawn_list: &mut Vec<(usize, String)>,
) {
    let mut possible_targets: Vec<usize> = Vec::new();

    // Borrow scope - to keep access to the map separated
    {
        for y in room.y1 + 1..room.y2 {
            for x in room.x1 + 1..room.x2 {
                let idx = map.xy_idx(x, y);
                if map.tiles[idx] == TileType::Floor {
                    possible_targets.push(idx);
                }
            }
        }
    }

    spawn_region(map, rng, &possible_targets, map_depth, spawn_list);
}

pub fn spawn_region(
    _map: &Map,
    rng: &mut RandomNumberGenerator,
    area: &[usize],
    map_depth: i32,
    spawn_list: &mut Vec<(usize, String)>,
) {
    let spawn_table = room_table(map_depth);
    let mut spawn_points: HashMap<usize, String> = HashMap::new();
    let mut areas: Vec<usize> = Vec::from(area);

    // Scope to keep the borrow checker happy
    {
        let num_spawns = i32::min(
            areas.len() as i32,
            rng.roll_dice(1, MAX_MONSTERS + 3) + (map_depth - 1) - 3,
        );
        if num_spawns == 0 {
            return;
        }

        for _i in 0..num_spawns {
            let array_index = if areas.len() == 1 {
                0_usize
            } else {
                (rng.roll_dice(1, areas.len() as i32) - 1) as usize
            };
            let map_idx = areas[array_index];
            spawn_points.insert(map_idx, spawn_table.roll(rng));
            areas.remove(array_index);
        }
    }

    // Actually spawn the monsters
    for spawn in spawn_points.iter() {
        spawn_list.push((*spawn.0, spawn.1.to_string()));
    }
}

/// Spawns a named entity (name in tuple.1) at the location in (tuple.0)
pub fn spawn_entity(ecs: &mut World, spawn: &(&usize, &String)) {
    let map = ecs.fetch::<Map>();
    let width = map.width as usize;
    let x = (*spawn.0 % width) as i32;
    let y = (*spawn.0 / width) as i32;

    // Drop this map reference to make the borrow checker happy
    std::mem::drop(map);

    let item_result = spawn_named_entity(
        &RAWS.lock().unwrap(),
        ecs.create_entity(),
        spawn.1,
        SpawnType::AtPosition { x, y },
    );
    if item_result.is_some() {
        return;
    }

    rltk::console::log(format!(
        "WARNING: We don't know how to spawn [{}]!",
        spawn.1
    ));
}