use crate::{ assets::{self, Asset}, combat::{self, CombatEffect, DamageKind, Knockback}, comp::{ self, aura, beam, buff, inventory::{ item::{ tool::{AbilityItem, Stats, ToolKind}, ItemKind, }, slot::EquipSlot, Inventory, }, projectile::ProjectileConstructor, skillset::{ skills::{self, Skill, SKILL_MODIFIERS}, SkillSet, }, Body, CharacterState, LightEmitter, StateUpdate, }, states::{ behavior::JoinData, utils::{AbilityInfo, StageSection}, *, }, terrain::SpriteKind, }; use hashbrown::HashMap; use serde::{Deserialize, Serialize}; use specs::{Component, DerefFlaggedStorage}; use specs_idvs::IdvStorage; use std::{convert::TryFrom, time::Duration}; pub const MAX_ABILITIES: usize = 5; pub type AuxiliaryKey = (Option, Option); // TODO: Potentially look into storing previous ability sets for weapon // combinations and automatically reverting back to them on switching to that // set of weapons. Consider after UI is set up and people weigh in on memory // considerations. #[derive(Serialize, Deserialize, Debug, Clone)] pub struct ActiveAbilities { pub primary: PrimaryAbility, pub secondary: SecondaryAbility, pub movement: MovementAbility, pub auxiliary_sets: HashMap, } impl Component for ActiveAbilities { type Storage = DerefFlaggedStorage>; } impl Default for ActiveAbilities { fn default() -> Self { Self { primary: PrimaryAbility::Tool, secondary: SecondaryAbility::Tool, movement: MovementAbility::Species, auxiliary_sets: HashMap::new(), } } } impl ActiveAbilities { pub fn new(auxiliary_sets: HashMap) -> Self { ActiveAbilities { auxiliary_sets, ..Self::default() } } pub fn change_ability( &mut self, slot: usize, auxiliary_key: AuxiliaryKey, new_ability: AuxiliaryAbility, inventory: Option<&Inventory>, skill_set: Option<&SkillSet>, ) { let auxiliary_set = self .auxiliary_sets .entry(auxiliary_key) .or_insert(Self::default_ability_set(inventory, skill_set)); if let Some(ability) = auxiliary_set.get_mut(slot) { *ability = new_ability; } } pub fn auxiliary_set( &self, inv: Option<&Inventory>, skill_set: Option<&SkillSet>, ) -> [AuxiliaryAbility; MAX_ABILITIES] { let tool_kind = |slot| { inv.and_then(|inv| inv.equipped(slot)) .and_then(|item| match item.kind() { ItemKind::Tool(tool) => Some(tool.kind), _ => None, }) }; let aux_key = ( tool_kind(EquipSlot::ActiveMainhand), tool_kind(EquipSlot::ActiveOffhand), ); self.auxiliary_sets .get(&aux_key) .copied() .unwrap_or_else(|| Self::default_ability_set(inv, skill_set)) } pub fn get_ability( &self, input: AbilityInput, inventory: Option<&Inventory>, skill_set: Option<&SkillSet>, ) -> Ability { match input { AbilityInput::Primary => self.primary.into(), AbilityInput::Secondary => self.secondary.into(), AbilityInput::Movement => self.movement.into(), AbilityInput::Auxiliary(index) => self .auxiliary_set(inventory, skill_set) .get(index) .copied() .map(|a| a.into()) .unwrap_or(Ability::Empty), } } /// Returns the CharacterAbility from an ability input, and also whether the /// ability was from a weapon wielded in the offhand pub fn activate_ability( &self, input: AbilityInput, inv: Option<&Inventory>, skill_set: &SkillSet, body: Option<&Body>, // bool is from_offhand ) -> Option<(CharacterAbility, bool)> { let ability = self.get_ability(input, inv, Some(skill_set)); let ability_set = |equip_slot| { inv.and_then(|inv| inv.equipped(equip_slot)) .map(|i| &i.item_config_expect().abilities) }; let scale_ability = |ability: CharacterAbility, equip_slot| { let tool_kind = inv.and_then(|inv| inv.equipped(equip_slot)) .and_then(|item| match &item.kind { ItemKind::Tool(tool) => Some(tool.kind), _ => None, }); ability.adjusted_by_skills(skill_set, tool_kind) }; let unwrap_ability = |(skill_req, ability): &(Option, AbilityItem)| { (*skill_req, ability.ability.clone()) }; let unlocked = |(s, a): (Option, CharacterAbility)| { // If there is a skill requirement and the skillset does not contain the // required skill, return None s.map_or(true, |s| skill_set.has_skill(s)).then_some(a) }; match ability { Ability::ToolPrimary => ability_set(EquipSlot::ActiveMainhand) .map(|abilities| abilities.primary.ability.clone()) .map(|ability| (scale_ability(ability, EquipSlot::ActiveMainhand), false)), Ability::ToolSecondary => ability_set(EquipSlot::ActiveOffhand) .map(|abilities| abilities.secondary.ability.clone()) .map(|ability| (scale_ability(ability, EquipSlot::ActiveOffhand), true)) .or_else(|| { ability_set(EquipSlot::ActiveMainhand) .map(|abilities| abilities.secondary.ability.clone()) .map(|ability| (scale_ability(ability, EquipSlot::ActiveMainhand), false)) }), Ability::SpeciesMovement => matches!(body, Some(Body::Humanoid(_))) .then(CharacterAbility::default_roll) .map(|ability| (ability.adjusted_by_skills(skill_set, None), false)), Ability::MainWeaponAux(index) => ability_set(EquipSlot::ActiveMainhand) .and_then(|abilities| abilities.abilities.get(index).map(unwrap_ability)) .and_then(unlocked) .map(|ability| (scale_ability(ability, EquipSlot::ActiveMainhand), false)), Ability::OffWeaponAux(index) => ability_set(EquipSlot::ActiveOffhand) .and_then(|abilities| abilities.abilities.get(index).map(unwrap_ability)) .and_then(unlocked) .map(|ability| (scale_ability(ability, EquipSlot::ActiveOffhand), true)), Ability::Empty => None, } } pub fn iter_unlocked_abilities<'a>( inv: Option<&'a Inventory>, skill_set: Option<&'a SkillSet>, equip_slot: EquipSlot, ) -> impl Iterator + 'a { inv.and_then(|inv| inv.equipped(equip_slot)) .into_iter() .flat_map(|i| &i.item_config_expect().abilities.abilities) .enumerate() .filter_map(move |(i, (skill, _))| { skill .map_or(true, |s| skill_set.map_or(false, |ss| ss.has_skill(s))) .then_some(i) }) } pub fn default_ability_set<'a>( inv: Option<&'a Inventory>, skill_set: Option<&'a SkillSet>, ) -> [AuxiliaryAbility; MAX_ABILITIES] { let mut iter = Self::iter_unlocked_abilities(inv, skill_set, EquipSlot::ActiveMainhand) .map(AuxiliaryAbility::MainWeapon) .chain( Self::iter_unlocked_abilities(inv, skill_set, EquipSlot::ActiveOffhand) .map(AuxiliaryAbility::OffWeapon), ); let mut array = [AuxiliaryAbility::Empty; MAX_ABILITIES]; for ability in array.iter_mut() { if let Some(available_ability) = iter.next() { *ability = available_ability; } } array } } pub enum AbilityInput { Primary, Secondary, Movement, Auxiliary(usize), } #[derive(Copy, Clone, Serialize, Deserialize, Debug)] pub enum Ability { ToolPrimary, ToolSecondary, SpeciesMovement, MainWeaponAux(usize), OffWeaponAux(usize), Empty, /* For future use * ArmorAbility(usize), */ } impl Ability { pub fn ability_id(self, inv: Option<&Inventory>) -> Option<&str> { let ability_set = |equip_slot| { inv.and_then(|inv| inv.equipped(equip_slot)) .map(|i| &i.item_config_expect().abilities) }; match self { Ability::ToolPrimary => ability_set(EquipSlot::ActiveMainhand) .map(|abilities| abilities.primary.id.as_str()), Ability::ToolSecondary => ability_set(EquipSlot::ActiveOffhand) .map(|abilities| abilities.secondary.id.as_str()) .or_else(|| { ability_set(EquipSlot::ActiveMainhand) .map(|abilities| abilities.secondary.id.as_str()) }), Ability::SpeciesMovement => None, // TODO: Make not None Ability::MainWeaponAux(index) => { ability_set(EquipSlot::ActiveMainhand).and_then(|abilities| { abilities .abilities .get(index) .map(|(_, ability)| ability.id.as_str()) }) }, Ability::OffWeaponAux(index) => { ability_set(EquipSlot::ActiveOffhand).and_then(|abilities| { abilities .abilities .get(index) .map(|(_, ability)| ability.id.as_str()) }) }, Ability::Empty => None, } } } #[derive(Copy, Clone, Serialize, Deserialize, Debug)] pub enum PrimaryAbility { Tool, Empty, } impl From for Ability { fn from(primary: PrimaryAbility) -> Self { match primary { PrimaryAbility::Tool => Ability::ToolPrimary, PrimaryAbility::Empty => Ability::Empty, } } } #[derive(Copy, Clone, Serialize, Deserialize, Debug)] pub enum SecondaryAbility { Tool, Empty, } impl From for Ability { fn from(primary: SecondaryAbility) -> Self { match primary { SecondaryAbility::Tool => Ability::ToolSecondary, SecondaryAbility::Empty => Ability::Empty, } } } #[derive(Copy, Clone, Serialize, Deserialize, Debug)] pub enum MovementAbility { Species, Empty, } impl From for Ability { fn from(primary: MovementAbility) -> Self { match primary { MovementAbility::Species => Ability::SpeciesMovement, MovementAbility::Empty => Ability::Empty, } } } #[derive(Copy, Clone, Serialize, Deserialize, Debug, PartialEq)] pub enum AuxiliaryAbility { MainWeapon(usize), OffWeapon(usize), Empty, } impl From for Ability { fn from(primary: AuxiliaryAbility) -> Self { match primary { AuxiliaryAbility::MainWeapon(i) => Ability::MainWeaponAux(i), AuxiliaryAbility::OffWeapon(i) => Ability::OffWeaponAux(i), AuxiliaryAbility::Empty => Ability::Empty, } } } #[derive(Copy, Clone, Hash, Eq, PartialEq, Debug, Serialize, Deserialize)] pub enum CharacterAbilityType { BasicMelee, BasicRanged, Boost, ChargedMelee(StageSection), ChargedRanged, DashMelee(StageSection), BasicBlock, ComboMelee(StageSection, u32), LeapMelee(StageSection), SpinMelee(StageSection), Shockwave, BasicBeam, RepeaterRanged, BasicAura, SelfBuff, } impl From<&CharacterState> for CharacterAbilityType { fn from(state: &CharacterState) -> Self { match state { CharacterState::BasicMelee(_) => Self::BasicMelee, CharacterState::BasicRanged(_) => Self::BasicRanged, CharacterState::Boost(_) => Self::Boost, CharacterState::DashMelee(data) => Self::DashMelee(data.stage_section), CharacterState::BasicBlock(_) => Self::BasicBlock, CharacterState::LeapMelee(data) => Self::LeapMelee(data.stage_section), CharacterState::ComboMelee(data) => Self::ComboMelee(data.stage_section, data.stage), CharacterState::SpinMelee(data) => Self::SpinMelee(data.stage_section), CharacterState::ChargedMelee(data) => Self::ChargedMelee(data.stage_section), CharacterState::ChargedRanged(_) => Self::ChargedRanged, CharacterState::Shockwave(_) => Self::Shockwave, CharacterState::BasicBeam(_) => Self::BasicBeam, CharacterState::RepeaterRanged(_) => Self::RepeaterRanged, CharacterState::BasicAura(_) => Self::BasicAura, CharacterState::SelfBuff(_) => Self::SelfBuff, _ => Self::BasicMelee, } } } #[derive(Clone, PartialEq, Debug, Serialize, Deserialize)] pub enum CharacterAbility { BasicMelee { energy_cost: f32, buildup_duration: f32, swing_duration: f32, recover_duration: f32, base_damage: f32, base_poise_damage: f32, knockback: Knockback, range: f32, max_angle: f32, damage_effect: Option, damage_kind: DamageKind, }, BasicRanged { energy_cost: f32, buildup_duration: f32, recover_duration: f32, projectile: ProjectileConstructor, projectile_body: Body, projectile_light: Option, projectile_speed: f32, num_projectiles: u32, projectile_spread: f32, }, RepeaterRanged { energy_cost: f32, buildup_duration: f32, shoot_duration: f32, recover_duration: f32, max_speed: f32, half_speed_at: u32, projectile: ProjectileConstructor, projectile_body: Body, projectile_light: Option, projectile_speed: f32, }, Boost { movement_duration: f32, only_up: bool, speed: f32, max_exit_velocity: f32, }, DashMelee { energy_cost: f32, base_damage: f32, scaled_damage: f32, base_poise_damage: f32, scaled_poise_damage: f32, base_knockback: f32, scaled_knockback: f32, range: f32, angle: f32, energy_drain: f32, forward_speed: f32, buildup_duration: f32, charge_duration: f32, swing_duration: f32, recover_duration: f32, ori_modifier: f32, charge_through: bool, is_interruptible: bool, damage_kind: DamageKind, damage_effect: Option, }, BasicBlock { buildup_duration: f32, recover_duration: f32, max_angle: f32, block_strength: f32, energy_cost: f32, }, Roll { energy_cost: f32, buildup_duration: f32, movement_duration: f32, recover_duration: f32, roll_strength: f32, immune_melee: bool, }, ComboMelee { stage_data: Vec>, initial_energy_gain: f32, max_energy_gain: f32, energy_increase: f32, speed_increase: f32, max_speed_increase: f32, scales_from_combo: u32, is_interruptible: bool, ori_modifier: f32, }, LeapMelee { energy_cost: f32, buildup_duration: f32, movement_duration: f32, swing_duration: f32, recover_duration: f32, base_damage: f32, base_poise_damage: f32, range: f32, max_angle: f32, knockback: f32, forward_leap_strength: f32, vertical_leap_strength: f32, damage_kind: DamageKind, damage_effect: Option, }, SpinMelee { buildup_duration: f32, swing_duration: f32, recover_duration: f32, base_damage: f32, base_poise_damage: f32, knockback: Knockback, range: f32, damage_effect: Option, energy_cost: f32, is_infinite: bool, movement_behavior: spin_melee::MovementBehavior, is_interruptible: bool, forward_speed: f32, num_spins: u32, specifier: Option, target: Option, damage_kind: DamageKind, }, ChargedMelee { energy_cost: f32, energy_drain: f32, initial_damage: f32, scaled_damage: f32, initial_poise_damage: f32, scaled_poise_damage: f32, initial_knockback: f32, scaled_knockback: f32, range: f32, max_angle: f32, charge_duration: f32, swing_duration: f32, hit_timing: f32, recover_duration: f32, specifier: Option, damage_kind: DamageKind, damage_effect: Option, }, ChargedRanged { energy_cost: f32, energy_drain: f32, initial_regen: f32, scaled_regen: f32, initial_damage: f32, scaled_damage: f32, initial_knockback: f32, scaled_knockback: f32, buildup_duration: f32, charge_duration: f32, recover_duration: f32, projectile_body: Body, projectile_light: Option, initial_projectile_speed: f32, scaled_projectile_speed: f32, move_speed: f32, }, Shockwave { energy_cost: f32, buildup_duration: f32, swing_duration: f32, recover_duration: f32, damage: f32, poise_damage: f32, knockback: Knockback, shockwave_angle: f32, shockwave_vertical_angle: f32, shockwave_speed: f32, shockwave_duration: f32, requires_ground: bool, move_efficiency: f32, damage_kind: DamageKind, specifier: comp::shockwave::FrontendSpecifier, damage_effect: Option, }, BasicBeam { buildup_duration: f32, recover_duration: f32, beam_duration: f32, damage: f32, tick_rate: f32, range: f32, max_angle: f32, damage_effect: Option, energy_regen: f32, energy_drain: f32, ori_rate: f32, specifier: beam::FrontendSpecifier, }, BasicAura { buildup_duration: f32, cast_duration: f32, recover_duration: f32, targets: combat::GroupTarget, aura: aura::AuraBuffConstructor, aura_duration: f32, range: f32, energy_cost: f32, scales_with_combo: bool, specifier: aura::Specifier, }, Blink { buildup_duration: f32, recover_duration: f32, max_range: f32, }, BasicSummon { buildup_duration: f32, cast_duration: f32, recover_duration: f32, summon_amount: u32, summon_distance: (f32, f32), summon_info: basic_summon::SummonInfo, duration: Option, }, SelfBuff { buildup_duration: f32, cast_duration: f32, recover_duration: f32, buff_kind: buff::BuffKind, buff_strength: f32, buff_duration: Option, energy_cost: f32, }, SpriteSummon { buildup_duration: f32, cast_duration: f32, recover_duration: f32, sprite: SpriteKind, summon_distance: (f32, f32), sparseness: f64, }, } impl Default for CharacterAbility { fn default() -> Self { CharacterAbility::BasicMelee { energy_cost: 0.0, buildup_duration: 0.25, swing_duration: 0.25, recover_duration: 0.5, base_damage: 10.0, base_poise_damage: 0.0, knockback: Knockback { strength: 0.0, direction: combat::KnockbackDir::Away, }, range: 3.5, max_angle: 15.0, damage_effect: None, damage_kind: DamageKind::Crushing, } } } impl Asset for CharacterAbility { type Loader = assets::RonLoader; const EXTENSION: &'static str = "ron"; } impl CharacterAbility { /// Attempts to fulfill requirements, mutating `update` (taking energy) if /// applicable. pub fn requirements_paid(&self, data: &JoinData, update: &mut StateUpdate) -> bool { match self { CharacterAbility::Roll { energy_cost, .. } => { data.physics.on_ground.is_some() && data.inputs.move_dir.magnitude_squared() > 0.25 && update.energy.try_change_by(-*energy_cost).is_ok() }, CharacterAbility::DashMelee { energy_cost, .. } | CharacterAbility::BasicMelee { energy_cost, .. } | CharacterAbility::BasicRanged { energy_cost, .. } | CharacterAbility::SpinMelee { energy_cost, .. } | CharacterAbility::ChargedRanged { energy_cost, .. } | CharacterAbility::ChargedMelee { energy_cost, .. } | CharacterAbility::Shockwave { energy_cost, .. } | CharacterAbility::BasicBlock { energy_cost, .. } | CharacterAbility::SelfBuff { energy_cost, .. } => { update.energy.try_change_by(-*energy_cost).is_ok() }, // Consumes energy within state, so value only checked before entering state CharacterAbility::RepeaterRanged { energy_cost, .. } => { update.energy.current() >= *energy_cost }, CharacterAbility::LeapMelee { energy_cost, .. } => { update.vel.0.z >= 0.0 && update.energy.try_change_by(-*energy_cost).is_ok() }, CharacterAbility::BasicAura { energy_cost, scales_with_combo, .. } => { ((*scales_with_combo && data.combo.counter() > 0) | !*scales_with_combo) && update.energy.try_change_by(-*energy_cost).is_ok() }, CharacterAbility::ComboMelee { .. } | CharacterAbility::Boost { .. } | CharacterAbility::BasicBeam { .. } | CharacterAbility::Blink { .. } | CharacterAbility::BasicSummon { .. } | CharacterAbility::SpriteSummon { .. } => true, } } pub fn default_roll() -> CharacterAbility { CharacterAbility::Roll { energy_cost: 12.0, buildup_duration: 0.05, movement_duration: 0.33, recover_duration: 0.125, roll_strength: 2.0, immune_melee: true, } } pub fn default_block() -> CharacterAbility { CharacterAbility::BasicBlock { buildup_duration: 0.25, recover_duration: 0.2, max_angle: 60.0, block_strength: 0.5, energy_cost: 2.5, } } #[must_use] pub fn adjusted_by_stats(mut self, stats: Stats) -> Self { use CharacterAbility::*; match self { BasicMelee { ref mut energy_cost, ref mut buildup_duration, ref mut swing_duration, ref mut recover_duration, ref mut base_damage, ref mut base_poise_damage, knockback: _, ref mut range, max_angle: _, ref mut damage_effect, damage_kind: _, } => { *buildup_duration /= stats.speed; *swing_duration /= stats.speed; *recover_duration /= stats.speed; *base_damage *= stats.power; *base_poise_damage *= stats.effect_power; *range *= stats.range; *energy_cost /= stats.energy_efficiency; if let Some(CombatEffect::Buff(combat::CombatBuff { kind: _, dur_secs: _, strength, chance: _, })) = damage_effect { *strength *= stats.buff_strength; } }, BasicRanged { ref mut energy_cost, ref mut buildup_duration, ref mut recover_duration, ref mut projectile, projectile_body: _, projectile_light: _, ref mut projectile_speed, num_projectiles: _, projectile_spread: _, } => { *buildup_duration /= stats.speed; *recover_duration /= stats.speed; *projectile = projectile.modified_projectile(stats.power, 1_f32, 1_f32); *projectile_speed *= stats.range; *energy_cost /= stats.energy_efficiency; }, RepeaterRanged { ref mut energy_cost, ref mut buildup_duration, ref mut shoot_duration, ref mut recover_duration, max_speed: _, half_speed_at: _, ref mut projectile, projectile_body: _, projectile_light: _, ref mut projectile_speed, } => { *buildup_duration /= stats.speed; *shoot_duration /= stats.speed; *recover_duration /= stats.speed; *projectile = projectile.modified_projectile(stats.power, 1_f32, 1_f32); *projectile_speed *= stats.range; *energy_cost /= stats.energy_efficiency; }, Boost { ref mut movement_duration, only_up: _, speed: ref mut boost_speed, max_exit_velocity: _, } => { *movement_duration /= stats.speed; *boost_speed *= stats.power; }, DashMelee { ref mut energy_cost, ref mut base_damage, ref mut scaled_damage, ref mut base_poise_damage, ref mut scaled_poise_damage, base_knockback: _, scaled_knockback: _, ref mut range, angle: _, ref mut energy_drain, forward_speed: _, ref mut buildup_duration, charge_duration: _, ref mut swing_duration, ref mut recover_duration, ori_modifier: _, charge_through: _, is_interruptible: _, damage_kind: _, ref mut damage_effect, } => { *base_damage *= stats.power; *scaled_damage *= stats.power; *base_poise_damage *= stats.effect_power; *scaled_poise_damage *= stats.effect_power; *buildup_duration /= stats.speed; *swing_duration /= stats.speed; *recover_duration /= stats.speed; *range *= stats.range; *energy_cost /= stats.energy_efficiency; *energy_drain /= stats.energy_efficiency; if let Some(CombatEffect::Buff(combat::CombatBuff { kind: _, dur_secs: _, strength, chance: _, })) = damage_effect { *strength *= stats.buff_strength; } }, BasicBlock { ref mut buildup_duration, ref mut recover_duration, // Do we want angle to be adjusted by range? max_angle: _, // Block strength explicitly not modified by power, that will be a separate stat block_strength: _, ref mut energy_cost, } => { *buildup_duration /= stats.speed; *recover_duration /= stats.speed; *energy_cost /= stats.energy_efficiency; }, Roll { ref mut energy_cost, ref mut buildup_duration, ref mut movement_duration, ref mut recover_duration, roll_strength: _, immune_melee: _, } => { *buildup_duration /= stats.speed; *movement_duration /= stats.speed; *recover_duration /= stats.speed; *energy_cost /= stats.energy_efficiency; }, ComboMelee { ref mut stage_data, initial_energy_gain: _, max_energy_gain: _, energy_increase: _, speed_increase: _, max_speed_increase: _, scales_from_combo: _, is_interruptible: _, ori_modifier: _, } => { *stage_data = stage_data .iter_mut() .map(|s| s.adjusted_by_stats(stats)) .collect(); }, LeapMelee { ref mut energy_cost, ref mut buildup_duration, movement_duration: _, ref mut swing_duration, ref mut recover_duration, ref mut base_damage, ref mut base_poise_damage, ref mut range, max_angle: _, knockback: _, forward_leap_strength: _, vertical_leap_strength: _, damage_kind: _, ref mut damage_effect, } => { *buildup_duration /= stats.speed; *swing_duration /= stats.speed; *recover_duration /= stats.speed; *base_damage *= stats.power; *base_poise_damage *= stats.effect_power; *range *= stats.range; *energy_cost /= stats.energy_efficiency; if let Some(CombatEffect::Buff(combat::CombatBuff { kind: _, dur_secs: _, strength, chance: _, })) = damage_effect { *strength *= stats.buff_strength; } }, SpinMelee { ref mut buildup_duration, ref mut swing_duration, ref mut recover_duration, ref mut base_damage, ref mut base_poise_damage, knockback: _, ref mut range, ref mut damage_effect, ref mut energy_cost, is_infinite: _, movement_behavior: _, is_interruptible: _, forward_speed: _, num_spins: _, specifier: _, target: _, damage_kind: _, } => { *buildup_duration /= stats.speed; *swing_duration /= stats.speed; *recover_duration /= stats.speed; *base_damage *= stats.power; *base_poise_damage *= stats.effect_power; *range *= stats.range; *energy_cost /= stats.energy_efficiency; if let Some(CombatEffect::Buff(combat::CombatBuff { kind: _, dur_secs: _, strength, chance: _, })) = damage_effect { *strength *= stats.buff_strength; } }, ChargedMelee { ref mut energy_cost, ref mut energy_drain, ref mut initial_damage, ref mut scaled_damage, ref mut initial_poise_damage, ref mut scaled_poise_damage, initial_knockback: _, scaled_knockback: _, ref mut range, max_angle: _, charge_duration: _, ref mut swing_duration, hit_timing: _, ref mut recover_duration, specifier: _, damage_kind: _, ref mut damage_effect, } => { *initial_damage *= stats.power; *scaled_damage *= stats.power; *initial_poise_damage *= stats.effect_power; *scaled_poise_damage *= stats.effect_power; *swing_duration /= stats.speed; *recover_duration /= stats.speed; *range *= stats.range; *energy_cost /= stats.energy_efficiency; *energy_drain /= stats.energy_efficiency; if let Some(CombatEffect::Buff(combat::CombatBuff { kind: _, dur_secs: _, strength, chance: _, })) = damage_effect { *strength *= stats.buff_strength; } }, ChargedRanged { ref mut energy_cost, ref mut energy_drain, initial_regen: _, scaled_regen: _, ref mut initial_damage, ref mut scaled_damage, initial_knockback: _, scaled_knockback: _, ref mut buildup_duration, charge_duration: _, ref mut recover_duration, projectile_body: _, projectile_light: _, ref mut initial_projectile_speed, ref mut scaled_projectile_speed, move_speed: _, } => { *initial_damage *= stats.power; *scaled_damage *= stats.power; *buildup_duration /= stats.speed; *recover_duration /= stats.speed; *initial_projectile_speed *= stats.range; *scaled_projectile_speed *= stats.range; *energy_cost /= stats.energy_efficiency; *energy_drain /= stats.energy_efficiency; }, Shockwave { ref mut energy_cost, ref mut buildup_duration, ref mut swing_duration, ref mut recover_duration, ref mut damage, ref mut poise_damage, knockback: _, shockwave_angle: _, shockwave_vertical_angle: _, shockwave_speed: _, ref mut shockwave_duration, requires_ground: _, move_efficiency: _, damage_kind: _, specifier: _, ref mut damage_effect, } => { *buildup_duration /= stats.speed; *swing_duration /= stats.speed; *recover_duration /= stats.speed; *damage *= stats.power; *poise_damage *= stats.effect_power; *shockwave_duration *= stats.range; *energy_cost /= stats.energy_efficiency; if let Some(CombatEffect::Buff(combat::CombatBuff { kind: _, dur_secs: _, strength, chance: _, })) = damage_effect { *strength *= stats.buff_strength; } }, BasicBeam { ref mut buildup_duration, ref mut recover_duration, ref mut beam_duration, ref mut damage, ref mut tick_rate, ref mut range, max_angle: _, ref mut damage_effect, energy_regen: _, ref mut energy_drain, ori_rate: _, specifier: _, } => { *buildup_duration /= stats.speed; *recover_duration /= stats.speed; *damage *= stats.power; *tick_rate *= stats.speed; *range *= stats.range; // Duration modified to keep velocity constant *beam_duration *= stats.range; *energy_drain /= stats.energy_efficiency; if let Some(CombatEffect::Buff(combat::CombatBuff { kind: _, dur_secs: _, strength, chance: _, })) = damage_effect { *strength *= stats.buff_strength; } }, BasicAura { ref mut buildup_duration, ref mut cast_duration, ref mut recover_duration, targets: _, aura: aura::AuraBuffConstructor { kind: _, ref mut strength, duration: _, category: _, }, aura_duration: _, ref mut range, ref mut energy_cost, scales_with_combo: _, specifier: _, } => { *buildup_duration /= stats.speed; *cast_duration /= stats.speed; *recover_duration /= stats.speed; // Do we want to make buff_strength affect this instead of power? // Look into during modular weapon transition *strength *= stats.power; *range *= stats.range; *energy_cost /= stats.energy_efficiency; }, Blink { ref mut buildup_duration, ref mut recover_duration, ref mut max_range, } => { *buildup_duration /= stats.speed; *recover_duration /= stats.speed; *max_range *= stats.range; }, BasicSummon { ref mut buildup_duration, ref mut cast_duration, ref mut recover_duration, summon_amount: _, summon_distance: (ref mut inner_dist, ref mut outer_dist), summon_info: _, duration: _, } => { // TODO: Figure out how/if power should affect this *buildup_duration /= stats.speed; *cast_duration /= stats.speed; *recover_duration /= stats.speed; *inner_dist *= stats.range; *outer_dist *= stats.range; }, SelfBuff { ref mut buildup_duration, ref mut cast_duration, ref mut recover_duration, buff_kind: _, ref mut buff_strength, buff_duration: _, ref mut energy_cost, } => { // Do we want to make buff_strength affect this instead of power? // Look into during modular weapon transition *buff_strength *= stats.power; *buildup_duration /= stats.speed; *cast_duration /= stats.speed; *recover_duration /= stats.speed; *energy_cost /= stats.energy_efficiency; }, SpriteSummon { ref mut buildup_duration, ref mut cast_duration, ref mut recover_duration, sprite: _, summon_distance: (ref mut inner_dist, ref mut outer_dist), sparseness: _, } => { // TODO: Figure out how/if power should affect this *buildup_duration /= stats.speed; *cast_duration /= stats.speed; *recover_duration /= stats.speed; *inner_dist *= stats.range; *outer_dist *= stats.range; }, } self } pub fn get_energy_cost(&self) -> f32 { use CharacterAbility::*; match self { BasicMelee { energy_cost, .. } | BasicRanged { energy_cost, .. } | RepeaterRanged { energy_cost, .. } | DashMelee { energy_cost, .. } | Roll { energy_cost, .. } | LeapMelee { energy_cost, .. } | SpinMelee { energy_cost, .. } | ChargedMelee { energy_cost, .. } | ChargedRanged { energy_cost, .. } | Shockwave { energy_cost, .. } | BasicAura { energy_cost, .. } | BasicBlock { energy_cost, .. } | SelfBuff { energy_cost, .. } => *energy_cost, BasicBeam { energy_drain, .. } => { if *energy_drain > f32::EPSILON { 1.0 } else { 0.0 } }, Boost { .. } | ComboMelee { .. } | Blink { .. } | BasicSummon { .. } | SpriteSummon { .. } => 0.0, } } #[must_use = "method returns new ability and doesn't mutate the original value"] #[warn(clippy::pedantic)] pub fn adjusted_by_skills(mut self, skillset: &SkillSet, tool: Option) -> Self { match tool { Some(ToolKind::Sword) => self.adjusted_by_sword_skills(skillset), Some(ToolKind::Axe) => self.adjusted_by_axe_skills(skillset), Some(ToolKind::Hammer) => self.adjusted_by_hammer_skills(skillset), Some(ToolKind::Bow) => self.adjusted_by_bow_skills(skillset), Some(ToolKind::Staff) => self.adjusted_by_staff_skills(skillset), Some(ToolKind::Sceptre) => self.adjusted_by_sceptre_skills(skillset), Some(ToolKind::Pick) => self.adjusted_by_mining_skills(skillset), None => self.adjusted_by_general_skills(skillset), Some(_) => {}, } self } #[warn(clippy::pedantic)] fn adjusted_by_mining_skills(&mut self, skillset: &SkillSet) { use skills::MiningSkill::Speed; if let CharacterAbility::BasicMelee { ref mut buildup_duration, ref mut swing_duration, ref mut recover_duration, .. } = self { if let Ok(level) = skillset.skill_level(Skill::Pick(Speed)) { let modifiers = SKILL_MODIFIERS.mining_tree; let speed = modifiers.speed.powi(level.into()); *buildup_duration /= speed; *swing_duration /= speed; *recover_duration /= speed; } } } #[warn(clippy::pedantic)] fn adjusted_by_general_skills(&mut self, skillset: &SkillSet) { if let CharacterAbility::Roll { ref mut energy_cost, ref mut roll_strength, ref mut movement_duration, .. } = self { use skills::RollSkill::{Cost, Duration, Strength}; let modifiers = SKILL_MODIFIERS.general_tree.roll; if let Ok(level) = skillset.skill_level(Skill::Roll(Cost)) { *energy_cost *= modifiers.energy_cost.powi(level.into()); } if let Ok(level) = skillset.skill_level(Skill::Roll(Strength)) { *roll_strength *= modifiers.strength.powi(level.into()); } if let Ok(level) = skillset.skill_level(Skill::Roll(Duration)) { *movement_duration *= modifiers.duration.powi(level.into()); } } } #[warn(clippy::pedantic)] fn adjusted_by_sword_skills(&mut self, skillset: &SkillSet) { #![allow(clippy::enum_glob_use)] use skills::{Skill::Sword, SwordSkill::*}; match self { CharacterAbility::ComboMelee { ref mut is_interruptible, ref mut speed_increase, ref mut max_speed_increase, ref stage_data, ref mut max_energy_gain, ref mut scales_from_combo, .. } => { *is_interruptible = skillset.has_skill(Sword(InterruptingAttacks)); if skillset.has_skill(Sword(TsCombo)) { let speed_segments = f32::from(Sword(TsSpeed).max_level()) + 1.0; let speed_level = f32::from(skillset.skill_level(Sword(TsSpeed)).unwrap_or(0)); *speed_increase = (speed_level + 1.0) / speed_segments; *max_speed_increase = (speed_level + 1.0) / speed_segments; } else { *speed_increase = 0.0; *max_speed_increase = 0.0; } let energy_level = skillset.skill_level(Sword(TsRegen)).unwrap_or(0); let stages = u16::try_from(stage_data.len()) .expect("number of stages can't be more than u16"); *max_energy_gain *= f32::from((energy_level + 1) * stages - 1) * f32::from(stages - 1) / f32::from(Sword(TsRegen).max_level() + 1); *scales_from_combo = skillset.skill_level(Sword(TsDamage)).unwrap_or(0).into(); }, CharacterAbility::DashMelee { ref mut is_interruptible, ref mut energy_cost, ref mut energy_drain, ref mut base_damage, ref mut scaled_damage, ref mut forward_speed, ref mut charge_through, .. } => { let modifiers = SKILL_MODIFIERS.sword_tree.dash; *is_interruptible = skillset.has_skill(Sword(InterruptingAttacks)); if let Ok(level) = skillset.skill_level(Sword(DCost)) { *energy_cost *= modifiers.energy_cost.powi(level.into()); } if let Ok(level) = skillset.skill_level(Sword(DDrain)) { *energy_drain *= modifiers.energy_drain.powi(level.into()); } if let Ok(level) = skillset.skill_level(Sword(DDamage)) { *base_damage *= modifiers.base_damage.powi(level.into()); } if let Ok(level) = skillset.skill_level(Sword(DScaling)) { *scaled_damage *= modifiers.scaled_damage.powi(level.into()); } if skillset.has_skill(Sword(DSpeed)) { *forward_speed *= modifiers.forward_speed; } *charge_through = skillset.has_skill(Sword(DChargeThrough)); }, CharacterAbility::SpinMelee { ref mut is_interruptible, ref mut base_damage, ref mut swing_duration, ref mut energy_cost, ref mut num_spins, .. } => { let modifiers = SKILL_MODIFIERS.sword_tree.spin; *is_interruptible = skillset.has_skill(Sword(InterruptingAttacks)); if let Ok(level) = skillset.skill_level(Sword(SDamage)) { *base_damage *= modifiers.base_damage.powi(level.into()); } if let Ok(level) = skillset.skill_level(Sword(SSpeed)) { *swing_duration *= modifiers.swing_duration.powi(level.into()); } if let Ok(level) = skillset.skill_level(Sword(SCost)) { *energy_cost *= modifiers.energy_cost.powi(level.into()); } let spin_level = skillset.skill_level(Sword(SSpins)).unwrap_or(0); *num_spins = u32::from(spin_level) * modifiers.num + 1; }, _ => {}, } } #[warn(clippy::pedantic)] fn adjusted_by_axe_skills(&mut self, skillset: &SkillSet) { #![allow(clippy::enum_glob_use)] use skills::{AxeSkill::*, Skill::Axe}; match self { CharacterAbility::ComboMelee { ref mut speed_increase, ref mut max_speed_increase, ref mut stage_data, ref mut max_energy_gain, ref mut scales_from_combo, .. } => { if !skillset.has_skill(Axe(DsCombo)) { stage_data.pop(); } let speed_segments = f32::from(Axe(DsSpeed).max_level()); let speed_level = f32::from(skillset.skill_level(Axe(DsSpeed)).unwrap_or(0)); *speed_increase *= speed_level / speed_segments; *max_speed_increase *= speed_level / speed_segments; let energy_level = skillset.skill_level(Axe(DsRegen)).unwrap_or(0); let stages = u16::try_from(stage_data.len()) .expect("number of stages can't be more than u16"); *max_energy_gain *= f32::from((energy_level + 1) * stages - 1).max(1.0) * f32::from(stages - 1).max(1.0) / f32::from(Axe(DsRegen).max_level() + 1); *scales_from_combo = skillset.skill_level(Axe(DsDamage)).unwrap_or(0).into(); }, CharacterAbility::SpinMelee { ref mut base_damage, ref mut swing_duration, ref mut energy_cost, ref mut is_infinite, ref mut movement_behavior, .. } => { let modifiers = SKILL_MODIFIERS.axe_tree.spin; *is_infinite = skillset.has_skill(Axe(SInfinite)); *movement_behavior = if skillset.has_skill(Axe(SHelicopter)) { spin_melee::MovementBehavior::AxeHover } else { spin_melee::MovementBehavior::ForwardGround }; if let Ok(level) = skillset.skill_level(Axe(SDamage)) { *base_damage *= modifiers.base_damage.powi(level.into()); } if let Ok(level) = skillset.skill_level(Axe(SSpeed)) { *swing_duration *= modifiers.swing_duration.powi(level.into()); } if let Ok(level) = skillset.skill_level(Axe(SCost)) { *energy_cost *= modifiers.energy_cost.powi(level.into()); } }, CharacterAbility::LeapMelee { ref mut base_damage, ref mut knockback, ref mut energy_cost, ref mut forward_leap_strength, ref mut vertical_leap_strength, .. } => { let modifiers = SKILL_MODIFIERS.axe_tree.leap; if let Ok(level) = skillset.skill_level(Axe(LDamage)) { *base_damage *= modifiers.base_damage.powi(level.into()); } if let Ok(level) = skillset.skill_level(Axe(LKnockback)) { *knockback *= modifiers.knockback.powi(level.into()); } if let Ok(level) = skillset.skill_level(Axe(LCost)) { *energy_cost *= modifiers.energy_cost.powi(level.into()); } if let Ok(level) = skillset.skill_level(Axe(LDistance)) { let strength = modifiers.leap_strength; *forward_leap_strength *= strength.powi(level.into()); *vertical_leap_strength *= strength.powi(level.into()); } }, _ => {}, } } #[warn(clippy::pedantic)] fn adjusted_by_hammer_skills(&mut self, skillset: &SkillSet) { #![allow(clippy::enum_glob_use)] use skills::{HammerSkill::*, Skill::Hammer}; match self { CharacterAbility::ComboMelee { ref mut speed_increase, ref mut max_speed_increase, ref mut stage_data, ref mut max_energy_gain, ref mut scales_from_combo, .. } => { let modifiers = SKILL_MODIFIERS.hammer_tree.single_strike; if let Ok(level) = skillset.skill_level(Hammer(SsKnockback)) { *stage_data = (*stage_data) .iter() .map(|s| s.modify_strike(modifiers.knockback.powi(level.into()))) .collect::>(); } let speed_segments = f32::from(Hammer(SsSpeed).max_level()); let speed_level = f32::from(skillset.skill_level(Hammer(SsSpeed)).unwrap_or(0)); *speed_increase *= speed_level / speed_segments; *max_speed_increase *= speed_level / speed_segments; let energy_level = skillset.skill_level(Hammer(SsRegen)).unwrap_or(0); let stages = u16::try_from(stage_data.len()) .expect("number of stages can't be more than u16"); *max_energy_gain *= f32::from((energy_level + 1) * stages) / f32::from((Hammer(SsRegen).max_level() + 1) * stages); *scales_from_combo = skillset.skill_level(Hammer(SsDamage)).unwrap_or(0).into(); }, CharacterAbility::ChargedMelee { ref mut scaled_damage, ref mut scaled_knockback, ref mut energy_drain, ref mut charge_duration, .. } => { let modifiers = SKILL_MODIFIERS.hammer_tree.charged; if let Ok(level) = skillset.skill_level(Hammer(CDamage)) { *scaled_damage *= modifiers.scaled_damage.powi(level.into()); } if let Ok(level) = skillset.skill_level(Hammer(CKnockback)) { *scaled_knockback *= modifiers.scaled_knockback.powi(level.into()); } if let Ok(level) = skillset.skill_level(Hammer(CDrain)) { *energy_drain *= modifiers.energy_drain.powi(level.into()); } if let Ok(level) = skillset.skill_level(Hammer(CSpeed)) { let charge_time = 1.0 / modifiers.charge_rate; *charge_duration *= charge_time.powi(level.into()); } }, CharacterAbility::LeapMelee { ref mut base_damage, ref mut knockback, ref mut energy_cost, ref mut forward_leap_strength, ref mut vertical_leap_strength, ref mut range, .. } => { let modifiers = SKILL_MODIFIERS.hammer_tree.leap; if let Ok(level) = skillset.skill_level(Hammer(LDamage)) { *base_damage *= modifiers.base_damage.powi(level.into()); } if let Ok(level) = skillset.skill_level(Hammer(LKnockback)) { *knockback *= modifiers.knockback.powi(level.into()); } if let Ok(level) = skillset.skill_level(Hammer(LCost)) { *energy_cost *= modifiers.energy_cost.powi(level.into()); } if let Ok(level) = skillset.skill_level(Hammer(LDistance)) { let strength = modifiers.leap_strength; *forward_leap_strength *= strength.powi(level.into()); *vertical_leap_strength *= strength.powi(level.into()); } if let Ok(level) = skillset.skill_level(Hammer(LRange)) { *range += modifiers.range * f32::from(level); } }, _ => {}, } } #[warn(clippy::pedantic)] fn adjusted_by_bow_skills(&mut self, skillset: &SkillSet) { #![allow(clippy::enum_glob_use)] use skills::{BowSkill::*, Skill::Bow}; let projectile_speed_modifier = SKILL_MODIFIERS.bow_tree.universal.projectile_speed; match self { CharacterAbility::ChargedRanged { ref mut initial_damage, ref mut scaled_damage, ref mut initial_regen, ref mut scaled_regen, ref mut initial_knockback, ref mut scaled_knockback, ref mut move_speed, ref mut initial_projectile_speed, ref mut scaled_projectile_speed, ref mut charge_duration, .. } => { let modifiers = SKILL_MODIFIERS.bow_tree.charged; if let Ok(level) = skillset.skill_level(Bow(ProjSpeed)) { let projectile_speed_scaling = projectile_speed_modifier.powi(level.into()); *initial_projectile_speed *= projectile_speed_scaling; *scaled_projectile_speed *= projectile_speed_scaling; } if let Ok(level) = skillset.skill_level(Bow(CDamage)) { let damage_scaling = modifiers.damage_scaling.powi(level.into()); *initial_damage *= damage_scaling; *scaled_damage *= damage_scaling; } if let Ok(level) = skillset.skill_level(Bow(CRegen)) { let regen_scaling = modifiers.regen_scaling.powi(level.into()); *initial_regen *= regen_scaling; *scaled_regen *= regen_scaling; } if let Ok(level) = skillset.skill_level(Bow(CKnockback)) { let knockback_scaling = modifiers.knockback_scaling.powi(level.into()); *initial_knockback *= knockback_scaling; *scaled_knockback *= knockback_scaling; } if let Ok(level) = skillset.skill_level(Bow(CSpeed)) { let charge_time = 1.0 / modifiers.charge_rate; *charge_duration *= charge_time.powi(level.into()); } if let Ok(level) = skillset.skill_level(Bow(CMove)) { *move_speed *= modifiers.move_speed.powi(level.into()); } }, CharacterAbility::RepeaterRanged { ref mut energy_cost, ref mut projectile, ref mut max_speed, ref mut projectile_speed, .. } => { let modifiers = SKILL_MODIFIERS.bow_tree.repeater; if let Ok(level) = skillset.skill_level(Bow(ProjSpeed)) { *projectile_speed *= projectile_speed_modifier.powi(level.into()); } if let Ok(level) = skillset.skill_level(Bow(RDamage)) { let power = modifiers.power.powi(level.into()); *projectile = projectile.modified_projectile(power, 1_f32, 1_f32); } if let Ok(level) = skillset.skill_level(Bow(RCost)) { *energy_cost *= modifiers.energy_cost.powi(level.into()); } if let Ok(level) = skillset.skill_level(Bow(RSpeed)) { *max_speed *= modifiers.max_speed.powi(level.into()); } }, CharacterAbility::BasicRanged { ref mut projectile, ref mut energy_cost, ref mut num_projectiles, ref mut projectile_spread, ref mut projectile_speed, .. } => { let modifiers = SKILL_MODIFIERS.bow_tree.shotgun; if let Ok(level) = skillset.skill_level(Bow(ProjSpeed)) { *projectile_speed *= projectile_speed_modifier.powi(level.into()); } if let Ok(level) = skillset.skill_level(Bow(SDamage)) { let power = modifiers.power.powi(level.into()); *projectile = projectile.modified_projectile(power, 1_f32, 1_f32); } if let Ok(level) = skillset.skill_level(Bow(SCost)) { *energy_cost *= modifiers.energy_cost.powi(level.into()); } if let Ok(level) = skillset.skill_level(Bow(SArrows)) { *num_projectiles += u32::from(level) * modifiers.num_projectiles; } if let Ok(level) = skillset.skill_level(Bow(SSpread)) { *projectile_spread *= modifiers.spread.powi(level.into()); } }, _ => {}, } } #[warn(clippy::pedantic)] fn adjusted_by_staff_skills(&mut self, skillset: &SkillSet) { #![allow(clippy::enum_glob_use)] use skills::{Skill::Staff, StaffSkill::*}; match self { CharacterAbility::BasicRanged { ref mut projectile, .. } => { let modifiers = SKILL_MODIFIERS.staff_tree.fireball; let damage_level = skillset.skill_level(Staff(BDamage)).unwrap_or(0); let regen_level = skillset.skill_level(Staff(BRegen)).unwrap_or(0); let range_level = skillset.skill_level(Staff(BRadius)).unwrap_or(0); let power = modifiers.power.powi(damage_level.into()); let regen = modifiers.regen.powi(regen_level.into()); let range = modifiers.range.powi(range_level.into()); *projectile = projectile.modified_projectile(power, regen, range); }, CharacterAbility::BasicBeam { ref mut damage, ref mut range, ref mut energy_drain, ref mut beam_duration, .. } => { let modifiers = SKILL_MODIFIERS.staff_tree.flamethrower; if let Ok(level) = skillset.skill_level(Staff(FDamage)) { *damage *= modifiers.damage.powi(level.into()); } if let Ok(level) = skillset.skill_level(Staff(FRange)) { let range_mod = modifiers.range.powi(level.into()); *range *= range_mod; // Duration modified to keep velocity constant *beam_duration *= range_mod; } if let Ok(level) = skillset.skill_level(Staff(FDrain)) { *energy_drain *= modifiers.energy_drain.powi(level.into()); } if let Ok(level) = skillset.skill_level(Staff(FVelocity)) { let velocity_increase = modifiers.velocity.powi(level.into()); let duration_mod = 1.0 / (1.0 + velocity_increase); *beam_duration *= duration_mod; } }, CharacterAbility::Shockwave { ref mut damage, ref mut knockback, ref mut shockwave_duration, ref mut energy_cost, .. } => { let modifiers = SKILL_MODIFIERS.staff_tree.shockwave; if let Ok(level) = skillset.skill_level(Staff(SDamage)) { *damage *= modifiers.damage.powi(level.into()); } if let Ok(level) = skillset.skill_level(Staff(SKnockback)) { let knockback_mod = modifiers.knockback.powi(level.into()); *knockback = knockback.modify_strength(knockback_mod); } if let Ok(level) = skillset.skill_level(Staff(SRange)) { *shockwave_duration *= modifiers.duration.powi(level.into()); } if let Ok(level) = skillset.skill_level(Staff(SCost)) { *energy_cost *= modifiers.energy_cost.powi(level.into()); } }, _ => {}, } } #[warn(clippy::pedantic)] fn adjusted_by_sceptre_skills(&mut self, skillset: &SkillSet) { #![allow(clippy::enum_glob_use)] use skills::{SceptreSkill::*, Skill::Sceptre}; match self { CharacterAbility::BasicBeam { ref mut damage, ref mut range, ref mut beam_duration, ref mut damage_effect, ref mut energy_regen, .. } => { let modifiers = SKILL_MODIFIERS.sceptre_tree.beam; if let Ok(level) = skillset.skill_level(Sceptre(LDamage)) { *damage *= modifiers.damage.powi(level.into()); } if let Ok(level) = skillset.skill_level(Sceptre(LRange)) { let range_mod = modifiers.range.powi(level.into()); *range *= range_mod; // Duration modified to keep velocity constant *beam_duration *= range_mod; } if let Ok(level) = skillset.skill_level(Sceptre(LRegen)) { *energy_regen *= modifiers.energy_regen.powi(level.into()); } if let (Ok(level), Some(CombatEffect::Lifesteal(ref mut lifesteal))) = (skillset.skill_level(Sceptre(LLifesteal)), damage_effect) { *lifesteal *= modifiers.lifesteal.powi(level.into()); } }, CharacterAbility::BasicAura { ref mut aura, ref mut range, ref mut energy_cost, specifier: aura::Specifier::HealingAura, .. } => { let modifiers = SKILL_MODIFIERS.sceptre_tree.healing_aura; if let Ok(level) = skillset.skill_level(Sceptre(HHeal)) { aura.strength *= modifiers.strength.powi(level.into()); } if let Ok(level) = skillset.skill_level(Sceptre(HDuration)) { if let Some(ref mut duration) = aura.duration { *duration *= modifiers.duration.powi(level.into()); } } if let Ok(level) = skillset.skill_level(Sceptre(HRange)) { *range *= modifiers.range.powi(level.into()); } if let Ok(level) = skillset.skill_level(Sceptre(HCost)) { *energy_cost *= modifiers.energy_cost.powi(level.into()); } }, CharacterAbility::BasicAura { ref mut aura, ref mut range, ref mut energy_cost, specifier: aura::Specifier::WardingAura, .. } => { let modifiers = SKILL_MODIFIERS.sceptre_tree.warding_aura; if let Ok(level) = skillset.skill_level(Sceptre(AStrength)) { aura.strength *= modifiers.strength.powi(level.into()); } if let Ok(level) = skillset.skill_level(Sceptre(ADuration)) { if let Some(ref mut duration) = aura.duration { *duration *= modifiers.duration.powi(level.into()); } } if let Ok(level) = skillset.skill_level(Sceptre(ARange)) { *range *= modifiers.range.powi(level.into()); } if let Ok(level) = skillset.skill_level(Sceptre(ACost)) { *energy_cost *= modifiers.energy_cost.powi(level.into()); } }, _ => {}, } } } impl From<(&CharacterAbility, AbilityInfo, &JoinData<'_>)> for CharacterState { fn from((ability, ability_info, data): (&CharacterAbility, AbilityInfo, &JoinData)) -> Self { match ability { CharacterAbility::BasicMelee { buildup_duration, swing_duration, recover_duration, base_damage, base_poise_damage, knockback, range, max_angle, damage_effect, energy_cost: _, damage_kind, } => CharacterState::BasicMelee(basic_melee::Data { static_data: basic_melee::StaticData { buildup_duration: Duration::from_secs_f32(*buildup_duration), swing_duration: Duration::from_secs_f32(*swing_duration), recover_duration: Duration::from_secs_f32(*recover_duration), base_damage: *base_damage, base_poise_damage: *base_poise_damage, knockback: *knockback, range: *range, max_angle: *max_angle, damage_effect: *damage_effect, ability_info, damage_kind: *damage_kind, }, timer: Duration::default(), stage_section: StageSection::Buildup, exhausted: false, }), CharacterAbility::BasicRanged { buildup_duration, recover_duration, projectile, projectile_body, projectile_light, projectile_speed, energy_cost: _, num_projectiles, projectile_spread, } => CharacterState::BasicRanged(basic_ranged::Data { static_data: basic_ranged::StaticData { buildup_duration: Duration::from_secs_f32(*buildup_duration), recover_duration: Duration::from_secs_f32(*recover_duration), projectile: *projectile, projectile_body: *projectile_body, projectile_light: *projectile_light, projectile_speed: *projectile_speed, num_projectiles: *num_projectiles, projectile_spread: *projectile_spread, ability_info, }, timer: Duration::default(), stage_section: StageSection::Buildup, exhausted: false, }), CharacterAbility::Boost { movement_duration, only_up, speed, max_exit_velocity, } => CharacterState::Boost(boost::Data { static_data: boost::StaticData { movement_duration: Duration::from_secs_f32(*movement_duration), only_up: *only_up, speed: *speed, max_exit_velocity: *max_exit_velocity, ability_info, }, timer: Duration::default(), }), CharacterAbility::DashMelee { energy_cost: _, base_damage, scaled_damage, base_poise_damage, scaled_poise_damage, base_knockback, scaled_knockback, range, angle, energy_drain, forward_speed, buildup_duration, charge_duration, swing_duration, recover_duration, ori_modifier, charge_through, is_interruptible, damage_kind, damage_effect, } => CharacterState::DashMelee(dash_melee::Data { static_data: dash_melee::StaticData { base_damage: *base_damage, scaled_damage: *scaled_damage, base_poise_damage: *base_poise_damage, scaled_poise_damage: *scaled_poise_damage, base_knockback: *base_knockback, scaled_knockback: *scaled_knockback, range: *range, angle: *angle, energy_drain: *energy_drain, forward_speed: *forward_speed, charge_through: *charge_through, buildup_duration: Duration::from_secs_f32(*buildup_duration), charge_duration: Duration::from_secs_f32(*charge_duration), swing_duration: Duration::from_secs_f32(*swing_duration), recover_duration: Duration::from_secs_f32(*recover_duration), ori_modifier: *ori_modifier, is_interruptible: *is_interruptible, damage_effect: *damage_effect, ability_info, damage_kind: *damage_kind, }, auto_charge: false, timer: Duration::default(), charge_end_timer: Duration::from_secs_f32(*charge_duration), stage_section: StageSection::Buildup, exhausted: false, }), CharacterAbility::BasicBlock { buildup_duration, recover_duration, max_angle, block_strength, energy_cost, } => CharacterState::BasicBlock(basic_block::Data { static_data: basic_block::StaticData { buildup_duration: Duration::from_secs_f32(*buildup_duration), recover_duration: Duration::from_secs_f32(*recover_duration), max_angle: *max_angle, block_strength: *block_strength, energy_cost: *energy_cost, ability_info, }, timer: Duration::default(), stage_section: StageSection::Buildup, }), CharacterAbility::Roll { energy_cost: _, buildup_duration, movement_duration, recover_duration, roll_strength, immune_melee, } => CharacterState::Roll(roll::Data { static_data: roll::StaticData { buildup_duration: Duration::from_secs_f32(*buildup_duration), movement_duration: Duration::from_secs_f32(*movement_duration), recover_duration: Duration::from_secs_f32(*recover_duration), roll_strength: *roll_strength, immune_melee: *immune_melee, ability_info, }, timer: Duration::default(), stage_section: StageSection::Buildup, was_wielded: false, // false by default. utils might set it to true is_sneaking: false, was_combo: None, }), CharacterAbility::ComboMelee { stage_data, initial_energy_gain, max_energy_gain, energy_increase, speed_increase, max_speed_increase, scales_from_combo, is_interruptible, ori_modifier, } => CharacterState::ComboMelee(combo_melee::Data { static_data: combo_melee::StaticData { num_stages: stage_data.len() as u32, stage_data: stage_data.iter().map(|stage| stage.to_duration()).collect(), initial_energy_gain: *initial_energy_gain, max_energy_gain: *max_energy_gain, energy_increase: *energy_increase, speed_increase: 1.0 - *speed_increase, max_speed_increase: *max_speed_increase, scales_from_combo: *scales_from_combo, is_interruptible: *is_interruptible, ori_modifier: *ori_modifier as f32, ability_info, }, exhausted: false, stage: 1, timer: Duration::default(), stage_section: StageSection::Buildup, }), CharacterAbility::LeapMelee { energy_cost: _, buildup_duration, movement_duration, swing_duration, recover_duration, base_damage, base_poise_damage, knockback, range, max_angle, forward_leap_strength, vertical_leap_strength, damage_kind, damage_effect, } => CharacterState::LeapMelee(leap_melee::Data { static_data: leap_melee::StaticData { buildup_duration: Duration::from_secs_f32(*buildup_duration), movement_duration: Duration::from_secs_f32(*movement_duration), swing_duration: Duration::from_secs_f32(*swing_duration), recover_duration: Duration::from_secs_f32(*recover_duration), base_damage: *base_damage, base_poise_damage: *base_poise_damage, knockback: *knockback, range: *range, max_angle: *max_angle, forward_leap_strength: *forward_leap_strength, vertical_leap_strength: *vertical_leap_strength, damage_effect: *damage_effect, ability_info, damage_kind: *damage_kind, }, timer: Duration::default(), stage_section: StageSection::Buildup, exhausted: false, }), CharacterAbility::SpinMelee { buildup_duration, swing_duration, recover_duration, base_damage, base_poise_damage, knockback, range, damage_effect, energy_cost, is_infinite, movement_behavior, is_interruptible, forward_speed, num_spins, specifier, target, damage_kind, } => CharacterState::SpinMelee(spin_melee::Data { static_data: spin_melee::StaticData { buildup_duration: Duration::from_secs_f32(*buildup_duration), swing_duration: Duration::from_secs_f32(*swing_duration), recover_duration: Duration::from_secs_f32(*recover_duration), base_damage: *base_damage, base_poise_damage: *base_poise_damage, knockback: *knockback, range: *range, damage_effect: *damage_effect, energy_cost: *energy_cost, is_infinite: *is_infinite, movement_behavior: *movement_behavior, is_interruptible: *is_interruptible, forward_speed: *forward_speed, num_spins: *num_spins, target: *target, ability_info, specifier: *specifier, damage_kind: *damage_kind, }, timer: Duration::default(), consecutive_spins: 1, stage_section: StageSection::Buildup, exhausted: false, }), CharacterAbility::ChargedMelee { energy_cost, energy_drain, initial_damage, scaled_damage, initial_poise_damage, scaled_poise_damage, initial_knockback, scaled_knockback, charge_duration, swing_duration, hit_timing, recover_duration, range, max_angle, specifier, damage_kind, damage_effect, } => CharacterState::ChargedMelee(charged_melee::Data { static_data: charged_melee::StaticData { energy_cost: *energy_cost, energy_drain: *energy_drain, initial_damage: *initial_damage, scaled_damage: *scaled_damage, initial_poise_damage: *initial_poise_damage, scaled_poise_damage: *scaled_poise_damage, initial_knockback: *initial_knockback, scaled_knockback: *scaled_knockback, range: *range, max_angle: *max_angle, charge_duration: Duration::from_secs_f32(*charge_duration), swing_duration: Duration::from_secs_f32(*swing_duration), hit_timing: *hit_timing, recover_duration: Duration::from_secs_f32(*recover_duration), damage_effect: *damage_effect, ability_info, specifier: *specifier, damage_kind: *damage_kind, }, stage_section: StageSection::Charge, timer: Duration::default(), exhausted: false, charge_amount: 0.0, }), CharacterAbility::ChargedRanged { energy_cost: _, energy_drain, initial_regen, scaled_regen, initial_damage, scaled_damage, initial_knockback, scaled_knockback, buildup_duration, charge_duration, recover_duration, projectile_body, projectile_light, initial_projectile_speed, scaled_projectile_speed, move_speed, } => CharacterState::ChargedRanged(charged_ranged::Data { static_data: charged_ranged::StaticData { buildup_duration: Duration::from_secs_f32(*buildup_duration), charge_duration: Duration::from_secs_f32(*charge_duration), recover_duration: Duration::from_secs_f32(*recover_duration), energy_drain: *energy_drain, initial_regen: *initial_regen, scaled_regen: *scaled_regen, initial_damage: *initial_damage, scaled_damage: *scaled_damage, initial_knockback: *initial_knockback, scaled_knockback: *scaled_knockback, projectile_body: *projectile_body, projectile_light: *projectile_light, initial_projectile_speed: *initial_projectile_speed, scaled_projectile_speed: *scaled_projectile_speed, move_speed: *move_speed, ability_info, }, timer: Duration::default(), stage_section: StageSection::Buildup, exhausted: false, }), CharacterAbility::RepeaterRanged { energy_cost, buildup_duration, shoot_duration, recover_duration, max_speed, half_speed_at, projectile, projectile_body, projectile_light, projectile_speed, } => CharacterState::RepeaterRanged(repeater_ranged::Data { static_data: repeater_ranged::StaticData { buildup_duration: Duration::from_secs_f32(*buildup_duration), shoot_duration: Duration::from_secs_f32(*shoot_duration), recover_duration: Duration::from_secs_f32(*recover_duration), energy_cost: *energy_cost, // 1.0 is subtracted as 1.0 is added in state file max_speed: *max_speed - 1.0, half_speed_at: *half_speed_at, projectile: *projectile, projectile_body: *projectile_body, projectile_light: *projectile_light, projectile_speed: *projectile_speed, ability_info, }, timer: Duration::default(), stage_section: StageSection::Buildup, projectiles_fired: 0, speed: 1.0, }), CharacterAbility::Shockwave { energy_cost: _, buildup_duration, swing_duration, recover_duration, damage, poise_damage, knockback, shockwave_angle, shockwave_vertical_angle, shockwave_speed, shockwave_duration, requires_ground, move_efficiency, damage_kind, specifier, damage_effect, } => CharacterState::Shockwave(shockwave::Data { static_data: shockwave::StaticData { buildup_duration: Duration::from_secs_f32(*buildup_duration), swing_duration: Duration::from_secs_f32(*swing_duration), recover_duration: Duration::from_secs_f32(*recover_duration), damage: *damage, poise_damage: *poise_damage, knockback: *knockback, shockwave_angle: *shockwave_angle, shockwave_vertical_angle: *shockwave_vertical_angle, shockwave_speed: *shockwave_speed, shockwave_duration: Duration::from_secs_f32(*shockwave_duration), requires_ground: *requires_ground, move_efficiency: *move_efficiency, damage_effect: *damage_effect, ability_info, damage_kind: *damage_kind, specifier: *specifier, }, timer: Duration::default(), stage_section: StageSection::Buildup, }), CharacterAbility::BasicBeam { buildup_duration, recover_duration, beam_duration, damage, tick_rate, range, max_angle, damage_effect, energy_regen, energy_drain, ori_rate, specifier, } => CharacterState::BasicBeam(basic_beam::Data { static_data: basic_beam::StaticData { buildup_duration: Duration::from_secs_f32(*buildup_duration), recover_duration: Duration::from_secs_f32(*recover_duration), beam_duration: Duration::from_secs_f32(*beam_duration), damage: *damage, tick_rate: *tick_rate, range: *range, max_angle: *max_angle, damage_effect: *damage_effect, energy_regen: *energy_regen, energy_drain: *energy_drain, ability_info, ori_rate: *ori_rate, specifier: *specifier, }, timer: Duration::default(), stage_section: StageSection::Buildup, }), CharacterAbility::BasicAura { buildup_duration, cast_duration, recover_duration, targets, aura, aura_duration, range, energy_cost: _, scales_with_combo, specifier, } => CharacterState::BasicAura(basic_aura::Data { static_data: basic_aura::StaticData { buildup_duration: Duration::from_secs_f32(*buildup_duration), cast_duration: Duration::from_secs_f32(*cast_duration), recover_duration: Duration::from_secs_f32(*recover_duration), targets: *targets, aura: *aura, aura_duration: Duration::from_secs_f32(*aura_duration), range: *range, ability_info, scales_with_combo: *scales_with_combo, combo_at_cast: data.combo.counter(), specifier: *specifier, }, timer: Duration::default(), stage_section: StageSection::Buildup, }), CharacterAbility::Blink { buildup_duration, recover_duration, max_range, } => CharacterState::Blink(blink::Data { static_data: blink::StaticData { buildup_duration: Duration::from_secs_f32(*buildup_duration), recover_duration: Duration::from_secs_f32(*recover_duration), max_range: *max_range, ability_info, }, timer: Duration::default(), stage_section: StageSection::Buildup, }), CharacterAbility::BasicSummon { buildup_duration, cast_duration, recover_duration, summon_amount, summon_distance, summon_info, duration, } => CharacterState::BasicSummon(basic_summon::Data { static_data: basic_summon::StaticData { buildup_duration: Duration::from_secs_f32(*buildup_duration), cast_duration: Duration::from_secs_f32(*cast_duration), recover_duration: Duration::from_secs_f32(*recover_duration), summon_amount: *summon_amount, summon_distance: *summon_distance, summon_info: *summon_info, ability_info, duration: *duration, }, summon_count: 0, timer: Duration::default(), stage_section: StageSection::Buildup, }), CharacterAbility::SelfBuff { buildup_duration, cast_duration, recover_duration, buff_kind, buff_strength, buff_duration, energy_cost: _, } => CharacterState::SelfBuff(self_buff::Data { static_data: self_buff::StaticData { buildup_duration: Duration::from_secs_f32(*buildup_duration), cast_duration: Duration::from_secs_f32(*cast_duration), recover_duration: Duration::from_secs_f32(*recover_duration), buff_kind: *buff_kind, buff_strength: *buff_strength, buff_duration: buff_duration.map(Duration::from_secs_f32), ability_info, }, timer: Duration::default(), stage_section: StageSection::Buildup, }), CharacterAbility::SpriteSummon { buildup_duration, cast_duration, recover_duration, sprite, summon_distance, sparseness, } => CharacterState::SpriteSummon(sprite_summon::Data { static_data: sprite_summon::StaticData { buildup_duration: Duration::from_secs_f32(*buildup_duration), cast_duration: Duration::from_secs_f32(*cast_duration), recover_duration: Duration::from_secs_f32(*recover_duration), sprite: *sprite, summon_distance: *summon_distance, sparseness: *sparseness, ability_info, }, timer: Duration::default(), stage_section: StageSection::Buildup, achieved_radius: summon_distance.0.floor() as i32 - 1, }), } } }