mnml/server/src/game.rs

use rand::prelude::*;
use uuid::Uuid;

// Db Commons
use serde_cbor::{from_slice, to_vec};
use postgres::transaction::Transaction;
use failure::Error;
use failure::err_msg;

use account::Account;
use rpc::{GameStateParams, GameSkillParams};
use cryp::{Cryp};
use skill::{Skill, Cast, Resolution, Event};
use player::{Player};
use instance::{instance_game_finished, global_game_finished};

pub type Log = Vec<String>;

#[derive(Debug,Clone,Serialize,Deserialize)]
pub struct Team {
    pub id: Uuid,
    pub player: Option<Uuid>,
    pub bot: bool,
    pub cryps: Vec<Cryp>,
}

impl Team {
    pub fn new(account: Uuid) -> Team {
        return Team {
            id: account,
            player: None,
            cryps: vec![],
            bot: false,
        };
    }

    pub fn set_bot(&mut self) -> &mut Team {
        self.bot = true;
        self
    }

    fn skills_required(&self) -> usize {
        let required = self.cryps.iter()
            .filter(|c| !c.is_ko())
            .filter(|c| c.available_skills().len() > 0)
            .collect::<Vec<&Cryp>>().len();
        // println!("{:} requires {:} skills this turn", self.id, required);
        return required;
    }

    pub fn set_cryps(&mut self, mut cryps: Vec<Cryp>) -> &mut Team {
        cryps.sort_unstable_by_key(|c| c.id);
        self.cryps = cryps;
        self
    }

    pub fn cryp_by_id(&mut self, id: Uuid) -> Option<&mut Cryp> {
        self.cryps.iter_mut().find(|c| c.id == id)
    }
}

#[derive(Debug,Clone,Copy,PartialEq,Serialize,Deserialize)]
pub enum Phase {
    Start,
    Skill,
    Target,
    Resolve,
    Finish,
}

#[derive(Debug,Clone,Copy,Serialize,Deserialize)]
pub enum GameMode {
    Normal,
    Pvp,
    Zone3v2Attack,
    Zone2v2Caster,
    Zone3v3MeleeMiniboss,
    Zone3v3HealerBoss,
}

#[derive(Debug,Clone,Serialize,Deserialize)]
pub struct Game {
    pub id: Uuid,
    pub team_size: usize,
    pub team_num: usize,
    pub teams: Vec<Team>,
    pub phase: Phase,
    pub stack: Vec<Cast>,
    pub resolved: Vec<Resolution>,
    pub log: Vec<String>,
    pub instance: Option<Uuid>,
    pub mode: GameMode,
}

impl Game {
    pub fn new() -> Game {
        return Game {
            id: Uuid::new_v4(),
            team_size: 0,
            team_num: 0,
            teams: vec![],
            phase: Phase::Start,
            stack: vec![],
            resolved: vec![],
            log: vec![],
            instance: None,
            mode: GameMode::Normal,
        };
    }

    pub fn set_team_num(&mut self, size: usize) -> &mut Game {
        self.team_num = size;
        self
    }

    pub fn set_team_size(&mut self, size: usize) -> &mut Game {
        self.team_size = size;
        self
    }

    pub fn set_instance(&mut self, id: Uuid) -> &mut Game {
        self.instance = Some(id);
        self
    }

    pub fn set_mode(&mut self, mode: GameMode) -> &mut Game {
        self.mode = mode;
        self
    }

    pub fn joinable(&self) -> bool {
        self.can_start()
    }

    pub fn team_add(&mut self, team: Team) -> Result<&mut Game, Error> {
        if self.teams.len() == self.team_num {
            return Err(err_msg("maximum number of teams"));
        }

        if self.teams.iter().any(|t| t.id == team.id) {
            return Err(err_msg("team already in game"));
        }

        if team.cryps.iter().all(|c| c.skills.len() == 0) {
            return Err(err_msg("your cryps have no skills"));
        }

        let team_description = team.cryps.iter().map(|c| c.name.clone()).collect::<Vec<String>>().join(", ");
        self.log.push(format!("{:} has joined the game.", team_description));

        self.teams.push(team);

        Ok(self)
    }

    // handle missing team properly
    pub fn team_by_id(&mut self, id: Uuid) -> &mut Team {
        match self.teams.iter_mut().find(|t| t.id == id) {
            Some(t) => t,
            None => panic!("id not in game {:}", id),
        }
    }

    pub fn cryp_by_id(&mut self, id: Uuid) -> Option<&mut Cryp> {
        match self.teams.iter_mut().find(|t| t.cryps.iter().any(|c| c.id == id)) {
            Some(team) => team.cryps.iter_mut().find(|c| c.id == id),
            None => None,
        }
    }

    pub fn cryp_name(&mut self, id: Uuid) -> String {
        match self.teams.iter_mut().find(|t| t.cryps.iter().any(|c| c.id == id)) {
            Some(team) => {
                let cryp = team.cryps.iter_mut().find(|c| c.id == id).expect("cryp not in team");
                return cryp.name.clone();
            }
            None => panic!("{:?} not in game", id),
        }
    }


    fn all_cryps(&self) -> Vec<Cryp> {
        self.teams.clone()
            .into_iter()
            .flat_map(
                |t| t.cryps
                    .into_iter())
                    .collect::<Vec<Cryp>>()
    }

    pub fn cryp_aoe_targets(&self, cryp_id: Uuid) -> Vec<Uuid> {
        self.teams.iter()
            .find(|t| t.cryps.iter().any(|c| c.id == cryp_id))
            .unwrap()
            .cryps
            .iter()
            .map(|c| c.id)
            .collect()
    }

    fn update_cryp(&mut self, cryp: &mut Cryp) -> &mut Game {
        match self.teams.iter_mut().find(|t| t.cryps.iter().any(|c| c.id == cryp.id)) {
            Some(team) => {
                let index = team.cryps.iter().position(|t| t.id == cryp.id).unwrap();
                team.cryps.remove(index);
                team.cryps.push(cryp.clone());
                team.cryps.sort_unstable_by_key(|c| c.id);
            },
            None => panic!("cryp not in game"),
        };

        self
    }

    fn can_start(&self) -> bool {
        return self.teams.len() == self.team_num
            && self.teams.iter().all(|t| t.cryps.len() == self.team_size)
    }

    pub fn start(mut self) -> Game {
        self.log.push("Game starting...".to_string());
        self.skill_phase_start()
    }

    fn skill_phase_start(mut self) -> Game {
        self.log.push("<Skill Phase>".to_string());

        if ![Phase::Start, Phase::Resolve].contains(&self.phase) {
            panic!("game not in Resolve or start phase");
        }

        self.phase = Phase::Skill;

        self.pve_add_skills();
        if self.skill_phase_finished() {
            return self.resolve_phase_start()
        }

        self
    }

    fn pve_add_skills(&mut self) -> &mut Game {
        let mut pve_skills = vec![];

        for mobs in self.teams
            .iter()
            .filter(|t| t.bot) {
            let player_team = self.teams.iter().find(|t| t.id != mobs.id).unwrap();

            for mob in mobs.cryps.iter() {
                let skill = mob.mob_select_skill();
                // println!("{:?} {:?}", mob.name, skill);
                match skill {
                    Some(s) => {
                        let mut rng = thread_rng();

                        // the mut marks it as being able to be called
                        // more than once
                        let mut find_target = || {
                            match s.defensive() {
                                true => &mobs.cryps[rng.gen_range(0, mobs.cryps.len())],
                                false => &player_team.cryps[rng.gen_range(0, player_team.cryps.len())],
                            }
                        };

                        let mut target = find_target();

                        while target.is_ko() {
                            target = find_target();
                        }

                        pve_skills.push((mobs.id, mob.id, Some(target.id), s));
                    },
                    None => continue,
                };
            }
        }

        for (team_id, mob_id, target_id, s) in pve_skills {
            self.add_skill(team_id, mob_id, target_id, s).expect("unable to add pve mob skill");
        }

        self
    }

    fn add_skill(&mut self, team_id: Uuid, source_cryp_id: Uuid, target_cryp_id: Option<Uuid>, skill: Skill) -> Result<Uuid, Error> {
        if self.phase != Phase::Skill {
            return Err(err_msg("game not in skill phase"));
        }

        let final_target_id = match skill.self_targeting() {
            true => source_cryp_id,
            false => match target_cryp_id {
                Some(t) => t,
                None => return Err(err_msg("skill requires a target")),
            }
        };

        // target checks
        {
            let target = match self.cryp_by_id(final_target_id) {
                Some(c) => c,
                None => return Err(err_msg("target cryp not in game")),
            };

            // fixme for rez
            if target.is_ko() {
               return Err(err_msg("target cryp is ko"));
            }
        }

        // cryp checks
        {
            let cryp = match self.cryp_by_id(source_cryp_id) {
                Some(c) => c,
                None => return Err(err_msg("cryp not in game")),
            };

            if cryp.is_ko() {
               return Err(err_msg("cryp is ko"));
            }

            // check the cryp has the skill
            if !cryp.knows(skill) {
                return Err(err_msg("cryp does not have that skill"));
            }

            if cryp.skill_on_cd(skill).is_some() {
               return Err(err_msg("abiltity on cooldown"));
            }

            // check here as well so uncastable spells don't go on the stack
            if let Some(disable) = cryp.disabled(skill) {
               return Err(format_err!("skill disabled {:?}", disable));
            }
        }

        // replace cryp skill
        if let Some(s) = self.stack.iter_mut().position(|s| s.source_cryp_id == source_cryp_id) {
            self.stack.remove(s);
        }

        let skill = Cast::new(source_cryp_id, team_id, final_target_id, skill);
        let skill_id = skill.id;
        self.stack.push(skill);

        return Ok(skill_id);
    }

    fn skill_phase_finished(&self) -> bool {
        self.teams.iter()
            // for every team
            .all(|t| self.stack.iter()
                // the number of skills they have cast
                .filter(|s| s.source_team_id == t.id).collect::<Vec<&Cast>>()
                // should equal the number required this turn
                .len() == t.skills_required()
            )
    }

    // requires no input
    // just do it
    fn resolve_phase_start(mut self) -> Game {
        if self.phase != Phase::Skill {
            panic!("game not in skill phase");
        }
        assert!(self.skill_phase_finished());

        self.phase = Phase::Resolve;
        self.log.push("<Resolve Phase>".to_string());

        self.resolve_skills()
    }

    // remove names from the cast
    // put them in teh result
    // just add the results to the resolved vec
    // try remove casts altogether

    fn log_resolution(&mut self, cast: &Cast) -> &mut Game {
        for resolution in cast.resolutions.iter() {
            let Resolution { source, target, event } = resolution;
            match event {
                Event::Disable { disable } =>
                    self.log.push(format!("{:} {:?} {:} disabled {:?}",
                        source.name, cast.skill, target.name, disable)),

                Event::Immunity { immunity } =>
                    self.log.push(format!("[{:}] {:} {:?} {:} immune {:?}",
                        cast.speed, source.name, cast.skill, target.name, immunity)),

                Event::TargetKo =>
                    self.log.push(format!("[{:}] {:} {:?} {:} - KO",
                        cast.speed, source.name, cast.skill, target.name)),

                Event::Damage { amount, mitigation, category: _ } =>
                    self.log.push(format!("[{:}] {:} {:?} {:} {:} ({:} mitigated)",
                        cast.speed, source.name, cast.skill, target.name, amount, mitigation)),

                Event::Healing { amount, overhealing } =>
                    self.log.push(format!("[{:}] {:} {:?} {:} {:} ({:}OH)",
                        cast.speed, source.name, cast.skill, target.name, amount, overhealing)),

                Event::Inversion { healing, damage, recharge, category: _ } => {
                    match *healing > 0 {
                        true => self.log.push(format!("[{:}] {:} {:?} {:} INVERTED {:} ({:} recharge)",
                            cast.speed, source.name, cast.skill, target.name, healing, recharge)),
                        false => self.log.push(format!("[{:}] {:} {:?} {:} INVERTED {:}",
                            cast.speed, source.name, cast.skill, target.name, damage)),
                    }
                },

                Event::Effect { effect, duration } =>
                    self.log.push(format!("[{:}] {:} {:?} {:} {:?} {:}T",
                        cast.speed, source.name, cast.skill, target.name, effect, duration)),

                Event::Removal { effect } =>
                    self.log.push(format!("[{:}] {:?} removed {:} {:?}",
                        cast.speed, source.name, target.name, effect)),

                Event::Recharge { red, blue } =>
                    self.log.push(format!("[{:}] {:} {:?} {:} {:}R {:}B",
                        cast.speed, source.name, cast.skill, target.name, red, blue)),

                Event::Evasion { skill: _, evasion_rating } =>
                    self.log.push(format!("[{:}] {:} {:?} {:} evaded ({:}%)",
                        cast.speed, source.name, cast.skill, target.name, evasion_rating)),

                Event::Incomplete => panic!("incomplete resolution {:?}", resolution),
            }
        }

        self
    }

    fn stack_sort_speed(&mut self) -> &mut Game {
        let mut sorted = self.stack.clone();
        sorted.sort_unstable_by_key(|s| -> u64 {
            let caster = self.cryp_by_id(s.source_cryp_id).unwrap();
            caster.skill_speed(s.skill)
        });

        self.stack = sorted;

        self
    }

    fn resolve_skills(mut self) -> Game {
        if self.phase != Phase::Resolve {
            panic!("game not in Resolve phase");
        }

        // find their statuses with ticks
        let mut ticks = self.all_cryps()
            .iter()
            .flat_map(
                |c| c.effects
                    .iter()
                    .cloned()
                    .filter_map(|e| e.tick))
                    .collect::<Vec<Cast>>();

        // add them to the stack
        self.stack.append(&mut ticks);

        self.stack_sort_speed();

        // temp vec of this round's resolving skills
        // because need to check cooldown use before pushing them into the complete list
        let mut resolving = vec![];

        while let Some(mut cast) = self.stack.pop() {
            // println!("{:} resolving ", cast);

            cast.finalise(&mut self);

            self.log_resolution(&cast);

            // the results go into the resolutions
            self.resolved.append(&mut cast.resolutions);

            // the cast itself goes into this temp vec
            // to handle cooldowns
            resolving.push(cast);

            // if target.is_ko() && !target.ko_logged {
            //     self.log.push(format!("{:} KO", target.name));
            //     target.effects.clear();
            //     target.ko_logged = true;
            // }

            // if source.is_ko() && !source.ko_logged {
            //     self.log.push(format!("{:} KO", source.name));
            //     source.effects.clear();
            //     source.ko_logged = true;
            // }

            // self.update_cryp(&mut source);
            // self.update_cryp(&mut target);

            self.stack_sort_speed();
        };

        // println!("{:#?}", self.resolving);

        // handle cooldowns and statuses
        self.progress_durations(&resolving);

        if self.finished() {
            return self.finish()
        }

        self.skill_phase_start()
    }

    fn progress_durations(&mut self, resolved: &Vec<Cast>) -> &mut Game {
        for mut cryp in self.all_cryps() {
            // println!("progressing durations for {:}", cryp.name);

            if cryp.is_ko() {
                continue;
            }

            // only reduce cooldowns if no cd was used
            // have to borrow self for the skill check
            {
                if let Some(skill) = resolved.iter().find(|s| s.source_cryp_id == cryp.id) {
                    if skill.used_cooldown() {
                        cryp.skill_set_cd(skill.skill);
                    } else {
                        cryp.reduce_cooldowns();
                    }
                } else {
                   cryp.reduce_cooldowns();
                }
            }

            // always reduce durations
            cryp.reduce_effect_durations();
            self.update_cryp(&mut cryp);
        }

        self
    }

    pub fn finished(&self) -> bool {
        self.teams.iter().any(|t| t.cryps.iter().all(|c| c.is_ko()))
    }

    pub fn winner(&self) -> Option<&Team> {
        self.teams.iter().find(|t| t.cryps.iter().any(|c| !c.is_ko()))
    }

    fn finish(mut self) -> Game {
        self.phase = Phase::Finish;
        self.log.push(format!("Game finished."));

        {
            let winner = self.teams.iter().find(|t| t.cryps.iter().any(|c| !c.is_ko()));
            match winner {
                Some(w) => self.log.push(format!("Winner: {:}", w.id)),
                None => self.log.push(format!("Game was drawn.")),
            };
        }

        self
    }
}

pub fn game_skill(params: GameSkillParams, tx: &mut Transaction, account: &Account) -> Result<Game, Error> {
    let query = "
        SELECT *
        FROM games
        WHERE id = $1
    ";

    let result = tx
        .query(query, &[&params.game_id])?;

    let returned = match result.iter().next() {
        Some(row) => row,
        None => return Err(err_msg("game not found")),
    };

    // tells from_slice to cast into a cryp
    let game_bytes: Vec<u8> = returned.get("data");
    let mut game = from_slice::<Game>(&game_bytes)?;

    if game.phase != Phase::Skill {
        return Err(err_msg("game not in skill phase"))
    }

    game.add_skill(account.id, params.cryp_id, params.target_cryp_id, params.skill)?;

    if game.skill_phase_finished() {
        game = game.resolve_phase_start();
    }

    game_update(&game, tx)?;

    Ok(game)
}

// pub fn game_target(params: GameTargetParams, tx: &mut Transaction, account: &Account) -> Result<Game, Error> {
//     let query = "
//         SELECT *
//         FROM games
//         WHERE id = $1
//     ";

//     let result = tx
//         .query(query, &[&params.game_id])?;

//     let returned = match result.iter().next() {
//         Some(row) => row,
//         None => return Err(err_msg("game not found")),
//     };

//     // tells from_slice to cast into a cryp
//     let game_bytes: Vec<u8> = returned.get("data");
//     let mut game = from_slice::<Game>(&game_bytes)?;

//     game.add_target(account.id, params.cryp_id, params.skill_id)?;

//     if game.target_phase_finished() {
//         game.resolve_phase_start();
//     }

//     game_update(game, tx)?;

//     Ok(game)
// }

pub fn game_write(game: &Game, tx: &mut Transaction) -> Result<(), Error> {
    let game_bytes = to_vec(&game)?;

    let query = "
        INSERT INTO games (id, data)
        VALUES ($1, $2)
        RETURNING id;
    ";

    let result = tx
        .query(query, &[&game.id, &game_bytes])?;

    result.iter().next().ok_or(format_err!("no game written"))?;

    // println!("{:} wrote game", game.id);

    return Ok(());
}

pub fn game_state(params: GameStateParams, tx: &mut Transaction, _account: &Account) -> Result<Game, Error> {
    return game_get(tx, params.id)
}

pub fn game_get(tx: &mut Transaction, id: Uuid) -> Result<Game, Error> {
    let query = "
        SELECT *
        FROM games
        WHERE id = $1
    ";

    let result = tx
        .query(query, &[&id])?;

    let returned = match result.iter().next() {
        Some(row) => row,
        None => return Err(err_msg("game not found")),
    };

    // tells from_slice to cast into a cryp
    let game_bytes: Vec<u8> = returned.get("data");
    let game = from_slice::<Game>(&game_bytes)?;

    return Ok(game);
}

pub fn game_global_startup(tx: &mut Transaction) -> Result<(), Error> {
    if game_global_get(tx).is_ok() {
        println!("global mm game exists");
        return Ok(());
    }

    let mut game = Game::new();

    game
        .set_team_num(2)
        .set_team_size(3)
        .set_mode(GameMode::Pvp);

    game_write(&game, tx)?;

    let query = "
        INSERT INTO matchmaking (id, game)
        VALUES ($1, $2)
        RETURNING id;
    ";

    let result = tx
        .query(query, &[&Uuid::nil(), &game.id])?;

    result.iter().next().ok_or(format_err!("no game written"))?;

    println!("{:} wrote global mm startup", game.id);

    return Ok(());
}

pub fn game_global_set(tx: &mut Transaction, game: &Game) -> Result<(), Error> {
    let query = "
        UPDATE matchmaking
        SET game = $1
        WHERE id = $2
        RETURNING id, game;
    ";

    let result = tx
        .query(query, &[&game.id, &Uuid::nil()])?;

    result.iter()
        .next()
        .ok_or(err_msg("could not set global game mm"))?;

    return Ok(());
}

pub fn game_global_get(tx: &mut Transaction) -> Result<Game, Error> {
    let query = "
        SELECT * from games
        WHERE id = (
            SELECT game
            FROM matchmaking
            WHERE id = $1
        );
    ";

    let delete_query = "
        DELETE from matchmaking;
    ";

    let result = tx
        .query(query, &[&Uuid::nil()])?;

    let returned = match result.iter().next() {
        Some(row) => row,
        None => return Err(err_msg("game not found")),
    };

    // tells from_slice to cast into a cryp
    let game_bytes: Vec<u8> = returned.get("data");
    let game = match from_slice::<Game>(&game_bytes) {
        Ok(g) => g,
        Err(_) => {
            tx.query(delete_query, &[])?;
            return Err(err_msg("matchmaking game was invalid"))
        }
    };

    return Ok(game);
}


pub fn game_update(game: &Game, tx: &mut Transaction) -> Result<(), Error> {
    let game_bytes = to_vec(&game)?;

    let query = "
        UPDATE games
        SET data = $1
        WHERE id = $2
        RETURNING id, data;
    ";

    let result = tx
        .query(query, &[&game_bytes, &game.id])?;

    result.iter().next().ok_or(format_err!("game {:?} could not be written", game))?;

    if game.finished() {
        if let Some(i) = game.instance {
            match i == Uuid::nil() {
                true => global_game_finished(tx, &game)?,
                false => instance_game_finished(tx, &game, i)?,
            }
        }
    }

    return Ok(());
}

// pub fn game_pve_new(cryp_ids: Vec<Uuid>, mode: GameMode, tx: &mut Transaction, account: &Account) -> Result<Game, Error> {
//     if cryp_ids.len() == 0 {
//         return Err(err_msg("no cryps selected"));
//     }

//     let cryps = cryp_ids
//         .iter()
//         .map(|id| cryp_get(tx, *id, account.id))
//         .collect::<Result<Vec<Cryp>, Error>>()?;

//     if cryps.len() > 3 {
//         return Err(err_msg("team size too large (3 max)"));
//     }

//     // create the game
//     let mut game = Game::new();
//     // let game_id = game.id;

//     game;
//         .set_team_num(2)
//         .set_team_size(cryps.len())
//         .set_mode(mode);

//     // create the mob team
//     let mob_team = generate_mob_team(mode, &cryps);

//     // add the players
//     let mut plr_team = Team::new(account.id);
//     plr_team
//         .set_cryps(cryps);


//     game
//         .team_add(plr_team)?
//         .team_add(mob_team)?;

//     game.start();

//     return Ok(game);
// }

// pub fn game_pve(params: GamePveParams, tx: &mut Transaction, account: &Account) -> Result<Game, Error> {
//     let game = game_pve_new(params.cryp_ids, GameMode::Normal, tx, account)?;

//     // persist
//     game_write(&game, tx)?;

//     Ok(game)
// }

pub fn game_instance_new(tx: &mut Transaction, player: Player, game_id: Uuid) -> Result<Game, Error> {
    // create the game
    let mut game = Game::new();
    game.id = game_id;

    game
        .set_team_num(2)
        .set_team_size(3)
        .set_instance(player.instance)
        .set_mode(GameMode::Pvp);

    // create the initiators team
    let mut team = Team::new(player.account);
    team.set_cryps(player.cryps);

    game.team_add(team)?;

    // persist
    game_write(&game, tx)?;

    Ok(game)
}

pub fn game_instance_join(tx: &mut Transaction, player: Player, game_id: Uuid) -> Result<Game, Error> {
    let mut game = game_get(tx, game_id)?;

    let mut team = Team::new(player.account);
    team.set_cryps(player.cryps);
    game.team_add(team)?;

    if game.can_start() {
        game = game.start();
    }

    println!("{:?} game joined", game.id);

    game_update(&game, tx)?;

    Ok(game)
}

#[cfg(test)]
mod tests {
    use game::*;
    use cryp::*;

    fn create_test_game() -> Game {
        let x = Cryp::new()
            .named(&"pronounced \"creeep\"".to_string())
            .learn(Skill::Attack)
            .learn(Skill::TestStun)
            .learn(Skill::TestTouch)
            .learn(Skill::TestBlock)
            .learn(Skill::TestParry)
            .learn(Skill::TestSiphon)
            .learn(Skill::Empower)
            .learn(Skill::Stun)
            .learn(Skill::Block);

        let y = Cryp::new()
            .named(&"lemongrass tea".to_string())
            .learn(Skill::Attack)
            .learn(Skill::TestStun)
            .learn(Skill::TestTouch)
            .learn(Skill::TestBlock)
            .learn(Skill::TestParry)
            .learn(Skill::TestSiphon)
            .learn(Skill::Empower)
            .learn(Skill::Stun)
            .learn(Skill::Block);

        let mut game = Game::new();

        game
            .set_team_num(2)
            .set_team_size(1);

        let x_team_id = Uuid::new_v4();
        let mut x_team = Team::new(x_team_id);
        x_team
            .set_cryps(vec![x]);

        let y_team_id = Uuid::new_v4();
        let mut y_team = Team::new(y_team_id);
        y_team
            .set_cryps(vec![y]);

        game
            .team_add(x_team).unwrap()
            .team_add(y_team).unwrap();

        assert!(game.can_start());

        return game.start();
    }

    fn create_2v2_test_game() -> Game {
        let i = Cryp::new()
            .named(&"pretaliate".to_string())
            .learn(Skill::Attack)
            .learn(Skill::TestTouch);

        let j = Cryp::new()
            .named(&"poy sian".to_string())
            .learn(Skill::Attack)
            .learn(Skill::TestTouch);

        let x = Cryp::new()
            .named(&"pronounced \"creeep\"".to_string())
            .learn(Skill::Attack)
            .learn(Skill::TestTouch);

        let y = Cryp::new()
            .named(&"lemongrass tea".to_string())
            .learn(Skill::Attack)
            .learn(Skill::TestTouch);

        let mut game = Game::new();

        game
            .set_team_num(2)
            .set_team_size(2);

        let i_team_id = Uuid::new_v4();
        let mut i_team = Team::new(i_team_id);
        i_team
            .set_cryps(vec![i,j]);

        let x_team_id = Uuid::new_v4();
        let mut x_team = Team::new(x_team_id);
        x_team
            .set_cryps(vec![x,y]);

        game
            .team_add(i_team).unwrap()
            .team_add(x_team).unwrap();

        assert!(game.can_start());

        return game.start();
    }

    #[test]
    fn phase_test() {
        let mut game = create_test_game();

        let x_team = game.teams[0].clone();
        let y_team = game.teams[1].clone();

        let x_cryp = x_team.cryps[0].clone();
        let y_cryp = y_team.cryps[0].clone();

        game.add_skill(x_team.id, x_cryp.id, Some(y_cryp.id), Skill::Attack).unwrap();
        game.add_skill(y_team.id, y_cryp.id, Some(x_cryp.id), Skill::Attack).unwrap();

        assert!(game.skill_phase_finished());

        game = game.resolve_phase_start();

        assert!([Phase::Skill, Phase::Finish].contains(&game.phase));

        return;
    }

    #[test]
    fn stun_test() {
        let mut game = create_test_game();

        let x_team = game.teams[0].clone();
        let y_team = game.teams[1].clone();

        let x_cryp = x_team.cryps[0].clone();
        let y_cryp = y_team.cryps[0].clone();

        let _x_stun_id = game.add_skill(x_team.id, x_cryp.id, Some(y_cryp.id), Skill::TestStun).unwrap();
        game.add_skill(y_team.id, y_cryp.id, Some(x_cryp.id), Skill::TestTouch).unwrap();

        assert!(game.skill_phase_finished());
        game = game.resolve_phase_start();

        // should auto progress back to skill phase
        assert!(game.phase == Phase::Skill);

        assert!(game.team_by_id(y_team.id).cryps[0].is_stunned());
        assert!(game.team_by_id(y_team.id).skills_required() == 0);
    }

    #[test]
    fn ko_resolution_test() {
        let mut game = create_test_game();

        let x_team = game.teams[0].clone();
        let y_team = game.teams[1].clone();

        let x_cryp = x_team.cryps[0].clone();
        let y_cryp = y_team.cryps[0].clone();

        game.team_by_id(y_team.id).cryp_by_id(y_cryp.id).unwrap().red_damage.force(u64::max_value());
        game.team_by_id(y_team.id).cryp_by_id(y_cryp.id).unwrap().speed.force(u64::max_value());

        // just in case
        // remove all mitigation
        game.team_by_id(x_team.id).cryp_by_id(x_cryp.id).unwrap().red_shield.force(0);

        let _x_stun_id = game.add_skill(x_team.id, x_cryp.id, Some(y_cryp.id), Skill::TestStun).unwrap();
        game.add_skill(y_team.id, y_cryp.id, Some(x_cryp.id), Skill::Attack).unwrap();

        assert!(game.skill_phase_finished());
        game = game.resolve_phase_start();

        assert!(!game.team_by_id(y_team.id).cryps[0].is_stunned());
        assert!(game.phase == Phase::Finish);
    }

    #[test]
    fn cooldown_test() {
        let mut game = create_test_game();

        let x_team = game.teams[0].clone();
        let y_team = game.teams[1].clone();

        let x_cryp = x_team.cryps[0].clone();
        let y_cryp = y_team.cryps[0].clone();

        // should auto progress back to skill phase
        assert!(game.phase == Phase::Skill);

        assert!(game.team_by_id(y_team.id).cryps[0].skill_on_cd(Skill::Block).is_none());
        assert!(game.team_by_id(y_team.id).cryps[0].skill_on_cd(Skill::Stun).is_some());
        assert!(game.team_by_id(x_team.id).cryps[0].skill_on_cd(Skill::Block).is_none());

        let _x_stun_id = game.add_skill(x_team.id, x_cryp.id, Some(y_cryp.id), Skill::TestTouch).unwrap();
        game.add_skill(y_team.id, y_cryp.id, Some(x_cryp.id), Skill::TestTouch).unwrap();

        game = game.resolve_phase_start();

        // should auto progress back to skill phase
        assert!(game.phase == Phase::Skill);
        assert!(game.team_by_id(y_team.id).cryps[0].skill_on_cd(Skill::Stun).is_none());

        // second round
        // now we block and it should go back on cd
        let _x_block_id = game.add_skill(x_team.id, x_cryp.id, Some(y_cryp.id), Skill::Stun).unwrap();
        let _y_touch_id = game.add_skill(y_team.id, y_cryp.id, Some(x_cryp.id), Skill::TestTouch).unwrap();

        game = game.resolve_phase_start();

        assert!(game.team_by_id(x_team.id).cryps[0].skill_on_cd(Skill::Stun).is_some());
        assert!(game.team_by_id(y_team.id).cryps[0].skill_on_cd(Skill::Block).is_none());
    }

    #[test]
    fn parry_test() {
        let mut game = create_test_game();

        let x_team = game.teams[0].clone();
        let y_team = game.teams[1].clone();

        let x_cryp = x_team.cryps[0].clone();
        let y_cryp = y_team.cryps[0].clone();

        let _x_block_id = game.add_skill(x_team.id, x_cryp.id, None, Skill::TestParry).unwrap();
        game.add_skill(y_team.id, y_cryp.id, Some(x_cryp.id), Skill::TestStun).unwrap();

        game = game.resolve_phase_start();

        // should not be stunned because of parry
        assert!(game.team_by_id(x_team.id).cryps[0].is_stunned() == false);
    }

    #[test]
    fn ko_pve_test() {
        let mut game = create_2v2_test_game();

        let i_team = game.teams[0].clone();
        let x_team = game.teams[1].clone();

        let i_cryp = i_team.cryps[0].clone();
        let j_cryp = i_team.cryps[1].clone();
        let x_cryp = x_team.cryps[0].clone();
        let y_cryp = x_team.cryps[1].clone();

        game.add_skill(i_team.id, i_cryp.id, Some(x_cryp.id), Skill::TestTouch).unwrap();
        game.add_skill(i_team.id, j_cryp.id, Some(x_cryp.id), Skill::TestTouch).unwrap();
        game.add_skill(x_team.id, x_cryp.id, Some(i_cryp.id), Skill::TestTouch).unwrap();
        game.add_skill(x_team.id, y_cryp.id, Some(i_cryp.id), Skill::TestTouch).unwrap();

        assert!(game.skill_phase_finished());
        game = game.resolve_phase_start();

        assert!([Phase::Skill, Phase::Finish].contains(&game.phase));

        // kill a cryp
        game.team_by_id(i_team.id).cryp_by_id(i_cryp.id).unwrap().hp.reduce(u64::max_value());

        assert!(game.team_by_id(i_team.id).skills_required() == 1);
        assert!(game.team_by_id(x_team.id).skills_required() == 2);

        // add some more skills
        game.add_skill(i_team.id, j_cryp.id, Some(x_cryp.id), Skill::TestTouch).unwrap();
        game.add_skill(x_team.id, x_cryp.id, Some(j_cryp.id), Skill::TestTouch).unwrap();
        game.add_skill(x_team.id, y_cryp.id, Some(j_cryp.id), Skill::TestTouch).unwrap();
        assert!(game.add_skill(x_team.id, x_cryp.id, Some(i_cryp.id), Skill::TestTouch).is_err());

        assert!(game.skill_phase_finished());
        game = game.resolve_phase_start();

        assert!(game.team_by_id(i_team.id).skills_required() == 1);
        assert!(game.team_by_id(x_team.id).skills_required() == 2);
        return;
    }
}