veloren/common/src/comp/agent.rs

539 lines
18 KiB
Rust
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use crate::{
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comp::{humanoid, quadruped_low, quadruped_medium, quadruped_small, ship, Body, UtteranceKind},
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path::Chaser,
rtsim::RtSimController,
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trade::{PendingTrade, ReducedInventory, SiteId, SitePrices, TradeId, TradeResult},
uid::Uid,
};
use specs::{Component, Entity as EcsEntity};
use specs_idvs::IdvStorage;
use std::{collections::VecDeque, fmt};
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use vek::*;
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use super::dialogue::Subject;
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pub const DEFAULT_INTERACTION_TIME: f32 = 3.0;
Implement /price_list (work in progress), stub for /buy and /sell remove outdated economic simulation code remove old values, document add natural resources to economy Remove NaturalResources from Place (now in Economy) find closest site to each chunk implement natural resources (the distance scale is wrong) cargo fmt working distance calculation this collection of natural resources seem to make sense, too much Wheat though use natural resources and controlled area to replenish goods increase the amount of chunks controlled by one guard to 50 add new professions and goods to the list implement multiple products per worker remove the old code and rename the new code to the previous name correctly determine which goods guards will give you access to correctly estimate the amount of natural resources controlled adapt to new server API instrument tooltips Now I just need to figure out how to store a (reference to) a closure closures for tooltip content generation pass site/cave id to the client Add economic information to the client structure (not yet exchanged with the server) Send SiteId to the client, prepare messages for economy request Make client::sites a HashMap Specialize the Crafter into Brewer,Bladesmith and Blacksmith working server request for economic info from within tooltip fully operational economic tooltips I need to fix the id clash between caves and towns though fix overlapping ids between caves and sites display stock amount correctly handle invalid (cave) ids in the request some initial balancing, turn off most info logging less intrusive way of implementing the dynamic tool tips in map further tooltip cleanup further cleanup, dynamic tooltip not fully working as intended correctly working tooltip visibility logic cleanup, display labor value separate economy info request in a separate translation unit display values as well nicer display format for economy add last_exports and coin to the new economy do not allocate natural resources to Dungeons (making town so much larger) balancing attempt print town size statistics cargo fmt (dead code) resource tweaks, csv debugging output a more interesting town (and then all sites) fix the labor value logic (now we have meaningful prices) load professions from ron (WIP) use assets manager in economy loading professions works use professions from ron file fix Labor debug logic count chunks per type separately (preparing for better resource control) better structured resource data traders, more professions (WIP) fix exception when starting the simulation fix replenish function TODO: - use area_ratio for resource usage (chunks should be added to stock, ratio on usage?) - fix trading documentation clean up fix merge artifact Revise trader mechanic start Coin with a reasonable default remove the outdated economy code preserve documentation from removed old structure output neighboring sites (preparation) pass list of neighbors to economy add trade structures trading stub Description of purpose by zesterer on Discord remember prices (needed for planning) avoid growing the order vector unboundedly into_iter doesn't clear the Vec, so clear it manually use drain to process Vecs, avoid clone fix the test server implement a test stub (I need to get it faster than 30 seconds to be more useful) enable info output in test debug missing and extra goods use the same logging extension as water, activate feature update dependencies determine good prices, good exchange goods a working set of revisions a cozy world which economy tests in 2s first order planning version fun with package version buy according to value/priority, not missing amount introduce min price constant, fix order priority in depth debugging with a correct sign the trading plans start to make sense move the trade planning to a separate function rename new function reorganize code into subroutines (much cleaner) each trading step now has its own function cut down the number of debugging output introduce RoadSecurity and Transportation transport capacity bookkeeping only plan to pay with valuable goods, you can no longer stockpile unused options (which interestingly shows a huge impact, to be investigated) Coin is now listed as a payment (although not used) proper transportation estimation (although 0) remove more left overs uncovered by viewing the code in a merge request use the old default values, handle non-pileable stocks directly before increasing it (as economy is based on last year's products) don't order the missing good multiple times also it uses coin to buy things! fix warnings and use the transportation from stock again cargo fmt prepare evaluation of trade don't count transportation multiple times fix merge artifact operational trade planning trade itself is still misleading make clippy happy clean up correct labor ratio of merchants (no need to multiply with amount produced) incomplete merchant labor_value computation correct last commit make economy of scale more explicit make clippy happy (and code cleaner) more merchant tweaks (more pop=better) beginning of real trading code revert the update of dependencies remove stale comments/unused code trading implementation complete (but untested) something is still strange ... fix sign in trading another sign fix some bugfixes and plenty of debugging code another bug fixed, more to go fix another invariant (rounding will lead to very small negative value) introduce Terrain and Territory fix merge mistakes
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pub const TRADE_INTERACTION_TIME: f32 = 300.0;
pub const MAX_LISTEN_DIST: f32 = 100.0;
#[derive(Copy, Clone, Debug, PartialEq)]
pub enum Alignment {
/// Wild animals and gentle giants
Wild,
/// Dungeon cultists and bandits
Enemy,
/// Friendly folk in villages
Npc,
/// Farm animals and pets of villagers
Tame,
/// Pets you've tamed with a collar
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Owned(Uid),
/// Passive objects like training dummies
Passive,
}
Split LodoutBuilder::build_loadout LoadoutBuilder::build_loadout is a function which has four parameters and 3 of them are Option<>, and although fourth (body) isn't Option<>, it's optional too because it is used only in some combinations of another arguments. Because these combinations produces quirky code flow, it will be better to split it to different methods. So we did following changes to remove it and rewrite code that was using it to use better methods. * Introduce LoadoutPreset as new LoadoutConfig, currently it's only used in Summon ability, because SummonInfo uses Copy and we can't specify String for specifying asset path for loadout. Everything else is rewritten to use asset path to create loadouts. * More builder methods for LoadoutBuilder. Namely: - from_default which is used in server/src/cmd.rs in "/spawn" command. - with_default_equipment, with_default_maintool to use default loadout for specific body - with_preset to use LoadoutPreset * Add new make_loadout field with `fn (loadout_builder, trading_info) -> loadout_builder` to EntityInfo which allows to lazily construct loadout without modifying LoadoutBuilder code * Fix Merchants not having trade site We had heuristic that if something has Merchant LoadoutConfig - it's merchant, which can be false, especially if we create Merchant loadout lazily As side note, we do same check for Guards and it fails too. Too fix it, we introduce new agent::Mark, which explicitly specifies kind of agent for entity * `LoadoutBuilder::build_loadout` was written in a such way that depending on main_tool you will have different loadout. Turns out it was this way only for Adlets though and this behaviour is reproduced by specifying different loadouts directly in world code.
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#[derive(Copy, Clone, Debug, PartialEq)]
pub enum Mark {
Merchant,
Guard,
}
impl Alignment {
// Always attacks
pub fn hostile_towards(self, other: Alignment) -> bool {
match (self, other) {
(Alignment::Enemy, Alignment::Enemy) => false,
(Alignment::Enemy, Alignment::Wild) => false,
(Alignment::Wild, Alignment::Enemy) => false,
(Alignment::Wild, Alignment::Wild) => false,
(Alignment::Npc, Alignment::Wild) => false,
(Alignment::Npc, Alignment::Enemy) => true,
(_, Alignment::Enemy) => true,
(Alignment::Enemy, _) => true,
_ => false,
}
}
// Never attacks
pub fn passive_towards(self, other: Alignment) -> bool {
match (self, other) {
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(Alignment::Enemy, Alignment::Enemy) => true,
(Alignment::Owned(a), Alignment::Owned(b)) if a == b => true,
(Alignment::Npc, Alignment::Npc) => true,
(Alignment::Npc, Alignment::Tame) => true,
(Alignment::Enemy, Alignment::Wild) => true,
(Alignment::Wild, Alignment::Enemy) => true,
(Alignment::Tame, Alignment::Npc) => true,
(Alignment::Tame, Alignment::Tame) => true,
(_, Alignment::Passive) => true,
_ => false,
}
}
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// TODO: Remove this hack
pub fn is_friendly_to_players(&self) -> bool {
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matches!(self, Alignment::Npc | Alignment::Tame | Alignment::Owned(_))
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}
}
impl Component for Alignment {
type Storage = IdvStorage<Self>;
}
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bitflags::bitflags! {
#[derive(Default)]
pub struct BehaviorCapability: u8 {
const SPEAK = 0b00000001;
}
}
bitflags::bitflags! {
#[derive(Default)]
pub struct BehaviorState: u8 {
const TRADING = 0b00000001;
const TRADING_ISSUER = 0b00000010;
}
}
/// # Behavior Component
/// This component allow an Entity to register one or more behavior tags.
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/// These tags act as flags of what an Entity can do, or what it is doing.
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/// Behaviors Tags can be added and removed as the Entity lives, to update its
/// state when needed
#[derive(Default, Copy, Clone, Debug)]
pub struct Behavior {
capabilities: BehaviorCapability,
state: BehaviorState,
pub trade_site: Option<SiteId>,
}
impl From<BehaviorCapability> for Behavior {
fn from(capabilities: BehaviorCapability) -> Self {
Behavior {
capabilities,
state: BehaviorState::default(),
trade_site: None,
}
}
}
impl Behavior {
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/// Builder function
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/// Set capabilities if Option is Some
pub fn maybe_with_capabilities(
mut self,
maybe_capabilities: Option<BehaviorCapability>,
) -> Self {
if let Some(capabilities) = maybe_capabilities {
self.allow(capabilities)
}
self
}
/// Builder function
/// Set trade_site if Option is Some
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pub fn with_trade_site(mut self, trade_site: Option<SiteId>) -> Self {
self.trade_site = trade_site;
self
}
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/// Set capabilities to the Behavior
pub fn allow(&mut self, capabilities: BehaviorCapability) {
self.capabilities.set(capabilities, true)
}
/// Unset capabilities to the Behavior
pub fn deny(&mut self, capabilities: BehaviorCapability) {
self.capabilities.set(capabilities, false)
}
/// Check if the Behavior is able to do something
pub fn can(&self, capabilities: BehaviorCapability) -> bool {
self.capabilities.contains(capabilities)
}
/// Check if the Behavior is able to trade
pub fn can_trade(&self) -> bool { self.trade_site.is_some() }
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/// Set a state to the Behavior
pub fn set(&mut self, state: BehaviorState) { self.state.set(state, true) }
/// Unset a state to the Behavior
pub fn unset(&mut self, state: BehaviorState) { self.state.set(state, false) }
/// Check if the Behavior has a specific state
pub fn is(&self, state: BehaviorState) -> bool { self.state.contains(state) }
}
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#[derive(Clone, Debug, Default)]
pub struct Psyche {
pub aggro: f32, // 0.0 = always flees, 1.0 = always attacks, 0.5 = flee at 50% health
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}
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impl<'a> From<&'a Body> for Psyche {
fn from(body: &'a Body) -> Self {
Self {
aggro: match body {
Body::Humanoid(humanoid) => match humanoid.species {
humanoid::Species::Danari => 0.9,
humanoid::Species::Dwarf => 0.8,
humanoid::Species::Elf => 0.7,
humanoid::Species::Human => 0.6,
humanoid::Species::Orc => 0.9,
humanoid::Species::Undead => 0.9,
},
Body::QuadrupedSmall(quadruped_small) => match quadruped_small.species {
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quadruped_small::Species::Pig => 0.5,
quadruped_small::Species::Fox => 0.3,
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quadruped_small::Species::Sheep => 0.5,
quadruped_small::Species::Boar => 0.8,
quadruped_small::Species::Jackalope => 0.4,
quadruped_small::Species::Skunk => 0.6,
quadruped_small::Species::Cat => 0.2,
quadruped_small::Species::Batfox => 0.6,
quadruped_small::Species::Raccoon => 0.4,
quadruped_small::Species::Quokka => 0.4,
quadruped_small::Species::Dodarock => 0.9,
quadruped_small::Species::Holladon => 1.0,
quadruped_small::Species::Hyena => 0.4,
quadruped_small::Species::Rabbit => 0.1,
quadruped_small::Species::Truffler => 0.8,
quadruped_small::Species::Frog => 0.4,
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quadruped_small::Species::Hare => 0.2,
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quadruped_small::Species::Goat => 0.5,
_ => 0.0,
},
Body::QuadrupedMedium(quadruped_medium) => match quadruped_medium.species {
quadruped_medium::Species::Tuskram => 0.7,
quadruped_medium::Species::Frostfang => 0.9,
quadruped_medium::Species::Mouflon => 0.7,
quadruped_medium::Species::Catoblepas => 0.8,
quadruped_medium::Species::Deer => 0.6,
quadruped_medium::Species::Hirdrasil => 0.7,
quadruped_medium::Species::Donkey => 0.7,
quadruped_medium::Species::Camel => 0.7,
quadruped_medium::Species::Zebra => 0.7,
quadruped_medium::Species::Antelope => 0.6,
quadruped_medium::Species::Horse => 0.7,
quadruped_medium::Species::Cattle => 0.7,
quadruped_medium::Species::Darkhound => 0.9,
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quadruped_medium::Species::Dreadhorn => 0.8,
quadruped_medium::Species::Snowleopard => 0.7,
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quadruped_medium::Species::Llama => 0.6,
quadruped_medium::Species::Alpaca => 0.6,
_ => 0.5,
},
Body::QuadrupedLow(quadruped_low) => match quadruped_low.species {
quadruped_low::Species::Salamander => 0.7,
quadruped_low::Species::Monitor => 0.7,
quadruped_low::Species::Asp => 0.9,
quadruped_low::Species::Pangolin => 0.4,
_ => 0.6,
},
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Body::BipedSmall(_) => 0.5,
Body::BirdMedium(_) => 0.5,
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Body::BirdLarge(_) => 0.9,
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Body::FishMedium(_) => 0.15,
Body::FishSmall(_) => 0.0,
Body::BipedLarge(_) => 1.0,
Body::Object(_) => 1.0,
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Body::Golem(_) => 1.0,
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Body::Theropod(_) => 1.0,
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Body::Dragon(_) => 1.0,
Body::Ship(_) => 1.0,
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},
}
}
}
#[derive(Clone, Debug)]
/// Events that affect agent behavior from other entities/players/environment
pub enum AgentEvent {
/// Engage in conversation with entity with Uid
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Talk(Uid, Subject),
Implement /price_list (work in progress), stub for /buy and /sell remove outdated economic simulation code remove old values, document add natural resources to economy Remove NaturalResources from Place (now in Economy) find closest site to each chunk implement natural resources (the distance scale is wrong) cargo fmt working distance calculation this collection of natural resources seem to make sense, too much Wheat though use natural resources and controlled area to replenish goods increase the amount of chunks controlled by one guard to 50 add new professions and goods to the list implement multiple products per worker remove the old code and rename the new code to the previous name correctly determine which goods guards will give you access to correctly estimate the amount of natural resources controlled adapt to new server API instrument tooltips Now I just need to figure out how to store a (reference to) a closure closures for tooltip content generation pass site/cave id to the client Add economic information to the client structure (not yet exchanged with the server) Send SiteId to the client, prepare messages for economy request Make client::sites a HashMap Specialize the Crafter into Brewer,Bladesmith and Blacksmith working server request for economic info from within tooltip fully operational economic tooltips I need to fix the id clash between caves and towns though fix overlapping ids between caves and sites display stock amount correctly handle invalid (cave) ids in the request some initial balancing, turn off most info logging less intrusive way of implementing the dynamic tool tips in map further tooltip cleanup further cleanup, dynamic tooltip not fully working as intended correctly working tooltip visibility logic cleanup, display labor value separate economy info request in a separate translation unit display values as well nicer display format for economy add last_exports and coin to the new economy do not allocate natural resources to Dungeons (making town so much larger) balancing attempt print town size statistics cargo fmt (dead code) resource tweaks, csv debugging output a more interesting town (and then all sites) fix the labor value logic (now we have meaningful prices) load professions from ron (WIP) use assets manager in economy loading professions works use professions from ron file fix Labor debug logic count chunks per type separately (preparing for better resource control) better structured resource data traders, more professions (WIP) fix exception when starting the simulation fix replenish function TODO: - use area_ratio for resource usage (chunks should be added to stock, ratio on usage?) - fix trading documentation clean up fix merge artifact Revise trader mechanic start Coin with a reasonable default remove the outdated economy code preserve documentation from removed old structure output neighboring sites (preparation) pass list of neighbors to economy add trade structures trading stub Description of purpose by zesterer on Discord remember prices (needed for planning) avoid growing the order vector unboundedly into_iter doesn't clear the Vec, so clear it manually use drain to process Vecs, avoid clone fix the test server implement a test stub (I need to get it faster than 30 seconds to be more useful) enable info output in test debug missing and extra goods use the same logging extension as water, activate feature update dependencies determine good prices, good exchange goods a working set of revisions a cozy world which economy tests in 2s first order planning version fun with package version buy according to value/priority, not missing amount introduce min price constant, fix order priority in depth debugging with a correct sign the trading plans start to make sense move the trade planning to a separate function rename new function reorganize code into subroutines (much cleaner) each trading step now has its own function cut down the number of debugging output introduce RoadSecurity and Transportation transport capacity bookkeeping only plan to pay with valuable goods, you can no longer stockpile unused options (which interestingly shows a huge impact, to be investigated) Coin is now listed as a payment (although not used) proper transportation estimation (although 0) remove more left overs uncovered by viewing the code in a merge request use the old default values, handle non-pileable stocks directly before increasing it (as economy is based on last year's products) don't order the missing good multiple times also it uses coin to buy things! fix warnings and use the transportation from stock again cargo fmt prepare evaluation of trade don't count transportation multiple times fix merge artifact operational trade planning trade itself is still misleading make clippy happy clean up correct labor ratio of merchants (no need to multiply with amount produced) incomplete merchant labor_value computation correct last commit make economy of scale more explicit make clippy happy (and code cleaner) more merchant tweaks (more pop=better) beginning of real trading code revert the update of dependencies remove stale comments/unused code trading implementation complete (but untested) something is still strange ... fix sign in trading another sign fix some bugfixes and plenty of debugging code another bug fixed, more to go fix another invariant (rounding will lead to very small negative value) introduce Terrain and Territory fix merge mistakes
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TradeInvite(Uid),
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TradeAccepted(Uid),
Implement /price_list (work in progress), stub for /buy and /sell remove outdated economic simulation code remove old values, document add natural resources to economy Remove NaturalResources from Place (now in Economy) find closest site to each chunk implement natural resources (the distance scale is wrong) cargo fmt working distance calculation this collection of natural resources seem to make sense, too much Wheat though use natural resources and controlled area to replenish goods increase the amount of chunks controlled by one guard to 50 add new professions and goods to the list implement multiple products per worker remove the old code and rename the new code to the previous name correctly determine which goods guards will give you access to correctly estimate the amount of natural resources controlled adapt to new server API instrument tooltips Now I just need to figure out how to store a (reference to) a closure closures for tooltip content generation pass site/cave id to the client Add economic information to the client structure (not yet exchanged with the server) Send SiteId to the client, prepare messages for economy request Make client::sites a HashMap Specialize the Crafter into Brewer,Bladesmith and Blacksmith working server request for economic info from within tooltip fully operational economic tooltips I need to fix the id clash between caves and towns though fix overlapping ids between caves and sites display stock amount correctly handle invalid (cave) ids in the request some initial balancing, turn off most info logging less intrusive way of implementing the dynamic tool tips in map further tooltip cleanup further cleanup, dynamic tooltip not fully working as intended correctly working tooltip visibility logic cleanup, display labor value separate economy info request in a separate translation unit display values as well nicer display format for economy add last_exports and coin to the new economy do not allocate natural resources to Dungeons (making town so much larger) balancing attempt print town size statistics cargo fmt (dead code) resource tweaks, csv debugging output a more interesting town (and then all sites) fix the labor value logic (now we have meaningful prices) load professions from ron (WIP) use assets manager in economy loading professions works use professions from ron file fix Labor debug logic count chunks per type separately (preparing for better resource control) better structured resource data traders, more professions (WIP) fix exception when starting the simulation fix replenish function TODO: - use area_ratio for resource usage (chunks should be added to stock, ratio on usage?) - fix trading documentation clean up fix merge artifact Revise trader mechanic start Coin with a reasonable default remove the outdated economy code preserve documentation from removed old structure output neighboring sites (preparation) pass list of neighbors to economy add trade structures trading stub Description of purpose by zesterer on Discord remember prices (needed for planning) avoid growing the order vector unboundedly into_iter doesn't clear the Vec, so clear it manually use drain to process Vecs, avoid clone fix the test server implement a test stub (I need to get it faster than 30 seconds to be more useful) enable info output in test debug missing and extra goods use the same logging extension as water, activate feature update dependencies determine good prices, good exchange goods a working set of revisions a cozy world which economy tests in 2s first order planning version fun with package version buy according to value/priority, not missing amount introduce min price constant, fix order priority in depth debugging with a correct sign the trading plans start to make sense move the trade planning to a separate function rename new function reorganize code into subroutines (much cleaner) each trading step now has its own function cut down the number of debugging output introduce RoadSecurity and Transportation transport capacity bookkeeping only plan to pay with valuable goods, you can no longer stockpile unused options (which interestingly shows a huge impact, to be investigated) Coin is now listed as a payment (although not used) proper transportation estimation (although 0) remove more left overs uncovered by viewing the code in a merge request use the old default values, handle non-pileable stocks directly before increasing it (as economy is based on last year's products) don't order the missing good multiple times also it uses coin to buy things! fix warnings and use the transportation from stock again cargo fmt prepare evaluation of trade don't count transportation multiple times fix merge artifact operational trade planning trade itself is still misleading make clippy happy clean up correct labor ratio of merchants (no need to multiply with amount produced) incomplete merchant labor_value computation correct last commit make economy of scale more explicit make clippy happy (and code cleaner) more merchant tweaks (more pop=better) beginning of real trading code revert the update of dependencies remove stale comments/unused code trading implementation complete (but untested) something is still strange ... fix sign in trading another sign fix some bugfixes and plenty of debugging code another bug fixed, more to go fix another invariant (rounding will lead to very small negative value) introduce Terrain and Territory fix merge mistakes
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FinishedTrade(TradeResult),
UpdatePendingTrade(
// This data structure is large so box it to keep AgentEvent small
Implement /price_list (work in progress), stub for /buy and /sell remove outdated economic simulation code remove old values, document add natural resources to economy Remove NaturalResources from Place (now in Economy) find closest site to each chunk implement natural resources (the distance scale is wrong) cargo fmt working distance calculation this collection of natural resources seem to make sense, too much Wheat though use natural resources and controlled area to replenish goods increase the amount of chunks controlled by one guard to 50 add new professions and goods to the list implement multiple products per worker remove the old code and rename the new code to the previous name correctly determine which goods guards will give you access to correctly estimate the amount of natural resources controlled adapt to new server API instrument tooltips Now I just need to figure out how to store a (reference to) a closure closures for tooltip content generation pass site/cave id to the client Add economic information to the client structure (not yet exchanged with the server) Send SiteId to the client, prepare messages for economy request Make client::sites a HashMap Specialize the Crafter into Brewer,Bladesmith and Blacksmith working server request for economic info from within tooltip fully operational economic tooltips I need to fix the id clash between caves and towns though fix overlapping ids between caves and sites display stock amount correctly handle invalid (cave) ids in the request some initial balancing, turn off most info logging less intrusive way of implementing the dynamic tool tips in map further tooltip cleanup further cleanup, dynamic tooltip not fully working as intended correctly working tooltip visibility logic cleanup, display labor value separate economy info request in a separate translation unit display values as well nicer display format for economy add last_exports and coin to the new economy do not allocate natural resources to Dungeons (making town so much larger) balancing attempt print town size statistics cargo fmt (dead code) resource tweaks, csv debugging output a more interesting town (and then all sites) fix the labor value logic (now we have meaningful prices) load professions from ron (WIP) use assets manager in economy loading professions works use professions from ron file fix Labor debug logic count chunks per type separately (preparing for better resource control) better structured resource data traders, more professions (WIP) fix exception when starting the simulation fix replenish function TODO: - use area_ratio for resource usage (chunks should be added to stock, ratio on usage?) - fix trading documentation clean up fix merge artifact Revise trader mechanic start Coin with a reasonable default remove the outdated economy code preserve documentation from removed old structure output neighboring sites (preparation) pass list of neighbors to economy add trade structures trading stub Description of purpose by zesterer on Discord remember prices (needed for planning) avoid growing the order vector unboundedly into_iter doesn't clear the Vec, so clear it manually use drain to process Vecs, avoid clone fix the test server implement a test stub (I need to get it faster than 30 seconds to be more useful) enable info output in test debug missing and extra goods use the same logging extension as water, activate feature update dependencies determine good prices, good exchange goods a working set of revisions a cozy world which economy tests in 2s first order planning version fun with package version buy according to value/priority, not missing amount introduce min price constant, fix order priority in depth debugging with a correct sign the trading plans start to make sense move the trade planning to a separate function rename new function reorganize code into subroutines (much cleaner) each trading step now has its own function cut down the number of debugging output introduce RoadSecurity and Transportation transport capacity bookkeeping only plan to pay with valuable goods, you can no longer stockpile unused options (which interestingly shows a huge impact, to be investigated) Coin is now listed as a payment (although not used) proper transportation estimation (although 0) remove more left overs uncovered by viewing the code in a merge request use the old default values, handle non-pileable stocks directly before increasing it (as economy is based on last year's products) don't order the missing good multiple times also it uses coin to buy things! fix warnings and use the transportation from stock again cargo fmt prepare evaluation of trade don't count transportation multiple times fix merge artifact operational trade planning trade itself is still misleading make clippy happy clean up correct labor ratio of merchants (no need to multiply with amount produced) incomplete merchant labor_value computation correct last commit make economy of scale more explicit make clippy happy (and code cleaner) more merchant tweaks (more pop=better) beginning of real trading code revert the update of dependencies remove stale comments/unused code trading implementation complete (but untested) something is still strange ... fix sign in trading another sign fix some bugfixes and plenty of debugging code another bug fixed, more to go fix another invariant (rounding will lead to very small negative value) introduce Terrain and Territory fix merge mistakes
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Box<(
TradeId,
PendingTrade,
SitePrices,
[Option<ReducedInventory>; 2],
)>,
),
ServerSound(Sound),
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Hurt,
}
#[derive(Copy, Clone, Debug)]
pub struct Sound {
pub kind: SoundKind,
pub pos: Vec3<f32>,
pub vol: f32,
pub time: f64,
}
impl Sound {
pub fn new(kind: SoundKind, pos: Vec3<f32>, vol: f32, time: f64) -> Self {
Sound {
kind,
pos,
vol,
time,
}
}
pub fn with_new_vol(mut self, new_vol: f32) -> Self {
self.vol = new_vol;
self
}
}
#[derive(Copy, Clone, Debug)]
pub enum SoundKind {
Unknown,
Movement,
Melee,
Projectile,
Explosion,
Beam,
Shockwave,
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Utterance(UtteranceKind, Body),
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// TODO: unify VillagerAlarm with Utterance
VillagerAlarm,
}
#[derive(Clone, Copy, Debug)]
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pub struct Target {
pub target: EcsEntity,
pub hostile: bool,
pub selected_at: f64,
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}
#[allow(clippy::type_complexity)]
#[derive(Clone, Debug, Default)]
pub struct Agent {
pub rtsim_controller: RtSimController,
pub patrol_origin: Option<Vec3<f32>>,
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pub target: Option<Target>,
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pub chaser: Chaser,
pub behavior: Behavior,
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pub psyche: Psyche,
pub inbox: VecDeque<AgentEvent>,
pub action_state: ActionState,
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pub bearing: Vec2<f32>,
pub sounds_heard: Vec<Sound>,
pub awareness: f32,
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pub position_pid_controller: Option<PidController<fn(Vec3<f32>, Vec3<f32>) -> f32, 16>>,
}
#[derive(Clone, Debug, Default)]
pub struct ActionState {
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pub timer: f32,
pub counter: f32,
pub condition: bool,
pub int_counter: u8,
}
impl Agent {
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pub fn with_patrol_origin(mut self, origin: Vec3<f32>) -> Self {
self.patrol_origin = Some(origin);
self
}
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pub fn with_destination(mut self, pos: Vec3<f32>) -> Self {
self.psyche = Psyche { aggro: 1.0 };
self.rtsim_controller = RtSimController::with_destination(pos);
self.behavior.allow(BehaviorCapability::SPEAK);
self
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}
#[allow(clippy::type_complexity)]
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pub fn with_position_pid_controller(
mut self,
pid: PidController<fn(Vec3<f32>, Vec3<f32>) -> f32, 16>,
) -> Self {
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self.position_pid_controller = Some(pid);
self
}
pub fn new(
patrol_origin: Option<Vec3<f32>>,
body: &Body,
behavior: Behavior,
no_flee: bool,
) -> Self {
Agent {
patrol_origin,
psyche: if no_flee {
Psyche { aggro: 1.0 }
} else {
Psyche::from(body)
},
behavior,
..Default::default()
}
}
}
impl Component for Agent {
type Storage = IdvStorage<Self>;
}
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#[cfg(test)]
mod tests {
use super::{Behavior, BehaviorCapability, BehaviorState};
/// Test to verify that Behavior is working correctly at its most basic
/// usages
#[test]
pub fn behavior_basic() {
let mut b = Behavior::default();
// test capabilities
assert!(!b.can(BehaviorCapability::SPEAK));
b.allow(BehaviorCapability::SPEAK);
assert!(b.can(BehaviorCapability::SPEAK));
b.deny(BehaviorCapability::SPEAK);
assert!(!b.can(BehaviorCapability::SPEAK));
// test states
assert!(!b.is(BehaviorState::TRADING));
b.set(BehaviorState::TRADING);
assert!(b.is(BehaviorState::TRADING));
b.unset(BehaviorState::TRADING);
assert!(!b.is(BehaviorState::TRADING));
// test `from`
let b = Behavior::from(BehaviorCapability::SPEAK);
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assert!(b.can(BehaviorCapability::SPEAK));
}
}
/// PID controllers are used for automatically adapting nonlinear controls (like
/// buoyancy for airships) to target specific outcomes (i.e. a specific height)
#[derive(Clone)]
pub struct PidController<F: Fn(Vec3<f32>, Vec3<f32>) -> f32, const NUM_SAMPLES: usize> {
/// The coefficient of the proportional term
pub kp: f32,
/// The coefficient of the integral term
pub ki: f32,
/// The coefficient of the derivative term
pub kd: f32,
/// The setpoint that the process has as its goal
pub sp: Vec3<f32>,
/// A ring buffer of the last NUM_SAMPLES measured process variables
pv_samples: [(f64, Vec3<f32>); NUM_SAMPLES],
/// The index into the ring buffer of process variables
pv_idx: usize,
/// The total integral error
integral_error: f64,
/// The error function, to change how the difference between the setpoint
/// and process variables are calculated
e: F,
}
impl<F: Fn(Vec3<f32>, Vec3<f32>) -> f32, const NUM_SAMPLES: usize> fmt::Debug
for PidController<F, NUM_SAMPLES>
{
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.debug_struct("PidController")
.field("kp", &self.kp)
.field("ki", &self.ki)
.field("kd", &self.kd)
.field("sp", &self.sp)
.field("pv_samples", &self.pv_samples)
.field("pv_idx", &self.pv_idx)
.finish()
}
}
impl<F: Fn(Vec3<f32>, Vec3<f32>) -> f32, const NUM_SAMPLES: usize> PidController<F, NUM_SAMPLES> {
/// Constructs a PidController with the specified weights, setpoint,
/// starting time, and error function
pub fn new(kp: f32, ki: f32, kd: f32, sp: Vec3<f32>, time: f64, e: F) -> Self {
Self {
kp,
ki,
kd,
sp,
pv_samples: [(time, sp); NUM_SAMPLES],
pv_idx: 0,
integral_error: 0.0,
e,
}
}
/// Adds a measurement of the process variable to the ringbuffer
pub fn add_measurement(&mut self, time: f64, pv: Vec3<f32>) {
self.pv_idx += 1;
self.pv_idx %= NUM_SAMPLES;
self.pv_samples[self.pv_idx] = (time, pv);
self.update_integral_err();
}
/// The amount to set the control variable to is a weighed sum of the
/// proportional error, the integral error, and the derivative error.
/// https://en.wikipedia.org/wiki/PID_controller#Mathematical_form
pub fn calc_err(&self) -> f32 {
self.kp * self.proportional_err()
+ self.ki * self.integral_err()
+ self.kd * self.derivative_err()
}
/// The proportional error is the error function applied to the set point
/// and the most recent process variable measurement
pub fn proportional_err(&self) -> f32 { (self.e)(self.sp, self.pv_samples[self.pv_idx].1) }
/// The integral error is the error function integrated over all previous
/// values, updated per point. The trapezoid rule for numerical integration
/// was chosen because it's fairly easy to calculate and sufficiently
/// accurate. https://en.wikipedia.org/wiki/Trapezoidal_rule#Uniform_grid
pub fn integral_err(&self) -> f32 { self.integral_error as f32 }
fn update_integral_err(&mut self) {
let f = |x| (self.e)(self.sp, x) as f64;
let (a, x0) = self.pv_samples[(self.pv_idx + NUM_SAMPLES - 1) % NUM_SAMPLES];
let (b, x1) = self.pv_samples[self.pv_idx];
let dx = b - a;
// Discard updates with too long between them, likely caused by either
// initialization or latency, since they're likely to be spurious
if dx < 5.0 {
self.integral_error += dx * (f(x1) + f(x0)) / 2.0;
}
}
/// The derivative error is the numerical derivative of the error function
/// based on the most recent 2 samples. Using more than 2 samples might
/// improve the accuracy of the estimate of the derivative, but it would be
/// an estimate of the derivative error further in the past.
/// https://en.wikipedia.org/wiki/Numerical_differentiation#Finite_differences
pub fn derivative_err(&self) -> f32 {
let f = |x| (self.e)(self.sp, x);
let (a, x0) = self.pv_samples[(self.pv_idx + NUM_SAMPLES - 1) % NUM_SAMPLES];
let (b, x1) = self.pv_samples[self.pv_idx];
let h = b - a;
(f(x1) - f(x0)) / h as f32
}
}
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/// Get the PID coefficients associated with some Body, since it will likely
/// need to be tuned differently for each body type
pub fn pid_coefficients(body: &Body) -> (f32, f32, f32) {
match body {
Body::Ship(ship::Body::DefaultAirship) => {
let kp = 1.0;
let ki = 0.1;
let kd = 1.2;
(kp, ki, kd)
},
Body::Ship(ship::Body::AirBalloon) => {
let kp = 1.0;
let ki = 0.1;
let kd = 0.8;
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(kp, ki, kd)
},
// default to a pure-proportional controller, which is the first step when tuning
_ => (1.0, 0.0, 0.0),
}
}