Merge branch 'zesterer/better-char-select-scene' into 'master'

Render render LoD terrain on char select, remove old backdrop figure

See merge request veloren/veloren!4254
This commit is contained in:
Joshua Barretto 2024-01-16 18:51:04 +00:00
commit a852298010
17 changed files with 343 additions and 267 deletions

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@ -77,6 +77,7 @@ and this project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0
- Linearize light colors on the CPU rather than in shaders on the GPU
- You can no longer stack self buffs
- Renamed "Burning Potion" to "Potion of Combustion"
- Render LoD terrain on the character selection screen
### Removed
- Medium and large potions from all loot tables

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@ -151,6 +151,10 @@ float ShadowCalculationPoint(uint lightIndex, vec3 fragToLight, vec3 fragNorm, /
float ShadowCalculationDirected(in vec3 fragPos)//in vec4 /*light_pos[2]*/sun_pos, vec3 fragPos)
{
// Don't try to calculate directed shadows if there are no directed light sources
// Applies, for example, in the char select menu
if (light_shadow_count.z < 1) { return 1.0; }
float bias = 0.000;//0.0005;//-0.0001;// 0.05 / (2.0 * view_distance.x);
float diskRadius = 0.01;
const vec3 sampleOffsetDirections[20] = vec3[]

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@ -245,6 +245,7 @@ pub struct Client {
available_recipes: HashMap<String, Option<SpriteKind>>,
lod_zones: HashMap<Vec2<i32>, lod::Zone>,
lod_last_requested: Option<Instant>,
lod_pos_fallback: Option<Vec2<f32>>,
force_update_counter: u64,
max_group_size: u32,
@ -760,6 +761,7 @@ impl Client {
lod_zones: HashMap::new(),
lod_last_requested: None,
lod_pos_fallback: None,
force_update_counter: 0,
@ -901,7 +903,7 @@ impl Client {
| ClientGeneral::DeleteCharacter(_)
| ClientGeneral::Character(_, _)
| ClientGeneral::Spectate(_) => &mut self.character_screen_stream,
//Only in game
// Only in game
ClientGeneral::ControllerInputs(_)
| ClientGeneral::ControlEvent(_)
| ClientGeneral::ControlAction(_)
@ -922,7 +924,7 @@ impl Client {
}
&mut self.in_game_stream
},
//Only in game, terrain
// Terrain
ClientGeneral::TerrainChunkRequest { .. }
| ClientGeneral::LodZoneRequest { .. } => {
#[cfg(feature = "tracy")]
@ -931,7 +933,7 @@ impl Client {
}
&mut self.terrain_stream
},
//Always possible
// Always possible
ClientGeneral::ChatMsg(_)
| ClientGeneral::Command(_, _)
| ClientGeneral::Terminate => &mut self.general_stream,
@ -1209,6 +1211,10 @@ impl Client {
pub fn lod_zones(&self) -> &HashMap<Vec2<i32>, lod::Zone> { &self.lod_zones }
/// Set the fallback position used for loading LoD zones when the client
/// entity does not have a position.
pub fn set_lod_pos_fallback(&mut self, pos: Vec2<f32>) { self.lod_pos_fallback = Some(pos); }
/// Returns whether the specified recipe can be crafted and the sprite, if
/// any, that is required to do so.
pub fn can_craft_recipe(&self, recipe: &str, amount: u32) -> (bool, Option<SpriteKind>) {
@ -2101,9 +2107,11 @@ impl Client {
let now = Instant::now();
self.pending_chunks
.retain(|_, created| now.duration_since(*created) < Duration::from_secs(3));
}
if let Some(lod_pos) = pos.map(|p| p.0.xy()).or(self.lod_pos_fallback) {
// Manage LoD zones
let lod_zone = pos.0.xy().map(|e| lod::from_wpos(e as i32));
let lod_zone = lod_pos.map(|e| lod::from_wpos(e as i32));
// Request LoD zones that are in range
if self

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@ -129,7 +129,6 @@ impl ClientMsg {
| ClientGeneral::ExitInGame
| ClientGeneral::PlayerPhysics { .. }
| ClientGeneral::TerrainChunkRequest { .. }
| ClientGeneral::LodZoneRequest { .. }
| ClientGeneral::UnlockSkill(_)
| ClientGeneral::RequestSiteInfo(_)
| ClientGeneral::RequestPlayerPhysics { .. }
@ -141,7 +140,9 @@ impl ClientMsg {
//Always possible
ClientGeneral::ChatMsg(_)
| ClientGeneral::Command(_, _)
| ClientGeneral::Terminate => true,
| ClientGeneral::Terminate
// LodZoneRequest is required by the char select screen
| ClientGeneral::LodZoneRequest { .. } => true,
}
},
ClientMsg::Ping(_) => true,

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@ -330,7 +330,6 @@ impl ServerMsg {
| ServerGeneral::InventoryUpdate(_, _)
| ServerGeneral::GroupInventoryUpdate(_, _, _)
| ServerGeneral::TerrainChunkUpdate { .. }
| ServerGeneral::LodZoneUpdate { .. }
| ServerGeneral::TerrainBlockUpdates(_)
| ServerGeneral::SetViewDistance(_)
| ServerGeneral::Outcomes(_)
@ -354,7 +353,8 @@ impl ServerMsg {
| ServerGeneral::CreateEntity(_)
| ServerGeneral::DeleteEntity(_)
| ServerGeneral::Disconnect(_)
| ServerGeneral::Notification(_) => true,
| ServerGeneral::Notification(_)
| ServerGeneral::LodZoneUpdate { .. } => true,
}
},
ServerMsg::Ping(_) => true,

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@ -195,7 +195,7 @@ impl Client {
| ServerGeneral::SpectatePosition(_) => {
PreparedMsg::new(2, &g, &self.in_game_stream_params)
},
//In-game related, terrain
// Terrain
ServerGeneral::TerrainChunkUpdate { .. }
| ServerGeneral::LodZoneUpdate { .. }
| ServerGeneral::TerrainBlockUpdates(_) => {

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@ -61,61 +61,63 @@ impl<'a> System<'a> for Sys {
|(chunk_send_emitter, server_emitter), (entity, client, maybe_presence)| {
let mut chunk_requests = Vec::new();
let _ = super::try_recv_all(client, 5, |client, msg| {
let presence = match maybe_presence {
Some(g) => g,
None => {
debug!(?entity, "client is not in_game, ignoring msg");
trace!(?msg, "ignored msg content");
if matches!(msg, ClientGeneral::TerrainChunkRequest { .. }) {
network_metrics.chunks_request_dropped.inc();
}
return Ok(());
},
};
match msg {
ClientGeneral::TerrainChunkRequest { key } => {
let in_vd = if let Some(pos) = positions.get(entity) {
pos.0.xy().map(|e| e as f64).distance_squared(
key.map(|e| e as f64 + 0.5)
* TerrainChunkSize::RECT_SIZE.map(|e| e as f64),
) < ((presence.terrain_view_distance.current() as f64 - 1.0
+ 2.5 * 2.0_f64.sqrt())
* TerrainChunkSize::RECT_SIZE.x as f64)
.powi(2)
} else {
true
};
if in_vd {
if terrain.get_key_arc(key).is_some() {
network_metrics.chunks_served_from_memory.inc();
chunk_send_emitter.emit(ChunkSendEntry {
chunk_key: key,
entity,
});
} else {
network_metrics.chunks_generation_triggered.inc();
chunk_requests.push(ChunkRequest { entity, key });
// SPECIAL CASE: LOD zone requests can be sent by non-present players
if let ClientGeneral::LodZoneRequest { key } = &msg {
client.send(ServerGeneral::LodZoneUpdate {
key: *key,
zone: lod.zone(*key).clone(),
})?;
} else {
let presence = match maybe_presence {
Some(g) => g,
None => {
debug!(?entity, "client is not in_game, ignoring msg");
trace!(?msg, "ignored msg content");
if matches!(msg, ClientGeneral::TerrainChunkRequest { .. }) {
network_metrics.chunks_request_dropped.inc();
}
} else {
network_metrics.chunks_request_dropped.inc();
}
},
ClientGeneral::LodZoneRequest { key } => {
client.send(ServerGeneral::LodZoneUpdate {
key,
zone: lod.zone(key).clone(),
})?;
},
_ => {
debug!(
"Kicking possibly misbehaving client due to invalud terrain \
request"
);
server_emitter.emit(ServerEvent::ClientDisconnect(
entity,
common::comp::DisconnectReason::NetworkError,
));
},
return Ok(());
},
};
match msg {
ClientGeneral::TerrainChunkRequest { key } => {
let in_vd = if let Some(pos) = positions.get(entity) {
pos.0.xy().map(|e| e as f64).distance_squared(
key.map(|e| e as f64 + 0.5)
* TerrainChunkSize::RECT_SIZE.map(|e| e as f64),
) < ((presence.terrain_view_distance.current() as f64 - 1.0
+ 2.5 * 2.0_f64.sqrt())
* TerrainChunkSize::RECT_SIZE.x as f64)
.powi(2)
} else {
true
};
if in_vd {
if terrain.get_key_arc(key).is_some() {
network_metrics.chunks_served_from_memory.inc();
chunk_send_emitter.emit(ChunkSendEntry {
chunk_key: key,
entity,
});
} else {
network_metrics.chunks_generation_triggered.inc();
chunk_requests.push(ChunkRequest { entity, key });
}
} else {
network_metrics.chunks_request_dropped.inc();
}
},
_ => {
debug!(
"Kicking possibly misbehaving client due to invalud terrain \
request"
);
server_emitter.emit(ServerEvent::ClientDisconnect(
entity,
common::comp::DisconnectReason::NetworkError,
));
},
}
}
Ok(())
});

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@ -16,7 +16,8 @@
let_chains,
generic_const_exprs,
maybe_uninit_uninit_array,
maybe_uninit_array_assume_init
maybe_uninit_array_assume_init,
closure_lifetime_binder
)]
#![recursion_limit = "2048"]

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@ -26,10 +26,12 @@ pub struct CharSelectionState {
impl CharSelectionState {
/// Create a new `CharSelectionState`.
pub fn new(global_state: &mut GlobalState, client: Rc<RefCell<Client>>) -> Self {
let sprite_render_context = (global_state.lazy_init)(global_state.window.renderer_mut());
let scene = Scene::new(
global_state.window.renderer_mut(),
Some("fixture.selection_bg"),
&client.borrow(),
&mut client.borrow_mut(),
&global_state.settings,
sprite_render_context,
);
let char_selection_ui = CharSelectionUi::new(global_state, &client.borrow());
@ -224,8 +226,12 @@ impl PlayState for CharSelectionState {
as f32,
};
self.scene
.maintain(global_state.window.renderer_mut(), scene_data, loadout);
self.scene.maintain(
global_state.window.renderer_mut(),
scene_data,
loadout,
&client,
);
}
// Tick the client (currently only to keep the connection alive).

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@ -1570,9 +1570,10 @@ pub struct AltIndices {
/// The mode with which culling based on the camera position relative to the
/// terrain is performed.
#[derive(Copy, Clone)]
#[derive(Copy, Clone, Default)]
pub enum CullingMode {
/// We need to render all elements of the given structure
#[default]
None,
/// We only need to render surface and shallow (i.e: in the overlapping
/// region) elements of the structure

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@ -677,6 +677,9 @@ impl Camera {
/// Get the orientation of the camera.
pub fn get_orientation(&self) -> Vec3<f32> { self.ori }
/// Get the orientation that the camera is moving toward.
pub fn get_tgt_orientation(&self) -> Vec3<f32> { self.tgt_ori }
/// Get the field of view of the camera in radians, taking into account
/// fixation.
pub fn get_effective_fov(&self) -> f32 { self.fov * self.fixate }

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@ -13,8 +13,7 @@ use crate::{
},
scene::{
camera::CameraMode,
terrain::{get_sprite_instances, BlocksOfInterest, SPRITE_LOD_LEVELS},
Terrain,
terrain::{get_sprite_instances, BlocksOfInterest, SpriteRenderState, SPRITE_LOD_LEVELS},
},
};
use anim::Skeleton;
@ -632,7 +631,7 @@ where
extra: <Skel::Body as BodySpec>::Extra,
tick: u64,
slow_jobs: &SlowJobPool,
terrain: &Terrain,
sprite_render_state: &SpriteRenderState,
) -> (TerrainModelEntryLod<'c>, &'c Skel::Attr)
where
for<'a> &'a Skel::Body: Into<Skel::Attr>,
@ -695,8 +694,8 @@ where
let key = v.key().clone();
let slot = Arc::new(atomic::AtomicCell::new(None));
let manifests = self.manifests.clone();
let sprite_data = Arc::clone(&terrain.sprite_data);
let sprite_config = Arc::clone(&terrain.sprite_config);
let sprite_data = Arc::clone(&sprite_render_state.sprite_data);
let sprite_config = Arc::clone(&sprite_render_state.sprite_config);
let slot_ = Arc::clone(&slot);
slow_jobs.spawn("FIGURE_MESHING", move || {

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@ -6288,7 +6288,7 @@ impl FigureMgr {
Arc::clone(vol),
tick,
&slow_jobs,
terrain,
&terrain.sprite_render_state,
);
let state = self
@ -6315,7 +6315,7 @@ impl FigureMgr {
(),
tick,
&slow_jobs,
terrain,
&terrain.sprite_render_state,
)
} else {
// No way to determine model (this is okay, we might just not have received
@ -7535,7 +7535,7 @@ impl FigureStateMeta {
pub struct FigureState<S, D = ()> {
meta: FigureStateMeta,
skeleton: S,
extra: D,
pub extra: D,
}
impl<S, D> Deref for FigureState<S, D> {

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@ -1430,7 +1430,7 @@ impl Scene {
// Draws sprites
let mut sprite_drawer = first_pass.draw_sprites(
&self.terrain.sprite_globals,
&self.terrain.sprite_atlas_textures,
&self.terrain.sprite_render_state.sprite_atlas_textures,
);
self.figure_mgr.render_sprites(
&mut sprite_drawer,

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@ -1,35 +1,30 @@
use crate::{
mesh::{greedy::GreedyMesh, segment::generate_mesh_base_vol_figure},
render::{
create_skybox_mesh, pipelines::FigureSpriteAtlasData, BoneMeshes, Consts, FigureModel,
FirstPassDrawer, GlobalModel, Globals, GlobalsBindGroup, Light, LodData, Mesh, Model,
create_skybox_mesh, pipelines::terrain::BoundLocals as BoundTerrainLocals, AltIndices,
Consts, FirstPassDrawer, GlobalModel, Globals, GlobalsBindGroup, Light, Model,
PointLightMatrix, RainOcclusionLocals, Renderer, Shadow, ShadowLocals, SkyboxVertex,
TerrainVertex,
SpriteGlobalsBindGroup,
},
scene::{
camera::{self, Camera, CameraMode},
figure::{
load_mesh, FigureAtlas, FigureModelCache, FigureModelEntry, FigureState,
FigureUpdateCommonParameters,
},
figure::{FigureAtlas, FigureModelCache, FigureState, FigureUpdateCommonParameters},
terrain::{SpriteRenderContext, SpriteRenderState},
CloudsLocals, CullingMode, Lod, PostProcessLocals,
},
window::{Event, PressState},
Settings,
};
use anim::{
character::{CharacterSkeleton, IdleAnimation, SkeletonAttr},
fixture::FixtureSkeleton,
Animation,
};
use anim::{character::CharacterSkeleton, ship::ShipSkeleton, Animation};
use client::Client;
use common::{
comp::{
humanoid,
inventory::{slot::EquipSlot, Inventory},
item::ItemKind,
ship,
},
figure::Segment,
slowjob::SlowJobPool,
terrain::BlockKind,
terrain::{BlockKind, CoordinateConversions},
vol::{BaseVol, ReadVol},
};
use vek::*;
@ -46,18 +41,6 @@ impl ReadVol for VoidVol {
fn get(&self, _pos: Vec3<i32>) -> Result<&'_ Self::Vox, Self::Error> { Ok(&()) }
}
fn generate_mesh(
greedy: &mut GreedyMesh<'_, FigureSpriteAtlasData>,
mesh: &mut Mesh<TerrainVertex>,
segment: Segment,
offset: Vec3<f32>,
bone_idx: u8,
) -> BoneMeshes {
let (opaque, _, /* shadow */ _, bounds) =
generate_mesh_base_vol_figure(segment, (greedy, mesh, offset, Vec3::one(), bone_idx));
(opaque /* , shadow */, bounds)
}
struct Skybox {
model: Model<SkyboxVertex>,
}
@ -68,17 +51,22 @@ pub struct Scene {
camera: Camera,
skybox: Skybox,
lod: LodData,
lod: Lod,
map_bounds: Vec2<f32>,
figure_atlas: FigureAtlas,
backdrop: Option<(FigureModelEntry<1>, FigureState<FixtureSkeleton>)>,
figure_model_cache: FigureModelCache,
figure_state: Option<FigureState<CharacterSkeleton>>,
sprite_render_state: SpriteRenderState,
sprite_globals: SpriteGlobalsBindGroup,
//turning_camera: bool,
turning_character: bool,
char_ori: f32,
turning_camera: bool,
char_pos: Vec3<f32>,
char_state: Option<FigureState<CharacterSkeleton>>,
char_model_cache: FigureModelCache<CharacterSkeleton>,
airship_pos: Vec3<f32>,
airship_state: Option<FigureState<ShipSkeleton, BoundTerrainLocals>>,
airship_model_cache: FigureModelCache<ShipSkeleton>,
}
pub struct SceneData<'a> {
@ -95,8 +83,13 @@ pub struct SceneData<'a> {
}
impl Scene {
pub fn new(renderer: &mut Renderer, backdrop: Option<&str>, client: &Client) -> Self {
let start_angle = 90.0f32.to_radians();
pub fn new(
renderer: &mut Renderer,
client: &mut Client,
settings: &Settings,
sprite_render_context: SpriteRenderContext,
) -> Self {
let start_angle = -90.0f32.to_radians();
let resolution = renderer.resolution().map(|e| e as f32);
let map_bounds = Vec2::new(
@ -105,11 +98,10 @@ impl Scene {
);
let mut camera = Camera::new(resolution.x / resolution.y, CameraMode::ThirdPerson);
camera.set_focus_pos(Vec3::unit_z() * 1.5);
camera.set_distance(3.4);
camera.set_orientation(Vec3::new(start_angle, 0.0, 0.0));
camera.set_orientation(Vec3::new(start_angle, 0.1, 0.0));
let mut figure_atlas = FigureAtlas::new(renderer);
let figure_atlas = FigureAtlas::new(renderer);
let data = GlobalModel {
globals: renderer.create_consts(&[Globals::default()]),
@ -120,81 +112,48 @@ impl Scene {
.create_rain_occlusion_bound_locals(&[RainOcclusionLocals::default()]),
point_light_matrices: Box::new([PointLightMatrix::default(); 126]),
};
let lod = LodData::dummy(renderer);
let lod = Lod::new(renderer, client, settings);
let globals_bind_group = renderer.bind_globals(&data, &lod);
let globals_bind_group = renderer.bind_globals(&data, lod.get_data());
let world = client.world_data();
let char_chunk = world.chunk_size().map(|e| e as i32 / 2);
let char_pos = char_chunk.cpos_to_wpos().map(|e| e as f32).with_z(
world
.lod_alt
.get(char_chunk)
.map_or(0.0, |z| *z as f32 + 48.0),
);
client.set_lod_pos_fallback(char_pos.xy());
client.set_lod_distance(settings.graphics.lod_distance);
Self {
data,
globals_bind_group,
skybox: Skybox {
model: renderer.create_model(&create_skybox_mesh()).unwrap(),
},
lod,
map_bounds,
figure_model_cache: FigureModelCache::new(),
figure_state: None,
backdrop: backdrop.map(|specifier| {
let mut state = FigureState::new(renderer, FixtureSkeleton, ());
let mut greedy = FigureModel::make_greedy();
let mut opaque_mesh = Mesh::new();
let (segment, offset) = load_mesh(specifier, Vec3::new(-55.0, -49.5, -2.0));
let (_opaque_mesh, bounds) =
generate_mesh(&mut greedy, &mut opaque_mesh, segment, offset, 0);
// NOTE: Since MagicaVoxel sizes are limited to 256 × 256 × 256, and there are
// at most 3 meshed vertices per unique vertex, we know the
// total size is bounded by 2^24 * 3 * 1.5 which is bounded by
// 2^27, which fits in a u32.
let range = 0..opaque_mesh.vertices().len() as u32;
let (atlas_texture_data, atlas_size) = greedy.finalize();
let model = figure_atlas.create_figure(
renderer,
atlas_texture_data,
atlas_size,
(opaque_mesh, bounds),
[range],
);
let mut buf = [Default::default(); anim::MAX_BONE_COUNT];
let common_params = FigureUpdateCommonParameters {
entity: None,
pos: anim::vek::Vec3::zero(),
ori: anim::vek::Quaternion::rotation_from_to_3d(
anim::vek::Vec3::unit_y(),
anim::vek::Vec3::new(start_angle.sin(), -start_angle.cos(), 0.0),
),
scale: 1.0,
mount_transform_pos: None,
body: None,
tools: (None, None),
col: Rgba::broadcast(1.0),
dt: 15.0, // Want to get there immediately.
_lpindex: 0,
_visible: true,
is_player: false,
_camera: &camera,
terrain: None,
ground_vel: Vec3::zero(),
};
state.update(
renderer,
None,
&mut buf,
&common_params,
1.0,
Some(&model),
(),
);
(model, state)
}),
figure_atlas,
sprite_render_state: sprite_render_context.state,
sprite_globals: renderer.bind_sprite_globals(
&data,
lod.get_data(),
&sprite_render_context.sprite_verts_buffer,
),
lod,
data,
camera,
//turning_camera: false,
turning_character: false,
char_ori: -start_angle,
turning_camera: false,
char_pos,
char_state: None,
char_model_cache: FigureModelCache::new(),
airship_pos: char_pos - Vec3::unit_z() * 10.0,
airship_state: None,
airship_model_cache: FigureModelCache::new(),
}
}
@ -215,20 +174,15 @@ impl Scene {
},
Event::MouseButton(button, state) => {
if state == PressState::Pressed {
//self.turning_camera = button == MouseButton::Right;
self.turning_character = button == MouseButton::Left;
self.turning_camera = button == MouseButton::Left;
} else {
//self.turning_camera = false;
self.turning_character = false;
self.turning_camera = false;
}
true
},
Event::CursorMove(delta) => {
/*if self.turning_camera {
self.camera.rotate_by(Vec3::new(delta.x * 0.01, 0.0, 0.0))
}*/
if self.turning_character {
self.char_ori += delta.x * 0.01;
if self.turning_camera {
self.camera.rotate_by(delta.with_z(0.0) * 0.01);
}
true
},
@ -242,7 +196,13 @@ impl Scene {
renderer: &mut Renderer,
scene_data: SceneData,
inventory: Option<&Inventory>,
client: &Client,
) {
self.camera
.force_focus_pos(self.char_pos + Vec3::unit_z() * 1.5);
let ori = self.camera.get_tgt_orientation();
self.camera
.set_orientation(Vec3::new(ori.x, ori.y.max(-0.25), ori.z));
self.camera.update(
scene_data.time,
/* 1.0 / 60.0 */ scene_data.delta_time,
@ -254,13 +214,18 @@ impl Scene {
view_mat,
proj_mat,
cam_pos,
proj_mat_inv,
view_mat_inv,
..
} = self.camera.dependents();
const VD: f32 = 115.0; // View Distance
const VD: f32 = 0.0; // View Distance
const TIME: f64 = 8.6 * 60.0 * 60.0;
const SHADOW_NEAR: f32 = 1.0;
const SHADOW_FAR: f32 = 25.0;
const SHADOW_NEAR: f32 = 0.25;
const SHADOW_FAR: f32 = 1.0;
self.lod
.maintain(renderer, client, self.camera.get_focus_pos(), &self.camera);
renderer.update_consts(&mut self.data.globals, &[Globals::new(
view_mat,
@ -268,7 +233,7 @@ impl Scene {
cam_pos,
self.camera.get_focus_pos(),
VD,
self.lod.tgt_detail as f32,
self.lod.get_data().tgt_detail as f32,
self.map_bounds,
TIME,
scene_data.time,
@ -288,8 +253,12 @@ impl Scene {
self.camera.get_mode(),
250.0,
)]);
renderer.update_clouds_locals(CloudsLocals::new(proj_mat_inv, view_mat_inv));
renderer.update_postprocess_locals(PostProcessLocals::new(proj_mat_inv, view_mat_inv));
self.figure_model_cache
self.char_model_cache
.clean(&mut self.figure_atlas, scene_data.tick);
self.airship_model_cache
.clean(&mut self.figure_atlas, scene_data.tick);
let item_info = |equip_slot| {
@ -310,12 +279,37 @@ impl Scene {
let hands = (active_tool_hand, second_tool_hand);
fn figure_params(
camera: &Camera,
dt: f32,
pos: Vec3<f32>,
) -> FigureUpdateCommonParameters<'_> {
FigureUpdateCommonParameters {
entity: None,
pos: pos.into(),
ori: anim::vek::Quaternion::identity().rotated_z(std::f32::consts::PI * -0.5),
scale: 1.0,
mount_transform_pos: None,
body: None,
tools: (None, None),
col: Rgba::broadcast(1.0),
dt,
_lpindex: 0,
_visible: true,
is_player: false,
_camera: camera,
terrain: None,
ground_vel: Vec3::zero(),
}
}
if let Some(body) = scene_data.body {
let figure_state = self.figure_state.get_or_insert_with(|| {
let char_state = self.char_state.get_or_insert_with(|| {
FigureState::new(renderer, CharacterSkeleton::default(), body)
});
let tgt_skeleton = IdleAnimation::update_skeleton(
figure_state.skeleton_mut(),
let params = figure_params(&self.camera, scene_data.delta_time, self.char_pos);
let tgt_skeleton = anim::character::IdleAnimation::update_skeleton(
char_state.skeleton_mut(),
(
active_tool_kind,
second_tool_kind,
@ -324,51 +318,74 @@ impl Scene {
),
scene_data.time as f32,
&mut 0.0,
&SkeletonAttr::from(&body),
&anim::character::SkeletonAttr::from(&body),
);
let dt_lerp = (scene_data.delta_time * 15.0).min(1.0);
*figure_state.skeleton_mut() =
Lerp::lerp(&*figure_state.skeleton_mut(), &tgt_skeleton, dt_lerp);
let model = self
.figure_model_cache
.get_or_create_model(
renderer,
&mut self.figure_atlas,
body,
inventory,
(),
scene_data.tick,
CameraMode::default(),
None,
scene_data.slow_job_pool,
None,
)
.0;
let mut buf = [Default::default(); anim::MAX_BONE_COUNT];
let common_params = FigureUpdateCommonParameters {
entity: None,
pos: anim::vek::Vec3::zero(),
ori: anim::vek::Quaternion::rotation_from_to_3d(
anim::vek::Vec3::unit_y(),
anim::vek::Vec3::new(self.char_ori.sin(), -self.char_ori.cos(), 0.0),
),
scale: 1.0,
mount_transform_pos: None,
body: None,
tools: (None, None),
col: Rgba::broadcast(1.0),
dt: scene_data.delta_time,
_lpindex: 0,
_visible: true,
is_player: false,
_camera: &self.camera,
terrain: None,
ground_vel: Vec3::zero(),
};
figure_state.update(renderer, None, &mut buf, &common_params, 1.0, model, body);
*char_state.skeleton_mut() =
Lerp::lerp(&*char_state.skeleton_mut(), &tgt_skeleton, dt_lerp);
let (model, _) = self.char_model_cache.get_or_create_model(
renderer,
&mut self.figure_atlas,
body,
inventory,
(),
scene_data.tick,
CameraMode::default(),
None,
scene_data.slow_job_pool,
None,
);
char_state.update(
renderer,
None,
&mut [Default::default(); anim::MAX_BONE_COUNT],
&params,
1.0,
model,
body,
);
}
let airship_body = ship::Body::DefaultAirship;
let airship_state = self.airship_state.get_or_insert_with(|| {
FigureState::new(renderer, ShipSkeleton::default(), airship_body)
});
let params = figure_params(&self.camera, scene_data.delta_time, self.airship_pos);
let tgt_skeleton = anim::ship::IdleAnimation::update_skeleton(
airship_state.skeleton_mut(),
(
None,
None,
scene_data.time as f32,
scene_data.time as f32,
(params.ori * Vec3::unit_y()).into(),
(params.ori * Vec3::unit_y()).into(),
),
scene_data.time as f32,
&mut 0.0,
&anim::ship::SkeletonAttr::from(&airship_body),
);
let dt_lerp = (scene_data.delta_time * 15.0).min(1.0);
*airship_state.skeleton_mut() =
Lerp::lerp(&*airship_state.skeleton_mut(), &tgt_skeleton, dt_lerp);
let (model, _) = self.airship_model_cache.get_or_create_terrain_model(
renderer,
&mut self.figure_atlas,
airship_body,
(),
scene_data.tick,
scene_data.slow_job_pool,
&self.sprite_render_state,
);
airship_state.update(
renderer,
None,
&mut [Default::default(); anim::MAX_BONE_COUNT],
&params,
1.0,
model,
airship_body,
);
}
pub fn global_bind_group(&self) -> &GlobalsBindGroup { &self.globals_bind_group }
@ -382,7 +399,7 @@ impl Scene {
) {
let mut figure_drawer = drawer.draw_figures();
if let Some(body) = body {
let model = &self.figure_model_cache.get_model(
let model = &self.char_model_cache.get_model(
&self.figure_atlas,
body,
inventory,
@ -392,28 +409,61 @@ impl Scene {
None,
);
if let Some((model, figure_state)) = model.zip(self.figure_state.as_ref()) {
if let Some((model, char_state)) = model.zip(self.char_state.as_ref()) {
if let Some(lod) = model.lod_model(0) {
figure_drawer.draw(
lod,
figure_state.bound(),
char_state.bound(),
self.figure_atlas.texture(ModelEntryRef::Figure(model)),
);
}
}
}
if let Some((model, state)) = &self.backdrop {
let model = &self.airship_model_cache.get_model(
&self.figure_atlas,
ship::Body::DefaultAirship,
Default::default(),
tick,
CameraMode::default(),
None,
None,
);
if let Some((model, airship_state)) = model.zip(self.airship_state.as_ref()) {
if let Some(lod) = model.lod_model(0) {
figure_drawer.draw(
lod,
state.bound(),
self.figure_atlas.texture(ModelEntryRef::Figure(model)),
airship_state.bound(),
self.figure_atlas.texture(ModelEntryRef::Terrain(model)),
);
}
}
drop(figure_drawer);
let mut sprite_drawer = drawer.draw_sprites(
&self.sprite_globals,
&self.sprite_render_state.sprite_atlas_textures,
);
if let (Some(sprite_instances), Some(data)) = (
self.airship_model_cache
.get_sprites(ship::Body::DefaultAirship),
self.airship_state.as_ref().map(|s| &s.extra),
) {
sprite_drawer.draw(
data,
&sprite_instances[0],
&AltIndices {
deep_end: 0,
underground_end: 0,
},
CullingMode::None,
);
}
drop(sprite_drawer);
self.lod.render(drawer, Default::default());
drawer.draw_skybox(&self.skybox.model);
}
}

View File

@ -483,10 +483,6 @@ pub struct Terrain<V: RectRasterableVol = TerrainChunk> {
/// might significantly reduce the number of textures we need for
/// particularly difficult locations.
atlas: AtlasAllocator,
/// FIXME: This could possibly become an `AssetHandle<SpriteSpec>`, to get
/// hot-reloading for free, but I am not sure if sudden changes of this
/// value would break something
pub sprite_config: Arc<SpriteSpec>,
chunks: HashMap<Vec2<i32>, TerrainChunkData>,
/// Temporary storage for dead chunks that might still be shadowing chunks
/// in view. We wait until either the chunk definitely cannot be
@ -516,9 +512,8 @@ pub struct Terrain<V: RectRasterableVol = TerrainChunk> {
// GPU data
// Maps sprite kind + variant to data detailing how to render it
pub sprite_data: Arc<HashMap<(SpriteKind, usize), [SpriteData; SPRITE_LOD_LEVELS]>>,
pub sprite_render_state: SpriteRenderState,
pub sprite_globals: SpriteGlobalsBindGroup,
pub sprite_atlas_textures: Arc<AtlasTextures<pipelines::sprite::Locals, FigureSpriteAtlasData>>,
/// As stated previously, this is always the very latest texture into which
/// we allocate. Code cannot assume that this is the assigned texture
/// for any particular chunk; look at the `texture` field in
@ -533,12 +528,20 @@ impl TerrainChunkData {
}
#[derive(Clone)]
pub struct SpriteRenderContext {
sprite_config: Arc<SpriteSpec>,
pub struct SpriteRenderState {
/// FIXME: This could possibly become an `AssetHandle<SpriteSpec>`, to get
/// hot-reloading for free, but I am not sure if sudden changes of this
/// value would break something
pub sprite_config: Arc<SpriteSpec>,
// Maps sprite kind + variant to data detailing how to render it
sprite_data: Arc<HashMap<(SpriteKind, usize), [SpriteData; SPRITE_LOD_LEVELS]>>,
sprite_atlas_textures: Arc<AtlasTextures<pipelines::sprite::Locals, FigureSpriteAtlasData>>,
sprite_verts_buffer: Arc<SpriteVerts>,
pub sprite_data: Arc<HashMap<(SpriteKind, usize), [SpriteData; SPRITE_LOD_LEVELS]>>,
pub sprite_atlas_textures: Arc<AtlasTextures<pipelines::sprite::Locals, FigureSpriteAtlasData>>,
}
#[derive(Clone)]
pub struct SpriteRenderContext {
pub state: SpriteRenderState,
pub sprite_verts_buffer: Arc<SpriteVerts>,
}
pub type SpriteRenderContextLazy = Box<dyn FnMut(&mut Renderer) -> SpriteRenderContext>;
@ -705,10 +708,12 @@ impl SpriteRenderContext {
let sprite_verts_buffer = renderer.create_sprite_verts(sprite_mesh);
Self {
// TODO: these are all Arcs, would it makes sense to factor out the Arc?
sprite_config: Arc::clone(&sprite_config),
sprite_data: Arc::new(sprite_data),
sprite_atlas_textures: Arc::new(sprite_atlas_textures),
state: SpriteRenderState {
// TODO: these are all Arcs, would it makes sense to factor out the Arc?
sprite_config: Arc::clone(&sprite_config),
sprite_data: Arc::new(sprite_data),
sprite_atlas_textures: Arc::new(sprite_atlas_textures),
},
sprite_verts_buffer: Arc::new(sprite_verts_buffer),
}
};
@ -732,7 +737,6 @@ impl<V: RectRasterableVol> Terrain<V> {
Self {
atlas,
sprite_config: sprite_render_context.sprite_config,
chunks: HashMap::default(),
shadow_chunks: Vec::default(),
mesh_send_tmp: send,
@ -740,8 +744,7 @@ impl<V: RectRasterableVol> Terrain<V> {
mesh_todo: HashMap::default(),
mesh_todos_active: Arc::new(AtomicU64::new(0)),
mesh_recv_overflow: 0.0,
sprite_data: sprite_render_context.sprite_data,
sprite_atlas_textures: sprite_render_context.sprite_atlas_textures,
sprite_render_state: sprite_render_context.state,
sprite_globals: renderer.bind_sprite_globals(
global_model,
lod_data,
@ -1227,8 +1230,8 @@ impl<V: RectRasterableVol> Terrain<V> {
// Queue the worker thread.
let started_tick = todo.started_tick;
let sprite_data = Arc::clone(&self.sprite_data);
let sprite_config = Arc::clone(&self.sprite_config);
let sprite_data = Arc::clone(&self.sprite_render_state.sprite_data);
let sprite_config = Arc::clone(&self.sprite_render_state.sprite_config);
let cnt = Arc::clone(&self.mesh_todos_active);
cnt.fetch_add(1, Ordering::Relaxed);
scene_data