//! This module aids in the creation of actual boss statistics. use super::*; use std::collections::HashMap; use std::error::Error; pub mod boon; pub mod damage; pub mod gamedata; pub mod math; pub mod mechanics; pub mod trackers; use self::boon::BoonLog; use self::damage::DamageLog; use self::mechanics::MechanicLog; use self::trackers::{RunnableTracker, Tracker}; pub type StatResult = Result; quick_error! { #[derive(Debug)] pub enum StatError { TrackerError(err: Box) { description("tracker error") display("tracker returned an error: {}", err) cause(&**err) } } } macro_rules! try_tracker { ($expr:expr) => { #[allow(unreachable_code)] match $expr { Ok(e) => e, Err(e) => return Err(StatError::TrackerError(e)), } }; } /// A struct containing the calculated statistics for the log. #[derive(Clone, Debug)] pub struct Statistics { /// The complete damage log. pub damage_log: DamageLog, /// The complete mechanics log. pub mechanic_log: MechanicLog, /// A map mapping agent addresses to their stats. pub agent_stats: HashMap, } /// A struct describing the agent statistics. #[derive(Clone, Debug, Default)] pub struct AgentStats { /// Average stacks of boons. /// /// This also includes conditions. /// /// For duration-based boons, the average amount of stacks is the same as /// the uptime. pub boon_log: BoonLog, /// Time when the agent has entered combat (millseconds since log start). pub enter_combat: u64, /// Time when the agent has left combat (millseconds since log start). pub exit_combat: u64, } impl AgentStats { /// Returns the combat time of this agent in milliseconds. pub fn combat_time(&self) -> u64 { self.exit_combat - self.enter_combat } } /// Takes a bunch of trackers and runs them on the given log. /// /// This method returns "nothing", as the statistics are saved in the trackers. /// It's the job of the caller to extract them appropriately. pub fn run_trackers(log: &Log, trackers: &mut [&mut RunnableTracker]) -> StatResult<()> { for event in log.events() { for mut tracker in trackers.iter_mut() { try_tracker!((*tracker).run_feed(event)); } } Ok(()) } /// Calculate the statistics for the given log. pub fn calculate(log: &Log) -> StatResult { let mut agent_stats = HashMap::::new(); let mut damage_tracker = trackers::DamageTracker::new(log); let mut log_start_tracker = trackers::LogStartTracker::new(); let mut combat_time_tracker = trackers::CombatTimeTracker::new(); let mut boon_tracker = trackers::BoonTracker::new(); let mechanics = gamedata::get_mechanics(log.boss_id); let boss_addr = log.boss_agents().into_iter().map(|x| *x.addr()).collect(); let mut mechanic_tracker = trackers::MechanicTracker::new(boss_addr, mechanics); run_trackers( log, &mut [ &mut damage_tracker, &mut log_start_tracker, &mut combat_time_tracker, &mut boon_tracker, &mut mechanic_tracker, ], )?; let log_start_time = try_tracker!(log_start_tracker.finalize()); let combat_times = try_tracker!(combat_time_tracker.finalize()); for (agent_addr, &(enter_time, exit_time)) in &combat_times { let agent = agent_stats .entry(*agent_addr) .or_insert_with(Default::default); // XXX: This used to be enter_time - log_start_time, as it makes more // sense to have the time relative to the log start instead of the // Windows boot time. However, this also means that we need to modify // all event times before we do any tracking, as many trackers rely on // event.time to track information related to time. if enter_time != 0 { agent.enter_combat = enter_time; } else { agent.enter_combat = log_start_time; } if exit_time != 0 { agent.exit_combat = exit_time; } } let boon_logs = try_tracker!(boon_tracker.finalize()); for (agent_addr, boon_log) in boon_logs { let agent = agent_stats .entry(agent_addr) .or_insert_with(Default::default); agent.boon_log = boon_log; } let damage_log = try_tracker!(damage_tracker.finalize()); let mechanic_log = try_tracker!(mechanic_tracker.finalize()); Ok(Statistics { damage_log, mechanic_log, agent_stats, }) }