use rosu_pp::{Beatmap, BeatmapExt};

// Parse the map yourself
let map = match Beatmap::from_path("/path/to/file.osu") {
    Ok(map) => map,
    Err(why) => panic!("Error while parsing map: {}", why),
};

// If `BeatmapExt` is included, you can make use of
// some methods on `Beatmap` to make your life simpler.
let result = map.pp()
    .mods(24) // HDHR
    .combo(1234)
    .misses(2)
    .accuracy(99.2) // should be called last
    .calculate();

println!("PP: {}", result.pp());

// If you intend to reuse the current map-mod combination,
// make use of the previous result!
// If attributes are given, then stars & co don't have to be recalculated.
let next_result = map.pp()
    .mods(24) // HDHR
    .attributes(result) // recycle
    .combo(543)
    .misses(5)
    .n50(3)
    .accuracy(96.5)
    .calculate();

println!("Next PP: {}", next_result.pp());

let stars = map.stars()
    .mods(16)  // HR
    .calculate()
    .stars();

let max_pp = map.max_pp(16).pp();

println!("Stars: {} | Max PP: {}", stars, max_pp);

use rosu_pp::{Beatmap, BeatmapExt};

// Parse the map asynchronously
let map = match Beatmap::from_path("/path/to/file.osu").await {
    Ok(map) => map,
    Err(why) => panic!("Error while parsing map: {}", why),
};

// The rest stays the same
let result = map.pp()
    .mods(24) // HDHR
    .combo(1234)
    .misses(2)
    .accuracy(99.2)
    .calculate();

println!("PP: {}", result.pp());

use rosu_pp::{
    Beatmap, BeatmapExt, GradualPerformanceAttributes, ScoreState, taiko::TaikoScoreState,
};

let map = match Beatmap::from_path("/path/to/file.osu") {
    Ok(map) => map,
    Err(why) => panic!("Error while parsing map: {}", why),
};

let mods = 8 + 64; // HDDT

// If you're only interested in the star rating or other difficulty value,
// use `GradualDifficultyAttributes`, either through its function `new`
// or through the method `BeatmapExt::gradual_difficulty`.
let gradual_difficulty = map.gradual_difficulty(mods);

// Since `GradualDifficultyAttributes` implements `Iterator`, you can use
// any iterate function on it, use it in loops, collect them into a `Vec`, ...
for (i, difficulty) in gradual_difficulty.enumerate() {
    println!("Stars after object {}: {}", i, difficulty.stars());
}

// Gradually calculating performance values does the same as calculating
// difficulty attributes but it goes the extra step and also evaluates
// the state of a score for these difficulty attributes.
let mut gradual_performance = map.gradual_performance(mods);

// The default score state is kinda chunky because it considers all modes.
let state = ScoreState {
    max_combo: 1,
    n_katu: 0, // only relevant for ctb
    n300: 1,
    n100: 0,
    n50: 0,
    misses: 0,
    score: 300, // only relevant for mania
};

// Process the score state after the first object
let curr_performance = match gradual_performance.process_next_object(state) {
    Some(perf) => perf,
    None => panic!("the map has no hit objects"),
};

println!("PP after the first object: {}", curr_performance.pp());

// If you're only interested in maps of a specific mode, consider
// using the mode's gradual calculator instead of the general one.
// Let's assume it's a taiko map.
// Instead of starting off with `BeatmapExt::gradual_performance` one could have
// created the struct via `TaikoGradualPerformanceAttributes::new`.
let mut gradual_performance = match gradual_performance {
    GradualPerformanceAttributes::Taiko(gradual) => gradual,
    _ => panic!("the map was not taiko but {:?}", map.mode),
};

// A little simpler than the general score state.
let state = TaikoScoreState {
    max_combo: 11,
    n300: 9,
    n100: 1,
    misses: 1,
};

// Process the next 10 objects in one go
let curr_performance = match gradual_performance.process_next_n_objects(state, 10) {
    Some(perf) => perf,
    None => panic!("the last `process_next_object` already processed the last object"),
};

println!("PP after the first 11 objects: {}", curr_performance.pp());