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use wowsunpack::rpc::typedefs::ArgValue;
use crate::packet2::{EntityMethodPacket, Packet, PacketType};
use std::collections::HashMap;
use super::analyzer::Analyzer;
pub struct SummaryBuilder;
impl Default for SummaryBuilder {
fn default() -> Self {
Self::new()
}
}
impl SummaryBuilder {
pub fn new() -> Self {
Self
}
pub fn build(self, meta: &crate::ReplayMeta) -> Box<dyn Analyzer> {
println!("Username: {}", meta.playerName);
println!("Date/time: {}", meta.dateTime);
println!("Map: {}", meta.mapDisplayName);
println!("Vehicle: {}", meta.playerVehicle);
println!("Game mode: {} {:?}", meta.name, meta.gameLogic);
println!("Game version: {}", meta.clientVersionFromExe);
println!();
Box::new(Summary {
ribbons: HashMap::new(),
damage: HashMap::new(),
})
}
}
#[derive(Debug, PartialEq, Eq, Hash, Clone, Copy)]
pub enum Ribbon {
PlaneShotDown,
Incapacitation,
SetFire,
Citadel,
SecondaryHit,
OverPenetration,
Penetration,
NonPenetration,
Ricochet,
TorpedoProtectionHit,
Captured,
AssistedInCapture,
Spotted,
Destroyed,
TorpedoHit,
Defended,
Flooding,
DiveBombPenetration,
RocketPenetration,
RocketNonPenetration,
RocketTorpedoProtectionHit,
ShotDownByAircraft,
}
struct Summary {
ribbons: HashMap<Ribbon, usize>,
damage: HashMap<(i64, i64), (i64, f64)>,
}
impl Analyzer for Summary {
fn finish(&mut self) {
for (ribbon, count) in self.ribbons.iter() {
println!("{:?}: {}", ribbon, count);
}
println!();
println!(
"Total damage: {:.0}",
self.damage.get(&(1, 0)).unwrap_or(&(0, 0.)).1
+ self.damage.get(&(2, 0)).unwrap_or(&(0, 0.)).1
+ self.damage.get(&(17, 0)).unwrap_or(&(0, 0.)).1
);
}
fn process(&mut self, packet: &Packet<'_, '_>) {
// Collect banners, damage reports, etc.
if let Packet {
payload:
PacketType::EntityMethod(EntityMethodPacket {
entity_id: _entity_id,
method,
args,
}),
..
} = packet
{
if *method == "onRibbon" {
let ribbon = match &args[0] {
ArgValue::Int8(ribbon) => ribbon,
_ => panic!("foo"),
};
let ribbon = match ribbon {
1 => Ribbon::TorpedoHit,
3 => Ribbon::PlaneShotDown,
4 => Ribbon::Incapacitation,
5 => Ribbon::Destroyed,
6 => Ribbon::SetFire,
7 => Ribbon::Flooding,
8 => Ribbon::Citadel,
9 => Ribbon::Defended,
10 => Ribbon::Captured,
11 => Ribbon::AssistedInCapture,
13 => Ribbon::SecondaryHit,
14 => Ribbon::OverPenetration,
15 => Ribbon::Penetration,
16 => Ribbon::NonPenetration,
17 => Ribbon::Ricochet,
19 => Ribbon::Spotted,
21 => Ribbon::DiveBombPenetration,
25 => Ribbon::RocketPenetration,
26 => Ribbon::RocketNonPenetration,
27 => Ribbon::ShotDownByAircraft,
28 => Ribbon::TorpedoProtectionHit,
30 => Ribbon::RocketTorpedoProtectionHit,
_ => {
panic!("Unrecognized ribbon {}", ribbon);
}
};
if let std::collections::hash_map::Entry::Vacant(e) = self.ribbons.entry(ribbon) {
e.insert(1);
} else {
*self.ribbons.get_mut(&ribbon).unwrap() += 1;
}
} else if *method == "receiveDamageStat" {
let value = pickled::de::value_from_slice(
match &args[0] {
ArgValue::Blob(x) => x,
_ => panic!("foo"),
},
pickled::de::DeOptions::new(),
)
.unwrap();
match value {
pickled::value::Value::Dict(d) => {
for (k, v) in d.inner().iter() {
let k = match k {
pickled::value::HashableValue::Tuple(t) => {
let t = t.inner();
assert!(t.len() == 2);
(
match t[0] {
pickled::value::HashableValue::I64(i) => i,
_ => panic!("foo"),
},
match t[1] {
pickled::value::HashableValue::I64(i) => i,
_ => panic!("foo"),
},
)
}
_ => panic!("foo"),
};
let v = match v {
pickled::value::Value::List(t) => {
let t = t.inner();
assert!(t.len() == 2);
(
match t[0] {
pickled::value::Value::I64(i) => i,
_ => panic!("foo"),
},
match t[1] {
pickled::value::Value::F64(i) => i,
// TODO: This appears in the (17,2) key,
// it is unknown what it means
pickled::value::Value::I64(i) => i as f64,
_ => panic!("foo"),
},
)
}
_ => panic!("foo"),
};
//println!("{:?}: {:?}", k, v);
// The (1,0) key is (# AP hits that dealt damage, total AP damage dealt)
// (1,3) is (# artillery fired, total possible damage) ?
// (2, 0) is (# HE penetrations, total HE damage)
// (17, 0) is (# fire tick marks, total fire damage)
self.damage.insert(k, v);
}
}
_ => panic!("foo"),
}
}
}
}
}