outfly/src/commands.rs

// This plugin loads "defs.txt" and applies the therein contained commands
extern crate regex;
use bevy::prelude::*;
use bevy_xpbd_3d::prelude::*;
use crate::{actor, nature, world};
use regex::Regex;
use std::f32::consts::PI;

pub struct CommandsPlugin;
impl Plugin for CommandsPlugin {
    fn build(&self, app: &mut App) {
        app.add_systems(Startup, load_defs);
        app.add_systems(Update, spawn_entities);
        app.add_event::<SpawnEvent>();
    }
}

#[derive(Event)] pub struct SpawnEvent(ParserState);
#[derive(PartialEq, Clone)]
enum DefClass {
    Actor,
    Chat,
    None,
}

#[derive(Clone)]
struct ParserState {
    class: DefClass,

    // Generic fields
    name: String,
    chat: String,

    // Actor fields
    id: String,
    pos: Vec3,
    model: String,
    model_scale: f32,
    rotation: Quat,
    angular_momentum: Vec3,
    pronoun: String,
    is_sphere: bool,
    is_player: bool,
    is_lifeform: bool,
    is_alive: bool,
    is_suited: bool,
    is_vehicle: bool,
    has_physics: bool,
    collider_is_mesh: bool,
    thrust_forward: f32,
    thrust_sideways: f32,
    thrust_back: f32,
    reaction_wheels: f32,
    warmup_seconds: f32,
    engine_type: actor::EngineType,
    oxygen: f32,
    mass: f32,
    collider: Collider,
    camdistance: f32,
    suit_integrity: f32,
    light_brightness: f32,
    light_color: Option<Color>,

    // Chat fields
    delay: f64,
    text: String,
    level: String,
    label: String,
    goto: String,
    is_choice: bool,
    stores_item: bool,
    script: String,
    script_parameter: String,
    script_parameter2: String,
}
impl Default for ParserState {
    fn default() -> Self {
        let default_actor = actor::Actor::default();
        let default_engine = actor::Engine::default();
        Self {
            class: DefClass::None,
            name: "NONAME".to_string(),
            chat: "".to_string(),

            id: "".to_string(),
            pos: Vec3::new(0.0, 0.0, 0.0),
            model: "".to_string(),
            model_scale: 1.0,
            rotation: Quat::IDENTITY,
            angular_momentum: Vec3::new(0.03, 0.3, 0.09),
            pronoun: "they/them".to_string(),
            is_sphere: false,
            is_player: false,
            is_lifeform: false,
            is_alive: false,
            is_suited: false,
            is_vehicle: false,
            has_physics: true,
            collider_is_mesh: false,
            thrust_forward: default_engine.thrust_forward,
            thrust_sideways: default_engine.thrust_forward,
            thrust_back: default_engine.thrust_back,
            reaction_wheels: default_engine.reaction_wheels,
            warmup_seconds: default_engine.warmup_seconds,
            engine_type: default_engine.engine_type,
            oxygen: nature::OXY_D,
            mass: 1.0,
            collider: Collider::sphere(1.0),
            camdistance: default_actor.camdistance,
            suit_integrity: 1.0,
            light_brightness: 0.0,
            light_color: None,

            delay: 0.0,
            text: "".to_string(),
            level: "chat".to_string(),
            label: "".to_string(),
            goto: "".to_string(),
            is_choice: false,
            stores_item: false,
            script: "".to_string(),
            script_parameter: "".to_string(),
            script_parameter2: "".to_string(),
        }
    }
}
impl ParserState {
    fn reset_message(&mut self) {
        let default = ParserState::default();
        self.label = default.label;
        self.delay = default.delay;
        self.goto = default.goto;
        self.level = default.level;
        self.text = default.text;
        self.is_choice = default.is_choice;
    }
    fn as_chatbranch(&self) -> actor::ChatBranch {
        return actor::ChatBranch {
            id: self.chat.clone(),
            name: self.name.clone(),
            label: self.label.clone(),
            delay: self.delay.clone(),
            sound: if self.is_choice { "".to_string() } else { "chat".to_string() },
            level: self.level.clone(),
            reply: if self.is_choice { "".to_string() } else { self.text.clone() },
            choice: if self.is_choice { self.text.clone() } else { "".to_string() },
            goto: self.goto.clone(),
            script: self.script.clone(),
            script_parameter: self.script_parameter.clone(),
            script_parameter2: self.script_parameter2.clone(),
        }
    }
}

pub fn load_defs(
    mut ew_spawn: EventWriter<SpawnEvent>,
) {
    let re1 = Regex::new(r"^\s*([a-z_-]+)\s+(.*)$").unwrap();
    let re2 = Regex::new("\"([^\"]*)\"|(-?[0-9]+(?:\\.[0-9]+)?)|([a-zA-Z_-][a-zA-Z0-9_-]*)").unwrap();
    let defs_string = include_str!("defs.txt");
    let mut lines = defs_string.lines();
    let mut state = ParserState::default();
    let mut command;
    let mut parameters;

    let mut line_nr = -1;
    while let Some(line) = lines.next() {
        line_nr += 1;
        let caps = re1.captures(line);
        if caps.is_none() {
            if line.trim() != "" {
                error!("Syntax Error in definitions line {}: `{}`", line_nr, line);
            }
            continue;
        }
        if let Some(caps) = caps {
            command = caps.get(1).unwrap().as_str();
            parameters = caps.get(2).unwrap().as_str();
        }
        else {
            error!("Failed to read regex captures in line {}: `{}`", line_nr, line);
            continue;
        }

        let mut parts: Vec<&str> = Vec::new();
        parts.push(command);
        for caps in re2.captures_iter(parameters) {
            if let Some(part) = caps.get(1) {
                parts.push(&part.as_str());
            }
            if let Some(part) = caps.get(2) {
                parts.push(&part.as_str());
            }
            if let Some(part) = caps.get(3) {
                parts.push(&part.as_str());
            }
        }

        match parts.as_slice() {
            // Parsing actors
            ["actor", x, y, z, model] => {
                ew_spawn.send(SpawnEvent(state));
                state = ParserState::default();
                state.class = DefClass::Actor;
                state.model = model.to_string();
                if let (Ok(x_float), Ok(y_float), Ok(z_float)) =
                        (x.parse::<f32>(), y.parse::<f32>(), z.parse::<f32>()) {
                    state.pos = Vec3::new(x_float, y_float, z_float);
                }
                else {
                    error!("Can't parse coordinates as floats in def: {line}");
                    state = ParserState::default();
                    continue;
                }
            }
            ["sphere", "yes"] => {
                state.is_sphere = true;
            }
            ["id", id] => {
                state.id = id.to_string();
            }
            ["alive", "yes"] => {
                state.is_alive = true;
                state.is_lifeform = true;
                state.is_suited = true;
            }
            ["vehicle", "yes"] => {
                state.is_vehicle = true;
            }
            ["moon", "yes"] => {
                state.model_scale *= 3.0;
            }
            ["oxygen", amount] => {
                if let Ok(amount) = amount.parse::<f32>() {
                    state.is_lifeform = true;
                    state.is_suited = true;
                    state.oxygen = amount;
                }
                else {
                    error!("Can't parse float: {line}");
                    continue;
                }
            }
            ["pronoun", pronoun] => {
                state.pronoun = pronoun.to_string();
            }
            ["chatid", chat] => {
                state.chat = chat.to_string();
            }
            ["scale", scale] => {
                if let Ok(scale_float) = scale.parse::<f32>() {
                    state.model_scale = scale_float;
                }
                else {
                    error!("Can't parse float: {line}");
                    continue;
                }
            }
            ["rotationx", rotation_x] => {
                if let Ok(rotation_x_float) = rotation_x.parse::<f32>() {
                    state.rotation *= Quat::from_rotation_x(PI * rotation_x_float);
                }
                else {
                    error!("Can't parse float: {line}");
                    continue;
                }
            }
            ["rotationy", rotation_y] => {
                if let Ok(rotation_y_float) = rotation_y.parse::<f32>() {
                    state.rotation *= Quat::from_rotation_y(PI * rotation_y_float);
                }
                else {
                    error!("Can't parse float: {line}");
                    continue;
                }
            }
            ["rotationz", rotation_z] => {
                if let Ok(rotation_z_float) = rotation_z.parse::<f32>() {
                    state.rotation *= Quat::from_rotation_z(PI * rotation_z_float);
                }
                else {
                    error!("Can't parse float: {line}");
                    continue;
                }
            }
            ["angularmomentum", x, y, z] => {
                if let (Ok(x_float), Ok(y_float), Ok(z_float)) =
                        (x.parse::<f32>(), y.parse::<f32>(), z.parse::<f32>()) {
                    state.angular_momentum = Vec3::new(x_float, y_float, z_float);
                }
                else {
                    error!("Can't parse float: {line}");
                    continue;
                }
            }
            ["thrust", forward, back, sideways, reaction_wheels, warmup_time] => {
                if let (Ok(forward_float), Ok(back_float), Ok(sideways_float), Ok(reaction_wheels_float), Ok(warmup_time_float)) = (forward.parse::<f32>(), back.parse::<f32>(), sideways.parse::<f32>(), reaction_wheels.parse::<f32>(), warmup_time.parse::<f32>()) {
                    state.thrust_forward = forward_float;
                    state.thrust_back = back_float;
                    state.thrust_sideways = sideways_float;
                    state.reaction_wheels = reaction_wheels_float;
                    state.warmup_seconds = warmup_time_float;
                }
            }
            ["engine", "rocket"] => {
                state.engine_type = actor::EngineType::Rocket;
            }
            ["engine", "ion"] => {
                state.engine_type = actor::EngineType::Ion;
            }
            ["engine", "monopropellant"] => {
                state.engine_type = actor::EngineType::Monopropellant;
            }
            ["health", value] => {
                if let Ok(value_float) = value.parse::<f32>() {
                    state.suit_integrity = value_float;
                }
                else {
                    error!("Can't parse float: {line}");
                    continue;
                }
            }
            ["mass", value] => {
                if let Ok(value_float) = value.parse::<f32>() {
                    state.mass = value_float;
                }
                else {
                    error!("Can't parse float: {line}");
                    continue;
                }
            }
            ["physics", "off"] => {
                state.has_physics = false;
            }
            ["collider", "sphere", radius] => {
                if let Ok(radius_float) = radius.parse::<f32>() {
                    state.collider = Collider::sphere(radius_float);
                }
                else {
                    error!("Can't parse float: {line}");
                    continue;
                }
            }
            ["collider", "capsule", height, radius] => {
                if let (Ok(height_float), Ok(radius_float)) = (height.parse::<f32>(), radius.parse::<f32>()) {
                    state.collider = Collider::capsule(height_float, radius_float);
                }
                else {
                    error!("Can't parse float: {line}");
                    continue;
                }
            }
            ["collider", "mesh"] => {
                state.collider_is_mesh = true;
            }
            ["player", "yes"] => {
                state.is_player = true;
                state.is_alive = true;
            }
            ["camdistance", value] => {
                if let Ok(value_float) = value.parse::<f32>() {
                    state.camdistance = value_float;
                }
                else {
                    error!("Can't parse float: {line}");
                    continue;
                }
            }
            ["light", color_hex, brightness] => {
                if let Ok(brightness_float) = brightness.parse::<f32>() {
                    if let Ok(color) = Color::hex(color_hex) {
                        state.light_color = Some(color);
                        state.light_brightness = brightness_float;
                    }
                    else {
                        error!("Can't parse hexadecimal color code: {line}");
                        continue;
                    }
                }
                else {
                    error!("Can't parse float: {line}");
                    continue;
                }
            }

            // Parsing chats
            ["chat", chat_name] => {
                debug!("Registering chat: {}", chat_name);
                ew_spawn.send(SpawnEvent(state));
                state = ParserState::default();
                state.class = DefClass::Chat;
                state.chat = chat_name.to_string();
            }
            ["name", name] => {
                debug!("Registering name: {}", name);
                state.name = name.to_string();
            }
            ["msg", sleep, text] => {
                debug!("Registering message (sleep={}): {}", sleep, text);
                ew_spawn.send(SpawnEvent(state.clone()));
                if let Ok(sleep_float) = sleep.parse::<f64>() {
                    state.delay = sleep_float;
                    state.text = text.to_string();
                    state.stores_item = true;
                    state.is_choice = false;
                } else {
                    error!("The 'sleep' value for this message is not a float: {}", line);
                    continue;
                }
            }
            ["msg", sleep, label, goto, text] => {
                debug!("Registering message (sleep={}): {}", sleep, text);
                ew_spawn.send(SpawnEvent(state.clone()));
                state.reset_message();
                if let Ok(sleep_float) = sleep.parse::<f64>() {
                    state.delay = sleep_float;
                    state.text = text.to_string();
                    state.stores_item = true;
                    state.is_choice = false;
                    state.goto = goto.to_string();
                    state.label = label.to_string();
                } else {
                    error!("The 'sleep' value for this message is not a float: {}", line);
                    continue;
                }
            }
            ["choice", sleep, text] => {
                debug!("Registering choice (sleep={}): {}", sleep, text);
                ew_spawn.send(SpawnEvent(state.clone()));
                state.reset_message();
                if let Ok(sleep_float) = sleep.parse::<f64>() {
                    state.delay = sleep_float;
                    state.text = text.to_string();
                    state.stores_item = true;
                    state.is_choice = true;
                } else {
                    error!("The 'sleep' value for this message is not a float: {}", line);
                    continue;
                }
            }
            ["choice", sleep, label, goto, text] => {
                debug!("Registering choice (sleep={}): {}", sleep, text);
                ew_spawn.send(SpawnEvent(state.clone()));
                state.reset_message();
                if let Ok(sleep_float) = sleep.parse::<f64>() {
                    state.delay = sleep_float;
                    state.text = text.to_string();
                    state.stores_item = true;
                    state.is_choice = true;
                    state.goto = goto.to_string();
                    state.label = label.to_string();
                } else {
                    error!("The 'sleep' value for this message is not a float: {}", line);
                    continue;
                }
            }
            ["goto", label] => {
                debug!("Registering goto: {}", label);
                state.goto = label.to_string();
            }
            ["label", label] => {
                debug!("Registering label: {}", label);
                state.label = label.to_string();
            }
            ["lvl", level] => {
                debug!("Registering level: {}", level);
                state.level = level.to_string();
            }
            ["script", scriptname, parameter] => {
                state.script = scriptname.to_string();
                state.script_parameter = parameter.to_string();
                state.script_parameter2 = "".to_string();
            }
            ["script", scriptname, parameter, parameter2] => {
                state.script = scriptname.to_string();
                state.script_parameter = parameter.to_string();
                state.script_parameter2 = parameter2.to_string();
            }
            _ => {
                error!("No match for [{}]", parts.join(","));
            }
        }
    }
    ew_spawn.send(SpawnEvent(state));
}

fn spawn_entities(
    mut er_spawn: EventReader<SpawnEvent>,
    mut commands: Commands,
    asset_server: Res<AssetServer>,
    mut meshes: ResMut<Assets<Mesh>>,
    mut materials: ResMut<Assets<StandardMaterial>>,
) {
    for state_wrapper in er_spawn.read() {
        let state = &state_wrapper.0;
        if state.class == DefClass::Chat {
            if state.stores_item {
                commands.spawn(state.as_chatbranch());
            }
        }
        else if state.class == DefClass::Actor {
            let mut actor = commands.spawn_empty();
            actor.insert(actor::Actor {
                id: state.id.clone(),
                camdistance: state.camdistance,
                ..default()
            });
            if state.is_sphere {
                let sphere_texture_handle: Handle<Image> = asset_server.load(format!("textures/{}.jpg", state.model));
                let sphere_handle = meshes.add(Sphere::default().mesh().uv(128, 128));
                let sphere_material_handle = materials.add(StandardMaterial {
                    base_color_texture: Some(sphere_texture_handle.clone()),
                    perceptual_roughness: 1.0,
                    metallic: 0.0,
                    ..default()
                });
                actor.insert(PbrBundle {
                    mesh: sphere_handle,
                    material: sphere_material_handle,
                    transform: Transform {
                        translation: state.pos,
                        scale: Vec3::splat(state.model_scale),
                        rotation: state.rotation,
                    },
                    ..default()
                });
            } else {
                actor.insert(SceneBundle {
                    transform: Transform {
                        translation: state.pos,
                        scale: Vec3::splat(state.model_scale),
                        rotation: state.rotation,
                    },
                    scene: asset_server.load(world::asset_name_to_path(state.model.as_str())),
                    ..default()
                });
            }

            // Physics Parameters
            if state.has_physics {
                let fix_scale = 1.0 / state.model_scale.powf(3.0);
                actor.insert(RigidBody::Dynamic);
                actor.insert(AngularVelocity(state.angular_momentum));
                actor.insert(ColliderDensity(state.mass * fix_scale));
                if state.collider_is_mesh {
                    actor.insert(AsyncSceneCollider::new(Some(
                        ComputedCollider::TriMesh
                        //ComputedCollider::ConvexDecomposition(VHACDParameters::default())
                    )));
                }
                else {
                    actor.insert(state.collider.clone());
                }
            }
            // TODO: angular velocity for objects without collisions, static objects

            // Optional Components
            if state.is_player {
                actor.insert(actor::Player);
                actor.insert(actor::PlayerCamera);
            }
            if state.is_player || state.is_vehicle {
                // used to apply mouse movement to actor rotation
                actor.insert(ExternalTorque::ZERO.with_persistence(false));
            }
            if state.is_lifeform {
                actor.insert(actor::LifeForm::default());
                actor.insert(actor::Suit {
                    oxygen: state.oxygen,
                    oxygen_max: nature::OXY_D,
                    integrity: state.suit_integrity,
                    ..default()
                });
            }
            if let Some(color) = state.light_color {
                actor.insert(PointLightBundle {
                    point_light: PointLight {
                        intensity: state.light_brightness,
                        color: color,
                        range: 100.0,
                        radius: 100.0,
                        ..default()
                    },
                    transform: Transform {
                        translation: state.pos,
                        scale: Vec3::splat(state.model_scale),
                        rotation: state.rotation,
                    },
                    ..default()
                });
            }
            if !state.chat.is_empty() {
                actor.insert(actor::Talker {
                    conv_id: state.chat.clone(),
                    ..default()
                });
            }
            if state.is_vehicle {
                actor.insert(actor::Vehicle::default());
            }
            if state.is_vehicle || state.is_suited {
                actor.insert(actor::Engine {
                    thrust_forward: state.thrust_forward,
                    thrust_back: state.thrust_back,
                    thrust_sideways: state.thrust_sideways,
                    reaction_wheels: state.reaction_wheels,
                    warmup_seconds: state.warmup_seconds,
                    engine_type: state.engine_type,
                    ..default()
                });
            }
        }
    }
}
split off command parser into commands.rs 2024-03-31 20:00:34 +00:00			`// This plugin loads "defs.txt" and applies the therein contained commands`
			`extern crate regex;`
			`use bevy::prelude::*;`
			`use bevy_xpbd_3d::prelude::*;`
			`use crate::{actor, nature, world};`
			`use regex::Regex;`
			`use std::f32::consts::PI;`

			`pub struct CommandsPlugin;`
			`impl Plugin for CommandsPlugin {`
			`fn build(&self, app: &mut App) {`
			`app.add_systems(Startup, load_defs);`
			`app.add_systems(Update, spawn_entities);`
			`app.add_event::<SpawnEvent>();`
			`}`
			`}`

			`#[derive(Event)] pub struct SpawnEvent(ParserState);`
			`#[derive(PartialEq, Clone)]`
			`enum DefClass {`
			`Actor,`
			`Chat,`
			`None,`
			`}`

			`#[derive(Clone)]`
			`struct ParserState {`
			`class: DefClass,`

			`// Generic fields`
			`name: String,`
			`chat: String,`

			`// Actor fields`
			`id: String,`
			`pos: Vec3,`
			`model: String,`
			`model_scale: f32,`
			`rotation: Quat,`
			`angular_momentum: Vec3,`
			`pronoun: String,`
			`is_sphere: bool,`
			`is_player: bool,`
			`is_lifeform: bool,`
			`is_alive: bool,`
			`is_suited: bool,`
			`is_vehicle: bool,`
			`has_physics: bool,`
			`collider_is_mesh: bool,`
			`thrust_forward: f32,`
			`thrust_sideways: f32,`
			`thrust_back: f32,`
			`reaction_wheels: f32,`
			`warmup_seconds: f32,`
			`engine_type: actor::EngineType,`
			`oxygen: f32,`
			`mass: f32,`
			`collider: Collider,`
			`camdistance: f32,`
			`suit_integrity: f32,`
			`light_brightness: f32,`
			`light_color: Option<Color>,`

			`// Chat fields`
			`delay: f64,`
			`text: String,`
			`level: String,`
			`label: String,`
			`goto: String,`
			`is_choice: bool,`
			`stores_item: bool,`
			`script: String,`
			`script_parameter: String,`
			`script_parameter2: String,`
			`}`
			`impl Default for ParserState {`
			`fn default() -> Self {`
			`let default_actor = actor::Actor::default();`
			`let default_engine = actor::Engine::default();`
			`Self {`
			`class: DefClass::None,`
			`name: "NONAME".to_string(),`
			`chat: "".to_string(),`

			`id: "".to_string(),`
			`pos: Vec3::new(0.0, 0.0, 0.0),`
			`model: "".to_string(),`
			`model_scale: 1.0,`
			`rotation: Quat::IDENTITY,`
			`angular_momentum: Vec3::new(0.03, 0.3, 0.09),`
			`pronoun: "they/them".to_string(),`
			`is_sphere: false,`
			`is_player: false,`
			`is_lifeform: false,`
			`is_alive: false,`
			`is_suited: false,`
			`is_vehicle: false,`
			`has_physics: true,`
			`collider_is_mesh: false,`
			`thrust_forward: default_engine.thrust_forward,`
			`thrust_sideways: default_engine.thrust_forward,`
			`thrust_back: default_engine.thrust_back,`
			`reaction_wheels: default_engine.reaction_wheels,`
			`warmup_seconds: default_engine.warmup_seconds,`
			`engine_type: default_engine.engine_type,`
			`oxygen: nature::OXY_D,`
			`mass: 1.0,`
			`collider: Collider::sphere(1.0),`
			`camdistance: default_actor.camdistance,`
			`suit_integrity: 1.0,`
			`light_brightness: 0.0,`
			`light_color: None,`

			`delay: 0.0,`
			`text: "".to_string(),`
			`level: "chat".to_string(),`
			`label: "".to_string(),`
			`goto: "".to_string(),`
			`is_choice: false,`
			`stores_item: false,`
			`script: "".to_string(),`
			`script_parameter: "".to_string(),`
			`script_parameter2: "".to_string(),`
			`}`
			`}`
			`}`
			`impl ParserState {`
			`fn reset_message(&mut self) {`
			`let default = ParserState::default();`
			`self.label = default.label;`
			`self.delay = default.delay;`
			`self.goto = default.goto;`
			`self.level = default.level;`
			`self.text = default.text;`
			`self.is_choice = default.is_choice;`
			`}`
			`fn as_chatbranch(&self) -> actor::ChatBranch {`
			`return actor::ChatBranch {`
			`id: self.chat.clone(),`
			`name: self.name.clone(),`
			`label: self.label.clone(),`
			`delay: self.delay.clone(),`
			`sound: if self.is_choice { "".to_string() } else { "chat".to_string() },`
			`level: self.level.clone(),`
			`reply: if self.is_choice { "".to_string() } else { self.text.clone() },`
			`choice: if self.is_choice { self.text.clone() } else { "".to_string() },`
			`goto: self.goto.clone(),`
			`script: self.script.clone(),`
			`script_parameter: self.script_parameter.clone(),`
			`script_parameter2: self.script_parameter2.clone(),`
			`}`
			`}`
			`}`

			`pub fn load_defs(`
			`mut ew_spawn: EventWriter<SpawnEvent>,`
			`) {`
			`let re1 = Regex::new(r"^\s([a-z_-]+)\s+(.)$").unwrap();`
			`let re2 = Regex::new("\"([^\"])\"\|(-?[0-9]+(?:\\.[0-9]+)?)\|([a-zA-Z_-][a-zA-Z0-9_-])").unwrap();`
			`let defs_string = include_str!("defs.txt");`
			`let mut lines = defs_string.lines();`
			`let mut state = ParserState::default();`
			`let mut command;`
			`let mut parameters;`

			`let mut line_nr = -1;`
			`while let Some(line) = lines.next() {`
			`line_nr += 1;`
			`let caps = re1.captures(line);`
			`if caps.is_none() {`
			`if line.trim() != "" {`
			error!("Syntax Error in definitions line {}: `{}`", line_nr, line);
			`}`
			`continue;`
			`}`
			`if let Some(caps) = caps {`
			`command = caps.get(1).unwrap().as_str();`
			`parameters = caps.get(2).unwrap().as_str();`
			`}`
			`else {`
			error!("Failed to read regex captures in line {}: `{}`", line_nr, line);
			`continue;`
			`}`

			`let mut parts: Vec<&str> = Vec::new();`
			`parts.push(command);`
			`for caps in re2.captures_iter(parameters) {`
			`if let Some(part) = caps.get(1) {`
			`parts.push(&part.as_str());`
			`}`
			`if let Some(part) = caps.get(2) {`
			`parts.push(&part.as_str());`
			`}`
			`if let Some(part) = caps.get(3) {`
			`parts.push(&part.as_str());`
			`}`
			`}`

			`match parts.as_slice() {`
			`// Parsing actors`
			`["actor", x, y, z, model] => {`
			`ew_spawn.send(SpawnEvent(state));`
			`state = ParserState::default();`
			`state.class = DefClass::Actor;`
			`state.model = model.to_string();`
			`if let (Ok(x_float), Ok(y_float), Ok(z_float)) =`
			`(x.parse::<f32>(), y.parse::<f32>(), z.parse::<f32>()) {`
			`state.pos = Vec3::new(x_float, y_float, z_float);`
			`}`
			`else {`
			`error!("Can't parse coordinates as floats in def: {line}");`
			`state = ParserState::default();`
			`continue;`
			`}`
			`}`
			`["sphere", "yes"] => {`
			`state.is_sphere = true;`
			`}`
			`["id", id] => {`
			`state.id = id.to_string();`
			`}`
			`["alive", "yes"] => {`
			`state.is_alive = true;`
			`state.is_lifeform = true;`
			`state.is_suited = true;`
			`}`
			`["vehicle", "yes"] => {`
			`state.is_vehicle = true;`
			`}`
triple moon size, for now, to see them better 2024-04-01 02:47:26 +00:00			`["moon", "yes"] => {`
			`state.model_scale *= 3.0;`
			`}`
split off command parser into commands.rs 2024-03-31 20:00:34 +00:00			`["oxygen", amount] => {`
			`if let Ok(amount) = amount.parse::<f32>() {`
			`state.is_lifeform = true;`
			`state.is_suited = true;`
			`state.oxygen = amount;`
			`}`
			`else {`
			`error!("Can't parse float: {line}");`
			`continue;`
			`}`
			`}`
			`["pronoun", pronoun] => {`
			`state.pronoun = pronoun.to_string();`
			`}`
			`["chatid", chat] => {`
			`state.chat = chat.to_string();`
			`}`
			`["scale", scale] => {`
			`if let Ok(scale_float) = scale.parse::<f32>() {`
			`state.model_scale = scale_float;`
			`}`
			`else {`
			`error!("Can't parse float: {line}");`
			`continue;`
			`}`
			`}`
			`["rotationx", rotation_x] => {`
			`if let Ok(rotation_x_float) = rotation_x.parse::<f32>() {`
			`state.rotation = Quat::from_rotation_x(PI rotation_x_float);`
			`}`
			`else {`
			`error!("Can't parse float: {line}");`
			`continue;`
			`}`
			`}`
			`["rotationy", rotation_y] => {`
			`if let Ok(rotation_y_float) = rotation_y.parse::<f32>() {`
			`state.rotation = Quat::from_rotation_y(PI rotation_y_float);`
			`}`
			`else {`
			`error!("Can't parse float: {line}");`
			`continue;`
			`}`
			`}`
			`["rotationz", rotation_z] => {`
			`if let Ok(rotation_z_float) = rotation_z.parse::<f32>() {`
			`state.rotation = Quat::from_rotation_z(PI rotation_z_float);`
			`}`
			`else {`
			`error!("Can't parse float: {line}");`
			`continue;`
			`}`
			`}`
			`["angularmomentum", x, y, z] => {`
			`if let (Ok(x_float), Ok(y_float), Ok(z_float)) =`
			`(x.parse::<f32>(), y.parse::<f32>(), z.parse::<f32>()) {`
			`state.angular_momentum = Vec3::new(x_float, y_float, z_float);`
			`}`
			`else {`
			`error!("Can't parse float: {line}");`
			`continue;`
			`}`
			`}`
			`["thrust", forward, back, sideways, reaction_wheels, warmup_time] => {`
			`if let (Ok(forward_float), Ok(back_float), Ok(sideways_float), Ok(reaction_wheels_float), Ok(warmup_time_float)) = (forward.parse::<f32>(), back.parse::<f32>(), sideways.parse::<f32>(), reaction_wheels.parse::<f32>(), warmup_time.parse::<f32>()) {`
			`state.thrust_forward = forward_float;`
			`state.thrust_back = back_float;`
			`state.thrust_sideways = sideways_float;`
			`state.reaction_wheels = reaction_wheels_float;`
			`state.warmup_seconds = warmup_time_float;`
			`}`
			`}`
			`["engine", "rocket"] => {`
			`state.engine_type = actor::EngineType::Rocket;`
			`}`
			`["engine", "ion"] => {`
			`state.engine_type = actor::EngineType::Ion;`
			`}`
			`["engine", "monopropellant"] => {`
			`state.engine_type = actor::EngineType::Monopropellant;`
			`}`
			`["health", value] => {`
			`if let Ok(value_float) = value.parse::<f32>() {`
			`state.suit_integrity = value_float;`
			`}`
			`else {`
			`error!("Can't parse float: {line}");`
			`continue;`
			`}`
			`}`
			`["mass", value] => {`
			`if let Ok(value_float) = value.parse::<f32>() {`
			`state.mass = value_float;`
			`}`
			`else {`
			`error!("Can't parse float: {line}");`
			`continue;`
			`}`
			`}`
			`["physics", "off"] => {`
			`state.has_physics = false;`
			`}`
			`["collider", "sphere", radius] => {`
			`if let Ok(radius_float) = radius.parse::<f32>() {`
			`state.collider = Collider::sphere(radius_float);`
			`}`
			`else {`
			`error!("Can't parse float: {line}");`
			`continue;`
			`}`
			`}`
			`["collider", "capsule", height, radius] => {`
			`if let (Ok(height_float), Ok(radius_float)) = (height.parse::<f32>(), radius.parse::<f32>()) {`
			`state.collider = Collider::capsule(height_float, radius_float);`
			`}`
			`else {`
			`error!("Can't parse float: {line}");`
			`continue;`
			`}`
			`}`
			`["collider", "mesh"] => {`
			`state.collider_is_mesh = true;`
			`}`
			`["player", "yes"] => {`
			`state.is_player = true;`
			`state.is_alive = true;`
			`}`
			`["camdistance", value] => {`
			`if let Ok(value_float) = value.parse::<f32>() {`
			`state.camdistance = value_float;`
			`}`
			`else {`
			`error!("Can't parse float: {line}");`
			`continue;`
			`}`
			`}`
			`["light", color_hex, brightness] => {`
			`if let Ok(brightness_float) = brightness.parse::<f32>() {`
			`if let Ok(color) = Color::hex(color_hex) {`
			`state.light_color = Some(color);`
			`state.light_brightness = brightness_float;`
			`}`
			`else {`
			`error!("Can't parse hexadecimal color code: {line}");`
			`continue;`
			`}`
			`}`
			`else {`
			`error!("Can't parse float: {line}");`
			`continue;`
			`}`
			`}`

			`// Parsing chats`
			`["chat", chat_name] => {`
			`debug!("Registering chat: {}", chat_name);`
			`ew_spawn.send(SpawnEvent(state));`
			`state = ParserState::default();`
			`state.class = DefClass::Chat;`
			`state.chat = chat_name.to_string();`
			`}`
			`["name", name] => {`
			`debug!("Registering name: {}", name);`
			`state.name = name.to_string();`
			`}`
			`["msg", sleep, text] => {`
			`debug!("Registering message (sleep={}): {}", sleep, text);`
			`ew_spawn.send(SpawnEvent(state.clone()));`
			`if let Ok(sleep_float) = sleep.parse::<f64>() {`
			`state.delay = sleep_float;`
			`state.text = text.to_string();`
			`state.stores_item = true;`
			`state.is_choice = false;`
			`} else {`
			`error!("The 'sleep' value for this message is not a float: {}", line);`
			`continue;`
			`}`
			`}`
			`["msg", sleep, label, goto, text] => {`
			`debug!("Registering message (sleep={}): {}", sleep, text);`
			`ew_spawn.send(SpawnEvent(state.clone()));`
			`state.reset_message();`
			`if let Ok(sleep_float) = sleep.parse::<f64>() {`
			`state.delay = sleep_float;`
			`state.text = text.to_string();`
			`state.stores_item = true;`
			`state.is_choice = false;`
			`state.goto = goto.to_string();`
			`state.label = label.to_string();`
			`} else {`
			`error!("The 'sleep' value for this message is not a float: {}", line);`
			`continue;`
			`}`
			`}`
			`["choice", sleep, text] => {`
			`debug!("Registering choice (sleep={}): {}", sleep, text);`
			`ew_spawn.send(SpawnEvent(state.clone()));`
			`state.reset_message();`
			`if let Ok(sleep_float) = sleep.parse::<f64>() {`
			`state.delay = sleep_float;`
			`state.text = text.to_string();`
			`state.stores_item = true;`
			`state.is_choice = true;`
			`} else {`
			`error!("The 'sleep' value for this message is not a float: {}", line);`
			`continue;`
			`}`
			`}`
			`["choice", sleep, label, goto, text] => {`
			`debug!("Registering choice (sleep={}): {}", sleep, text);`
			`ew_spawn.send(SpawnEvent(state.clone()));`
			`state.reset_message();`
			`if let Ok(sleep_float) = sleep.parse::<f64>() {`
			`state.delay = sleep_float;`
			`state.text = text.to_string();`
			`state.stores_item = true;`
			`state.is_choice = true;`
			`state.goto = goto.to_string();`
			`state.label = label.to_string();`
			`} else {`
			`error!("The 'sleep' value for this message is not a float: {}", line);`
			`continue;`
			`}`
			`}`
			`["goto", label] => {`
			`debug!("Registering goto: {}", label);`
			`state.goto = label.to_string();`
			`}`
			`["label", label] => {`
			`debug!("Registering label: {}", label);`
			`state.label = label.to_string();`
			`}`
			`["lvl", level] => {`
			`debug!("Registering level: {}", level);`
			`state.level = level.to_string();`
			`}`
			`["script", scriptname, parameter] => {`
			`state.script = scriptname.to_string();`
			`state.script_parameter = parameter.to_string();`
			`state.script_parameter2 = "".to_string();`
			`}`
			`["script", scriptname, parameter, parameter2] => {`
			`state.script = scriptname.to_string();`
			`state.script_parameter = parameter.to_string();`
			`state.script_parameter2 = parameter2.to_string();`
			`}`
			`_ => {`
			`error!("No match for [{}]", parts.join(","));`
			`}`
			`}`
			`}`
			`ew_spawn.send(SpawnEvent(state));`
			`}`

			`fn spawn_entities(`
			`mut er_spawn: EventReader<SpawnEvent>,`
			`mut commands: Commands,`
			`asset_server: Res<AssetServer>,`
			`mut meshes: ResMut<Assets<Mesh>>,`
			`mut materials: ResMut<Assets<StandardMaterial>>,`
			`) {`
			`for state_wrapper in er_spawn.read() {`
			`let state = &state_wrapper.0;`
			`if state.class == DefClass::Chat {`
			`if state.stores_item {`
			`commands.spawn(state.as_chatbranch());`
			`}`
			`}`
			`else if state.class == DefClass::Actor {`
			`let mut actor = commands.spawn_empty();`
			`actor.insert(actor::Actor {`
			`id: state.id.clone(),`
			`camdistance: state.camdistance,`
			`..default()`
			`});`
			`if state.is_sphere {`
			`let sphere_texture_handle: Handle<Image> = asset_server.load(format!("textures/{}.jpg", state.model));`
			`let sphere_handle = meshes.add(Sphere::default().mesh().uv(128, 128));`
			`let sphere_material_handle = materials.add(StandardMaterial {`
			`base_color_texture: Some(sphere_texture_handle.clone()),`
			`perceptual_roughness: 1.0,`
			`metallic: 0.0,`
			`..default()`
			`});`
			`actor.insert(PbrBundle {`
			`mesh: sphere_handle,`
			`material: sphere_material_handle,`
			`transform: Transform {`
			`translation: state.pos,`
			`scale: Vec3::splat(state.model_scale),`
			`rotation: state.rotation,`
			`},`
			`..default()`
			`});`
			`} else {`
			`actor.insert(SceneBundle {`
			`transform: Transform {`
			`translation: state.pos,`
			`scale: Vec3::splat(state.model_scale),`
			`rotation: state.rotation,`
			`},`
			`scene: asset_server.load(world::asset_name_to_path(state.model.as_str())),`
			`..default()`
			`});`
			`}`

			`// Physics Parameters`
			`if state.has_physics {`
			`let fix_scale = 1.0 / state.model_scale.powf(3.0);`
			`actor.insert(RigidBody::Dynamic);`
			`actor.insert(AngularVelocity(state.angular_momentum));`
			`actor.insert(ColliderDensity(state.mass * fix_scale));`
			`if state.collider_is_mesh {`
			`actor.insert(AsyncSceneCollider::new(Some(`
			`ComputedCollider::TriMesh`
			`//ComputedCollider::ConvexDecomposition(VHACDParameters::default())`
			`)));`
			`}`
			`else {`
			`actor.insert(state.collider.clone());`
			`}`
			`}`
			`// TODO: angular velocity for objects without collisions, static objects`

			`// Optional Components`
			`if state.is_player {`
			`actor.insert(actor::Player);`
			`actor.insert(actor::PlayerCamera);`
			`}`
			`if state.is_player \|\| state.is_vehicle {`
			`// used to apply mouse movement to actor rotation`
			`actor.insert(ExternalTorque::ZERO.with_persistence(false));`
			`}`
			`if state.is_lifeform {`
			`actor.insert(actor::LifeForm::default());`
			`actor.insert(actor::Suit {`
			`oxygen: state.oxygen,`
			`oxygen_max: nature::OXY_D,`
			`integrity: state.suit_integrity,`
			`..default()`
			`});`
			`}`
			`if let Some(color) = state.light_color {`
			`actor.insert(PointLightBundle {`
			`point_light: PointLight {`
			`intensity: state.light_brightness,`
			`color: color,`
			`range: 100.0,`
			`radius: 100.0,`
			`..default()`
			`},`
			`transform: Transform {`
			`translation: state.pos,`
			`scale: Vec3::splat(state.model_scale),`
			`rotation: state.rotation,`
			`},`
			`..default()`
			`});`
			`}`
			`if !state.chat.is_empty() {`
			`actor.insert(actor::Talker {`
			`conv_id: state.chat.clone(),`
			`..default()`
			`});`
			`}`
			`if state.is_vehicle {`
			`actor.insert(actor::Vehicle::default());`
			`}`
			`if state.is_vehicle \|\| state.is_suited {`
			`actor.insert(actor::Engine {`
			`thrust_forward: state.thrust_forward,`
			`thrust_back: state.thrust_back,`
			`thrust_sideways: state.thrust_sideways,`
			`reaction_wheels: state.reaction_wheels,`
			`warmup_seconds: state.warmup_seconds,`
			`engine_type: state.engine_type,`
			`..default()`
			`});`
			`}`
			`}`
			`}`
			`}`