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base: StardustXR:0.42.0
Branches Tags
StardustXR:main StardustXR:dev StardustXR:codex/make-popup-file-xdg-shell-compliant StardustXR:camera-items StardustXR:camera-item-colorspace StardustXR:openxr
StardustXR:0.46.0 StardustXR:0.45.1 StardustXR:0.45.0 StardustXR:0.43.0 StardustXR:0.44.1 StardustXR:0.44.0 StardustXR:0.42.1 StardustXR:0.42.0
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compare: StardustXR:0.45.0
Branches Tags
StardustXR:dev StardustXR:codex/make-popup-file-xdg-shell-compliant StardustXR:main StardustXR:camera-items StardustXR:camera-item-colorspace StardustXR:openxr
StardustXR:0.46.0 StardustXR:0.45.1 StardustXR:0.45.0 StardustXR:0.43.0 StardustXR:0.44.1 StardustXR:0.44.0 StardustXR:0.42.1 StardustXR:0.42.0

241 Commits
0.42.0 ... 0.45.0

Author SHA1 Message Date
Nova
c12300e756 refactor(cargo.toml): upgrade and refine 2024-09-05 08:52:10 -04:00
Nova
4683710f09 feat(main): debug launched clients flag 2024-09-04 05:14:43 -04:00
Nova
1ca054c2b3 feat: proper version bump 2024-08-24 20:59:38 -04:00
Nova
5f7e9d4eb6 Bump version to 0.45.0 2024-08-24 20:47:40 -04:00
6543
c9fe1be10b cargo fmt (#23) 2024-08-22 01:24:12 +00:00
6543
f58c748f80 Return dedicated error message if dbus session could not be opened (#22) 
* Return dedicated error message if dbus session could not be opened

* cargo fmt
 2024-08-22 01:23:27 +00:00
Nova
499aa2be28 fix(nix): FINALLY 2024-08-21 00:49:11 -04:00
Taylor Coffelt
7ba710e8b7 fix(nix): fixes nix build (#21) 2024-08-21 04:10:13 +00:00
Nova
62802367eb fix: clippy 2024-08-20 17:24:57 -04:00
Nova
853f779930 fix(model): don't keep material references 2024-08-20 17:18:48 -04:00
Nova
21d10a15ee clippy: cleanup 2024-08-20 16:59:37 -04:00
Nova
6146a5b63a fix(model): rebatch identical materials to save on draw calls 2024-08-20 16:59:15 -04:00
Nova
01485e2020 fix: stereokit rust to make it compile at all 2024-08-19 10:18:44 -04:00
Nova
6e77c3667d fix(nix): force local deps only 2024-08-15 16:13:01 -04:00
Nova
003dd9fcc1 fix: nix meshoptimizer 2024-08-13 21:51:32 -04:00
Nova
42738b739f fix(objects/input): push all buttons through 2024-08-12 19:27:51 -04:00
Nova
fe83a69bb9 feat: upgrade dependencies 2024-08-10 22:07:07 -04:00
Nova
e0a7d4f44a fix: upgrade stereokit-rust and attempt nix upgrade 2024-08-07 14:36:19 -04:00
Nova
14ebe85493 refactor(wayland): update data in user data map for everything 2024-08-06 20:42:46 -04:00
Nova
08135b03a2 feat(wayland): receives_input 2024-08-06 19:12:44 -04:00
Nova
4827561f88 refactor(objects/input): cleanup 2024-08-06 19:12:29 -04:00
Nova
72f7fd8e9d refactor: modularize input object capture system 2024-08-06 17:41:39 -04:00
Nova
827c630a70 refactor(input): rename internal capture requests 2024-08-06 12:08:19 -04:00
Nova
98a6ad6f32 refactor: cleanup 2024-07-28 06:14:02 -04:00
Nova
c09afba366 feat: subsurface support 2024-07-27 15:58:55 -04:00
Nova
48f15e848d fix(wayland): lock on commit 2024-07-26 17:42:58 -04:00
Nova
78912c8f1b fix: vram issues 2024-07-26 06:32:36 -04:00
Nova
13815d4d20 refactor(tracy): mark/demark relevant functions 2024-07-26 05:53:13 -04:00
Nova
36d91fd999 fix(popups): unconstrain them 2024-07-24 17:25:26 -04:00
Nova
b7191c3183 fix(wayland): popups don't crash anymore 2024-07-24 17:02:02 -04:00
Nova
796ee1a34e feat(main): disable hands/controllers args 2024-07-24 10:21:54 -04:00
Nova
de10a7101e feat: update stereokit 2024-07-23 04:33:00 -04:00
Nova
41d22da691 fix: force origin local mode 2024-07-23 04:32:37 -04:00
Nova
73ed1210ed fix(wayland): set virtual output to 1024x1024 2024-07-20 09:19:14 -04:00
Nova
a8e16a8411 fix(objects/input): filter out handlers with disabled fields 2024-07-19 00:34:50 -04:00
Nova
4d8d38e4e5 fix(zone): if parents none 2024-07-18 23:46:51 -04:00
Nova
01f4a8fbcd feat: stereokit hax 2024-07-18 13:44:33 -04:00
Nova
f639a1662a feat(objects): add palm 2024-07-18 12:09:38 -04:00
Nova
6350444559 fix(input): only allow handlers with enabled field nodes 2024-07-18 11:24:06 -04:00
Nova
ecc7d7b912 feat(node): not enabled if spatial and size is 0 2024-07-18 10:49:50 -04:00
Nova
ae40158dec feat(objects): controllers 2024-07-18 09:19:06 -04:00
Nova
1b28290cbb feat(objects): rename inputs 2024-07-18 08:07:35 -04:00
Nova
a3bcff035a refactor(objects): move into objects module 2024-07-18 07:56:36 -04:00
Nova
71ca32a560 cleanup(wayland/compositor) 2024-07-18 03:09:46 -04:00
Nova
d28b477c8a feat(main): use d-bus object manager 
Signed-off-by: Nova <technobaboo@gmail.com>
 2024-07-10 07:03:14 -04:00
Nova
643697ea33 refactor(cargo.toml): reorder deps 2024-07-08 06:04:13 -04:00
Nova
f5259f2977 refactor(wayland): use latest smithay goods 2024-07-07 20:05:57 -04:00
Nova
7bedd2c27f fix(wayland): send pending configure on resize just in case 2024-07-05 04:09:01 -04:00
Nova
707b81871c fix(main): new tracy api 2024-07-05 04:08:49 -04:00
Nova
1fddcd9033 fix(main): overlays 2024-07-05 04:08:35 -04:00
Nova
7ff470e1db fix(wayland): touches not being properly released 2024-07-04 20:37:52 -04:00
Nova
a7df6d8a08 fix(wayland): only emit toplevel_sized_changed when it changes 2024-07-04 20:31:54 -04:00
Nova
a9ff97e39c feat(main): better errors 2024-07-03 22:04:43 -04:00
Nova
126e9f4ca6 fix(zone): set zoneable false reparents to nothing 2024-07-01 22:01:42 -04:00
Nova
e379dae4ad fix(root): elapsed time 2024-07-01 21:55:26 -04:00
Nova
b3fa529f77 fix(objects): properly destroy nodes 2024-06-30 22:45:20 -04:00
Nova
1e8d3a3d4c fix(input): send events even when not in handler queue 2024-06-30 22:22:41 -04:00
Nova
2988ae3c28 refactor(main): pass args into stereokit loop 2024-06-28 21:00:07 -04:00
Nova
9c04b5710e feat(objects): simulated input switching 2024-06-28 20:55:02 -04:00
Nova
1324c26c74 fix(fields): actually add the methods onto the nodes 2024-06-28 20:07:28 -04:00
Nova
0b9f79158c feat(objects/controller): color signifier 2024-06-27 17:06:27 -04:00
Nova
e5d0906d73 feat(objects/hand): make fingertips pointy 2024-06-27 16:54:08 -04:00
Nova
f08f3e4e4b fix: polish stuff a bit 2024-06-27 16:51:33 -04:00
Nova
d17841ec7a fix(model): no panics 2024-06-26 15:21:48 -04:00
Nova
ebaf113d94 feat: use d-bus for server objects 2024-06-25 16:17:44 -04:00
Nova
5be25da46f feat: use dbus for hmd 2024-06-24 19:26:01 -04:00
Nova
f5e8156400 fix(anchors.txt): get that outta here :/ 2024-06-24 19:25:43 -04:00
Nova
02bf210c51 feat(fields): use new field ref and field types 2024-06-21 17:22:52 -04:00
Nova
eba317ace9 fix(release): make it not glitch 2024-06-19 13:29:39 -04:00
Nova
84e42499e7 feat: todos 2024-06-17 12:11:04 -04:00
Nova
9b6b450d18 fix(objects/input) mouse pointer gives correct keymap now 2024-06-16 21:42:25 -04:00
Nova
53979ce167 fix(item): item destroy not sending correctly 2024-06-15 13:58:36 -04:00
Nova
e2c9e06cd3 refactor: change println to tracing 2024-06-15 12:40:09 -04:00
Nova
65a9957be1 fix(wayland): context in xr 2024-06-14 22:33:08 -04:00
Nova
fbe941749a refactor(everything): streamline stereokit and main loops 2024-06-13 18:55:46 -04:00
Nova
36fd3216c7 fix(wayland): strip out all the xwayland stuff finally 2024-06-13 13:34:42 -04:00
Nova
f73c8f968d fix(wayland): properly kill off xwayland 2024-06-13 10:18:42 -04:00
Nova
83e3a913c5 fix(wayland): remove unnecessary backend impl 2024-06-11 14:33:59 -04:00
Nova
de56aa53d6 feat: update 2024-06-11 07:13:58 -04:00
Nova
9f0043f406 refactor: remove xwayland (we can always just use the old code) 2024-06-11 07:08:41 -04:00
Nova
99eb0ea547 fix: clippy 2024-06-09 19:58:41 -04:00
Nova
04535895e8 fix: stereokit not exiting on ctrl+c 2024-06-09 19:40:32 -04:00
Nova
69311125ba fix(objects/input): multimodal hand input 2024-06-07 15:13:13 -04:00
Nova
45b832455b fix: stupid dbg statements 2024-06-07 09:01:22 -04:00
Nova
b590e82b05 fix: input capturing 2024-06-07 08:22:51 -04:00
Nova
f770357010 fix: state 2024-06-06 09:24:25 -04:00
Nova
3cbc10d91e fix(model): no panic on material change 2024-06-06 09:02:32 -04:00
Nova
9425d30cb3 fix(input): input not working 2024-06-06 06:41:27 -04:00
Nova
8d2aac12d6 feat: upgrade to numerical IDs 2024-06-05 14:34:45 -04:00
Nova
5f9d9d4714 refactor(items): codegen prototocol 2024-05-30 00:34:29 -04:00
Nova
eda50b7d51 feat: upgrade stereokit 2024-05-28 09:13:15 -04:00
Nova
01c5ad3b04 feat: update dependencies 2024-05-28 03:17:02 -04:00
Nova
d7fba79be9 fix: new apis 2024-05-28 01:24:49 -04:00
Nova
89fcc55cca feat(codegen): inherits 2024-05-27 02:25:05 -04:00
Nova
a831fcb99f feat(nodes/input): update protocol 2024-05-27 02:24:11 -04:00
Nova
8e37d27130 fix(objects/input): grave key 2024-05-27 02:23:43 -04:00
Nova
149131f322 fix(objects/sk_hand): addref to material 2024-04-24 20:02:11 -04:00
Nova
4a90b936b1 fix(wayland): stop unwrap of repositioned popup 2024-04-24 20:00:02 -04:00
Nova
ab6998407b feat(flake.nix): default app 2024-04-24 16:28:47 -04:00
Nova
be2f5b8e37 refactor(input): switch to manual handler order 2024-04-16 08:00:07 -04:00
Nova
226554fadc refactor(input): use idl 2024-04-14 09:46:29 -04:00
Nova
47cbc2b8fc feat(nodes/root): log base prefixes change 2024-04-13 05:07:46 -04:00
Nova
90f60c9178 refactor(wayland/xwayland_rootless): use tokio 2024-04-04 23:55:49 -04:00
Nova
49253567cb fix(wayland/decoration): make decoration SSD 2024-03-28 19:30:35 -04:00
Nova
350007cbaf fix(wayland): remove nonexistent capabilities 2024-03-28 19:29:50 -04:00
Nova
7318d5317c feat: lapce run toml 2024-03-09 23:51:07 -05:00
Nova
15f771ff93 fix(drawable/text): alignment 2024-03-09 23:17:56 -05:00
Nova
302a64785d fix(wayland): warnings 2024-03-09 23:16:32 -05:00
Nova
34aab266a3 refactor(wayland): use smithay xdg_shell handler 2024-03-09 02:23:40 -05:00
Nova
fba4e10611 refactor(wayland): use smithay seats 2024-03-08 05:57:52 -05:00
Nova
807928a8d3 feat: version update 2024-03-06 21:02:26 -05:00
matthewcroughan
f74c891907 flake.lock: Update 
closes https://github.com/StardustXR/server/pull/19

Flake lock file updates:

• Updated input 'flake-parts':
    'github:hercules-ci/flake-parts/59cf3f1447cfc75087e7273b04b31e689a8599fb' (2023-08-01)
  → 'github:hercules-ci/flake-parts/f7b3c975cf067e56e7cda6cb098ebe3fb4d74ca2' (2024-03-01)
• Updated input 'flake-parts/nixpkgs-lib':
    'github:NixOS/nixpkgs/9e1960bc196baf6881340d53dccb203a951745a2?dir=lib' (2023-08-01)
  → 'github:NixOS/nixpkgs/1536926ef5621b09bba54035ae2bb6d806d72ac8?dir=lib' (2024-02-29)
• Updated input 'flatland':
    'github:StardustXR/flatland/3867067452761959a95497d6589f9336b347270c' (2023-09-08)
  → 'github:StardustXR/flatland/db1639bc6ca738bf9cb52f2c20159a612019454c' (2024-02-06)
• Updated input 'flatland/fenix':
    'github:nix-community/fenix/ee59e1c769657b1e27e608f8b981fa8f6b715583' (2023-03-14)
  → 'github:nix-community/fenix/4378e7e5f5bdef438eee5ce967f37593b9b5cd16' (2023-11-16)
• Updated input 'flatland/fenix/rust-analyzer-src':
    'github:rust-lang/rust-analyzer/95497533524537b1cc7a2870ce94b0b14503be8b' (2023-03-13)
  → 'github:rust-lang/rust-analyzer/58de0b130a763f3a2d373f508ac0c18a8e7d0acd' (2023-11-15)
• Updated input 'flatland/nixpkgs':
    'github:NixOS/nixpkgs/67f26c1cfc5d5783628231e776a81c1ade623e0b' (2023-03-13)
  → 'github:NixOS/nixpkgs/e44462d6021bfe23dfb24b775cc7c390844f773d' (2023-11-12)
• Updated input 'hercules-ci-effects':
    'github:hercules-ci/hercules-ci-effects/0a63bfa3f00a3775ea3a6722b247880f1ffe91ce' (2023-07-15)
  → 'github:hercules-ci/hercules-ci-effects/0ca27bd58e4d5be3135a4bef66b582e57abe8f4a' (2024-02-21)
• Updated input 'hercules-ci-effects/flake-parts':
    'github:hercules-ci/flake-parts/8e8d955c22df93dbe24f19ea04f47a74adbdc5ec' (2023-07-04)
  → 'github:hercules-ci/flake-parts/34fed993f1674c8d06d58b37ce1e0fe5eebcb9f5' (2023-12-01)
• Updated input 'hercules-ci-effects/flake-parts/nixpkgs-lib':
    'github:NixOS/nixpkgs/4bc72cae107788bf3f24f30db2e2f685c9298dc9?dir=lib' (2023-06-29)
  → follows 'hercules-ci-effects/nixpkgs'
• Removed input 'hercules-ci-effects/hercules-ci-agent'
• Removed input 'hercules-ci-effects/hercules-ci-agent/flake-parts'
• Removed input 'hercules-ci-effects/hercules-ci-agent/flake-parts/nixpkgs-lib'
• Removed input 'hercules-ci-effects/hercules-ci-agent/haskell-flake'
• Removed input 'hercules-ci-effects/hercules-ci-agent/nixpkgs'
• Updated input 'hercules-ci-effects/nixpkgs':
    'github:NixOS/nixpkgs/27fcd46fa18df36d270174246e7bd8f1787129ff' (2023-07-15)
  → 'github:NixOS/nixpkgs/cfc3698c31b1fb9cdcf10f36c9643460264d0ca8' (2023-12-27)
• Updated input 'nixpkgs':
    'github:nixos/nixpkgs/b85ed9dcbf187b909ef7964774f8847d554fab3b' (2023-08-22)
  → 'github:nixos/nixpkgs/1536926ef5621b09bba54035ae2bb6d806d72ac8' (2024-02-29)
 2024-03-06 19:37:44 -05:00
Nova
2dc0fdadfd fix(client_state): backwards compatibility 2024-02-20 03:59:18 -05:00
Nova
8e317a8e08 feat: session restore! 2024-02-20 03:02:57 -05:00
Nova
c41179a437 refactor(wayland): put everything in wl_surface user data 2024-02-15 12:42:34 -05:00
Nova
43910cce78 feat(input): capturing handler's distance is halved 2024-02-12 11:35:27 -05:00
Nova
643986e03d feat: version increment 2024-02-10 18:15:00 -05:00
Nova
a2b061ed43 fix(panel_item): fix set_toplevel_size signal 2024-02-10 18:12:29 -05:00
Nova
c458624157 fix(idl): update to main branch of core 2024-02-07 02:59:13 -05:00
Nova
1d2b149395 feat(cargo.toml): rust-version 2024-02-06 15:15:06 -05:00
Nova
c84848ea9c fix(spatial/bounds): move proper center bounds 2024-02-06 11:30:58 -05:00
Nova
b34e5f7a19 refactor(spatial): use clearer to understand global transform 2024-02-06 09:00:21 -05:00
Nova
af3d49c9ef fix(input/method): alias info server methods + create_path 2024-02-06 09:00:05 -05:00
Nova
d5d63b2f89 fix(fields): ray marching direction normalize 2024-02-06 08:59:40 -05:00
Nova
d4b7c3f61a refactor: use typemap for aspects! 2024-02-05 05:09:48 -05:00
Nova
36dacb3322 fix(audio+model): drop sk asset to the destroy queue 2024-02-04 20:22:15 -05:00
Nova
eec38dd60f fix(data): handle pulse receiver methods 2024-02-04 19:21:33 -05:00
Nova
1e0ea6ae92 refactor(node): use idl 2024-02-04 18:42:33 -05:00
Nova
31f45760f0 refactor(data): switch to using idl 2024-02-04 18:38:56 -05:00
Nova
f76863a79b refactor(audio): make audio use idl 2024-02-04 17:42:39 -05:00
Nova
43b3499ed7 refactor(drawable): use idl 2024-02-04 17:36:30 -05:00
Nova
dfaaa2a3a9 fix(codegen): make enums u32s over the wire 2024-02-04 17:10:38 -05:00
Nova
b8d17ac7ca refactor(fields): use idl 2024-02-04 11:04:16 -05:00
Nova
ed28914f86 refactor(idl): create_inteface macro 2024-02-04 09:55:39 -05:00
Nova
f8fab6bf5a refactor(idl,spatial): make zone use idl 2024-02-04 09:26:24 -05:00
Nova
1b37d77304 feat(spatial): use codegen 2024-02-03 14:14:27 -05:00
Nova
6eb36516b0 feat: initial IDL 2024-02-03 04:53:19 -05:00
Nova
f0200be990 feat(drawable/model): passthrough holdout material 2023-12-06 18:32:39 -05:00
Nova
cfd3d0016b feat(input/mouse_pointer): back/forward click grab 2023-12-06 17:06:07 -05:00
Nova
fbf0f4f672 fix(spatial): add spatial to children registry of parent on add_to 2023-11-25 10:43:08 -05:00
Nova
387fa96a60 feat(lines): multiple lines to a node 2023-11-25 06:25:44 -05:00
Nova
d549018024 feat: xwayland rootful and rootless (both broken) 2023-11-20 03:33:36 -05:00
Nova
5cd92f2c03 feat: upgrade smithay 2023-11-17 08:59:10 -05:00
Matthew Croughan
2450411e21 fix(flake): use ref instead of branch (#17) 
Sometimes, for example when making a release, there is no branch, only a
ref like refs/head/v1, which means branch is set to null
 2023-11-01 17:57:31 -04:00
Nova
b53bfde23b refactor(input): remove unnecessary limit break 2023-10-24 22:10:33 -04:00
Nova
15eb73af41 feat: 2x scaling 2023-10-24 22:09:09 -04:00
Nova
3c82ae309c fix(input): don't log anything 2023-10-24 01:18:39 -04:00
Nova
4adcfca2fe fix(input): don't debug captures 2023-10-24 00:54:27 -04:00
Nova
f893491bed feat(input): captured bool 2023-10-24 00:41:17 -04:00
Nova
9d1181aaca feat: todo on fields 2023-10-19 15:00:18 -04:00
Nova
b0f9bf24cf feat: initial stardust themes!! 2023-10-17 07:12:06 -04:00
Nova
3527ce2507 fix(pointer): proper distance 2023-10-08 19:18:51 -04:00
Nova
f045bfb93d feat: optimization 2023-10-08 18:44:52 -04:00
Nova
3d4ab27a14 fix(data): lesser key with empty vector being treated as different than typed vector 2023-10-07 13:38:06 -04:00
Nova
54ff87c146 remove: sk.kmp 2023-10-01 21:54:56 -04:00
Nova
2bc988fe3d fix: scroll 2023-10-01 21:47:13 -04:00
Nova
051893858b fix(wayland): don't log key events :p 2023-10-01 01:35:52 -04:00
Nova
1ac211c23f fix(wayland): keyboard input 2023-10-01 01:35:04 -04:00
Nova
4874f010dd fix: use core version on git 2023-10-01 00:40:05 -04:00
Nova
da894143f9 feat: proper ctrl+c stop 2023-09-29 00:26:53 -04:00
Nova
109affec81 feat: save client states on sigint 2023-09-28 12:08:45 -04:00
Nova
665e6b034f feat(state): save state to ~/.local/state/stardust/<uid> on graceful disconnect 2023-09-28 10:31:23 -04:00
Nova
fc45b4e400 feat: client state (save/restore) 2023-09-28 09:55:45 -04:00
Nova
af75d2a451 refactor(core): remove dashmap 2023-09-28 01:30:26 -04:00
Nova
3136a8f2b7 feat(suis/hand): distance per joint 2023-09-27 01:16:44 -04:00
Nova
e97368f3e2 feat: upgrade smithay 2023-09-25 22:38:00 -04:00
Nova
4da7ed1ccf feat(wayland): touch support 2023-09-24 11:44:26 -04:00
Nova
bf248e192f fix(objects/input): disable_controller still lets hands exist 2023-09-24 11:44:16 -04:00
Nova
167c3d1cbf fix(item): remove acceptor arg from release 2023-09-16 13:53:15 -04:00
Nova
b39d8f37f4 fix(panel): remove start data local signal 2023-09-16 13:52:53 -04:00
Nova
1198797db8 fix(wayland): don't clone topleveldata 2023-09-16 13:52:31 -04:00
Nova
823a71a286 fix(main): don't enable eye pointer for flatscreen mode with hands 2023-09-16 04:05:34 -04:00
Nova
f78da4b198 refactor(wayland/seat): boolean for keypress instead of u32 2023-09-08 20:23:40 -04:00
Nova
558fb1aa4e fix(flake.lock): update flatland 2023-09-08 12:31:10 -04:00
Nova
abe32a8dbd fix(panel): remove unnecessary inverse global transform on startup settings 2023-09-08 12:28:55 -04:00
Nova
d9e040bf8b fix(flake.lock): update flatland 2023-09-08 00:37:15 -04:00
Nova
0b8da1d280 feat: version bump 2023-09-04 17:12:42 -04:00
Nova
455f3a0e9c refactor: disable xwayland by default 2023-09-04 13:18:06 -04:00
Nova
411b30294b fix(xdg_shell): indicate fullscreen active 2023-09-04 13:17:48 -04:00
Nova
1d54b75a53 fix(wayland): remove unwraps 2023-09-04 12:15:48 -04:00
Nova
4c56c31bfc fix(object/mouse pointer): update keyboard protocol 2023-09-04 11:40:44 -04:00
Nova
b21e031668 fix(wayland): no more external dmabufs 2023-09-03 17:55:22 -04:00
Nova
7c6b2f5949 fix(wayland): closing toplevels 2023-09-03 11:02:42 -04:00
Nova
1f66d7dee4 fix(wayland): new API 2023-09-03 10:38:31 -04:00
Nova
53b035ef92 feat(wayland+xwayland): initial window setup 2023-09-03 10:38:31 -04:00
Nova
237b084a65 refactor(panel item): nuke unnecessary functions 2023-09-03 10:38:31 -04:00
Nova
707e56cb6f refactor: panel items 2023-09-03 10:38:31 -04:00
Nova
6f4da69e36 feat: async methods 2023-09-02 19:49:53 -04:00
Stephen Christie
5634729445 feat: Start converting method calls to async 2023-08-27 17:11:20 -04:00
matthewcroughan
b9603dc0a1 nix: refactor 
- Remove unnecessary fenix input
- Remove unnecessary arguments to buildRustPackage
- Remove obsolete/unnecessary hacks
- Minimize code duplication and maximize re-use by using flake.parts
- Split out stardust-xr-server derivation into its own nix file in nix/stardust-xr-server
- Automatically get name of package from Cargo.toml
- Advertise support for riscv64-linux in flake outputs
 2023-08-24 14:39:14 +01:00
Nova
0323fbfb86 fix(data): ignore types for masks if one is null 2023-08-23 13:57:42 -04:00
Nova
433568da63 fix: panel items not dropping on toplevel close 2023-08-14 03:05:22 -04:00
matthewcroughan
4e199dd43f nix: add new runtime dependencies, xwayland and bash 2023-08-08 07:15:48 +01:00
matthewcroughan
a4430b9a95 flake.lock: Update 
Flake lock file updates:

• Updated input 'fenix':
    'github:nix-community/fenix/5816c7bbcc385d2e65877631497df3f7d66b354a' (2023-05-11)
  → 'github:nix-community/fenix/bd0c7ee0836a814751c3fcf66eaadfbe1a35b715' (2023-08-07)
• Updated input 'fenix/rust-analyzer-src':
    'github:rust-lang/rust-analyzer/b7cdd93f3e1533e96d4cfa1ac8573e6210a2bedf' (2023-05-09)
  → 'github:rust-lang/rust-analyzer/baee6b338b0ea076cd7a9f18d47f175dd2ba0e5d' (2023-08-06)
• Updated input 'flatland':
    'github:StardustXR/flatland/24613a496841bdf38e5f136608d5295860a75fce' (2023-05-11)
  → 'github:StardustXR/flatland/da6e286300c2a1f6e0ba103f9a79c53b9c3e70dc' (2023-08-06)
• Updated input 'hercules-ci-effects':
    'github:hercules-ci/hercules-ci-effects/15ff4f63e5f28070391a5b09a82f6d5c6cc5c9d0' (2023-04-19)
  → 'github:hercules-ci/hercules-ci-effects/0a63bfa3f00a3775ea3a6722b247880f1ffe91ce' (2023-07-15)
• Updated input 'hercules-ci-effects/flake-parts':
    'github:hercules-ci/flake-parts/c13d60b89adea3dc20704c045ec4d50dd964d447' (2023-03-09)
  → 'github:hercules-ci/flake-parts/8e8d955c22df93dbe24f19ea04f47a74adbdc5ec' (2023-07-04)
• Updated input 'hercules-ci-effects/flake-parts/nixpkgs-lib':
    'github:NixOS/nixpkgs/130fa0baaa2b93ec45523fdcde942f6844ee9f6e?dir=lib' (2023-03-09)
  → 'github:NixOS/nixpkgs/4bc72cae107788bf3f24f30db2e2f685c9298dc9?dir=lib' (2023-06-29)
• Updated input 'hercules-ci-effects/hercules-ci-agent':
    'github:hercules-ci/hercules-ci-agent/0b90d1a87c117a5861785cb85833dd1c9df0b6ef' (2023-03-10)
  → 'github:hercules-ci/hercules-ci-agent/367dd8cd649b57009a6502e878005a1e54ad78c5' (2023-07-05)
• Updated input 'hercules-ci-effects/hercules-ci-agent/flake-parts':
    'github:hercules-ci/flake-parts/c13d60b89adea3dc20704c045ec4d50dd964d447' (2023-03-09)
  → 'github:hercules-ci/flake-parts/8e8d955c22df93dbe24f19ea04f47a74adbdc5ec' (2023-07-04)
• Updated input 'hercules-ci-effects/hercules-ci-agent/haskell-flake':
    'github:hercules-ci/haskell-flake/1e1660e6dd00838ba73bc7952e6e73be67da18d1' (2023-03-06)
  → 'github:srid/haskell-flake/74210fa80a49f1b6f67223debdbf1494596ff9f2' (2023-05-22)
• Removed input 'hercules-ci-effects/hercules-ci-agent/nix-darwin'
• Removed input 'hercules-ci-effects/hercules-ci-agent/nix-darwin/nixpkgs'
• Updated input 'hercules-ci-effects/hercules-ci-agent/nixpkgs':
    'github:NixOS/nixpkgs/c90c4025bb6e0c4eaf438128a3b2640314b1c58d' (2023-03-08)
  → 'github:NixOS/nixpkgs/0fbe93c5a7cac99f90b60bdf5f149383daaa615f' (2023-07-02)
• Removed input 'hercules-ci-effects/hercules-ci-agent/pre-commit-hooks-nix'
• Removed input 'hercules-ci-effects/hercules-ci-agent/pre-commit-hooks-nix/flake-compat'
• Removed input 'hercules-ci-effects/hercules-ci-agent/pre-commit-hooks-nix/flake-utils'
• Removed input 'hercules-ci-effects/hercules-ci-agent/pre-commit-hooks-nix/gitignore'
• Removed input 'hercules-ci-effects/hercules-ci-agent/pre-commit-hooks-nix/gitignore/nixpkgs'
• Removed input 'hercules-ci-effects/hercules-ci-agent/pre-commit-hooks-nix/nixpkgs'
• Removed input 'hercules-ci-effects/hercules-ci-agent/pre-commit-hooks-nix/nixpkgs-stable'
• Updated input 'hercules-ci-effects/nixpkgs':
    'github:NixOS/nixpkgs/1544ef240132d4357d9a39a40c8e6afd1678b052' (2023-03-15)
  → 'github:NixOS/nixpkgs/27fcd46fa18df36d270174246e7bd8f1787129ff' (2023-07-15)
• Updated input 'nixpkgs':
    'github:NixOS/nixpkgs/897876e4c484f1e8f92009fd11b7d988a121a4e7' (2023-05-06)
  → 'github:NixOS/nixpkgs/5a8e9243812ba528000995b294292d3b5e120947' (2023-08-07)
 2023-08-08 07:15:43 +01:00
Nova
136383326e fix(panel): pressed/released in the right order 2023-08-07 21:44:44 -04:00
Nova
5a86f11beb fix(fields): remove radius from normal/closest point 2023-08-07 16:45:37 -04:00
Nova
6ab2bb2d52 fix: controller 2023-08-06 19:27:40 -04:00
Nova
ce8877b67e refactor(wayland): replace popups with child surfaces 2023-08-06 18:32:43 -04:00
Nova
74a2f7a249 fix: properly destroy xwayland 2023-08-06 11:19:42 -04:00
Nova
11ecb0aebe feat: camera item 2023-08-06 10:11:06 -04:00
Nova
281f5e91ff feat(registry): is_empty 2023-08-06 10:11:01 -04:00
Nova
5dc7cfbe83 refactor(drawable): remove sendwrapper 2023-08-06 10:10:50 -04:00
Nova
3432c63a6e fix(main): don't pass through std anything from child processes 2023-08-05 20:20:57 -04:00
Nova
02ac96b0dc feat(wayland): cleanup 2023-08-04 21:20:32 -04:00
Nova
0736f99631 feat: fd passing 2023-07-31 23:44:17 -04:00
Nova
4bbe3ad8d0 refactor(objects): overhaul input 2023-07-26 08:56:34 -04:00
Nova
1cf9d0f8c5 refactor (wayland): move seat to client 2023-07-25 14:46:03 -04:00
Nova
51d0cab832 refactor: trait away panel item backends 2023-07-23 19:59:35 -04:00
Nova
062c63af2b feat(xwayland): xwayland feature 2023-07-23 09:04:22 -04:00
Nova
3ce3fadb8d feat: todo fuure plans 2023-07-23 08:30:09 -04:00
Nova
f0e39195b7 fix: deadlock on close stereokit 2023-07-23 08:30:09 -04:00
Nova
0d639760e9 refactor(wayland): less crashy 2023-07-23 08:30:09 -04:00
Nova
6109a6bde6 feat(xwayland): x window capabilities 2023-07-23 08:30:09 -04:00
Nova
000b633767 feat(xwayland): first x window 2023-07-23 08:30:09 -04:00
Nova
e3b1276d77 feat(xwayland): serialize start 2023-07-23 08:30:09 -04:00
Nova
1cb8e1b7a4 refactor(wayland): separate backend from panel item 2023-07-23 08:30:09 -04:00
Nova
e879b724ec feat(wayland): initial xwayland support 2023-07-23 08:30:09 -04:00
Nova
08010efa46 fix: data uses flexbuffer type instead of value for mask map 2023-07-23 08:29:53 -04:00
Nova
e682931e3e fix: wayland stability 2023-07-23 08:29:04 -04:00
Nova
bf89b73e8f feat: version bump 2023-07-22 18:31:09 -04:00
Nova
2e252279bb fix: states 2023-07-19 06:04:15 -07:00
Nova
9cf43ec535 fix: surface not mapping 2023-07-19 06:04:08 -07:00
Nova
f15578f7df feat: formatting 2023-07-19 06:03:28 -07:00
Nova
f63ca4a25b feat: play space 2023-07-16 10:42:35 -07:00
technobaboo
89741508e3 feat: make readme more readable 2023-07-11 11:44:38 -07:00
technobaboo
81be807749 fix(ci): add semicolons 2023-07-11 11:16:15 -07:00
technobaboo
fcdb8a7edf fix(ci): appimagetool 2023-07-11 11:11:07 -07:00
technobaboo
90ce185f29 fix(ci): xcb glx 2023-07-11 10:59:26 -07:00
technobaboo
d6353035ae fix(ci): ninja-build instead of ninja 2023-07-11 10:55:08 -07:00
technobaboo
ceb1b23264 feat: ci take 2 2023-07-11 10:53:31 -07:00
Nova
199e6f70b3 refactor: use dmabuf v4 instead of bind_display 2023-06-27 05:53:45 -04:00
Nova
641db4face refactor: disable shader injection 2023-06-26 20:49:21 -04:00
Nova
80d292b511 feat: match stereokit to log level 2023-06-26 20:43:02 -04:00
Nova
7fbcc92d02 fix: unwrap in main fn 2023-06-26 20:33:04 -04:00
Nova
de46726d01 feat: hardware accelerated wayland apps 2023-06-26 20:31:38 -04:00
Nova
6efa3a909e feat: proper dmabuf import 2023-06-26 20:09:20 -04:00
Nova
ea0f174da7 feat: shaders!! working!! 2023-06-26 19:49:10 -04:00
Nova
444146fa21 feat: it borken 2023-06-26 04:37:38 -04:00
Nova
a7930760e8 feat: glsl simula text shaders 2023-06-25 10:05:18 -04:00
Nova
668c32f583 fix: ctrl+c in tty 2023-06-21 01:47:10 -04:00
Nova
927e1c48e2 fix: mouse pointer keyboard ray direction 2023-06-14 23:00:17 -04:00
89 changed files with 10028 additions and 7584 deletions
Expand all files Collapse all files

46
.github/workflows/build.yml vendored Normal file
View File

@@ -0,0 +1,46 @@
name: Build
on:
push:
branches:
- '*'
jobs:
build_and_package:
runs-on: ubuntu-latest
steps:
- name: Checkout code
uses: actions/checkout@v2
- name: Install runtime dependencies
run: sudo apt install -y --no-install-recommends libxkbcommon-dev libstdc++6 libopenxr-dev libx11-dev libxfixes-dev libgl1-mesa-dev libegl1-mesa-dev libgbm-dev libfontconfig-dev libjsoncpp-dev libxcb1-dev libglx-dev libxcb-glx0-dev libdrm-dev libwayland-dev libfreetype-dev libpng-dev
- name: Install build dependencies
run: sudo apt install -y --no-install-recommends cmake ninja-build
- name: Set up Rust
uses: actions-rs/toolchain@v1
with:
toolchain: stable
- name: Build server
run: cargo build --release
- name: Install appimagetool
run: |
wget https://github.com/AppImage/AppImageKit/releases/download/continuous/appimagetool-$(uname -m).AppImage -O /usr/local/bin/appimagetool; \
chmod +x /usr/local/bin/appimagetool; \
sed -i 's|AI\x02|\x00\x00\x00|' /usr/local/bin/appimagetool
- name: Install cargo-appimage
run: cargo install cargo-appimage
- name: Generate AppImage
run: cargo appimage
- name: Upload AppImage
uses: actions/upload-artifact@v2
with:
name: appimage
path: '*.AppImage'

4
.gitignore vendored
View File

@@ -11,4 +11,6 @@
*result*
/libs/
*.AppImage
*.AppImage
*.blend1
anchors.txt

29
.lapce/run.toml Normal file
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@@ -0,0 +1,29 @@
# The run config is used for both run mode and debug mode
[[configs]]
# the name of this task
name = "task"
# the type of the debugger. If not set, it can't be debugged but can still be run
# type = "lldb"
# the program to run
program = "./target/debug/stardust-xr-server"
# the program arguments, e.g. args = ["arg1", "arg2"], optional
# args = []
# current working directory, optional
cwd = "${workspace}"
# enviroment variables, optional
# [configs.env]
# VAR1 = "VAL1"
# VAR2 = "VAL2"
# task to run before the run/debug session is started, optional
# [configs.prelaunch]
# program = "cargo"
# args = [
# "build",
# ]

2949
Cargo.lock generated
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File diff suppressed because it is too large Load Diff

132
Cargo.toml
View File

@@ -1,91 +1,117 @@
[package]
edition = "2021"
rust-version = "1.75"
name = "stardust-xr-server"
version = "0.42.0"
version = "0.45.0"
authors = ["Nova King <technobaboo@proton.me>"]
description = "Stardust XR reference display server"
license = "GPLv2"
repository = "https://github.com/StardustXR/stardust-xr-server/"
homepage = "https://stardustxr.org"
[workspace]
members = ["codegen"]
[[bin]]
name = "stardust-xr-server"
path = "src/main.rs"
[features]
default = ["wayland"]
wayland = ["dep:smithay", "dep:xkbcommon"]
wayland = ["dep:smithay", "dep:wayland-scanner", "dep:wayland-backend"]
profile_tokio = ["dep:console-subscriber", "tokio/tracing"]
profile_app = ["dep:tracing-chrome"]
profile_app = ["dep:tracing-tracy"]
local_deps = ["stereokit-rust/force-local-deps"]
[package.metadata.appimage]
auto_link = true
auto_link_exclude_list = [
"libc*",
"libdl*",
"libpthread*",
"ld-linux*",
"libGL*",
"libEGL*",
"libc*",
"libdl*",
"libpthread*",
"ld-linux*",
"libGL*",
"libEGL*",
]
[profile.dev.package."*"]
opt-level = 3
debug = true
strip = "none"
debug-assertions = true
overflow-checks = true
[profile.release]
strip = true
lto = true
opt-level = 3
debug = "line-tables-only"
strip = "none"
debug-assertions = true
overflow-checks = false
[dependencies]
color-eyre = { version = "0.6.2", default-features = false }
clap = { version = "4.2.4", features = ["derive"] }
dashmap = "5.4.0"
glam = { version = "0.23.0", features = ["mint"] }
lazy_static = "1.4.0"
mint = "0.5.9"
# small utility thingys
once_cell = "1.19.0"
nanoid = "0.4.0"
once_cell = "1.17.1"
parking_lot = "0.12.1"
portable-atomic = { version = "1.2.0", features = ["float", "std"] }
rustc-hash = "1.1.0"
tokio = { version = "1.27.0", features = ["rt-multi-thread", "signal"] }
send_wrapper = "0.6.0"
prisma = "0.1.1"
xkbcommon = { version = "0.5.0", default-features = false, optional = true }
stardust-xr = "0.11.4"
directories = "5.0.0"
serde = { version = "1.0.160", features = ["derive"] }
tracing = "0.1.37"
tracing-subscriber = { version = "0.3.17", features = ["env-filter"] }
global_counter = "0.2.2"
lazy_static = "1.5.0"
rand = "0.8.5"
rustc-hash = "2.0.0"
portable-atomic = { version = "1.7.0", features = ["float", "std"] }
send_wrapper = "0.6.0"
slotmap = "1.0.7"
global_counter = "=0.2.2"
parking_lot = "0.12.3"
[dependencies.stereokit]
default-features = false
features = ["linux-egl"]
version = "0.16.7"
# rust errors/logging
color-eyre = { version = "0.6.3", default-features = false }
clap = { version = "4.5.13", features = ["derive"] }
console-subscriber = { version = "0.4.0", optional = true }
tracing = "0.1.40"
tracing-subscriber = { version = "0.3.18", features = ["env-filter"] }
tracing-tracy = { version = "0.11.1", optional = true }
# (de)serialization
serde = { version = "1.0.205", features = ["derive"] }
serde_repr = "0.1.19"
toml = "0.8.19"
# mathy stuffs
glam = { version = "0.28.0", features = ["mint", "serde"] }
mint = "0.5.9"
tokio = { version = "1.39.2", features = ["rt-multi-thread", "signal", "time"] }
prisma = "0.1.1"
# linux stuffs
libc = "0.2.155"
nix = "0.29.0"
input-event-codes = "6.2.0"
zbus = { version = "4.4.0", default-features = false, features = ["tokio"] }
directories = "5.0.1"
xkbcommon-rs = "0.1.0"
# wayland
wayland-backend = { version = "0.3.7", optional = true, default-features = false }
wayland-scanner = { version = "0.31.4", optional = true }
[dependencies.smithay]
git = "https://github.com/technobaboo/smithay.git" # Until we get stereokit to understand OES samplers and external textures
# git = "https://github.com/smithay/smithay.git" # Until we get stereokit to understand OES samplers and external textures
# git = "https://github.com/technobaboo/smithay.git"
# git = "https://github.com/colinmarc/smithay.git"
git = "https://github.com/smithay/smithay.git"
# path = "../smithay"
default-features = false
features = ["desktop", "renderer_gl", "wayland_frontend"]
version = "*"
features = ["desktop", "backend_drm", "renderer_gl", "wayland_frontend"]
optional = true
[dependencies.console-subscriber]
version = "0.1.8"
optional = true
[dependencies.tracing-chrome]
version = "0.7.1"
optional = true
[dependencies.stereokit-rust]
# path = "../StereoKit-rust"
# git = "https://github.com/mvvvv/StereoKit-rust.git"
git = "https://github.com/technobaboo/StereoKit-rust.git"
features = ["no-event-loop"]
default-features = false
# [patch.crates-io.stereokit]
# path = "../stereokit-rs"
# [patch.crates-io.stereokit-sys]
# path = "../stereokit-sys"
# [patch.crates-io.stardust-xr]
# path = "../core/core"
# [patch.crates-io.stardust-xr-schemas]
# path = "../core/schemas"
[dependencies.stardust-xr]
git = "https://github.com/StardustXR/core.git"
branch = "dev"
[dependencies.stardust-xr-server-codegen]
path = "codegen"

52
README.md
View File

@@ -15,11 +15,52 @@ This project is a usable Linux display server that reinvents human-computer inte
```bash
cargo build
```
The latest stable server is automatically built to an appimage at https://github.com/StardustXR/server/releases for easy testing.
## Install
```bash
cargo install
```
## Usage
First, try running `cargo run` in a terminal window. If a headset is plugged in and OpenXR is working no window will show up. However, the headset should show the same things as the window that opens:
![A pitch black void with a single bleach white hand in the middle](/img/xr_mode_windowed_blank.png)
Stardust won't do anything interesting without clients! Try some from https://github.com/StardustXR.
### Default Sky
You can set a default skytex/skylight by putting your favorite HDRI equirectangular sky in `~/.config/stardust/skytex.hdr`. Certain clients can override this.
Flatscreen mode when the default skybox is [Zhengyang Gate](https://polyhaven.com/a/zhengyang_gate):
![A pitch black window representing Stardust in flatscreen mode](/img/flatscreen_3.png)
### Windowed Mode
If the stardust server can't connect to an OpenXR runtime or you force it into flatscreen mode with `-f`, the server will show in a window.
![A black void representing Stardust in XR mode with a hand skeleton in the middle](/img/flatscreen_2.png)
You can navigate around by right click + dragging to look around, Shift+W/A/S/D/Q/E to move. If you have a virtual hand, left click pinches, right click points, both make a fist.
### Flags
#### Flatscreen (-f)
The server will show up in windowed mode no matter what with your mouse pointer being turned into a 3D pointer. Keyboard input will be sent to whatever your mouse is hovering over like visionOS simulator.
Flatscreen mode upon initial startup:
![A pitch black window representing Stardust in flatscreen mode](/img/flatscreen_1.png)
#### Overlay (-o \<PRIORITY>)
The server will, if in XR mode, be overlaid using the OpenXR overlay extension with the given priority.
#### Disable controller (--disable-controller)
Some runtimes such as Monado may emulate a controller using a hand, and this messes with Stardust's input system. Set this flag to ignore the controllers that the OpenXR runtime provides.
#### Execute (-e </path/to/executable>)
When wayland and OpenXR and such are initialized, run the given executable (such as a bash script) with all the environment variables needed to connect all clients of any type to the server. If not set, the server will run the executable at `~/.config/stardust/startup` if it exists. This is how stardust desktop environments can be made.
#### Help (-h, --help)
help
## Test
@@ -41,5 +82,4 @@ cargo install
##### Everything
`nix flake check` will build every test underneath of the `checks` attribute in the `flake.nix`
`nix flake check` will build every test underneath of the `checks` attribute in the `flake.nix`

18
codegen/Cargo.toml Normal file
View File

@@ -0,0 +1,18 @@
[package]
edition = "2021"
name = "stardust-xr-server-codegen"
version = "0.1.0"
[lib]
proc-macro = true
[dependencies]
convert_case = "0.6.0"
quote = "1.0.33"
mint = "0.5.9"
proc-macro2 = "1.0.71"
split-iter = "0.1.0"
[dependencies.stardust-xr-schemas]
git = "https://github.com/StardustXR/core.git"
branch = "dev"

617
codegen/src/lib.rs Normal file
View File

@@ -0,0 +1,617 @@
use convert_case::{Case, Casing};
use proc_macro2::{Ident, Span, TokenStream};
use quote::{quote, ToTokens};
use split_iter::Splittable;
use stardust_xr_schemas::protocol::*;
fn fold_tokens(a: TokenStream, b: TokenStream) -> TokenStream {
quote!(#a #b)
}
#[proc_macro]
pub fn codegen_root_protocol(_input: proc_macro::TokenStream) -> proc_macro::TokenStream {
codegen_protocol(ROOT_PROTOCOL)
}
#[proc_macro]
pub fn codegen_node_protocol(_input: proc_macro::TokenStream) -> proc_macro::TokenStream {
codegen_protocol(NODE_PROTOCOL)
}
#[proc_macro]
pub fn codegen_spatial_protocol(_input: proc_macro::TokenStream) -> proc_macro::TokenStream {
codegen_protocol(SPATIAL_PROTOCOL)
}
#[proc_macro]
pub fn codegen_field_protocol(_input: proc_macro::TokenStream) -> proc_macro::TokenStream {
codegen_protocol(FIELD_PROTOCOL)
}
#[proc_macro]
pub fn codegen_data_protocol(_input: proc_macro::TokenStream) -> proc_macro::TokenStream {
codegen_protocol(DATA_PROTOCOL)
}
#[proc_macro]
pub fn codegen_audio_protocol(_input: proc_macro::TokenStream) -> proc_macro::TokenStream {
codegen_protocol(AUDIO_PROTOCOL)
}
#[proc_macro]
pub fn codegen_drawable_protocol(_input: proc_macro::TokenStream) -> proc_macro::TokenStream {
codegen_protocol(DRAWABLE_PROTOCOL)
}
#[proc_macro]
pub fn codegen_input_protocol(_input: proc_macro::TokenStream) -> proc_macro::TokenStream {
codegen_protocol(INPUT_PROTOCOL)
}
#[proc_macro]
pub fn codegen_item_protocol(_input: proc_macro::TokenStream) -> proc_macro::TokenStream {
codegen_protocol(ITEM_PROTOCOL)
}
#[proc_macro]
pub fn codegen_item_camera_protocol(_input: proc_macro::TokenStream) -> proc_macro::TokenStream {
codegen_protocol(ITEM_CAMERA_PROTOCOL)
}
#[proc_macro]
pub fn codegen_item_panel_protocol(_input: proc_macro::TokenStream) -> proc_macro::TokenStream {
codegen_protocol(ITEM_PANEL_PROTOCOL)
}
fn codegen_protocol(protocol: &'static str) -> proc_macro::TokenStream {
let protocol = Protocol::parse(protocol).unwrap();
let interface = protocol
.interface
.map(|p| {
let node_id = p.node_id;
let node_id = quote! {
const INTERFACE_NODE_ID: u64 = #node_id;
};
let aspect = generate_aspect(&Aspect {
name: "interface".to_string(),
description: protocol.description.clone(),
inherits: vec![],
members: p.members,
});
quote!(#node_id #aspect)
})
.unwrap_or_default();
let custom_enums = protocol
.custom_enums
.iter()
.map(generate_custom_enum)
.reduce(fold_tokens)
.unwrap_or_default();
let custom_unions = protocol
.custom_unions
.iter()
.map(generate_custom_union)
.reduce(fold_tokens)
.unwrap_or_default();
let custom_structs = protocol
.custom_structs
.iter()
.map(generate_custom_struct)
.reduce(fold_tokens)
.unwrap_or_default();
let aspects = protocol
.aspects
.iter()
.map(generate_aspect)
.reduce(fold_tokens)
.unwrap_or_default();
quote!(#custom_enums #custom_unions #custom_structs #aspects #interface).into()
}
fn generate_custom_enum(custom_enum: &CustomEnum) -> TokenStream {
let name = Ident::new(&custom_enum.name.to_case(Case::Pascal), Span::call_site());
let description = &custom_enum.description;
let argument_decls = custom_enum
.variants
.iter()
.map(|a| Ident::new(&a.to_case(Case::Pascal), Span::call_site()).to_token_stream())
.reduce(|a, b| quote!(#a, #b))
.unwrap_or_default();
quote! {
#[doc = #description]
#[derive(Debug, Clone, Copy, serde_repr::Deserialize_repr, serde_repr::Serialize_repr)]
#[repr(u32)]
pub enum #name {#argument_decls}
}
}
fn generate_custom_union(custom_union: &CustomUnion) -> TokenStream {
let name = Ident::new(&custom_union.name.to_case(Case::Pascal), Span::call_site());
let description = &custom_union.description;
let option_decls = custom_union
.options
.iter()
.map(generate_union_option)
.reduce(|a, b| quote!(#a, #b))
.unwrap_or_default();
quote! {
#[doc = #description]
#[derive(Debug, Clone, serde::Deserialize, serde::Serialize)]
#[serde(untagged)]
pub enum #name {#option_decls}
}
}
fn generate_union_option(union_option: &UnionOption) -> TokenStream {
let name = union_option
.name
.as_ref()
.map(|n| n.to_case(Case::Pascal))
.unwrap_or_else(|| argument_type_option_name(&union_option._type));
let description = union_option
.description
.as_ref()
.map(|d| quote!(#[doc = #d]))
.unwrap_or_default();
let identifier = Ident::new(&name, Span::call_site());
let _type = generate_argument_type(&union_option._type, false, true);
quote! (#description #identifier(#_type))
}
fn generate_custom_struct(custom_struct: &CustomStruct) -> TokenStream {
let name = Ident::new(&custom_struct.name.to_case(Case::Pascal), Span::call_site());
let description = &custom_struct.description;
let argument_decls = custom_struct
.fields
.iter()
.map(|a| generate_argument_decl(a, true))
.map(|d| quote!(pub #d))
.reduce(|a, b| quote!(#a, #b))
.unwrap_or_default();
quote! {
#[doc = #description]
#[derive(Debug, Clone, serde::Deserialize, serde::Serialize)]
pub struct #name {#argument_decls}
}
}
fn generate_aspect(aspect: &Aspect) -> TokenStream {
let description = &aspect.description;
let (client_members, server_members) = aspect.members.iter().split(|m| m.side == Side::Server);
let client_mod_name = Ident::new(
&format!("{}_client", &aspect.name.to_case(Case::Snake)),
Span::call_site(),
);
let client_side_members = client_members
.map(generate_member)
.reduce(fold_tokens)
.map(|t| {
// TODO: properly import all dependencies
quote! {
pub mod #client_mod_name {
use super::*;
#t
}
}
})
.unwrap_or_default();
let aspect_trait_name = Ident::new(
&format!("{}Aspect", &aspect.name.to_case(Case::Pascal)),
Span::call_site(),
);
let opcodes = aspect
.members
.iter()
.map(|m| {
let aspect_name = aspect.name.to_case(Case::ScreamingSnake);
let member_name = m.name.to_case(Case::ScreamingSnake);
let name_type = if m.side == Side::Client {
"CLIENT"
} else {
"SERVER"
};
let name = Ident::new(
&format!("{aspect_name}_{member_name}_{name_type}_OPCODE"),
Span::call_site(),
);
let opcode = m.opcode;
quote!(pub(crate) const #name: u64 = #opcode;)
})
.reduce(fold_tokens)
.unwrap_or_default();
let alias_info = generate_alias_info(aspect);
let server_side_members = server_members
.map(generate_member)
.reduce(fold_tokens)
.unwrap_or_default();
let add_node_members = aspect
.members
.iter()
.filter(|m| m.side == Side::Server)
.map(generate_handler)
.reduce(fold_tokens)
.map(|members| {
quote! {
fn add_node_members(node: &crate::nodes::Node) {
#members
}
}
})
.unwrap_or_default();
let server_side_members = quote! {
#[doc = #description]
pub trait #aspect_trait_name {
#add_node_members
#server_side_members
}
};
quote!(#opcodes #alias_info #client_side_members #server_side_members)
}
fn generate_alias_opcodes(aspect: &Aspect, side: Side, _type: MemberType) -> TokenStream {
aspect
.members
.iter()
.filter(|m| m.side == side)
.filter(|m| m._type == _type)
.map(|m| m.opcode)
.map(|o| quote!(#o))
.reduce(|a, b| quote!(#a, #b))
.unwrap_or_default()
}
fn generate_alias_info(aspect: &Aspect) -> TokenStream {
let aspect_alias_info_name = Ident::new(
&format!(
"{}_ASPECT_ALIAS_INFO",
aspect.name.to_case(Case::ScreamingSnake)
),
Span::call_site(),
);
let local_signals = generate_alias_opcodes(aspect, Side::Server, MemberType::Signal);
let local_methods = generate_alias_opcodes(aspect, Side::Server, MemberType::Method);
let remote_signals = generate_alias_opcodes(aspect, Side::Client, MemberType::Signal);
let inherits = aspect
.inherits
.iter()
.map(|a| {
Ident::new(
&format!("{}_ASPECT_ALIAS_INFO", a.to_case(Case::ScreamingSnake)),
Span::call_site(),
)
})
.map(|a| quote!(#a.clone()))
.fold(quote!(), |a, b| quote!(#a + #b));
quote! {
lazy_static::lazy_static! {
pub static ref #aspect_alias_info_name: crate::nodes::alias::AliasInfo = crate::nodes::alias::AliasInfo {
server_signals: vec![#local_signals],
server_methods: vec![#local_methods],
client_signals: vec![#remote_signals],
}
#inherits;
}
}
}
fn generate_member(member: &Member) -> TokenStream {
let id = member.opcode;
let name = Ident::new(&member.name.to_case(Case::Snake), Span::call_site());
let description = &member.description;
let side = member.side;
let _type = member._type;
let first_args = match member.side {
Side::Server => {
quote!(_node: std::sync::Arc<crate::nodes::Node>, _calling_client: std::sync::Arc<crate::core::client::Client>)
}
Side::Client => quote!(_node: &crate::nodes::Node),
};
let argument_decls = member
.arguments
.iter()
.map(|a| generate_argument_decl(a, member.side == Side::Server))
.fold(first_args, |a, b| quote!(#a, #b));
let argument_uses = member
.arguments
.iter()
.map(|a| generate_argument_serialize(&a.name, &a._type, a.optional))
.reduce(|a, b| quote!(#a, #b))
.unwrap_or_default();
let return_type = member
.return_type
.as_ref()
.map(|r| generate_argument_type(r, false, true))
.unwrap_or_else(|| quote!(()));
match (side, _type) {
(Side::Client, MemberType::Method) => {
quote! {
#[doc = #description]
pub async fn #name(#argument_decls) -> color_eyre::eyre::Result<(#return_type, Vec<std::os::fd::OwnedFd>)> {
_node.execute_remote_method_typed(#id, &(#argument_uses), vec![]).await
}
}
}
(Side::Client, MemberType::Signal) => {
quote! {
#[doc = #description]
pub fn #name(#argument_decls) -> color_eyre::eyre::Result<()> {
let serialized = stardust_xr::schemas::flex::serialize((#argument_uses))?;
_node.send_remote_signal(#id, serialized)
}
}
}
(Side::Server, MemberType::Method) => {
quote! {
#[doc = #description]
fn #name(#argument_decls) -> impl std::future::Future<Output = color_eyre::eyre::Result<#return_type>> + Send + 'static;
}
}
(Side::Server, MemberType::Signal) => {
quote! {
#[doc = #description]
fn #name(#argument_decls) -> color_eyre::eyre::Result<()>;
}
}
}
}
fn generate_handler(member: &Member) -> TokenStream {
let opcode = member.opcode;
let member_name_ident = Ident::new(&member.name, Span::call_site());
let argument_names = member
.arguments
.iter()
.map(generate_argument_name)
.reduce(|a, b| quote!(#a, #b));
let argument_types = member
.arguments
.iter()
.map(|a| {
let _type = convert_deserializeable_argument_type(&a._type);
generate_argument_type(&_type, a.optional, true)
})
.reduce(|a, b| quote!(#a, #b));
// dbg!(&argument_types);
let deserialize = argument_names
.clone()
.zip(argument_types)
.map(|(argument_names, argument_types)| {
quote!(let (#argument_names): (#argument_types) = stardust_xr::schemas::flex::deserialize(_message.as_ref())?;)
})
.unwrap_or_default();
let serialize = generate_argument_serialize(
"result",
&member.return_type.clone().unwrap_or(ArgumentType::Empty),
false,
);
let argument_uses = member
.arguments
.iter()
.map(|a| generate_argument_deserialize(&a.name, &a._type, a.optional))
.reduce(|a, b| quote!(#a, #b))
.unwrap_or_default();
match member._type {
MemberType::Signal => quote! {
node.add_local_signal(#opcode, |_node, _calling_client, _message| {
#deserialize
Self::#member_name_ident(_node, _calling_client.clone(), #argument_uses)
});
},
MemberType::Method => quote! {
node.add_local_method(#opcode, |_node, _calling_client, _message, _method_response| {
_method_response.wrap_async(async move {
#deserialize
let result = Self::#member_name_ident(_node, _calling_client.clone(), #argument_uses).await?;
Ok((#serialize, Vec::new()))
});
});
},
}
}
fn generate_argument_name(argument: &Argument) -> TokenStream {
Ident::new(&argument.name.to_case(Case::Snake), Span::call_site()).to_token_stream()
}
fn convert_deserializeable_argument_type(argument_type: &ArgumentType) -> ArgumentType {
match argument_type {
ArgumentType::Node { .. } => ArgumentType::NodeID,
ArgumentType::Vec(v) => {
ArgumentType::Vec(Box::new(convert_deserializeable_argument_type(v.as_ref())))
}
ArgumentType::Map(v) => {
ArgumentType::Map(Box::new(convert_deserializeable_argument_type(v.as_ref())))
}
f => f.clone(),
}
}
fn generate_argument_deserialize(
argument_name: &str,
argument_type: &ArgumentType,
optional: bool,
) -> TokenStream {
let name = Ident::new(&argument_name.to_case(Case::Snake), Span::call_site());
if let ArgumentType::Node { .. } = argument_type {
return match optional {
true => quote!(#name.map(|n| _calling_client.get_node(#argument_name, n)?)),
false => quote!(_calling_client.get_node(#argument_name, #name)?),
};
}
if optional {
let mapping = generate_argument_deserialize("o", argument_type, false);
return quote!(#name.map(|o| Ok::<_, color_eyre::eyre::Report>(#mapping)).transpose()?);
}
match argument_type {
ArgumentType::Color => quote!(color::rgba_linear!(#name[0], #name[1], #name[2], #name[3])),
ArgumentType::Vec(v) => {
let mapping = generate_argument_deserialize("a", v, false);
quote!(#name.into_iter().map(|a| Ok(#mapping)).collect::<color_eyre::eyre::Result<Vec<_>>>()?)
}
ArgumentType::Map(v) => {
let mapping = generate_argument_deserialize("a", v, false);
quote!(#name.into_iter().map(|(k, a)| Ok((k, #mapping))).collect::<color_eyre::eyre::Result<rustc_hash::FxHashMap<String, _>>>()?)
}
_ => quote!(#name),
}
}
fn generate_argument_serialize(
argument_name: &str,
argument_type: &ArgumentType,
optional: bool,
) -> TokenStream {
let name = Ident::new(&argument_name.to_case(Case::Snake), Span::call_site());
match argument_type {
ArgumentType::Node {
_type,
return_id_parameter_name: _,
} => match optional {
true => quote!(#name.map(|n| n.get_id())),
false => quote!(#name.get_id()),
},
ArgumentType::Color => quote!([#name.c.r, #name.c.g, #name.c.b, #name.a]),
ArgumentType::Vec(v) => {
let mapping = generate_argument_serialize("a", v, false);
quote!(#name.into_iter().map(|a| Ok(#mapping)).collect::<color_eyre::eyre::Result<Vec<_>>>()?)
}
ArgumentType::Map(v) => {
let mapping = generate_argument_serialize("a", v, false);
quote!(#name.into_iter().map(|(k, a)| Ok((k, #mapping))).collect::<color_eyre::eyre::Result<rustc_hash::FxHashMap<String, _>>>()?)
}
_ => quote!(#name),
}
}
fn generate_argument_decl(argument: &Argument, owned_values: bool) -> TokenStream {
let name = Ident::new(&argument.name.to_case(Case::Snake), Span::call_site());
let mut _type = generate_argument_type(&argument._type, argument.optional, owned_values);
quote!(#name: #_type)
}
fn argument_type_option_name(argument_type: &ArgumentType) -> String {
match argument_type {
ArgumentType::Empty => "Empty".to_string(),
ArgumentType::Bool => "Bool".to_string(),
ArgumentType::Int => "Int".to_string(),
ArgumentType::UInt => "UInt".to_string(),
ArgumentType::Float => "Float".to_string(),
ArgumentType::Vec2(_) => "Vec2".to_string(),
ArgumentType::Vec3(_) => "Vec3".to_string(),
ArgumentType::Quat => "Quat".to_string(),
ArgumentType::Mat4 => "Mat4".to_string(),
ArgumentType::Color => "Color".to_string(),
ArgumentType::String => "String".to_string(),
ArgumentType::Bytes => "Bytes".to_string(),
ArgumentType::Vec(v) => format!("{}Vector", argument_type_option_name(v)),
ArgumentType::Map(m) => format!("{}Map", argument_type_option_name(m)),
ArgumentType::NodeID => "Node ID".to_string(),
ArgumentType::Datamap => "Datamap".to_string(),
ArgumentType::ResourceID => "ResourceID".to_string(),
ArgumentType::Enum(e) => e.clone(),
ArgumentType::Union(u) => u.clone(),
ArgumentType::Struct(s) => s.clone(),
ArgumentType::Node { _type, .. } => _type.clone(),
}
}
fn generate_argument_type(
argument_type: &ArgumentType,
optional: bool,
owned: bool,
) -> TokenStream {
let _type = match argument_type {
ArgumentType::Empty => quote!(()),
ArgumentType::Bool => quote!(bool),
ArgumentType::Int => quote!(i32),
ArgumentType::UInt => quote!(u32),
ArgumentType::Float => quote!(f32),
ArgumentType::Vec2(t) => {
let t = generate_argument_type(t, false, true);
quote!(stardust_xr::values::Vector2<#t>)
}
ArgumentType::Vec3(t) => {
let t = generate_argument_type(t, false, true);
quote!(stardust_xr::values::Vector3<#t>)
}
ArgumentType::Quat => quote!(stardust_xr::values::Quaternion),
ArgumentType::Mat4 => quote!(stardust_xr::values::Mat4),
ArgumentType::Color => quote!(stardust_xr::values::Color),
ArgumentType::Bytes => {
if !owned {
quote!(&[u8])
} else {
quote!(Vec<u8>)
}
}
ArgumentType::String => {
if !owned {
quote!(&str)
} else {
quote!(String)
}
}
ArgumentType::Vec(t) => {
let t = generate_argument_type(t, false, true);
if !owned {
quote!(&[#t])
} else {
quote!(Vec<#t>)
}
}
ArgumentType::Map(t) => {
let t = generate_argument_type(t, false, true);
if !owned {
quote!(&stardust_xr::values::Map<String, #t>)
} else {
quote!(stardust_xr::values::Map<String, #t>)
}
}
ArgumentType::NodeID => quote!(u64),
ArgumentType::Datamap => {
if !owned {
quote!(&stardust_xr::values::Datamap)
} else {
quote!(stardust_xr::values::Datamap)
}
}
ArgumentType::ResourceID => {
if !owned {
quote!(&stardust_xr::values::ResourceID)
} else {
quote!(stardust_xr::values::ResourceID)
}
}
ArgumentType::Enum(e) => {
let enum_name = Ident::new(&e.to_case(Case::Pascal), Span::call_site());
quote!(#enum_name)
}
ArgumentType::Union(u) => {
let union_name = Ident::new(&u.to_case(Case::Pascal), Span::call_site());
quote!(#union_name)
}
ArgumentType::Struct(s) => {
let struct_name = Ident::new(&s.to_case(Case::Pascal), Span::call_site());
if !owned {
quote!(&#struct_name)
} else {
quote!(#struct_name)
}
}
ArgumentType::Node {
_type,
return_id_parameter_name: _,
} => {
if !owned {
quote!(&std::sync::Arc<crate::nodes::Node>)
} else {
quote!(std::sync::Arc<crate::nodes::Node>)
}
}
};
if optional {
quote!(Option<#_type>)
} else {
_type
}
}

358
flake.lock generated
View File

@@ -1,61 +1,23 @@
{
"nodes": {
"fenix": {
"inputs": {
"nixpkgs": [
"nixpkgs"
],
"rust-analyzer-src": "rust-analyzer-src"
},
"locked": {
"lastModified": 1683786056,
"narHash": "sha256-Wrz/X9D0t8akhvEGj5a93xgpxI3vAcdPGcwn6tKHooc=",
"owner": "nix-community",
"repo": "fenix",
"rev": "5816c7bbcc385d2e65877631497df3f7d66b354a",
"type": "github"
},
"original": {
"owner": "nix-community",
"repo": "fenix",
"type": "github"
}
},
"fenix_2": {
"crane": {
"inputs": {
"nixpkgs": [
"flatland",
"nixpkgs"
],
"rust-analyzer-src": "rust-analyzer-src_2"
]
},
"locked": {
"lastModified": 1678775037,
"narHash": "sha256-chx0tWnXKpcayPkPY3Qh+2hNwptvX8XE3o+fYZ+GNzg=",
"owner": "nix-community",
"repo": "fenix",
"rev": "ee59e1c769657b1e27e608f8b981fa8f6b715583",
"lastModified": 1712681629,
"narHash": "sha256-bMDXn4AkTXLCpoZbII6pDGoSeSe9gI87jxPsHRXgu/E=",
"owner": "ipetkov",
"repo": "crane",
"rev": "220387ac8e99cbee0ca4c95b621c4bc782b6a235",
"type": "github"
},
"original": {
"owner": "nix-community",
"repo": "fenix",
"type": "github"
}
},
"flake-compat": {
"flake": false,
"locked": {
"lastModified": 1673956053,
"narHash": "sha256-4gtG9iQuiKITOjNQQeQIpoIB6b16fm+504Ch3sNKLd8=",
"owner": "edolstra",
"repo": "flake-compat",
"rev": "35bb57c0c8d8b62bbfd284272c928ceb64ddbde9",
"type": "github"
},
"original": {
"owner": "edolstra",
"repo": "flake-compat",
"owner": "ipetkov",
"repo": "crane",
"type": "github"
}
},
@@ -64,11 +26,32 @@
"nixpkgs-lib": "nixpkgs-lib"
},
"locked": {
"lastModified": 1678379998,
"narHash": "sha256-TZdfNqftHhDuIFwBcN9MUThx5sQXCTeZk9je5byPKRw=",
"lastModified": 1722555600,
"narHash": "sha256-XOQkdLafnb/p9ij77byFQjDf5m5QYl9b2REiVClC+x4=",
"owner": "hercules-ci",
"repo": "flake-parts",
"rev": "c13d60b89adea3dc20704c045ec4d50dd964d447",
"rev": "8471fe90ad337a8074e957b69ca4d0089218391d",
"type": "github"
},
"original": {
"owner": "hercules-ci",
"repo": "flake-parts",
"type": "github"
}
},
"flake-parts_2": {
"inputs": {
"nixpkgs-lib": [
"hercules-ci-effects",
"nixpkgs"
]
},
"locked": {
"lastModified": 1712014858,
"narHash": "sha256-sB4SWl2lX95bExY2gMFG5HIzvva5AVMJd4Igm+GpZNw=",
"owner": "hercules-ci",
"repo": "flake-parts",
"rev": "9126214d0a59633752a136528f5f3b9aa8565b7d",
"type": "github"
},
"original": {
@@ -76,54 +59,17 @@
"type": "indirect"
}
},
"flake-parts_2": {
"inputs": {
"nixpkgs-lib": [
"hercules-ci-effects",
"hercules-ci-agent",
"nixpkgs"
]
},
"locked": {
"lastModified": 1678379998,
"narHash": "sha256-TZdfNqftHhDuIFwBcN9MUThx5sQXCTeZk9je5byPKRw=",
"owner": "hercules-ci",
"repo": "flake-parts",
"rev": "c13d60b89adea3dc20704c045ec4d50dd964d447",
"type": "github"
},
"original": {
"owner": "hercules-ci",
"repo": "flake-parts",
"type": "github"
}
},
"flake-utils": {
"locked": {
"lastModified": 1667395993,
"narHash": "sha256-nuEHfE/LcWyuSWnS8t12N1wc105Qtau+/OdUAjtQ0rA=",
"owner": "numtide",
"repo": "flake-utils",
"rev": "5aed5285a952e0b949eb3ba02c12fa4fcfef535f",
"type": "github"
},
"original": {
"owner": "numtide",
"repo": "flake-utils",
"type": "github"
}
},
"flatland": {
"inputs": {
"fenix": "fenix_2",
"crane": "crane",
"nixpkgs": "nixpkgs"
},
"locked": {
"lastModified": 1683766358,
"narHash": "sha256-wX1Lpj95kkHUZAloB1fGs+ixaRycaOJq4F77+HvaJCQ=",
"lastModified": 1713050562,
"narHash": "sha256-m7c6XpmpTM1URuqMG2KqtaWbL2Vt8vJFJtmvq123BmY=",
"owner": "StardustXR",
"repo": "flatland",
"rev": "24613a496841bdf38e5f136608d5295860a75fce",
"rev": "b3b0f29c4ea1b82c96cf9de507837bf15a5e4c0e",
"type": "github"
},
"original": {
@@ -132,78 +78,17 @@
"type": "github"
}
},
"gitignore": {
"inputs": {
"nixpkgs": [
"hercules-ci-effects",
"hercules-ci-agent",
"pre-commit-hooks-nix",
"nixpkgs"
]
},
"locked": {
"lastModified": 1660459072,
"narHash": "sha256-8DFJjXG8zqoONA1vXtgeKXy68KdJL5UaXR8NtVMUbx8=",
"owner": "hercules-ci",
"repo": "gitignore.nix",
"rev": "a20de23b925fd8264fd7fad6454652e142fd7f73",
"type": "github"
},
"original": {
"owner": "hercules-ci",
"repo": "gitignore.nix",
"type": "github"
}
},
"haskell-flake": {
"locked": {
"lastModified": 1678138103,
"narHash": "sha256-D0lao82bV3t2gEFjHiU6RN233t+1MnkQV+bq8MEu2ic=",
"owner": "hercules-ci",
"repo": "haskell-flake",
"rev": "1e1660e6dd00838ba73bc7952e6e73be67da18d1",
"type": "github"
},
"original": {
"owner": "hercules-ci",
"ref": "0.1-extraLibraries",
"repo": "haskell-flake",
"type": "github"
}
},
"hercules-ci-agent": {
"inputs": {
"flake-parts": "flake-parts_2",
"haskell-flake": "haskell-flake",
"nix-darwin": "nix-darwin",
"nixpkgs": "nixpkgs_2",
"pre-commit-hooks-nix": "pre-commit-hooks-nix"
},
"locked": {
"lastModified": 1678446614,
"narHash": "sha256-Z6Gsba5ahn/N0QlF0vJfIEfnZgCs4qr1IZtXAqjbE7s=",
"owner": "hercules-ci",
"repo": "hercules-ci-agent",
"rev": "0b90d1a87c117a5861785cb85833dd1c9df0b6ef",
"type": "github"
},
"original": {
"id": "hercules-ci-agent",
"type": "indirect"
}
},
"hercules-ci-effects": {
"inputs": {
"flake-parts": "flake-parts",
"hercules-ci-agent": "hercules-ci-agent",
"nixpkgs": "nixpkgs_3"
"flake-parts": "flake-parts_2",
"nixpkgs": "nixpkgs_2"
},
"locked": {
"lastModified": 1681898675,
"narHash": "sha256-nIJ7CAdiHv4i1no/VgDoeTJLzbLYwu5+/Ycoyzn0S78=",
"lastModified": 1719226092,
"narHash": "sha256-YNkUMcCUCpnULp40g+svYsaH1RbSEj6s4WdZY/SHe38=",
"owner": "hercules-ci",
"repo": "hercules-ci-effects",
"rev": "15ff4f63e5f28070391a5b09a82f6d5c6cc5c9d0",
"rev": "11e4b8dc112e2f485d7c97e1cee77f9958f498f5",
"type": "github"
},
"original": {
@@ -212,85 +97,41 @@
"type": "github"
}
},
"nix-darwin": {
"inputs": {
"nixpkgs": [
"hercules-ci-effects",
"hercules-ci-agent",
"nixpkgs"
]
},
"locked": {
"lastModified": 1673295039,
"narHash": "sha256-AsdYgE8/GPwcelGgrntlijMg4t3hLFJFCRF3tL5WVjA=",
"owner": "LnL7",
"repo": "nix-darwin",
"rev": "87b9d090ad39b25b2400029c64825fc2a8868943",
"type": "github"
},
"original": {
"owner": "LnL7",
"repo": "nix-darwin",
"type": "github"
}
},
"nixpkgs": {
"locked": {
"lastModified": 1678703398,
"narHash": "sha256-Y1mW3dBsoWLHpYm+UIHb5VZ7rx024NNHaF16oZBx++o=",
"lastModified": 1712791164,
"narHash": "sha256-3sbWO1mbpWsLepZGbWaMovSO7ndZeFqDSdX0hZ9nVyw=",
"owner": "NixOS",
"repo": "nixpkgs",
"rev": "67f26c1cfc5d5783628231e776a81c1ade623e0b",
"rev": "1042fd8b148a9105f3c0aca3a6177fd1d9360ba5",
"type": "github"
},
"original": {
"owner": "NixOS",
"ref": "nixos-22.11",
"repo": "nixpkgs",
"type": "github"
}
},
"nixpkgs-lib": {
"locked": {
"dir": "lib",
"lastModified": 1678375444,
"narHash": "sha256-XIgHfGvjFvZQ8hrkfocanCDxMefc/77rXeHvYdzBMc8=",
"owner": "NixOS",
"repo": "nixpkgs",
"rev": "130fa0baaa2b93ec45523fdcde942f6844ee9f6e",
"type": "github"
},
"original": {
"dir": "lib",
"owner": "NixOS",
"ref": "nixos-unstable",
"repo": "nixpkgs",
"type": "github"
}
},
"nixpkgs-stable": {
"nixpkgs-lib": {
"locked": {
"lastModified": 1673800717,
"narHash": "sha256-SFHraUqLSu5cC6IxTprex/nTsI81ZQAtDvlBvGDWfnA=",
"owner": "NixOS",
"repo": "nixpkgs",
"rev": "2f9fd351ec37f5d479556cd48be4ca340da59b8f",
"type": "github"
"lastModified": 1722555339,
"narHash": "sha256-uFf2QeW7eAHlYXuDktm9c25OxOyCoUOQmh5SZ9amE5Q=",
"type": "tarball",
"url": "https://github.com/NixOS/nixpkgs/archive/a5d394176e64ab29c852d03346c1fc9b0b7d33eb.tar.gz"
},
"original": {
"owner": "NixOS",
"ref": "nixos-22.11",
"repo": "nixpkgs",
"type": "github"
"type": "tarball",
"url": "https://github.com/NixOS/nixpkgs/archive/a5d394176e64ab29c852d03346c1fc9b0b7d33eb.tar.gz"
}
},
"nixpkgs_2": {
"locked": {
"lastModified": 1678293141,
"narHash": "sha256-lLlQHaR0y+q6nd6kfpydPTGHhl1rS9nU9OQmztzKOYs=",
"lastModified": 1713714899,
"narHash": "sha256-+z/XjO3QJs5rLE5UOf015gdVauVRQd2vZtsFkaXBq2Y=",
"owner": "NixOS",
"repo": "nixpkgs",
"rev": "c90c4025bb6e0c4eaf438128a3b2640314b1c58d",
"rev": "6143fc5eeb9c4f00163267708e26191d1e918932",
"type": "github"
},
"original": {
@@ -302,101 +143,26 @@
},
"nixpkgs_3": {
"locked": {
"lastModified": 1678891326,
"narHash": "sha256-cjgrjKx7y+hO9I8O2b6QvBaTt9w7Xhk/5hsnJYTUb2I=",
"owner": "NixOS",
"lastModified": 1723991338,
"narHash": "sha256-Grh5PF0+gootJfOJFenTTxDTYPidA3V28dqJ/WV7iis=",
"owner": "nixos",
"repo": "nixpkgs",
"rev": "1544ef240132d4357d9a39a40c8e6afd1678b052",
"rev": "8a3354191c0d7144db9756a74755672387b702ba",
"type": "github"
},
"original": {
"owner": "NixOS",
"repo": "nixpkgs",
"type": "github"
}
},
"nixpkgs_4": {
"locked": {
"lastModified": 1683408522,
"narHash": "sha256-9kcPh6Uxo17a3kK3XCHhcWiV1Yu1kYj22RHiymUhMkU=",
"owner": "NixOS",
"repo": "nixpkgs",
"rev": "897876e4c484f1e8f92009fd11b7d988a121a4e7",
"type": "github"
},
"original": {
"owner": "NixOS",
"owner": "nixos",
"ref": "nixos-unstable",
"repo": "nixpkgs",
"type": "github"
}
},
"pre-commit-hooks-nix": {
"inputs": {
"flake-compat": "flake-compat",
"flake-utils": "flake-utils",
"gitignore": "gitignore",
"nixpkgs": [
"hercules-ci-effects",
"hercules-ci-agent",
"nixpkgs"
],
"nixpkgs-stable": "nixpkgs-stable"
},
"locked": {
"lastModified": 1678376203,
"narHash": "sha256-3tyYGyC8h7fBwncLZy5nCUjTJPrHbmNwp47LlNLOHSM=",
"owner": "cachix",
"repo": "pre-commit-hooks.nix",
"rev": "1a20b9708962096ec2481eeb2ddca29ed747770a",
"type": "github"
},
"original": {
"owner": "cachix",
"repo": "pre-commit-hooks.nix",
"type": "github"
}
},
"root": {
"inputs": {
"fenix": "fenix",
"flake-parts": "flake-parts",
"flatland": "flatland",
"hercules-ci-effects": "hercules-ci-effects",
"nixpkgs": "nixpkgs_4"
}
},
"rust-analyzer-src": {
"flake": false,
"locked": {
"lastModified": 1683653808,
"narHash": "sha256-GiKwJySG/YCPIKwz9wSm9fJa5e4CU3GvTYAKZzjBhFo=",
"owner": "rust-lang",
"repo": "rust-analyzer",
"rev": "b7cdd93f3e1533e96d4cfa1ac8573e6210a2bedf",
"type": "github"
},
"original": {
"owner": "rust-lang",
"ref": "nightly",
"repo": "rust-analyzer",
"type": "github"
}
},
"rust-analyzer-src_2": {
"flake": false,
"locked": {
"lastModified": 1678695923,
"narHash": "sha256-rDhiiU8P6sf6mgj5IKgCuTRN9uYeqWr6xl4XLkKnMWg=",
"owner": "rust-lang",
"repo": "rust-analyzer",
"rev": "95497533524537b1cc7a2870ce94b0b14503be8b",
"type": "github"
},
"original": {
"owner": "rust-lang",
"ref": "nightly",
"repo": "rust-analyzer",
"type": "github"
"nixpkgs": "nixpkgs_3"
}
}
},

196
flake.nix
View File

@@ -1,132 +1,90 @@
{
nixConfig = {
extra-substituters = [ "https://stardustxr.cachix.org" ];
extra-trusted-public-keys = [ "stardustxr.cachix.org-1:mWSn8Ap2RLsIWT/8gsj+VfbJB6xoOkPaZpbjO+r9HBo=" ];
extra-trusted-public-keys = [
"stardustxr.cachix.org-1:mWSn8Ap2RLsIWT/8gsj+VfbJB6xoOkPaZpbjO+r9HBo="
];
};
inputs = {
nixpkgs.url = "github:nixos/nixpkgs/nixos-unstable";
flake-parts.url = "github:hercules-ci/flake-parts";
hercules-ci-effects.url = "github:hercules-ci/hercules-ci-effects";
# 22.11 does not include PR #218472, hence we use the unstable version
inputs.nixpkgs.url = github:NixOS/nixpkgs/nixos-unstable;
# Since we do not have a monorepo, we have to fetch Flatland in order to use
# it to create VM Tests
inputs.flatland.url = "github:StardustXR/flatland";
inputs.fenix.url = github:nix-community/fenix;
inputs.fenix.inputs.nixpkgs.follows = "nixpkgs";
inputs.hercules-ci-effects.url = "github:hercules-ci/hercules-ci-effects";
outputs = { self, nixpkgs, fenix, hercules-ci-effects, flatland, ... }:
# Since we do not have a monorepo, we have to fetch Flatland in order to use
# it to create VM Tests
flatland.url = "github:StardustXR/flatland";
};
outputs =
inputs@{ self, flake-parts, nixpkgs, hercules-ci-effects, flatland, ... }:
let
name = "server";
pkgs = system: import nixpkgs {
inherit system;
name = (builtins.fromTOML (builtins.readFile ./Cargo.toml)).package.name;
src = builtins.path {
name = "${name}-source";
path = toString ./.;
filter = path: type:
nixpkgs.lib.all (n: builtins.baseNameOf path != n) [
"flake.nix"
"flake.lock"
"nix"
"README.md"
];
};
shell = pkgs: pkgs.mkShell {
inputsFrom = [ self.packages.${pkgs.system}.default ];
# ---- START package specific dev settings ----
LIBCLANG_PATH = "${pkgs.libclang.lib}/lib";
# ---- END package specific dev settings ----
};
package = pkgs:
let
toolchain = fenix.packages.${pkgs.system}.minimal.toolchain;
in
(pkgs.makeRustPlatform {
cargo = toolchain;
rustc = toolchain;
}).buildRustPackage rec {
pname = "stardust-xr-${name}";
src = builtins.path {
name = "stardust-xr-source";
path = toString ./.;
filter = path: type:
nixpkgs.lib.all
(n: builtins.baseNameOf path != n)
[
"flake.nix"
"flake.lock"
"nix"
"README.md"
];
};
# ---- START package specific settings ----
version = "0.10.2";
cargoLock = {
lockFile = ./Cargo.lock;
allowBuiltinFetchGit = true;
};
postPatch = ''
sk=$(echo $cargoDepsCopy/stereokit-sys-*/StereoKit)
mkdir -p $sk/build/cpm
cp ${pkgs.fetchurl {
url = "https://github.com/cpm-cmake/CPM.cmake/releases/download/v0.32.2/CPM.cmake";
hash = "sha256-yDHlpqmpAE8CWiwJRoWyaqbuBAg0090G8WJIC2KLHp8=";
}} $sk/build/cpm/CPM_0.32.2.cmake
'';
CPM_SOURCE_CACHE = "./build";
nativeBuildInputs = with pkgs; [
cmake pkg-config llvmPackages.libcxxClang
];
buildInputs = with pkgs; [
openxr-loader libGL mesa xorg.libX11 fontconfig libxkbcommon
];
LIBCLANG_PATH = "${pkgs.libclang.lib}/lib";
# ---- END package specific settings ----
in flake-parts.lib.mkFlake { inherit inputs; } {
imports = [ flake-parts.flakeModules.easyOverlay ];
systems = [ "aarch64-linux" "x86_64-linux" "riscv64-linux" ];
perSystem = { config, self', inputs', pkgs, system, ... }: {
_module.args.pkgs = import inputs.nixpkgs {
inherit system;
overlays = [ inputs.self.overlays.default ];
};
overlayAttrs = config.packages;
packages = let sk_gpu = pkgs.callPackage ./nix/sk_gpu.nix { };
in {
default = self'.packages.${name};
gnome-graphical-test = self'.checks.gnome-graphical-test;
"${name}" = pkgs.callPackage ./nix/stardust-xr-server.nix {
inherit name src sk_gpu;
};
in
{
overlays.default = final: prev: {
stardust-xr = (prev.stardust-xr or {}) // {
${name} = package final;
};
apps.default = {
type = "app";
program = self'.packages.${name} + "/bin/stardust-xr-server";
};
checks.gnome-graphical-test = pkgs.nixosTest
(import ./nix/gnome-graphical-test.nix { inherit pkgs self; });
devShells.default = pkgs.mkShell {
inputsFrom = [ self'.packages.default ];
LIBCLANG_PATH = "${pkgs.libclang.lib}/lib";
};
};
packages."x86_64-linux".default = package (pkgs "x86_64-linux");
packages."aarch64-linux".default = package (pkgs "aarch64-linux");
packages."x86_64-linux".gnome-graphical-test = self.checks.x86_64-linux.gnome-graphical-test;
packages."aarch64-linux".gnome-graphical-test = self.checks.aarch64-linux.gnome-graphical-test;
checks."x86_64-linux".gnome-graphical-test = (pkgs "x86_64-linux").nixosTest (import ./nix/gnome-graphical-test.nix { pkgs = (pkgs "x86_64-linux"); inherit self; });
checks."aarch64-linux".gnome-graphical-test = (pkgs "aarch64-linux").nixosTest (import ./nix/gnome-graphical-test.nix { pkgs = (pkgs "aarch64-linux"); inherit self; });
devShells."x86_64-linux".default = shell (pkgs "x86_64-linux");
devShells."aarch64-linux".default = shell (pkgs "aarch64-linux");
herculesCI.ciSystems = [ "x86_64-linux" ];
effects = let
pkgs = nixpkgs.legacyPackages.x86_64-linux;
hci-effects = hercules-ci-effects.lib.withPkgs pkgs;
in { branch, rev, ... }: {
gnome-graphical-test = hci-effects.mkEffect {
secretsMap."stardustxrDiscord" = "stardustxrDiscord";
secretsMap."stardustxrIpfs" = "stardustxrIpfs";
effectScript = ''
readSecretString stardustxrDiscord .webhook > .webhook
readSecretString stardustxrIpfs .basicauth > .basicauth
set -x
export RESPONSE=$(curl -H @.basicauth -F file=@${self.packages."x86_64-linux".gnome-graphical-test}/screen.png https://ipfs-api.stardustxr.org/api/v0/add)
export CID=$(echo "$RESPONSE" | ${pkgs.jq}/bin/jq -r .Hash)
set +x
export ADDRESS="https://ipfs.stardustxr.org/ipfs/$CID"
${pkgs.discord-sh}/bin/discord.sh \
--description "\`stardustxr/server\` has been modified, here's how it renders \`weston-cliptest\` on \`flatland\` via \`monado-service\` inside of the \`gnome-graphical-test\`" \
--field "Branch;${branch}" \
--field "Commit ID;${rev}" \
--field "Flatland Revision;${flatland.rev}" \
--field "Reproducer;\`nix build github:stardustxr/server/${rev}#gnome-graphical-test\`" \
--image "$ADDRESS"
'';
flake = {
herculesCI.ciSystems = [ "x86_64-linux" ];
effects = let
pkgs = nixpkgs.legacyPackages.x86_64-linux;
hci-effects = hercules-ci-effects.lib.withPkgs pkgs;
in { ref, rev, ... }: {
gnome-graphical-test = hci-effects.mkEffect {
secretsMap."stardustxrDiscord" = "stardustxrDiscord";
secretsMap."stardustxrIpfs" = "stardustxrIpfs";
effectScript = ''
readSecretString stardustxrDiscord .webhook > .webhook
readSecretString stardustxrIpfs .basicauth > .basicauth
set -x
export RESPONSE=$(curl -H @.basicauth -F file=@${
self.packages."x86_64-linux".gnome-graphical-test
}/screen.png https://ipfs-api.stardustxr.org/api/v0/add)
export CID=$(echo "$RESPONSE" | ${pkgs.jq}/bin/jq -r .Hash)
set +x
export ADDRESS="https://ipfs.stardustxr.org/ipfs/$CID"
${pkgs.discord-sh}/bin/discord.sh \
--description "\`stardustxr/server\` has been modified, here's how it renders \`weston-cliptest\` on \`flatland\` via \`monado-service\` inside of the \`gnome-graphical-test\`" \
--field "Ref;${ref}" \
--field "Commit ID;${rev}" \
--field "Flatland Revision;${flatland.rev}" \
--field "Reproducer;\`nix build github:stardustxr/server/${rev}#gnome-graphical-test\`" \
--image "$ADDRESS"
'';
};
};
};
};

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27
nix/meshoptimizer.nix Normal file
View File

@@ -0,0 +1,27 @@
{ lib, stdenv, fetchFromGitHub, cmake }:
stdenv.mkDerivation rec {
pname = "meshoptimizer";
version = "0.20";
src = fetchFromGitHub {
owner = "zeux";
repo = "meshoptimizer";
rev = "c21d3be6ddf627f8ca852ba4b6db9903b0557858";
sha256 = "sha256-QCxpM2g8WtYSZHkBzLTJNQ/oHb5j/n9rjaVmZJcCZIA=";
};
nativeBuildInputs = [ cmake ];
cmakeFlags = [
"-DCMAKE_POSITION_INDEPENDENT_CODE=ON"
];
meta = with lib; {
description = "Mesh optimization library that makes meshes smaller and faster to render";
homepage = "https://github.com/zeux/meshoptimizer";
license = licenses.mit;
platforms = platforms.all;
};
}

16
nix/sk_gpu.nix Normal file
View File

@@ -0,0 +1,16 @@
{ stdenv, fetchurl, unzip }:
let
sk_gpu_zip = fetchurl {
url =
"https://github.com/StereoKit/sk_gpu/releases/download/v2024.8.16/sk_gpu.v2024.8.16.zip";
sha256 = "sha256-Wk3PZFlWqhrsQ8xG0sQaV2xSasdg2D7TMiPvl/CgtGU=";
};
in stdenv.mkDerivation rec {
name = "sk_gpu";
src = sk_gpu_zip;
unpackPhase = ''
unzip -d $out ${sk_gpu_zip}
'';
nativeBuildInputs = [ unzip ];
}

86
nix/stardust-xr-server.nix Normal file
View File

@@ -0,0 +1,86 @@
{ rustPlatform
, src
, name
, libGL
, mesa
, xorg
, fontconfig
, libxkbcommon
, libclang
, cmake
, cpm-cmake
, pkg-config
, llvmPackages
, fetchFromGitHub
, sk_gpu
, libXau
, libXdmcp
, stdenv
, lib
, openxr-loader
}:
rustPlatform.buildRustPackage rec {
inherit src name;
cargoLock = {
lockFile = (src + "/Cargo.lock");
allowBuiltinFetchGit = true;
};
buildFeatures = [ "local_deps" ];
FORCE_LOCAL_DEPS = true;
CPM_LOCAL_PACKAGES_ONLY = true;
CPM_SOURCE_CACHE = "./build";
CPM_USE_LOCAL_PACKAGES = true;
CPM_DOWNLOAD_ALL = false;
meshoptimizer = fetchFromGitHub {
owner = "zeux";
repo = "meshoptimizer";
rev = "c21d3be6ddf627f8ca852ba4b6db9903b0557858";
sha256 = "sha256-QCxpM2g8WtYSZHkBzLTJNQ/oHb5j/n9rjaVmZJcCZIA=";
};
basis_universal = fetchFromGitHub {
owner = "BinomialLLC";
repo = "basis_universal";
rev = "900e40fb5d2502927360fe2f31762bdbb624455f";
sha256 = "sha256-zBRAXgG5Fi6+5uPQCI/RCGatY6O4ELuYBoKrPNn4K+8=";
};
DEP_MESHOPTIMIZER_SOURCE = "${meshoptimizer}";
DEP_BASIS_UNIVERSAL_SOURCE = "${basis_universal}";
DEP_SK_GPU_SOURCE = "${sk_gpu}";
postPatch = let libPath = lib.makeLibraryPath [ stdenv.cc.cc.lib ];
in ''
sk=$(echo $cargoDepsCopy/stereokit-rust-*/StereoKit)
mkdir -p $sk/build/cpm
# This is not ideal, the original approach was to fetch the exact cmake
# file version that was wanted from GitHub directly, but at least this way it comes from Nixpkgs.. so meh
cp ${cpm-cmake}/share/cpm/CPM.cmake $sk/build/cpm/CPM_0.38.7.cmake
mkdir -p $sk/sk_gpu
cp -R ${sk_gpu}/* $sk/sk_gpu
chmod -R 755 $sk/sk_gpu/tools/linux_x64/*
export DEP_SK_GPU_SOURCE=$sk/sk_gpu
export LD_LIBRARY_PATH="${stdenv.cc.cc.lib}/lib";
patchelf --set-interpreter "$(cat $NIX_CC/nix-support/dynamic-linker)" \
--set-rpath "${libPath}" \
$sk/sk_gpu/tools/linux_x64/skshaderc
'';
nativeBuildInputs = [ cmake pkg-config llvmPackages.libcxxClang ];
buildInputs = [
libGL
mesa
xorg.libX11.dev
xorg.libXft
xorg.libXfixes
fontconfig
libxkbcommon
libXau
libXdmcp
openxr-loader
];
LIBCLANG_PATH = "${libclang.lib}/lib";
}

106
src/core/client.rs
View File

@@ -1,21 +1,24 @@
use super::scenegraph::Scenegraph;
use super::{
client_state::{ClientStateParsed, CLIENT_STATES},
destroy_queue,
scenegraph::Scenegraph,
};
use crate::{
core::{registry::OwnedRegistry, task},
nodes::{
audio, data, drawable, fields, hmd, input, items,
root::Root,
spatial,
startup::{self, StartupSettings, STARTUP_SETTINGS},
Node,
audio, data, drawable, fields, input, items,
root::{ClientState, Root},
spatial, Node,
},
};
use color_eyre::eyre::{eyre, Result};
use global_counter::primitive::exact::CounterU32;
use lazy_static::lazy_static;
use once_cell::sync::OnceCell;
use parking_lot::Mutex;
use rustc_hash::FxHashMap;
use stardust_xr::messenger::{self, MessageSenderHandle};
use std::{fs, iter::FromIterator, path::PathBuf, sync::Arc};
use std::{fmt::Debug, fs, iter::FromIterator, path::PathBuf, sync::Arc};
use tokio::{net::UnixStream, task::JoinHandle};
use tracing::info;
@@ -31,10 +34,11 @@ lazy_static! {
disconnect_status: OnceCell::new(),
message_sender_handle: None,
id_counter: CounterU32::new(0),
scenegraph: Default::default(),
root: OnceCell::new(),
base_resource_prefixes: Default::default(),
startup_settings: None,
state: OnceCell::default(),
});
}
@@ -46,24 +50,25 @@ pub fn get_env(pid: i32) -> Result<FxHashMap<String, String>, std::io::Error> {
.map(|(k, v)| (k.to_string(), v.to_string())),
))
}
pub fn startup_settings(env: &FxHashMap<String, String>) -> Option<StartupSettings> {
pub fn state(env: &FxHashMap<String, String>) -> Option<Arc<ClientStateParsed>> {
let token = env.get("STARDUST_STARTUP_TOKEN")?;
STARTUP_SETTINGS.lock().get(token).cloned()
CLIENT_STATES.lock().get(token).cloned()
}
pub struct Client {
pid: Option<i32>,
pub pid: Option<i32>,
// env: Option<FxHashMap<String, String>>,
exe: Option<PathBuf>,
dispatch_join_handle: OnceCell<JoinHandle<Result<()>>>,
flush_join_handle: OnceCell<JoinHandle<Result<()>>>,
disconnect_status: OnceCell<Result<()>>,
id_counter: CounterU32,
pub message_sender_handle: Option<MessageSenderHandle>,
pub scenegraph: Arc<Scenegraph>,
pub root: OnceCell<Arc<Root>>,
pub base_resource_prefixes: Mutex<Vec<PathBuf>>,
pub startup_settings: Option<StartupSettings>,
pub state: OnceCell<ClientState>,
}
impl Client {
pub fn from_connection(connection: UnixStream) -> Result<Arc<Self>> {
@@ -80,7 +85,10 @@ impl Client {
let (mut messenger_tx, mut messenger_rx) = messenger::create(connection);
let scenegraph = Arc::new(Scenegraph::default());
let startup_settings = env.as_ref().and_then(startup_settings);
let state = env
.as_ref()
.and_then(state)
.unwrap_or_else(|| Arc::new(ClientStateParsed::default()));
let client = CLIENTS.add(Client {
pid,
@@ -91,23 +99,25 @@ impl Client {
flush_join_handle: OnceCell::new(),
disconnect_status: OnceCell::new(),
id_counter: CounterU32::new(256),
message_sender_handle: Some(messenger_tx.handle()),
scenegraph: scenegraph.clone(),
root: OnceCell::new(),
base_resource_prefixes: Default::default(),
startup_settings,
state: OnceCell::default(),
});
let _ = client.scenegraph.client.set(Arc::downgrade(&client));
let _ = client.root.set(Root::create(&client)?);
hmd::make_alias(&client)?;
let _ = client.root.set(Root::create(&client, state.root)?);
spatial::create_interface(&client)?;
fields::create_interface(&client)?;
drawable::create_interface(&client)?;
audio::create_interface(&client)?;
data::create_interface(&client)?;
items::create_interface(&client)?;
input::create_interface(&client)?;
startup::create_interface(&client)?;
items::camera::create_interface(&client)?;
items::panel::create_interface(&client)?;
let _ = client.state.set(state.apply_to(&client));
let pid_printable = pid
.map(|pid| pid.to_string())
@@ -131,11 +141,8 @@ impl Client {
let client = client.clone();
async move {
loop {
match messenger_rx.dispatch(&*scenegraph).await {
Err(e) => {
client.disconnect(Err(e.into()));
}
_ => (),
if let Err(e) = messenger_rx.dispatch(&*scenegraph).await {
client.disconnect(Err(e.into()));
}
}
}
@@ -149,11 +156,8 @@ impl Client {
let client = client.clone();
async move {
loop {
match messenger_tx.flush().await {
Err(e) => {
client.disconnect(Err(e.into()));
}
_ => (),
if let Err(e) = messenger_tx.flush().await {
client.disconnect(Err(e.into()));
}
}
}
@@ -164,10 +168,35 @@ impl Client {
Ok(client)
}
pub fn get_cmdline(&self) -> Option<Vec<String>> {
let pid = self.pid?;
let exe_proc_path = format!("/proc/{pid}/exe");
let cmdline_proc_path = format!("/proc/{pid}/cmdline");
let exe = std::fs::read_link(exe_proc_path).ok()?;
let cmdline = std::fs::read_to_string(cmdline_proc_path).ok()?;
let mut cmdline_split: Vec<_> = cmdline.split('\0').map(ToString::to_string).collect();
cmdline_split.pop();
*cmdline_split.get_mut(0).unwrap() = exe.to_str()?.to_string();
Some(cmdline_split)
}
pub fn get_cwd(&self) -> Option<PathBuf> {
let pid = self.pid?;
let cwd_proc_path = format!("/proc/{pid}/cwd");
std::fs::read_link(cwd_proc_path).ok()
}
pub async fn save_state(&self) -> Option<ClientStateParsed> {
let internal = self.root.get()?.save_state().await.ok()?;
Some(ClientStateParsed::from_deserialized(self, internal))
}
pub fn generate_id(&self) -> u64 {
self.id_counter.inc() as u64
}
#[inline]
pub fn get_node(&self, name: &'static str, path: &str) -> Result<Arc<Node>> {
pub fn get_node(&self, name: &'static str, id: u64) -> Result<Arc<Node>> {
self.scenegraph
.get_node(path)
.get_node(id)
.ok_or_else(|| eyre!("{} not found", name))
}
@@ -179,7 +208,22 @@ impl Client {
if let Some(flush_join_handle) = self.flush_join_handle.get() {
flush_join_handle.abort();
}
CLIENTS.remove(self);
if let Some(client) = CLIENTS.remove(self) {
destroy_queue::add(client);
}
}
}
impl Debug for Client {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
f.debug_struct("Client")
.field("pid", &self.pid)
.field("exe", &self.exe)
.field("dispatch_join_handle", &self.dispatch_join_handle)
.field("flush_join_handle", &self.flush_join_handle)
.field("disconnect_status", &self.disconnect_status)
.field("base_resource_prefixes", &self.base_resource_prefixes)
.field("state", &self.state)
.finish()
}
}
impl Drop for Client {

119
src/core/client_state.rs Normal file
View File

@@ -0,0 +1,119 @@
use super::client::{get_env, Client};
use crate::nodes::{root::ClientState, spatial::Spatial, Node};
use glam::Mat4;
use parking_lot::Mutex;
use rustc_hash::FxHashMap;
use serde::{Deserialize, Serialize};
use std::{
path::{Path, PathBuf},
process::Command,
sync::Arc,
};
lazy_static::lazy_static! {
pub static ref CLIENT_STATES: Mutex<FxHashMap<String, Arc<ClientStateParsed>>> = Default::default();
}
#[derive(Debug, Serialize, Deserialize)]
pub struct LaunchInfo {
pub cmdline: Vec<String>,
pub cwd: PathBuf,
pub env: FxHashMap<String, String>,
}
impl LaunchInfo {
fn from_client(client: &Client) -> Option<Self> {
Some(LaunchInfo {
cmdline: client.get_cmdline()?,
cwd: client.get_cwd()?,
env: get_env(client.pid?).ok()?,
})
}
}
#[derive(Debug, Serialize, Deserialize)]
pub struct ClientStateParsed {
pub launch_info: Option<LaunchInfo>,
pub data: Vec<u8>,
pub root: Mat4,
pub spatial_anchors: FxHashMap<String, Mat4>,
}
impl ClientStateParsed {
pub fn from_deserialized(client: &Client, state: ClientState) -> Self {
ClientStateParsed {
launch_info: LaunchInfo::from_client(client),
data: state.data.unwrap_or_default(),
root: Self::spatial_transform(client, state.root).unwrap_or_default(),
spatial_anchors: state
.spatial_anchors
.into_iter()
.filter_map(|(k, v)| Some((k, Self::spatial_transform(client, v)?)))
.collect(),
}
}
fn spatial_transform(client: &Client, id: u64) -> Option<Mat4> {
let node = client.scenegraph.get_node(id)?;
let spatial = node.get_aspect::<Spatial>().ok()?;
Some(spatial.global_transform())
}
pub fn token(self) -> String {
let token = nanoid::nanoid!();
CLIENT_STATES.lock().insert(token.clone(), Arc::new(self));
token
}
pub fn from_file(file: &Path) -> Option<Self> {
let file_string = std::fs::read_to_string(file).ok()?;
toml::from_str(&file_string).ok()
}
pub fn to_file(&self, directory: &Path) {
let app_name = self
.launch_info
.as_ref()
.map(|l| l.cmdline.first().unwrap().split('/').last().unwrap())
.unwrap_or("unknown");
let state_file_path = directory
.join(format!("{app_name}-{}", nanoid::nanoid!()))
.with_extension("toml");
std::fs::write(state_file_path, toml::to_string(&self).unwrap()).unwrap();
}
pub fn apply_to(&self, client: &Arc<Client>) -> ClientState {
if let Some(root) = client.root.get() {
root.set_transform(self.root)
}
ClientState {
data: Some(self.data.clone()),
root: 0,
spatial_anchors: self
.spatial_anchors
.iter()
.map(|(k, v)| {
let node = Node::generate(client, true).add_to_scenegraph().unwrap();
Spatial::add_to(&node, None, *v, false);
(k.clone(), node.get_id())
})
.collect(),
}
}
pub fn launch_command(self) -> Option<Command> {
let launch_info = self.launch_info.as_ref()?;
let mut cmdline = launch_info.cmdline.iter();
let mut command = Command::new(cmdline.next()?);
command.args(cmdline);
command.current_dir(&launch_info.cwd);
command.envs(launch_info.env.iter());
command.env("STARDUST_STARTUP_TOKEN", self.token());
Some(command)
}
}
impl Default for ClientStateParsed {
fn default() -> Self {
Self {
launch_info: None,
data: Default::default(),
root: Mat4::IDENTITY,
spatial_anchors: Default::default(),
}
}
}

18
src/core/destroy_queue.rs
View File

@@ -1,12 +1,24 @@
use once_cell::sync::Lazy;
use parking_lot::Mutex;
use std::any::Any;
use tokio::sync::mpsc::{self, unbounded_channel};
static MAIN_DESTROY_QUEUE: Mutex<Vec<Box<dyn Any + Send + Sync>>> = Mutex::new(Vec::new());
type Anything = Box<dyn Any + Send + Sync>;
static MAIN_DESTROY_QUEUE: Lazy<(
mpsc::UnboundedSender<Anything>,
Mutex<mpsc::UnboundedReceiver<Anything>>,
)> = Lazy::new(|| {
let (tx, rx) = unbounded_channel();
(tx, Mutex::new(rx))
});
pub fn add<T: Any + Sync + Send>(thing: T) {
MAIN_DESTROY_QUEUE.lock().push(Box::new(thing));
MAIN_DESTROY_QUEUE.0.send(Box::new(thing)).unwrap();
}
pub fn clear() {
MAIN_DESTROY_QUEUE.lock().clear();
while let Ok(thing) = MAIN_DESTROY_QUEUE.1.lock().try_recv() {
drop(thing)
}
}

36
src/core/eventloop.rs
View File

@@ -1,36 +0,0 @@
use super::client::Client;
use super::task;
use color_eyre::eyre::Result;
use std::path::PathBuf;
use std::sync::Arc;
use tokio::net::UnixListener;
use tokio::task::JoinHandle;
use tracing::error;
pub struct EventLoop {
join_handle: JoinHandle<()>,
}
impl EventLoop {
pub fn new(socket_path: PathBuf) -> Result<Arc<Self>> {
let socket = UnixListener::bind(socket_path)?;
let join_handle = task::new(|| "event loop", async move {
loop {
let Ok((socket, _)) = socket.accept().await else { continue };
if let Err(e) = Client::from_connection(socket) {
error!(?e, "Unable to create client from connection");
}
}
})?;
let event_loop = Arc::new(EventLoop { join_handle });
Ok(event_loop)
}
}
impl Drop for EventLoop {
fn drop(&mut self) {
self.join_handle.abort();
}
}

11
src/core/idl_utils.rs Normal file
View File

@@ -0,0 +1,11 @@
#[macro_export]
macro_rules! create_interface {
($iface:ident) => {
pub fn create_interface(client: &Arc<Client>) -> Result<()> {
let node = Node::from_id(client, INTERFACE_NODE_ID, false);
<$iface as self::InterfaceAspect>::add_node_members(&node);
node.add_to_scenegraph()?;
Ok(())
}
};
}

4
src/core/mod.rs
View File

@@ -1,8 +1,8 @@
pub mod client;
pub mod client_state;
pub mod delta;
pub mod destroy_queue;
pub mod eventloop;
pub mod node_collections;
pub mod idl_utils;
pub mod registry;
pub mod resource;
pub mod scenegraph;

84
src/core/node_collections.rs
View File

@@ -1,84 +0,0 @@
use crate::nodes::Node;
use parking_lot::Mutex;
use rustc_hash::FxHashMap;
use std::{
borrow::Borrow,
hash::Hash,
sync::{Arc, Weak},
};
#[derive(Default)]
pub struct LifeLinkedNodeList {
nodes: Mutex<Vec<Weak<Node>>>,
}
impl LifeLinkedNodeList {
pub fn add(&self, node: Weak<Node>) {
self.nodes.lock().push(node);
}
pub fn clear(&self) {
self.nodes
.lock()
.iter()
.filter_map(|node| node.upgrade())
.for_each(|node| {
node.destroy();
});
self.nodes.lock().clear();
}
}
impl Drop for LifeLinkedNodeList {
fn drop(&mut self) {
self.clear();
}
}
#[derive(Default)]
pub struct LifeLinkedNodeMap<K: Hash + Eq> {
nodes: Mutex<FxHashMap<K, Weak<Node>>>,
}
#[allow(dead_code)]
impl<K: Hash + Eq> LifeLinkedNodeMap<K> {
pub fn add(&self, key: K, node: &Arc<Node>) {
self.nodes.lock().insert(key, Arc::downgrade(node));
}
pub fn get<Q>(&self, key: &Q) -> Option<Arc<Node>>
where
Q: ?Sized,
K: Borrow<Q>,
Q: Hash + Eq,
{
self.nodes.lock().get(key).and_then(|n| n.upgrade())
}
pub fn nodes(&self) -> Vec<Arc<Node>> {
self.nodes
.lock()
.values()
.filter_map(|v| v.upgrade())
.collect()
}
pub fn remove<Q>(&self, key: &Q) -> Option<Arc<Node>>
where
Q: ?Sized,
K: Borrow<Q>,
Q: Hash + Eq,
{
self.nodes.lock().remove(key).and_then(|n| n.upgrade())
}
pub fn clear(&self) {
let mut nodes = self.nodes.lock();
nodes
.values()
.filter_map(|node| node.upgrade())
.for_each(|node| {
node.destroy();
});
nodes.clear();
}
}
impl<K: Hash + Eq> Drop for LifeLinkedNodeMap<K> {
fn drop(&mut self) {
self.clear();
}
}

65
src/core/registry.rs
View File

@@ -5,6 +5,7 @@ use rustc_hash::FxHashMap;
use std::ptr;
use std::sync::{Arc, Weak};
#[derive(Debug)]
pub struct Registry<T: Send + Sync + ?Sized>(Mutex<Option<FxHashMap<usize, Weak<T>>>>);
impl<T: Send + Sync + ?Sized> Registry<T> {
@@ -12,9 +13,7 @@ impl<T: Send + Sync + ?Sized> Registry<T> {
Registry(const_mutex(None))
}
fn lock(&self) -> MappedMutexGuard<FxHashMap<usize, Weak<T>>> {
MutexGuard::map(self.0.lock(), |r| {
r.get_or_insert_with(|| FxHashMap::default())
})
MutexGuard::map(self.0.lock(), |r| r.get_or_insert_with(FxHashMap::default))
}
pub fn add(&self, t: T) -> Arc<T>
where
@@ -32,12 +31,38 @@ impl<T: Send + Sync + ?Sized> Registry<T> {
self.lock()
.contains_key(&(ptr::addr_of!(*t) as *const () as usize))
}
pub fn get_changes(old: &Registry<T>, new: &Registry<T>) -> (Vec<Arc<T>>, Vec<Arc<T>>) {
let old = old.lock();
let new = new.lock();
let mut added = Vec::new();
let mut removed = Vec::new();
for (id, entry) in new.iter() {
if let Some(entry) = entry.upgrade() {
if !old.contains_key(id) {
added.push(entry);
}
}
}
for (id, entry) in old.iter() {
if let Some(entry) = entry.upgrade() {
if !new.contains_key(id) {
removed.push(entry);
}
}
}
(added, removed)
}
pub fn get_valid_contents(&self) -> Vec<Arc<T>> {
self.lock()
.iter()
.filter_map(|pair| pair.1.upgrade())
.collect()
}
pub fn set(&self, other: &Registry<T>) {
self.lock().clone_from(&other.lock());
}
pub fn take_valid_contents(&self) -> Vec<Arc<T>> {
self.0
.lock()
@@ -47,6 +72,14 @@ impl<T: Send + Sync + ?Sized> Registry<T> {
.filter_map(|pair| pair.1.upgrade())
.collect()
}
pub fn retain<F: Fn(&Arc<T>) -> bool>(&self, f: F) {
self.lock().retain(|_, v| {
let Some(v) = v.upgrade() else {
return true;
};
(f)(&v)
})
}
pub fn remove(&self, t: &T) {
self.lock()
.remove(&(ptr::addr_of!(*t) as *const () as usize));
@@ -54,12 +87,27 @@ impl<T: Send + Sync + ?Sized> Registry<T> {
pub fn clear(&self) {
self.lock().clear();
}
pub fn is_empty(&self) -> bool {
let registry = self.0.lock();
let Some(registry) = &*registry else {
return true;
};
if registry.is_empty() {
return true;
}
registry.values().all(|v| v.strong_count() == 0)
}
}
impl<T: Send + Sync + ?Sized> Clone for Registry<T> {
fn clone(&self) -> Self {
Self(Mutex::new(self.0.lock().clone()))
}
}
impl<T: Send + Sync + ?Sized> Default for Registry<T> {
fn default() -> Self {
Self::new()
}
}
pub struct OwnedRegistry<T: Send + Sync + ?Sized>(Mutex<Option<FxHashMap<usize, Arc<T>>>>);
@@ -68,9 +116,7 @@ impl<T: Send + Sync + ?Sized> OwnedRegistry<T> {
OwnedRegistry(const_mutex(None))
}
fn lock(&self) -> MappedMutexGuard<FxHashMap<usize, Arc<T>>> {
MutexGuard::map(self.0.lock(), |r| {
r.get_or_insert_with(|| FxHashMap::default())
})
MutexGuard::map(self.0.lock(), |r| r.get_or_insert_with(FxHashMap::default))
}
pub fn add(&self, t: T) -> Arc<T>
where
@@ -90,9 +136,12 @@ impl<T: Send + Sync + ?Sized> OwnedRegistry<T> {
self.lock()
.contains_key(&(ptr::addr_of!(*t) as *const () as usize))
}
pub fn remove(&self, t: &T) {
pub fn remove(&self, t: &T) -> Option<Arc<T>>
where
T: Sized,
{
self.lock()
.remove(&(ptr::addr_of!(*t) as *const () as usize));
.remove(&(ptr::addr_of!(*t) as *const () as usize))
}
pub fn clear(&self) {
self.lock().clear();

120
src/core/resource.rs
View File

@@ -1,83 +1,49 @@
use color_eyre::eyre::eyre;
use serde::{de::Visitor, Deserialize};
use std::{ffi::OsStr, path::PathBuf};
use stardust_xr::values::ResourceID;
use std::{
ffi::OsStr,
path::{Path, PathBuf},
};
#[derive(Debug)]
pub enum ResourceID {
File(PathBuf),
Namespaced { namespace: String, path: PathBuf },
use super::client::Client;
lazy_static::lazy_static! {
static ref THEMES: Vec<PathBuf> = std::env::var("STARDUST_THEMES").map(|s| s.split(':').map(PathBuf::from).collect()).unwrap_or_default();
}
impl ResourceID {
pub fn get_file(&self, prefixes: &[PathBuf], extensions: &[&OsStr]) -> Option<PathBuf> {
match self {
ResourceID::File(file) => (file.is_absolute()
&& file.exists() && Self::has_extension(file, extensions))
.then_some(file.clone()),
ResourceID::Namespaced { namespace, path } => {
let file_name = path.file_name()?;
prefixes
.iter()
.filter_map(|prefix| {
let prefixed_path = prefix.clone().join(namespace).join(path);
let parent = prefixed_path.parent()?;
std::fs::read_dir(parent).ok()
})
.flatten()
.filter_map(|item| item.ok())
.map(|dir_entry| dir_entry.path())
.filter(|path| path.file_stem() == Some(file_name))
.find(|path| Self::has_extension(path, extensions))
}
}
}
fn has_extension(path: &PathBuf, extensions: &[&OsStr]) -> bool {
if let Some(path_extension) = path.extension() {
extensions.contains(&path_extension)
} else {
false
fn has_extension(path: &Path, extensions: &[&OsStr]) -> bool {
if let Some(path_extension) = path.extension() {
extensions.contains(&path_extension)
} else {
false
}
}
pub fn get_resource_file(
resource: &ResourceID,
client: &Client,
extensions: &[&OsStr],
) -> Option<PathBuf> {
match resource {
ResourceID::Direct(file) => {
(file.is_absolute() && file.exists() && has_extension(file, extensions))
.then_some(file.clone())
}
ResourceID::Namespaced { namespace, path } => {
let file_name = path.file_name()?;
let base_prefixes = client.base_resource_prefixes.lock().clone();
THEMES
.iter()
.chain(base_prefixes.iter())
.filter_map(|prefix| {
let prefixed_path = prefix.clone().join(namespace).join(path);
let parent = prefixed_path.parent()?;
std::fs::read_dir(parent).ok()
})
.flatten()
.filter_map(|item| item.ok())
.map(|dir_entry| dir_entry.path())
.filter(|path| path.file_stem() == Some(file_name))
.find(|path| has_extension(path, extensions))
}
}
}
impl<'de> Deserialize<'de> for ResourceID {
fn deserialize<D>(deserializer: D) -> Result<Self, D::Error>
where
D: serde::Deserializer<'de>,
{
deserializer.deserialize_any(ResourceVisitor)
}
}
struct ResourceVisitor;
impl<'de> Visitor<'de> for ResourceVisitor {
type Value = ResourceID;
fn expecting(&self, formatter: &mut std::fmt::Formatter) -> std::fmt::Result {
formatter.write_str("A string containing an absolute path to file or \"[namespace]:[path]\" for a namespaced resource")
}
fn visit_str<E>(self, v: &str) -> Result<Self::Value, E>
where
E: serde::de::Error,
{
Ok(if v.starts_with('/') {
let path = PathBuf::from(v);
path.metadata().map_err(serde::de::Error::custom)?;
ResourceID::File(path)
} else if let Some((namespace, path)) = v.split_once(':') {
ResourceID::Namespaced {
namespace: namespace.to_string(),
path: PathBuf::from(path),
}
} else {
return Err(serde::de::Error::custom(eyre!("Invalid format for string")));
})
}
fn visit_string<E>(self, v: String) -> Result<Self::Value, E>
where
E: serde::de::Error,
{
self.visit_str(&v)
}
}

131
src/core/scenegraph.rs
View File

@@ -1,20 +1,24 @@
use crate::core::client::Client;
use crate::nodes::alias::get_original;
use crate::nodes::Node;
use crate::{core::client::Client, nodes::Message};
use color_eyre::eyre::Result;
use once_cell::sync::OnceCell;
use parking_lot::Mutex;
use rustc_hash::FxHashMap;
use serde::Serialize;
use stardust_xr::scenegraph;
use stardust_xr::scenegraph::ScenegraphError;
use stardust_xr::schemas::flex::serialize;
use std::future::Future;
use std::os::fd::OwnedFd;
use std::sync::{Arc, Weak};
use tracing::{debug, debug_span, instrument};
use core::hash::BuildHasherDefault;
use dashmap::DashMap;
use rustc_hash::FxHasher;
use tokio::sync::oneshot;
use tracing::{debug, debug_span};
#[derive(Default)]
pub struct Scenegraph {
pub(super) client: OnceCell<Weak<Client>>,
nodes: DashMap<String, Arc<Node>, BuildHasherDefault<FxHasher>>,
nodes: Mutex<FxHashMap<u64, Arc<Node>>>,
}
impl Scenegraph {
@@ -29,46 +33,105 @@ impl Scenegraph {
}
pub fn add_node_raw(&self, node: Arc<Node>) {
debug!(node = ?&*node, "Add node");
let path = node.get_path().to_string();
self.nodes.insert(path, node);
self.nodes.lock().insert(node.get_id(), node);
}
#[instrument(level = "debug", skip(self))]
pub fn get_node(&self, path: &str) -> Option<Arc<Node>> {
let mut node = self.nodes.get(path)?.clone();
while let Some(alias) = node.alias.get() {
node = alias.original.upgrade()?;
}
Some(node)
pub fn get_node(&self, node: u64) -> Option<Arc<Node>> {
let node = self.nodes.lock().get(&node)?.clone();
get_original(node, true)
}
pub fn remove_node(&self, path: &str) -> Option<Arc<Node>> {
debug!(path, "Remove node");
let (_, node) = self.nodes.remove(path)?;
Some(node)
pub fn remove_node(&self, node: u64) -> Option<Arc<Node>> {
debug!(node, "Remove node");
self.nodes.lock().remove(&node)
}
}
pub type MethodResponse = Result<(Vec<u8>, Vec<OwnedFd>), ScenegraphError>;
pub struct MethodResponseSender(oneshot::Sender<MethodResponse>);
impl MethodResponseSender {
pub fn send(self, t: Result<Message, ScenegraphError>) {
let _ = self.0.send(t.map(|m| (m.data, m.fds)));
}
// pub fn send_method_return<T: Serialize>(
// self,
// result: color_eyre::eyre::Result<(T, Vec<OwnedFd>)>,
// ) {
// let _ = self.0.send(map_method_return(result));
// }
pub fn wrap_sync<F: FnOnce() -> color_eyre::eyre::Result<Message>>(self, f: F) {
self.send(f().map_err(|e| ScenegraphError::MethodError {
error: e.to_string(),
}))
}
pub fn wrap_async<T: Serialize>(
self,
f: impl Future<Output = color_eyre::eyre::Result<(T, Vec<OwnedFd>)>> + Send + 'static,
) {
tokio::task::spawn(async move { self.0.send(map_method_return(f.await)) });
}
}
fn map_method_return<T: Serialize>(
result: color_eyre::eyre::Result<(T, Vec<OwnedFd>)>,
) -> Result<(Vec<u8>, Vec<OwnedFd>), ScenegraphError> {
let (value, fds) = result.map_err(|e| ScenegraphError::MethodError {
error: e.to_string(),
})?;
let serialized_value = serialize(value).map_err(|e| ScenegraphError::MethodError {
error: format!("Internal: Serialization failed: {e}"),
})?;
Ok((serialized_value, fds))
}
impl scenegraph::Scenegraph for Scenegraph {
fn send_signal(&self, path: &str, method: &str, data: &[u8]) -> Result<(), ScenegraphError> {
let Some(client) = self.get_client() else {return Err(ScenegraphError::SignalNotFound)};
debug_span!("Handle signal", path, method).in_scope(|| {
self.get_node(path)
fn send_signal(
&self,
node: u64,
method: u64,
data: &[u8],
fds: Vec<OwnedFd>,
) -> Result<(), ScenegraphError> {
let Some(client) = self.get_client() else {
return Err(ScenegraphError::SignalNotFound);
};
debug_span!("Handle signal", node, method).in_scope(|| {
self.get_node(node)
.ok_or(ScenegraphError::NodeNotFound)?
.send_local_signal(client, method, data)
.send_local_signal(
client,
method,
Message {
data: data.to_vec(),
fds,
},
)
})
}
fn execute_method(
&self,
path: &str,
method: &str,
node: u64,
method: u64,
data: &[u8],
) -> Result<Vec<u8>, ScenegraphError> {
let Some(client) = self.get_client() else {return Err(ScenegraphError::MethodNotFound)};
debug_span!("Handle method", path, method).in_scope(|| {
self.get_node(path)
.ok_or(ScenegraphError::NodeNotFound)?
.execute_local_method(client, method, data)
})
fds: Vec<OwnedFd>,
response: oneshot::Sender<Result<(Vec<u8>, Vec<OwnedFd>), ScenegraphError>>,
) {
let Some(client) = self.get_client() else {
let _ = response.send(Err(ScenegraphError::MethodNotFound));
return;
};
debug!(node, method, "Handle method");
let Some(node) = self.get_node(node) else {
let _ = response.send(Err(ScenegraphError::NodeNotFound));
return;
};
node.execute_local_method(
client,
method,
Message {
data: data.to_vec(),
fds,
},
MethodResponseSender(response),
);
}
}

2
src/core/task.rs
View File

@@ -1,10 +1,8 @@
use color_eyre::eyre::Result;
use std::future::Future;
use tokio::task::JoinHandle;
use tracing::instrument;
#[allow(unused_variables)]
#[instrument(level = "debug", skip_all)]
pub fn new<
F: FnOnce() -> S,
S: AsRef<str>,

394
src/main.rs
View File

@@ -1,71 +1,86 @@
#![allow(clippy::empty_docs)]
mod core;
mod nodes;
mod objects;
mod session;
#[cfg(feature = "wayland")]
mod wayland;
use crate::core::destroy_queue;
use crate::nodes::{audio, drawable, hmd, input};
use crate::objects::input::eye_pointer::EyePointer;
use crate::objects::input::mouse_pointer::MousePointer;
use crate::objects::input::sk_controller::SkController;
use crate::objects::input::sk_hand::SkHand;
use crate::nodes::items::camera;
use crate::nodes::{audio, drawable, input};
use self::core::eventloop::EventLoop;
use clap::Parser;
use color_eyre::eyre::Result;
use core::client::Client;
use core::task;
use directories::ProjectDirs;
use objects::ServerObjects;
use once_cell::sync::OnceCell;
use session::{launch_start, save_session};
use stardust_xr::server;
use std::path::PathBuf;
use std::process::Command;
use std::sync::Arc;
use std::time::Duration;
use stereokit::{
named_colors::BLACK, DepthMode, DisplayMode, Handed, LogLevel, StereoKitMultiThread,
TextureFormat, TextureType,
};
use stereokit::{DisplayBlend, Sk};
use tokio::{runtime::Handle, sync::oneshot};
use stereokit_rust::material::Material;
use stereokit_rust::shader::Shader;
use stereokit_rust::sk::{sk_quit, AppMode, DepthMode, OriginMode, QuitReason, SkSettings};
use stereokit_rust::system::{LogLevel, Renderer};
use stereokit_rust::tex::{SHCubemap, Tex, TexFormat, TexType};
use stereokit_rust::ui::Ui;
use stereokit_rust::util::{Color128, Time};
use tokio::net::UnixListener;
use tokio::sync::Notify;
use tracing::metadata::LevelFilter;
use tracing::{debug_span, error, info};
use tracing_subscriber::{fmt, prelude::*, EnvFilter};
use zbus::fdo::ObjectManager;
use zbus::Connection;
#[derive(Parser)]
#[derive(Debug, Clone, Parser)]
#[clap(author, version, about, long_about = None)]
struct CliArgs {
/// Force flatscreen mode and use the mouse pointer as a 3D pointer
#[clap(short, long, action)]
flatscreen: bool,
/// If monado insists on emulating them, set this flag...we want the raw input
#[clap(long)]
disable_controllers: bool,
/// If monado insists on emulating , set this flag...we want the raw input
#[clap(long)]
disable_hands: bool,
/// Run Stardust XR as an overlay with given priority
#[clap(id = "PRIORITY", short = 'o', long = "overlay", action)]
overlay_priority: Option<u32>,
/// Don't create a tip input for controller because SOME RUNTIMES will lie
#[clap(long, action)]
disable_controller: bool,
/// Debug the clients started by the server
#[clap(short = 'd', long = "debug", action)]
debug_launched_clients: bool,
/// Run a script when ready for clients to connect. If this is not set the script at $HOME/.config/stardust/startup will be ran if it exists.
#[clap(id = "PATH", short = 'e', long = "execute-startup-script", action)]
startup_script: Option<PathBuf>,
/// Restore the session with the given ID (or `latest`), ignoring the startup script. Sessions are stored in directories at `~/.local/state/stardust/`.
#[clap(id = "SESSION_ID", long = "restore", action)]
restore: Option<String>,
}
static STARDUST_INSTANCE: OnceCell<String> = OnceCell::new();
static SK_MULTITHREAD: OnceCell<Sk> = OnceCell::new();
struct EventLoopInfo {
tokio_handle: Handle,
socket_path: PathBuf,
}
// #[tokio::main]
#[tokio::main(flavor = "current_thread")]
async fn main() {
color_eyre::install().unwrap();
fn main() -> Result<()> {
let registry = tracing_subscriber::registry();
#[cfg(feature = "profile_app")]
let (chrome_layer, _guard) = tracing_chrome::ChromeLayerBuilder::new()
.include_args(true)
.build();
#[cfg(feature = "profile_app")]
let registry = registry.with(chrome_layer);
let registry = registry.with(
tracing_tracy::TracyLayer::new(tracing_tracy::DefaultConfig::default())
.with_filter(LevelFilter::DEBUG),
);
#[cfg(feature = "profile_tokio")]
let (console_layer, _) = console_subscriber::ConsoleLayer::builder().build();
@@ -79,192 +94,184 @@ fn main() -> Result<()> {
.with_filter(EnvFilter::from_default_env());
registry.with(log_layer).init();
let cli_args = CliArgs::parse();
let socket_path =
server::get_free_socket_path().expect("Unable to find a free stardust socket path");
STARDUST_INSTANCE.set(socket_path.file_name().unwrap().to_string_lossy().into_owned()).expect("Someone hasn't done their job, yell at Nova because how is this set multiple times what the hell");
info!(
socket_path = ?socket_path.display(),
"Stardust socket created"
);
let socket =
UnixListener::bind(socket_path).expect("Couldn't spawn stardust server at {socket_path}");
task::new(|| "client join loop", async move {
loop {
let Ok((stream, _)) = socket.accept().await else {
continue;
};
if let Err(e) = Client::from_connection(stream) {
error!(?e, "Unable to create client from connection");
}
}
})
.unwrap();
info!("Init client join loop");
let project_dirs = ProjectDirs::from("", "", "stardust");
if project_dirs.is_none() {
error!("Unable to get Stardust project directories, default skybox and startup script will not work.");
}
let cli_args = Arc::new(CliArgs::parse());
let sk = stereokit::Settings {
app_name: "Stardust XR".to_string(),
display_preference: if cli_args.flatscreen {
DisplayMode::Flatscreen
} else {
DisplayMode::MixedReality
},
blend_preference: DisplayBlend::AnyTransparent,
depth_mode: DepthMode::D32,
log_filter: LogLevel::None,
overlay_app: cli_args.overlay_priority.is_some(),
overlay_priority: cli_args.overlay_priority.unwrap_or(u32::MAX),
disable_desktop_input_window: true,
..Default::default()
let dbus_connection = Connection::session()
.await
.expect("Could not open dbus session");
dbus_connection
.request_name("org.stardustxr.HMD")
.await
.expect("Another instance of the server is running. This is not supported currently (but is planned).");
dbus_connection
.object_server()
.at("/", ObjectManager)
.await
.expect("Couldn't add the object manager");
let sk_ready_notifier = Arc::new(Notify::new());
let stereokit_loop = tokio::task::spawn_blocking({
let sk_ready_notifier = sk_ready_notifier.clone();
let project_dirs = project_dirs.clone();
let cli_args = cli_args.clone();
let dbus_connection = dbus_connection.clone();
move || stereokit_loop(sk_ready_notifier, project_dirs, cli_args, dbus_connection)
});
sk_ready_notifier.notified().await;
let mut startup_children = project_dirs
.as_ref()
.map(|project_dirs| launch_start(&cli_args, project_dirs))
.unwrap_or_default();
tokio::select! {
_ = stereokit_loop => (),
_ = tokio::signal::ctrl_c() => unsafe {sk_quit(QuitReason::SystemClose)},
}
.init()
.expect("StereoKit failed to initialize");
let _ = SK_MULTITHREAD.set(sk.multithreaded());
info!("Stopping...");
if let Some(project_dirs) = project_dirs {
save_session(&project_dirs).await;
}
for mut startup_child in startup_children.drain(..) {
let _ = startup_child.kill();
}
info!("Cleanly shut down Stardust");
}
fn stereokit_loop(
sk_ready_notifier: Arc<Notify>,
project_dirs: Option<ProjectDirs>,
args: CliArgs,
dbus_connection: Connection,
) {
let sk = SkSettings::default()
.app_name("Stardust XR")
.mode(if args.flatscreen {
AppMode::Simulator
} else {
AppMode::XR
})
.depth_mode(DepthMode::D32)
.log_filter(match EnvFilter::from_default_env().max_level_hint() {
Some(LevelFilter::ERROR) => LogLevel::Error,
Some(LevelFilter::WARN) => LogLevel::Warning,
Some(LevelFilter::INFO) => LogLevel::Inform,
Some(LevelFilter::DEBUG) => LogLevel::Diagnostic,
Some(LevelFilter::TRACE) => LogLevel::Diagnostic,
Some(LevelFilter::OFF) => LogLevel::None,
None => LogLevel::Warning,
})
.overlay_app(args.overlay_priority.is_some())
.overlay_priority(args.overlay_priority.unwrap_or(u32::MAX))
.disable_desktop_input_window(true)
.origin(OriginMode::Local)
.init()
.expect("StereoKit failed to initialize");
info!("Init StereoKit");
sk.material_set_shader(
sk.material_find("default/material_pbr")?,
sk.shader_find("default/shader_pbr_clip")?,
);
Renderer::multisample(0);
Material::default().shader(Shader::pbr_clip());
Ui::enable_far_interact(false);
// Skytex/light stuff
{
if let Some((light, tex)) = project_dirs
if let Some(sky) = project_dirs
.as_ref()
.and_then(|dirs| {
let skytex_path = dirs.config_dir().join("skytex.hdr");
skytex_path
.exists()
.then(|| sk.tex_create_cubemap_file(&skytex_path, true, 100).ok())
})
.flatten()
.map(|dirs| dirs.config_dir().join("skytex.hdr"))
.filter(|f| f.exists())
.and_then(|p| SHCubemap::from_cubemap_equirectangular(p, true, 100).ok())
{
sk.render_set_skytex(&tex);
sk.render_set_skylight(light);
sky.render_as_sky();
} else {
sk.render_set_skytex(sk.tex_gen_color(
BLACK,
Renderer::skytex(Tex::gen_color(
Color128::BLACK,
1,
1,
TextureType::CUBEMAP,
TextureFormat::RGBA32,
TexType::Cubemap,
TexFormat::RGBA32,
));
}
}
let mouse_pointer = cli_args.flatscreen.then(MousePointer::new).transpose()?;
let mut hands = (!cli_args.flatscreen)
.then(|| {
let left = SkHand::new(Handed::Left).ok();
let right = SkHand::new(Handed::Right).ok();
left.zip(right)
})
.flatten();
let mut controllers = (!cli_args.flatscreen && !cli_args.disable_controller)
.then(|| {
let left = SkController::new(Handed::Left).ok();
let right = SkController::new(Handed::Right).ok();
left.zip(right)
})
.flatten();
let eye_pointer = (!cli_args.flatscreen && sk.device_has_eye_gaze())
.then(EyePointer::new)
.transpose()?;
if hands.is_none() {
sk.input_hand_visible(Handed::Left, false);
sk.input_hand_visible(Handed::Right, false);
}
let (event_stop_tx, event_stop_rx) = oneshot::channel::<()>();
let (info_sender, info_receiver) = oneshot::channel::<EventLoopInfo>();
let event_thread = std::thread::Builder::new()
.name("event_loop".to_owned())
.spawn(move || event_loop(info_sender, event_stop_rx))?;
let event_loop_info = info_receiver.blocking_recv()?;
let _tokio_handle = event_loop_info.tokio_handle.enter();
#[cfg(feature = "wayland")]
let mut wayland = wayland::Wayland::new()?;
let mut wayland = wayland::Wayland::new().expect("Could not initialize wayland");
#[cfg(feature = "wayland")]
wayland.make_context_current();
sk_ready_notifier.notify_waiters();
info!("Stardust ready!");
if let Some(project_dirs) = project_dirs.as_ref() {
let startup_script_path = cli_args
.startup_script
.clone()
.and_then(|p| p.canonicalize().ok())
.unwrap_or_else(|| project_dirs.config_dir().join("startup"));
let _startup = Command::new(startup_script_path)
.env(
"FLAT_WAYLAND_DISPLAY",
std::env::var_os("WAYLAND_DISPLAY").unwrap_or_default(),
)
.env("WAYLAND_DISPLAY", &wayland.socket_name)
.env(
"STARDUST_INSTANCE",
event_loop_info
.socket_path
.file_name()
.expect("Stardust socket path not found"),
)
.env("GDK_BACKEND", "wayland")
.env("QT_QPA_PLATFORM", "wayland")
.env("MOZ_ENABLE_WAYLAND", "1")
.env("CLUTTER_BACKEND", "wayland")
.env("SDL_VIDEODRIVER", "wayland")
.spawn();
}
let mut objects = ServerObjects::new(
dbus_connection.clone(),
&sk,
args.disable_controllers,
args.disable_hands,
);
let mut last_frame_delta = Duration::ZERO;
let mut sleep_duration = Duration::ZERO;
debug_span!("StereoKit").in_scope(|| {
sk.run(
|sk| {
let _span = debug_span!("StereoKit step");
let _span = _span.enter();
while let Some(token) = sk.step() {
let _span = debug_span!("StereoKit step");
let _span = _span.enter();
hmd::frame(sk);
#[cfg(feature = "wayland")]
wayland.frame_event(sk);
destroy_queue::clear();
camera::update(token);
#[cfg(feature = "wayland")]
wayland.frame_event();
destroy_queue::clear();
if let Some(mouse_pointer) = &mouse_pointer {
mouse_pointer.update(sk);
}
if let Some((left_hand, right_hand)) = &mut hands {
left_hand.update(sk);
right_hand.update(sk);
}
if let Some((left_controller, right_controller)) = &mut controllers {
left_controller.update(sk);
right_controller.update(sk);
}
if let Some(eye_pointer) = &eye_pointer {
eye_pointer.update(sk);
}
input::process_input();
nodes::root::Root::send_frame_events(sk.time_elapsed_unscaled());
adaptive_sleep(
sk,
&mut last_frame_delta,
&mut sleep_duration,
Duration::from_micros(250),
);
objects.update(&sk, token);
input::process_input();
nodes::root::Root::send_frame_events(Time::get_step_unscaled());
adaptive_sleep(
&mut last_frame_delta,
&mut sleep_duration,
Duration::from_micros(250),
);
#[cfg(feature = "wayland")]
wayland.update(sk);
drawable::draw(sk);
audio::update(sk);
#[cfg(feature = "wayland")]
wayland.make_context_current();
},
|_| {
info!("Cleanly shut down StereoKit");
},
)
});
#[cfg(feature = "wayland")]
wayland.update();
drawable::draw(token);
audio::update();
}
info!("Cleanly shut down StereoKit");
#[cfg(feature = "wayland")]
drop(wayland);
let _ = event_stop_tx.send(());
event_thread
.join()
.expect("Failed to cleanly shut down event loop")?;
info!("Cleanly shut down Stardust");
Ok(())
}
fn adaptive_sleep(
sk: &impl StereoKitMultiThread,
last_frame_delta: &mut Duration,
sleep_duration: &mut Duration,
sleep_duration_increase: Duration,
) {
let frame_delta = Duration::from_secs_f64(sk.time_elapsed_unscaled());
let frame_delta = Duration::from_secs_f64(Time::get_step_unscaled());
if *last_frame_delta < frame_delta {
if let Some(frame_delta_delta) = frame_delta.checked_sub(*last_frame_delta) {
if let Some(new_sleep_duration) = sleep_duration.checked_sub(frame_delta_delta) {
@@ -280,38 +287,3 @@ fn adaptive_sleep(
std::thread::sleep(*sleep_duration); // to give clients a chance to even update anything before drawing
});
}
#[tokio::main]
// #[tokio::main(flavor = "current_thread")]
async fn event_loop(
info_sender: oneshot::Sender<EventLoopInfo>,
stop_rx: oneshot::Receiver<()>,
) -> color_eyre::eyre::Result<()> {
let socket_path =
server::get_free_socket_path().expect("Unable to find a free stardust socket path");
STARDUST_INSTANCE.set(socket_path.file_name().unwrap().to_string_lossy().into_owned()).expect("Someone hasn't done their job, yell at Nova because how is this set multiple times what the hell");
let _event_loop = EventLoop::new(socket_path.clone()).expect("Couldn't create server socket");
info!("Init event loop");
info!(
socket_path = ?socket_path.display(),
"Stardust socket created"
);
let _ = info_sender.send(EventLoopInfo {
tokio_handle: Handle::current(),
socket_path,
});
let result = tokio::select! {
biased;
_ = tokio::signal::ctrl_c() => Ok(()),
_ = stop_rx => Ok(()),
};
info!("Cleanly shut down event loop");
unsafe {
stereokit::sys::sk_quit();
}
result
}

145
src/nodes/alias.rs
View File

@@ -1,46 +1,141 @@
use super::Node;
use crate::core::client::Client;
use color_eyre::eyre::{ensure, Result};
use std::sync::{Arc, Weak};
use super::{Aspect, Node};
use crate::core::{client::Client, registry::Registry};
use color_eyre::eyre::Result;
use std::{
ops::Add,
sync::{Arc, Weak},
};
#[derive(Debug, Default, Clone)]
pub struct AliasInfo {
pub(super) server_signals: Vec<&'static str>,
pub(super) server_methods: Vec<&'static str>,
pub(super) client_signals: Vec<&'static str>,
pub(super) server_signals: Vec<u64>,
pub(super) server_methods: Vec<u64>,
pub(super) client_signals: Vec<u64>,
}
impl Add for AliasInfo {
type Output = AliasInfo;
fn add(mut self, mut rhs: Self) -> Self::Output {
self.server_signals.append(&mut rhs.server_signals);
self.server_methods.append(&mut rhs.server_methods);
self.client_signals.append(&mut rhs.client_signals);
self
}
}
#[allow(dead_code)]
#[derive(Debug)]
pub struct Alias {
pub(super) node: Weak<Node>,
pub original: Weak<Node>,
pub info: AliasInfo,
pub(super) original: Weak<Node>,
pub(super) info: AliasInfo,
}
impl Alias {
pub fn create(
client: &Arc<Client>,
parent: &str,
name: &str,
original: &Arc<Node>,
client: &Arc<Client>,
info: AliasInfo,
list: Option<&AliasList>,
) -> Result<Arc<Node>> {
ensure!(
client
.scenegraph
.get_node(&(parent.to_string() + "/" + name))
.is_none(),
"Node already exists"
);
let node = Node::generate(client, true).add_to_scenegraph()?;
Self::add_to(&node, original, info)?;
if let Some(list) = list {
list.add(&node);
}
Ok(node)
}
pub fn create_with_id(
original: &Arc<Node>,
client: &Arc<Client>,
new_id: u64,
info: AliasInfo,
list: Option<&AliasList>,
) -> Result<Arc<Node>> {
let node = Node::from_id(client, new_id, true).add_to_scenegraph()?;
Self::add_to(&node, original, info)?;
if let Some(list) = list {
list.add(&node);
}
Ok(node)
}
let node = Node::create(client, parent, name, true).add_to_scenegraph()?;
fn add_to(new_node: &Arc<Node>, original: &Arc<Node>, info: AliasInfo) -> Result<()> {
let alias = Alias {
node: Arc::downgrade(&node),
node: Arc::downgrade(new_node),
original: Arc::downgrade(original),
info,
};
let alias = original.aliases.add(alias);
let _ = node.alias.set(alias);
Ok(node)
new_node.add_aspect_raw(alias);
Ok(())
}
}
impl Aspect for Alias {
const NAME: &'static str = "Alias";
}
pub fn get_original(node: Arc<Node>, stop_on_disabled: bool) -> Option<Arc<Node>> {
let Ok(alias) = node.get_aspect::<Alias>() else {
return Some(node);
};
if stop_on_disabled && !node.enabled() {
return None;
}
get_original(alias.original.upgrade()?, stop_on_disabled)
}
pub fn links_to(alias: Arc<Node>, original: Weak<Node>) -> bool {
let Ok(alias) = alias.get_aspect::<Alias>() else {
return false;
};
if alias.original.ptr_eq(&original) {
return true;
}
let Some(original_strong) = alias.original.upgrade() else {
return false;
};
links_to(original_strong, original)
}
#[derive(Debug, Default, Clone)]
pub struct AliasList(Registry<Node>);
impl AliasList {
fn add(&self, node: &Arc<Node>) {
self.0.add_raw(node);
}
pub fn get_from_original_node(&self, original: Weak<Node>) -> Option<Arc<Node>> {
self.0
.get_valid_contents()
.into_iter()
.find(move |node| links_to(node.clone(), original.clone()))
}
pub fn get_from_aspect<A: Aspect>(&self, aspect: &A) -> Option<Arc<Node>> {
self.0.get_valid_contents().into_iter().find(|node| {
let Some(node) = get_original(node.clone(), false) else {
return false;
};
let Ok(aspect2) = node.get_aspect::<A>() else {
return false;
};
Arc::as_ptr(&aspect2) == (aspect as *const A)
})
}
pub fn get_aliases(&self) -> Vec<Arc<Node>> {
self.0.get_valid_contents()
}
pub fn remove_aspect<A: Aspect>(&self, aspect: &A) {
self.0.retain(|node| {
let Some(original) = get_original(node.clone(), false) else {
return false;
};
let Ok(aspect2) = original.get_aspect::<A>() else {
return false;
};
Arc::as_ptr(&aspect2) != (aspect as *const A)
})
}
}
impl Drop for AliasList {
fn drop(&mut self) {
for node in self.0.take_valid_contents() {
node.destroy();
}
}
}

154
src/nodes/audio.rs
View File

@@ -1,53 +1,45 @@
use super::Node;
use super::{Aspect, Node};
use crate::core::client::Client;
use crate::core::destroy_queue;
use crate::core::registry::Registry;
use crate::core::resource::ResourceID;
use crate::nodes::spatial::{find_spatial_parent, parse_transform, Spatial};
use color_eyre::eyre::{ensure, eyre, Result};
use crate::core::resource::get_resource_file;
use crate::create_interface;
use crate::nodes::spatial::SPATIAL_ASPECT_ALIAS_INFO;
use crate::nodes::spatial::{Spatial, Transform};
use color_eyre::eyre::{eyre, Result};
use glam::{vec3, Vec4Swizzles};
use once_cell::sync::OnceCell;
use parking_lot::Mutex;
use send_wrapper::SendWrapper;
use serde::Deserialize;
use stardust_xr::schemas::flex::deserialize;
use stardust_xr::values::Transform;
use stardust_xr::values::ResourceID;
use std::ops::DerefMut;
use std::{ffi::OsStr, path::PathBuf, sync::Arc};
use stereokit::{Sound as SkSound, SoundInstance, StereoKitDraw};
use std::sync::Arc;
use std::{ffi::OsStr, path::PathBuf};
use stereokit_rust::sound::{Sound as SkSound, SoundInst};
static SOUND_REGISTRY: Registry<Sound> = Registry::new();
stardust_xr_server_codegen::codegen_audio_protocol!();
pub struct Sound {
space: Arc<Spatial>,
volume: f32,
pending_audio_path: PathBuf,
sk_sound: OnceCell<SendWrapper<SkSound>>,
instance: Mutex<Option<SoundInstance>>,
sk_sound: OnceCell<SkSound>,
instance: Mutex<Option<SoundInst>>,
stop: Mutex<Option<()>>,
play: Mutex<Option<()>>,
}
impl Sound {
pub fn add_to(node: &Arc<Node>, resource_id: ResourceID) -> Result<Arc<Sound>> {
ensure!(
node.spatial.get().is_some(),
"Internal: Node does not have a spatial attached!"
);
let pending_audio_path = resource_id
.get_file(
&node
.get_client()
.ok_or_else(|| eyre!("Client not found"))?
.base_resource_prefixes
.lock()
.clone(),
&[OsStr::new("wav"), OsStr::new("mp3")],
)
.ok_or_else(|| eyre!("Resource not found"))?;
let pending_audio_path = get_resource_file(
&resource_id,
&*node.get_client().ok_or_else(|| eyre!("Client not found"))?,
&[OsStr::new("wav"), OsStr::new("mp3")],
)
.ok_or_else(|| eyre!("Resource not found"))?;
let sound = Sound {
space: node.spatial.get().unwrap().clone(),
space: node.get_aspect::<Spatial>().unwrap().clone(),
volume: 1.0,
pending_audio_path,
sk_sound: OnceCell::new(),
@@ -56,81 +48,77 @@ impl Sound {
play: Mutex::new(None),
};
let sound_arc = SOUND_REGISTRY.add(sound);
node.add_local_signal("play", Sound::play_flex);
node.add_local_signal("stop", Sound::stop_flex);
let _ = node.sound.set(sound_arc.clone());
node.add_aspect_raw(sound_arc.clone());
<Sound as SoundAspect>::add_node_members(node);
Ok(sound_arc)
}
fn update(&self, sk: &impl StereoKitDraw) {
let sound = self.sk_sound.get_or_init(|| {
SendWrapper::new(sk.sound_create(self.pending_audio_path.clone()).unwrap())
});
fn update(&self) {
let sound = self
.sk_sound
.get_or_init(|| SkSound::from_file(self.pending_audio_path.clone()).unwrap());
if self.stop.lock().take().is_some() {
if let Some(instance) = self.instance.lock().take() {
sk.sound_inst_stop(instance);
instance.stop();
}
}
if self.play.lock().is_some() && self.instance.lock().is_none() {
self.instance.lock().replace(sk.sound_play(
sound.as_ref(),
vec3(0.0, 0.0, 0.0),
self.volume,
));
if self.instance.lock().is_none() && self.play.lock().take().is_some() {
let instance = sound.play(vec3(0.0, 0.0, 0.0), Some(self.volume));
self.instance.lock().replace(instance);
}
if let Some(instance) = self.instance.lock().deref_mut() {
sk.sound_inst_set_pos(*instance, self.space.global_transform().w_axis.xyz());
instance.position(self.space.global_transform().w_axis.xyz());
}
}
fn play_flex(node: &Node, _calling_client: Arc<Client>, _data: &[u8]) -> Result<()> {
let sound = node.sound.get().unwrap();
}
impl Aspect for Sound {
const NAME: &'static str = "Sound";
}
impl SoundAspect for Sound {
fn play(node: Arc<Node>, _calling_client: Arc<Client>) -> Result<()> {
let sound = node.get_aspect::<Sound>().unwrap();
sound.play.lock().replace(());
Ok(())
}
pub fn stop_flex(node: &Node, _calling_client: Arc<Client>, _data: &[u8]) -> Result<()> {
let sound = node.sound.get().unwrap();
fn stop(node: Arc<Node>, _calling_client: Arc<Client>) -> Result<()> {
let sound = node.get_aspect::<Sound>().unwrap();
sound.stop.lock().replace(());
Ok(())
}
}
pub fn update(sk: &impl StereoKitDraw) {
for sound in SOUND_REGISTRY.get_valid_contents() {
sound.update(sk)
}
}
pub fn create_interface(client: &Arc<Client>) -> Result<()> {
let node = Node::create(client, "", "audio", false);
node.add_local_signal("create_sound", create_flex);
node.add_to_scenegraph().map(|_| ())
}
pub fn create_flex(_node: &Node, calling_client: Arc<Client>, data: &[u8]) -> Result<()> {
#[derive(Deserialize)]
struct CreateSoundInfo<'a> {
name: &'a str,
parent_path: &'a str,
transform: Transform,
resource: ResourceID,
}
let info: CreateSoundInfo = deserialize(data)?;
let node = Node::create(&calling_client, "/audio/sound", info.name, true);
let parent = find_spatial_parent(&calling_client, info.parent_path)?;
let transform = parse_transform(info.transform, true, true, true);
let node = node.add_to_scenegraph()?;
Spatial::add_to(&node, Some(parent), transform, false)?;
Sound::add_to(&node, info.resource)?;
Ok(())
}
impl Drop for Sound {
fn drop(&mut self) {
if let Some(instance) = self.instance.lock().take() {
destroy_queue::add(instance);
if let Some(sk_sound) = self.sk_sound.take() {
destroy_queue::add(sk_sound);
}
SOUND_REGISTRY.remove(self);
}
}
pub fn update() {
for sound in SOUND_REGISTRY.get_valid_contents() {
sound.update()
}
}
create_interface!(AudioInterface);
struct AudioInterface;
impl InterfaceAspect for AudioInterface {
#[doc = "Create a sound node. WAV and MP3 are supported."]
fn create_sound(
_node: Arc<Node>,
calling_client: Arc<Client>,
id: u64,
parent: Arc<Node>,
transform: Transform,
resource: ResourceID,
) -> Result<()> {
let node = Node::from_id(&calling_client, id, true);
let parent = parent.get_aspect::<Spatial>()?;
let transform = transform.to_mat4(true, true, true);
let node = node.add_to_scenegraph()?;
Spatial::add_to(&node, Some(parent.clone()), transform, false);
Sound::add_to(&node, resource)?;
Ok(())
}
}

383
src/nodes/data.rs
View File

@@ -1,30 +1,51 @@
use super::alias::AliasInfo;
use super::alias::AliasList;
use super::fields::Field;
use super::spatial::{parse_transform, Spatial};
use super::{Alias, Node};
use super::{Alias, Aspect, Node};
use crate::core::client::Client;
use crate::core::node_collections::LifeLinkedNodeMap;
use crate::core::registry::Registry;
use crate::nodes::fields::{find_field, FIELD_ALIAS_INFO};
use crate::nodes::spatial::find_spatial_parent;
use color_eyre::eyre::{ensure, eyre, Result};
use glam::vec3a;
use mint::{Quaternion, Vector3};
use nanoid::nanoid;
use serde::{Deserialize, Serialize};
use stardust_xr::schemas::flex::{deserialize, flexbuffers, serialize};
use stardust_xr::values::Transform;
use crate::create_interface;
use crate::nodes::fields::FIELD_ALIAS_INFO;
use crate::nodes::spatial::Transform;
use crate::nodes::spatial::SPATIAL_ASPECT_ALIAS_INFO;
use color_eyre::eyre::{bail, ensure, eyre, Result};
use lazy_static::lazy_static;
use parking_lot::Mutex;
use slotmap::{DefaultKey, Key, KeyData, SlotMap};
use stardust_xr::schemas::flex::flexbuffers;
use stardust_xr::values::Datamap;
use std::sync::{Arc, Weak};
lazy_static! {
pub static ref KEYMAPS: Mutex<SlotMap<DefaultKey, String>> = Mutex::new(SlotMap::default());
}
// TODO: probably just use d-bus for this stuff (custom protocol for exporting spatials as refs) because the mask stuff is just too confusing
static PULSE_SENDER_REGISTRY: Registry<PulseSender> = Registry::new();
pub static PULSE_RECEIVER_REGISTRY: Registry<PulseReceiver> = Registry::new();
pub fn mask_matches(mask_map_lesser: &Mask, mask_map_greater: &Mask) -> bool {
pub fn get_mask(datamap: &Datamap) -> Result<flexbuffers::MapReader<&[u8]>> {
flexbuffers::Reader::get_root(datamap.raw().as_slice())
.map_err(|_| eyre!("Mask is not a valid flexbuffer"))?
.get_map()
.map_err(|_| eyre!("Mask is not a valid map"))
}
pub fn mask_matches(mask_map_lesser: &Datamap, mask_map_greater: &Datamap) -> bool {
(|| -> Result<_> {
for key in mask_map_lesser.get_mask()?.iter_keys() {
let lesser_key = mask_map_lesser.get_mask()?.index(key)?;
let greater_key = mask_map_greater.get_mask()?.index(key)?;
if lesser_key.to_string() != greater_key.to_string() {
for key in get_mask(mask_map_lesser)?.iter_keys() {
let lesser_key = get_mask(mask_map_lesser)?.index(key)?;
let greater_key = get_mask(mask_map_greater)?.index(key)?;
// otherwise zero-length vectors don't count the same as a single type vector
if lesser_key.flexbuffer_type().is_heterogenous_vector()
&& lesser_key.as_vector().is_empty()
&& greater_key.flexbuffer_type().is_vector()
{
continue;
}
if !lesser_key.flexbuffer_type().is_null()
&& lesser_key.flexbuffer_type() != greater_key.flexbuffer_type()
{
return Err(flexbuffers::ReaderError::InvalidPackedType {}.into());
}
}
@@ -33,44 +54,26 @@ pub fn mask_matches(mask_map_lesser: &Mask, mask_map_greater: &Mask) -> bool {
.is_ok()
}
pub struct Mask(pub Vec<u8>);
impl Mask {
pub fn get_mask(&self) -> Result<flexbuffers::MapReader<&[u8]>> {
flexbuffers::Reader::get_root(self.0.as_slice())
.map_err(|_| eyre!("Mask is not a valid flexbuffer"))?
.get_map()
.map_err(|_| eyre!("Mask is not a valid map"))
}
}
#[derive(Serialize, Deserialize)]
struct SendDataInfo<'a> {
uid: &'a str,
data: Vec<u8>,
}
stardust_xr_server_codegen::codegen_data_protocol!();
pub struct PulseSender {
uid: String,
node: Weak<Node>,
pub mask: Mask,
aliases: LifeLinkedNodeMap<String>,
pub mask: Datamap,
aliases: AliasList,
field_aliases: AliasList,
}
impl PulseSender {
pub fn add_to(node: &Arc<Node>, mask: Mask) -> Result<Arc<PulseSender>> {
ensure!(
node.spatial.get().is_some(),
"Internal: Node does not have a spatial attached!"
);
pub fn add_to(node: &Arc<Node>, mask: Datamap) -> Result<Arc<PulseSender>> {
let sender = PulseSender {
uid: nanoid!(),
node: Arc::downgrade(node),
mask,
aliases: LifeLinkedNodeMap::default(),
aliases: AliasList::default(),
field_aliases: AliasList::default(),
};
// <PulseSender as PulseSenderAspect>::add_node_members(node);
let sender = PULSE_SENDER_REGISTRY.add(sender);
let _ = node.pulse_sender.set(sender.clone());
node.add_local_signal("send_data", PulseSender::send_data_flex);
node.add_aspect_raw(sender.clone());
for receiver in PULSE_RECEIVER_REGISTRY.get_valid_contents() {
sender.handle_new_receiver(&receiver);
}
@@ -80,95 +83,60 @@ impl PulseSender {
if !mask_matches(&self.mask, &receiver.mask) {
return;
}
let Some(tx_node) = self.node.upgrade() else { return };
let Some(tx_client) = tx_node.get_client() else { return };
let Some(rx_node) = receiver.node.upgrade() else { return };
let Some(tx_node) = self.node.upgrade() else {
return;
};
let Some(tx_client) = tx_node.get_client() else {
return;
};
let Some(rx_node) = receiver.node.upgrade() else {
return;
};
// Receiver itself
let rx_alias = Alias::create(
&tx_client,
tx_node.get_path(),
receiver.uid.as_str(),
let Ok(rx_alias) = Alias::create(
&rx_node,
AliasInfo {
server_methods: vec!["sendData", "getTransform"],
..Default::default()
},
);
if let Ok(rx_alias) = rx_alias {
self.aliases.add(receiver.uid.clone(), &rx_alias);
if let Some(rx_field_node) = receiver.field.spatial_ref().node.upgrade() {
// Receiver's field
let rx_field_alias = Alias::create(
&tx_client,
rx_alias.get_path(),
"field",
&rx_field_node,
FIELD_ALIAS_INFO.clone(),
);
if let Ok(rx_field_alias) = rx_field_alias {
self.aliases
.add(receiver.uid.clone() + "-field", &rx_field_alias);
}
}
}
#[derive(Serialize)]
struct NewReceiverInfo<'a> {
uid: &'a str,
distance: f32,
position: Vector3<f32>,
rotation: Quaternion<f32>,
}
let (_, rotation, position) = Spatial::space_to_space_matrix(
rx_node.spatial.get().map(|s| s.as_ref()),
tx_node.spatial.get().map(|s| s.as_ref()),
)
.to_scale_rotation_translation();
let info = NewReceiverInfo {
uid: &receiver.uid,
distance: receiver
.field
.distance(tx_node.spatial.get().unwrap(), vec3a(0.0, 0.0, 0.0)),
position: position.into(),
rotation: rotation.into(),
&tx_client,
PULSE_RECEIVER_ASPECT_ALIAS_INFO.clone(),
Some(&self.aliases),
) else {
return;
};
let Ok(data) = serialize(info) else {return};
let _ = tx_node.send_remote_signal("new_receiver", &data);
// Receiver's field
let Ok(rx_field_alias) = Alias::create(
&rx_node
.get_aspect::<PulseReceiver>()
.unwrap()
.field
.spatial
.node()
.unwrap(),
&tx_client,
FIELD_ALIAS_INFO.clone(),
Some(&self.aliases),
) else {
return;
};
let _ = pulse_sender_client::new_receiver(&tx_node, &rx_alias, &rx_field_alias);
}
fn handle_drop_receiver(&self, receiver: &PulseReceiver) {
let uid = receiver.uid.as_str();
self.aliases.remove(uid);
self.aliases.remove(&(uid.to_string() + "-field"));
let Some(tx_node) = self.node.upgrade() else {return};
let Ok(data) = serialize(&uid) else {return};
let _ = tx_node.send_remote_signal("drop_receiver", &data);
}
fn send_data_flex(node: &Node, calling_client: Arc<Client>, data: &[u8]) -> Result<()> {
let info: SendDataInfo = deserialize(data)?;
let receiver_node = calling_client.get_node("Pulse receiver", info.uid)?;
let receiver =
receiver_node.get_aspect("Pulse Receiver", "pulse receiver", |n| &n.pulse_receiver)?;
let receiver_mask = &receiver_node
.get_aspect("Pulse receiver", "pulse receiver", |node| {
&node.pulse_receiver
})?
.mask;
let data_mask = Mask(info.data);
data_mask.get_mask()?;
ensure!(
mask_matches(receiver_mask, &data_mask),
"Message does not contain the same keys as the receiver's mask"
);
receiver.send_data(&node.pulse_sender.get().unwrap().uid, data_mask.0)
let Some(node) = receiver.node.upgrade() else {
return;
};
self.aliases.remove_aspect(receiver);
self.field_aliases.remove_aspect(receiver.field.as_ref());
let Some(tx_node) = self.node.upgrade() else {
return;
};
let _ = pulse_sender_client::drop_receiver(&tx_node, node.get_id());
}
}
impl Aspect for PulseSender {
const NAME: &'static str = "PulseSender";
}
impl PulseSenderAspect for PulseSender {}
impl Drop for PulseSender {
fn drop(&mut self) {
PULSE_SENDER_REGISTRY.remove(self);
@@ -176,41 +144,52 @@ impl Drop for PulseSender {
}
pub struct PulseReceiver {
uid: String,
pub node: Weak<Node>,
pub field: Arc<Field>,
pub mask: Mask,
pub mask: Datamap,
}
impl PulseReceiver {
pub fn add_to(node: &Arc<Node>, field: Arc<Field>, mask: Mask) -> Result<()> {
ensure!(
node.spatial.get().is_some(),
"Internal: Node does not have a spatial attached!"
);
pub fn add_to(
node: &Arc<Node>,
field: Arc<Field>,
mask: Datamap,
) -> Result<Arc<PulseReceiver>> {
let receiver = PulseReceiver {
uid: nanoid!(),
node: Arc::downgrade(node),
field,
mask,
};
let receiver = PULSE_RECEIVER_REGISTRY.add(receiver);
<PulseReceiver as PulseReceiverAspect>::add_node_members(node);
node.add_aspect_raw(receiver.clone());
for sender in PULSE_SENDER_REGISTRY.get_valid_contents() {
sender.handle_new_receiver(&receiver);
}
let _ = node.pulse_receiver.set(receiver);
Ok(())
Ok(receiver)
}
}
impl Aspect for PulseReceiver {
const NAME: &'static str = "PulseReceiver";
}
impl PulseReceiverAspect for PulseReceiver {
fn send_data(
node: Arc<Node>,
_calling_client: Arc<Client>,
sender: Arc<Node>,
data: Datamap,
) -> Result<()> {
let this_receiver = node.get_aspect::<PulseReceiver>().unwrap();
pub fn send_data(&self, uid: &str, data: Vec<u8>) -> Result<()> {
if let Some(node) = self.node.upgrade() {
node.send_remote_signal("data", &serialize(SendDataInfo { uid, data })?)?;
}
ensure!(
mask_matches(&this_receiver.mask, &data),
"Message ({data:?}) does not contain the same keys as the receiver's mask ({:?})",
this_receiver.mask
);
pulse_receiver_client::data(&node, &sender, &data)?;
Ok(())
}
}
impl Drop for PulseReceiver {
fn drop(&mut self) {
PULSE_RECEIVER_REGISTRY.remove(self);
@@ -220,62 +199,78 @@ impl Drop for PulseReceiver {
}
}
pub fn create_interface(client: &Arc<Client>) -> Result<()> {
let node = Node::create(client, "", "data", false);
node.add_local_signal("create_pulse_sender", create_pulse_sender_flex);
node.add_local_signal("create_pulse_receiver", create_pulse_receiver_flex);
node.add_to_scenegraph().map(|_| ())
}
pub fn create_pulse_sender_flex(
_node: &Node,
calling_client: Arc<Client>,
data: &[u8],
) -> Result<()> {
#[derive(Deserialize)]
struct CreatePulseSenderInfo<'a> {
name: &'a str,
parent_path: &'a str,
create_interface!(DataInterface);
struct DataInterface;
impl InterfaceAspect for DataInterface {
fn create_pulse_sender(
_node: Arc<Node>,
calling_client: Arc<Client>,
id: u64,
parent: Arc<Node>,
transform: Transform,
mask: Vec<u8>,
mask: Datamap,
) -> Result<()> {
get_mask(&mask)?;
let node = Node::from_id(&calling_client, id, true);
let parent = parent.get_aspect::<Spatial>()?;
let transform = transform.to_mat4(true, true, false);
let node = node.add_to_scenegraph()?;
Spatial::add_to(&node, Some(parent.clone()), transform, false);
PulseSender::add_to(&node, mask)?;
Ok(())
}
let info: CreatePulseSenderInfo = deserialize(data)?;
let node = Node::create(&calling_client, "/data/sender", info.name, true);
let parent = find_spatial_parent(&calling_client, info.parent_path)?;
let transform = parse_transform(info.transform, true, true, false);
let mask = Mask(info.mask);
mask.get_mask()?;
let node = node.add_to_scenegraph()?;
Spatial::add_to(&node, Some(parent), transform, false)?;
PulseSender::add_to(&node, mask)?;
Ok(())
}
pub fn create_pulse_receiver_flex(
_node: &Node,
calling_client: Arc<Client>,
data: &[u8],
) -> Result<()> {
#[derive(Deserialize)]
struct CreatePulseReceiverInfo<'a> {
name: &'a str,
parent_path: &'a str,
fn create_pulse_receiver(
_node: Arc<Node>,
calling_client: Arc<Client>,
id: u64,
parent: Arc<Node>,
transform: Transform,
field_path: &'a str,
mask: Vec<u8>,
}
let info: CreatePulseReceiverInfo = deserialize(data)?;
let node = Node::create(&calling_client, "/data/receiver", info.name, true);
let parent = find_spatial_parent(&calling_client, info.parent_path)?;
let transform = parse_transform(info.transform, true, true, false);
let field = find_field(&calling_client, info.field_path)?;
let mask = Mask(info.mask);
mask.get_mask()?;
field: Arc<Node>,
mask: Datamap,
) -> Result<()> {
get_mask(&mask)?;
let node = Node::from_id(&calling_client, id, true);
let parent = parent.get_aspect::<Spatial>()?;
let transform = parse_transform(transform, true, true, false);
let field = field.get_aspect::<Field>()?;
let node = node.add_to_scenegraph()?;
Spatial::add_to(&node, Some(parent), transform, false)?;
PulseReceiver::add_to(&node, field, mask)?;
Ok(())
let node = node.add_to_scenegraph()?;
Spatial::add_to(&node, Some(parent.clone()), transform, false);
PulseReceiver::add_to(&node, field, mask)?;
Ok(())
}
async fn register_keymap(
_node: Arc<Node>,
_calling_client: Arc<Client>,
keymap: String,
) -> Result<u64> {
let mut keymaps = KEYMAPS.lock();
if let Some(found_keymap_id) = keymaps
.iter()
.filter(|(_k, v)| *v == &keymap)
.map(|(k, _v)| k)
.last()
{
return Ok(found_keymap_id.data().as_ffi());
}
let key = keymaps.insert(keymap);
Ok(key.data().as_ffi())
}
async fn get_keymap(
_node: Arc<Node>,
_calling_client: Arc<Client>,
keymap_id: u64,
) -> Result<String> {
let keymaps = KEYMAPS.lock();
let Some(keymap) = keymaps.get(KeyData::from_ffi(keymap_id).into()) else {
bail!("Could not find keymap. Try registering it")
};
Ok(keymap.clone())
}
}

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195
src/nodes/drawable/lines.rs
View File

@@ -1,118 +1,95 @@
use super::{Line, LinesAspect};
use crate::{
core::{client::Client, registry::Registry},
nodes::{
spatial::{find_spatial_parent, parse_transform, Spatial},
Node,
},
nodes::{spatial::Spatial, Aspect, Node},
};
use color_eyre::eyre::{bail, ensure, Result};
use glam::Vec3A;
use mint::Vector3;
use color_eyre::eyre::Result;
use glam::Vec3;
use parking_lot::Mutex;
use portable_atomic::{AtomicBool, Ordering};
use prisma::{Flatten, Lerp, Rgba};
use serde::Deserialize;
use stardust_xr::{schemas::flex::deserialize, values::Transform};
use prisma::Lerp;
use std::{collections::VecDeque, sync::Arc};
use stereokit::{bounds_grow_to_fit_pt, Bounds, Color128, LinePoint as SkLinePoint, StereoKitDraw};
use super::Drawable;
use stereokit_rust::{
maths::Bounds, sk::MainThreadToken, system::LinePoint as SkLinePoint, util::Color128,
};
static LINES_REGISTRY: Registry<Lines> = Registry::new();
#[derive(Debug, Clone, Deserialize)]
struct LinePointRaw {
point: Vector3<f32>,
thickness: f32,
color: [f32; 4],
}
#[derive(Debug, Clone)]
struct LineData {
points: Vec<LinePointRaw>,
cyclic: bool,
}
pub struct Lines {
enabled: Arc<AtomicBool>,
space: Arc<Spatial>,
data: Mutex<LineData>,
data: Mutex<Vec<Line>>,
}
impl Lines {
fn add_to(node: &Arc<Node>, points: Vec<LinePointRaw>, cyclic: bool) -> Result<Arc<Lines>> {
ensure!(
node.drawable.get().is_none(),
"Internal: Node already has a drawable attached!"
);
let _ = node.spatial.get().unwrap().bounding_box_calc.set(|node| {
let mut bounds = Bounds::default();
let Some(Drawable::Lines(lines)) = node.drawable.get() else {return bounds};
for point in &lines.data.lock().points {
bounds = bounds_grow_to_fit_pt(bounds, point.point);
}
bounds
});
pub fn add_to(node: &Arc<Node>, lines: Vec<Line>) -> Result<Arc<Lines>> {
let _ = node
.get_aspect::<Spatial>()
.unwrap()
.bounding_box_calc
.set(|node| {
let mut bounds = Bounds::default();
if let Ok(lines) = node.get_aspect::<Lines>() {
for line in &*lines.data.lock() {
for point in &line.points {
bounds.grown_point(Vec3::from(point.point));
}
}
}
bounds
});
let lines = LINES_REGISTRY.add(Lines {
enabled: node.enabled.clone(),
space: node.get_aspect("Lines", "spatial", |n| &n.spatial)?.clone(),
data: Mutex::new(LineData { points, cyclic }),
space: node.get_aspect::<Spatial>()?.clone(),
data: Mutex::new(lines),
});
node.add_local_signal("set_points", Lines::set_points_flex);
node.add_local_signal("set_cyclic", Lines::set_cyclic_flex);
let _ = node.drawable.set(Drawable::Lines(lines.clone()));
<Lines as LinesAspect>::add_node_members(node);
node.add_aspect_raw(lines.clone());
Ok(lines)
}
fn draw(&self, draw_ctx: &impl StereoKitDraw) {
fn draw(&self, token: &MainThreadToken) {
let transform_mat = self.space.global_transform();
let data = self.data.lock().clone();
let mut points: VecDeque<SkLinePoint> = data
.points
.iter()
.map(|p| SkLinePoint {
pt: transform_mat.transform_point3a(Vec3A::from(p.point)).into(),
thickness: p.thickness,
color: p.color.map(|c| (c * 255.0) as u8).into(),
})
.collect();
if data.cyclic && !points.is_empty() {
let first = data.points.first().unwrap();
let last = data.points.last().unwrap();
let color = Rgba::from_slice(&first.color).lerp(&Rgba::from_slice(&last.color), 0.5);
let connect_point = SkLinePoint {
pt: transform_mat
.transform_point3a(Vec3A::from(first.point).lerp(Vec3A::from(last.point), 0.5))
.into(),
thickness: (first.thickness + last.thickness) * 0.5,
color: Color128::from([color.red(), color.green(), color.blue(), color.alpha()])
.into(),
};
points.push_front(connect_point.clone());
points.push_back(connect_point);
for line in &data {
let mut points: VecDeque<SkLinePoint> = line
.points
.iter()
.map(|p| SkLinePoint {
pt: transform_mat.transform_point3(Vec3::from(p.point)).into(),
thickness: p.thickness,
color: Color128::new(p.color.c.r, p.color.c.g, p.color.c.b, p.color.a).into(),
})
.collect();
if line.cyclic && !points.is_empty() {
let first = line.points.first().unwrap();
let last = line.points.last().unwrap();
let color = Color128 {
r: first.color.c.r.lerp(&last.color.c.r, 0.5),
g: first.color.c.g.lerp(&last.color.c.g, 0.5),
b: first.color.c.b.lerp(&last.color.c.b, 0.5),
a: first.color.a.lerp(&last.color.a, 0.5),
};
let connect_point = SkLinePoint {
pt: transform_mat
.transform_point3(Vec3::from(first.point).lerp(Vec3::from(last.point), 0.5))
.into(),
thickness: (first.thickness + last.thickness) * 0.5,
color: color.into(),
};
points.push_front(connect_point);
points.push_back(connect_point);
}
stereokit_rust::system::Lines::add_list(token, points.make_contiguous());
}
draw_ctx.line_add_listv(points.make_contiguous());
}
pub fn set_points_flex(node: &Node, _calling_client: Arc<Client>, data: &[u8]) -> Result<()> {
let Some(Drawable::Lines(lines)) = node.drawable.get() else {bail!("Not a drawable??")};
let mut points: Vec<LinePointRaw> = deserialize(data)?;
for p in &mut points {
p.color[0] = p.color[0].powf(2.2);
p.color[1] = p.color[1].powf(2.2);
p.color[2] = p.color[2].powf(2.2);
}
lines.data.lock().points = points;
Ok(())
}
pub fn set_cyclic_flex(node: &Node, _calling_client: Arc<Client>, data: &[u8]) -> Result<()> {
let Some(Drawable::Lines(lines)) = node.drawable.get() else {bail!("Not a drawable??")};
lines.data.lock().cyclic = deserialize(data)?;
}
impl Aspect for Lines {
const NAME: &'static str = "Lines";
}
impl LinesAspect for Lines {
fn set_lines(node: Arc<Node>, _calling_client: Arc<Client>, lines: Vec<Line>) -> Result<()> {
let lines_aspect = node.get_aspect::<Lines>()?;
*lines_aspect.data.lock() = lines;
Ok(())
}
}
@@ -122,36 +99,12 @@ impl Drop for Lines {
}
}
pub fn draw_all(draw_ctx: &impl StereoKitDraw) {
pub fn draw_all(token: &MainThreadToken) {
for lines in LINES_REGISTRY.get_valid_contents() {
if lines.enabled.load(Ordering::Relaxed) {
lines.draw(draw_ctx);
if let Some(node) = lines.space.node() {
if node.enabled() {
lines.draw(token);
}
}
}
}
pub fn create_flex(_node: &Node, calling_client: Arc<Client>, data: &[u8]) -> Result<()> {
#[derive(Deserialize)]
struct CreateTextInfo<'a> {
name: &'a str,
parent_path: &'a str,
transform: Transform,
points: Vec<LinePointRaw>,
cyclic: bool,
}
let mut info: CreateTextInfo = deserialize(data)?;
let node = Node::create(&calling_client, "/drawable/lines", info.name, true);
let parent = find_spatial_parent(&calling_client, info.parent_path)?;
let transform = parse_transform(info.transform, true, true, true);
for p in &mut info.points {
p.color[0] = p.color[0].powf(2.2);
p.color[1] = p.color[1].powf(2.2);
p.color[2] = p.color[2].powf(2.2);
}
let node = node.add_to_scenegraph()?;
Spatial::add_to(&node, Some(parent), transform, false)?;
Lines::add_to(&node, info.points, info.cyclic)?;
Ok(())
}

152
src/nodes/drawable/mod.rs
View File

@@ -1,53 +1,40 @@
pub mod lines;
pub mod model;
#[cfg(feature = "wayland")]
pub mod shader_manipulation;
pub mod shaders;
pub mod text;
use self::{
lines::Lines,
model::{Model, ModelPart},
text::Text,
use self::{lines::Lines, model::Model, text::Text};
use super::{
spatial::{Spatial, Transform},
Node,
};
use super::Node;
use crate::core::client::Client;
use color_eyre::eyre::Result;
use crate::nodes::spatial::SPATIAL_ASPECT_ALIAS_INFO;
use crate::{
core::{client::Client, resource::get_resource_file},
create_interface,
};
use color_eyre::eyre::{self, Result};
use parking_lot::Mutex;
use serde::Deserialize;
use stardust_xr::schemas::flex::deserialize;
use std::{path::PathBuf, sync::Arc};
use stereokit::StereoKitDraw;
use tracing::instrument;
use stardust_xr::values::ResourceID;
use std::{ffi::OsStr, path::PathBuf, sync::Arc};
use stereokit_rust::{sk::MainThreadToken, system::Renderer, tex::SHCubemap};
pub fn create_interface(client: &Arc<Client>) -> Result<()> {
let node = Node::create(client, "", "drawable", false);
node.add_local_signal("create_lines", lines::create_flex);
node.add_local_signal("create_model", model::create_flex);
node.add_local_signal("create_text", text::create_flex);
node.add_local_signal("set_sky_file", set_sky_file_flex);
node.add_to_scenegraph().map(|_| ())
}
pub enum Drawable {
Lines(Arc<Lines>),
Model(Arc<Model>),
ModelPart(Arc<ModelPart>),
Text(Arc<Text>),
}
#[instrument(level = "debug", skip(sk))]
pub fn draw(sk: &impl StereoKitDraw) {
lines::draw_all(sk);
model::draw_all(sk);
text::draw_all(sk);
// #[instrument(level = "debug", skip(sk))]
pub fn draw(token: &MainThreadToken) {
lines::draw_all(token);
model::draw_all(token);
text::draw_all(token);
if let Some(skytex) = QUEUED_SKYTEX.lock().take() {
if let Ok((_skylight, skytex)) = sk.tex_create_cubemap_file(&skytex, true, i32::MAX) {
sk.render_set_skytex(&skytex);
if let Ok(skytex) = SHCubemap::from_cubemap_equirectangular(skytex, true, 100) {
Renderer::skytex(skytex.tex);
}
}
if let Some(skylight) = QUEUED_SKYLIGHT.lock().take() {
if let Ok((skylight, _)) = sk.tex_create_cubemap_file(&skylight, true, i32::MAX) {
sk.render_set_skylight(skylight);
if let Ok(skylight) = SHCubemap::from_cubemap_equirectangular(skylight, true, 100) {
Renderer::skylight(skylight.sh);
}
}
}
@@ -55,21 +42,80 @@ pub fn draw(sk: &impl StereoKitDraw) {
static QUEUED_SKYLIGHT: Mutex<Option<PathBuf>> = Mutex::new(None);
static QUEUED_SKYTEX: Mutex<Option<PathBuf>> = Mutex::new(None);
fn set_sky_file_flex(_node: &Node, _calling_client: Arc<Client>, data: &[u8]) -> Result<()> {
#[derive(Deserialize)]
struct SkyFileInfo {
path: PathBuf,
skytex: Option<bool>,
skylight: Option<bool>,
}
let info: SkyFileInfo = deserialize(data)?;
info.path.metadata()?;
if info.skytex.unwrap_or_default() {
QUEUED_SKYTEX.lock().replace(info.path.clone());
}
if info.skylight.unwrap_or_default() {
QUEUED_SKYLIGHT.lock().replace(info.path);
stardust_xr_server_codegen::codegen_drawable_protocol!();
create_interface!(DrawableInterface);
pub struct DrawableInterface;
impl InterfaceAspect for DrawableInterface {
fn set_sky_tex(_node: Arc<Node>, calling_client: Arc<Client>, tex: ResourceID) -> Result<()> {
let resource_path = get_resource_file(&tex, &calling_client, &[OsStr::new("hdr")])
.ok_or(eyre::eyre!("Could not find resource"))?;
QUEUED_SKYTEX.lock().replace(resource_path);
Ok(())
}
Ok(())
fn set_sky_light(
_node: Arc<Node>,
calling_client: Arc<Client>,
light: ResourceID,
) -> Result<()> {
let resource_path = get_resource_file(&light, &calling_client, &[OsStr::new("hdr")])
.ok_or(eyre::eyre!("Could not find resource"))?;
QUEUED_SKYLIGHT.lock().replace(resource_path);
Ok(())
}
fn create_lines(
_node: Arc<Node>,
calling_client: Arc<Client>,
id: u64,
parent: Arc<Node>,
transform: Transform,
lines: Vec<Line>,
) -> Result<()> {
let node = Node::from_id(&calling_client, id, true);
let parent = parent.get_aspect::<Spatial>()?;
let transform = transform.to_mat4(true, true, true);
let node = node.add_to_scenegraph()?;
Spatial::add_to(&node, Some(parent.clone()), transform, false);
Lines::add_to(&node, lines)?;
Ok(())
}
fn load_model(
_node: Arc<Node>,
calling_client: Arc<Client>,
id: u64,
parent: Arc<Node>,
transform: Transform,
model: ResourceID,
) -> Result<()> {
let node = Node::from_id(&calling_client, id, true);
let parent = parent.get_aspect::<Spatial>()?;
let transform = transform.to_mat4(true, true, true);
let node = node.add_to_scenegraph()?;
Spatial::add_to(&node, Some(parent.clone()), transform, false);
Model::add_to(&node, model)?;
Ok(())
}
fn create_text(
_node: Arc<Node>,
calling_client: Arc<Client>,
id: u64,
parent: Arc<Node>,
transform: Transform,
text: String,
style: TextStyle,
) -> Result<()> {
let node = Node::from_id(&calling_client, id, true);
let parent = parent.get_aspect::<Spatial>()?;
let transform = transform.to_mat4(true, true, true);
let node = node.add_to_scenegraph()?;
Spatial::add_to(&node, Some(parent.clone()), transform, false);
Text::add_to(&node, text, style)?;
Ok(())
}
}

566
src/nodes/drawable/model.rs
View File

@@ -1,114 +1,124 @@
use super::Node;
use super::{MaterialParameter, ModelAspect, ModelPartAspect, MODEL_PART_ASPECT_ALIAS_INFO};
use crate::core::client::Client;
use crate::core::node_collections::LifeLinkedNodeMap;
use crate::core::registry::Registry;
use crate::core::resource::ResourceID;
use crate::nodes::drawable::Drawable;
use crate::nodes::spatial::{find_spatial_parent, parse_transform, Spatial};
use crate::SK_MULTITHREAD;
use color_eyre::eyre::{bail, ensure, eyre, Result};
use glam::Mat4;
use mint::{ColumnMatrix4, Vector2, Vector3, Vector4};
use once_cell::sync::OnceCell;
use crate::core::resource::get_resource_file;
use crate::nodes::alias::{Alias, AliasList};
use crate::nodes::spatial::Spatial;
use crate::nodes::{Aspect, Node};
use color_eyre::eyre::{bail, eyre, Result};
use glam::{Mat4, Vec2, Vec3};
use once_cell::sync::{Lazy, OnceCell};
use parking_lot::Mutex;
use portable_atomic::{AtomicBool, Ordering};
use rustc_hash::FxHashMap;
use send_wrapper::SendWrapper;
use serde::Deserialize;
use stardust_xr::schemas::flex::deserialize;
use stardust_xr::values::Transform;
use stardust_xr::values::ResourceID;
use std::ffi::OsStr;
use std::path::PathBuf;
use std::hash::{Hash, Hasher};
use std::sync::{Arc, Weak};
use stereokit::named_colors::WHITE;
use stereokit::{
Bounds, Color128, Material, Model as SKModel, RenderLayer, Shader, StereoKitDraw,
StereoKitMultiThread,
};
use stereokit_rust::material::Transparency;
use stereokit_rust::maths::Bounds;
use stereokit_rust::sk::MainThreadToken;
use stereokit_rust::{material::Material, model::Model as SKModel, tex::Tex, util::Color128};
static MODEL_REGISTRY: Registry<Model> = Registry::new();
#[derive(Deserialize, Debug)]
#[serde(tag = "t", content = "c")]
pub enum MaterialParameter {
Float(f32),
Vector2(Vector2<f32>),
Vector3(Vector3<f32>),
Vector4(Vector4<f32>),
Color([f32; 4]),
Int(i32),
Int2(Vector2<i32>),
Int3(Vector3<i32>),
Int4(Vector4<i32>),
Bool(bool),
UInt(u32),
UInt2(Vector2<u32>),
UInt3(Vector3<u32>),
UInt4(Vector4<u32>),
Matrix(ColumnMatrix4<f32>),
Texture(ResourceID),
pub struct MaterialWrapper(pub Material);
impl Hash for MaterialWrapper {
fn hash<H: Hasher>(&self, state: &mut H) {
self.0.get_shader().0.as_ptr().hash(state);
for param in self.0.get_all_param_info() {
param.to_string().hash(state)
}
self.0.get_chain().map(MaterialWrapper).hash(state)
}
}
impl PartialEq for MaterialWrapper {
fn eq(&self, other: &Self) -> bool {
if self.0.get_shader().0.as_ptr() != other.0.get_shader().0.as_ptr() {
return false;
}
if self.0.get_all_param_info().count() != other.0.get_all_param_info().count() {
return false;
}
for self_param in self.0.get_all_param_info() {
let Some(other_param) = other
.0
.get_all_param_info()
.get_data(self_param.get_name(), self_param.get_type())
else {
return false;
};
if self_param.to_string() != other_param.to_string() {
return false;
}
}
self.0.get_chain().map(MaterialWrapper) == other.0.get_chain().map(MaterialWrapper)
}
}
impl Eq for MaterialWrapper {}
unsafe impl Send for MaterialWrapper {}
unsafe impl Sync for MaterialWrapper {}
#[derive(Default)]
struct MaterialRegistry(Mutex<FxHashMap<u64, String>>);
impl MaterialRegistry {
fn add_or_get(&self, material: Arc<MaterialWrapper>) -> Arc<MaterialWrapper> {
let mut lock = self.0.lock();
let hash = {
use std::hash::{Hash, Hasher};
let mut hasher = std::collections::hash_map::DefaultHasher::new();
material.hash(&mut hasher);
hasher.finish()
};
if let Some(id) = lock.get(&hash) {
if let Ok(existing) = Material::find(id) {
return Arc::new(MaterialWrapper(existing));
}
}
lock.insert(hash, material.0.get_id().to_string());
material
}
}
static MATERIAL_REGISTRY: Lazy<MaterialRegistry> = Lazy::new(MaterialRegistry::default);
static MODEL_REGISTRY: Registry<Model> = Registry::new();
static HOLDOUT_MATERIAL: OnceCell<Arc<MaterialWrapper>> = OnceCell::new();
impl MaterialParameter {
fn apply_to_material(
&self,
client: &Client,
sk: &impl StereoKitMultiThread,
material: &Material,
parameter_name: &str,
) {
fn apply_to_material(&self, client: &Client, material: &Material, parameter_name: &str) {
let mut params = material.get_all_param_info();
match self {
MaterialParameter::Float(val) => {
sk.material_set_float(material, parameter_name, *val);
}
MaterialParameter::Vector2(val) => {
sk.material_set_vector2(material, parameter_name, *val);
}
MaterialParameter::Vector3(val) => {
sk.material_set_vector3(material, parameter_name, *val);
}
MaterialParameter::Vector4(val) => {
sk.material_set_vector4(material, parameter_name, *val);
}
MaterialParameter::Color(val) => {
sk.material_set_color(material, parameter_name, Color128::from(val.clone()));
MaterialParameter::Bool(val) => {
params.set_bool(parameter_name, *val);
}
MaterialParameter::Int(val) => {
sk.material_set_int(material, parameter_name, *val);
}
MaterialParameter::Int2(val) => {
sk.material_set_int2(material, parameter_name, val.x, val.y);
}
MaterialParameter::Int3(val) => {
sk.material_set_int3(material, parameter_name, val.x, val.y, val.z);
}
MaterialParameter::Int4(val) => {
sk.material_set_int4(material, parameter_name, val.w, val.x, val.y, val.z);
}
MaterialParameter::Bool(val) => {
sk.material_set_bool(material, parameter_name, *val);
params.set_int(parameter_name, &[*val]);
}
MaterialParameter::UInt(val) => {
sk.material_set_uint(material, parameter_name, *val);
params.set_uint(parameter_name, &[*val]);
}
MaterialParameter::UInt2(val) => {
sk.material_set_uint2(material, parameter_name, val.x, val.y);
MaterialParameter::Float(val) => {
params.set_float(parameter_name, *val);
}
MaterialParameter::UInt3(val) => {
sk.material_set_uint3(material, parameter_name, val.x, val.y, val.z);
MaterialParameter::Vec2(val) => {
params.set_vec2(parameter_name, Vec2::from(*val));
}
MaterialParameter::UInt4(val) => {
sk.material_set_uint4(material, parameter_name, val.w, val.x, val.y, val.z);
MaterialParameter::Vec3(val) => {
params.set_vec3(parameter_name, Vec3::from(*val));
}
MaterialParameter::Matrix(val) => {
sk.material_set_matrix(material, parameter_name, Mat4::from(*val));
MaterialParameter::Color(val) => {
params.set_color(
parameter_name,
Color128::new(val.c.r, val.c.g, val.c.b, val.a),
);
}
MaterialParameter::Texture(resource) => {
let Some(texture_path) = resource.get_file(
&client.base_resource_prefixes.lock().clone(),
&[OsStr::new("png"), OsStr::new("jpg")],
) else {return};
if let Ok(tex) = sk.tex_create_file(texture_path, true, 0) {
sk.material_set_texture(material, parameter_name, &tex);
let Some(texture_path) =
get_resource_file(resource, client, &[OsStr::new("png"), OsStr::new("jpg")])
else {
return;
};
if let Ok(tex) = Tex::from_file(texture_path, true, None) {
params.set_texture(parameter_name, &tex);
}
}
}
@@ -117,245 +127,275 @@ impl MaterialParameter {
pub struct ModelPart {
id: i32,
path: PathBuf,
path: String,
space: Arc<Spatial>,
model: Weak<Model>,
pending_material_parameters: Mutex<FxHashMap<String, MaterialParameter>>,
pending_material_replacement: Mutex<Option<Arc<SendWrapper<Material>>>>,
pending_material_replacement: Mutex<Option<Arc<MaterialWrapper>>>,
aliases: AliasList,
}
impl ModelPart {
fn create_for_model(sk: &impl StereoKitMultiThread, model: &Arc<Model>, sk_model: &SKModel) {
let first_root_part = sk.model_node_get_root(sk_model);
let mut current_option_part = Some(first_root_part);
fn create_for_model(model: &Arc<Model>, sk_model: &SKModel) {
HOLDOUT_MATERIAL.get_or_init(|| {
let mut mat = Material::copy(&Material::unlit());
mat.transparency(Transparency::None);
mat.color_tint(Color128::BLACK_TRANSPARENT);
Arc::new(MaterialWrapper(mat))
});
while let Some(current_part) = &mut current_option_part {
ModelPart::create(sk, model, sk_model, *current_part);
if let Some(child) = sk.model_node_child(sk_model, *current_part) {
*current_part = child;
} else if let Some(sibling) = sk.model_node_sibling(sk_model, *current_part) {
*current_part = sibling;
} else {
while let Some(current_part) = &mut current_option_part {
if let Some(sibling) = sk.model_node_sibling(sk_model, *current_part) {
*current_part = sibling;
break;
}
current_option_part = sk.model_node_parent(sk_model, *current_part);
}
}
let nodes = sk_model.get_nodes();
for part in nodes.all() {
ModelPart::create(model, &part);
}
}
fn create(
sk: &impl StereoKitMultiThread,
model: &Arc<Model>,
sk_model: &SKModel,
id: i32,
) -> Option<Arc<Self>> {
let parent_node = sk
.model_node_parent(sk_model, id)
.and_then(|id| model.parts.get(&id));
let parent_part = parent_node
.as_ref()
.and_then(|node| match node.drawable.get() {
Some(Drawable::ModelPart(model_part)) => Some(model_part),
_ => None,
});
fn create(model: &Arc<Model>, part: &stereokit_rust::model::ModelNode) -> Option<Arc<Self>> {
let mut parts = model.parts.lock();
let parent_part = part
.get_parent()
.and_then(|part| parts.iter().find(|p| p.id == *part.get_id()));
let stardust_model_part = model.space.node()?;
let client = stardust_model_part.get_client()?;
let mut part_path = parent_part.map(|n| n.path.clone()).unwrap_or_default();
part_path.push(sk.model_node_get_name(sk_model, id)?);
let node = client.scenegraph.add_node(Node::create(
&client,
stardust_model_part.get_path(),
part_path.to_str()?,
false,
));
let spatial_parent = parent_node
.and_then(|n| n.spatial.get().cloned())
let mut part_path = parent_part
.map(|n| n.path.clone() + "/")
.unwrap_or_default();
part_path += part.get_name().unwrap();
let node = client.scenegraph.add_node(Node::generate(&client, false));
let spatial_parent = parent_part
.map(|n| n.space.clone())
.unwrap_or_else(|| model.space.clone());
let local_transform = unsafe { part.get_local_transform().m };
let space = Spatial::add_to(
&node,
Some(spatial_parent),
sk.model_node_get_transform_local(sk_model, id),
Mat4::from_cols_array(&local_transform),
false,
)
.ok()?;
);
let _ = node.spatial.get().unwrap().bounding_box_calc.set(|node| {
let Some(Drawable::ModelPart(model_part)) = node.drawable.get() else {return Bounds::default()};
let Some(sk) = SK_MULTITHREAD.get() else {return Bounds::default()};
let Some(model) = model_part.model.upgrade() else {return Bounds::default()};
let Some(sk_model) = model.sk_model.get() else {return Bounds::default()};
let Some(sk_mesh) = sk.model_node_get_mesh(sk_model, model_part.id) else {return Bounds::default()};
sk.mesh_get_bounds(sk_mesh)
let _ = space.bounding_box_calc.set(|node| {
let Ok(model_part) = node.get_aspect::<ModelPart>() else {
return Bounds::default();
};
let Some(model) = model_part.model.upgrade() else {
return Bounds::default();
};
let Some(sk_model) = model.sk_model.get() else {
return Bounds::default();
};
let model_nodes = sk_model.get_nodes();
let Some(model_node) = model_nodes.get_index(model_part.id) else {
return Bounds::default();
};
let Some(sk_mesh) = model_node.get_mesh() else {
return Bounds::default();
};
sk_mesh.get_bounds()
});
let model_part = Arc::new(ModelPart {
id,
id: *part.get_id(),
path: part_path,
space,
model: Arc::downgrade(model),
pending_material_parameters: Mutex::new(FxHashMap::default()),
pending_material_replacement: Mutex::new(None),
aliases: AliasList::default(),
});
node.add_local_signal(
"set_material_parameter",
ModelPart::set_material_parameter_flex,
);
let _ = node.drawable.set(Drawable::ModelPart(model_part.clone()));
model.parts.add(id, &node);
<ModelPart as ModelPartAspect>::add_node_members(&node);
node.add_aspect_raw(model_part.clone());
parts.push(model_part.clone());
Some(model_part)
}
fn set_material_parameter_flex(
node: &Node,
_calling_client: Arc<Client>,
data: &[u8],
) -> Result<()> {
let Some(Drawable::ModelPart(model_part)) = node.drawable.get() else {bail!("Not a drawable??")};
let (name, value): (String, MaterialParameter) = deserialize(data)?;
model_part
.pending_material_parameters
pub fn replace_material(&self, replacement: Arc<MaterialWrapper>) {
let shared_material = MATERIAL_REGISTRY.add_or_get(replacement);
self.pending_material_replacement
.lock()
.insert(name, value);
.replace(shared_material);
}
/// only to be run on the main thread
pub fn replace_material_now(&self, replacement: &Material) {
let Some(model) = self.model.upgrade() else {
return;
};
let Some(sk_model) = model.sk_model.get() else {
return;
};
let nodes = sk_model.get_nodes();
let Some(mut part) = nodes.get_index(self.id) else {
return;
};
let shared_material =
MATERIAL_REGISTRY.add_or_get(Arc::new(MaterialWrapper(replacement.copy())));
part.material(&shared_material.0);
}
fn update(&self) {
let Some(model) = self.model.upgrade() else {
return;
};
let Some(sk_model) = model.sk_model.get() else {
return;
};
let Some(node) = model.space.node() else {
return;
};
let nodes = sk_model.get_nodes();
let Some(mut part) = nodes.get_index(self.id) else {
return;
};
part.model_transform(Spatial::space_to_space_matrix(
Some(&self.space),
Some(&model.space),
));
let Some(client) = node.get_client() else {
return;
};
if let Some(material_replacement) = self.pending_material_replacement.lock().take() {
part.material(&material_replacement.0);
}
'mat_params: {
let mut material_parameters = self.pending_material_parameters.lock();
if !material_parameters.is_empty() {
let Some(material) = part.get_material() else {
break 'mat_params;
};
let new_material = material.copy();
for (parameter_name, parameter_value) in material_parameters.drain() {
parameter_value.apply_to_material(&client, &new_material, &parameter_name);
}
let shared_material =
MATERIAL_REGISTRY.add_or_get(Arc::new(MaterialWrapper(new_material)));
part.material(&shared_material.0);
}
}
}
}
impl Aspect for ModelPart {
const NAME: &'static str = "ModelPart";
}
impl ModelPartAspect for ModelPart {
#[doc = "Set this model part's material to one that cuts a hole in the world. Often used for overlays/passthrough where you want to show the background through an object."]
fn apply_holdout_material(node: Arc<Node>, _calling_client: Arc<Client>) -> Result<()> {
let model_part = node.get_aspect::<ModelPart>()?;
model_part.replace_material(HOLDOUT_MATERIAL.get().unwrap().clone());
Ok(())
}
pub fn replace_material(&self, replacement: Arc<SendWrapper<Material>>) {
self.pending_material_replacement
#[doc = "Set the material parameter with `parameter_name` to `value`"]
fn set_material_parameter(
node: Arc<Node>,
_calling_client: Arc<Client>,
parameter_name: String,
value: MaterialParameter,
) -> Result<()> {
let model_part = node.get_aspect::<ModelPart>()?;
model_part
.pending_material_parameters
.lock()
.replace(replacement);
}
.insert(parameter_name, value);
fn update(&self, sk: &impl StereoKitDraw) {
let Some(model) = self.model.upgrade() else {return};
let Some(sk_model) = model.sk_model.get() else {return};
let Some(node) = model.space.node() else {return};
let Some(client) = node.get_client() else {return};
if let Some(material_replacement) = self.pending_material_replacement.lock().take() {
sk.model_node_set_material(sk_model, self.id, material_replacement.as_ref().as_ref());
}
let mut material_parameters = self.pending_material_parameters.lock();
for (parameter_name, parameter_value) in material_parameters.drain() {
let Some(material) = sk.model_node_get_material(sk_model, self.id) else {continue};
let new_material = sk.material_copy(material);
parameter_value.apply_to_material(&client, sk, &new_material, parameter_name.as_str());
sk.model_node_set_material(sk_model, self.id, &new_material);
}
sk.model_node_set_transform_model(
sk_model,
self.id,
Spatial::space_to_space_matrix(Some(&self.space), Some(&model.space)),
);
Ok(())
}
}
pub struct Model {
self_ref: Weak<Model>,
enabled: Arc<AtomicBool>,
space: Arc<Spatial>,
_resource_id: ResourceID,
sk_model: OnceCell<SKModel>,
parts: LifeLinkedNodeMap<i32>,
parts: Mutex<Vec<Arc<ModelPart>>>,
}
unsafe impl Send for Model {}
unsafe impl Sync for Model {}
impl Model {
pub fn add_to(node: &Arc<Node>, resource_id: ResourceID) -> Result<Arc<Model>> {
ensure!(
node.spatial.get().is_some(),
"Internal: Node does not have a spatial attached!"
);
ensure!(
node.drawable.get().is_none(),
"Internal: Node already has a drawable attached!"
);
let pending_model_path = get_resource_file(
&resource_id,
&*node.get_client().ok_or_else(|| eyre!("Client not found"))?,
&[OsStr::new("glb"), OsStr::new("gltf")],
)
.ok_or_else(|| eyre!("Resource not found"))?;
let pending_model_path = resource_id
.get_file(
&node
.get_client()
.ok_or_else(|| eyre!("Client not found"))?
.base_resource_prefixes
.lock()
.clone(),
&[OsStr::new("glb"), OsStr::new("gltf")],
)
.ok_or_else(|| eyre!("Resource not found"))?;
let model = Arc::new_cyclic(|self_ref| Model {
self_ref: self_ref.clone(),
enabled: node.enabled.clone(),
space: node.spatial.get().unwrap().clone(),
let model = Arc::new(Model {
space: node.get_aspect::<Spatial>().unwrap().clone(),
_resource_id: resource_id,
sk_model: OnceCell::new(),
parts: LifeLinkedNodeMap::default(),
parts: Mutex::new(Vec::default()),
});
<Model as ModelAspect>::add_node_members(node);
MODEL_REGISTRY.add_raw(&model);
let sk = SK_MULTITHREAD.get().unwrap();
let sk_model = sk.model_copy(
sk.model_create_file(pending_model_path.to_str().unwrap(), None::<Shader>)?,
);
ModelPart::create_for_model(sk, &model.self_ref.upgrade().unwrap(), &sk_model);
// technically doing this in anything but the main thread isn't a good idea but dangit we need those model nodes ASAP
let sk_model = SKModel::copy(SKModel::from_file(
pending_model_path.to_str().unwrap(),
None,
)?);
ModelPart::create_for_model(&model, &sk_model);
let _ = model.sk_model.set(sk_model);
let _ = node.drawable.set(Drawable::Model(model.clone()));
node.add_aspect_raw(model.clone());
Ok(model)
}
fn draw(&self, sk: &impl StereoKitDraw) {
let Some(sk_model) = self.sk_model.get() else {return};
for model_node_node in self.parts.nodes() {
let Some(Drawable::ModelPart(model_node)) = model_node_node.drawable.get() else {continue};
model_node.update(sk);
fn draw(&self, token: &MainThreadToken) {
let Some(sk_model) = self.sk_model.get() else {
return;
};
let parts = self.parts.lock();
for model_node in &*parts {
model_node.update();
}
drop(parts);
sk.model_draw(
sk_model,
self.space.global_transform(),
WHITE,
RenderLayer::LAYER0,
);
if let Some(node) = self.space.node() {
if node.enabled() {
sk_model.draw(token, self.space.global_transform(), None, None);
}
}
}
}
// TODO: proper hread safety in stereokit_rust (probably just bind stereokit directly)
unsafe impl Send for Model {}
unsafe impl Sync for Model {}
impl Aspect for Model {
const NAME: &'static str = "Model";
}
impl ModelAspect for Model {
#[doc = "Bind a model part to the node with the ID input."]
fn bind_model_part(
node: Arc<Node>,
calling_client: Arc<Client>,
id: u64,
part_path: String,
) -> color_eyre::eyre::Result<()> {
let model = node.get_aspect::<Model>()?;
let parts = model.parts.lock();
let Some(part) = parts.iter().find(|p| p.path == part_path) else {
let paths = parts.iter().map(|p| &p.path).collect::<Vec<_>>();
bail!("Couldn't find model part at path {part_path}, all available paths: {paths:?}",)
};
Alias::create_with_id(
&part.space.node().unwrap(),
&calling_client,
id,
MODEL_PART_ASPECT_ALIAS_INFO.clone(),
Some(&part.aliases),
)?;
Ok(())
}
}
impl Drop for Model {
fn drop(&mut self) {
MODEL_REGISTRY.remove(self);
}
}
pub fn draw_all(sk: &impl StereoKitDraw) {
pub fn draw_all(token: &MainThreadToken) {
for model in MODEL_REGISTRY.get_valid_contents() {
if model.enabled.load(Ordering::Relaxed) {
model.draw(sk);
}
model.draw(token);
}
}
pub fn create_flex(_node: &Node, calling_client: Arc<Client>, data: &[u8]) -> Result<()> {
#[derive(Deserialize)]
struct CreateModelInfo<'a> {
name: &'a str,
parent_path: &'a str,
transform: Transform,
resource: ResourceID,
}
let info: CreateModelInfo = deserialize(data)?;
let node = Node::create(&calling_client, "/drawable/model", info.name, true);
let parent = find_spatial_parent(&calling_client, info.parent_path)?;
let transform = parse_transform(info.transform, true, true, true);
let node = node.add_to_scenegraph()?;
Spatial::add_to(&node, Some(parent), transform, false)?;
Model::add_to(&node, info.resource)?;
Ok(())
}

137
src/nodes/drawable/shader_manipulation.rs Normal file
View File

@@ -0,0 +1,137 @@
#![allow(dead_code)]
use smithay::backend::renderer::gles::{
ffi::{self, Gles2, FRAGMENT_SHADER, VERTEX_SHADER},
GlesError,
};
use stereokit_rust::shader::{Shader, _ShaderT};
use tracing::error;
struct FfiAssetHeader {
asset_type: i32,
asset_state: i32,
id: u64,
index: u64,
refs: i32,
debug: *mut u8,
}
struct FfiSkgShader {
meta: *mut u8,
vertex: u32,
pixel: u32,
program: u32,
compute: u32,
}
struct FfiShader {
header: FfiAssetHeader,
shader: FfiSkgShader,
}
unsafe fn compile_shader(
gl: &ffi::Gles2,
variant: ffi::types::GLuint,
src: &str,
) -> Result<ffi::types::GLuint, GlesError> {
let shader = gl.CreateShader(variant);
if shader == 0 {
return Err(GlesError::CreateShaderObject);
}
gl.ShaderSource(
shader,
1,
&src.as_ptr() as *const *const u8 as *const *const ffi::types::GLchar,
&(src.len() as i32) as *const _,
);
gl.CompileShader(shader);
let mut status = ffi::FALSE as i32;
gl.GetShaderiv(shader, ffi::COMPILE_STATUS, &mut status as *mut _);
if status == ffi::FALSE as i32 {
let mut max_len = 0;
gl.GetShaderiv(shader, ffi::INFO_LOG_LENGTH, &mut max_len as *mut _);
let mut error = Vec::with_capacity(max_len as usize);
let mut len = 0;
gl.GetShaderInfoLog(
shader,
max_len as _,
&mut len as *mut _,
error.as_mut_ptr() as *mut _,
);
error.set_len(len as usize);
error!(
"[GL] {}",
std::str::from_utf8(&error).unwrap_or("<Error Message no utf8>")
);
gl.DeleteShader(shader);
return Err(GlesError::ShaderCompileError);
}
Ok(shader)
}
unsafe fn link_program(
gl: &ffi::Gles2,
vert: ffi::types::GLuint,
frag: ffi::types::GLuint,
) -> Result<ffi::types::GLuint, GlesError> {
let program = gl.CreateProgram();
gl.AttachShader(program, vert);
gl.AttachShader(program, frag);
gl.LinkProgram(program);
// gl.DetachShader(program, vert);
// gl.DetachShader(program, frag);
// gl.DeleteShader(vert);
// gl.DeleteShader(frag);
let mut status = ffi::FALSE as i32;
gl.GetProgramiv(program, ffi::LINK_STATUS, &mut status as *mut _);
if status == ffi::FALSE as i32 {
let mut max_len = 0;
gl.GetProgramiv(program, ffi::INFO_LOG_LENGTH, &mut max_len as *mut _);
let mut error = Vec::with_capacity(max_len as usize);
let mut len = 0;
gl.GetProgramInfoLog(
program,
max_len as _,
&mut len as *mut _,
error.as_mut_ptr() as *mut _,
);
error.set_len(len as usize);
error!(
"[GL] {}",
std::str::from_utf8(&error).unwrap_or("<Error Message no utf8>")
);
gl.DeleteProgram(program);
return Err(GlesError::ProgramLinkError);
}
Ok(program)
}
pub unsafe fn shader_inject(
c: &Gles2,
sk_shader: &mut Shader,
vert_str: &str,
frag_str: &str,
) -> Result<(), GlesError> {
let gl_vert = compile_shader(c, VERTEX_SHADER, vert_str)?;
let gl_frag = compile_shader(c, FRAGMENT_SHADER, frag_str)?;
let gl_prog = link_program(c, gl_vert, gl_frag)?;
let shader = sk_shader.0.as_mut() as *mut _ShaderT as *mut FfiShader;
if let Some(shader) = shader.as_mut() {
shader.shader.vertex = gl_vert;
shader.shader.pixel = gl_frag;
shader.shader.program = gl_prog;
}
Ok(())
}

5
src/nodes/drawable/shaders.rs Normal file
View File

@@ -0,0 +1,5 @@
// Simula shader with fancy lanzcos sampling
pub const UNLIT_SHADER_BYTES: &[u8] = include_bytes!("assets/shaders/shader_unlit_gamma.hlsl.sks");
// Simula shader with fancy lanzcos sampling
pub const PANEL_SHADER_BYTES: &[u8] = include_bytes!("assets/shaders/shader_unlit_simula.hlsl.sks");

0
src/wayland/shaders/shader_unlit_gamma.hlsl → src/nodes/drawable/shaders_src/shader_unlit_gamma.hlsl
View File

0
src/wayland/shaders/shader_unlit_simula.hlsl → src/nodes/drawable/shaders_src/shader_unlit_simula.hlsl
View File

263
src/nodes/drawable/text.rs
View File

@@ -1,110 +1,78 @@
use crate::{
core::{client::Client, destroy_queue, registry::Registry, resource::ResourceID},
nodes::{
drawable::Drawable,
spatial::{find_spatial_parent, parse_transform, Spatial},
Node,
},
core::{client::Client, destroy_queue, registry::Registry, resource::get_resource_file},
nodes::{spatial::Spatial, Aspect, Node},
};
use color_eyre::eyre::{bail, ensure, eyre, Result};
use color_eyre::eyre::{eyre, Result};
use glam::{vec3, Mat4, Vec2};
use mint::Vector2;
use once_cell::sync::OnceCell;
use parking_lot::Mutex;
use portable_atomic::{AtomicBool, Ordering};
use prisma::{Flatten, Rgba};
use send_wrapper::SendWrapper;
use serde::Deserialize;
use stardust_xr::{schemas::flex::deserialize, values::Transform};
use std::{ffi::OsStr, path::PathBuf, sync::Arc};
use stereokit::{named_colors::WHITE, Color128, StereoKitDraw, TextAlign, TextFit, TextStyle};
use stereokit_rust::{
font::Font,
sk::MainThreadToken,
system::{TextAlign, TextFit, TextStyle as SkTextStyle},
util::{Color128, Color32},
};
use super::{TextAspect, TextStyle};
static TEXT_REGISTRY: Registry<Text> = Registry::new();
struct TextData {
text: String,
character_height: f32,
text_align: TextAlign,
bounds: Option<Vec2>,
fit: TextFit,
bounds_align: TextAlign,
color: Rgba<f32>,
fn convert_align(x_align: super::XAlign, y_align: super::YAlign) -> TextAlign {
match (x_align, y_align) {
(super::XAlign::Left, super::YAlign::Top) => TextAlign::TopLeft,
(super::XAlign::Left, super::YAlign::Center) => TextAlign::CenterLeft,
(super::XAlign::Left, super::YAlign::Bottom) => TextAlign::BottomLeft,
(super::XAlign::Center, super::YAlign::Top) => TextAlign::Center,
(super::XAlign::Center, super::YAlign::Center) => TextAlign::Center,
(super::XAlign::Center, super::YAlign::Bottom) => TextAlign::BottomCenter,
(super::XAlign::Right, super::YAlign::Top) => TextAlign::TopRight,
(super::XAlign::Right, super::YAlign::Center) => TextAlign::CenterRight,
(super::XAlign::Right, super::YAlign::Bottom) => TextAlign::BottomRight,
}
}
pub struct Text {
enabled: Arc<AtomicBool>,
space: Arc<Spatial>,
font_path: Option<PathBuf>,
style: OnceCell<SendWrapper<TextStyle>>,
style: OnceCell<SkTextStyle>,
data: Mutex<TextData>,
text: Mutex<String>,
data: Mutex<TextStyle>,
}
impl Text {
#[allow(clippy::too_many_arguments)]
pub fn add_to(
node: &Arc<Node>,
font_resource_id: Option<ResourceID>,
text: String,
character_height: f32,
text_align: TextAlign,
bounds: Option<Vector2<f32>>,
fit: TextFit,
bounds_align: TextAlign,
color: Rgba<f32>,
) -> Result<Arc<Text>> {
ensure!(
node.spatial.get().is_some(),
"Internal: Node does not have a spatial attached!"
);
ensure!(
node.drawable.get().is_none(),
"Internal: Node already has a drawable attached!"
);
pub fn add_to(node: &Arc<Node>, text: String, style: TextStyle) -> Result<Arc<Text>> {
let client = node.get_client().ok_or_else(|| eyre!("Client not found"))?;
let text = TEXT_REGISTRY.add(Text {
enabled: node.enabled.clone(),
space: node.spatial.get().unwrap().clone(),
font_path: font_resource_id.and_then(|res| {
res.get_file(
&client.base_resource_prefixes.lock().clone(),
&[OsStr::new("ttf"), OsStr::new("otf")],
)
space: node.get_aspect::<Spatial>().unwrap().clone(),
font_path: style.font.as_ref().and_then(|res| {
get_resource_file(res, &client, &[OsStr::new("ttf"), OsStr::new("otf")])
}),
style: OnceCell::new(),
data: Mutex::new(TextData {
text,
character_height,
text_align,
bounds: bounds.map(|b| b.into()),
fit,
bounds_align,
color,
}),
text: Mutex::new(text),
data: Mutex::new(style),
});
node.add_local_signal("set_character_height", Text::set_character_height_flex);
node.add_local_signal("set_text", Text::set_text_flex);
let _ = node.drawable.set(Drawable::Text(text.clone()));
<Text as TextAspect>::add_node_members(node);
node.add_aspect_raw(text.clone());
Ok(text)
}
fn draw(&self, sk: &impl StereoKitDraw) {
let style = self.style.get_or_try_init(
|| -> Result<SendWrapper<TextStyle>, color_eyre::eyre::Error> {
let font = self
.font_path
.as_deref()
.and_then(|path| sk.font_create(path).ok())
.unwrap_or_else(|| sk.font_find("default/font").unwrap());
Ok(SendWrapper::new(unsafe {
sk.text_make_style(font, 1.0, WHITE)
}))
},
);
fn draw(&self, token: &MainThreadToken) {
let style =
self.style
.get_or_try_init(|| -> Result<SkTextStyle, color_eyre::eyre::Error> {
let font = self
.font_path
.as_deref()
.and_then(|path| Font::from_file(path).ok())
.unwrap_or_default();
Ok(SkTextStyle::from_font(font, 1.0, Color32::WHITE))
});
if let Ok(style) = style {
let text = self.text.lock();
let data = self.data.lock();
let transform = self.space.global_transform()
* Mat4::from_scale(vec3(
@@ -112,57 +80,75 @@ impl Text {
data.character_height,
data.character_height,
));
if let Some(bounds) = data.bounds {
sk.text_add_in(
&data.text,
if let Some(bounds) = &data.bounds {
stereokit_rust::system::Text::add_in(
token,
&*text,
transform,
bounds / data.character_height,
data.fit,
**style,
data.bounds_align,
data.text_align,
vec3(0.0, 0.0, 0.0),
Color128::from([
data.color.red(),
data.color.green(),
data.color.blue(),
data.color.alpha(),
]),
Vec2::from(bounds.bounds) / data.character_height,
match bounds.fit {
super::TextFit::Wrap => TextFit::Wrap,
super::TextFit::Clip => TextFit::Clip,
super::TextFit::Squeeze => TextFit::Squeeze,
super::TextFit::Exact => TextFit::Exact,
super::TextFit::Overflow => TextFit::Overflow,
},
Some(*style),
Some(Color128::new(
data.color.c.r,
data.color.c.g,
data.color.c.b,
data.color.a,
)),
data.bounds
.as_ref()
.map(|b| convert_align(b.anchor_align_x, b.anchor_align_y)),
Some(convert_align(data.text_align_x, data.text_align_y)),
None,
None,
None,
);
} else {
sk.text_add_at(
&data.text,
stereokit_rust::system::Text::add_at(
token,
&*text,
transform,
**style,
data.bounds_align,
data.text_align,
vec3(0.0, 0.0, 0.0),
Color128::from([
data.color.red(),
data.color.green(),
data.color.blue(),
data.color.alpha(),
]),
Some(*style),
Some(Color128::new(
data.color.c.r,
data.color.c.g,
data.color.c.b,
data.color.a,
)),
data.bounds
.as_ref()
.map(|b| convert_align(b.anchor_align_x, b.anchor_align_y)),
Some(convert_align(data.text_align_x, data.text_align_y)),
None,
None,
None,
);
}
}
}
pub fn set_character_height_flex(
node: &Node,
}
impl Aspect for Text {
const NAME: &'static str = "Text";
}
impl TextAspect for Text {
fn set_character_height(
node: Arc<Node>,
_calling_client: Arc<Client>,
data: &[u8],
height: f32,
) -> Result<()> {
let Some(Drawable::Text(text)) = node.drawable.get() else {bail!("Not a drawable??")};
text.data.lock().character_height = deserialize(data)?;
let this_text = node.get_aspect::<Text>()?;
this_text.data.lock().character_height = height;
Ok(())
}
pub fn set_text_flex(node: &Node, _calling_client: Arc<Client>, data: &[u8]) -> Result<()> {
let Some(Drawable::Text(text)) = node.drawable.get() else {bail!("Not a drawable??")};
text.data.lock().text = deserialize(data)?;
fn set_text(node: Arc<Node>, _calling_client: Arc<Client>, text: String) -> Result<()> {
let this_text = node.get_aspect::<Text>()?;
*this_text.text.lock() = text;
Ok(())
}
}
@@ -175,47 +161,12 @@ impl Drop for Text {
}
}
pub fn draw_all(sk: &impl StereoKitDraw) {
pub fn draw_all(token: &MainThreadToken) {
for text in TEXT_REGISTRY.get_valid_contents() {
if text.enabled.load(Ordering::Relaxed) {
text.draw(sk);
if let Some(node) = text.space.node() {
if node.enabled() {
text.draw(token);
}
}
}
}
pub fn create_flex(_node: &Node, calling_client: Arc<Client>, data: &[u8]) -> Result<()> {
#[derive(Deserialize)]
struct CreateTextInfo<'a> {
name: &'a str,
parent_path: &'a str,
transform: Transform,
text: String,
font_resource: Option<ResourceID>,
character_height: f32,
text_align: TextAlign,
bounds: Option<Vector2<f32>>,
fit: TextFit,
bounds_align: TextAlign,
color: [f32; 4],
}
let info: CreateTextInfo = deserialize(data)?;
let node = Node::create(&calling_client, "/drawable/text", info.name, true);
let parent = find_spatial_parent(&calling_client, info.parent_path)?;
let transform = parse_transform(info.transform, true, true, true);
let color = Rgba::from_slice(&info.color);
let node = node.add_to_scenegraph()?;
Spatial::add_to(&node, Some(parent), transform, false)?;
Text::add_to(
&node,
info.font_resource,
info.text,
info.character_height,
info.text_align,
info.bounds,
info.fit,
info.bounds_align,
color,
)?;
Ok(())
}

287
src/nodes/fields.rs Normal file
View File

@@ -0,0 +1,287 @@
use super::alias::{Alias, AliasInfo};
use super::spatial::{
Spatial, SPATIAL_REF_GET_LOCAL_BOUNDING_BOX_SERVER_OPCODE,
SPATIAL_REF_GET_RELATIVE_BOUNDING_BOX_SERVER_OPCODE, SPATIAL_REF_GET_TRANSFORM_SERVER_OPCODE,
};
use super::{Aspect, Node};
use crate::core::client::Client;
use crate::create_interface;
use crate::nodes::spatial::Transform;
use crate::nodes::spatial::SPATIAL_ASPECT_ALIAS_INFO;
use crate::nodes::spatial::SPATIAL_REF_ASPECT_ALIAS_INFO;
use color_eyre::eyre::{OptionExt, Result};
use glam::{vec2, vec3, vec3a, Vec3, Vec3A, Vec3Swizzles};
use once_cell::sync::Lazy;
use parking_lot::Mutex;
use rustc_hash::FxHashMap;
use stardust_xr::values::Vector3;
use std::sync::Arc;
// TODO: get SDFs working properly with non-uniform scale and so on, output distance relative to the spatial it's compared against
pub static FIELD_ALIAS_INFO: Lazy<AliasInfo> = Lazy::new(|| AliasInfo {
server_methods: vec![
SPATIAL_REF_GET_TRANSFORM_SERVER_OPCODE,
SPATIAL_REF_GET_LOCAL_BOUNDING_BOX_SERVER_OPCODE,
SPATIAL_REF_GET_RELATIVE_BOUNDING_BOX_SERVER_OPCODE,
FIELD_REF_DISTANCE_SERVER_OPCODE,
FIELD_REF_NORMAL_SERVER_OPCODE,
FIELD_REF_CLOSEST_POINT_SERVER_OPCODE,
FIELD_REF_RAY_MARCH_SERVER_OPCODE,
],
..Default::default()
});
stardust_xr_server_codegen::codegen_field_protocol!();
lazy_static::lazy_static! {
pub static ref EXPORTED_FIELDS: Mutex<FxHashMap<u64, Arc<Node>>> = Mutex::new(FxHashMap::default());
}
pub trait FieldTrait: Send + Sync + 'static {
fn spatial_ref(&self) -> &Spatial;
fn local_distance(&self, p: Vec3A) -> f32;
fn local_normal(&self, p: Vec3A, r: f32) -> Vec3A {
let d = self.local_distance(p);
let e = vec2(r, 0_f32);
let n = vec3a(d, d, d)
- vec3a(
self.local_distance(vec3a(e.x, e.y, e.y)),
self.local_distance(vec3a(e.y, e.x, e.y)),
self.local_distance(vec3a(e.y, e.y, e.x)),
);
n.normalize()
}
fn local_closest_point(&self, p: Vec3A, r: f32) -> Vec3A {
p - (self.local_normal(p, r) * self.local_distance(p))
}
fn distance(&self, reference_space: &Spatial, p: Vec3A) -> f32 {
let reference_to_local_space =
Spatial::space_to_space_matrix(Some(reference_space), Some(self.spatial_ref()));
let local_p = reference_to_local_space.transform_point3a(p);
self.local_distance(local_p)
}
fn normal(&self, reference_space: &Spatial, p: Vec3A, r: f32) -> Vec3A {
let reference_to_local_space =
Spatial::space_to_space_matrix(Some(reference_space), Some(self.spatial_ref()));
let local_p = reference_to_local_space.transform_point3a(p);
reference_to_local_space
.inverse()
.transform_vector3a(self.local_normal(local_p, r))
}
fn closest_point(&self, reference_space: &Spatial, p: Vec3A, r: f32) -> Vec3A {
let reference_to_local_space =
Spatial::space_to_space_matrix(Some(reference_space), Some(self.spatial_ref()));
let local_p = reference_to_local_space.transform_point3a(p);
reference_to_local_space
.inverse()
.transform_point3a(self.local_closest_point(local_p, r))
}
fn ray_march(&self, ray: Ray) -> RayMarchResult {
let mut result = RayMarchResult {
ray_origin: ray.origin.into(),
ray_direction: ray.direction.into(),
min_distance: f32::MAX,
deepest_point_distance: 0_f32,
ray_length: 0_f32,
ray_steps: 0,
};
let ray_to_field_matrix =
Spatial::space_to_space_matrix(Some(&ray.space), Some(self.spatial_ref()));
let mut ray_point = ray_to_field_matrix.transform_point3a(ray.origin.into());
let ray_direction = ray_to_field_matrix
.transform_vector3a(ray.direction.into())
.normalize();
while result.ray_steps < MAX_RAY_STEPS && result.ray_length < MAX_RAY_LENGTH {
let distance = self.local_distance(ray_point);
let march_distance = distance.clamp(MIN_RAY_MARCH, MAX_RAY_MARCH);
result.ray_length += march_distance;
ray_point += ray_direction * march_distance;
if result.min_distance > distance {
result.deepest_point_distance = result.ray_length;
result.min_distance = distance;
}
result.ray_steps += 1;
}
result
}
}
pub struct Ray {
pub origin: Vec3,
pub direction: Vec3,
pub space: Arc<Spatial>,
}
// const MIN_RAY_STEPS: u32 = 0;
const MAX_RAY_STEPS: u32 = 1000;
const MIN_RAY_MARCH: f32 = 0.001_f32;
const MAX_RAY_MARCH: f32 = f32::MAX;
// const MIN_RAY_LENGTH: f32 = 0_f32;
const MAX_RAY_LENGTH: f32 = 1000_f32;
pub struct Field {
pub spatial: Arc<Spatial>,
pub shape: Mutex<Shape>,
}
impl Field {
pub fn add_to(node: &Arc<Node>, shape: Shape) -> Result<Arc<Field>> {
let spatial = node.get_aspect::<Spatial>()?;
let field = Field {
spatial,
shape: Mutex::new(shape),
};
let field = node.add_aspect(field);
<Field as FieldRefAspect>::add_node_members(node);
<Field as FieldAspect>::add_node_members(node);
Ok(field)
}
}
impl Aspect for Field {
const NAME: &'static str = "Field";
}
impl FieldRefAspect for Field {
async fn distance(
node: Arc<Node>,
_calling_client: Arc<Client>,
space: Arc<Node>,
point: Vector3<f32>,
) -> Result<f32> {
let reference_space = space.get_aspect::<Spatial>()?;
let field = node.get_aspect::<Field>()?;
Ok(field.distance(&reference_space, point.into()))
}
async fn normal(
node: Arc<Node>,
_calling_client: Arc<Client>,
space: Arc<Node>,
point: Vector3<f32>,
) -> Result<Vector3<f32>> {
let reference_space = space.get_aspect::<Spatial>()?;
let field = node.get_aspect::<Field>()?;
Ok(field.normal(&reference_space, point.into(), 0.0001).into())
}
async fn closest_point(
node: Arc<Node>,
_calling_client: Arc<Client>,
space: Arc<Node>,
point: Vector3<f32>,
) -> Result<Vector3<f32>> {
let reference_space = space.get_aspect::<Spatial>()?;
let field = node.get_aspect::<Field>()?;
Ok(field
.closest_point(&reference_space, point.into(), 0.0001)
.into())
}
async fn ray_march(
node: Arc<Node>,
_calling_client: Arc<Client>,
space: Arc<Node>,
ray_origin: Vector3<f32>,
ray_direction: Vector3<f32>,
) -> Result<RayMarchResult> {
let space = space.get_aspect::<Spatial>()?;
let field = node.get_aspect::<Field>()?;
Ok(field.ray_march(Ray {
origin: ray_origin.into(),
direction: ray_direction.into(),
space,
}))
}
}
impl FieldAspect for Field {
fn set_shape(node: Arc<Node>, _calling_client: Arc<Client>, shape: Shape) -> Result<()> {
let field = node.get_aspect::<Field>()?;
*field.shape.lock() = shape;
Ok(())
}
async fn export_field(node: Arc<Node>, _calling_client: Arc<Client>) -> Result<u64> {
let id = rand::random();
EXPORTED_FIELDS.lock().insert(id, node);
Ok(id)
}
}
impl FieldTrait for Field {
fn spatial_ref(&self) -> &Spatial {
&self.spatial
}
fn local_distance(&self, p: Vec3A) -> f32 {
match self.shape.lock().clone() {
Shape::Box(size) => {
let q = vec3(
p.x.abs() - (size.x * 0.5_f32),
p.y.abs() - (size.y * 0.5_f32),
p.z.abs() - (size.z * 0.5_f32),
);
let v = vec3a(q.x.max(0_f32), q.y.max(0_f32), q.z.max(0_f32));
v.length() + q.x.max(q.y.max(q.z)).min(0_f32)
}
Shape::Cylinder(CylinderShape { length, radius }) => {
let d = vec2(p.xy().length().abs() - radius, p.z.abs() - (length * 0.5));
d.x.max(d.y).min(0.0) + d.max(vec2(0.0, 0.0)).length()
}
Shape::Sphere(radius) => p.length() - radius,
Shape::Torus(TorusShape { radius_a, radius_b }) => {
let q = vec2(p.xz().length() - radius_a, p.y);
q.length() - radius_b
}
}
}
}
create_interface!(FieldInterface);
pub struct FieldInterface;
impl InterfaceAspect for FieldInterface {
async fn import_field_ref(
_node: Arc<Node>,
calling_client: Arc<Client>,
uid: u64,
) -> Result<Arc<Node>> {
EXPORTED_FIELDS
.lock()
.get(&uid)
.map(|s| {
Alias::create(
s,
&calling_client,
FIELD_REF_ASPECT_ALIAS_INFO.clone(),
None,
)
.unwrap()
})
.ok_or_eyre("Couldn't find spatial with that ID")
}
fn create_field(
_node: Arc<Node>,
calling_client: Arc<Client>,
id: u64,
parent: Arc<Node>,
transform: Transform,
shape: Shape,
) -> Result<()> {
let transform = transform.to_mat4(true, true, false);
let parent = parent.get_aspect::<Spatial>()?;
let node = Node::from_id(&calling_client, id, true).add_to_scenegraph()?;
Spatial::add_to(&node, Some(parent.clone()), transform, false);
Field::add_to(&node, shape)?;
Ok(())
}
}

82
src/nodes/fields/box.rs
View File

@@ -1,82 +0,0 @@
use super::{Field, FieldTrait, Node};
use crate::core::client::Client;
use crate::nodes::spatial::{find_spatial_parent, parse_transform, Spatial};
use color_eyre::eyre::{ensure, Result};
use glam::{vec3, vec3a, Vec3, Vec3A};
use mint::Vector3;
use parking_lot::Mutex;
use serde::Deserialize;
use stardust_xr::schemas::flex::deserialize;
use stardust_xr::values::Transform;
use std::sync::Arc;
pub struct BoxField {
space: Arc<Spatial>,
size: Mutex<Vec3>,
}
impl BoxField {
pub fn add_to(node: &Arc<Node>, size: Vector3<f32>) -> Result<()> {
ensure!(
node.spatial.get().is_some(),
"Internal: Node does not have a spatial attached!"
);
ensure!(
node.field.get().is_none(),
"Internal: Node already has a field attached!"
);
let box_field = BoxField {
space: node.spatial.get().unwrap().clone(),
size: Mutex::new(size.into()),
};
box_field.add_field_methods(node);
node.add_local_signal("set_size", BoxField::set_size_flex);
let _ = node.field.set(Arc::new(Field::Box(box_field)));
Ok(())
}
pub fn set_size(&self, size: Vector3<f32>) {
*self.size.lock() = size.into();
}
pub fn set_size_flex(node: &Node, _calling_client: Arc<Client>, data: &[u8]) -> Result<()> {
let Field::Box(box_field) = node.field.get().unwrap().as_ref() else { return Ok(()) };
box_field.set_size(deserialize(data)?);
Ok(())
}
}
impl FieldTrait for BoxField {
fn local_distance(&self, p: Vec3A) -> f32 {
let size = self.size.lock();
let q = vec3(
p.x.abs() - (size.x * 0.5_f32),
p.y.abs() - (size.y * 0.5_f32),
p.z.abs() - (size.z * 0.5_f32),
);
let v = vec3a(q.x.max(0_f32), q.y.max(0_f32), q.z.max(0_f32));
v.length() + q.x.max(q.y.max(q.z)).min(0_f32)
}
fn spatial_ref(&self) -> &Spatial {
self.space.as_ref()
}
}
pub fn create_box_field_flex(_node: &Node, calling_client: Arc<Client>, data: &[u8]) -> Result<()> {
#[derive(Deserialize)]
struct CreateFieldInfo<'a> {
name: &'a str,
parent_path: &'a str,
transform: Transform,
size: Vector3<f32>,
}
let info: CreateFieldInfo = deserialize(data)?;
let node = Node::create(&calling_client, "/field", info.name, true);
let parent = find_spatial_parent(&calling_client, info.parent_path)?;
let transform = parse_transform(info.transform, true, true, false);
let node = node.add_to_scenegraph()?;
Spatial::add_to(&node, Some(parent), transform, false)?;
BoxField::add_to(&node, info.size)?;
Ok(())
}

88
src/nodes/fields/cylinder.rs
View File

@@ -1,88 +0,0 @@
use super::{Field, FieldTrait, Node};
use crate::core::client::Client;
use crate::nodes::spatial::{find_spatial_parent, parse_transform, Spatial};
use color_eyre::eyre::{ensure, Result};
use glam::{swizzles::*, vec2, Vec3A};
use portable_atomic::AtomicF32;
use serde::Deserialize;
use stardust_xr::schemas::flex::deserialize;
use stardust_xr::values::Transform;
use std::sync::atomic::Ordering;
use std::sync::Arc;
pub struct CylinderField {
space: Arc<Spatial>,
length: AtomicF32,
radius: AtomicF32,
}
impl CylinderField {
pub fn add_to(node: &Arc<Node>, length: f32, radius: f32) -> Result<()> {
ensure!(
node.spatial.get().is_some(),
"Internal: Node does not have a spatial attached!"
);
ensure!(
node.field.get().is_none(),
"Internal: Node already has a field attached!"
);
let cylinder_field = CylinderField {
space: node.spatial.get().unwrap().clone(),
length: AtomicF32::new(length.abs()),
radius: AtomicF32::new(radius.abs()),
};
cylinder_field.add_field_methods(node);
node.add_local_signal("set_size", CylinderField::set_size_flex);
let _ = node.field.set(Arc::new(Field::Cylinder(cylinder_field)));
Ok(())
}
pub fn set_size(&self, length: f32, radius: f32) {
self.length.store(length.abs(), Ordering::Relaxed);
self.radius.store(radius.abs(), Ordering::Relaxed);
}
pub fn set_size_flex(node: &Node, _calling_client: Arc<Client>, data: &[u8]) -> Result<()> {
let Field::Cylinder(cylinder_field) = node.field.get().unwrap().as_ref() else { return Ok(()) };
let (length, radius) = deserialize(data)?;
cylinder_field.set_size(length, radius);
Ok(())
}
}
impl FieldTrait for CylinderField {
fn local_distance(&self, p: Vec3A) -> f32 {
let radius = self.radius.load(Ordering::Relaxed);
let length = self.length.load(Ordering::Relaxed);
let d = vec2(p.xy().length().abs() - radius, p.z.abs() - (length * 0.5));
d.x.max(d.y).min(0.0) + d.max(vec2(0.0, 0.0)).length()
}
fn spatial_ref(&self) -> &Spatial {
self.space.as_ref()
}
}
pub fn create_cylinder_field_flex(
_node: &Node,
calling_client: Arc<Client>,
data: &[u8],
) -> Result<()> {
#[derive(Deserialize)]
struct CreateFieldInfo<'a> {
name: &'a str,
parent_path: &'a str,
transform: Transform,
length: f32,
radius: f32,
}
let info: CreateFieldInfo = deserialize(data)?;
let node = Node::create(&calling_client, "/field", info.name, true);
let parent = find_spatial_parent(&calling_client, info.parent_path)?;
let transform = parse_transform(info.transform, true, true, false);
let node = node.add_to_scenegraph()?;
Spatial::add_to(&node, Some(parent), transform, false)?;
CylinderField::add_to(&node, info.length, info.radius)?;
Ok(())
}

241
src/nodes/fields/mod.rs
View File

@@ -1,241 +0,0 @@
mod r#box;
mod cylinder;
mod sphere;
pub mod torus;
use self::cylinder::{create_cylinder_field_flex, CylinderField};
use self::r#box::{create_box_field_flex, BoxField};
use self::sphere::{create_sphere_field_flex, SphereField};
use self::torus::{create_torus_field_flex, TorusField};
use super::alias::AliasInfo;
use super::spatial::Spatial;
use super::Node;
use crate::core::client::Client;
use crate::nodes::spatial::find_reference_space;
use color_eyre::eyre::Result;
use glam::{vec2, vec3a, Vec3, Vec3A};
use mint::Vector3;
use once_cell::sync::Lazy;
use serde::{Deserialize, Serialize};
use stardust_xr::schemas::flex::{deserialize, serialize};
use std::ops::Deref;
use std::sync::Arc;
pub static FIELD_ALIAS_INFO: Lazy<AliasInfo> = Lazy::new(|| AliasInfo {
server_methods: vec!["distance", "normal", "closest_point", "ray_march"],
..Default::default()
});
pub trait FieldTrait {
fn add_field_methods(&self, node: &Arc<Node>) {
node.add_local_method("distance", field_distance_flex);
node.add_local_method("normal", field_normal_flex);
node.add_local_method("closest_point", field_closest_point_flex);
node.add_local_method("ray_march", field_ray_march_flex);
}
fn spatial_ref(&self) -> &Spatial;
fn local_distance(&self, p: Vec3A) -> f32;
fn local_normal(&self, p: Vec3A, r: f32) -> Vec3A {
let d = self.local_distance(p);
let e = vec2(r, 0_f32);
let n = vec3a(d, d, d)
- vec3a(
self.local_distance(vec3a(e.x, e.y, e.y)),
self.local_distance(vec3a(e.y, e.x, e.y)),
self.local_distance(vec3a(e.y, e.y, e.x)),
);
n.normalize()
}
fn local_closest_point(&self, p: Vec3A, r: f32) -> Vec3A {
p - (self.local_normal(p, r) * self.local_distance(p))
}
fn distance(&self, reference_space: &Spatial, p: Vec3A) -> f32 {
let reference_to_local_space =
Spatial::space_to_space_matrix(Some(reference_space), Some(self.spatial_ref()));
let local_p = reference_to_local_space.transform_point3a(p);
self.local_distance(local_p)
}
fn normal(&self, reference_space: &Spatial, p: Vec3A, r: f32) -> Vec3A {
let reference_to_local_space =
Spatial::space_to_space_matrix(Some(reference_space), Some(self.spatial_ref()));
let local_p = reference_to_local_space.transform_point3a(p);
reference_to_local_space
.inverse()
.transform_vector3a(self.local_normal(local_p, r))
}
fn closest_point(&self, reference_space: &Spatial, p: Vec3A, r: f32) -> Vec3A {
let reference_to_local_space =
Spatial::space_to_space_matrix(Some(reference_space), Some(self.spatial_ref()));
let local_p = reference_to_local_space.transform_point3a(p);
reference_to_local_space
.inverse()
.transform_point3a(self.local_closest_point(local_p, r))
}
fn ray_march(&self, ray: Ray) -> RayMarchResult {
let mut result = RayMarchResult {
min_distance: f32::MAX,
deepest_point_distance: 0_f32,
ray_length: 0_f32,
ray_steps: 0,
};
let ray_to_field_matrix =
Spatial::space_to_space_matrix(Some(&ray.space), Some(self.spatial_ref()));
let mut ray_point = ray_to_field_matrix.transform_point3a(ray.origin.into());
let ray_direction = ray_to_field_matrix.transform_vector3a(ray.direction.into());
while result.ray_steps < MAX_RAY_STEPS && result.ray_length < MAX_RAY_LENGTH {
let distance = self.local_distance(ray_point);
let march_distance = distance.clamp(MIN_RAY_MARCH, MAX_RAY_MARCH);
result.ray_length += march_distance;
ray_point += ray_direction * march_distance;
if result.min_distance > distance {
result.deepest_point_distance = result.ray_length;
result.min_distance = distance;
}
result.ray_steps += 1;
}
result
}
}
pub struct Ray {
pub origin: Vec3,
pub direction: Vec3,
pub space: Arc<Spatial>,
}
#[derive(Debug, Serialize)]
pub struct RayMarchResult {
pub min_distance: f32,
pub deepest_point_distance: f32,
pub ray_length: f32,
pub ray_steps: u32,
}
// const MIN_RAY_STEPS: u32 = 0;
const MAX_RAY_STEPS: u32 = 1000;
const MIN_RAY_MARCH: f32 = 0.001_f32;
const MAX_RAY_MARCH: f32 = f32::MAX;
// const MIN_RAY_LENGTH: f32 = 0_f32;
const MAX_RAY_LENGTH: f32 = 1000_f32;
fn field_distance_flex(node: &Node, calling_client: Arc<Client>, data: &[u8]) -> Result<Vec<u8>> {
#[derive(Deserialize)]
struct FieldInfoArgs<'a> {
reference_space_path: &'a str,
point: Vector3<f32>,
}
let args: FieldInfoArgs = deserialize(data)?;
let reference_space = find_reference_space(&calling_client, args.reference_space_path)?;
let distance = node
.field
.get()
.unwrap()
.distance(reference_space.as_ref(), args.point.into());
Ok(serialize(distance)?)
}
fn field_normal_flex(node: &Node, calling_client: Arc<Client>, data: &[u8]) -> Result<Vec<u8>> {
#[derive(Deserialize)]
struct FieldInfoArgs<'a> {
reference_space_path: &'a str,
point: Vector3<f32>,
radius: Option<f32>,
}
let args: FieldInfoArgs = deserialize(data)?;
let reference_space = find_reference_space(&calling_client, args.reference_space_path)?;
let normal = node.field.get().as_ref().unwrap().normal(
reference_space.as_ref(),
args.point.into(),
args.radius.unwrap_or(0.001),
);
Ok(serialize(mint::Vector3::from(normal))?)
}
fn field_closest_point_flex(
node: &Node,
calling_client: Arc<Client>,
data: &[u8],
) -> Result<Vec<u8>> {
#[derive(Deserialize)]
struct FieldInfoArgs<'a> {
reference_space_path: &'a str,
point: Vector3<f32>,
radius: Option<f32>,
}
let args: FieldInfoArgs = deserialize(data)?;
let reference_space = find_reference_space(&calling_client, args.reference_space_path)?;
let closest_point = node.field.get().as_ref().unwrap().closest_point(
reference_space.as_ref(),
args.point.into(),
args.radius.unwrap_or(0.001),
);
Ok(serialize(mint::Vector3::from(closest_point))?)
}
fn field_ray_march_flex(node: &Node, calling_client: Arc<Client>, data: &[u8]) -> Result<Vec<u8>> {
#[derive(Deserialize)]
struct FieldInfoArgs<'a> {
reference_space_path: &'a str,
ray_origin: Vector3<f32>,
ray_direction: Vector3<f32>,
}
let args: FieldInfoArgs = deserialize(data)?;
let reference_space = find_reference_space(&calling_client, args.reference_space_path)?;
let ray_march_result = node.field.get().unwrap().ray_march(Ray {
origin: args.ray_origin.into(),
direction: args.ray_direction.into(),
space: reference_space,
});
Ok(serialize(ray_march_result)?)
}
pub enum Field {
Box(BoxField),
Cylinder(CylinderField),
Sphere(SphereField),
Torus(TorusField),
}
impl Deref for Field {
type Target = dyn FieldTrait;
fn deref(&self) -> &Self::Target {
match self {
Field::Box(field) => field,
Field::Cylinder(field) => field,
Field::Sphere(field) => field,
Field::Torus(field) => field,
}
}
}
pub fn create_interface(client: &Arc<Client>) -> Result<()> {
let node = Node::create(client, "", "field", false);
node.add_local_signal("create_box_field", create_box_field_flex);
node.add_local_signal("create_cylinder_field", create_cylinder_field_flex);
node.add_local_signal("create_sphere_field", create_sphere_field_flex);
node.add_local_signal("create_torus_field", create_torus_field_flex);
node.add_to_scenegraph().map(|_| ())
}
pub fn find_field(client: &Client, path: &str) -> Result<Arc<Field>> {
client
.get_node("Field", path)?
.get_aspect("Field", "info", |n| &n.field)
.cloned()
}

88
src/nodes/fields/sphere.rs
View File

@@ -1,88 +0,0 @@
use super::{Field, FieldTrait, Node};
use crate::core::client::Client;
use crate::nodes::spatial::{find_spatial_parent, Spatial};
use color_eyre::eyre::{ensure, Result};
use glam::{Mat4, Vec3A};
use mint::Vector3;
use portable_atomic::AtomicF32;
use serde::Deserialize;
use stardust_xr::schemas::flex::deserialize;
use std::sync::atomic::Ordering;
use std::sync::Arc;
pub struct SphereField {
space: Arc<Spatial>,
radius: AtomicF32,
}
impl SphereField {
pub fn add_to(node: &Arc<Node>, radius: f32) -> Result<()> {
ensure!(
node.spatial.get().is_some(),
"Internal: Node does not have a spatial attached!"
);
ensure!(
node.field.get().is_none(),
"Internal: Node already has a field attached!"
);
let sphere_field = SphereField {
space: node.spatial.get().unwrap().clone(),
radius: AtomicF32::new(radius),
};
sphere_field.add_field_methods(node);
node.add_local_signal("set_radius", SphereField::set_radius_flex);
let _ = node.field.set(Arc::new(Field::Sphere(sphere_field)));
Ok(())
}
pub fn set_radius(&self, radius: f32) {
self.radius.store(radius, Ordering::Relaxed);
}
pub fn set_radius_flex(node: &Node, _calling_client: Arc<Client>, data: &[u8]) -> Result<()> {
let Field::Sphere(sphere_field) = node.field.get().unwrap().as_ref() else { return Ok(()) };
sphere_field.set_radius(deserialize(data)?);
Ok(())
}
}
impl FieldTrait for SphereField {
fn local_distance(&self, p: Vec3A) -> f32 {
p.length() - self.radius.load(Ordering::Relaxed)
}
fn local_normal(&self, p: Vec3A, _r: f32) -> Vec3A {
-p.normalize()
}
fn local_closest_point(&self, p: Vec3A, _r: f32) -> Vec3A {
p.normalize() * self.radius.load(Ordering::Relaxed)
}
fn spatial_ref(&self) -> &Spatial {
self.space.as_ref()
}
}
pub fn create_sphere_field_flex(
_node: &Node,
calling_client: Arc<Client>,
data: &[u8],
) -> Result<()> {
#[derive(Deserialize)]
struct CreateFieldInfo<'a> {
name: &'a str,
parent_path: &'a str,
origin: Option<Vector3<f32>>,
radius: f32,
}
let info: CreateFieldInfo = deserialize(data)?;
let node = Node::create(&calling_client, "/field", info.name, true);
let parent = find_spatial_parent(&calling_client, info.parent_path)?;
let transform = Mat4::from_translation(
info.origin
.unwrap_or_else(|| Vector3::from([0.0; 3]))
.into(),
);
let node = node.add_to_scenegraph()?;
Spatial::add_to(&node, Some(parent), transform, false)?;
SphereField::add_to(&node, info.radius)?;
Ok(())
}

88
src/nodes/fields/torus.rs
View File

@@ -1,88 +0,0 @@
use super::{Field, FieldTrait, Node};
use crate::core::client::Client;
use crate::nodes::spatial::{find_spatial_parent, parse_transform, Spatial};
use color_eyre::eyre::{ensure, Result};
use glam::{swizzles::*, vec2, Vec3A};
use portable_atomic::AtomicF32;
use serde::Deserialize;
use stardust_xr::schemas::flex::deserialize;
use stardust_xr::values::Transform;
use std::sync::atomic::Ordering;
use std::sync::Arc;
pub struct TorusField {
space: Arc<Spatial>,
radius_a: AtomicF32,
radius_b: AtomicF32,
}
impl TorusField {
pub fn add_to(node: &Arc<Node>, radius_a: f32, radius_b: f32) -> Result<()> {
ensure!(
node.spatial.get().is_some(),
"Internal: Node does not have a spatial attached!"
);
ensure!(
node.field.get().is_none(),
"Internal: Node already has a field attached!"
);
let torus_field = TorusField {
space: node.spatial.get().unwrap().clone(),
radius_a: AtomicF32::new(radius_a.abs()),
radius_b: AtomicF32::new(radius_b.abs()),
};
torus_field.add_field_methods(node);
node.add_local_signal("set_size", TorusField::set_size_flex);
let _ = node.field.set(Arc::new(Field::Torus(torus_field)));
Ok(())
}
pub fn set_size(&self, radius_a: f32, radius_b: f32) {
self.radius_a.store(radius_a.abs(), Ordering::Relaxed);
self.radius_b.store(radius_b.abs(), Ordering::Relaxed);
}
pub fn set_size_flex(node: &Node, _calling_client: Arc<Client>, data: &[u8]) -> Result<()> {
let Field::Torus(torus_field) = node.field.get().unwrap().as_ref() else { return Ok(()) };
let (radius_a, radius_b) = deserialize(data)?;
torus_field.set_size(radius_a, radius_b);
Ok(())
}
}
impl FieldTrait for TorusField {
fn local_distance(&self, p: Vec3A) -> f32 {
let radius_a = self.radius_a.load(Ordering::Relaxed);
let radius_b = self.radius_b.load(Ordering::Relaxed);
let q = vec2(p.xz().length() - radius_a, p.y);
q.length() - radius_b
}
fn spatial_ref(&self) -> &Spatial {
self.space.as_ref()
}
}
pub fn create_torus_field_flex(
_node: &Node,
calling_client: Arc<Client>,
data: &[u8],
) -> Result<()> {
#[derive(Deserialize)]
struct CreateFieldInfo<'a> {
name: &'a str,
parent_path: &'a str,
transform: Transform,
radius_a: f32,
radius_b: f32,
}
let info: CreateFieldInfo = deserialize(data)?;
let node = Node::create(&calling_client, "/field", info.name, true);
let parent = find_spatial_parent(&calling_client, info.parent_path)?;
let transform = parse_transform(info.transform, true, true, false);
let node = node.add_to_scenegraph()?;
Spatial::add_to(&node, Some(parent), transform, false)?;
TorusField::add_to(&node, info.radius_a, info.radius_b)?;
Ok(())
}

48
src/nodes/hmd.rs
View File

@@ -1,48 +0,0 @@
use super::{alias::Alias, spatial::Spatial, Node};
use crate::{
core::client::{Client, INTERNAL_CLIENT},
nodes::alias::AliasInfo,
};
use color_eyre::eyre::Result;
use glam::{vec3, Mat4};
use std::sync::Arc;
use stereokit::StereoKitMultiThread;
use tracing::instrument;
lazy_static::lazy_static! {
static ref HMD: Arc<Node> = create();
}
fn create() -> Arc<Node> {
let node = Arc::new(Node::create(&INTERNAL_CLIENT, "", "hmd", false));
Spatial::add_to(&node, None, Mat4::IDENTITY, false).expect("Unable to make spatial for HMD");
node
}
#[instrument(level = "debug", name = "Update HMD Pose", skip(sk))]
pub fn frame(sk: &impl StereoKitMultiThread) {
let spatial = HMD
.spatial
.get()
.expect("Unable to get spatial to update HMD");
let hmd_pose = sk.input_head();
*spatial.transform.lock() = Mat4::from_scale_rotation_translation(
vec3(1.0, 1.0, 1.0),
hmd_pose.orientation.into(),
hmd_pose.position.into(),
);
}
pub fn make_alias(client: &Arc<Client>) -> Result<Arc<Node>> {
Alias::create(
client,
"",
"hmd",
&HMD,
AliasInfo {
server_signals: vec!["get_bounds", "get_transform"],
..Default::default()
},
)
}

109
src/nodes/input/hand.rs
View File

@@ -1,51 +1,89 @@
use crate::nodes::fields::Field;
use super::{Finger, Hand, InputDataTrait, InputHandler, InputMethod, Joint, Thumb};
use crate::nodes::fields::{Field, FieldTrait};
use crate::nodes::spatial::Spatial;
use glam::{vec3a, Mat4};
use stardust_xr::schemas::flat::{Hand as FlatHand, InputDataType, Joint};
use glam::{vec3a, Mat4, Quat};
use std::sync::Arc;
use super::{DistanceLink, InputSpecialization};
#[derive(Debug, Default)]
pub struct Hand {
pub base: FlatHand,
}
impl InputSpecialization for Hand {
fn compare_distance(&self, space: &Arc<Spatial>, field: &Field) -> f32 {
self.true_distance(space, field).abs()
impl Default for Joint {
fn default() -> Self {
Joint {
position: [0.0; 3].into(),
rotation: Quat::IDENTITY.into(),
radius: 0.0,
distance: 0.0,
}
}
fn true_distance(&self, space: &Arc<Spatial>, field: &Field) -> f32 {
}
#[allow(clippy::derivable_impls)]
impl Default for Finger {
fn default() -> Self {
Finger {
tip: Default::default(),
distal: Default::default(),
intermediate: Default::default(),
proximal: Default::default(),
metacarpal: Default::default(),
}
}
}
#[allow(clippy::derivable_impls)]
impl Default for Thumb {
fn default() -> Self {
Thumb {
tip: Default::default(),
distal: Default::default(),
proximal: Default::default(),
metacarpal: Default::default(),
}
}
}
#[allow(clippy::derivable_impls)]
impl Default for Hand {
fn default() -> Self {
Hand {
right: Default::default(),
thumb: Default::default(),
index: Default::default(),
middle: Default::default(),
ring: Default::default(),
little: Default::default(),
palm: Default::default(),
wrist: Default::default(),
elbow: Default::default(),
}
}
}
impl InputDataTrait for Hand {
fn distance(&self, space: &Arc<Spatial>, field: &Field) -> f32 {
let mut min_distance = f32::MAX;
for tip in [
&self.base.thumb.tip.position,
&self.base.index.tip.position,
&self.base.middle.tip.position,
&self.base.ring.tip.position,
&self.base.little.tip.position,
&self.thumb.tip.position,
&self.index.tip.position,
&self.middle.tip.position,
&self.ring.tip.position,
&self.little.tip.position,
] {
min_distance = min_distance.min(field.distance(space, vec3a(tip.x, tip.y, tip.z)));
}
min_distance
}
fn serialize(
&self,
_distance_link: &DistanceLink,
local_to_handler_matrix: Mat4,
) -> InputDataType {
let mut hand = self.base;
fn transform(&mut self, method: &InputMethod, handler: &InputHandler) {
let local_to_handler_matrix =
Spatial::space_to_space_matrix(Some(&method.spatial), Some(&handler.spatial));
let mut joints: Vec<&mut Joint> = Vec::new();
joints.extend([&mut hand.palm, &mut hand.wrist]);
if let Some(elbow) = &mut hand.elbow {
joints.extend([&mut self.palm, &mut self.wrist]);
if let Some(elbow) = &mut self.elbow {
joints.push(elbow);
}
for finger in [
&mut hand.index,
&mut hand.middle,
&mut hand.ring,
&mut hand.little,
&mut self.index,
&mut self.middle,
&mut self.ring,
&mut self.little,
] {
joints.extend([
&mut finger.tip,
@@ -56,10 +94,10 @@ impl InputSpecialization for Hand {
]);
}
joints.extend([
&mut hand.thumb.tip,
&mut hand.thumb.distal,
&mut hand.thumb.proximal,
&mut hand.thumb.metacarpal,
&mut self.thumb.tip,
&mut self.thumb.distal,
&mut self.thumb.proximal,
&mut self.thumb.metacarpal,
]);
for joint in joints {
@@ -68,8 +106,7 @@ impl InputSpecialization for Hand {
let (_, rotation, position) = joint_matrix.to_scale_rotation_translation();
joint.position = position.into();
joint.rotation = rotation.into();
joint.distance = handler.field.distance(&handler.spatial, position.into());
}
InputDataType::Hand(Box::new(hand))
}
}

42
src/nodes/input/handler.rs Normal file
View File

@@ -0,0 +1,42 @@
use super::{InputHandlerAspect, INPUT_HANDLER_REGISTRY, INPUT_METHOD_REGISTRY};
use crate::nodes::{alias::AliasList, fields::Field, spatial::Spatial, Aspect, Node};
use color_eyre::eyre::Result;
use std::sync::Arc;
pub struct InputHandler {
pub spatial: Arc<Spatial>,
pub field: Arc<Field>,
pub(super) method_aliases: AliasList,
}
impl InputHandler {
pub fn add_to(node: &Arc<Node>, field: &Arc<Field>) -> Result<()> {
let handler = InputHandler {
spatial: node.get_aspect::<Spatial>().unwrap().clone(),
field: field.clone(),
method_aliases: AliasList::default(),
};
for method in INPUT_METHOD_REGISTRY.get_valid_contents() {
method.handle_new_handler(&handler);
}
let handler = INPUT_HANDLER_REGISTRY.add(handler);
node.add_aspect_raw(handler);
Ok(())
}
}
impl Aspect for InputHandler {
const NAME: &'static str = "InputHandler";
}
impl InputHandlerAspect for InputHandler {}
impl PartialEq for InputHandler {
fn eq(&self, other: &Self) -> bool {
self.spatial == other.spatial
}
}
impl Drop for InputHandler {
fn drop(&mut self) {
INPUT_HANDLER_REGISTRY.remove(self);
for method in INPUT_METHOD_REGISTRY.get_valid_contents() {
method.handle_drop_handler(self);
}
}
}

233
src/nodes/input/method.rs Normal file
View File

@@ -0,0 +1,233 @@
use super::{
input_method_client, InputData, InputDataTrait, InputDataType, InputHandler, InputMethodAspect,
InputMethodRefAspect, INPUT_HANDLER_REGISTRY, INPUT_METHOD_REF_ASPECT_ALIAS_INFO,
INPUT_METHOD_REGISTRY,
};
use crate::{
core::{client::Client, registry::Registry},
nodes::{
alias::{Alias, AliasList},
fields::{Field, FIELD_ALIAS_INFO},
spatial::Spatial,
Aspect, Node,
},
};
use color_eyre::eyre::Result;
use parking_lot::Mutex;
use stardust_xr::values::Datamap;
use std::sync::{Arc, Weak};
pub struct InputMethod {
pub spatial: Arc<Spatial>,
pub data: Mutex<InputDataType>,
pub datamap: Mutex<Datamap>,
handler_aliases: AliasList,
handler_field_aliases: AliasList,
pub(super) handler_order: Mutex<Vec<Weak<InputHandler>>>,
pub internal_capture_requests: Registry<InputHandler>,
pub captures: Registry<InputHandler>,
}
impl InputMethod {
pub fn add_to(
node: &Arc<Node>,
data: InputDataType,
datamap: Datamap,
) -> Result<Arc<InputMethod>> {
let method = InputMethod {
spatial: node.get_aspect::<Spatial>().unwrap().clone(),
data: Mutex::new(data),
datamap: Mutex::new(datamap),
handler_aliases: AliasList::default(),
handler_field_aliases: AliasList::default(),
handler_order: Mutex::new(Vec::new()),
internal_capture_requests: Registry::new(),
captures: Registry::new(),
};
<InputMethod as InputMethodRefAspect>::add_node_members(node);
<InputMethod as InputMethodAspect>::add_node_members(node);
for handler in INPUT_HANDLER_REGISTRY.get_valid_contents() {
method.handle_new_handler(&handler);
}
let method = INPUT_METHOD_REGISTRY.add(method);
node.add_aspect_raw(method.clone());
Ok(method)
}
pub fn distance(&self, to: &Field) -> f32 {
self.data.lock().distance(&self.spatial, to)
}
pub fn set_handler_order<'a>(&self, handlers: impl Iterator<Item = &'a Arc<InputHandler>>) {
*self.handler_order.lock() = handlers.map(Arc::downgrade).collect();
}
pub(super) fn make_alias(&self, handler: &InputHandler) {
let Some(method_node) = self.spatial.node() else {
return;
};
let Some(handler_node) = handler.spatial.node() else {
return;
};
let Some(client) = handler_node.get_client() else {
return;
};
let Ok(method_alias) = Alias::create(
&method_node,
&client,
INPUT_METHOD_REF_ASPECT_ALIAS_INFO.clone(),
Some(&handler.method_aliases),
) else {
return;
};
method_alias.set_enabled(false);
}
pub(super) fn handle_new_handler(&self, handler: &InputHandler) {
self.make_alias(handler);
let Some(method_node) = self.spatial.node() else {
return;
};
let Some(method_client) = method_node.get_client() else {
return;
};
let Some(handler_node) = handler.spatial.node() else {
return;
};
// Receiver itself
let Ok(handler_alias) = Alias::create(
&handler_node,
&method_client,
INPUT_METHOD_REF_ASPECT_ALIAS_INFO.clone(),
Some(&self.handler_aliases),
) else {
return;
};
let Some(handler_field_node) = handler.field.spatial.node() else {
return;
};
// Handler's field
let Ok(rx_field_alias) = Alias::create(
&handler_field_node,
&method_client,
FIELD_ALIAS_INFO.clone(),
Some(&self.handler_field_aliases),
) else {
return;
};
let _ = input_method_client::create_handler(&method_node, &handler_alias, &rx_field_alias);
}
pub(super) fn handle_drop_handler(&self, handler: &InputHandler) {
let Some(tx_node) = self.spatial.node() else {
return;
};
let Some(handler_alias) = self.handler_aliases.get_from_aspect(handler) else {
return;
};
let _ = input_method_client::destroy_handler(&tx_node, handler_alias.id);
self.handler_aliases.remove_aspect(handler);
self.handler_field_aliases
.remove_aspect(handler.field.as_ref());
}
pub(super) fn serialize(&self, alias_id: u64, handler: &Arc<InputHandler>) -> InputData {
let mut input = self.data.lock().clone();
input.transform(self, handler);
InputData {
id: alias_id,
input,
distance: self.distance(&handler.field),
datamap: self.datamap.lock().clone(),
order: self
.handler_order
.lock()
.iter()
.enumerate()
.find(|(_, h)| h.ptr_eq(&Arc::downgrade(handler)))
.unwrap()
.0 as u32,
captured: self.captures.get_valid_contents().contains(handler),
}
}
}
impl Aspect for InputMethod {
const NAME: &'static str = "InputMethod";
}
impl InputMethodRefAspect for InputMethod {
#[doc = "Have the input handler that this method reference came from capture the method for the next frame."]
fn request_capture(
node: Arc<Node>,
_calling_client: Arc<Client>,
handler: Arc<Node>,
) -> Result<()> {
let input_method = node.get_aspect::<InputMethod>()?;
let input_handler = handler.get_aspect::<InputHandler>()?;
input_method
.internal_capture_requests
.add_raw(&input_handler);
Ok(())
}
}
impl InputMethodAspect for InputMethod {
#[doc = "Set the spatial input component of this input method. You must keep the same input data type throughout the entire thing."]
fn set_input(
node: Arc<Node>,
_calling_client: Arc<Client>,
input: InputDataType,
) -> Result<()> {
let input_method = node.get_aspect::<InputMethod>()?;
*input_method.data.lock() = input;
Ok(())
}
#[doc = "Set the datmap of this input method"]
fn set_datamap(node: Arc<Node>, _calling_client: Arc<Client>, datamap: Datamap) -> Result<()> {
let input_method = node.get_aspect::<InputMethod>()?;
*input_method.datamap.lock() = datamap;
Ok(())
}
#[doc = "Manually set the order of handlers to propagate input to, or else let the server decide."]
fn set_handler_order(
node: Arc<Node>,
_calling_client: Arc<Client>,
handlers: Vec<Arc<Node>>,
) -> Result<()> {
let input_method = node.get_aspect::<InputMethod>()?;
let handlers = handlers
.into_iter()
.filter_map(|p| p.get_aspect::<InputHandler>().ok())
.map(|i| Arc::downgrade(&i))
.collect::<Vec<_>>();
*input_method.handler_order.lock() = handlers;
Ok(())
}
#[doc = "Set which handlers are captured."]
fn set_captures(
node: Arc<Node>,
_calling_client: Arc<Client>,
handlers: Vec<Arc<Node>>,
) -> Result<()> {
let input_method = node.get_aspect::<InputMethod>()?;
input_method.captures.clear();
for handler in handlers {
let Ok(handler) = handler.get_aspect::<InputHandler>() else {
continue;
};
input_method.captures.add_raw(&handler);
}
Ok(())
}
}
impl Drop for InputMethod {
fn drop(&mut self) {
INPUT_METHOD_REGISTRY.remove(self);
}
}

505
src/nodes/input/mod.rs
View File

@@ -1,395 +1,152 @@
pub mod hand;
pub mod pointer;
pub mod tip;
#![allow(clippy::needless_question_mark)]
use self::hand::Hand;
use self::pointer::Pointer;
use self::tip::Tip;
mod hand;
mod handler;
mod method;
mod pointer;
mod tip;
use super::{
alias::{Alias, AliasInfo},
fields::{find_field, Field, FIELD_ALIAS_INFO},
spatial::{find_spatial_parent, parse_transform, Spatial},
Node,
};
use crate::core::{client::Client, node_collections::LifeLinkedNodeMap};
use crate::core::{node_collections::LifeLinkedNodeList, registry::Registry};
use color_eyre::eyre::{ensure, Result};
use glam::Mat4;
use once_cell::sync::OnceCell;
use parking_lot::Mutex;
use portable_atomic::AtomicBool;
use serde::Deserialize;
use stardust_xr::schemas::{flat::InputData, flex::deserialize};
use stardust_xr::schemas::{
flat::{Datamap, InputDataType},
flex::serialize,
};
use stardust_xr::values::Transform;
use std::ops::Deref;
use std::sync::atomic::Ordering;
use std::sync::{Arc, Weak};
use tracing::{debug_span, instrument};
pub use handler::*;
pub use method::*;
use super::fields::Field;
use super::spatial::Spatial;
use crate::create_interface;
use crate::nodes::spatial::SPATIAL_ASPECT_ALIAS_INFO;
use crate::nodes::spatial::SPATIAL_REF_ASPECT_ALIAS_INFO;
use crate::{core::client::Client, nodes::Node};
use crate::{core::registry::Registry, nodes::spatial::Transform};
use color_eyre::eyre::Result;
use stardust_xr::values::Datamap;
use std::sync::Arc;
static INPUT_METHOD_REGISTRY: Registry<InputMethod> = Registry::new();
static INPUT_HANDLER_REGISTRY: Registry<InputHandler> = Registry::new();
pub static INPUT_HANDLER_REGISTRY: Registry<InputHandler> = Registry::new();
pub trait InputSpecialization: Send + Sync {
fn compare_distance(&self, space: &Arc<Spatial>, field: &Field) -> f32;
fn true_distance(&self, space: &Arc<Spatial>, field: &Field) -> f32;
fn serialize(
&self,
distance_link: &DistanceLink,
local_to_handler_matrix: Mat4,
) -> InputDataType;
stardust_xr_server_codegen::codegen_input_protocol!();
pub trait InputDataTrait {
fn transform(&mut self, method: &InputMethod, handler: &InputHandler);
fn distance(&self, space: &Arc<Spatial>, field: &Field) -> f32;
}
pub enum InputType {
Pointer(Pointer),
Hand(Box<Hand>),
Tip(Tip),
}
impl Deref for InputType {
type Target = dyn InputSpecialization;
fn deref(&self) -> &Self::Target {
impl InputDataTrait for InputDataType {
fn transform(&mut self, method: &InputMethod, handler: &InputHandler) {
match self {
InputType::Pointer(p) => p,
InputType::Hand(h) => h.as_ref(),
InputType::Tip(t) => t,
InputDataType::Pointer(i) => i.transform(method, handler),
InputDataType::Hand(i) => i.transform(method, handler),
InputDataType::Tip(i) => i.transform(method, handler),
}
}
fn distance(&self, space: &Arc<Spatial>, field: &Field) -> f32 {
match self {
InputDataType::Pointer(i) => i.distance(space, field),
InputDataType::Hand(i) => i.distance(space, field),
InputDataType::Tip(i) => i.distance(space, field),
}
}
}
pub struct InputMethod {
node: Weak<Node>,
uid: String,
pub enabled: Mutex<bool>,
pub spatial: Arc<Spatial>,
pub specialization: Mutex<InputType>,
captures: Registry<InputHandler>,
pub datamap: Mutex<Option<Datamap>>,
handler_aliases: LifeLinkedNodeMap<String>,
handler_order: OnceCell<Mutex<Vec<Weak<InputHandler>>>>,
}
impl InputMethod {
#[allow(dead_code)]
pub fn add_to(
node: &Arc<Node>,
specialization: InputType,
datamap: Option<Datamap>,
) -> Result<Arc<InputMethod>> {
ensure!(
node.spatial.get().is_some(),
"Internal: Node does not have a spatial attached!"
);
node.add_local_signal("capture", InputMethod::capture_flex);
node.add_local_signal("set_datamap", InputMethod::set_datamap_flex);
node.add_local_signal("set_handlers", InputMethod::set_handlers_flex);
let method = InputMethod {
node: Arc::downgrade(node),
uid: node.uid.clone(),
enabled: Mutex::new(true),
spatial: node.spatial.get().unwrap().clone(),
specialization: Mutex::new(specialization),
captures: Registry::new(),
datamap: Mutex::new(datamap),
handler_aliases: LifeLinkedNodeMap::default(),
handler_order: OnceCell::new(),
};
for handler in INPUT_HANDLER_REGISTRY.get_valid_contents() {
method.handle_new_handler(&handler);
}
let method = INPUT_METHOD_REGISTRY.add(method);
let _ = node.input_method.set(method.clone());
Ok(method)
}
fn get(node: &Node) -> Result<Arc<Self>> {
node.get_aspect("Input Method", "input method", |n| &n.input_method)
.cloned()
}
fn capture_flex(node: &Node, calling_client: Arc<Client>, data: &[u8]) -> Result<()> {
let method = InputMethod::get(node)?;
let handler = InputHandler::find(&calling_client, deserialize(data)?)?;
method.captures.add_raw(&handler);
node.send_remote_signal("capture", data)
}
fn set_datamap_flex(node: &Node, _calling_client: Arc<Client>, data: &[u8]) -> Result<()> {
let method = InputMethod::get(node)?;
method.datamap.lock().replace(Datamap::new(data.to_vec())?);
Ok(())
}
fn set_handlers_flex(node: &Node, calling_client: Arc<Client>, data: &[u8]) -> Result<()> {
let method = InputMethod::get(node)?;
let handler_paths: Vec<&str> = deserialize(data)?;
let handlers: Vec<Weak<InputHandler>> = handler_paths
.into_iter()
.filter_map(|p| InputHandler::find(&calling_client, p).ok())
.map(|h| Arc::downgrade(&h))
.collect();
*method
.handler_order
.get_or_init(|| Mutex::new(Vec::new()))
.lock() = handlers;
Ok(())
}
fn compare_distance(&self, to: &Field) -> f32 {
self.specialization
.lock()
.compare_distance(&self.spatial, to)
}
fn true_distance(&self, to: &Field) -> f32 {
self.specialization.lock().true_distance(&self.spatial, to)
}
fn handle_new_handler(&self, handler: &InputHandler) {
let Some(method_node) = self.node.upgrade() else { return };
let Some(method_client) = method_node.get_client() else { return };
let Some(handler_node) = handler.node.upgrade() else { return };
// Receiver itself
let Ok(handler_alias) = Alias::create(
&method_client,
method_node.get_path(),
handler.uid.as_str(),
&handler_node,
AliasInfo {
server_methods: vec!["getTransform"],
..Default::default()
},
) else {return};
self.handler_aliases
.add(handler.uid.clone(), &handler_alias);
if let Some(handler_field_node) = handler.field.spatial_ref().node.upgrade() {
// Handler's field
let Ok(rx_field_alias) = Alias::create(
&method_client,
handler_alias.get_path(),
"field",
&handler_field_node,
FIELD_ALIAS_INFO.clone(),
) else {return};
self.handler_aliases
.add(handler.uid.clone() + "-field", &rx_field_alias);
}
let Ok(data) = serialize(&handler.uid) else {return};
let _ = method_node.send_remote_signal("handler_created", &data);
}
fn handle_drop_handler(&self, handler: &InputHandler) {
let uid = handler.uid.as_str();
self.handler_aliases.remove(uid);
self.handler_aliases.remove(&(uid.to_string() + "-field"));
let Some(tx_node) = self.node.upgrade() else {return};
let Ok(data) = serialize(&uid) else {return};
let _ = tx_node.send_remote_signal("handler_destroyed", &data);
}
}
impl Drop for InputMethod {
fn drop(&mut self) {
INPUT_METHOD_REGISTRY.remove(self);
}
}
pub struct DistanceLink {
distance: f32,
method: Arc<InputMethod>,
handler: Arc<InputHandler>,
}
impl DistanceLink {
fn from(method: Arc<InputMethod>, handler: Arc<InputHandler>) -> Option<Self> {
let handler_node = handler.node.upgrade()?;
let method_alias = Alias::create(
&handler_node.get_client()?,
handler_node.get_path(),
&method.uid,
&method.node.upgrade()?,
AliasInfo {
server_signals: vec!["capture"],
..Default::default()
},
)
.ok()?;
handler.method_aliases.add(Arc::downgrade(&method_alias));
Some(DistanceLink {
distance: method.compare_distance(&handler.field),
method,
handler,
})
}
fn send_input(&self, order: u32, datamap: Datamap) {
self.handler.send_input(order, self, datamap);
}
#[instrument(level = "debug", skip(self))]
fn serialize(&self, order: u32, datamap: Datamap) -> Vec<u8> {
let input = self.method.specialization.lock().serialize(
self,
Spatial::space_to_space_matrix(Some(&self.method.spatial), Some(&self.handler.spatial)),
);
let root = InputData {
uid: self.method.uid.clone(),
input,
distance: self.method.true_distance(&self.handler.field),
datamap,
order,
};
root.serialize()
}
}
pub struct InputHandler {
enabled: Arc<AtomicBool>,
uid: String,
node: Weak<Node>,
spatial: Arc<Spatial>,
field: Arc<Field>,
method_aliases: LifeLinkedNodeList,
}
impl InputHandler {
pub fn add_to(node: &Arc<Node>, field: &Arc<Field>) -> Result<()> {
ensure!(
node.spatial.get().is_some(),
"Internal: Node does not have a spatial attached!"
);
let handler = InputHandler {
enabled: node.enabled.clone(),
uid: node.uid.clone(),
node: Arc::downgrade(node),
spatial: node.spatial.get().unwrap().clone(),
field: field.clone(),
method_aliases: LifeLinkedNodeList::default(),
};
for method in INPUT_METHOD_REGISTRY.get_valid_contents() {
method.handle_new_handler(&handler);
}
let handler = INPUT_HANDLER_REGISTRY.add(handler);
let _ = node.input_handler.set(handler);
Ok(())
}
fn find(client: &Client, path: &str) -> Result<Arc<Self>> {
InputHandler::get(&*client.get_node("Input Handler", path)?)
}
fn get(node: &Node) -> Result<Arc<Self>> {
node.get_aspect("Input Handler", "input handler", |n| &n.input_handler)
.cloned()
}
#[instrument(level = "debug", skip(self, distance_link))]
fn send_input(&self, order: u32, distance_link: &DistanceLink, datamap: Datamap) {
let Some(node) = self.node.upgrade() else {return};
let _ = node.send_remote_signal("input", &distance_link.serialize(order, datamap));
}
}
impl PartialEq for InputHandler {
fn eq(&self, other: &Self) -> bool {
self.spatial == other.spatial
}
}
impl Drop for InputHandler {
fn drop(&mut self) {
INPUT_HANDLER_REGISTRY.remove(self);
for method in INPUT_METHOD_REGISTRY.get_valid_contents() {
method.handle_drop_handler(self);
}
}
}
pub fn create_interface(client: &Arc<Client>) -> Result<()> {
let node = Node::create(client, "", "input", false);
node.add_local_signal("create_input_handler", create_input_handler_flex);
node.add_local_signal("create_input_method_pointer", pointer::create_pointer_flex);
node.add_local_signal("create_input_method_tip", tip::create_tip_flex);
node.add_to_scenegraph().map(|_| ())
}
pub fn create_input_handler_flex(
_node: &Node,
calling_client: Arc<Client>,
data: &[u8],
) -> Result<()> {
#[derive(Deserialize)]
struct CreateInputHandlerInfo<'a> {
name: &'a str,
parent_path: &'a str,
create_interface!(InputInterface);
pub struct InputInterface;
impl InterfaceAspect for InputInterface {
#[doc = "Create an input method node"]
fn create_input_method(
_node: Arc<Node>,
calling_client: Arc<Client>,
id: u64,
parent: Arc<Node>,
transform: Transform,
field_path: &'a str,
}
let info: CreateInputHandlerInfo = deserialize(data)?;
let parent = find_spatial_parent(&calling_client, info.parent_path)?;
let transform = parse_transform(info.transform, true, true, true);
let field = find_field(&calling_client, info.field_path)?;
initial_data: InputDataType,
datamap: Datamap,
) -> Result<()> {
let parent = parent.get_aspect::<Spatial>()?;
let transform = transform.to_mat4(true, true, true);
let node =
Node::create(&calling_client, "/input/handler", info.name, true).add_to_scenegraph()?;
Spatial::add_to(&node, Some(parent), transform, false)?;
InputHandler::add_to(&node, &field)?;
Ok(())
let node = Node::from_id(&calling_client, id, true).add_to_scenegraph()?;
Spatial::add_to(&node, Some(parent.clone()), transform, false);
InputMethod::add_to(&node, initial_data, datamap)?;
Ok(())
}
#[doc = "Create an input handler node"]
fn create_input_handler(
_node: Arc<Node>,
calling_client: Arc<Client>,
id: u64,
parent: Arc<Node>,
transform: Transform,
field: Arc<Node>,
) -> Result<()> {
let parent = parent.get_aspect::<Spatial>()?;
let transform = transform.to_mat4(true, true, true);
let field = field.get_aspect::<Field>()?;
let node = Node::from_id(&calling_client, id, true).add_to_scenegraph()?;
Spatial::add_to(&node, Some(parent.clone()), transform, false);
InputHandler::add_to(&node, &field)?;
Ok(())
}
}
#[tracing::instrument(level = "debug")]
pub fn process_input() {
// Iterate over all valid input methods
let methods = debug_span!("Get valid methods").in_scope(|| {
INPUT_METHOD_REGISTRY
.get_valid_contents()
.into_iter()
.filter(|method| *method.enabled.lock())
.filter(|method| method.datamap.lock().is_some())
});
let handlers = INPUT_HANDLER_REGISTRY.get_valid_contents();
for handler in &handlers {
handler.method_aliases.clear();
let methods = INPUT_METHOD_REGISTRY
.get_valid_contents()
.into_iter()
.filter(|method| {
let Some(node) = method.spatial.node() else {
return false;
};
node.enabled()
});
for handler in INPUT_HANDLER_REGISTRY.get_valid_contents() {
for method_alias in handler.method_aliases.get_aliases() {
method_alias.set_enabled(false);
}
let Some(handler_node) = handler.spatial.node() else {
continue;
};
if !handler_node.enabled() {
continue;
}
if let Some(handler_field_node) = handler.field.spatial.node() {
if !handler_field_node.enabled() {
continue;
}
};
let (methods, datas) = methods
.clone()
// filter out methods without the handler in their handler order
.filter(|a| {
a.handler_order
.lock()
.iter()
.any(|h| h.ptr_eq(&Arc::downgrade(&handler)))
})
// filter out methods without the proper alias
.filter_map(|m| {
Some((
handler
.method_aliases
.get_from_original_node(m.spatial.node.clone())?,
m,
))
})
// make sure the input method alias is enabled
.inspect(|(a, _)| {
a.set_enabled(true);
})
// serialize the data
.map(|(a, m)| (a.clone(), m.serialize(a.get_id(), &handler)))
.unzip::<_, _, Vec<_>, Vec<_>>();
let _ = input_handler_client::input(&handler_node, &methods, &datas);
}
for method in methods {
debug_span!("Process input method").in_scope(|| {
// Get all valid input handlers and convert them to DistanceLink objects
let distance_links: Vec<DistanceLink> = debug_span!("Generate distance links")
.in_scope(|| {
if let Some(handler_order) = method.handler_order.get() {
let handler_order = handler_order.lock();
handler_order
.iter()
.filter_map(|h| h.upgrade())
.filter(|handler| handler.enabled.load(Ordering::Relaxed))
.filter_map(|handler| DistanceLink::from(method.clone(), handler))
.collect()
} else {
let mut distance_links: Vec<_> = handlers
.iter()
.filter(|handler| handler.enabled.load(Ordering::Relaxed))
.filter_map(|handler| {
DistanceLink::from(method.clone(), handler.clone())
})
.collect();
// Sort the distance links by their distance in ascending order
debug_span!("Sort distance links").in_scope(|| {
distance_links.sort_unstable_by(|a, b| {
a.distance.abs().partial_cmp(&b.distance.abs()).unwrap()
});
});
distance_links
}
});
let captures = method.captures.take_valid_contents();
// Iterate over the distance links and send input to them
for (i, distance_link) in distance_links.into_iter().enumerate() {
distance_link.send_input(i as u32, method.datamap.lock().clone().unwrap());
// If the current distance link is in the list of captured input handlers,
// break out of the loop to avoid sending input to the remaining distance links
if captures.contains(&distance_link.handler) {
break;
}
}
});
method.internal_capture_requests.clear();
}
}

108
src/nodes/input/pointer.rs
View File

@@ -1,88 +1,52 @@
use super::{DistanceLink, InputSpecialization};
use crate::core::client::Client;
use crate::nodes::fields::{Field, Ray, RayMarchResult};
use crate::nodes::input::{InputMethod, InputType};
use crate::nodes::spatial::{find_spatial_parent, parse_transform, Spatial};
use crate::nodes::Node;
use glam::{vec3, Mat4};
use serde::Deserialize;
use stardust_xr::schemas::flat::{Datamap, InputDataType, Pointer as FlatPointer};
use stardust_xr::schemas::flex::deserialize;
use stardust_xr::values::Transform;
use std::sync::Arc;
use super::{InputDataTrait, InputHandler, InputMethod, Pointer};
use crate::nodes::{
fields::{Field, FieldTrait, Ray, RayMarchResult},
spatial::Spatial,
};
use glam::{vec3, Mat4, Quat};
use std::sync::{Arc, Weak};
#[derive(Default)]
pub struct Pointer;
// impl Default for Pointer {
// fn default() -> Self {
// Pointer {
// grab: Default::default(),
// select: Default::default(),
// }
// }
// }
impl Default for Pointer {
fn default() -> Self {
Pointer {
origin: [0.0; 3].into(),
orientation: Quat::IDENTITY.into(),
deepest_point: [0.0; 3].into(),
}
}
}
impl Pointer {
fn ray_march(&self, space: &Arc<Spatial>, field: &Field) -> RayMarchResult {
fn ray_march(&self, method_space: &Arc<Spatial>, field: &Field) -> RayMarchResult {
field.ray_march(Ray {
origin: vec3(0.0, 0.0, 0.0),
direction: vec3(0.0, 0.0, -1.0),
space: space.clone(),
space: Spatial::new(
Weak::new(),
Some(method_space.clone()),
Mat4::from_rotation_translation(self.orientation.into(), self.origin.into()),
),
})
}
}
impl InputSpecialization for Pointer {
fn compare_distance(&self, space: &Arc<Spatial>, field: &Field) -> f32 {
let ray_info = self.ray_march(space, field);
ray_info
.deepest_point_distance
.hypot(ray_info.min_distance.recip())
}
fn true_distance(&self, space: &Arc<Spatial>, field: &Field) -> f32 {
impl InputDataTrait for Pointer {
fn distance(&self, space: &Arc<Spatial>, field: &Field) -> f32 {
let ray_info = self.ray_march(space, field);
ray_info.min_distance
}
fn serialize(
&self,
distance_link: &DistanceLink,
local_to_handler_matrix: Mat4,
) -> InputDataType {
fn transform(&mut self, method: &InputMethod, handler: &InputHandler) {
let local_to_handler_matrix =
Mat4::from_rotation_translation(self.orientation.into(), self.origin.into())
* Spatial::space_to_space_matrix(Some(&method.spatial), Some(&handler.spatial));
let (_, orientation, origin) = local_to_handler_matrix.to_scale_rotation_translation();
let direction = local_to_handler_matrix.transform_vector3(vec3(0.0, 0.0, -1.0));
let ray_march = self.ray_march(&distance_link.method.spatial, &distance_link.handler.field);
let ray_march = self.ray_march(&method.spatial, &handler.field);
let direction = local_to_handler_matrix
.transform_vector3(vec3(0.0, 0.0, -1.0))
.normalize();
let deepest_point = (direction * ray_march.deepest_point_distance) + origin;
InputDataType::Pointer(FlatPointer {
origin: origin.into(),
orientation: orientation.into(),
deepest_point: deepest_point.into(),
})
self.origin = origin.into();
self.orientation = orientation.into();
self.deepest_point = deepest_point.into();
}
}
pub fn create_pointer_flex(
_node: &Node,
calling_client: Arc<Client>,
data: &[u8],
) -> color_eyre::eyre::Result<()> {
#[derive(Deserialize)]
struct CreatePointerInfo<'a> {
name: &'a str,
parent_path: &'a str,
transform: Transform,
datamap: Option<Vec<u8>>,
}
let info: CreatePointerInfo = deserialize(data)?;
let node = Node::create(&calling_client, "/input/method/pointer", info.name, true);
let parent = find_spatial_parent(&calling_client, info.parent_path)?;
let transform = parse_transform(info.transform, true, true, false);
let node = node.add_to_scenegraph()?;
Spatial::add_to(&node, Some(parent), transform, false)?;
InputMethod::add_to(
&node,
InputType::Pointer(Pointer),
info.datamap.and_then(|datamap| Datamap::new(datamap).ok()),
)?;
Ok(())
}

84
src/nodes/input/tip.rs
View File

@@ -1,73 +1,29 @@
use super::{DistanceLink, InputSpecialization};
use crate::core::client::Client;
use crate::nodes::fields::Field;
use crate::nodes::input::{InputMethod, InputType};
use crate::nodes::spatial::{find_spatial_parent, parse_transform, Spatial};
use crate::nodes::Node;
use color_eyre::eyre::Result;
use glam::{vec3a, Mat4};
use serde::Deserialize;
use stardust_xr::schemas::flat::{Datamap, InputDataType, Tip as FlatTip};
use stardust_xr::schemas::flex::deserialize;
use stardust_xr::values::Transform;
use super::{InputDataTrait, InputHandler, InputMethod, Tip};
use crate::nodes::{
fields::{Field, FieldTrait},
spatial::Spatial,
};
use glam::{Mat4, Quat};
use std::sync::Arc;
#[derive(Default)]
pub struct Tip {
pub radius: f32,
}
impl Tip {
fn set_radius(node: &Node, _calling_client: Arc<Client>, data: &[u8]) -> Result<()> {
if let InputType::Tip(tip) = &mut *node.input_method.get().unwrap().specialization.lock() {
tip.radius = deserialize(data)?;
impl Default for Tip {
fn default() -> Self {
Tip {
origin: [0.0; 3].into(),
orientation: Quat::IDENTITY.into(),
}
Ok(())
}
}
impl InputSpecialization for Tip {
fn compare_distance(&self, space: &Arc<Spatial>, field: &Field) -> f32 {
field.distance(space, vec3a(0.0, 0.0, 0.0)).abs()
impl InputDataTrait for Tip {
fn distance(&self, space: &Arc<Spatial>, field: &Field) -> f32 {
field.distance(space, self.origin.into())
}
fn true_distance(&self, space: &Arc<Spatial>, field: &Field) -> f32 {
field.distance(space, vec3a(0.0, 0.0, 0.0))
}
fn serialize(
&self,
_distance_link: &DistanceLink,
local_to_handler_matrix: Mat4,
) -> InputDataType {
fn transform(&mut self, method: &InputMethod, handler: &InputHandler) {
let local_to_handler_matrix =
Spatial::space_to_space_matrix(Some(&method.spatial), Some(&handler.spatial))
* Mat4::from_rotation_translation(self.orientation.into(), self.origin.into());
let (_, orientation, origin) = local_to_handler_matrix.to_scale_rotation_translation();
InputDataType::Tip(FlatTip {
origin: origin.into(),
orientation: orientation.into(),
radius: self.radius,
})
self.origin = origin.into();
self.orientation = orientation.into();
}
}
pub fn create_tip_flex(_node: &Node, calling_client: Arc<Client>, data: &[u8]) -> Result<()> {
#[derive(Deserialize)]
struct CreateTipInfo<'a> {
name: &'a str,
parent_path: &'a str,
transform: Transform,
radius: f32,
datamap: Option<Vec<u8>>,
}
let info: CreateTipInfo = deserialize(data)?;
let node = Node::create(&calling_client, "/input/method/tip", info.name, true);
let parent = find_spatial_parent(&calling_client, info.parent_path)?;
let transform = parse_transform(info.transform, true, true, false);
let node = node.add_to_scenegraph()?;
Spatial::add_to(&node, Some(parent), transform, false)?;
InputMethod::add_to(
&node,
InputType::Tip(Tip {
radius: info.radius,
}),
info.datamap.and_then(|datamap| Datamap::new(datamap).ok()),
)?;
node.add_local_signal("set_radius", Tip::set_radius);
Ok(())
}

231
src/nodes/items/camera.rs Normal file
View File

@@ -0,0 +1,231 @@
use super::{
create_item_acceptor_flex, register_item_ui_flex, Item, ItemAcceptor, ItemInterface, ItemType,
};
use crate::nodes::items::ITEM_ACCEPTOR_ASPECT_ALIAS_INFO;
use crate::nodes::items::ITEM_ASPECT_ALIAS_INFO;
use crate::{
core::{client::Client, registry::Registry, scenegraph::MethodResponseSender},
create_interface,
nodes::{
drawable::{
model::{MaterialWrapper, ModelPart},
shaders::UNLIT_SHADER_BYTES,
},
items::TypeInfo,
spatial::{Spatial, Transform},
Message, Node,
},
};
use color_eyre::eyre::{bail, eyre, Result};
use glam::Mat4;
use lazy_static::lazy_static;
use mint::{ColumnMatrix4, Vector2};
use once_cell::sync::OnceCell;
use parking_lot::Mutex;
use stardust_xr::schemas::flex::{deserialize, serialize};
use std::sync::Arc;
use stereokit_rust::{
material::{Material, Transparency},
shader::Shader,
sk::MainThreadToken,
system::Renderer,
tex::{Tex, TexFormat, TexType},
util::Color128,
};
use tracing::error;
pub struct TexWrapper(pub Tex);
unsafe impl Send for TexWrapper {}
unsafe impl Sync for TexWrapper {}
stardust_xr_server_codegen::codegen_item_camera_protocol!();
lazy_static! {
pub(super) static ref ITEM_TYPE_INFO_CAMERA: TypeInfo = TypeInfo {
type_name: "camera",
alias_info: CAMERA_ITEM_ASPECT_ALIAS_INFO.clone(),
ui_node_id: INTERFACE_NODE_ID,
ui: Default::default(),
items: Registry::new(),
acceptors: Registry::new(),
new_acceptor_fn: |node, acceptor, acceptor_field| {
let _ = camera_item_ui_client::create_acceptor(node, acceptor, acceptor_field);
}
};
}
struct FrameInfo {
proj_matrix: Mat4,
px_size: Vector2<u32>,
}
pub struct CameraItem {
space: Arc<Spatial>,
frame_info: Mutex<FrameInfo>,
sk_tex: OnceCell<TexWrapper>,
sk_mat: OnceCell<Arc<MaterialWrapper>>,
applied_to: Registry<ModelPart>,
apply_to: Registry<ModelPart>,
}
#[allow(unused)]
impl CameraItem {
pub fn add_to(node: &Arc<Node>, proj_matrix: Mat4, px_size: Vector2<u32>) {
Item::add_to(
node,
&ITEM_TYPE_INFO_CAMERA,
ItemType::Camera(CameraItem {
space: node.get_aspect::<Spatial>().unwrap().clone(),
frame_info: Mutex::new(FrameInfo {
proj_matrix,
px_size,
}),
sk_tex: OnceCell::new(),
sk_mat: OnceCell::new(),
applied_to: Registry::new(),
apply_to: Registry::new(),
}),
);
// <CameraItem as CameraItemAspect>::node_methods(node);
}
fn frame_flex(
node: Arc<Node>,
_calling_client: Arc<Client>,
_message: Message,
response: MethodResponseSender,
) {
response.wrap_sync(move || {
let ItemType::Camera(_camera) = &node.get_aspect::<Item>().unwrap().specialization
else {
return Err(eyre!("Wrong item type?"));
};
Ok(serialize(())?.into())
});
}
fn apply_preview_material_flex(
node: Arc<Node>,
calling_client: Arc<Client>,
message: Message,
) -> Result<()> {
let ItemType::Camera(camera) = &node.get_aspect::<Item>().unwrap().specialization else {
bail!("Wrong item type?")
};
let model_part_node =
calling_client.get_node("Model part", deserialize(&message.data).unwrap())?;
let model_part = model_part_node.get_aspect::<ModelPart>()?;
camera.applied_to.add_raw(&model_part);
camera.apply_to.add_raw(&model_part);
Ok(())
}
pub fn send_ui_item_created(&self, node: &Node, item: &Arc<Node>) {
let _ = camera_item_ui_client::create_item(node, item);
}
pub fn send_acceptor_item_created(&self, node: &Node, item: &Arc<Node>) {
let _ = camera_item_acceptor_client::capture_item(node, item);
}
pub fn update(&self, token: &MainThreadToken) {
let frame_info = self.frame_info.lock();
let sk_tex = self.sk_tex.get_or_init(|| {
TexWrapper(Tex::gen_color(
Color128::default(),
frame_info.px_size.x as i32,
frame_info.px_size.y as i32,
TexType::Rendertarget,
TexFormat::RGBA32Linear,
))
});
let sk_mat = self
.sk_mat
.get_or_try_init(|| -> Result<Arc<MaterialWrapper>> {
let shader = Shader::from_memory(UNLIT_SHADER_BYTES)?;
let mut mat = Material::new(&shader, None);
mat.get_all_param_info().set_texture("diffuse", &sk_tex.0);
mat.transparency(Transparency::Blend);
Ok(Arc::new(MaterialWrapper(mat)))
});
let Ok(sk_mat) = sk_mat else {
error!("unable to make camera item stereokit texture");
return;
};
for model_part in self.apply_to.take_valid_contents() {
model_part.replace_material(sk_mat.clone())
}
if !self.applied_to.is_empty() {
Renderer::render_to(
token,
&sk_tex.0,
self.space.global_transform(),
frame_info.proj_matrix,
None,
None,
None,
)
}
}
}
impl CameraItemAspect for CameraItem {}
impl CameraItemAcceptorAspect for ItemAcceptor {
fn capture_item(node: Arc<Node>, _calling_client: Arc<Client>, item: Arc<Node>) -> Result<()> {
super::acceptor_capture_item_flex(node, item)
}
}
pub fn update(token: &MainThreadToken) {
for camera in ITEM_TYPE_INFO_CAMERA.items.get_valid_contents() {
let ItemType::Camera(camera) = &camera.specialization else {
continue;
};
camera.update(token);
}
}
create_interface!(ItemInterface);
impl InterfaceAspect for ItemInterface {
#[doc = "Create a camera item at a specific location"]
fn create_camera_item(
_node: Arc<Node>,
calling_client: Arc<Client>,
id: u64,
parent: Arc<Node>,
transform: Transform,
proj_matrix: ColumnMatrix4<f32>,
px_size: Vector2<u32>,
) -> Result<()> {
let space = parent.get_aspect::<Spatial>()?;
let transform = transform.to_mat4(true, true, false);
let node = Node::from_id(&calling_client, id, false).add_to_scenegraph()?;
Spatial::add_to(&node, None, transform * space.global_transform(), false);
CameraItem::add_to(&node, proj_matrix.into(), px_size);
Ok(())
}
#[doc = "Register this client to manage camera items and create default 3D UI for them."]
fn register_camera_item_ui(_node: Arc<Node>, calling_client: Arc<Client>) -> Result<()> {
register_item_ui_flex(calling_client, &ITEM_TYPE_INFO_CAMERA)
}
#[doc = "Create an item acceptor to allow temporary ownership of a given type of item. Creates a node at `/item/camera/acceptor/<name>`."]
fn create_camera_item_acceptor(
_node: Arc<Node>,
calling_client: Arc<Client>,
id: u64,
parent: Arc<Node>,
transform: Transform,
field: Arc<Node>,
) -> Result<()> {
create_item_acceptor_flex(
calling_client,
id,
parent,
transform,
&ITEM_TYPE_INFO_CAMERA,
field,
)
}
}

88
src/nodes/items/environment.rs
View File

@@ -1,88 +0,0 @@
use super::{Item, ItemSpecialization, ItemType};
use crate::{
core::{
client::{Client, INTERNAL_CLIENT},
registry::Registry,
},
nodes::{
items::TypeInfo,
spatial::{find_spatial_parent, parse_transform, Spatial},
Node,
},
};
use color_eyre::eyre::{eyre, Result};
use lazy_static::lazy_static;
use nanoid::nanoid;
use serde::Deserialize;
use stardust_xr::{
schemas::flex::{deserialize, flexbuffers, serialize},
values::Transform,
};
use std::sync::Arc;
lazy_static! {
pub(super) static ref ITEM_TYPE_INFO_ENVIRONMENT: TypeInfo = TypeInfo {
type_name: "environment",
aliased_local_signals: vec!["apply_sky_tex", "apply_sky_light"],
aliased_local_methods: vec![],
aliased_remote_signals: vec![],
ui: Default::default(),
items: Registry::new(),
acceptors: Registry::new(),
};
}
pub struct EnvironmentItem {
path: String,
}
impl EnvironmentItem {
pub fn add_to(node: &Arc<Node>, path: String) {
Item::add_to(
node,
nanoid!(),
&ITEM_TYPE_INFO_ENVIRONMENT,
ItemType::Environment(EnvironmentItem { path }),
);
node.add_local_method("get_path", EnvironmentItem::get_path_flex);
}
fn get_path_flex(node: &Node, _calling_client: Arc<Client>, _data: &[u8]) -> Result<Vec<u8>> {
let ItemType::Environment(environment_item) = &node.item.get().unwrap().specialization else {
return Err(eyre!("Wrong item type?"))
};
Ok(flexbuffers::singleton(environment_item.path.as_str()))
}
}
impl ItemSpecialization for EnvironmentItem {
fn serialize_start_data(&self, id: &str) -> Vec<u8> {
serialize((id, self.path.as_str())).unwrap()
}
}
pub(super) fn create_environment_item_flex(
_node: &Node,
calling_client: Arc<Client>,
data: &[u8],
) -> Result<()> {
#[derive(Deserialize)]
struct CreateEnvironmentItemInfo<'a> {
name: &'a str,
parent_path: &'a str,
transform: Transform,
item_data: String,
}
let info: CreateEnvironmentItemInfo = deserialize(data)?;
let parent_name = format!("/item/{}/item", ITEM_TYPE_INFO_ENVIRONMENT.type_name);
let space = find_spatial_parent(&calling_client, info.parent_path)?;
let transform = parse_transform(info.transform, true, true, false);
let node =
Node::create(&INTERNAL_CLIENT, &parent_name, info.name, false).add_to_scenegraph()?;
Spatial::add_to(&node, None, transform * space.global_transform(), false)?;
EnvironmentItem::add_to(&node, info.item_data);
node.item
.get()
.unwrap()
.make_alias_named(&calling_client, &parent_name, info.name)?;
Ok(())
}

478
src/nodes/items/mod.rs
View File

@@ -1,45 +1,27 @@
mod environment;
pub mod camera;
pub mod panel;
use self::environment::{EnvironmentItem, ITEM_TYPE_INFO_ENVIRONMENT};
use super::fields::Field;
use super::spatial::{find_spatial_parent, parse_transform, Spatial};
use super::{Alias, Node};
use self::camera::CameraItem;
use self::panel::PanelItemTrait;
use super::alias::AliasList;
use super::fields::{Field, FIELD_ALIAS_INFO};
use super::spatial::Spatial;
use super::{Alias, Aspect, Node};
use crate::core::client::Client;
use crate::core::node_collections::LifeLinkedNodeMap;
use crate::core::registry::Registry;
use crate::nodes::alias::AliasInfo;
use crate::nodes::fields::find_field;
#[cfg(feature = "wayland")]
use crate::wayland::panel_item::{PanelItem, ITEM_TYPE_INFO_PANEL};
use color_eyre::eyre::{ensure, eyre, Result};
use lazy_static::lazy_static;
use nanoid::nanoid;
use crate::nodes::spatial::Transform;
use crate::nodes::spatial::SPATIAL_ASPECT_ALIAS_INFO;
use color_eyre::eyre::{ensure, Result};
use parking_lot::Mutex;
use portable_atomic::Ordering;
use serde::Deserialize;
use stardust_xr::schemas::flex::{deserialize, flexbuffers, serialize};
use stardust_xr::values::Transform;
use std::hash::Hash;
use std::ops::Deref;
use std::sync::{Arc, Weak};
lazy_static! {
static ref ITEM_ALIAS_LOCAL_SIGNALS: Vec<&'static str> = vec![
"get_bounds",
"get_transform",
"set_transform",
"set_spatial_parent",
"set_spatial_parent_in_place",
"set_zoneable",
"release",
];
static ref ITEM_ALIAS_LOCAL_METHODS: Vec<&'static str> = vec![];
static ref ITEM_ALIAS_REMOTE_SIGNALS: Vec<&'static str> = vec![];
}
stardust_xr_server_codegen::codegen_item_protocol!();
pub fn capture(item: &Arc<Item>, acceptor: &Arc<ItemAcceptor>) {
if let Some(acceptor) = item.captured_acceptor.lock().upgrade() {
release(item, Some(&acceptor));
fn capture(item: &Arc<Item>, acceptor: &Arc<ItemAcceptor>) {
if item.captured_acceptor.lock().strong_count() > 0 {
release(item);
}
*item.captured_acceptor.lock() = Arc::downgrade(acceptor);
acceptor.handle_capture(item);
@@ -47,25 +29,25 @@ pub fn capture(item: &Arc<Item>, acceptor: &Arc<ItemAcceptor>) {
ui.handle_capture_item(item, acceptor);
}
}
fn release(item: &Item, acceptor: Option<&ItemAcceptor>) {
fn release(item: &Item) {
let mut captured_acceptor = item.captured_acceptor.lock();
if let Some(acceptor) = captured_acceptor.upgrade().as_deref().or(acceptor) {
if let Some(acceptor) = captured_acceptor.upgrade().as_ref() {
*captured_acceptor = Weak::default();
acceptor.handle_release(item);
if let Some(ui) = item.type_info.ui.lock().upgrade() {
ui.handle_release_item(item, &acceptor);
ui.handle_release_item(item, acceptor);
}
}
}
pub struct TypeInfo {
pub type_name: &'static str,
pub aliased_local_signals: Vec<&'static str>,
pub aliased_local_methods: Vec<&'static str>,
pub aliased_remote_signals: Vec<&'static str>,
pub alias_info: AliasInfo,
pub ui_node_id: u64,
pub ui: Mutex<Weak<ItemUI>>,
pub items: Registry<Item>,
pub acceptors: Registry<ItemAcceptor>,
pub new_acceptor_fn: fn(node: &Node, acceptor: &Arc<Node>, acceptor_field: &Arc<Node>),
}
impl Hash for TypeInfo {
fn hash<H: std::hash::Hasher>(&self, state: &mut H) {
@@ -80,8 +62,7 @@ impl PartialEq for TypeInfo {
impl Eq for TypeInfo {}
pub struct Item {
node: Weak<Node>,
uid: String,
spatial: Arc<Spatial>,
type_info: &'static TypeInfo,
captured_acceptor: Mutex<Weak<ItemAcceptor>>,
pub specialization: ItemType,
@@ -89,115 +70,99 @@ pub struct Item {
impl Item {
pub fn add_to(
node: &Arc<Node>,
uid: String,
type_info: &'static TypeInfo,
specialization: ItemType,
) -> Arc<Self> {
let item = Item {
node: Arc::downgrade(node),
uid,
spatial: node.aspects.get::<Spatial>().unwrap(),
type_info,
captured_acceptor: Default::default(),
specialization,
};
let item = type_info.items.add(item);
node.add_local_signal("release", Item::release_flex);
<Item as ItemAspect>::add_node_members(node);
if let Some(ui) = type_info.ui.lock().upgrade() {
ui.handle_create_item(&item);
}
let _ = node.item.set(item.clone());
node.add_aspect_raw(item.clone());
if let Some(auto_acceptor) = node.get_client().and_then(|client| {
client
.startup_settings
.as_ref()
.and_then(|settings| settings.acceptors.get(type_info))
.and_then(|acceptor| acceptor.upgrade())
}) {
capture(&item, &auto_acceptor);
}
// if let Some(auto_acceptor) = node.get_client().and_then(|client| {
// client
// .state
// .as_ref()
// .and_then(|settings| settings.acceptors.get(type_info))
// .and_then(|acceptor| acceptor.upgrade())
// }) {
// capture(&item, &auto_acceptor);
// }
item
}
fn make_alias_named(
&self,
client: &Arc<Client>,
parent: &str,
name: &str,
) -> Result<Arc<Node>> {
fn make_alias(&self, client: &Arc<Client>, alias_list: &AliasList) -> Result<Arc<Node>> {
Alias::create(
&self.spatial.node().unwrap(),
client,
parent,
name,
&self.node.upgrade().unwrap(),
AliasInfo {
server_signals: [
&self.type_info.aliased_local_signals,
ITEM_ALIAS_LOCAL_SIGNALS.as_slice(),
]
.concat(),
server_methods: [
&self.type_info.aliased_local_methods,
ITEM_ALIAS_LOCAL_METHODS.as_slice(),
]
.concat(),
client_signals: [
&self.type_info.aliased_remote_signals,
ITEM_ALIAS_REMOTE_SIGNALS.as_slice(),
]
.concat(),
},
self.type_info.alias_info.clone() + ITEM_ASPECT_ALIAS_INFO.clone(),
Some(alias_list),
)
}
fn make_alias(&self, client: &Arc<Client>, parent: &str) -> Result<Arc<Node>> {
self.make_alias_named(client, parent, &self.uid)
}
fn release_flex(node: &Node, _calling_client: Arc<Client>, _data: &[u8]) -> Result<()> {
let item = node.get_aspect("Item", "item", |n| &n.item)?;
release(item, None);
}
impl Aspect for Item {
const NAME: &'static str = "Item";
}
impl ItemAspect for Item {
fn release(node: Arc<Node>, _calling_client: Arc<Client>) -> Result<()> {
let item = node.get_aspect::<Item>()?;
release(&item);
Ok(())
}
}
impl Drop for Item {
fn drop(&mut self) {
self.type_info.items.remove(self);
release(self, None);
release(self);
if let Some(ui) = self.type_info.ui.lock().upgrade() {
ui.handle_destroy_item(self);
}
}
}
pub trait ItemSpecialization {
fn serialize_start_data(&self, id: &str) -> Vec<u8>;
}
pub enum ItemType {
Environment(EnvironmentItem),
#[cfg(feature = "wayland")]
Panel(Arc<PanelItem>),
Camera(CameraItem),
Panel(Arc<dyn PanelItemTrait>),
}
impl Deref for ItemType {
type Target = dyn ItemSpecialization;
fn deref(&self) -> &Self::Target {
impl ItemType {
fn send_ui_item_created(&self, node: &Node, item: &Arc<Node>) {
match self {
ItemType::Environment(item) => item,
#[cfg(feature = "wayland")]
ItemType::Panel(item) => item.as_ref(),
ItemType::Camera(c) => c.send_ui_item_created(node, item),
ItemType::Panel(p) => p.send_ui_item_created(node, item),
}
}
fn send_acceptor_item_created(&self, node: &Node, item: &Arc<Node>) {
match self {
ItemType::Camera(c) => c.send_acceptor_item_created(node, item),
ItemType::Panel(p) => p.send_acceptor_item_created(node, item),
}
}
}
// impl Deref for ItemType {
// type Target = dyn ItemSpecialization;
// fn deref(&self) -> &Self::Target {
// match self {
// ItemType::Environment(item) => item,
// ItemType::Panel(item) => item.as_ref(),
// }
// }
// }
pub struct ItemUI {
node: Weak<Node>,
type_info: &'static TypeInfo,
item_aliases: LifeLinkedNodeMap<String>,
acceptor_aliases: LifeLinkedNodeMap<String>,
acceptor_field_aliases: LifeLinkedNodeMap<String>,
item_aliases: AliasList,
acceptor_aliases: AliasList,
acceptor_field_aliases: AliasList,
}
impl ItemUI {
fn add_to(node: &Arc<Node>, type_info: &'static TypeInfo) -> Result<()> {
@@ -209,12 +174,12 @@ impl ItemUI {
let ui = Arc::new(ItemUI {
node: Arc::downgrade(node),
type_info,
item_aliases: Default::default(),
acceptor_aliases: Default::default(),
acceptor_field_aliases: Default::default(),
item_aliases: AliasList::default(),
acceptor_aliases: AliasList::default(),
acceptor_field_aliases: AliasList::default(),
});
*type_info.ui.lock() = Arc::downgrade(&ui);
let _ = node.item_ui.set(ui.clone());
node.add_aspect_raw(ui.clone());
for item in type_info.items.get_valid_contents() {
ui.handle_create_item(&item);
@@ -224,66 +189,104 @@ impl ItemUI {
}
Ok(())
}
fn send_state(&self, state: &str, name: &str) {
let _ = self
.node
.upgrade()
.unwrap()
.send_remote_signal(state, flexbuffers::singleton(name).as_slice());
}
fn handle_create_item(&self, item: &Item) {
let Some(node) = self.node.upgrade() else { return };
let Some(client) = node.get_client() else { return };
let Some(node) = self.node.upgrade() else {
return;
};
let Some(client) = node.get_client() else {
return;
};
if let Ok(alias_node) = item.make_alias(&client, &(node.get_path().to_string() + "/item")) {
self.item_aliases.add(item.uid.clone(), &alias_node);
}
let Ok(item_alias) = item.make_alias(&client, &self.item_aliases) else {
return;
};
let _ = node.send_remote_signal(
"create_item",
&item.specialization.serialize_start_data(&item.uid),
);
}
fn handle_destroy_item(&self, item: &Item) {
self.item_aliases.remove(&item.uid);
self.send_state("destroy_item", item.uid.as_str());
item.specialization.send_ui_item_created(&node, &item_alias);
}
fn handle_capture_item(&self, item: &Item, acceptor: &ItemAcceptor) {
let Some(node) = self.node.upgrade() else { return };
let _ = node.send_remote_signal(
"capture_item",
&serialize((item.uid.as_str(), acceptor.uid.as_str())).unwrap(),
let Some(item_alias) = self.item_aliases.get_from_aspect(item) else {
return;
};
let Some(acceptor_alias) = self.acceptor_aliases.get_from_aspect(acceptor) else {
return;
};
let _ = item_ui_client::capture_item(
&self.node.upgrade().unwrap(),
item_alias.id,
acceptor_alias.id,
);
}
fn handle_release_item(&self, item: &Item, acceptor: &ItemAcceptor) {
let Some(node) = self.node.upgrade() else { return };
let _ = node.send_remote_signal(
"release_item",
&serialize((item.uid.as_str(), acceptor.uid.as_str())).unwrap(),
let Some(item_alias) = self.item_aliases.get_from_aspect(item) else {
return;
};
let Some(acceptor_alias) = self.acceptor_aliases.get_from_aspect(acceptor) else {
return;
};
let _ = item_ui_client::release_item(
&self.node.upgrade().unwrap(),
item_alias.id,
acceptor_alias.id,
);
}
fn handle_destroy_item(&self, item: &Item) {
let Some(item_alias) = self
.item_aliases
.get_from_original_node(item.spatial.node.clone())
else {
return;
};
let _ = item_ui_client::destroy_item(&self.node.upgrade().unwrap(), item_alias.id);
self.item_aliases.remove_aspect(item);
}
fn handle_create_acceptor(&self, acceptor: &ItemAcceptor) {
let Some(node) = self.node.upgrade() else { return };
let Some(client) = node.get_client() else { return };
let Some(node) = self.node.upgrade() else {
return;
};
let Some(client) = node.get_client() else {
return;
};
let Ok((alias, field_alias)) = acceptor.make_aliases(
let Some(acceptor_node) = acceptor.spatial.node() else {
return;
};
let Ok(acceptor_alias) = Alias::create(
&acceptor_node,
&client,
&format!("/item/{}/acceptor", self.type_info.type_name),
) else {return};
self.acceptor_aliases.add(acceptor.uid.clone(), &alias);
self.acceptor_field_aliases
.add(acceptor.uid.clone(), &field_alias);
let _ = node.send_remote_signal("create_acceptor", &serialize(&acceptor.uid).unwrap());
ITEM_ACCEPTOR_ASPECT_ALIAS_INFO.clone(),
Some(&self.acceptor_aliases),
) else {
return;
};
let Some(acceptor_field_node) = acceptor.field.spatial.node() else {
return;
};
let Ok(acceptor_field_alias) = Alias::create(
&acceptor_field_node,
&client,
FIELD_ALIAS_INFO.clone(),
Some(&self.acceptor_aliases),
) else {
return;
};
(acceptor.type_info.new_acceptor_fn)(&node, &acceptor_alias, &acceptor_field_alias);
}
fn handle_destroy_acceptor(&self, acceptor: &ItemAcceptor) {
self.send_state("destroy_acceptor", acceptor.uid.as_str());
self.acceptor_aliases.remove(&acceptor.uid);
self.acceptor_field_aliases.remove(&acceptor.uid);
let acceptor_alias = self.acceptor_aliases.get_from_aspect(acceptor).unwrap();
let _ = item_ui_client::destroy_acceptor(&self.node.upgrade().unwrap(), acceptor_alias.id);
self.acceptor_aliases
.remove_aspect(acceptor.spatial.as_ref());
self.acceptor_field_aliases
.remove_aspect(acceptor.field.as_ref());
}
}
impl Aspect for ItemUI {
const NAME: &'static str = "Item";
}
impl Drop for ItemUI {
fn drop(&mut self) {
*self.type_info.ui.lock() = Weak::new();
@@ -291,93 +294,63 @@ impl Drop for ItemUI {
}
pub struct ItemAcceptor {
uid: String,
node: Weak<Node>,
spatial: Arc<Spatial>,
pub type_info: &'static TypeInfo,
field: Arc<Field>,
accepted_aliases: LifeLinkedNodeMap<String>,
accepted_aliases: AliasList,
accepted_registry: Registry<Item>,
}
impl ItemAcceptor {
fn add_to(node: &Arc<Node>, type_info: &'static TypeInfo, field: Arc<Field>) {
let acceptor = type_info.acceptors.add(ItemAcceptor {
uid: nanoid!(),
node: Arc::downgrade(node),
spatial: node.get_aspect::<Spatial>().unwrap(),
type_info,
field,
accepted_aliases: Default::default(),
accepted_aliases: AliasList::default(),
accepted_registry: Registry::new(),
});
node.add_local_signal("capture", ItemAcceptor::capture_flex);
if let Some(ui) = type_info.ui.lock().upgrade() {
ui.handle_create_acceptor(&acceptor);
}
let _ = node.item_acceptor.set(acceptor);
node.add_aspect_raw(acceptor.clone());
}
fn capture_flex(node: &Node, calling_client: Arc<Client>, data: &[u8]) -> Result<()> {
if !node.enabled.load(Ordering::Relaxed) {
return Ok(());
}
let acceptor = node.item_acceptor.get().unwrap();
let item_path: &str = deserialize(data)?;
let item_node = calling_client.get_node("Item", item_path)?;
let item = item_node.get_aspect("Item", "item", |n| &n.item)?;
capture(item, acceptor);
Ok(())
}
fn make_aliases(&self, client: &Arc<Client>, parent: &str) -> Result<(Arc<Node>, Arc<Node>)> {
let acceptor_node = &self.node.upgrade().unwrap();
let acceptor_alias = Alias::create(
client,
parent,
&self.uid,
acceptor_node,
AliasInfo {
server_signals: vec!["capture"],
..Default::default()
},
)?;
let acceptor_field_alias = Alias::create(
client,
acceptor_alias.get_path(),
"field",
&self.field.spatial_ref().node.upgrade().unwrap(),
AliasInfo::default(),
)?;
Ok((acceptor_alias, acceptor_field_alias))
}
fn handle_capture(&self, item: &Arc<Item>) {
let Some(node) = self.node.upgrade() else { return };
let Some(client) = node.get_client() else { return };
let Some(node) = self.spatial.node() else {
return;
};
let Some(client) = node.get_client() else {
return;
};
self.accepted_registry.add_raw(item);
if let Ok(alias_node) = item.make_alias(&client, &node.path) {
self.accepted_aliases.add(item.uid.clone(), &alias_node);
}
let _ = node.send_remote_signal(
"capture",
&item.specialization.serialize_start_data(&item.uid),
);
let Ok(alias_node) = item.make_alias(&client, &self.accepted_aliases) else {
return;
};
item.specialization
.send_acceptor_item_created(&node, &alias_node);
}
fn handle_release(&self, item: &Item) {
let Some(node) = self.node.upgrade() else { return };
self.accepted_registry.remove(item);
self.accepted_aliases.remove(&item.uid);
let _ = node.send_remote_signal("release", &serialize(&item.uid).unwrap());
self.accepted_aliases.remove_aspect(item);
let Some(node) = self.spatial.node() else {
return;
};
let alias = self.accepted_aliases.get_from_aspect(item).unwrap();
let _ = item_acceptor_client::release_item(&node, alias.id);
}
}
impl Aspect for ItemAcceptor {
const NAME: &'static str = "ItemAcceptor";
}
impl ItemAcceptorAspect for ItemAcceptor {}
impl Drop for ItemAcceptor {
fn drop(&mut self) {
self.type_info.acceptors.remove(self);
for item in self.accepted_registry.get_valid_contents() {
release(&item, Some(self));
release(&item);
}
if let Some(ui) = self.type_info.ui.lock().upgrade() {
ui.handle_destroy_acceptor(self);
@@ -385,62 +358,39 @@ impl Drop for ItemAcceptor {
}
}
pub fn create_interface(client: &Arc<Client>) -> Result<()> {
let node = Node::create(client, "", "item", false);
node.add_local_signal(
"create_environment_item",
environment::create_environment_item_flex,
);
node.add_local_signal("register_item_ui", register_item_ui_flex);
node.add_local_signal("create_item_acceptor", create_item_acceptor_flex);
node.add_to_scenegraph().map(|_| ())
}
fn type_info(name: &str) -> Result<&'static TypeInfo> {
match name {
"environment" => Ok(&ITEM_TYPE_INFO_ENVIRONMENT),
#[cfg(feature = "wayland")]
"panel" => Ok(&ITEM_TYPE_INFO_PANEL),
_ => Err(eyre!("Invalid item type")),
}
}
pub fn register_item_ui_flex(_node: &Node, calling_client: Arc<Client>, data: &[u8]) -> Result<()> {
#[derive(Deserialize)]
struct RegisterItemUIInfo<'a> {
item_type: &'a str,
}
let info: RegisterItemUIInfo = deserialize(data)?;
let type_info = type_info(info.item_type)?;
let ui =
Node::create(&calling_client, "/item", type_info.type_name, true).add_to_scenegraph()?;
pub fn register_item_ui_flex(
calling_client: Arc<Client>,
type_info: &'static TypeInfo,
) -> Result<()> {
let ui = Node::from_id(&calling_client, type_info.ui_node_id, true).add_to_scenegraph()?;
ItemUI::add_to(&ui, type_info)?;
Ok(())
}
fn create_item_acceptor_flex(
calling_client: Arc<Client>,
id: u64,
parent: Arc<Node>,
transform: Transform,
type_info: &'static TypeInfo,
field: Arc<Node>,
) -> Result<()> {
let space = parent.get_aspect::<Spatial>()?;
let field = field.get_aspect::<Field>()?;
let transform = transform.to_mat4(true, true, false);
fn create_item_acceptor_flex(_node: &Node, calling_client: Arc<Client>, data: &[u8]) -> Result<()> {
#[derive(Deserialize)]
struct CreateItemAcceptorInfo<'a> {
name: &'a str,
parent_path: &'a str,
transform: Transform,
field_path: &'a str,
item_type: &'a str,
}
let info: CreateItemAcceptorInfo = deserialize(data)?;
let space = find_spatial_parent(&calling_client, info.parent_path)?;
let transform = parse_transform(info.transform, true, true, false);
let field = find_field(&calling_client, info.field_path)?;
let type_info = type_info(info.item_type)?;
let node = Node::create(
&calling_client,
&format!("/item/{}/acceptor", type_info.type_name),
info.name,
true,
)
.add_to_scenegraph()?;
Spatial::add_to(&node, Some(space), transform, false)?;
let node = Node::from_id(&calling_client, id, true).add_to_scenegraph()?;
Spatial::add_to(&node, Some(space.clone()), transform, false);
ItemAcceptor::add_to(&node, type_info, field);
Ok(())
}
fn acceptor_capture_item_flex(node: Arc<Node>, item: Arc<Node>) -> Result<()> {
let acceptor = node.get_aspect::<ItemAcceptor>()?;
let item = item.get_aspect::<Item>()?;
capture(&item, &acceptor);
Ok(())
}
struct ItemInterface;
// create_interface!(ItemInterface);

463
src/nodes/items/panel.rs Normal file
View File

@@ -0,0 +1,463 @@
use super::{create_item_acceptor_flex, register_item_ui_flex, ItemAcceptor, ItemInterface};
use crate::nodes::items::ITEM_ACCEPTOR_ASPECT_ALIAS_INFO;
use crate::nodes::items::ITEM_ASPECT_ALIAS_INFO;
use crate::{
core::{
client::{get_env, state, Client, INTERNAL_CLIENT},
registry::Registry,
},
create_interface,
nodes::{
drawable::model::ModelPart,
items::{Item, ItemType, TypeInfo},
spatial::{Spatial, Transform},
Node,
},
};
use color_eyre::eyre::Result;
use glam::Mat4;
use lazy_static::lazy_static;
use mint::Vector2;
use std::sync::{Arc, Weak};
use tracing::{debug, info};
stardust_xr_server_codegen::codegen_item_panel_protocol!();
impl Default for Geometry {
fn default() -> Self {
Geometry {
origin: [0, 0].into(),
size: [0, 0].into(),
}
}
}
lazy_static! {
pub static ref ITEM_TYPE_INFO_PANEL: TypeInfo = TypeInfo {
type_name: "panel",
alias_info: PANEL_ITEM_ASPECT_ALIAS_INFO.clone(),
ui_node_id: INTERFACE_NODE_ID,
ui: Default::default(),
items: Registry::new(),
acceptors: Registry::new(),
new_acceptor_fn: |node, acceptor, acceptor_field| {
let _ = panel_item_ui_client::create_acceptor(node, acceptor, acceptor_field);
}
};
}
pub trait Backend: Send + Sync + 'static {
fn start_data(&self) -> Result<PanelItemInitData>;
fn apply_cursor_material(&self, model_part: &Arc<ModelPart>);
fn apply_surface_material(&self, surface: SurfaceId, model_part: &Arc<ModelPart>);
fn close_toplevel(&self);
fn auto_size_toplevel(&self);
fn set_toplevel_size(&self, size: Vector2<u32>);
fn set_toplevel_focused_visuals(&self, focused: bool);
fn pointer_motion(&self, surface: &SurfaceId, position: Vector2<f32>);
fn pointer_button(&self, surface: &SurfaceId, button: u32, pressed: bool);
fn pointer_scroll(
&self,
surface: &SurfaceId,
scroll_distance: Option<Vector2<f32>>,
scroll_steps: Option<Vector2<f32>>,
);
fn keyboard_keys(&self, surface: &SurfaceId, keymap_id: u64, keys: Vec<i32>);
fn touch_down(&self, surface: &SurfaceId, id: u32, position: Vector2<f32>);
fn touch_move(&self, id: u32, position: Vector2<f32>);
fn touch_up(&self, id: u32);
fn reset_input(&self);
}
pub fn panel_item_from_node(node: &Node) -> Option<Arc<dyn PanelItemTrait>> {
let ItemType::Panel(panel_item) = &node.get_aspect::<Item>().ok()?.specialization else {
return None;
};
Some(panel_item.clone())
}
pub trait PanelItemTrait: Send + Sync + 'static {
fn backend(&self) -> &dyn Backend;
fn send_ui_item_created(&self, node: &Node, item: &Arc<Node>);
fn send_acceptor_item_created(&self, node: &Node, item: &Arc<Node>);
}
pub struct PanelItem<B: Backend> {
pub node: Weak<Node>,
pub backend: Box<B>,
}
impl<B: Backend> PanelItem<B> {
pub fn create(backend: Box<B>, pid: Option<i32>) -> (Arc<Node>, Arc<PanelItem<B>>) {
debug!(?pid, "Create panel item");
let startup_settings = pid
.and_then(|pid| get_env(pid).ok())
.and_then(|env| state(&env));
let node = Arc::new(Node::generate(&INTERNAL_CLIENT, true));
let spatial = Spatial::add_to(&node, None, Mat4::IDENTITY, false);
if let Some(startup_settings) = &startup_settings {
spatial.set_local_transform(startup_settings.root);
}
let panel_item = Arc::new(PanelItem {
node: Arc::downgrade(&node),
backend,
});
let generic_panel_item: Arc<dyn PanelItemTrait> = panel_item.clone();
Item::add_to(
&node,
&ITEM_TYPE_INFO_PANEL,
ItemType::Panel(generic_panel_item),
);
<Self as PanelItemAspect>::add_node_members(&node);
(node, panel_item)
}
}
// Remote signals
#[allow(unused)]
impl<B: Backend> PanelItem<B> {
pub fn toplevel_parent_changed(&self, parent: u64) {
let Some(node) = self.node.upgrade() else {
return;
};
panel_item_client::toplevel_parent_changed(&node, parent);
}
pub fn toplevel_title_changed(&self, title: &str) {
let Some(node) = self.node.upgrade() else {
return;
};
panel_item_client::toplevel_title_changed(&node, title);
}
pub fn toplevel_app_id_changed(&self, app_id: &str) {
let Some(node) = self.node.upgrade() else {
return;
};
panel_item_client::toplevel_app_id_changed(&node, app_id);
}
pub fn toplevel_fullscreen_active(&self, active: bool) {
let Some(node) = self.node.upgrade() else {
return;
};
panel_item_client::toplevel_fullscreen_active(&node, active);
}
pub fn toplevel_move_request(&self) {
let Some(node) = self.node.upgrade() else {
return;
};
panel_item_client::toplevel_move_request(&node);
}
pub fn toplevel_resize_request(&self, up: bool, down: bool, left: bool, right: bool) {
let Some(node) = self.node.upgrade() else {
return;
};
panel_item_client::toplevel_resize_request(&node, up, down, left, right);
}
pub fn toplevel_size_changed(&self, size: Vector2<u32>) {
let Some(node) = self.node.upgrade() else {
return;
};
panel_item_client::toplevel_size_changed(&node, size);
}
pub fn set_cursor(&self, geometry: Option<Geometry>) {
let Some(node) = self.node.upgrade() else {
return;
};
if let Some(geometry) = geometry {
panel_item_client::set_cursor(&node, &geometry);
} else {
panel_item_client::hide_cursor(&node);
}
}
pub fn create_child(&self, id: u64, info: &ChildInfo) {
let Some(node) = self.node.upgrade() else {
return;
};
panel_item_client::create_child(&node, id, info);
}
pub fn reposition_child(&self, id: u64, geometry: &Geometry) {
let Some(node) = self.node.upgrade() else {
return;
};
panel_item_client::reposition_child(&node, id, geometry);
}
pub fn destroy_child(&self, id: u64) {
let Some(node) = self.node.upgrade() else {
return;
};
panel_item_client::destroy_child(&node, id);
}
}
// make these stupid vectors u32 in the protocol somehow!!!!!!!1
#[allow(unused)]
impl<B: Backend> PanelItemAspect for PanelItem<B> {
#[doc = "Apply the cursor as a material to a model."]
fn apply_cursor_material(
node: Arc<Node>,
_calling_client: Arc<Client>,
model_part: Arc<Node>,
) -> Result<()> {
let Some(panel_item) = panel_item_from_node(&node) else {
return Ok(());
};
let model_part = model_part.get_aspect::<ModelPart>()?;
panel_item.backend().apply_cursor_material(&model_part);
Ok(())
}
#[doc = "Apply a surface's visuals as a material to a model."]
fn apply_surface_material(
node: Arc<Node>,
calling_client: Arc<Client>,
surface: SurfaceId,
model_part: Arc<Node>,
) -> Result<()> {
let Some(panel_item) = panel_item_from_node(&node) else {
return Ok(());
};
let model_part = model_part.get_aspect::<ModelPart>()?;
panel_item
.backend()
.apply_surface_material(surface, &model_part);
Ok(())
}
#[doc = "Try to close the toplevel.\n \n The panel item UI handler or panel item acceptor will drop the panel item if this succeeds."]
fn close_toplevel(node: Arc<Node>, _calling_client: Arc<Client>) -> Result<()> {
let Some(panel_item) = panel_item_from_node(&node) else {
return Ok(());
};
panel_item.backend().close_toplevel();
Ok(())
}
#[doc = "Request a resize of the surface to whatever size the 2D app wants."]
fn auto_size_toplevel(node: Arc<Node>, _calling_client: Arc<Client>) -> Result<()> {
let Some(panel_item) = panel_item_from_node(&node) else {
return Ok(());
};
panel_item.backend().auto_size_toplevel();
Ok(())
}
#[doc = "Request a resize of the surface (in pixels)."]
fn set_toplevel_size(
node: Arc<Node>,
_calling_client: Arc<Client>,
size: mint::Vector2<u32>,
) -> Result<()> {
let Some(panel_item) = panel_item_from_node(&node) else {
return Ok(());
};
panel_item.backend().set_toplevel_size(size);
Ok(())
}
#[doc = "Tell the toplevel to appear focused visually if true, or unfocused if false."]
fn set_toplevel_focused_visuals(
node: Arc<Node>,
_calling_client: Arc<Client>,
focused: bool,
) -> Result<()> {
let Some(panel_item) = panel_item_from_node(&node) else {
return Ok(());
};
panel_item.backend().set_toplevel_focused_visuals(focused);
Ok(())
}
#[doc = "Send an event to set the pointer's position (in pixels, relative to top-left of surface). This will activate the pointer."]
fn pointer_motion(
node: Arc<Node>,
_calling_client: Arc<Client>,
surface: SurfaceId,
position: mint::Vector2<f32>,
) -> Result<()> {
let Some(panel_item) = panel_item_from_node(&node) else {
return Ok(());
};
panel_item.backend().pointer_motion(&surface, position);
Ok(())
}
#[doc = "Send an event to set a pointer button's state if the pointer's active. The `button` is from the `input_event_codes` crate (e.g. BTN_LEFT for left click)."]
fn pointer_button(
node: Arc<Node>,
_calling_client: Arc<Client>,
surface: SurfaceId,
button: u32,
pressed: bool,
) -> Result<()> {
let Some(panel_item) = panel_item_from_node(&node) else {
return Ok(());
};
panel_item
.backend()
.pointer_button(&surface, button, pressed);
Ok(())
}
#[doc = "Send an event to scroll the pointer if it's active.\nScroll distance is a value in pixels corresponding to the `distance` the surface should be scrolled.\nScroll steps is a value in columns/rows corresponding to the wheel clicks of a mouse or such. This also supports fractions of a wheel click."]
fn pointer_scroll(
node: Arc<Node>,
_calling_client: Arc<Client>,
surface: SurfaceId,
scroll_distance: mint::Vector2<f32>,
scroll_steps: mint::Vector2<f32>,
) -> Result<()> {
let Some(panel_item) = panel_item_from_node(&node) else {
return Ok(());
};
panel_item
.backend()
.pointer_scroll(&surface, Some(scroll_distance), Some(scroll_steps));
Ok(())
}
#[doc = "Send an event to stop scrolling the pointer."]
fn pointer_stop_scroll(
node: Arc<Node>,
_calling_client: Arc<Client>,
surface: SurfaceId,
) -> Result<()> {
let Some(panel_item) = panel_item_from_node(&node) else {
return Ok(());
};
panel_item.backend().pointer_scroll(&surface, None, None);
Ok(())
}
#[doc = "Send a series of key presses and releases (positive keycode for pressed, negative for released)."]
fn keyboard_keys(
node: Arc<Node>,
_calling_client: Arc<Client>,
surface: SurfaceId,
keymap_id: u64,
keys: Vec<i32>,
) -> Result<()> {
let Some(panel_item) = panel_item_from_node(&node) else {
return Ok(());
};
panel_item
.backend()
.keyboard_keys(&surface, keymap_id, keys);
Ok(())
}
#[doc = "Put a touch down on this surface with the unique ID `uid` at `position` (in pixels) from top left corner of the surface."]
fn touch_down(
node: Arc<Node>,
_calling_client: Arc<Client>,
surface: SurfaceId,
uid: u32,
position: mint::Vector2<f32>,
) -> Result<()> {
let Some(panel_item) = panel_item_from_node(&node) else {
return Ok(());
};
panel_item.backend().touch_down(&surface, uid, position);
Ok(())
}
#[doc = "Move an existing touch point."]
fn touch_move(
node: Arc<Node>,
_calling_client: Arc<Client>,
uid: u32,
position: mint::Vector2<f32>,
) -> Result<()> {
let Some(panel_item) = panel_item_from_node(&node) else {
return Ok(());
};
panel_item.backend().touch_move(uid, position);
Ok(())
}
#[doc = "Release a touch from its surface."]
fn touch_up(node: Arc<Node>, _calling_client: Arc<Client>, uid: u32) -> Result<()> {
let Some(panel_item) = panel_item_from_node(&node) else {
return Ok(());
};
panel_item.backend().touch_up(uid);
Ok(())
}
#[doc = "Reset all input, such as pressed keys and pointer clicks and touches. Useful for when it's newly captured into an item acceptor to make sure no input gets stuck."]
fn reset_input(node: Arc<Node>, _calling_client: Arc<Client>) -> Result<()> {
let Some(panel_item) = panel_item_from_node(&node) else {
return Ok(());
};
panel_item.backend().reset_input();
Ok(())
}
}
impl PanelItemAcceptorAspect for ItemAcceptor {
fn capture_item(node: Arc<Node>, _calling_client: Arc<Client>, item: Arc<Node>) -> Result<()> {
super::acceptor_capture_item_flex(node, item)
}
}
impl<B: Backend> PanelItemTrait for PanelItem<B> {
fn backend(&self) -> &dyn Backend {
self.backend.as_ref()
}
fn send_ui_item_created(&self, node: &Node, item: &Arc<Node>) {
let Ok(init_data) = self.backend.start_data() else {
return;
};
let _ = panel_item_ui_client::create_item(node, item, init_data);
}
fn send_acceptor_item_created(&self, node: &Node, item: &Arc<Node>) {
let Ok(init_data) = self.backend.start_data() else {
return;
};
let _ = panel_item_acceptor_client::capture_item(node, item, init_data);
}
}
impl<B: Backend> Drop for PanelItem<B> {
fn drop(&mut self) {
// Dropped panel item, basically just a debug breakpoint place
info!("Dropped panel item");
}
}
create_interface!(ItemInterface);
impl InterfaceAspect for ItemInterface {
#[doc = "Register this client to manage the items of a certain type and create default 3D UI for them."]
fn register_panel_item_ui(_node: Arc<Node>, calling_client: Arc<Client>) -> Result<()> {
register_item_ui_flex(calling_client, &ITEM_TYPE_INFO_PANEL)
}
#[doc = "Create an item acceptor to allow temporary ownership of a given type of item. Creates a node at `/item/<item_type>/acceptor/<name>`."]
fn create_panel_item_acceptor(
_node: Arc<Node>,
calling_client: Arc<Client>,
id: u64,
parent: Arc<Node>,
transform: Transform,
field: Arc<Node>,
) -> Result<()> {
create_item_acceptor_flex(
calling_client,
id,
parent,
transform,
&ITEM_TYPE_INFO_PANEL,
field,
)
}
}

417
src/nodes/mod.rs
View File

@@ -3,132 +3,97 @@ pub mod audio;
pub mod data;
pub mod drawable;
pub mod fields;
pub mod hmd;
pub mod input;
pub mod items;
pub mod root;
pub mod spatial;
pub mod startup;
use color_eyre::eyre::{eyre, Result};
use core::hash::BuildHasherDefault;
use dashmap::DashMap;
use nanoid::nanoid;
use once_cell::sync::OnceCell;
use parking_lot::Mutex;
use portable_atomic::{AtomicBool, Ordering};
use rustc_hash::FxHasher;
use stardust_xr::messenger::MessageSenderHandle;
use stardust_xr::scenegraph::ScenegraphError;
use stardust_xr::schemas::flex::deserialize;
use std::fmt::Debug;
use std::sync::{Arc, Weak};
use std::vec::Vec;
use tracing::{debug_span, instrument};
use crate::core::client::Client;
use crate::core::registry::Registry;
use self::alias::Alias;
use self::audio::Sound;
use self::data::{PulseReceiver, PulseSender};
use self::drawable::Drawable;
use self::fields::Field;
use self::input::{InputHandler, InputMethod};
use self::items::{Item, ItemAcceptor, ItemUI};
use self::spatial::zone::Zone;
use self::spatial::Spatial;
use self::startup::StartupSettings;
use crate::core::client::Client;
use crate::core::registry::Registry;
use crate::core::scenegraph::MethodResponseSender;
use color_eyre::eyre::{eyre, Result};
use parking_lot::Mutex;
use portable_atomic::{AtomicBool, Ordering};
use rustc_hash::FxHashMap;
use serde::{de::DeserializeOwned, Serialize};
use spatial::Spatial;
use stardust_xr::messenger::MessageSenderHandle;
use stardust_xr::scenegraph::ScenegraphError;
use stardust_xr::schemas::flex::{deserialize, serialize};
use std::any::{Any, TypeId};
use std::fmt::Debug;
use std::os::fd::OwnedFd;
use std::sync::{Arc, Weak};
use std::vec::Vec;
pub type Signal = fn(&Node, Arc<Client>, &[u8]) -> Result<()>;
pub type Method = fn(&Node, Arc<Client>, &[u8]) -> Result<Vec<u8>>;
pub struct Node {
pub enabled: Arc<AtomicBool>,
pub(super) uid: String,
path: String,
client: Weak<Client>,
message_sender_handle: Option<MessageSenderHandle>,
// trailing_slash_pos: usize,
local_signals: DashMap<String, Signal, BuildHasherDefault<FxHasher>>,
local_methods: DashMap<String, Method, BuildHasherDefault<FxHasher>>,
destroyable: bool,
pub alias: OnceCell<Arc<Alias>>,
aliases: Registry<Alias>,
pub spatial: OnceCell<Arc<Spatial>>,
pub field: OnceCell<Arc<Field>>,
pub zone: OnceCell<Arc<Zone>>,
// Data
pub pulse_sender: OnceCell<Arc<PulseSender>>,
pub pulse_receiver: OnceCell<Arc<PulseReceiver>>,
// Drawable
pub drawable: OnceCell<Drawable>,
// Input
pub input_method: OnceCell<Arc<InputMethod>>,
pub input_handler: OnceCell<Arc<InputHandler>>,
// Item
pub item: OnceCell<Arc<Item>>,
pub item_acceptor: OnceCell<Arc<ItemAcceptor>>,
pub item_ui: OnceCell<Arc<ItemUI>>,
// Sound
pub sound: OnceCell<Arc<Sound>>,
// Startup
pub startup_settings: OnceCell<Mutex<StartupSettings>>,
#[derive(Default)]
pub struct Message {
pub data: Vec<u8>,
pub fds: Vec<OwnedFd>,
}
impl From<Vec<u8>> for Message {
fn from(data: Vec<u8>) -> Self {
Message {
data,
fds: Vec::new(),
}
}
}
impl AsRef<[u8]> for Message {
fn as_ref(&self) -> &[u8] {
&self.data
}
}
pub type Signal = fn(Arc<Node>, Arc<Client>, Message) -> Result<()>;
pub type Method = fn(Arc<Node>, Arc<Client>, Message, MethodResponseSender);
stardust_xr_server_codegen::codegen_node_protocol!();
pub struct OwnedNode(pub Arc<Node>);
impl Drop for OwnedNode {
fn drop(&mut self) {
self.0.destroy();
}
}
pub struct Node {
enabled: AtomicBool,
id: u64,
client: Weak<Client>,
message_sender_handle: Option<MessageSenderHandle>,
local_signals: Mutex<FxHashMap<u64, Signal>>,
local_methods: Mutex<FxHashMap<u64, Method>>,
aliases: Registry<Alias>,
aspects: Aspects,
destroyable: bool,
}
impl Node {
pub fn get_client(&self) -> Option<Arc<Client>> {
self.client.upgrade()
}
// pub fn get_name(&self) -> &str {
// &self.path[self.trailing_slash_pos + 1..]
// }
pub fn get_path(&self) -> &str {
self.path.as_str()
pub fn get_id(&self) -> u64 {
self.id
}
pub fn create(client: &Arc<Client>, parent: &str, name: &str, destroyable: bool) -> Self {
let mut path = parent.to_string();
path.push('/');
path.push_str(name);
pub fn generate(client: &Arc<Client>, destroyable: bool) -> Self {
Self::from_id(client, client.generate_id(), destroyable)
}
pub fn from_id(client: &Arc<Client>, id: u64, destroyable: bool) -> Self {
let node = Node {
enabled: Arc::new(AtomicBool::new(true)),
uid: nanoid!(),
enabled: AtomicBool::new(true),
client: Arc::downgrade(client),
message_sender_handle: client.message_sender_handle.clone(),
path,
// trailing_slash_pos: parent.len(),
id,
local_signals: Default::default(),
local_methods: Default::default(),
aliases: Default::default(),
aspects: Default::default(),
destroyable,
alias: OnceCell::new(),
aliases: Registry::new(),
spatial: OnceCell::new(),
field: OnceCell::new(),
zone: OnceCell::new(),
pulse_sender: OnceCell::new(),
pulse_receiver: OnceCell::new(),
drawable: OnceCell::new(),
input_method: OnceCell::new(),
input_handler: OnceCell::new(),
item: OnceCell::new(),
item_acceptor: OnceCell::new(),
item_ui: OnceCell::new(),
sound: OnceCell::new(),
startup_settings: OnceCell::new(),
};
node.add_local_signal("set_enabled", Node::set_enabled_flex);
node.add_local_signal("destroy", Node::destroy_flex);
<Node as OwnedAspect>::add_node_members(&node);
node
}
pub fn add_to_scenegraph(self) -> Result<Arc<Node>> {
@@ -138,141 +103,229 @@ impl Node {
.scenegraph
.add_node(self))
}
pub fn add_to_scenegraph_owned(self) -> Result<OwnedNode> {
Ok(OwnedNode(
self.get_client()
.ok_or_else(|| eyre!("Internal: Unable to get client"))?
.scenegraph
.add_node(self),
))
}
pub fn enabled(&self) -> bool {
self.enabled.load(Ordering::Relaxed)
&& if let Ok(spatial) = self.get_aspect::<Spatial>() {
spatial
.global_transform()
.to_scale_rotation_translation()
.0
.length_squared() > 0.0
} else {
true
}
}
pub fn set_enabled(&self, enabled: bool) {
self.enabled.store(enabled, Ordering::Relaxed)
}
pub fn destroy(&self) {
if let Some(client) = self.get_client() {
client.scenegraph.remove_node(self.get_path());
client.scenegraph.remove_node(self.get_id());
}
}
pub fn set_enabled_flex(node: &Node, _calling_client: Arc<Client>, data: &[u8]) -> Result<()> {
node.enabled.store(deserialize(data)?, Ordering::Relaxed);
Ok(())
// very much up for debate if we should allow this, as you can match objects using this
// pub fn get_client_pid_flex(
// node: Arc<Node>,
// _calling_client: Arc<Client>,
// _message: Message,
// ) -> Result<Message> {
// let client = node
// .client
// .upgrade()
// .ok_or_else(|| eyre!("Could not get client for node?"))?;
// let pid = client.pid.ok_or_else(|| eyre!("Client PID is unknown"))?;
// Ok(serialize(pid)?.into())
// }
pub fn add_local_signal(&self, id: u64, signal: Signal) {
self.local_signals.lock().insert(id, signal);
}
pub fn destroy_flex(node: &Node, _calling_client: Arc<Client>, _data: &[u8]) -> Result<()> {
if node.destroyable {
node.destroy();
}
Ok(())
pub fn add_local_method(&self, id: u64, method: Method) {
self.local_methods.lock().insert(id, method);
}
pub fn add_local_signal(&self, name: &str, signal: Signal) {
self.local_signals.insert(name.to_string(), signal);
pub fn add_aspect<A: Aspect>(&self, aspect: A) -> Arc<A> {
self.aspects.add(aspect)
}
pub fn add_local_method(&self, name: &str, method: Method) {
self.local_methods.insert(name.to_string(), method);
pub fn add_aspect_raw<A: Aspect>(&self, aspect: Arc<A>) {
self.aspects.add_raw(aspect)
}
pub fn get_aspect<F, T>(
&self,
node_name: &'static str,
aspect_type: &'static str,
aspect_fn: F,
) -> Result<&T>
where
F: FnOnce(&Node) -> &OnceCell<T>,
{
aspect_fn(self)
.get()
.ok_or_else(|| eyre!("{} is not a {} node", node_name, aspect_type))
pub fn get_aspect<A: Aspect>(&self) -> Result<Arc<A>> {
self.aspects.get()
}
pub fn send_local_signal(
&self,
self: Arc<Self>,
calling_client: Arc<Client>,
method: &str,
data: &[u8],
method: u64,
message: Message,
) -> Result<(), ScenegraphError> {
if let Some(alias) = self.alias.get() {
if !alias.info.server_signals.iter().any(|e| e == &method) {
if let Ok(alias) = self.get_aspect::<Alias>() {
if !alias.info.server_signals.iter().any(|e| *e == method) {
return Err(ScenegraphError::SignalNotFound);
}
alias
.original
.upgrade()
.ok_or(ScenegraphError::BrokenAlias)?
.send_local_signal(calling_client, method, data)
.send_local_signal(calling_client, method, message)
} else {
let signal = self
.local_signals
.get(method)
.lock()
.get(&method)
.cloned()
.ok_or(ScenegraphError::SignalNotFound)?;
signal(self, calling_client, data).map_err(|error| ScenegraphError::SignalError {
signal(self, calling_client, message).map_err(|error| ScenegraphError::SignalError {
error: error.to_string(),
})
}
}
pub fn execute_local_method(
&self,
self: Arc<Self>,
calling_client: Arc<Client>,
method: &str,
data: &[u8],
) -> Result<Vec<u8>, ScenegraphError> {
if let Some(alias) = self.alias.get() {
if !alias.info.server_methods.iter().any(|e| e == &method) {
return Err(ScenegraphError::MethodNotFound);
method: u64,
message: Message,
response: MethodResponseSender,
) {
if let Ok(alias) = self.get_aspect::<Alias>() {
if !alias.info.server_methods.iter().any(|e| *e == method) {
response.send(Err(ScenegraphError::MethodNotFound));
return;
}
alias
.original
.upgrade()
.ok_or(ScenegraphError::BrokenAlias)?
.execute_local_method(calling_client, method, data)
let Some(alias) = alias.original.upgrade() else {
response.send(Err(ScenegraphError::BrokenAlias));
return;
};
alias.execute_local_method(
calling_client,
method,
Message {
data: message.data.clone(),
fds: Vec::new(),
},
response,
)
} else {
let method = self
.local_methods
.get(method)
.ok_or(ScenegraphError::MethodNotFound)?;
debug_span!("Handle method").in_scope(|| {
method(self, calling_client, data).map_err(|error| ScenegraphError::MethodError {
error: error.to_string(),
})
})
let Some(method) = self.local_methods.lock().get(&method).cloned() else {
response.send(Err(ScenegraphError::MethodNotFound));
return;
};
method(self, calling_client, message, response);
}
}
#[instrument(level = "debug", skip_all)]
pub fn send_remote_signal(&self, method: &str, data: &[u8]) -> Result<()> {
pub fn send_remote_signal(&self, method: u64, message: impl Into<Message>) -> Result<()> {
let message = message.into();
self.aliases
.get_valid_contents()
.iter()
.filter(|alias| alias.info.client_signals.iter().any(|e| e == &method))
.filter_map(|alias| alias.node.upgrade())
.for_each(|node| {
let _ = node.send_remote_signal(method, data);
// Beware! file descriptors will not be sent to aliases!!!
let _ = node.send_remote_signal(
method,
Message {
data: message.data.clone(),
fds: Vec::new(),
},
);
});
let path = self.path.clone();
let method = method.to_string();
let data = data.to_vec();
if let Some(handle) = self.message_sender_handle.as_ref() {
handle.signal(path.as_str(), method.as_str(), data.as_slice())?;
handle.signal(self.id, method, &message.data, message.fds)?;
}
Ok(())
}
// #[instrument(level = "debug", skip_all)]
// pub fn execute_remote_method(
// &self,
// method: &str,
// data: Vec<u8>,
// ) -> Result<impl Future<Output = Result<Vec<u8>>>> {
// let message_sender_handle = self
// .message_sender_handle
// .as_ref()
// .ok_or(eyre!("Messenger does not exist for this node"))?;
pub async fn execute_remote_method_typed<S: Serialize, D: DeserializeOwned>(
&self,
method: u64,
input: S,
fds: Vec<OwnedFd>,
) -> Result<(D, Vec<OwnedFd>)> {
let message_sender_handle = self
.message_sender_handle
.as_ref()
.ok_or(eyre!("Messenger does not exist for this node"))?;
// let future = message_sender_handle.method(self.path.as_str(), method, &data)?;
let serialized = serialize(input)?;
let result = message_sender_handle
.method(self.id, method, &serialized, fds)?
.await
.map_err(|e| eyre!(e))?;
// Ok(async { future.await.map_err(|e| eyre!(e)) })
// }
let (message, fds) = result.into_components();
let deserialized: D = deserialize(&message)?;
Ok((deserialized, fds))
}
}
impl Debug for Node {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
f.debug_struct("Node")
.field("uid", &self.uid)
.field("path", &self.path)
.field("id", &self.id)
.field("local_signals", &self.local_signals.lock().keys())
.field("local_methods", &self.local_methods.lock().keys())
.field("destroyable", &self.destroyable)
.finish()
}
}
impl OwnedAspect for Node {
fn set_enabled(node: Arc<Node>, _calling_client: Arc<Client>, enabled: bool) -> Result<()> {
node.set_enabled(enabled);
Ok(())
}
fn destroy(node: Arc<Node>, _calling_client: Arc<Client>) -> Result<()> {
if node.destroyable {
node.destroy();
}
Ok(())
}
}
impl Drop for Node {
fn drop(&mut self) {
// Debug breakpoint
}
}
pub trait Aspect: Any + Send + Sync + 'static {
const NAME: &'static str;
}
#[derive(Default)]
struct Aspects(Mutex<FxHashMap<TypeId, Arc<dyn Any + Send + Sync + 'static>>>);
impl Aspects {
fn add<A: Aspect>(&self, t: A) -> Arc<A> {
let aspect = Arc::new(t);
self.add_raw(aspect.clone());
aspect
}
fn add_raw<A: Aspect>(&self, aspect: Arc<A>) {
self.0.lock().insert(Self::type_key::<A>(), aspect);
}
fn get<A: Aspect>(&self) -> Result<Arc<A>> {
self.0
.lock()
.get(&Self::type_key::<A>())
.and_then(|a| Arc::downcast(a.clone()).ok())
.ok_or(eyre!("Couldn't get aspect {}", A::NAME.to_lowercase()))
}
fn type_key<A: 'static>() -> TypeId {
TypeId::of::<A>()
}
}
impl Drop for Aspects {
fn drop(&mut self) {
self.0.lock().clear()
}
}

113
src/nodes/root.rs
View File

@@ -1,75 +1,102 @@
use super::spatial::Spatial;
use super::Node;
use crate::core::client::Client;
use crate::core::client_state::ClientStateParsed;
use crate::core::registry::Registry;
use color_eyre::eyre::Result;
use crate::nodes::spatial::SPATIAL_REF_ASPECT_ALIAS_INFO;
use crate::session::connection_env;
use color_eyre::eyre::{bail, Result};
use glam::Mat4;
use stardust_xr::schemas::flex::{deserialize, serialize};
use tracing::instrument;
use std::sync::atomic::{AtomicBool, Ordering};
use std::path::PathBuf;
use std::sync::Arc;
use std::time::Instant;
use tracing::info;
static ROOT_REGISTRY: Registry<Root> = Registry::new();
stardust_xr_server_codegen::codegen_root_protocol!();
pub struct Root {
node: Arc<Node>,
send_frame_event: AtomicBool,
connect_instant: Instant,
}
impl Root {
pub fn create(client: &Arc<Client>) -> Result<Arc<Self>> {
let node = Node::create(client, "", "", false);
node.add_local_signal("subscribe_frame", Root::subscribe_frame_flex);
node.add_local_signal("set_base_prefixes", Root::set_base_prefixes_flex);
pub fn create(client: &Arc<Client>, transform: Mat4) -> Result<Arc<Self>> {
let node = Node::from_id(client, 0, false);
<Self as RootAspect>::add_node_members(&node);
let node = node.add_to_scenegraph()?;
let _ = Spatial::add_to(
&node,
None,
client
.startup_settings
.as_ref()
.map(|settings| settings.transform)
.unwrap_or(Mat4::IDENTITY),
false,
);
let _ = Spatial::add_to(&node, None, transform, false);
Ok(ROOT_REGISTRY.add(Root {
node,
send_frame_event: AtomicBool::from(false),
connect_instant: Instant::now(),
}))
}
fn subscribe_frame_flex(_node: &Node, calling_client: Arc<Client>, _data: &[u8]) -> Result<()> {
calling_client
.root
.get()
.unwrap()
.send_frame_event
.store(true, Ordering::Relaxed);
Ok(())
}
#[instrument(level = "debug")]
pub fn send_frame_events(delta: f64) {
if let Ok(data) = serialize((delta, 0.0)) {
for root in ROOT_REGISTRY.get_valid_contents() {
if root.send_frame_event.load(Ordering::Relaxed) {
let _ = root.node.send_remote_signal("frame", &data);
}
}
for root in ROOT_REGISTRY.get_valid_contents() {
let _ = root_client::frame(
&root.node,
&FrameInfo {
delta: delta as f32,
elapsed: root.connect_instant.elapsed().as_secs_f32(),
},
);
}
}
fn set_base_prefixes_flex(
_node: &Node,
pub fn set_transform(&self, transform: Mat4) {
let spatial = self.node.get_aspect::<Spatial>().unwrap();
spatial.set_spatial_parent(None).unwrap();
spatial.set_local_transform(transform);
}
pub async fn save_state(&self) -> Result<ClientState> {
Ok(root_client::save_state(&self.node).await?.0)
}
}
impl RootAspect for Root {
async fn get_state(_node: Arc<Node>, calling_client: Arc<Client>) -> Result<ClientState> {
let Some(state) = calling_client.state.get() else {
bail!("Couldn't get state");
};
Ok(state.clone())
}
#[doc = "Get a hashmap of all the environment variables to connect a given app to the stardust server"]
async fn get_connection_environment(
_node: Arc<Node>,
_calling_client: Arc<Client>,
) -> Result<stardust_xr::values::Map<String, String>> {
Ok(connection_env())
}
#[doc = "Generate a client state token and return it back.\n\n When launching a new client, set the environment variable `STARDUST_STARTUP_TOKEN` to the returned string.\n Make sure the environment variable shows in `/proc/{pid}/environ` as that's the only reliable way to pass the value to the server (suggestions welcome).\n"]
async fn generate_state_token(
_node: Arc<Node>,
calling_client: Arc<Client>,
data: &[u8],
state: ClientState,
) -> Result<String> {
Ok(ClientStateParsed::from_deserialized(&calling_client, state).token())
}
#[doc = "Set initial list of folders to look for namespaced resources in"]
fn set_base_prefixes(
_node: Arc<Node>,
calling_client: Arc<Client>,
prefixes: Vec<String>,
) -> Result<()> {
*calling_client.base_resource_prefixes.lock() = deserialize(data)?;
info!(?calling_client, ?prefixes, "Set base prefixes");
*calling_client.base_resource_prefixes.lock() =
prefixes.into_iter().map(PathBuf::from).collect();
Ok(())
}
#[doc = "Cleanly disconnect from the server"]
fn disconnect(_node: Arc<Node>, calling_client: Arc<Client>) -> color_eyre::eyre::Result<()> {
calling_client.disconnect(Ok(()));
Ok(())
}
}
impl Drop for Root {
fn drop(&mut self) {
ROOT_REGISTRY.remove(self);

522
src/nodes/spatial/mod.rs
View File

@@ -1,49 +1,70 @@
pub mod zone;
use self::zone::{create_zone_flex, Zone};
use super::Node;
use self::zone::Zone;
use super::alias::Alias;
use super::fields::{Field, FieldTrait};
use super::Aspect;
use crate::core::client::Client;
use crate::core::registry::Registry;
use color_eyre::eyre::{ensure, eyre, Result};
use glam::{vec3a, Mat4, Quat};
use crate::create_interface;
use crate::nodes::{Node, OWNED_ASPECT_ALIAS_INFO};
use color_eyre::eyre::{eyre, OptionExt, Result};
use glam::{vec3a, Mat4, Quat, Vec3};
use mint::Vector3;
use nanoid::nanoid;
use once_cell::sync::OnceCell;
use parking_lot::Mutex;
use serde::Deserialize;
use stardust_xr::schemas::flex::{deserialize, serialize};
use stardust_xr::values::Transform;
use rustc_hash::FxHashMap;
use std::fmt::Debug;
use std::ptr;
use std::sync::{Arc, OnceLock, Weak};
use stereokit::{bounds_grow_to_fit_box, Bounds};
use tracing::instrument;
use std::sync::{Arc, Weak};
use stereokit_rust::maths::Bounds;
stardust_xr_server_codegen::codegen_spatial_protocol!();
impl Transform {
pub fn to_mat4(&self, position: bool, rotation: bool, scale: bool) -> Mat4 {
let position = position
.then_some(self.translation)
.flatten()
.unwrap_or_else(|| Vector3::from([0.0; 3]));
let rotation = rotation
.then_some(self.rotation)
.flatten()
.unwrap_or_else(|| Quat::IDENTITY.into());
let scale = scale
.then_some(self.scale)
.flatten()
.unwrap_or_else(|| Vector3::from([1.0; 3]));
Mat4::from_scale_rotation_translation(scale.into(), rotation.into(), position.into())
}
}
lazy_static::lazy_static! {
pub static ref EXPORTED_SPATIALS: Mutex<FxHashMap<u64, Arc<Node>>> = Mutex::new(FxHashMap::default());
}
static ZONEABLE_REGISTRY: Registry<Spatial> = Registry::new();
pub struct Spatial {
uid: String,
pub(super) node: Weak<Node>,
self_ref: Weak<Spatial>,
pub node: Weak<Node>,
parent: Mutex<Option<Arc<Spatial>>>,
old_parent: Mutex<Option<Arc<Spatial>>>,
pub(super) transform: Mutex<Mat4>,
transform: Mutex<Mat4>,
zone: Mutex<Weak<Zone>>,
children: Registry<Spatial>,
pub(super) bounding_box_calc: OnceLock<fn(&Node) -> Bounds>,
pub bounding_box_calc: OnceCell<fn(&Node) -> Bounds>,
}
impl Spatial {
pub fn new(node: Weak<Node>, parent: Option<Arc<Spatial>>, transform: Mat4) -> Arc<Self> {
Arc::new_cyclic(|self_ref| Spatial {
uid: nanoid!(),
Arc::new(Spatial {
node,
self_ref: self_ref.clone(),
parent: Mutex::new(parent),
old_parent: Mutex::new(None),
transform: Mutex::new(transform),
zone: Mutex::new(Weak::new()),
children: Registry::new(),
bounding_box_calc: OnceLock::default(),
bounding_box_calc: OnceCell::default(),
})
}
pub fn add_to(
@@ -51,36 +72,25 @@ impl Spatial {
parent: Option<Arc<Spatial>>,
transform: Mat4,
zoneable: bool,
) -> Result<Arc<Spatial>> {
ensure!(
node.spatial.get().is_none(),
"Internal: Node already has a Spatial aspect!"
);
let spatial = Spatial::new(Arc::downgrade(node), parent, transform);
node.add_local_method("get_bounding_box", Spatial::get_bounding_box_flex);
node.add_local_method("get_transform", Spatial::get_transform_flex);
node.add_local_signal("set_transform", Spatial::set_transform_flex);
node.add_local_signal("set_spatial_parent", Spatial::set_spatial_parent_flex);
node.add_local_signal(
"set_spatial_parent_in_place",
Spatial::set_spatial_parent_in_place_flex,
);
node.add_local_signal("set_zoneable", Spatial::set_zoneable_flex);
node.add_local_method("field_distance", Spatial::field_distance_flex);
node.add_local_method("field_normal", Spatial::field_normal_flex);
node.add_local_method("field_closest_point", Spatial::field_closest_point_flex);
) -> Arc<Spatial> {
let spatial = Spatial::new(Arc::downgrade(node), parent.clone(), transform);
<Spatial as SpatialAspect>::add_node_members(node);
if zoneable {
ZONEABLE_REGISTRY.add_raw(&spatial);
}
let _ = node.spatial.set(spatial.clone());
Ok(spatial)
if let Some(parent) = parent {
parent.children.add_raw(&spatial);
}
<Spatial as SpatialRefAspect>::add_node_members(node);
<Spatial as SpatialAspect>::add_node_members(node);
node.add_aspect_raw(spatial.clone());
spatial
}
pub fn node(&self) -> Option<Arc<Node>> {
self.node.upgrade()
}
#[instrument(level = "debug", skip_all)]
pub fn space_to_space_matrix(from: Option<&Spatial>, to: Option<&Spatial>) -> Mat4 {
let space_to_world_matrix = from.map_or(Mat4::IDENTITY, |from| from.global_transform());
let world_to_space_matrix = to.map_or(Mat4::IDENTITY, |to| to.global_transform().inverse());
@@ -88,39 +98,35 @@ impl Spatial {
}
// the output bounds are probably way bigger than they need to be
#[instrument(level = "debug")]
pub fn get_bounding_box(&self) -> Bounds {
let Some(node) = self.node() else {return Bounds::default()};
let Some(node) = self.node() else {
return Bounds::default();
};
let mut bounds = self
.bounding_box_calc
.get()
.map(|b| (b)(&node))
.unwrap_or_default();
for child in self.children.get_valid_contents() {
bounds = bounds_grow_to_fit_box(
bounds,
child.get_bounding_box(),
Some(child.local_transform()),
);
bounds.grown_box(child.get_bounding_box(), child.local_transform());
}
bounds
}
#[instrument(level = "debug", skip_all)]
pub fn local_transform(&self) -> Mat4 {
*self.transform.lock()
}
pub fn global_transform(&self) -> Mat4 {
match self.get_parent() {
Some(value) => value.global_transform() * *self.transform.lock(),
None => *self.transform.lock(),
}
let parent_transform = self
.get_parent()
.as_deref()
.map(Self::global_transform)
.unwrap_or_default();
parent_transform * self.local_transform()
}
#[instrument]
pub fn set_local_transform(&self, transform: Mat4) {
*self.transform.lock() = transform;
}
#[instrument(level = "debug", skip(self, reference_space))]
pub fn set_local_transform_components(
&self,
reference_space: Option<&Spatial>,
@@ -142,7 +148,7 @@ impl Spatial {
let (mut reference_space_scl, mut reference_space_rot, mut reference_space_pos) =
local_transform_in_reference_space.to_scale_rotation_translation();
if let Some(pos) = transform.position {
if let Some(pos) = transform.translation {
reference_space_pos = pos.into()
}
if let Some(rot) = transform.rotation {
@@ -164,7 +170,6 @@ impl Spatial {
);
}
#[instrument(level = "debug", skip_all)]
pub fn is_ancestor_of(&self, spatial: Arc<Spatial>) -> bool {
let mut current_ancestor = spatial;
loop {
@@ -183,24 +188,21 @@ impl Spatial {
fn get_parent(&self) -> Option<Arc<Spatial>> {
self.parent.lock().clone()
}
fn set_parent(&self, new_parent: Option<Arc<Spatial>>) {
fn set_parent(self: &Arc<Self>, new_parent: Option<&Arc<Spatial>>) {
if let Some(parent) = self.get_parent() {
parent.children.remove(self);
}
if let Some(new_parent) = &new_parent {
new_parent
.children
.add_raw(&self.self_ref.upgrade().unwrap());
new_parent.children.add_raw(self);
}
*self.parent.lock() = new_parent;
*self.parent.lock() = new_parent.cloned();
}
#[instrument(level = "debug", skip_all)]
pub fn set_spatial_parent(&self, parent: Option<Arc<Spatial>>) -> Result<()> {
pub fn set_spatial_parent(self: &Arc<Self>, parent: Option<&Arc<Spatial>>) -> Result<()> {
let is_ancestor = parent
.as_ref()
.map(|parent| self.is_ancestor_of(parent.clone()))
.map(|parent| self.is_ancestor_of((*parent).clone()))
.unwrap_or(false);
if is_ancestor {
return Err(eyre!("Setting spatial parent would cause a loop"));
@@ -209,12 +211,13 @@ impl Spatial {
Ok(())
}
#[instrument(level = "debug", skip_all)]
pub fn set_spatial_parent_in_place(&self, parent: Option<Arc<Spatial>>) -> Result<()> {
pub fn set_spatial_parent_in_place(
self: &Arc<Self>,
parent: Option<&Arc<Spatial>>,
) -> Result<()> {
let is_ancestor = parent
.as_ref()
.map(|parent| self.is_ancestor_of(parent.clone()))
.map(|parent| self.is_ancestor_of((*parent).clone()))
.unwrap_or(false);
if is_ancestor {
return Err(eyre!("Setting spatial parent would cause a loop"));
@@ -222,61 +225,70 @@ impl Spatial {
self.set_local_transform(Spatial::space_to_space_matrix(
Some(self),
parent.as_deref(),
parent.map(AsRef::as_ref),
));
self.set_parent(parent);
Ok(())
}
pub fn get_bounding_box_flex(
node: &Node,
calling_client: Arc<Client>,
data: &[u8],
) -> Result<Vec<u8>> {
let this_spatial = node
.spatial
.get()
.ok_or_else(|| eyre!("Node doesn't have a spatial?"))?;
let relative_spatial_path: Option<&str> = deserialize(data)?;
let bounds = if let Some(relative_spatial_path) = relative_spatial_path {
let relative_spatial = find_reference_space(&calling_client, relative_spatial_path)?;
let center =
Spatial::space_to_space_matrix(Some(&this_spatial), Some(&relative_spatial))
.transform_point3([0.0; 3].into());
let bounds: Bounds = Bounds {
center,
dimensions: [0.0; 3].into(),
};
bounds_grow_to_fit_box(
bounds,
this_spatial.get_bounding_box(),
Some(Spatial::space_to_space_matrix(
Some(&this_spatial),
Some(&relative_spatial),
)),
)
} else {
this_spatial.get_bounding_box()
};
pub(self) fn zone_distance(&self) -> f32 {
self.zone
.lock()
.upgrade()
.map(|zone| zone.field.clone())
.map(|field| field.distance(self, vec3a(0.0, 0.0, 0.0)))
.unwrap_or(f32::MAX)
}
}
impl Aspect for Spatial {
const NAME: &'static str = "Spatial";
}
impl SpatialRefAspect for Spatial {
async fn get_local_bounding_box(
node: Arc<Node>,
_calling_client: Arc<Client>,
) -> Result<BoundingBox> {
let this_spatial = node.get_aspect::<Spatial>()?;
let bounds = this_spatial.get_bounding_box();
serialize((
mint::Vector3::from(bounds.center),
mint::Vector3::from(bounds.dimensions),
))
.map_err(|e| e.into())
Ok(BoundingBox {
center: Vec3::from(bounds.center).into(),
size: Vec3::from(bounds.dimensions).into(),
})
}
pub fn get_transform_flex(
node: &Node,
calling_client: Arc<Client>,
data: &[u8],
) -> Result<Vec<u8>> {
let this_spatial = node
.spatial
.get()
.ok_or_else(|| eyre!("Node doesn't have a spatial?"))?;
let relative_spatial = find_reference_space(&calling_client, deserialize(data)?)?;
async fn get_relative_bounding_box(
node: Arc<Node>,
_calling_client: Arc<Client>,
relative_to: Arc<Node>,
) -> Result<BoundingBox> {
let this_spatial = node.get_aspect::<Spatial>()?;
let relative_spatial = relative_to.get_aspect::<Spatial>()?;
let center = Spatial::space_to_space_matrix(Some(&this_spatial), Some(&relative_spatial))
.transform_point3([0.0; 3].into());
let mut bounds = Bounds {
center: center.into(),
dimensions: [0.0; 3].into(),
};
bounds.grown_box(
this_spatial.get_bounding_box(),
Spatial::space_to_space_matrix(Some(&this_spatial), Some(&relative_spatial)),
);
Ok(BoundingBox {
center: Vec3::from(bounds.center).into(),
size: Vec3::from(bounds.dimensions).into(),
})
}
async fn get_transform(
node: Arc<Node>,
_calling_client: Arc<Client>,
relative_to: Arc<Node>,
) -> Result<Transform> {
let this_spatial = node.get_aspect::<Spatial>()?;
let relative_spatial = relative_to.get_aspect::<Spatial>()?;
let (scale, rotation, position) = Spatial::space_to_space_matrix(
Some(this_spatial.as_ref()),
@@ -284,152 +296,86 @@ impl Spatial {
)
.to_scale_rotation_translation();
serialize((
mint::Vector3::from(position),
mint::Quaternion::from(rotation),
mint::Vector3::from(scale),
))
.map_err(|e| e.into())
Ok(Transform {
translation: Some(position.into()),
rotation: Some(rotation.into()),
scale: Some(scale.into()),
})
}
pub fn set_transform_flex(node: &Node, calling_client: Arc<Client>, data: &[u8]) -> Result<()> {
#[derive(Deserialize)]
struct TransformArgs<'a> {
reference_space_path: Option<&'a str>,
transform: Transform,
}
let transform_args: TransformArgs = deserialize(data)?;
let reference_space_transform = transform_args
.reference_space_path
.map(|path| find_reference_space(&calling_client, path))
.transpose()?;
}
impl SpatialAspect for Spatial {
fn set_local_transform(
node: Arc<Node>,
_calling_client: Arc<Client>,
transform: Transform,
) -> Result<()> {
let this_spatial = node.get_aspect::<Spatial>()?;
this_spatial.set_local_transform_components(None, transform);
Ok(())
}
fn set_relative_transform(
node: Arc<Node>,
_calling_client: Arc<Client>,
relative_to: Arc<Node>,
transform: Transform,
) -> Result<()> {
let this_spatial = node.get_aspect::<Spatial>()?;
let relative_spatial = relative_to.get_aspect::<Spatial>()?;
node.spatial.get().unwrap().set_local_transform_components(
reference_space_transform.as_deref(),
transform_args.transform,
);
this_spatial.set_local_transform_components(Some(&relative_spatial), transform);
Ok(())
}
pub fn set_spatial_parent_flex(
node: &Node,
calling_client: Arc<Client>,
data: &[u8],
fn set_spatial_parent(
node: Arc<Node>,
_calling_client: Arc<Client>,
parent: Arc<Node>,
) -> Result<()> {
let parent = find_spatial_parent(&calling_client, deserialize(data)?)?;
node.spatial.get().unwrap().set_spatial_parent(Some(parent))
}
pub fn set_spatial_parent_in_place_flex(
node: &Node,
calling_client: Arc<Client>,
data: &[u8],
) -> Result<()> {
let parent = find_spatial_parent(&calling_client, deserialize(data)?)?;
node.spatial
.get()
.unwrap()
.set_spatial_parent_in_place(Some(parent))?;
let this_spatial = node.get_aspect::<Spatial>()?;
let parent = parent.get_aspect::<Spatial>()?;
this_spatial.set_spatial_parent(Some(&parent))?;
Ok(())
}
pub fn set_zoneable_flex(node: &Node, _calling_client: Arc<Client>, data: &[u8]) -> Result<()> {
let zoneable: bool = deserialize(data)?;
let spatial = node.spatial.get().unwrap();
fn set_spatial_parent_in_place(
node: Arc<Node>,
_calling_client: Arc<Client>,
parent: Arc<Node>,
) -> Result<()> {
let this_spatial = node.get_aspect::<Spatial>()?;
let parent = parent.get_aspect::<Spatial>()?;
this_spatial.set_spatial_parent_in_place(Some(&parent))?;
Ok(())
}
fn set_zoneable(node: Arc<Node>, _calling_client: Arc<Client>, zoneable: bool) -> Result<()> {
let spatial = node.get_aspect::<Spatial>()?;
if zoneable {
ZONEABLE_REGISTRY.add_raw(spatial);
ZONEABLE_REGISTRY.add_raw(&spatial);
} else {
ZONEABLE_REGISTRY.remove(spatial);
zone::release(spatial);
ZONEABLE_REGISTRY.remove(&spatial);
zone::release(&spatial);
}
Ok(())
}
pub fn field_distance_flex(
node: &Node,
calling_client: Arc<Client>,
data: &[u8],
) -> Result<Vec<u8>> {
let (point, fields): (Vector3<f32>, Vec<Option<&str>>) = deserialize(data)?;
let spatial = node.spatial.get().unwrap();
let output = fields
.into_iter()
.map(|f| {
calling_client
.get_node("Field", f?)
.ok()?
.get_aspect("Field", "field", |n| &n.field)
.ok()
.cloned()
})
.map(|f| f.map(|f| f.distance(spatial, point.into())))
.collect::<Vec<Option<f32>>>();
Ok(serialize(output)?)
}
pub fn field_normal_flex(
node: &Node,
calling_client: Arc<Client>,
data: &[u8],
) -> Result<Vec<u8>> {
let (point, fields): (Vector3<f32>, Vec<Option<&str>>) = deserialize(data)?;
let spatial = node.spatial.get().unwrap();
let output = fields
.into_iter()
.map(|f| {
calling_client
.get_node("Field", f?)
.ok()?
.get_aspect("Field", "field", |n| &n.field)
.ok()
.cloned()
})
.map(|f| f.map(|f| Vector3::from(f.normal(spatial, point.into(), 0.001))))
.collect::<Vec<_>>();
Ok(serialize(output)?)
}
pub fn field_closest_point_flex(
node: &Node,
calling_client: Arc<Client>,
data: &[u8],
) -> Result<Vec<u8>> {
let (point, fields): (Vector3<f32>, Vec<Option<&str>>) = deserialize(data)?;
let spatial = node.spatial.get().unwrap();
let output = fields
.into_iter()
.map(|f| {
calling_client
.get_node("Field", f?)
.ok()?
.get_aspect("Field", "field", |n| &n.field)
.ok()
.cloned()
})
.map(|f| f.map(|f| Vector3::from(f.closest_point(spatial, point.into(), 0.001))))
.collect::<Vec<_>>();
Ok(serialize(output)?)
}
#[instrument]
pub(self) fn zone_distance(&self) -> f32 {
self.zone
.lock()
.upgrade()
.and_then(|zone| zone.field.upgrade())
.map(|field| field.distance(self, vec3a(0.0, 0.0, 0.0)))
.unwrap_or(f32::MAX)
// legit gotta find a way to remove old ones, this just keeps the node alive
async fn export_spatial(node: Arc<Node>, _calling_client: Arc<Client>) -> Result<u64> {
let id = rand::random();
EXPORTED_SPATIALS.lock().insert(id, node);
Ok(id)
}
}
impl PartialEq for Spatial {
fn eq(&self, other: &Self) -> bool {
self.uid == other.uid
self.node.as_ptr() == other.node.as_ptr()
}
}
impl Debug for Spatial {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
f.debug_struct("Spatial")
.field("uid", &self.uid)
.field("parent", &self.parent)
.field("old_parent", &self.old_parent)
.field("transform", &self.transform)
@@ -438,14 +384,14 @@ impl Debug for Spatial {
}
impl Drop for Spatial {
fn drop(&mut self) {
ZONEABLE_REGISTRY.remove(self);
zone::release(self);
ZONEABLE_REGISTRY.remove(self);
}
}
pub fn parse_transform(transform: Transform, position: bool, rotation: bool, scale: bool) -> Mat4 {
let position = position
.then_some(transform.position)
.then_some(transform.translation)
.flatten()
.unwrap_or_else(|| Vector3::from([0.0; 3]));
let rotation = rotation
@@ -460,49 +406,59 @@ pub fn parse_transform(transform: Transform, position: bool, rotation: bool, sca
Mat4::from_scale_rotation_translation(scale.into(), rotation.into(), position.into())
}
pub fn find_spatial(
calling_client: &Arc<Client>,
node_name: &'static str,
node_path: &str,
) -> color_eyre::eyre::Result<Arc<Spatial>> {
calling_client
.get_node(node_name, node_path)?
.get_aspect(node_name, "spatial", |n| &n.spatial)
.cloned()
}
pub fn find_spatial_parent(
calling_client: &Arc<Client>,
node_path: &str,
) -> color_eyre::eyre::Result<Arc<Spatial>> {
find_spatial(calling_client, "Spatial parent", node_path)
}
pub fn find_reference_space(
calling_client: &Arc<Client>,
node_path: &str,
) -> color_eyre::eyre::Result<Arc<Spatial>> {
find_spatial(calling_client, "Reference space", node_path)
}
pub fn create_interface(client: &Arc<Client>) -> Result<()> {
let node = Node::create(client, "", "spatial", false);
node.add_local_signal("create_spatial", create_spatial_flex);
node.add_local_signal("create_zone", create_zone_flex);
node.add_to_scenegraph().map(|_| ())
}
pub fn create_spatial_flex(_node: &Node, calling_client: Arc<Client>, data: &[u8]) -> Result<()> {
#[derive(Deserialize)]
struct CreateSpatialInfo<'a> {
name: &'a str,
parent_path: &'a str,
pub struct SpatialInterface;
impl InterfaceAspect for SpatialInterface {
fn create_spatial(
_node: Arc<Node>,
calling_client: Arc<Client>,
id: u64,
parent: Arc<Node>,
transform: Transform,
zoneable: bool,
) -> Result<()> {
let parent = parent.get_aspect::<Spatial>()?;
let transform = parse_transform(transform, true, true, true);
let node = Node::from_id(&calling_client, id, true).add_to_scenegraph()?;
Spatial::add_to(&node, Some(parent.clone()), transform, zoneable);
Ok(())
}
fn create_zone(
_node: Arc<Node>,
calling_client: Arc<Client>,
id: u64,
parent: Arc<Node>,
transform: Transform,
field: Arc<Node>,
) -> Result<()> {
let parent = parent.get_aspect::<Spatial>()?;
let transform = parse_transform(transform, true, true, false);
let field = field.get_aspect::<Field>()?;
let node = Node::from_id(&calling_client, id, true).add_to_scenegraph()?;
let space = Spatial::add_to(&node, Some(parent.clone()), transform, false);
Zone::add_to(&node, space, field);
Ok(())
}
async fn import_spatial_ref(
_node: Arc<Node>,
calling_client: Arc<Client>,
uid: u64,
) -> Result<Arc<Node>> {
EXPORTED_SPATIALS
.lock()
.get(&uid)
.map(|s| {
Alias::create(
s,
&calling_client,
SPATIAL_REF_ASPECT_ALIAS_INFO.clone(),
None,
)
.unwrap()
})
.ok_or_eyre("Couldn't find spatial with that ID")
}
let info: CreateSpatialInfo = deserialize(data)?;
let node = Node::create(&calling_client, "/spatial/spatial", info.name, true);
let parent = find_spatial_parent(&calling_client, info.parent_path)?;
let transform = parse_transform(info.transform, true, true, true);
let node = node.add_to_scenegraph()?;
Spatial::add_to(&node, Some(parent), transform, info.zoneable)?;
Ok(())
}
create_interface!(SpatialInterface);

239
src/nodes/spatial/zone.rs
View File

@@ -1,169 +1,162 @@
use super::{find_spatial, Spatial, ZONEABLE_REGISTRY};
use super::{
Spatial, ZoneAspect, SPATIAL_ASPECT_ALIAS_INFO, SPATIAL_REF_ASPECT_ALIAS_INFO,
ZONEABLE_REGISTRY,
};
use crate::{
core::{client::Client, registry::Registry},
nodes::{
alias::{Alias, AliasInfo},
fields::{find_field, Field},
spatial::{find_spatial_parent, parse_transform},
Node,
alias::{get_original, Alias, AliasList},
fields::{Field, FieldTrait},
Aspect, Node,
},
};
use color_eyre::eyre::Result;
use glam::vec3a;
use parking_lot::Mutex;
use rustc_hash::FxHashMap;
use serde::Deserialize;
use stardust_xr::{
schemas::flex::{deserialize, serialize},
values::Transform,
};
use std::sync::{Arc, Weak};
pub fn capture(spatial: &Arc<Spatial>, zone: &Arc<Zone>) {
let old_distance = spatial.zone_distance();
let new_distance = zone
.field
.upgrade()
.map(|field| field.distance(spatial, vec3a(0.0, 0.0, 0.0)))
.unwrap_or(f32::MAX);
let new_distance = zone.field.distance(spatial, vec3a(0.0, 0.0, 0.0));
if new_distance.abs() < old_distance.abs() {
release(spatial);
*spatial.old_parent.lock() = spatial.get_parent();
*spatial.zone.lock() = Arc::downgrade(zone);
zone.captured.add_raw(spatial);
let node = zone.spatial.node.upgrade().unwrap();
let _ = node.send_remote_signal("capture", &serialize(&spatial.uid).unwrap());
let Some(zone_node) = zone.spatial.node.upgrade() else {
return;
};
let Some(spatial_node) = spatial.node.upgrade() else {
return;
};
let Ok(spatial_alias) = Alias::create(
&spatial_node,
&zone_node.get_client().unwrap(),
SPATIAL_ASPECT_ALIAS_INFO.clone(),
Some(&zone.captured),
) else {
return;
};
let _ = super::zone_client::capture(&zone_node, &spatial_alias);
}
}
pub fn release(spatial: &Spatial) {
let _ = spatial.set_spatial_parent_in_place(spatial.old_parent.lock().take());
let Some(spatial_node) = spatial.node.upgrade() else {
return;
};
let spatial = spatial_node.get_aspect::<Spatial>().unwrap();
let _ = spatial.set_spatial_parent_in_place(spatial.old_parent.lock().take().as_ref());
let mut spatial_zone = spatial.zone.lock();
if let Some(spatial_zone) = spatial_zone.upgrade() {
let node = spatial_zone.spatial.node.upgrade().unwrap();
spatial_zone.captured.remove(spatial);
let _ = node.send_remote_signal("release", &serialize(&spatial.uid).unwrap());
spatial_zone.captured.remove_aspect(spatial.as_ref());
let Some(node) = spatial_zone.spatial.node.upgrade() else {
return;
};
let _ = super::zone_client::release(&node, spatial_node.id);
}
*spatial_zone = Weak::new();
}
pub struct Zone {
spatial: Arc<Spatial>,
pub field: Weak<Field>,
zoneables: Mutex<FxHashMap<String, Arc<Node>>>,
captured: Registry<Spatial>,
pub field: Arc<Field>,
intersecting_spatials: Registry<Spatial>,
intersecting: AliasList,
captured: AliasList,
}
impl Zone {
pub fn add_to(node: &Arc<Node>, spatial: Arc<Spatial>, field: &Arc<Field>) -> Arc<Zone> {
pub fn add_to(node: &Arc<Node>, spatial: Arc<Spatial>, field: Arc<Field>) -> Arc<Zone> {
let zone = Arc::new(Zone {
spatial,
field: Arc::downgrade(field),
zoneables: Mutex::new(FxHashMap::default()),
captured: Registry::new(),
field,
intersecting_spatials: Registry::default(),
intersecting: AliasList::default(),
captured: AliasList::default(),
});
node.add_local_signal("capture", Zone::capture_flex);
node.add_local_signal("release", Zone::release_flex);
node.add_local_signal("update", Zone::update);
let _ = node.zone.set(zone.clone());
<Zone as ZoneAspect>::add_node_members(node);
node.add_aspect_raw(zone.clone());
zone
}
fn capture_flex(node: &Node, calling_client: Arc<Client>, data: &[u8]) -> Result<()> {
let zone = node.zone.get().unwrap();
let capture_path: &str = deserialize(data)?;
let spatial = find_spatial(&calling_client, "Spatial", capture_path)?;
capture(&spatial, zone);
Ok(())
}
fn release_flex(_node: &Node, calling_client: Arc<Client>, data: &[u8]) -> Result<()> {
let capture_path: &str = deserialize(data)?;
let spatial = find_spatial(&calling_client, "Spatial", capture_path)?;
release(&spatial);
Ok(())
}
fn update(node: &Node, _calling_client: Arc<Client>, _data: &[u8]) -> Result<()> {
let zone = node.zone.get().unwrap();
let Some(field) = zone.field.upgrade() else { return Err(color_eyre::eyre::eyre!("Zone's field has been destroyed")) };
let Some((zone_client, zone_node)) = zone
.spatial
.node
.upgrade()
.and_then(|n| n.get_client().zip(Some(n))) else { return Err(color_eyre::eyre::eyre!("No client on node?")) };
let mut old_zoneables = zone.zoneables.lock();
for (_uid, zoneable) in old_zoneables.iter() {
zoneable.destroy();
}
let captured = zone.captured.get_valid_contents();
let zoneables = ZONEABLE_REGISTRY
.get_valid_contents()
.into_iter()
.filter(|zoneable| zoneable.node.upgrade().is_some())
.filter(|zoneable| {
if captured
.iter()
.any(|captured| Arc::ptr_eq(captured, zoneable))
{
return true;
pub fn update(&self) -> Result<()> {
let node = self.spatial.node().unwrap();
let current_zoneables = Registry::new();
for zoneable in ZONEABLE_REGISTRY.get_valid_contents() {
let distance = self.field.distance(&zoneable, [0.0; 3].into());
if distance > 0.0 {
continue;
}
if let Some(zone) = zoneable.zone.lock().upgrade() {
let zoneable_distance = zone.field.distance(&zoneable, [0.0; 3].into());
if zoneable_distance < distance {
continue;
}
let spatial_zone_distance = zoneable.zone_distance();
let self_zone_distance = field.distance(zoneable, vec3a(0.0, 0.0, 0.0));
self_zone_distance < 0.0 && spatial_zone_distance > self_zone_distance
})
.filter_map(|zoneable| {
let alias = Alias::create(
&zone_client,
zone_node.get_path(),
&zoneable.uid,
&zoneable.node.upgrade().unwrap(),
AliasInfo {
server_signals: vec![
"set_transform",
"set_spatial_parent",
"set_spatial_parent_in_place",
],
server_methods: vec!["get_bounds", "get_transform"],
..Default::default()
},
)
.ok()?;
Some((zoneable.uid.clone(), alias))
})
.collect::<FxHashMap<String, Arc<Node>>>();
for entered_uid in zoneables.keys().filter(|k| !old_zoneables.contains_key(*k)) {
node.send_remote_signal("enter", &serialize(entered_uid)?)?;
}
for left_uid in old_zoneables.keys().filter(|k| !zoneables.contains_key(*k)) {
node.send_remote_signal("leave", &serialize(left_uid)?)?;
}
current_zoneables.add_raw(&zoneable);
}
*old_zoneables = zoneables;
let (added, removed) =
Registry::get_changes(&self.intersecting_spatials, &current_zoneables);
for added in added {
let Some(added_node) = added.node() else {
continue;
};
let Ok(alias) = Alias::create(
&added_node,
&self.spatial.node().unwrap().get_client().unwrap(),
SPATIAL_REF_ASPECT_ALIAS_INFO.clone(),
Some(&self.intersecting),
) else {
continue;
};
let _ = super::zone_client::enter(&node, &alias);
}
for removed in removed {
let Some(removed_node) = removed.node() else {
continue;
};
release(&removed);
let _ = super::zone_client::leave(&node, removed_node.id);
self.intersecting.remove_aspect(removed.as_ref());
}
self.intersecting_spatials.set(&current_zoneables);
Ok(())
}
}
impl Aspect for Zone {
const NAME: &'static str = "Zone";
}
impl ZoneAspect for Zone {
fn update(node: Arc<Node>, _calling_client: Arc<Client>) -> Result<()> {
let zone = node.get_aspect::<Zone>()?;
let _ = zone.update();
Ok(())
}
fn capture(node: Arc<Node>, _calling_client: Arc<Client>, spatial: Arc<Node>) -> Result<()> {
let zone = node.get_aspect::<Zone>()?;
let spatial = spatial.get_aspect()?;
capture(&spatial, &zone);
Ok(())
}
fn release(_node: Arc<Node>, _calling_client: Arc<Client>, spatial: Arc<Node>) -> Result<()> {
let spatial = spatial.get_aspect()?;
release(&spatial);
Ok(())
}
}
impl Drop for Zone {
fn drop(&mut self) {
for captured in self.captured.get_valid_contents() {
for captured in self
.captured
.get_aliases()
.into_iter()
.filter_map(|n| get_original(n, false))
.filter_map(|n| n.get_aspect::<Spatial>().ok())
{
release(&captured);
}
}
}
pub fn create_zone_flex(_node: &Node, calling_client: Arc<Client>, data: &[u8]) -> Result<()> {
#[derive(Deserialize)]
struct CreateZoneInfo<'a> {
name: &'a str,
parent_path: &'a str,
transform: Transform,
field_path: &'a str,
}
let info: CreateZoneInfo = deserialize(data)?;
let parent = find_spatial_parent(&calling_client, info.parent_path)?;
let transform = parse_transform(info.transform, true, true, false);
let field = find_field(&calling_client, info.field_path)?;
let node =
Node::create(&calling_client, "/spatial/zone", info.name, true).add_to_scenegraph()?;
let space = Spatial::add_to(&node, Some(parent), transform, false)?;
Zone::add_to(&node, space, &field);
Ok(())
}

146
src/nodes/startup.rs
View File

@@ -1,146 +0,0 @@
use crate::{core::client::Client, wayland::WAYLAND_DISPLAY, STARDUST_INSTANCE};
use super::{
items::{ItemAcceptor, TypeInfo},
spatial::find_spatial,
Node,
};
use color_eyre::eyre::Result;
use glam::Mat4;
use parking_lot::Mutex;
use rustc_hash::FxHashMap;
use stardust_xr::schemas::flex::{deserialize, serialize};
use std::{
fmt::Debug,
sync::{Arc, Weak},
};
lazy_static::lazy_static! {
pub static ref STARTUP_SETTINGS: Mutex<FxHashMap<String, StartupSettings>> = Default::default();
}
#[derive(Default, Clone)]
pub struct StartupSettings {
pub transform: Mat4,
pub acceptors: FxHashMap<&'static TypeInfo, Weak<ItemAcceptor>>,
}
impl StartupSettings {
pub fn add_to(node: &Arc<Node>) {
let _ = node
.startup_settings
.set(Mutex::new(StartupSettings::default()));
}
fn set_root_flex(node: &Node, calling_client: Arc<Client>, data: &[u8]) -> Result<()> {
let spatial = find_spatial(&calling_client, "Root spatial", deserialize(data)?)?;
node.startup_settings.get().unwrap().lock().transform = spatial.global_transform();
Ok(())
}
fn add_automatic_acceptor_flex(
node: &Node,
calling_client: Arc<Client>,
data: &[u8],
) -> Result<()> {
let acceptor_node = calling_client.get_node("Item acceptor", deserialize(data)?)?;
let acceptor =
acceptor_node.get_aspect("Item acceptor", "item acceptor", |n| &n.item_acceptor)?;
let mut startup_settings = node.startup_settings.get().unwrap().lock();
startup_settings
.acceptors
.insert(acceptor.type_info, Arc::downgrade(acceptor));
Ok(())
}
fn generate_startup_token_flex(
node: &Node,
_calling_client: Arc<Client>,
_data: &[u8],
) -> Result<Vec<u8>> {
let id = nanoid::nanoid!();
let data = serialize(&id)?;
STARTUP_SETTINGS
.lock()
.insert(id, node.startup_settings.get().unwrap().lock().clone());
Ok(data)
}
}
impl Debug for StartupSettings {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
f.debug_struct("StartupSettings")
.field("transform", &self.transform)
.field(
"acceptors",
&self
.acceptors
.iter()
.map(|(k, _)| k.type_name)
.collect::<Vec<_>>(),
)
.finish()
}
}
pub fn create_interface(client: &Arc<Client>) -> Result<()> {
let node = Node::create(client, "", "startup", false);
node.add_local_signal("create_startup_settings", create_startup_settings_flex);
node.add_local_method(
"get_connection_environment",
get_connection_environment_flex,
);
node.add_to_scenegraph().map(|_| ())
}
pub fn create_startup_settings_flex(
_node: &Node,
calling_client: Arc<Client>,
data: &[u8],
) -> Result<()> {
let node = Node::create(
&calling_client,
"/startup/settings",
deserialize(data)?,
true,
)
.add_to_scenegraph()?;
StartupSettings::add_to(&node);
node.add_local_signal("set_root", StartupSettings::set_root_flex);
node.add_local_signal(
"add_automatic_acceptor",
StartupSettings::add_automatic_acceptor_flex,
);
node.add_local_method(
"generate_startup_token",
StartupSettings::generate_startup_token_flex,
);
Ok(())
}
macro_rules! var_env_insert {
($env:ident, $name:ident) => {
$env.insert(stringify!($name).to_string(), $name.get().unwrap().clone());
};
}
pub fn get_connection_environment_flex(
_node: &Node,
_calling_client: Arc<Client>,
_data: &[u8],
) -> Result<Vec<u8>> {
let mut env: FxHashMap<String, String> = FxHashMap::default();
var_env_insert!(env, STARDUST_INSTANCE);
#[cfg(feature = "wayland")]
{
var_env_insert!(env, WAYLAND_DISPLAY);
env.insert("GDK_BACKEND".to_string(), "wayland".to_string());
env.insert("QT_QPA_PLATFORM".to_string(), "wayland".to_string());
env.insert("MOZ_ENABLE_WAYLAND".to_string(), "1".to_string());
env.insert("CLUTTER_BACKEND".to_string(), "wayland".to_string());
env.insert("SDL_VIDEODRIVER".to_string(), "wayland".to_string());
}
Ok(serialize(env)?)
}

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96
src/objects/input/eye_pointer.rs
View File

@@ -1,19 +1,23 @@
use crate::{
core::client::INTERNAL_CLIENT,
nodes::{
input::{pointer::Pointer, InputMethod, InputType},
fields::{FieldTrait, Ray},
input::{InputDataType, InputMethod, Pointer, INPUT_HANDLER_REGISTRY},
spatial::Spatial,
Node,
Node, OwnedNode,
},
};
use color_eyre::eyre::Result;
use glam::Mat4;
use nanoid::nanoid;
use serde::Serialize;
use stardust_xr::schemas::{flat::Datamap, flex::flexbuffers};
use glam::{vec3, Mat4};
use serde::{Deserialize, Serialize};
use stardust_xr::values::Datamap;
use std::sync::Arc;
use stereokit::StereoKitMultiThread;
use tracing::instrument;
use stereokit_rust::system::Input;
#[derive(Default, Deserialize, Serialize)]
pub struct EyeDatamap {
eye: u32,
}
#[derive(Debug, Clone, Serialize)]
pub struct KeyboardEvent {
@@ -24,33 +28,79 @@ pub struct KeyboardEvent {
}
pub struct EyePointer {
node: OwnedNode,
spatial: Arc<Spatial>,
pointer: Arc<InputMethod>,
}
impl EyePointer {
pub fn new() -> Result<Self> {
let node = Node::create(&INTERNAL_CLIENT, "", &nanoid!(), false).add_to_scenegraph()?;
let spatial = Spatial::add_to(&node, None, Mat4::IDENTITY, false).unwrap();
let pointer =
InputMethod::add_to(&node, InputType::Pointer(Pointer::default()), None).unwrap();
let node = Node::generate(&INTERNAL_CLIENT, false).add_to_scenegraph_owned()?;
let spatial = Spatial::add_to(&node.0, None, Mat4::IDENTITY, false);
let pointer = InputMethod::add_to(
&node.0,
InputDataType::Pointer(Pointer::default()),
Datamap::from_typed(EyeDatamap::default())?,
)
.unwrap();
Ok(EyePointer { spatial, pointer })
Ok(EyePointer {
node,
spatial,
pointer,
})
}
#[instrument(level = "debug", name = "Update Flatscreen Pointer Ray", skip_all)]
pub fn update(&self, sk: &impl StereoKitMultiThread) {
let ray = sk.input_eyes();
pub fn update(&self) {
let ray = Input::get_eyes();
self.spatial
.set_local_transform(Mat4::from_rotation_translation(
ray.orientation,
ray.position,
ray.orientation.into(),
ray.position.into(),
));
{
// Set pointer input datamap
let mut fbb = flexbuffers::Builder::default();
let mut map = fbb.start_map();
map.push("eye", 2);
map.end_map();
*self.pointer.datamap.lock() = Datamap::new(fbb.take_buffer()).ok();
*self.pointer.datamap.lock() = Datamap::from_typed(EyeDatamap { eye: 2 }).unwrap();
}
// send input to all the input handlers that are the closest to the ray as possible
let rx = INPUT_HANDLER_REGISTRY
.get_valid_contents()
.into_iter()
// filter out all the disabled handlers
.filter(|handler| {
let Some(node) = handler.spatial.node() else {
return false;
};
node.enabled()
})
// ray march to all the enabled handlers' fields
.map(|handler| {
let result = handler.field.ray_march(Ray {
origin: vec3(0.0, 0.0, 0.0),
direction: vec3(0.0, 0.0, -1.0),
space: self.spatial.clone(),
});
(vec![handler], result)
})
// make sure the field isn't at the pointer origin and that it's being hit
.filter(|(_, result)| result.deepest_point_distance > 0.01 && result.min_distance < 0.0)
// .inspect(|(_, result)| {
// dbg!(result);
// })
// now collect all handlers that are same distance if they're the closest
.reduce(|(mut handlers_a, result_a), (handlers_b, result_b)| {
if (result_a.deepest_point_distance - result_b.deepest_point_distance).abs() < 0.001
{
// distance is basically the same
handlers_a.extend(handlers_b);
(handlers_a, result_a)
} else if result_a.deepest_point_distance < result_b.deepest_point_distance {
(handlers_a, result_a)
} else {
(handlers_b, result_b)
}
})
.map(|(rx, _)| rx)
.unwrap_or_default();
self.pointer.set_handler_order(rx.iter());
}
}

94
src/objects/input/mod.rs
View File

@@ -2,3 +2,97 @@ pub mod eye_pointer;
pub mod mouse_pointer;
pub mod sk_controller;
pub mod sk_hand;
use crate::nodes::{
fields::{Field, FieldTrait, Ray},
input::{InputDataTrait, InputDataType, InputHandler, InputMethod, INPUT_HANDLER_REGISTRY},
spatial::Spatial,
};
use glam::vec3;
use std::sync::Arc;
#[derive(Default)]
pub struct CaptureManager {
pub capture: Option<Arc<InputHandler>>,
}
impl CaptureManager {
pub fn update_capture(&mut self, pointer: &InputMethod) {
if let Some(capture) = &self.capture {
if !pointer
.internal_capture_requests
.get_valid_contents()
.contains(capture)
{
self.capture.take();
}
}
}
pub fn set_new_capture(
&mut self,
pointer: &InputMethod,
distance_calculator: DistanceCalculator,
) {
if self.capture.is_none() {
self.capture = find_closest_capture(pointer, distance_calculator);
}
}
pub fn apply_capture(&self, method: &InputMethod) {
method.captures.clear();
if let Some(capture) = &self.capture {
method.set_handler_order([capture].into_iter());
method.captures.add_raw(capture);
}
}
}
type DistanceCalculator = fn(&Arc<Spatial>, &InputDataType, &Field) -> Option<f32>;
pub fn find_closest_capture(
method: &InputMethod,
distance_calculator: DistanceCalculator,
) -> Option<Arc<InputHandler>> {
method
.internal_capture_requests
.get_valid_contents()
.into_iter()
.filter_map(|h| {
distance_calculator(&method.spatial, &method.data.lock(), &h.field)
.map(|dist| (h.clone(), dist))
})
.min_by(|(_, dist_a), (_, dist_b)| dist_a.partial_cmp(dist_b).unwrap())
.map(|(handler, _)| handler)
}
pub fn get_sorted_handlers(
method: &InputMethod,
distance_calculator: DistanceCalculator,
) -> Vec<Arc<InputHandler>> {
INPUT_HANDLER_REGISTRY
.get_valid_contents()
.into_iter()
.filter(|handler| handler.spatial.node().map_or(false, |node| node.enabled()))
.filter(|handler| {
handler
.field
.spatial
.node()
.map_or(false, |node| node.enabled())
})
.filter_map(|handler| {
distance_calculator(&method.spatial, &method.data.lock(), &handler.field)
.map(|distance| (vec![handler], distance))
})
.filter(|(_, distance)| *distance > 0.0)
.reduce(|(mut handlers_a, distance_a), (handlers_b, distance_b)| {
if (distance_a - distance_b).abs() < 0.001 {
handlers_a.extend(handlers_b);
(handlers_a, distance_a)
} else if distance_a < distance_b {
(handlers_a, distance_a)
} else {
(handlers_b, distance_b)
}
})
.map(|(handlers, _)| handlers)
.unwrap_or_default()
}

327
src/objects/input/mouse_pointer.rs
View File

@@ -1,105 +1,164 @@
use crate::{
core::client::INTERNAL_CLIENT,
nodes::{
data::{mask_matches, Mask, PulseSender, PULSE_RECEIVER_REGISTRY},
fields::Ray,
input::{pointer::Pointer, InputMethod, InputType},
data::{
mask_matches, pulse_receiver_client, PulseSender, KEYMAPS, PULSE_RECEIVER_REGISTRY,
},
fields::{FieldTrait, Ray},
input::{InputDataType, InputHandler, InputMethod, Pointer, INPUT_HANDLER_REGISTRY},
spatial::Spatial,
Node,
Node, OwnedNode,
},
};
use color_eyre::eyre::Result;
use glam::{vec3, Mat4, Vec3};
use nanoid::nanoid;
use serde::Serialize;
use stardust_xr::schemas::{flat::Datamap, flex::flexbuffers};
use std::{convert::TryFrom, sync::Arc};
use stereokit::{ray_from_mouse, ButtonState, Key, StereoKitMultiThread};
use tracing::instrument;
use mint::Vector2;
use serde::{Deserialize, Serialize};
use slotmap::{DefaultKey, Key as SlotKey};
use stardust_xr::values::Datamap;
use std::sync::Arc;
use stereokit_rust::system::{Input, Key};
use xkbcommon_rs::{xkb_keymap::CompileFlags, Context, Keymap, KeymapFormat};
const SK_KEYMAP: &str = include_str!("sk.kmp");
use super::{get_sorted_handlers, CaptureManager, DistanceCalculator};
#[derive(Debug, Clone, Serialize)]
pub struct KeyboardEvent {
pub keyboard: String,
pub keymap: Option<String>,
pub keys_up: Option<Vec<u32>>,
pub keys_down: Option<Vec<u32>>,
#[derive(Debug, Deserialize, Serialize)]
struct MouseEvent {
select: f32,
middle: f32,
context: f32,
grab: f32,
scroll_continuous: Vector2<f32>,
scroll_discrete: Vector2<f32>,
raw_input_events: Vec<u32>,
}
impl Default for MouseEvent {
fn default() -> Self {
MouseEvent {
select: 0.0,
middle: 0.0,
context: 0.0,
grab: 0.0,
scroll_continuous: [0.0; 2].into(),
scroll_discrete: [0.0; 2].into(),
raw_input_events: vec![],
}
}
}
#[derive(Debug, Clone, Deserialize, Serialize, Default)]
pub struct KeyboardEvent {
pub keyboard: (),
pub xkbv1: (),
pub keymap_id: u64,
pub keys: Vec<i32>,
}
#[allow(unused)]
pub struct MousePointer {
node: Arc<Node>,
node: OwnedNode,
keymap: DefaultKey,
spatial: Arc<Spatial>,
pointer: Arc<InputMethod>,
capture_manager: CaptureManager,
mouse_datamap: MouseEvent,
keyboard_datamap: KeyboardEvent,
keyboard_sender: Arc<PulseSender>,
}
impl MousePointer {
pub fn new() -> Result<Self> {
let node = Node::create(&INTERNAL_CLIENT, "", &nanoid!(), false).add_to_scenegraph()?;
let spatial = Spatial::add_to(&node, None, Mat4::IDENTITY, false).unwrap();
let pointer =
InputMethod::add_to(&node, InputType::Pointer(Pointer::default()), None).unwrap();
let node = Node::generate(&INTERNAL_CLIENT, false).add_to_scenegraph_owned()?;
let spatial = Spatial::add_to(&node.0, None, Mat4::IDENTITY, false);
let pointer = InputMethod::add_to(
&node.0,
InputDataType::Pointer(Pointer::default()),
Datamap::from_typed(MouseEvent::default())?,
)?;
let keyboard_mask = {
let mut fbb = flexbuffers::Builder::default();
let mut map = fbb.start_map();
map.push("keyboard", "xkbv1");
map.end_map();
Mask(fbb.take_buffer())
};
let keyboard_sender = PulseSender::add_to(&node, keyboard_mask).unwrap();
let context = Context::new(0).unwrap();
let keymap = KEYMAPS.lock().insert(
Keymap::new_from_names(context, None, CompileFlags::NO_FLAGS)
.unwrap()
.get_as_string(KeymapFormat::TextV1)
.unwrap(),
);
let keyboard_sender = PulseSender::add_to(
&node.0,
Datamap::from_typed(KeyboardEvent::default()).unwrap(),
)
.unwrap();
Ok(MousePointer {
node,
spatial,
pointer,
capture_manager: CaptureManager::default(),
mouse_datamap: Default::default(),
keyboard_datamap: KeyboardEvent {
keyboard: (),
xkbv1: (),
keymap_id: keymap.data().as_ffi(),
keys: vec![],
},
keymap,
keyboard_sender,
})
}
#[instrument(level = "debug", name = "Update Flatscreen Pointer Ray", skip_all)]
pub fn update(&self, sk: &impl StereoKitMultiThread) {
let mouse = sk.input_mouse();
pub fn update(&mut self) {
let mouse = Input::get_mouse();
let ray = ray_from_mouse(mouse.pos).unwrap();
let ray = mouse.get_ray();
self.spatial.set_local_transform(
Mat4::look_to_rh(
Vec3::from(ray.pos),
Vec3::from(ray.dir),
Vec3::from(ray.position),
Vec3::from(ray.direction),
vec3(0.0, 1.0, 0.0),
)
.inverse(),
);
{
// Set pointer input datamap
let mut fbb = flexbuffers::Builder::default();
let mut map = fbb.start_map();
map.push(
"select",
if sk.input_key(Key::MouseLeft).contains(ButtonState::ACTIVE) {
1.0f32
} else {
0.0f32
},
);
map.push(
"grab",
if sk.input_key(Key::MouseRight).contains(ButtonState::ACTIVE) {
1.0f32
} else {
0.0f32
},
);
let mut scroll_vec = map.start_vector("scroll");
scroll_vec.push(0_f32);
scroll_vec.push(mouse.scroll_change / 120.0);
scroll_vec.end_vector();
map.end_map();
*self.pointer.datamap.lock() = Datamap::new(fbb.take_buffer()).ok();
self.mouse_datamap = MouseEvent {
select: Input::key(Key::MouseLeft).is_active() as u32 as f32,
middle: Input::key(Key::MouseCenter).is_active() as u32 as f32,
context: Input::key(Key::MouseRight).is_active() as u32 as f32,
grab: Input::key(Key::MouseBack).is_active() as u32 as f32,
scroll_continuous: [0.0, mouse.scroll_change / 120.0].into(),
scroll_discrete: [0.0, mouse.scroll_change / 120.0].into(),
raw_input_events: vec![],
};
*self.pointer.datamap.lock() = Datamap::from_typed(&self.mouse_datamap).unwrap();
}
self.send_keyboard_input(sk);
self.target_pointer_input();
self.send_keyboard_input();
}
fn target_pointer_input(&mut self) {
let distance_calculator: DistanceCalculator = |space, data, field| {
let result = field.ray_march(Ray {
origin: vec3(0.0, 0.0, 0.0),
direction: vec3(0.0, 0.0, -1.0),
space: space.clone(),
});
let valid =
result.deepest_point_distance > 0.0 && result.min_distance.is_sign_negative();
valid.then_some(result.deepest_point_distance)
};
self.capture_manager.update_capture(&self.pointer);
self.capture_manager
.set_new_capture(&self.pointer, distance_calculator);
self.capture_manager.apply_capture(&self.pointer);
if self.capture_manager.capture.is_some() {
return;
}
let sorted_handlers = get_sorted_handlers(&self.pointer, distance_calculator);
self.pointer.set_handler_order(sorted_handlers.iter());
}
fn send_keyboard_input(&self, sk: &impl StereoKitMultiThread) {
fn send_keyboard_input(&mut self) {
let rx = PULSE_RECEIVER_REGISTRY
.get_valid_contents()
.into_iter()
@@ -107,7 +166,7 @@ impl MousePointer {
.map(|rx| {
let result = rx.field.ray_march(Ray {
origin: vec3(0.0, 0.0, 0.0),
direction: vec3(0.0, 0.0, 1.0),
direction: vec3(0.0, 0.0, -1.0),
space: self.spatial.clone(),
});
(rx, result)
@@ -125,29 +184,131 @@ impl MousePointer {
.map(|(rx, _)| rx);
if let Some(rx) = rx {
let mut keys_up = vec![];
let mut keys_down = vec![];
let keys = (8_u32..254)
.filter_map(|i| Some((i, Key::try_from(i).ok()?)))
.map(|(i, k)| (i - 8, sk.input_key(k)));
for (key, state) in keys {
if state.contains(ButtonState::JUST_ACTIVE) {
keys_down.push(key);
} else if state.contains(ButtonState::JUST_INACTIVE) {
keys_up.push(key);
}
}
.map(|i| unsafe { std::mem::transmute(i) })
.filter_map(|k| Some((map_key(k)?, Input::key(k))))
.filter_map(|(i, k)| {
if k.is_just_active() {
Some(i as i32)
} else if k.is_just_inactive() {
Some(-(i as i32))
} else {
None
}
})
.collect();
let key_event = KeyboardEvent {
keyboard: "xkbv1".to_string(),
keymap: Some(SK_KEYMAP.to_string()),
keys_up: Some(keys_up),
keys_down: Some(keys_down),
};
let mut serializer = flexbuffers::FlexbufferSerializer::new();
let _ = key_event.serialize(&mut serializer);
rx.send_data(&self.node.uid, serializer.take_buffer())
self.keyboard_datamap.keys = keys;
if !self.keyboard_datamap.keys.is_empty() {
pulse_receiver_client::data(
&rx.node.upgrade().unwrap(),
&self.node.0,
&Datamap::from_typed(&self.keyboard_datamap).unwrap(),
)
.unwrap();
}
}
}
}
fn map_key(key: Key) -> Option<u32> {
match key {
Key::Backspace => Some(input_event_codes::KEY_BACKSPACE!()),
Key::Tab => Some(input_event_codes::KEY_TAB!()),
Key::Return => Some(input_event_codes::KEY_ENTER!()),
Key::Shift => Some(input_event_codes::KEY_LEFTSHIFT!()),
Key::Ctrl => Some(input_event_codes::KEY_LEFTCTRL!()),
Key::Alt => Some(input_event_codes::KEY_LEFTALT!()),
Key::CapsLock => Some(input_event_codes::KEY_CAPSLOCK!()),
Key::Esc => Some(input_event_codes::KEY_ESC!()),
Key::Space => Some(input_event_codes::KEY_SPACE!()),
Key::End => Some(input_event_codes::KEY_END!()),
Key::Home => Some(input_event_codes::KEY_HOME!()),
Key::Left => Some(input_event_codes::KEY_LEFT!()),
Key::Right => Some(input_event_codes::KEY_RIGHT!()),
Key::Up => Some(input_event_codes::KEY_UP!()),
Key::Down => Some(input_event_codes::KEY_DOWN!()),
Key::PageUp => Some(input_event_codes::KEY_PAGEUP!()),
Key::PageDown => Some(input_event_codes::KEY_PAGEDOWN!()),
Key::PrintScreen => Some(input_event_codes::KEY_PRINT!()),
Key::KeyInsert => Some(input_event_codes::KEY_INSERT!()),
Key::Del => Some(input_event_codes::KEY_DELETE!()),
Key::Key0 => Some(input_event_codes::KEY_0!()),
Key::Key1 => Some(input_event_codes::KEY_1!()),
Key::Key2 => Some(input_event_codes::KEY_2!()),
Key::Key3 => Some(input_event_codes::KEY_3!()),
Key::Key4 => Some(input_event_codes::KEY_4!()),
Key::Key5 => Some(input_event_codes::KEY_5!()),
Key::Key6 => Some(input_event_codes::KEY_6!()),
Key::Key7 => Some(input_event_codes::KEY_7!()),
Key::Key8 => Some(input_event_codes::KEY_8!()),
Key::Key9 => Some(input_event_codes::KEY_9!()),
Key::A => Some(input_event_codes::KEY_A!()),
Key::B => Some(input_event_codes::KEY_B!()),
Key::C => Some(input_event_codes::KEY_C!()),
Key::D => Some(input_event_codes::KEY_D!()),
Key::E => Some(input_event_codes::KEY_E!()),
Key::F => Some(input_event_codes::KEY_F!()),
Key::G => Some(input_event_codes::KEY_G!()),
Key::H => Some(input_event_codes::KEY_H!()),
Key::I => Some(input_event_codes::KEY_I!()),
Key::J => Some(input_event_codes::KEY_J!()),
Key::K => Some(input_event_codes::KEY_K!()),
Key::L => Some(input_event_codes::KEY_L!()),
Key::M => Some(input_event_codes::KEY_M!()),
Key::N => Some(input_event_codes::KEY_N!()),
Key::O => Some(input_event_codes::KEY_O!()),
Key::P => Some(input_event_codes::KEY_P!()),
Key::Q => Some(input_event_codes::KEY_Q!()),
Key::R => Some(input_event_codes::KEY_R!()),
Key::S => Some(input_event_codes::KEY_S!()),
Key::T => Some(input_event_codes::KEY_T!()),
Key::U => Some(input_event_codes::KEY_U!()),
Key::V => Some(input_event_codes::KEY_V!()),
Key::W => Some(input_event_codes::KEY_W!()),
Key::X => Some(input_event_codes::KEY_X!()),
Key::Y => Some(input_event_codes::KEY_Y!()),
Key::Z => Some(input_event_codes::KEY_Z!()),
Key::Numpad0 => Some(input_event_codes::KEY_NUMERIC_0!()),
Key::Numpad1 => Some(input_event_codes::KEY_NUMERIC_1!()),
Key::Numpad2 => Some(input_event_codes::KEY_NUMERIC_2!()),
Key::Numpad3 => Some(input_event_codes::KEY_NUMERIC_3!()),
Key::Numpad4 => Some(input_event_codes::KEY_NUMERIC_4!()),
Key::Numpad5 => Some(input_event_codes::KEY_NUMERIC_5!()),
Key::Numpad6 => Some(input_event_codes::KEY_NUMERIC_6!()),
Key::Numpad7 => Some(input_event_codes::KEY_NUMERIC_7!()),
Key::Numpad8 => Some(input_event_codes::KEY_NUMERIC_8!()),
Key::Numpad9 => Some(input_event_codes::KEY_NUMERIC_9!()),
Key::F1 => Some(input_event_codes::KEY_F1!()),
Key::F2 => Some(input_event_codes::KEY_F2!()),
Key::F3 => Some(input_event_codes::KEY_F3!()),
Key::F4 => Some(input_event_codes::KEY_F4!()),
Key::F5 => Some(input_event_codes::KEY_F5!()),
// Key::F6 => Some(input_event_codes::KEY_F6!()),
// Key::F7 => Some(input_event_codes::KEY_F7!()),
// Key::F8 => Some(input_event_codes::KEY_F8!()),
Key::F9 => Some(input_event_codes::KEY_F9!()),
Key::F10 => Some(input_event_codes::KEY_F10!()),
Key::F11 => Some(input_event_codes::KEY_F11!()),
Key::F12 => Some(input_event_codes::KEY_F12!()),
Key::Comma => Some(input_event_codes::KEY_COMMA!()),
Key::Period => Some(input_event_codes::KEY_DOT!()),
Key::SlashFwd => Some(input_event_codes::KEY_SLASH!()),
Key::SlashBack => Some(input_event_codes::KEY_BACKSLASH!()),
Key::Semicolon => Some(input_event_codes::KEY_SEMICOLON!()),
Key::Apostrophe => Some(input_event_codes::KEY_APOSTROPHE!()),
Key::BracketOpen => Some(input_event_codes::KEY_LEFTBRACE!()),
Key::BracketClose => Some(input_event_codes::KEY_RIGHTBRACE!()),
Key::Minus => Some(input_event_codes::KEY_MINUS!()),
Key::Equals => Some(input_event_codes::KEY_EQUAL!()),
Key::Backtick => Some(input_event_codes::KEY_GRAVE!()),
Key::LCmd => Some(input_event_codes::KEY_LEFTMETA!()),
Key::RCmd => Some(input_event_codes::KEY_RIGHTMETA!()),
Key::Multiply => Some(input_event_codes::KEY_NUMERIC_STAR!()),
Key::Add => Some(input_event_codes::KEY_KPPLUS!()),
Key::Subtract => Some(input_event_codes::KEY_MINUS!()),
Key::Decimal => Some(input_event_codes::KEY_DOT!()),
Key::Divide => Some(input_event_codes::KEY_SLASH!()),
_ => None,
}
}

275
src/objects/input/sk.kmp
View File

@@ -1,275 +0,0 @@
xkb_keymap {
default xkb_keycodes "basic" {
minimum = 8;
maximum = 255;
<backspace> = 8;
<tab> = 9;
<return> = 13;
<shift> = 16;
<ctrl> = 17;
<alt> = 18;
<caps_lock> = 20;
<esc> = 27;
<space> = 32;
<end> = 35;
<home> = 36;
<left> = 37;
<right> = 39;
<up> = 38;
<down> = 40;
<page_up> = 33;
<page_down> = 34;
<printscreen> = 42;
<key_insert> = 45;
<del> = 46;
<0> = 48;
<1> = 49;
<2> = 50;
<3> = 51;
<4> = 52;
<5> = 53;
<6> = 54;
<7> = 55;
<8> = 56;
<9> = 57;
<a> = 65;
<b> = 66;
<c> = 67;
<d> = 68;
<e> = 69;
<f> = 70;
<g> = 71;
<h> = 72;
<i> = 73;
<j> = 74;
<k> = 75;
<l> = 76;
<m> = 77;
<n> = 78;
<o> = 79;
<p> = 80;
<q> = 81;
<r> = 82;
<s> = 83;
<t> = 84;
<u> = 85;
<v> = 86;
<w> = 87;
<x> = 88;
<y> = 89;
<z> = 90;
<num0> = 96;
<num1> = 97;
<num2> = 98;
<num3> = 99;
<num4> = 100;
<num5> = 101;
<num6> = 102;
<num7> = 103;
<num8> = 104;
<num9> = 105;
<f1> = 112;
<f2> = 113;
<f3> = 114;
<f4> = 115;
<f5> = 116;
<f6> = 117;
<f7> = 118;
<f8> = 119;
<f9> = 120;
<f10> = 121;
<f11> = 122;
<f12> = 123;
<comma> = 188;
<period> = 190;
<slash_fwd> = 191;
<slash_back> = 220;
<semicolon> = 186;
<apostrophe> = 222;
<bracket_open> = 219;
<bracket_close> = 221;
<minus> = 189;
<equals> = 187;
<backtick> = 192;
<lcmd> = 91;
<rcmd> = 92;
<multiply> = 106;
<add> = 107;
<subtract> = 109;
<decimal> = 110;
<divide> = 111;
};
partial default xkb_types "basic" {
virtual_modifiers Alt;
type "ONE_LEVEL" {
modifiers= none;
level_name[1]= "Any";
};
type "TWO_LEVEL" {
modifiers= Shift;
map[Shift]= 2;
level_name[1]= "Base";
level_name[2]= "Shift";
};
type "ALPHABETIC" {
modifiers= Shift+Lock;
map[Shift]= 2;
map[Lock]= 2;
level_name[1]= "Base";
level_name[2]= "Caps";
};
type "SHIFT+ALT" {
modifiers= Shift+Alt;
map[Shift+Alt]= 2;
level_name[1]= "Base";
level_name[2]= "Shift+Alt";
};
type "PC_CONTROL_LEVEL2" {
modifiers= Control;
map[Control]= 2;
level_name[1]= "Base";
level_name[2]= "Control";
};
};
partial default xkb_compatibility "basic" {
interpret.useModMapMods= AnyLevel;
interpret.repeat= False;
interpret ISO_Level2_Latch+Exactly(Shift) {
useModMapMods=level1;
action= LatchMods(modifiers=Shift,clearLocks,latchToLock);
};
interpret Caps_Lock+AnyOfOrNone(all) {
action= LockMods(modifiers=Lock);
};
indicator "Caps Lock" {
whichModState= locked;
modifiers= Lock;
};
};
default xkb_symbols "basic" {
name[Group1]="English (US)";
key <backspace> { [ BackSpace, BackSpace ] };
key <tab> { [ Tab, ISO_Left_Tab ] };
key <return> { [ Return ] };
key <shift> { [ Shift_L ] };
key <shift> { [ Shift_R ] };
key <ctrl> { [ Control_L ] };
key <ctrl> { [ Control_R ] };
key <alt> { [ Alt_L ] };
key <alt> { [ Alt_R ] };
key <caps_lock> { [ Caps_Lock ] };
key <esc> { [ Escape ] };
key <space> { [ space ] };
key <end> { [ End ] };
key <home> { [ Home ] };
key <left> { [ Left ] };
key <right> { [ Right ] };
key <up> { [ Up ] };
key <down> { [ Down ] };
key <page_up> { [ Page_Up ] };
key <page_down> { [ Page_Down ] };
key <printscreen> { [ Print ] };
key <key_insert> { [ Insert ] };
key <del> { [ Delete ] };
key <1> { [ 1, exclam ] };
key <2> { [ 2, at ] };
key <3> { [ 3, numbersign ] };
key <4> { [ 4, dollar ] };
key <5> { [ 5, percent ] };
key <6> { [ 6, asciicircum ] };
key <7> { [ 7, ampersand ] };
key <8> { [ 8, asterisk ] };
key <9> { [ 9, parenleft ] };
key <0> { [ 0, parenright ] };
key <a> { [ a, A ] };
key <b> { [ b, B ] };
key <c> { [ c, C ] };
key <d> { [ d, D ] };
key <e> { [ e, E ] };
key <f> { [ f, F ] };
key <g> { [ g, G ] };
key <h> { [ h, H ] };
key <i> { [ i, I ] };
key <j> { [ j, J ] };
key <k> { [ k, K ] };
key <l> { [ l, L ] };
key <m> { [ m, M ] };
key <n> { [ n, N ] };
key <o> { [ o, O ] };
key <p> { [ p, P ] };
key <q> { [ q, Q ] };
key <r> { [ r, R ] };
key <s> { [ s, S ] };
key <t> { [ t, T ] };
key <u> { [ u, U ] };
key <v> { [ v, V ] };
key <w> { [ w, W ] };
key <x> { [ x, X ] };
key <y> { [ y, Y ] };
key <z> { [ z, Z ] };
key <num0> { [ KP_0 ] };
key <num1> { [ KP_1 ] };
key <num2> { [ KP_2 ] };
key <num3> { [ KP_3 ] };
key <num4> { [ KP_4 ] };
key <num5> { [ KP_5 ] };
key <num6> { [ KP_6 ] };
key <num7> { [ KP_7 ] };
key <num8> { [ KP_8 ] };
key <num9> { [ KP_9 ] };
key <f1> { [ F1 ] };
key <f2> { [ F2 ] };
key <f3> { [ F3 ] };
key <f4> { [ F4 ] };
key <f5> { [ F5 ] };
key <f6> { [ F6 ] };
key <f7> { [ F7 ] };
key <f8> { [ F8 ] };
key <f9> { [ F9 ] };
key <f10> { [ F10 ] };
key <f11> { [ F11 ] };
key <f12> { [ F12 ] };
key <comma> { [ comma, less ] };
key <period> { [ period, greater ] };
key <slash_fwd> { [ slash, question ] };
key <slash_back> { [ backslash, bar ] };
key <semicolon> { [ semicolon, colon ] };
key <apostrophe> { [ apostrophe ] };
key <bracket_open> { [ bracketleft, braceleft ] };
key <bracket_close> { [ bracketright, braceright ] };
key <minus> { [ minus, underscore ] };
key <equals> { [ equal, plus ] };
key <backtick> { [ grave, asciitilde ] };
key <lcmd> { [ Super_L ] };
key <rcmd> { [ Super_R ] };
key <multiply> { [ KP_Multiply ] };
key <add> { [ KP_Add ] };
key <subtract> { [ KP_Subtract ] };
key <decimal> { [ KP_Decimal ] };
key <divide> { [ KP_Divide ] };
modifier_map Shift { <shift> };
modifier_map Lock { <caps_lock> };
modifier_map Control { <caps_lock> };
modifier_map Mod1 { <alt> };
modifier_map Mod4 { <lcmd>, <rcmd> };
};
};

139
src/objects/input/sk_controller.rs
View File

@@ -1,57 +1,128 @@
use super::{get_sorted_handlers, CaptureManager};
use crate::{
core::client::INTERNAL_CLIENT,
nodes::{
input::{tip::Tip, InputMethod, InputType},
fields::{Field, FieldTrait},
input::{InputDataType, InputHandler, InputMethod, Tip, INPUT_HANDLER_REGISTRY},
spatial::Spatial,
Node,
Node, OwnedNode,
},
objects::{ObjectHandle, SpatialRef},
};
use color_eyre::eyre::Result;
use glam::Mat4;
use nanoid::nanoid;
use stardust_xr::{
schemas::{flat::Datamap, flex::flexbuffers},
values::Transform,
};
use glam::{Mat4, Vec2, Vec3};
use serde::{Deserialize, Serialize};
use stardust_xr::values::Datamap;
use std::sync::Arc;
use stereokit::{ButtonState, Handed, StereoKitMultiThread};
use tracing::instrument;
use stereokit_rust::{
material::Material,
model::Model,
sk::MainThreadToken,
system::{Handed, Input},
util::Color128,
};
use zbus::Connection;
#[derive(Default, Debug, Deserialize, Serialize)]
struct ControllerDatamap {
select: f32,
middle: f32,
context: f32,
grab: f32,
scroll: Vec2,
}
pub struct SkController {
_node: Arc<Node>,
object_handle: ObjectHandle<SpatialRef>,
input: Arc<InputMethod>,
handed: Handed,
model: Model,
material: Material,
capture_manager: CaptureManager,
datamap: ControllerDatamap,
}
impl SkController {
pub fn new(handed: Handed) -> Result<Self> {
let _node = Node::create(&INTERNAL_CLIENT, "", &nanoid!(), false).add_to_scenegraph()?;
Spatial::add_to(&_node, None, Mat4::IDENTITY, false)?;
let tip = InputType::Tip(Tip::default());
let input = InputMethod::add_to(&_node, tip, None)?;
pub fn new(connection: &Connection, handed: Handed) -> Result<Self> {
let (spatial, object_handle) = SpatialRef::create(
connection,
&("/org/stardustxr/Controller/".to_string()
+ match handed {
Handed::Left => "left",
_ => "right",
}),
);
let model = Model::copy(Model::from_memory(
"cursor.glb",
include_bytes!("cursor.glb"),
None,
)?);
let model_nodes = model.get_nodes();
let mut model_node = model_nodes.visuals().next().unwrap();
let material = Material::copy(&model_node.get_material().unwrap());
model_node.material(&material);
let tip = InputDataType::Tip(Tip::default());
let input = InputMethod::add_to(
&spatial.node().unwrap(),
tip,
Datamap::from_typed(ControllerDatamap::default())?,
)?;
Ok(SkController {
_node,
object_handle,
input,
handed,
model,
material,
capture_manager: CaptureManager::default(),
datamap: Default::default(),
})
}
#[instrument(level = "debug", name = "Update StereoKit Tip Input Method", skip_all)]
pub fn update(&mut self, sk: &impl StereoKitMultiThread) {
let controller = sk.input_controller(self.handed);
*self.input.enabled.lock() = controller.tracked.contains(ButtonState::ACTIVE);
if *self.input.enabled.lock() {
self.input.spatial.set_local_transform_components(
None,
Transform::from_position_rotation(
controller.pose.position,
controller.pose.orientation,
),
pub fn update(&mut self, token: &MainThreadToken) {
let controller = Input::controller(self.handed);
let input_node = self.input.spatial.node().unwrap();
input_node.set_enabled(controller.tracked.is_active());
if input_node.enabled() {
let world_transform = Mat4::from_rotation_translation(
controller.aim.orientation.into(),
controller.aim.position.into(),
);
self.material
.color_tint(if self.capture_manager.capture.is_none() {
Color128::new_rgb(1.0, 1.0, 1.0)
} else {
Color128::new_rgb(0.0, 1.0, 0.75)
});
self.model.draw(
token,
world_transform * Mat4::from_scale(Vec3::ONE * 0.02),
None,
None,
);
self.input.spatial.set_local_transform(world_transform);
}
let mut fbb = flexbuffers::Builder::default();
let mut map = fbb.start_map();
map.push("select", controller.trigger);
map.push("grab", controller.grip);
map.end_map();
*self.input.datamap.lock() = Datamap::new(fbb.take_buffer()).ok();
self.datamap = ControllerDatamap {
select: controller.trigger,
middle: controller.stick_click.is_active() as u32 as f32,
context: controller.is_x2_pressed() as u32 as f32,
grab: controller.grip,
scroll: controller.stick.into(),
};
*self.input.datamap.lock() = Datamap::from_typed(&self.datamap).unwrap();
let distance_calculator = |space: &Arc<Spatial>, _data: &InputDataType, field: &Field| {
Some(field.distance(space, [0.0; 3].into()).abs())
};
self.capture_manager.update_capture(&self.input);
self.capture_manager
.set_new_capture(&self.input, distance_calculator);
self.capture_manager.apply_capture(&self.input);
if self.capture_manager.capture.is_some() {
return;
}
let sorted_handlers = get_sorted_handlers(&self.input, distance_calculator);
self.input.set_handler_order(sorted_handlers.iter());
}
}

261
src/objects/input/sk_hand.rs
View File

@@ -1,71 +1,102 @@
use crate::{
core::client::INTERNAL_CLIENT,
nodes::{
input::{hand::Hand, InputMethod, InputType},
spatial::Spatial,
Node,
},
use crate::core::client::INTERNAL_CLIENT;
use crate::nodes::fields::{Field, FieldTrait};
use crate::nodes::input::{InputDataType, InputHandler, INPUT_HANDLER_REGISTRY};
use crate::nodes::OwnedNode;
use crate::nodes::{
input::{Hand, InputMethod, Joint},
spatial::Spatial,
Node,
};
use crate::objects::{ObjectHandle, SpatialRef};
use color_eyre::eyre::Result;
use glam::Mat4;
use nanoid::nanoid;
use stardust_xr::schemas::{
flat::{Datamap, Hand as FlatHand, Joint},
flex::flexbuffers,
};
use glam::{Mat4, Quat, Vec3};
use serde::{Deserialize, Serialize};
use stardust_xr::values::Datamap;
use std::f32::INFINITY;
use std::sync::Arc;
use stereokit::{ButtonState, HandJoint, Handed, StereoKitMultiThread};
use tracing::instrument;
use stereokit_rust::sk::{DisplayMode, MainThreadToken, Sk};
use stereokit_rust::system::{HandJoint, HandSource, Handed, Input, LinePoint, Lines};
use stereokit_rust::util::Color128;
use zbus::Connection;
use super::{get_sorted_handlers, CaptureManager};
fn convert_joint(joint: HandJoint) -> Joint {
Joint {
position: joint.position.into(),
rotation: joint.orientation.into(),
position: Vec3::from(joint.position).into(),
rotation: Quat::from(joint.orientation).into(),
radius: joint.radius,
distance: 0.0,
}
}
#[derive(Default, Deserialize, Serialize)]
struct HandDatamap {
pinch_strength: f32,
grab_strength: f32,
}
pub struct SkHand {
_node: Arc<Node>,
input: Arc<InputMethod>,
_node: OwnedNode,
palm_spatial: Arc<Spatial>,
palm_object: ObjectHandle<SpatialRef>,
handed: Handed,
input: Arc<InputMethod>,
capture_manager: CaptureManager,
datamap: HandDatamap,
}
impl SkHand {
pub fn new(handed: Handed) -> Result<Self> {
let _node = Node::create(&INTERNAL_CLIENT, "", &nanoid!(), false).add_to_scenegraph()?;
Spatial::add_to(&_node, None, Mat4::IDENTITY, false)?;
let hand = InputType::Hand(Box::new(Hand {
base: FlatHand {
right: handed == Handed::Right,
..Default::default()
},
}));
let input = InputMethod::add_to(&_node, hand, None)?;
pub fn new(connection: &Connection, handed: Handed) -> Result<Self> {
let (palm_spatial, palm_object) = SpatialRef::create(
connection,
&("/org/stardustxr/Hand/".to_string()
+ match handed {
Handed::Left => "left",
_ => "right",
} + "/palm"),
);
let _node = Node::generate(&INTERNAL_CLIENT, false).add_to_scenegraph_owned()?;
Spatial::add_to(&_node.0, None, Mat4::IDENTITY, false);
let hand = InputDataType::Hand(Hand {
right: handed == Handed::Right,
..Default::default()
});
let datamap = Datamap::from_typed(HandDatamap::default())?;
let input = InputMethod::add_to(&_node.0, hand, datamap)?;
Input::hand_visible(handed, false);
Ok(SkHand {
_node,
input,
palm_spatial,
palm_object,
handed,
input,
capture_manager: CaptureManager::default(),
datamap: Default::default(),
})
}
#[instrument(level = "debug", name = "Update Hand Input Method", skip_all)]
pub fn update(&mut self, sk: &impl StereoKitMultiThread) {
let sk_hand = sk.input_hand(self.handed);
if let InputType::Hand(hand) = &mut *self.input.specialization.lock() {
let controller = sk.input_controller(self.handed);
*self.input.enabled.lock() = controller.tracked.contains(ButtonState::INACTIVE)
&& sk_hand.tracked_state.contains(ButtonState::ACTIVE);
if *self.input.enabled.lock() {
hand.base.thumb.tip = convert_joint(sk_hand.fingers[0][4]);
hand.base.thumb.distal = convert_joint(sk_hand.fingers[0][3]);
hand.base.thumb.proximal = convert_joint(sk_hand.fingers[0][2]);
hand.base.thumb.metacarpal = convert_joint(sk_hand.fingers[0][1]);
pub fn update(&mut self, sk: &Sk, token: &MainThreadToken) {
let sk_hand = Input::hand(self.handed);
let real_hand = Input::hand_source(self.handed) as u32 == HandSource::Articulated as u32;
if let InputDataType::Hand(hand) = &mut *self.input.data.lock() {
let input_node = self.input.spatial.node().unwrap();
input_node.set_enabled(
(real_hand || sk.get_active_display_mode() == DisplayMode::Flatscreen)
&& sk_hand.tracked.is_active(),
);
if input_node.enabled() {
hand.thumb.tip = convert_joint(sk_hand.fingers[0][4]);
hand.thumb.distal = convert_joint(sk_hand.fingers[0][3]);
hand.thumb.proximal = convert_joint(sk_hand.fingers[0][2]);
hand.thumb.metacarpal = convert_joint(sk_hand.fingers[0][1]);
for (finger, sk_finger) in [
(&mut hand.base.index, sk_hand.fingers[1]),
(&mut hand.base.middle, sk_hand.fingers[2]),
(&mut hand.base.ring, sk_hand.fingers[3]),
(&mut hand.base.little, sk_hand.fingers[4]),
for (finger, mut sk_finger) in [
(&mut hand.index, sk_hand.fingers[1]),
(&mut hand.middle, sk_hand.fingers[2]),
(&mut hand.ring, sk_hand.fingers[3]),
(&mut hand.little, sk_hand.fingers[4]),
] {
sk_finger[4].radius = 0.0;
finger.tip = convert_joint(sk_finger[4]);
finger.distal = convert_joint(sk_finger[3]);
finger.intermediate = convert_joint(sk_finger[2]);
@@ -73,24 +104,134 @@ impl SkHand {
finger.metacarpal = convert_joint(sk_finger[0]);
}
hand.base.palm.position = sk_hand.palm.position.into();
hand.base.palm.rotation = sk_hand.palm.orientation.into();
hand.base.palm.radius =
hand.palm.position = Vec3::from(sk_hand.palm.position).into();
hand.palm.rotation = Quat::from(sk_hand.palm.orientation).into();
hand.palm.radius =
(sk_hand.fingers[2][0].radius + sk_hand.fingers[2][1].radius) * 0.5;
hand.base.wrist.position = sk_hand.wrist.position.into();
hand.base.wrist.rotation = sk_hand.wrist.orientation.into();
hand.base.wrist.radius =
self.palm_spatial
.set_local_transform(Mat4::from_rotation_translation(
hand.palm.rotation.into(),
hand.palm.position.into(),
));
hand.wrist.position = Vec3::from(sk_hand.wrist.position).into();
hand.wrist.rotation = Quat::from(sk_hand.wrist.orientation).into();
hand.wrist.radius =
(sk_hand.fingers[0][0].radius + sk_hand.fingers[4][0].radius) * 0.5;
hand.base.elbow = None;
hand.elbow = None;
self.draw(
token,
if self.capture_manager.capture.is_none() {
Color128::new_rgb(1.0, 1.0, 1.0)
} else {
Color128::new_rgb(0.0, 1.0, 0.75)
},
hand,
);
}
}
let mut fbb = flexbuffers::Builder::default();
let mut map = fbb.start_map();
map.push("grab_strength", sk_hand.grip_activation);
map.push("pinch_strength", sk_hand.pinch_activation);
map.end_map();
*self.input.datamap.lock() = Datamap::new(fbb.take_buffer()).ok();
self.datamap.pinch_strength = sk_hand.pinch_activation;
self.datamap.grab_strength = sk_hand.grip_activation;
*self.input.datamap.lock() = Datamap::from_typed(&self.datamap).unwrap();
let distance_calculator = |space: &Arc<Spatial>, data: &InputDataType, field: &Field| {
let InputDataType::Hand(hand) = data else {
return None;
};
let thumb_tip_distance = field.distance(space, hand.thumb.tip.position.into());
let index_tip_distance = field.distance(space, hand.index.tip.position.into());
let middle_tip_distance = field.distance(space, hand.middle.tip.position.into());
let ring_tip_distance = field.distance(space, hand.ring.tip.position.into());
Some(
(thumb_tip_distance * 0.3)
+ (index_tip_distance * 0.4)
+ (middle_tip_distance * 0.15)
+ (ring_tip_distance * 0.15),
)
};
self.capture_manager.update_capture(&self.input);
self.capture_manager
.set_new_capture(&self.input, distance_calculator);
self.capture_manager.apply_capture(&self.input);
if self.capture_manager.capture.is_some() {
return;
}
let sorted_handlers = get_sorted_handlers(&self.input, distance_calculator);
self.input.set_handler_order(sorted_handlers.iter());
}
fn draw(&self, token: &MainThreadToken, color: Color128, hand: &Hand) {
// thumb
Lines::add_list(
token,
&[
joint_to_line_point(&hand.thumb.tip, color),
joint_to_line_point(&hand.thumb.distal, color),
joint_to_line_point(&hand.thumb.proximal, color),
joint_to_line_point(&hand.thumb.metacarpal, color),
],
);
// index
Lines::add_list(
token,
&[
joint_to_line_point(&hand.index.tip, color),
joint_to_line_point(&hand.index.distal, color),
joint_to_line_point(&hand.index.intermediate, color),
joint_to_line_point(&hand.index.proximal, color),
joint_to_line_point(&hand.index.metacarpal, color),
],
);
// middle
Lines::add_list(
token,
&[
joint_to_line_point(&hand.middle.tip, color),
joint_to_line_point(&hand.middle.distal, color),
joint_to_line_point(&hand.middle.intermediate, color),
joint_to_line_point(&hand.middle.proximal, color),
joint_to_line_point(&hand.middle.metacarpal, color),
],
);
// ring
Lines::add_list(
token,
&[
joint_to_line_point(&hand.ring.tip, color),
joint_to_line_point(&hand.ring.distal, color),
joint_to_line_point(&hand.ring.intermediate, color),
joint_to_line_point(&hand.ring.proximal, color),
joint_to_line_point(&hand.ring.metacarpal, color),
],
);
// palm
Lines::add_list(
token,
&[
joint_to_line_point(&hand.wrist, color),
joint_to_line_point(&hand.thumb.metacarpal, color),
joint_to_line_point(&hand.index.metacarpal, color),
joint_to_line_point(&hand.middle.metacarpal, color),
joint_to_line_point(&hand.ring.metacarpal, color),
joint_to_line_point(&hand.little.metacarpal, color),
joint_to_line_point(&hand.wrist, color),
],
);
}
}
fn joint_to_line_point(joint: &Joint, color: Color128) -> LinePoint {
LinePoint {
pt: Vec3::from(joint.position).into(),
thickness: joint.radius * 2.0,
color: color.into(),
}
}

273
src/objects/mod.rs
View File

@@ -1 +1,274 @@
#![allow(unused)]
use crate::{
core::client::INTERNAL_CLIENT,
nodes::{
fields::{Field, Shape, EXPORTED_FIELDS},
spatial::{Spatial, EXPORTED_SPATIALS},
Node, OwnedNode,
},
};
use glam::{vec3, Mat4};
use input::{
eye_pointer::EyePointer, mouse_pointer::MousePointer, sk_controller::SkController,
sk_hand::SkHand,
};
use play_space::PlaySpaceBounds;
use std::{marker::PhantomData, sync::Arc};
use stereokit_rust::{
sk::{DisplayMode, MainThreadToken, Sk},
system::{Handed, Input, Key, World},
util::Device,
};
use zbus::{interface, object_server::Interface, zvariant::OwnedObjectPath, Connection};
pub mod input;
pub mod play_space;
enum Inputs {
XR {
controller_left: SkController,
controller_right: SkController,
hand_left: SkHand,
hand_right: SkHand,
eye_pointer: Option<EyePointer>,
},
MousePointer(MousePointer),
// Controllers((SkController, SkController)),
Hands {
left: SkHand,
right: SkHand,
},
}
pub struct ServerObjects {
connection: Connection,
hmd: (Arc<Spatial>, ObjectHandle<SpatialRef>),
play_space: Option<(Arc<Spatial>, ObjectHandle<SpatialRef>)>,
inputs: Inputs,
disable_controllers: bool,
disable_hands: bool,
}
impl ServerObjects {
pub fn new(
connection: Connection,
sk: &Sk,
disable_controllers: bool,
disable_hands: bool,
) -> ServerObjects {
let hmd = SpatialRef::create(&connection, "/org/stardustxr/HMD");
let play_space = (World::has_bounds()
&& World::get_bounds_size().x != 0.0
&& World::get_bounds_size().y != 0.0)
.then(|| SpatialRef::create(&connection, "/org/stardustxr/PlaySpace"));
if play_space.is_some() {
let dbus_connection = connection.clone();
tokio::task::spawn(async move {
PlaySpaceBounds::create(&dbus_connection).await;
dbus_connection
.request_name("org.stardustxr.PlaySpace")
.await
.unwrap();
});
}
tokio::task::spawn({
let connection = connection.clone();
async move {
connection
.request_name("org.stardustxr.Controllers")
.await
.unwrap();
connection
.request_name("org.stardustxr.Hands")
.await
.unwrap();
}
});
let inputs = if sk.get_active_display_mode() == DisplayMode::MixedReality {
Inputs::XR {
controller_left: SkController::new(&connection, Handed::Left).unwrap(),
controller_right: SkController::new(&connection, Handed::Right).unwrap(),
hand_left: SkHand::new(&connection, Handed::Left).unwrap(),
hand_right: SkHand::new(&connection, Handed::Right).unwrap(),
eye_pointer: Device::has_eye_gaze()
.then(EyePointer::new)
.transpose()
.unwrap(),
}
} else {
Inputs::MousePointer(MousePointer::new().unwrap())
};
ServerObjects {
connection,
hmd,
play_space,
inputs,
disable_controllers,
disable_hands,
}
}
pub fn update(&mut self, sk: &Sk, token: &MainThreadToken) {
let hmd_pose = Input::get_head();
self.hmd
.0
.set_local_transform(Mat4::from_scale_rotation_translation(
vec3(1.0, 1.0, 1.0),
hmd_pose.orientation.into(),
hmd_pose.position.into(),
));
if let Some(play_space) = self.play_space.as_ref() {
let pose = World::get_bounds_pose();
play_space
.0
.set_local_transform(Mat4::from_rotation_translation(
pose.orientation.into(),
pose.position.into(),
));
}
if sk.get_active_display_mode() != DisplayMode::MixedReality {
if Input::key(Key::F6).is_just_inactive() {
self.inputs = Inputs::MousePointer(MousePointer::new().unwrap());
}
// if Input::key(Key::F7).is_just_inactive() {
// self.inputs = Inputs::Controllers((
// SkController::new(Handed::Left).unwrap(),
// SkController::new(Handed::Right).unwrap(),
// ));
// }
if Input::key(Key::F8).is_just_inactive() {
self.inputs = Inputs::Hands {
left: SkHand::new(&self.connection, Handed::Left).unwrap(),
right: SkHand::new(&self.connection, Handed::Right).unwrap(),
};
}
}
match &mut self.inputs {
Inputs::XR {
controller_left,
controller_right,
hand_left,
hand_right,
eye_pointer,
} => {
if !self.disable_controllers {
controller_left.update(token);
controller_right.update(token);
}
if !self.disable_hands {
hand_left.update(sk, token);
hand_right.update(sk, token);
}
if let Some(eye_pointer) = eye_pointer {
eye_pointer.update();
}
}
Inputs::MousePointer(mouse_pointer) => mouse_pointer.update(),
// Inputs::Controllers((left, right)) => {
// left.update(token);
// right.update(token);
// }
Inputs::Hands { left, right } => {
left.update(sk, token);
right.update(sk, token);
}
}
}
}
pub struct ObjectHandle<I: Interface>(Connection, OwnedObjectPath, PhantomData<I>);
impl<I: Interface> Drop for ObjectHandle<I> {
fn drop(&mut self) {
let connection = self.0.clone();
let object_path = self.1.clone();
tokio::task::spawn(async move {
connection.object_server().remove::<I, _>(object_path);
});
}
}
pub struct SpatialRef(u64, OwnedNode);
impl SpatialRef {
pub fn create(connection: &Connection, path: &str) -> (Arc<Spatial>, ObjectHandle<SpatialRef>) {
let node = OwnedNode(Arc::new(Node::generate(&INTERNAL_CLIENT, false)));
let spatial = Spatial::add_to(&node.0, None, Mat4::IDENTITY, false);
let uid: u64 = rand::random();
EXPORTED_SPATIALS.lock().insert(uid, node.0.clone());
tokio::task::spawn({
let connection = connection.clone();
let path = path.to_string();
async move {
connection
.object_server()
.at(path, Self(uid, node))
.await
.unwrap();
}
});
(
spatial,
ObjectHandle(
connection.clone(),
OwnedObjectPath::try_from(path.to_string()).unwrap(),
PhantomData,
),
)
}
}
#[interface(name = "org.stardustxr.SpatialRef")]
impl SpatialRef {
#[zbus(property)]
fn uid(&self) -> u64 {
self.0
}
}
pub struct FieldRef(u64, OwnedNode);
impl FieldRef {
pub fn create(
connection: &Connection,
path: &str,
shape: Shape,
) -> (Arc<Field>, ObjectHandle<FieldRef>) {
let node = OwnedNode(Arc::new(Node::generate(&INTERNAL_CLIENT, false)));
Spatial::add_to(&node.0, None, Mat4::IDENTITY, false);
let field = Field::add_to(&node.0, shape).unwrap();
let uid: u64 = rand::random();
EXPORTED_FIELDS.lock().insert(uid, node.0.clone());
tokio::task::spawn({
let connection = connection.clone();
let path = path.to_string();
async move {
connection
.object_server()
.at(path, Self(uid, node))
.await
.unwrap();
}
});
(
field,
ObjectHandle(
connection.clone(),
OwnedObjectPath::try_from(path.to_string()).unwrap(),
PhantomData,
),
)
}
}
#[interface(name = "org.stardustxr.FieldRef")]
impl FieldRef {
#[zbus(property)]
fn uid(&self) -> u64 {
self.0
}
}

26
src/objects/play_space.rs Normal file
View File

@@ -0,0 +1,26 @@
use stereokit_rust::system::World;
use zbus::{interface, Connection, ObjectServer};
pub struct PlaySpaceBounds;
impl PlaySpaceBounds {
pub async fn create(connection: &Connection) {
connection
.object_server()
.at("/org/stardustxr/PlaySpace", Self)
.await
.unwrap();
}
}
#[interface(name = "org.stardustxr.PlaySpace")]
impl PlaySpaceBounds {
#[zbus(property)]
fn bounds(&self) -> Vec<(f64, f64)> {
let bounds = World::get_bounds_size();
vec![
((bounds.x).into(), (bounds.y).into()),
((bounds.x).into(), (-bounds.y).into()),
((-bounds.x).into(), (-bounds.y).into()),
((-bounds.x).into(), (bounds.y).into()),
]
}
}

114
src/session.rs Normal file
View File

@@ -0,0 +1,114 @@
use crate::core::client::CLIENTS;
use crate::core::client_state::ClientStateParsed;
#[cfg(feature = "wayland")]
use crate::wayland::WAYLAND_DISPLAY;
use crate::{CliArgs, STARDUST_INSTANCE};
use directories::ProjectDirs;
use rustc_hash::FxHashMap;
use std::os::unix::fs::PermissionsExt;
use std::path::Path;
use std::process::{Child, Command, Stdio};
use std::time::Duration;
use tokio::task::LocalSet;
use tracing::info;
pub async fn save_session(project_dirs: &ProjectDirs) {
let session_id = nanoid::nanoid!();
let state_dir = project_dirs.state_dir().unwrap();
let session_dir = state_dir.join(&session_id);
std::fs::create_dir_all(&session_dir).unwrap();
let _ = std::fs::remove_dir_all(state_dir.join("latest"));
std::os::unix::fs::symlink(&session_dir, state_dir.join("latest")).unwrap();
let local_set = LocalSet::new();
for client in CLIENTS.get_vec() {
let session_dir = session_dir.clone();
local_set.spawn_local(async move {
tokio::select! {
biased;
s = client.save_state() => {if let Some(s) = s { s.to_file(&session_dir) }},
_ = tokio::time::sleep(Duration::from_millis(100)) => (),
}
});
}
local_set.await;
info!("Session ID for restore is {session_id}");
}
pub fn launch_start(cli_args: &CliArgs, project_dirs: &ProjectDirs) -> Vec<Child> {
match (&cli_args.restore, &cli_args.startup_script) {
(Some(session_id), _) => restore_session(
&project_dirs.state_dir().unwrap().join(session_id),
cli_args.debug_launched_clients,
),
(None, Some(startup_script)) => run_script(
&startup_script.clone().canonicalize().unwrap_or_default(),
cli_args.debug_launched_clients,
),
(None, None) => run_script(
&project_dirs.config_dir().join("startup"),
cli_args.debug_launched_clients,
),
}
}
pub fn restore_session(session_dir: &Path, debug_launched_clients: bool) -> Vec<Child> {
let Ok(clients) = session_dir.read_dir() else {
return Vec::new();
};
clients
.filter_map(Result::ok)
.filter_map(|c| ClientStateParsed::from_file(&c.path()))
.filter_map(ClientStateParsed::launch_command)
.filter_map(|c| run_client(c, debug_launched_clients))
.collect()
}
pub fn run_script(script_path: &Path, debug_launched_clients: bool) -> Vec<Child> {
let _ = std::fs::set_permissions(script_path, std::fs::Permissions::from_mode(0o755));
let startup_command = Command::new(script_path);
run_client(startup_command, debug_launched_clients)
.map(|c| vec![c])
.unwrap_or_default()
}
pub fn run_client(mut command: Command, debug_launched_clients: bool) -> Option<Child> {
command.stdin(Stdio::null());
if !debug_launched_clients {
command.stdout(Stdio::null());
command.stderr(Stdio::null());
}
for (var, value) in connection_env() {
command.env(var, value);
}
let child = command.spawn().ok()?;
Some(child)
}
pub fn connection_env() -> FxHashMap<String, String> {
macro_rules! var_env_insert {
($env:ident, $name:ident) => {
$env.insert(stringify!($name).to_string(), $name.get().unwrap().clone());
};
}
let mut env: FxHashMap<String, String> = FxHashMap::default();
var_env_insert!(env, STARDUST_INSTANCE);
if let Some(flat_wayland_display) = std::env::var_os("WAYLAND_DISPLAY") {
env.insert(
"FLAT_WAYLAND_DISPLAY".to_string(),
flat_wayland_display.to_string_lossy().into_owned(),
);
}
#[cfg(feature = "wayland")]
{
var_env_insert!(env, WAYLAND_DISPLAY);
env.insert("GDK_BACKEND".to_string(), "wayland".to_string());
env.insert("QT_QPA_PLATFORM".to_string(), "wayland".to_string());
env.insert("MOZ_ENABLE_WAYLAND".to_string(), "1".to_string());
env.insert("CLUTTER_BACKEND".to_string(), "wayland".to_string());
env.insert("SDL_VIDEODRIVER".to_string(), "wayland".to_string());
}
env
}

108
src/wayland/compositor.rs
View File

@@ -1,11 +1,22 @@
use crate::wayland::surface::CoreSurface;
use super::state::{ClientState, WaylandState};
use super::{
state::{ClientState, WaylandState},
utils::{ChildInfoExt, WlSurfaceExt},
xdg_shell::surface_panel_item,
};
use crate::{
nodes::items::panel::{ChildInfo, Geometry, SurfaceId},
wayland::surface::CoreSurface,
};
use parking_lot::Mutex;
use portable_atomic::{AtomicU32, Ordering};
use rand::Rng;
use smithay::{
backend::renderer::utils::{on_commit_buffer_handler, RendererSurfaceStateUserData},
delegate_compositor,
reexports::wayland_server::{protocol::wl_surface::WlSurface, Client},
wayland::compositor::{self, CompositorClientState, CompositorHandler, CompositorState},
wayland::compositor::{
self, add_post_commit_hook, CompositorClientState, CompositorHandler, CompositorState,
},
};
use std::sync::Arc;
use tracing::debug;
@@ -17,29 +28,100 @@ impl CompositorHandler for WaylandState {
fn commit(&mut self, surface: &WlSurface) {
debug!(?surface, "Surface commit");
on_commit_buffer_handler::<WaylandState>(surface);
let mut count = 0;
let core_surface = compositor::with_states(surface, |data| {
compositor::with_states(surface, |data| {
let count_new = data
.data_map
.insert_if_missing_threadsafe(|| AtomicU32::new(0));
if !count_new {
count = data
.data_map
.get::<AtomicU32>()
.unwrap()
.fetch_add(1, Ordering::Relaxed);
if let Some(stored_count) = data.data_map.get::<AtomicU32>() {
count = stored_count.fetch_add(1, Ordering::Relaxed);
}
}
data.data_map.get::<Arc<CoreSurface>>().cloned()
});
if let Some(core_surface) = core_surface {
core_surface.commit(count);
}
}
fn client_compositor_state<'a>(&self, client: &'a Client) -> &'a CompositorClientState {
&client.get_data::<ClientState>().unwrap().compositor_state
}
fn new_subsurface(&mut self, surface: &WlSurface, parent: &WlSurface) {
let id = rand::thread_rng().gen_range(0..u64::MAX);
surface.insert_data(SurfaceId::Child(id));
CoreSurface::add_to(surface);
let Some(parent_surface_id) = parent.get_data::<SurfaceId>() else {
return;
};
surface.insert_data(Mutex::new(ChildInfo {
id,
parent: parent_surface_id,
geometry: Geometry {
origin: [0; 2].into(),
size: [256; 2].into(),
},
z_order: 1,
receives_input: false,
}));
let Some(panel_item) = surface_panel_item(parent) else {
return;
};
let panel_item_weak = Arc::downgrade(&panel_item);
add_post_commit_hook(surface, move |_: &mut WaylandState, _dh, surf| {
if surface_panel_item(surf).is_some() {
return;
}
surf.insert_data(panel_item_weak.clone());
let Some(panel_item) = surface_panel_item(surf) else {
return;
};
panel_item.backend.new_child(surf);
});
add_post_commit_hook(surface, move |_: &mut WaylandState, _dh, surf| {
let Some(view) = surf
.get_data_raw::<RendererSurfaceStateUserData, _, _>(|s| s.lock().ok()?.view())
.flatten()
else {
return;
};
let mut changed = false;
surf.with_child_info(|info| {
if info.geometry.origin.x != view.offset.x
&& info.geometry.origin.y != view.offset.y
{
changed = true;
}
if info.geometry.size.x != view.dst.w as u32
&& info.geometry.size.y != view.dst.h as u32
{
changed = true;
}
info.geometry.size = [view.dst.w as u32, view.dst.h as u32].into();
});
let Some(panel_item) = surface_panel_item(surf) else {
return;
};
if changed {
panel_item.backend.reposition_child(surf);
}
});
}
fn destroyed(&mut self, surface: &WlSurface) {
let Some(panel_item) = surface_panel_item(surface) else {
return;
};
if surface.get_child_info().is_some() {
panel_item.backend.drop_child(surface);
}
}
}
delegate_compositor!(WaylandState);

5
src/wayland/decoration.rs
View File

@@ -88,9 +88,10 @@ impl KdeDecorationHandler for WaylandState {
&mut self,
_surface: &WlSurface,
decoration: &OrgKdeKwinServerDecoration,
_mode: WEnum<KdeMode>,
mode: WEnum<KdeMode>,
) {
decoration.mode(KdeMode::Server);
let Ok(mode) = mode.into_result() else { return };
decoration.mode(mode);
}
}
delegate_kde_decoration!(WaylandState);

144
src/wayland/drm.rs Normal file
View File

@@ -0,0 +1,144 @@
// SPDX-License-Identifier: GPL-3.0-only
// Re-export only the actual code, and then only use this re-export
// The `generated` module below is just some boilerplate to properly isolate stuff
// and avoid exposing internal details.
//
// You can use all the types from my_protocol as if they went from `wayland_client::protocol`.
pub use generated::wl_drm;
#[allow(non_upper_case_globals, non_camel_case_types)]
mod generated {
use smithay::reexports::wayland_server::{self, protocol::*};
pub mod __interfaces {
use smithay::reexports::wayland_server::protocol::__interfaces::*;
wayland_scanner::generate_interfaces!("src/wayland/wayland-drm.xml");
}
use self::__interfaces::*;
wayland_scanner::generate_server_code!("src/wayland/wayland-drm.xml");
}
use super::state::WaylandState;
use smithay::{
backend::allocator::{
dmabuf::{Dmabuf, DmabufFlags},
Fourcc, Modifier,
},
reexports::wayland_server::{
Client, DataInit, Dispatch, DisplayHandle, GlobalDispatch, New, Resource,
},
};
use std::convert::TryFrom;
impl GlobalDispatch<wl_drm::WlDrm, (), WaylandState> for WaylandState {
fn bind(
state: &mut WaylandState,
_dh: &DisplayHandle,
_client: &Client,
resource: New<wl_drm::WlDrm>,
_global_data: &(),
data_init: &mut DataInit<'_, WaylandState>,
) {
let drm_instance = data_init.init(resource, ());
drm_instance.device("/dev/dri/renderD128".to_string());
if drm_instance.version() >= 2 {
drm_instance.capabilities(wl_drm::Capability::Prime as u32);
}
for format in state.drm_formats.iter() {
if let Ok(converted) = wl_drm::Format::try_from(*format as u32) {
drm_instance.format(converted as u32);
}
}
}
fn can_view(_client: Client, _global_dataa: &()) -> bool {
true
}
}
impl Dispatch<wl_drm::WlDrm, (), WaylandState> for WaylandState {
fn request(
state: &mut WaylandState,
_client: &Client,
drm: &wl_drm::WlDrm,
request: wl_drm::Request,
_data: &(),
_dh: &DisplayHandle,
data_init: &mut DataInit<'_, WaylandState>,
) {
match request {
wl_drm::Request::Authenticate { .. } => drm.authenticated(),
wl_drm::Request::CreateBuffer { .. } => drm.post_error(
wl_drm::Error::InvalidName,
String::from("Flink handles are unsupported, use PRIME"),
),
wl_drm::Request::CreatePlanarBuffer { .. } => drm.post_error(
wl_drm::Error::InvalidName,
String::from("Flink handles are unsupported, use PRIME"),
),
wl_drm::Request::CreatePrimeBuffer {
id,
name,
width,
height,
format,
offset0,
stride0,
..
} => {
let format = match Fourcc::try_from(format) {
Ok(format) => {
if !state.drm_formats.contains(&format) {
drm.post_error(
wl_drm::Error::InvalidFormat,
String::from("Format not advertised by wl_drm"),
);
return;
}
format
}
Err(_) => {
drm.post_error(
wl_drm::Error::InvalidFormat,
String::from("Format unknown / not advertised by wl_drm"),
);
return;
}
};
if width < 1 || height < 1 {
drm.post_error(
wl_drm::Error::InvalidFormat,
String::from("width or height not positive"),
);
return;
}
let mut dma = Dmabuf::builder(
(width, height),
format,
Modifier::Invalid,
DmabufFlags::empty(),
);
dma.add_plane(name, 0, offset0 as u32, stride0 as u32);
match dma.build() {
Some(dmabuf) => {
state.dmabuf_tx.send((dmabuf.clone(), None)).unwrap();
data_init.init(id, dmabuf);
}
None => {
// Buffer import failed. The protocol documentation heavily implies killing the
// client is the right thing to do here.
drm.post_error(
wl_drm::Error::InvalidName,
"dmabuf global was destroyed on server",
);
}
}
}
}
}
}

153
src/wayland/mod.rs
View File

@@ -1,40 +1,46 @@
mod compositor;
mod data_device;
mod decoration;
pub mod panel_item;
mod seat;
mod shaders;
mod state;
mod surface;
// mod xdg_activation;
mod drm;
mod utils;
mod xdg_shell;
use self::{state::WaylandState, surface::CORE_SURFACES};
use crate::{core::task, wayland::state::ClientState};
use color_eyre::eyre::{ensure, Result};
use global_counter::primitive::exact::CounterU32;
use once_cell::sync::OnceCell;
use parking_lot::Mutex;
use sk::StereoKitDraw;
use smithay::backend::allocator::dmabuf::Dmabuf;
use smithay::backend::egl::EGLContext;
use smithay::backend::renderer::gles::GlesRenderer;
use smithay::reexports::wayland_server::{backend::GlobalId, Display, ListeningSocket};
use smithay::backend::renderer::{ImportDma, Renderer};
use smithay::output::Output;
use smithay::reexports::wayland_server::backend::ClientId;
use smithay::reexports::wayland_server::DisplayHandle;
use smithay::reexports::wayland_server::{Display, ListeningSocket};
use smithay::wayland::dmabuf;
use std::ffi::OsStr;
use std::os::fd::{IntoRawFd, OwnedFd};
use std::os::unix::prelude::AsRawFd;
use std::{
ffi::c_void,
os::unix::{net::UnixListener, prelude::FromRawFd},
sync::Arc,
};
use stereokit as sk;
use stereokit_rust::system::{Backend, BackendGraphics};
use tokio::io::unix::AsyncFdReadyGuard;
use tokio::sync::mpsc::UnboundedReceiver;
use tokio::{
io::unix::AsyncFd, net::UnixListener as AsyncUnixListener, sync::mpsc, task::JoinHandle,
};
use tracing::{debug, debug_span, info, instrument};
use tracing::{debug_span, info, instrument};
pub static WAYLAND_DISPLAY: OnceCell<String> = OnceCell::new();
pub static SERIAL_COUNTER: CounterU32 = CounterU32::new(0);
struct EGLRawHandles {
display: *const c_void,
config: *const c_void,
@@ -42,28 +48,56 @@ struct EGLRawHandles {
}
fn get_sk_egl() -> Result<EGLRawHandles> {
ensure!(
unsafe { sk::sys::backend_graphics_get() }
== sk::sys::backend_graphics__backend_graphics_opengles_egl,
Backend::graphics() == BackendGraphics::OpenGLESEGL,
"StereoKit is not running using EGL!"
);
Ok(unsafe {
EGLRawHandles {
display: sk::sys::backend_opengl_egl_get_display() as *const c_void,
config: sk::sys::backend_opengl_egl_get_config() as *const c_void,
context: sk::sys::backend_opengl_egl_get_context() as *const c_void,
display: stereokit_rust::system::backend_opengl_egl_get_display() as *const c_void,
config: stereokit_rust::system::backend_opengl_egl_get_config() as *const c_void,
context: stereokit_rust::system::backend_opengl_egl_get_context() as *const c_void,
}
})
}
static GLOBAL_DESTROY_QUEUE: OnceCell<mpsc::Sender<GlobalId>> = OnceCell::new();
pub struct DisplayWrapper(Mutex<Display<WaylandState>>, DisplayHandle);
impl DisplayWrapper {
pub fn handle(&self) -> DisplayHandle {
self.1.clone()
}
pub fn dispatch_clients(&self, state: &mut WaylandState) -> Result<usize, std::io::Error> {
self.0.lock().dispatch_clients(state)
}
pub fn flush_clients(&self, client: Option<ClientId>) {
if let Some(mut lock) = self.0.try_lock() {
let _ = lock.backend().flush(client);
}
}
pub fn poll_fd(&self) -> Result<OwnedFd, std::io::Error> {
self.0.lock().backend().poll_fd().try_clone_to_owned()
}
}
struct UnownedFd(Option<AsyncFd<OwnedFd>>);
impl UnownedFd {
async fn readable(&self) -> std::io::Result<AsyncFdReadyGuard<'_, OwnedFd>> {
self.0.as_ref().unwrap().readable().await
}
}
impl Drop for UnownedFd {
fn drop(&mut self) {
self.0.take().unwrap().into_inner().into_raw_fd();
}
}
pub struct Wayland {
display: Arc<Mutex<Display<WaylandState>>>,
pub socket_name: String,
display: Arc<DisplayWrapper>,
pub socket_name: Option<String>,
join_handle: JoinHandle<Result<()>>,
renderer: GlesRenderer,
state: Arc<Mutex<WaylandState>>,
output: Output,
dmabuf_rx: UnboundedReceiver<(Dmabuf, Option<dmabuf::ImportNotifier>)>,
}
impl Wayland {
pub fn new() -> Result<Self> {
@@ -79,95 +113,102 @@ impl Wayland {
let display: Display<WaylandState> = Display::new()?;
let display_handle = display.handle();
let display = Arc::new(Mutex::new(display));
let state = WaylandState::new(display.clone(), display_handle, &renderer);
let (dmabuf_tx, dmabuf_rx) = mpsc::unbounded_channel();
let display = Arc::new(DisplayWrapper(Mutex::new(display), display_handle.clone()));
let (global_destroy_queue_in, global_destroy_queue) = mpsc::channel(8);
GLOBAL_DESTROY_QUEUE.set(global_destroy_queue_in).unwrap();
let wayland_state = WaylandState::new(display_handle.clone(), &renderer, dmabuf_tx);
let output = wayland_state.lock().output.clone();
let socket = ListeningSocket::bind_auto("wayland", 0..33)?;
let socket_name = socket.socket_name().unwrap().to_str().unwrap().to_string();
WAYLAND_DISPLAY
.set(socket_name.clone())
.expect("seriously message nova this time they screwed up big time");
let socket_name = socket
.socket_name()
.and_then(OsStr::to_str)
.map(ToString::to_string);
if let Some(socket_name) = &socket_name {
let _ = WAYLAND_DISPLAY.set(socket_name.clone());
}
info!(socket_name, "Wayland active");
let join_handle =
Wayland::start_loop(display.clone(), socket, state.clone(), global_destroy_queue)?;
let join_handle = Wayland::start_loop(display.clone(), socket, wayland_state)?;
Ok(Wayland {
display,
socket_name,
join_handle,
renderer,
state,
output,
dmabuf_rx,
})
}
fn start_loop(
display: Arc<Mutex<Display<WaylandState>>>,
display: Arc<DisplayWrapper>,
socket: ListeningSocket,
state: Arc<Mutex<WaylandState>>,
mut global_destroy_queue: mpsc::Receiver<GlobalId>,
) -> Result<JoinHandle<Result<()>>> {
let listen_async =
AsyncUnixListener::from_std(unsafe { UnixListener::from_raw_fd(socket.as_raw_fd()) })?;
let dispatch_poll_fd = display.lock().backend().poll_fd().try_clone_to_owned()?;
let dispatch_poll_listener = AsyncFd::new(dispatch_poll_fd)?;
let dispatch_poll_fd = display.poll_fd()?;
let dispatch_poll_listener = UnownedFd(Some(AsyncFd::new(dispatch_poll_fd)?));
let dh1 = display.lock().handle();
let dh1 = display.handle();
let mut dh2 = dh1.clone();
Ok(task::new(|| "wayland loop", async move {
task::new(|| "wayland loop", async move {
let _socket = socket; // Keep the socket alive
loop {
tokio::select! {
e = global_destroy_queue.recv() => { // New global to destroy
debug!(?e, "destroy global");
dh1.remove_global::<WaylandState>(e.unwrap());
}
acc = listen_async.accept() => { // New client connected
let (stream, _) = acc?;
let client = dh2.insert_client(stream.into_std()?, Arc::new(ClientState::default()))?;
state.lock().new_client(client.id(), &dh2);
let client_state = Arc::new(ClientState {
pid: stream.peer_cred().ok().and_then(|c| c.pid()),
id: OnceCell::new(),
compositor_state: Default::default(),
seat: state.lock().seat.clone(),
});
let _client = dh2.insert_client(stream.into_std()?, client_state.clone())?;
}
e = dispatch_poll_listener.readable() => { // Dispatch
let mut guard = e?;
debug_span!("Dispatch wayland event").in_scope(|| -> Result<(), color_eyre::Report> {
let mut display = display.lock();
display.dispatch_clients(&mut *state.lock())?;
display.flush_clients()?;
display.dispatch_clients(&mut state.lock())?;
display.flush_clients(None);
Ok(())
})?;
guard.clear_ready();
}
}
}
})?)
})
}
#[instrument(level = "debug", name = "Wayland frame", skip(self, sk))]
pub fn update(&mut self, sk: &impl StereoKitDraw) {
for core_surface in CORE_SURFACES.get_valid_contents() {
core_surface.process(sk, &mut self.renderer);
#[instrument(level = "debug", name = "Wayland frame", skip(self))]
pub fn update(&mut self) {
while let Ok((dmabuf, notifier)) = self.dmabuf_rx.try_recv() {
if self.renderer.import_dmabuf(&dmabuf, None).is_err() {
if let Some(notifier) = notifier {
notifier.failed();
}
}
}
for core_surface in CORE_SURFACES.get_valid_contents() {
core_surface.process(&mut self.renderer);
}
let _ = self.renderer.cleanup_texture_cache();
self.display.lock().flush_clients().unwrap();
self.display.flush_clients(None);
}
pub fn frame_event(&self, sk: &impl StereoKitDraw) {
let state = self.state.lock();
pub fn frame_event(&self) {
for core_surface in CORE_SURFACES.get_valid_contents() {
core_surface.frame(sk, state.output.clone());
core_surface.frame(self.output.clone());
}
}
pub fn make_context_current(&self) {
unsafe {
self.renderer.egl_context().make_current().unwrap();
let _ = self.renderer.egl_context().make_current();
}
}
}

655
src/wayland/panel_item.rs
View File

@@ -1,655 +0,0 @@
use super::{
seat::{Cursor, SeatData},
surface::CoreSurface,
xdg_shell::{PopupData, ToplevelData, XdgSurfaceData},
SERIAL_COUNTER,
};
use crate::{
core::{
client::{get_env, startup_settings, Client, INTERNAL_CLIENT},
registry::Registry,
},
nodes::{
drawable::Drawable,
items::{self, Item, ItemSpecialization, ItemType, TypeInfo},
spatial::Spatial,
Node,
},
wayland::seat::{KeyboardEvent, PointerEvent},
};
use color_eyre::eyre::{bail, eyre, Result};
use glam::Mat4;
use lazy_static::lazy_static;
use mint::Vector2;
use nanoid::nanoid;
use parking_lot::Mutex;
use rustc_hash::FxHashMap;
use serde::{
de::{Deserializer, Error, SeqAccess, Visitor},
ser::Serializer,
Deserialize, Serialize,
};
use smithay::{
reexports::{
wayland_protocols::xdg::shell::server::{
xdg_popup::XdgPopup,
xdg_surface::XdgSurface,
xdg_toplevel::{XdgToplevel, EVT_CONFIGURE_BOUNDS_SINCE, EVT_WM_CAPABILITIES_SINCE},
},
wayland_server::{
backend::Credentials, protocol::wl_surface::WlSurface, Resource, Weak as WlWeak,
},
},
wayland::compositor,
};
use stardust_xr::schemas::flex::{deserialize, serialize};
use std::sync::{Arc, Weak};
use tracing::debug;
use xkbcommon::xkb::{self, ffi::XKB_KEYMAP_FORMAT_TEXT_V1, Keymap};
lazy_static! {
pub static ref ITEM_TYPE_INFO_PANEL: TypeInfo = TypeInfo {
type_name: "panel",
aliased_local_signals: vec![
"apply_surface_material",
"configure_toplevel",
"set_toplevel_capabilities",
"pointer_scroll",
"pointer_button",
"pointer_motion",
"keyboard_key",
"keyboard_set_keymap_names",
"keyboard_set_keymap_string",
"close",
],
aliased_local_methods: vec![],
aliased_remote_signals: vec![
"commit_toplevel",
"recommend_toplevel_state",
"set_cursor",
"new_popup",
"reposition_popup",
"drop_popup",
],
ui: Default::default(),
items: Registry::new(),
acceptors: Registry::new(),
};
}
/// An ID for a surface inside this panel item
#[derive(Debug, Clone)]
#[allow(dead_code)]
pub enum SurfaceID {
Cursor,
Toplevel,
Popup(String),
}
impl Default for SurfaceID {
fn default() -> Self {
Self::Toplevel
}
}
impl<'de> serde::Deserialize<'de> for SurfaceID {
fn deserialize<D: Deserializer<'de>>(deserializer: D) -> Result<Self, D::Error> {
deserializer.deserialize_seq(SurfaceIDVisitor)
}
}
struct SurfaceIDVisitor;
impl<'de> Visitor<'de> for SurfaceIDVisitor {
type Value = SurfaceID;
fn expecting(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result {
f.write_str("idk")
}
fn visit_seq<A: SeqAccess<'de>>(self, mut seq: A) -> Result<Self::Value, A::Error> {
let Some(discrim) = seq.next_element()? else {
return Err(A::Error::missing_field("discrim"));
};
// idk if you wanna check for extraneous elements
// I didn't bother
match discrim {
"Cursor" => Ok(SurfaceID::Cursor),
"Toplevel" => Ok(SurfaceID::Toplevel),
"Popup" => {
let Some(text) = seq.next_element()? else {
return Err(A::Error::missing_field("popup_text"));
};
Ok(SurfaceID::Popup(text))
}
_ => Err(A::Error::unknown_variant(
discrim,
&["Cursor", "Toplevel", "Popup"],
)),
}
}
}
impl serde::Serialize for SurfaceID {
fn serialize<S: Serializer>(&self, serializer: S) -> Result<S::Ok, S::Error> {
match self {
Self::Cursor => ["Cursor"].serialize(serializer),
Self::Toplevel => ["Toplevel"].serialize(serializer),
Self::Popup(text) => ["Popup", text].serialize(serializer),
}
}
}
#[derive(Debug, Clone, Copy, Serialize)]
#[serde(tag = "type", content = "content")]
pub enum RecommendedState {
Maximize(bool),
Fullscreen(bool),
Minimize,
Move,
Resize(u32),
}
pub struct PanelItem {
pub uid: String,
node: Weak<Node>,
cursor: Mutex<Option<WlWeak<WlSurface>>>,
pub seat_data: Arc<SeatData>,
toplevel: WlWeak<XdgToplevel>,
popups: Mutex<FxHashMap<String, WlWeak<XdgPopup>>>,
pointer_grab: Mutex<Option<SurfaceID>>,
keyboard_grab: Mutex<Option<SurfaceID>>,
}
impl PanelItem {
pub fn create(
toplevel: XdgToplevel,
wl_surface: WlSurface,
client_credentials: Option<Credentials>,
seat_data: Arc<SeatData>,
) -> (Arc<Node>, Arc<PanelItem>) {
debug!(?toplevel, ?client_credentials, "Create panel item");
let startup_settings = client_credentials
.and_then(|cred| get_env(cred.pid).ok())
.and_then(|env| startup_settings(&env));
let uid = nanoid!();
let node = Arc::new(Node::create(
&INTERNAL_CLIENT,
"/item/panel/item",
&uid,
true,
));
let spatial = Spatial::add_to(&node, None, Mat4::IDENTITY, false).unwrap();
let panel_item = Arc::new(PanelItem {
uid: uid.clone(),
node: Arc::downgrade(&node),
cursor: Mutex::new(None),
seat_data,
toplevel: toplevel.downgrade(),
popups: Mutex::new(FxHashMap::default()),
pointer_grab: Mutex::new(None),
keyboard_grab: Mutex::new(None),
});
if let Some(startup_settings) = &startup_settings {
spatial.set_local_transform(
spatial.global_transform().inverse() * startup_settings.transform,
);
}
panel_item
.seat_data
.new_surface(&wl_surface, Arc::downgrade(&panel_item));
let item = Item::add_to(
&node,
uid,
&ITEM_TYPE_INFO_PANEL,
ItemType::Panel(panel_item.clone()),
);
if let Some(startup_settings) = &startup_settings {
if let Some(acceptor) = startup_settings
.acceptors
.get(&*ITEM_TYPE_INFO_PANEL)
.and_then(|acc| acc.upgrade())
{
items::capture(&item, &acceptor);
}
}
node.add_local_signal(
"apply_surface_material",
PanelItem::apply_surface_material_flex,
);
node.add_local_signal("configure_toplevel", PanelItem::configure_toplevel_flex);
node.add_local_signal(
"set_toplevel_capabilities",
PanelItem::set_toplevel_capabilities_flex,
);
node.add_local_signal("pointer_scroll", PanelItem::pointer_scroll_flex);
node.add_local_signal("pointer_button", PanelItem::pointer_button_flex);
node.add_local_signal("pointer_motion", PanelItem::pointer_motion_flex);
node.add_local_signal(
"keyboard_set_keymap_string",
PanelItem::keyboard_set_keymap_string_flex,
);
node.add_local_signal(
"keyboard_set_keymap_names",
PanelItem::keyboard_set_keymap_names_flex,
);
node.add_local_signal("keyboard_key", PanelItem::keyboard_key_flex);
(node, panel_item)
}
pub fn from_node(node: &Node) -> Option<Arc<PanelItem>> {
let ItemType::Panel(panel_item) = &node.item.get()?.specialization else {return None};
Some(panel_item.clone())
}
fn toplevel(&self) -> XdgToplevel {
self.toplevel.upgrade().unwrap()
}
fn toplevel_xdg_surface(&self) -> XdgSurface {
let toplevel = self.toplevel();
let data = ToplevelData::get(&toplevel).lock();
data.xdg_surface()
}
fn toplevel_wl_surface(&self) -> WlSurface {
XdgSurfaceData::get(&self.toplevel_xdg_surface())
.lock()
.wl_surface()
}
fn core_surface(&self) -> Option<Arc<CoreSurface>> {
compositor::with_states(&self.toplevel_wl_surface(), |data| {
data.data_map.get::<Arc<CoreSurface>>().cloned()
})
}
fn flush_clients(&self) {
if let Some(core_surface) = self.core_surface() {
core_surface.flush_clients();
}
}
fn wl_surface_from_id(&self, id: &SurfaceID) -> Option<WlSurface> {
match id {
SurfaceID::Cursor => self.cursor.lock().clone()?.upgrade().ok(),
SurfaceID::Toplevel => Some(self.toplevel_wl_surface()),
SurfaceID::Popup(popup) => {
let popups = self.popups.lock();
let popup = popups.get(popup)?.upgrade().ok()?;
let surf = PopupData::get(&popup).lock().wl_surface();
Some(surf)
}
}
}
fn wl_surface_from_id_result(&self, id: &SurfaceID) -> Result<WlSurface> {
self.wl_surface_from_id(id)
.ok_or(eyre!("Surface with ID not found"))
}
fn apply_surface_material_flex(
node: &Node,
calling_client: Arc<Client>,
data: &[u8],
) -> Result<()> {
let Some(panel_item) = PanelItem::from_node(node) else { return Ok(()) };
#[derive(Debug, Deserialize)]
struct SurfaceMaterialInfo<'a> {
surface: SurfaceID,
model_node_path: &'a str,
}
let info: SurfaceMaterialInfo = deserialize(data)?;
let Some(wl_surface) = panel_item.wl_surface_from_id(&info.surface) else { return Ok(()) };
let Some(core_surface) = CoreSurface::from_wl_surface(&wl_surface) else { return Ok(()) };
let model_node = calling_client
.scenegraph
.get_node(info.model_node_path)
.ok_or_else(|| eyre!("Model node not found"))?;
let Some(Drawable::ModelPart(model_node)) = model_node.drawable.get() else {bail!("Node is not a model")};
debug!(?info, "Apply surface material");
core_surface.apply_material(model_node);
Ok(())
}
fn pointer_motion_flex(node: &Node, _calling_client: Arc<Client>, data: &[u8]) -> Result<()> {
let Some(panel_item) = PanelItem::from_node(node) else { return Ok(()) };
let (surface_id, position): (SurfaceID, Vector2<f64>) = deserialize(data)?;
let wl_surface = panel_item.wl_surface_from_id_result(&surface_id)?;
debug!(?surface_id, ?position, "Pointer deactivate");
panel_item
.seat_data
.pointer_event(&wl_surface, PointerEvent::Motion(position));
panel_item.flush_clients();
Ok(())
}
fn pointer_button_flex(node: &Node, _calling_client: Arc<Client>, data: &[u8]) -> Result<()> {
let Some(panel_item) = PanelItem::from_node(node) else { return Ok(()) };
let (surface_id, button, state): (SurfaceID, u32, u32) = deserialize(data)?;
let wl_surface = panel_item.wl_surface_from_id_result(&surface_id)?;
debug!(?surface_id, button, state, "Pointer button");
panel_item
.seat_data
.pointer_event(&wl_surface, PointerEvent::Button { button, state });
panel_item.flush_clients();
Ok(())
}
fn pointer_scroll_flex(node: &Node, _calling_client: Arc<Client>, data: &[u8]) -> Result<()> {
let Some(panel_item) = PanelItem::from_node(node) else { return Ok(()) };
#[derive(Debug, Deserialize)]
struct PointerScrollInfo {
surface_id: SurfaceID,
axis_continuous: Option<Vector2<f32>>,
axis_discrete: Option<Vector2<f32>>,
}
let info: PointerScrollInfo = deserialize(data)?;
let wl_surface = panel_item.wl_surface_from_id_result(&info.surface_id)?;
debug!(?info, "Pointer scroll");
panel_item.seat_data.pointer_event(
&wl_surface,
PointerEvent::Scroll {
axis_continuous: info.axis_continuous,
axis_discrete: info.axis_discrete,
},
);
panel_item.flush_clients();
Ok(())
}
fn keyboard_set_keymap_string_flex(
node: &Node,
_calling_client: Arc<Client>,
data: &[u8],
) -> Result<()> {
let context = xkb::Context::new(0);
let keymap =
Keymap::new_from_string(&context, deserialize(data)?, XKB_KEYMAP_FORMAT_TEXT_V1, 0)
.ok_or_else(|| eyre!("Keymap is not valid"))?;
PanelItem::keyboard_set_keymap_flex(node, &keymap)
}
fn keyboard_set_keymap_names_flex(
node: &Node,
_calling_client: Arc<Client>,
data: &[u8],
) -> Result<()> {
#[derive(Debug, Deserialize)]
struct Names<'a> {
rules: &'a str,
model: &'a str,
layout: &'a str,
variant: &'a str,
options: Option<String>,
}
let names: Names = deserialize(data)?;
let context = xkb::Context::new(0);
let keymap = Keymap::new_from_names(
&context,
names.rules,
names.model,
names.layout,
names.variant,
names.options,
XKB_KEYMAP_FORMAT_TEXT_V1,
)
.ok_or_else(|| eyre!("Keymap is not valid"))?;
PanelItem::keyboard_set_keymap_flex(node, &keymap)
}
fn keyboard_set_keymap_flex(node: &Node, keymap: &Keymap) -> Result<()> {
let Some(panel_item) = PanelItem::from_node(node) else { return Ok(()) };
let toplevel = panel_item.toplevel_wl_surface();
debug!(?toplevel, "Keyboard set keymap");
let mut surfaces = vec![toplevel];
surfaces.extend(panel_item.popups.lock().values().filter_map(|p| {
let popup = p.upgrade().ok()?;
let popup_data = PopupData::get(&popup).lock();
let xdg_surface = popup_data.xdg_surface();
let xdg_surface_data = XdgSurfaceData::get(&xdg_surface).lock();
Some(xdg_surface_data.wl_surface())
}));
panel_item.seat_data.set_keymap(keymap, surfaces);
Ok(())
}
fn keyboard_key_flex(node: &Node, _calling_client: Arc<Client>, data: &[u8]) -> Result<()> {
let Some(panel_item) = PanelItem::from_node(node) else { return Ok(()) };
let (surface_id, key, state): (SurfaceID, u32, u32) = deserialize(data)?;
let wl_surface = panel_item.wl_surface_from_id_result(&surface_id)?;
debug!(key, state, "Set keyboard key state");
panel_item
.seat_data
.keyboard_event(&wl_surface, KeyboardEvent::Key { key, state });
Ok(())
}
fn configure_toplevel_flex(
node: &Node,
_calling_client: Arc<Client>,
data: &[u8],
) -> Result<()> {
let Some(panel_item) = PanelItem::from_node(node) else { return Ok(()) };
let Some(core_surface) = panel_item.core_surface() else { return Ok(()) };
let Ok(xdg_toplevel) = panel_item.toplevel.upgrade() else { return Ok(()) };
let xdg_surface = panel_item.toplevel_xdg_surface();
#[derive(Debug, Deserialize)]
struct ConfigureToplevelInfo {
size: Option<Vector2<u32>>,
states: Vec<u32>,
bounds: Option<Vector2<u32>>,
}
let info: ConfigureToplevelInfo = deserialize(data)?;
debug!(info = ?&info, "Configure toplevel info");
if let Some(bounds) = info.bounds {
if xdg_toplevel.version() > EVT_CONFIGURE_BOUNDS_SINCE {
xdg_toplevel.configure_bounds(bounds.x as i32, bounds.y as i32);
}
}
let size = info.size.unwrap_or(Vector2::from([0; 2]));
xdg_toplevel.configure(
size.x as i32,
size.y as i32,
info.states
.into_iter()
.flat_map(|state| state.to_ne_bytes())
.collect::<Vec<_>>(),
);
xdg_surface.configure(SERIAL_COUNTER.inc());
core_surface.flush_clients();
Ok(())
}
fn set_toplevel_capabilities_flex(
node: &Node,
_calling_client: Arc<Client>,
data: &[u8],
) -> Result<()> {
let Some(panel_item) = PanelItem::from_node(node) else { return Ok(()) };
let Some(core_surface) = panel_item.core_surface() else { return Ok(()) };
let Ok(xdg_toplevel) = panel_item.toplevel.upgrade() else { return Ok(()) };
if xdg_toplevel.version() < EVT_WM_CAPABILITIES_SINCE {
return Ok(());
}
let xdg_surface = panel_item.toplevel_xdg_surface();
let capabilities: Vec<u8> = deserialize(data)?;
debug!("Set toplevel capabilities");
xdg_toplevel.wm_capabilities(capabilities);
xdg_surface.configure(SERIAL_COUNTER.inc());
core_surface.flush_clients();
Ok(())
}
pub fn commit_toplevel(&self) {
// let mapped_size = self.core_surface().and_then(|c| c.size());
let toplevel = self.toplevel();
let state = ToplevelData::get(&toplevel);
let state = state.lock();
// let mut queued_state = state.queued_state.take().unwrap();
// queued_state.mapped = mapped_size.is_some();
// if let Some(size) = mapped_size {
// queued_state.size = size;
// queued_state.geometry.update_to_surface_size(size);
// }
// *state = (*queued_state).clone();
// state.queued_state = Some(queued_state);
debug!(state = ?&*state, "Commit toplevel");
let Some(node) = self.node.upgrade() else { return };
let _ = node.send_remote_signal("commit_toplevel", &serialize(&*state).unwrap());
}
pub fn recommend_toplevel_state(&self, state: RecommendedState) {
let Some(node) = self.node.upgrade() else { return };
let data = serialize(state).unwrap();
debug!(?state, "Recommend toplevel state");
let _ = node.send_remote_signal("recommend_toplevel_state", &data);
}
pub fn new_popup(&self, popup: &XdgPopup, data: &PopupData) {
let uid = data.uid.clone();
self.popups.lock().insert(uid.clone(), popup.downgrade());
let Some(node) = self.node.upgrade() else { return };
let _ = node.send_remote_signal("new_popup", &serialize(&(&uid, data)).unwrap());
}
// pub fn commit_popup(&self, data: &PopupData) {
// let xdg_surf = data.xdg_surface.upgrade().unwrap();
// let surf = xdg_surf
// .data::<XdgSurfaceData>()
// .unwrap()
// .wl_surface
// .upgrade()
// .unwrap();
// let core_surface =
// compositor::with_states(&surf, |s| s.data_map.get::<Arc<CoreSurface>>().cloned())
// .unwrap();
// let mut popup_state = data.state.lock();
// popup_state.mapped = core_surface.size().is_some();
// }
pub fn reposition_popup(&self, popup_state: &PopupData) {
let Some(node) = self.node.upgrade() else { return };
let _ = node.send_remote_signal(
"reposition_popup",
&serialize(popup_state.positioner_data().unwrap()).unwrap(),
);
}
pub fn drop_popup(&self, uid: &str) {
if let Some(popup) = self
.popups
.lock()
.remove(uid)
.and_then(|popup| popup.upgrade().ok()?.data::<Arc<PopupData>>().cloned())
{
self.seat_data.drop_surface(&popup.wl_surface());
}
let Some(node) = self.node.upgrade() else { return };
let _ = node.send_remote_signal("drop_popup", &serialize(uid).unwrap());
}
pub fn grab_keyboard(&self, sid: Option<SurfaceID>) {
let Some(node) = self.node.upgrade() else { return };
let _ = node.send_remote_signal("grab_keyboard", &serialize(sid).unwrap());
}
pub fn set_cursor(&self, surface: Option<&WlSurface>, hotspot_x: i32, hotspot_y: i32) {
let Some(node) = self.node.upgrade() else { return };
debug!(?surface, hotspot_x, hotspot_y, "Set cursor size");
let mut data = serialize(()).unwrap();
let cursor_size = surface
.and_then(|c| CoreSurface::from_wl_surface(c))
.and_then(|c| c.size());
if let Some(size) = cursor_size {
data = serialize((size, (hotspot_x, hotspot_y))).unwrap();
}
let _ = node.send_remote_signal("set_cursor", &data);
*self.cursor.lock() = surface.map(|surf| surf.downgrade());
}
pub fn on_drop(&self) {
let toplevel = self.toplevel_wl_surface();
self.seat_data.drop_surface(&toplevel);
debug!("Drop panel item");
}
}
impl ItemSpecialization for PanelItem {
fn serialize_start_data(&self, id: &str) -> Vec<u8> {
let cursor = self.cursor.lock().as_ref().and_then(|c| c.upgrade().ok());
let cursor_size = cursor
.as_ref()
.and_then(|c| CoreSurface::from_wl_surface(&c))
.and_then(|c| c.size());
let cursor_hotspot = cursor
.and_then(|c| {
compositor::with_states(&c, |data| data.data_map.get::<Arc<Cursor>>().cloned())
})
.map(|cursor| cursor.hotspot);
let toplevel = self.toplevel();
let toplevel_state = ToplevelData::get(&toplevel);
let toplevel_state = toplevel_state.lock().clone();
let popups = self
.popups
.lock()
.values()
.filter_map(|v| Some(v.upgrade().ok()?.data::<Mutex<PopupData>>()?.lock().clone()))
.collect::<Vec<_>>();
let pointer_grab = self.pointer_grab.lock().clone();
let keyboard_grab = self.keyboard_grab.lock().clone();
serialize((
id,
(
cursor_size.zip(cursor_hotspot),
toplevel_state,
popups,
pointer_grab,
keyboard_grab,
),
))
.unwrap()
}
}
impl Drop for PanelItem {
fn drop(&mut self) {
// Dropped panel item, basically just a debug breakpoint place
}
}

777
src/wayland/seat.rs
View File

@@ -1,510 +1,307 @@
use super::{
panel_item::PanelItem, state::WaylandState, surface::CoreSurface, GLOBAL_DESTROY_QUEUE,
SERIAL_COUNTER,
};
use crate::core::task;
use color_eyre::eyre::Result;
use mint::Vector2;
use nanoid::nanoid;
use once_cell::sync::OnceCell;
use parking_lot::Mutex;
use rand::{seq::IteratorRandom, thread_rng};
use rustc_hash::{FxHashMap, FxHashSet};
use smithay::{
input::keyboard::{KeymapFile, ModifiersState},
reexports::wayland_server::{
backend::{ClientId, GlobalId, ObjectId},
protocol::{
wl_keyboard::{self, KeyState, WlKeyboard},
wl_pointer::{self, Axis, ButtonState, WlPointer},
wl_seat::{self, Capability, WlSeat, EVT_NAME_SINCE},
wl_surface::WlSurface,
wl_touch::{self, WlTouch},
},
Client, DataInit, Dispatch, DisplayHandle, GlobalDispatch, New, Resource, Weak as WlWeak,
use super::{state::WaylandState, surface::CoreSurface, utils::WlSurfaceExt};
use crate::{
core::task,
nodes::{
data::KEYMAPS,
items::panel::{Backend, Geometry, PanelItem},
},
};
use mint::Vector2;
use parking_lot::Mutex;
use rustc_hash::FxHashMap;
use slotmap::KeyData;
use smithay::{
backend::input::{AxisRelativeDirection, ButtonState, KeyState},
delegate_seat,
input::{
keyboard::{FilterResult, LedState},
pointer::{AxisFrame, ButtonEvent, CursorImageStatus, MotionEvent},
touch::{self, DownEvent, UpEvent},
Seat, SeatHandler,
},
reexports::wayland_server::{protocol::wl_surface::WlSurface, Resource, Weak as WlWeak},
utils::SERIAL_COUNTER,
wayland::compositor,
};
use std::{
collections::VecDeque,
sync::{Arc, Weak},
time::{Duration, Instant},
};
use tracing::{debug, warn};
use xkbcommon::xkb::{self, Keymap};
use std::sync::{Arc, Weak};
use tokio::sync::watch;
pub struct KeyboardInfo {
keymap: KeymapFile,
state: xkb::State,
mods: ModifiersState,
keys: FxHashSet<u32>,
impl SeatHandler for WaylandState {
type PointerFocus = WlSurface;
type KeyboardFocus = WlSurface;
type TouchFocus = WlSurface;
fn seat_state(&mut self) -> &mut smithay::input::SeatState<Self> {
&mut self.seat_state
}
fn focus_changed(&mut self, _seat: &Seat<Self>, _focused: Option<&Self::KeyboardFocus>) {}
fn cursor_image(&mut self, _seat: &Seat<Self>, image: CursorImageStatus) {
self.seat.cursor_info_tx.send_modify(|c| match image {
CursorImageStatus::Hidden => c.surface = None,
CursorImageStatus::Surface(surface) => {
CoreSurface::add_to(&surface);
compositor::with_states(&surface, |data| {
if let Some(core_surface) = data.data_map.get::<Arc<CoreSurface>>() {
core_surface.set_material_offset(1);
}
});
c.surface = Some(surface.downgrade())
}
_ => (),
});
}
fn led_state_changed(&mut self, _seat: &Seat<Self>, _led_state: LedState) {}
}
impl KeyboardInfo {
pub fn new(keymap: &Keymap) -> Self {
KeyboardInfo {
state: xkb::State::new(keymap),
keymap: KeymapFile::new(keymap),
mods: ModifiersState::default(),
keys: FxHashSet::default(),
delegate_seat!(WaylandState);
pub fn handle_cursor<B: Backend>(
panel_item: &Arc<PanelItem<B>>,
mut cursor: watch::Receiver<CursorInfo>,
) {
let panel_item_weak = Arc::downgrade(panel_item);
let _ = task::new(|| "cursor handler", async move {
while cursor.changed().await.is_ok() {
let Some(panel_item) = panel_item_weak.upgrade() else {
continue;
};
let cursor_info = cursor.borrow();
panel_item.set_cursor(cursor_info.cursor_data());
}
});
}
pub struct CursorInfo {
pub surface: Option<WlWeak<WlSurface>>,
pub hotspot_x: i32,
pub hotspot_y: i32,
}
impl CursorInfo {
pub fn cursor_data(&self) -> Option<Geometry> {
let cursor_size = self.surface.as_ref()?.upgrade().ok()?.get_size()?;
Some(Geometry {
origin: [self.hotspot_x, self.hotspot_y].into(),
size: cursor_size,
})
}
}
pub struct SeatWrapper {
wayland_state: Weak<Mutex<WaylandState>>,
cursor_info_tx: watch::Sender<CursorInfo>,
pub cursor_info_rx: watch::Receiver<CursorInfo>,
seat: Seat<WaylandState>,
touches: Mutex<FxHashMap<u32, WlWeak<WlSurface>>>,
}
impl SeatWrapper {
pub fn new(wayland_state: Weak<Mutex<WaylandState>>, seat: Seat<WaylandState>) -> Self {
let (cursor_info_tx, cursor_info_rx) = watch::channel(CursorInfo {
surface: None,
hotspot_x: 0,
hotspot_y: 0,
});
SeatWrapper {
wayland_state,
cursor_info_tx,
cursor_info_rx,
seat,
touches: Mutex::new(FxHashMap::default()),
}
}
pub fn process(&mut self, key: u32, state: u32, keyboard: &WlKeyboard) -> Result<usize> {
let wl_key_state = match state {
0 => KeyState::Released,
1 => KeyState::Pressed,
_ => color_eyre::eyre::bail!("Invalid key state!"),
pub fn unfocus(&self, surface: &WlSurface, state: &mut WaylandState) {
let pointer = self.seat.get_pointer().unwrap();
if pointer.current_focus() == Some(surface.clone()) {
pointer.motion(
state,
None,
&MotionEvent {
location: (0.0, 0.0).into(),
serial: SERIAL_COUNTER.next_serial(),
time: 0,
},
)
}
let keyboard = self.seat.get_keyboard().unwrap();
if keyboard.current_focus() == Some(surface.clone()) {
keyboard.set_focus(state, None, SERIAL_COUNTER.next_serial());
}
for (id, touch_surface) in self.touches.lock().iter() {
if touch_surface.id() == surface.id() {
self.touch_up(*id);
}
}
}
pub fn pointer_motion(&self, surface: WlSurface, position: Vector2<f32>) {
let Some(state) = self.wayland_state.upgrade() else {
return;
};
let xkb_key_state = match state {
0 => xkb::KeyDirection::Up,
1 => xkb::KeyDirection::Down,
_ => color_eyre::eyre::bail!("Invalid key state!"),
let mut state = state.lock();
let Some(pointer) = self.seat.get_pointer() else {
return;
};
let state_components = self.state.update_key(key + 8, xkb_key_state);
if state_components != 0 {
self.mods.update_with(&self.state);
keyboard.modifiers(
0,
self.mods.serialized.depressed,
self.mods.serialized.latched,
self.mods.serialized.locked,
pointer.motion(
&mut state,
Some((surface, (0.0, 0.0).into())),
&MotionEvent {
location: (position.x as f64, position.y as f64).into(),
serial: SERIAL_COUNTER.next_serial(),
time: 0,
},
);
pointer.frame(&mut state);
}
pub fn pointer_button(&self, button: u32, pressed: bool) {
let Some(state) = self.wayland_state.upgrade() else {
return;
};
let mut state = state.lock();
let Some(pointer) = self.seat.get_pointer() else {
return;
};
pointer.button(
&mut state,
&ButtonEvent {
button,
state: if pressed {
ButtonState::Pressed
} else {
ButtonState::Released
},
serial: SERIAL_COUNTER.next_serial(),
time: 0,
},
);
pointer.frame(&mut state);
}
pub fn pointer_scroll(
&self,
scroll_distance: Option<Vector2<f32>>,
scroll_steps: Option<Vector2<f32>>,
) {
let Some(state) = self.wayland_state.upgrade() else {
return;
};
let mut state = state.lock();
let Some(pointer) = self.seat.get_pointer() else {
return;
};
pointer.axis(
&mut state,
AxisFrame {
source: None,
relative_direction: (
AxisRelativeDirection::Identical,
AxisRelativeDirection::Identical,
),
time: 0,
axis: scroll_distance
.map(|d| (d.x as f64, d.y as f64))
.unwrap_or((0.0, 0.0)),
v120: scroll_steps.map(|d| ((d.x * 120.0) as i32, (d.y * 120.0) as i32)),
stop: (false, false),
},
);
pointer.frame(&mut state);
}
pub fn keyboard_keys(&self, surface: WlSurface, keymap_id: u64, keys: Vec<i32>) {
let Some(state) = self.wayland_state.upgrade() else {
return;
};
let Some(keyboard) = self.seat.get_keyboard() else {
return;
};
let keymaps = KEYMAPS.lock();
let Some(keymap) = keymaps.get(KeyData::from_ffi(keymap_id).into()).cloned() else {
return;
};
keyboard.set_focus(
&mut state.lock(),
Some(surface),
SERIAL_COUNTER.next_serial(),
);
if keyboard
.set_keymap_from_string(&mut state.lock(), keymap)
.is_err()
{
return;
}
for key in keys {
keyboard.input(
&mut state.lock(),
key.unsigned_abs(),
if key > 0 {
KeyState::Pressed
} else {
KeyState::Released
},
SERIAL_COUNTER.next_serial(),
0,
|_, _, _| FilterResult::Forward::<()>,
);
}
keyboard.key(SERIAL_COUNTER.inc(), 0, key, wl_key_state);
match wl_key_state {
KeyState::Pressed => {
self.keys.insert(key);
}
KeyState::Released => {
self.keys.remove(&key);
}
_ => unimplemented!(),
}
Ok(self.keys.len())
}
}
unsafe impl Send for KeyboardInfo {}
#[derive(Debug, Clone, Copy)]
pub enum PointerEvent {
Motion(Vector2<f64>),
Button {
button: u32,
state: u32,
},
Scroll {
axis_continuous: Option<Vector2<f32>>,
axis_discrete: Option<Vector2<f32>>,
},
}
#[derive(Debug, Clone)]
pub enum KeyboardEvent {
Keymap,
Key { key: u32, state: u32 },
}
const POINTER_EVENT_TIMEOUT: Duration = Duration::from_secs(1);
struct SurfaceInfo {
wl_surface: WlWeak<WlSurface>,
panel_item: Weak<PanelItem>,
pointer_queue: VecDeque<PointerEvent>,
pointer_latest_event: Instant,
keyboard_queue: VecDeque<KeyboardEvent>,
keyboard_info: Option<KeyboardInfo>,
}
impl SurfaceInfo {
fn new(wl_surface: &WlSurface, panel_item: Weak<PanelItem>) -> Self {
SurfaceInfo {
wl_surface: wl_surface.downgrade(),
panel_item,
pointer_queue: VecDeque::new(),
pointer_latest_event: Instant::now(),
keyboard_queue: VecDeque::new(),
keyboard_info: None,
}
}
fn handle_pointer_events(&mut self, pointer: &WlPointer, mut locked: bool) -> bool {
let Ok(focus) = self.wl_surface.upgrade() else { return false; };
let Some(core_surface) = CoreSurface::from_wl_surface(&focus) else { return false; };
let Some(focus_size) = core_surface.size() else { return false; };
if !self.pointer_queue.is_empty() {
self.pointer_latest_event = Instant::now();
}
while let Some(event) = self.pointer_queue.pop_front() {
match (locked, event) {
(false, PointerEvent::Motion(pos)) => {
pointer.enter(
SERIAL_COUNTER.inc(),
&focus,
pos.x.clamp(0.0, focus_size.x as f64),
pos.y.clamp(0.0, focus_size.y as f64),
);
locked = true;
}
(true, PointerEvent::Motion(pos)) => {
pointer.motion(
0,
pos.x.clamp(0.0, focus_size.x as f64),
pos.y.clamp(0.0, focus_size.y as f64),
);
pointer.frame();
}
(true, PointerEvent::Button { button, state }) => {
pointer.button(
0,
0,
button,
match state {
0 => ButtonState::Released,
1 => ButtonState::Pressed,
_ => continue,
},
);
pointer.frame();
}
(
true,
PointerEvent::Scroll {
axis_continuous,
axis_discrete,
},
) => {
if let Some(axis_continuous) = axis_continuous {
pointer.axis(0, Axis::HorizontalScroll, axis_continuous.x as f64);
pointer.axis(0, Axis::VerticalScroll, axis_continuous.y as f64);
}
if let Some(axis_discrete) = axis_discrete {
pointer.axis_discrete(Axis::HorizontalScroll, axis_discrete.x as i32);
pointer.axis_discrete(Axis::VerticalScroll, axis_discrete.y as i32);
}
if axis_discrete.is_none() && axis_continuous.is_none() {
pointer.axis_stop(0, Axis::HorizontalScroll);
pointer.axis_stop(0, Axis::VerticalScroll);
}
pointer.frame();
}
(locked, event) => {
warn!(locked, ?event, "Invalid pointer event!");
}
}
}
if self.pointer_latest_event.elapsed() > POINTER_EVENT_TIMEOUT {
pointer.leave(SERIAL_COUNTER.inc(), &focus);
locked = false;
}
locked
}
fn handle_keyboard_events(&mut self, keyboard: &WlKeyboard, mut locked: bool) -> bool {
let Ok(focus) = self.wl_surface.upgrade() else { return false; };
let Some(info) = self.keyboard_info.as_mut() else { return true; };
if !locked {
keyboard.enter(0, &focus, vec![]);
keyboard.repeat_info(0, 0);
locked = info.keymap.send(keyboard).is_ok();
}
while let Some(event) = self.keyboard_queue.pop_front() {
debug!(locked, ?event, "Process keyboard event");
match (locked, event) {
(true, KeyboardEvent::Keymap) => {
let _ = info.keymap.send(keyboard);
}
(true, KeyboardEvent::Key { key, state }) => {
if let Ok(key_count) = info.process(key, state, keyboard) {
if key_count == 0 {
keyboard.leave(SERIAL_COUNTER.inc(), &focus);
return false;
}
}
}
(locked, event) => {
warn!(locked, ?event, "Invalid keyboard event!");
}
}
}
locked
}
}
pub struct SeatData {
client: ClientId,
global_id: OnceCell<GlobalId>,
surfaces: Mutex<FxHashMap<ObjectId, SurfaceInfo>>,
pointer: OnceCell<(WlPointer, Mutex<ObjectId>)>,
keyboard: OnceCell<(WlKeyboard, Mutex<ObjectId>)>,
touch: OnceCell<WlTouch>,
}
impl SeatData {
pub fn new(dh: &DisplayHandle, client: ClientId) -> Arc<Self> {
let seat_data = Arc::new(SeatData {
client,
global_id: OnceCell::new(),
surfaces: Mutex::new(FxHashMap::default()),
pointer: OnceCell::new(),
keyboard: OnceCell::new(),
touch: OnceCell::new(),
});
seat_data
.global_id
.set(dh.create_global::<WaylandState, _, _>(7, seat_data.clone()))
.unwrap();
seat_data
}
pub fn set_keymap(&self, keymap: &Keymap, surfaces: Vec<WlSurface>) {
let mut panels = self.surfaces.lock();
let Some((_, focus)) = self.keyboard.get() else {return};
for surface in surfaces {
let Some(surface_info) = panels.get_mut(&surface.id()) else {continue};
surface_info
.keyboard_info
.replace(KeyboardInfo::new(keymap));
if *focus.lock() == surface.id() {
surface_info.keyboard_queue.push_back(KeyboardEvent::Keymap);
}
}
pub fn touch_down(&self, surface: WlSurface, id: u32, position: Vector2<f32>) {
let Some(state) = self.wayland_state.upgrade() else {
return;
};
let Some(touch) = self.seat.get_touch() else {
return;
};
touch.down(
&mut state.lock(),
Some((surface, (0.0, 0.0).into())),
&DownEvent {
slot: Some(id).into(),
location: (position.x as f64, position.y as f64).into(),
serial: SERIAL_COUNTER.next_serial(),
time: 0,
},
);
touch.frame(&mut state.lock());
}
pub fn pointer_event(&self, surface: &WlSurface, event: PointerEvent) {
let mut surfaces = self.surfaces.lock();
let Some(surface_info) = surfaces.get_mut(&surface.id()) else {return};
surface_info.pointer_queue.push_back(event);
drop(surfaces);
self.handle_pointer_events();
pub fn touch_move(&self, id: u32, position: Vector2<f32>) {
let Some(state) = self.wayland_state.upgrade() else {
return;
};
let Some(surface) = self.touches.lock().get(&id).and_then(|c| c.upgrade().ok()) else {
return;
};
let Some(touch) = self.seat.get_touch() else {
return;
};
touch.motion(
&mut state.lock(),
Some((surface, (0.0, 0.0).into())),
&touch::MotionEvent {
slot: Some(id).into(),
location: (position.x as f64, position.y as f64).into(),
time: 0,
},
);
touch.frame(&mut state.lock());
}
pub fn keyboard_event(&self, surface: &WlSurface, event: KeyboardEvent) {
let mut surfaces = self.surfaces.lock();
let Some(surface_info) = surfaces.get_mut(&surface.id()) else {return};
surface_info.keyboard_queue.push_back(event);
drop(surfaces);
self.handle_keyboard_events();
pub fn touch_up(&self, id: u32) {
let Some(state) = self.wayland_state.upgrade() else {
return;
};
let Some(touch) = self.seat.get_touch() else {
return;
};
touch.up(
&mut state.lock(),
&UpEvent {
slot: Some(id).into(),
serial: SERIAL_COUNTER.next_serial(),
time: 0,
},
);
touch.frame(&mut state.lock());
}
fn handle_pointer_events(&self) {
let mut surfaces = self.surfaces.lock();
let Some((pointer, pointer_focus)) = self.pointer.get() else {return};
let mut pointer_focus = pointer_focus.lock();
loop {
let locked = !pointer_focus.is_null();
// Pick a pointer to focus on if there is none
if pointer_focus.is_null() {
*pointer_focus = surfaces
.iter()
.filter(|(_k, v)| !v.pointer_queue.is_empty())
.map(|(k, _v)| k)
.choose(&mut thread_rng())
.cloned()
.unwrap_or(ObjectId::null());
}
if pointer_focus.is_null() {
// If there's still none, guess we're done with pointer events for the time being
break;
}
let Some(surface_info) = surfaces.get_mut(&pointer_focus) else {break};
if surface_info.handle_pointer_events(pointer, locked) {
// We haven't gotten to a point where we can switch the focus
break;
} else {
*pointer_focus = ObjectId::null();
}
}
}
fn handle_keyboard_events(&self) {
let mut surfaces = self.surfaces.lock();
let Some((keyboard, keyboard_focus)) = self.keyboard.get() else {return};
let mut keyboard_focus = keyboard_focus.lock();
loop {
let locked = !keyboard_focus.is_null();
// Pick a keyboard to focus on if there is none
if keyboard_focus.is_null() {
*keyboard_focus = surfaces
.iter()
.filter(|(_k, v)| v.keyboard_info.is_some())
.filter(|(_k, v)| !v.keyboard_queue.is_empty())
.map(|(k, _v)| k)
.choose(&mut thread_rng())
.cloned()
.unwrap_or(ObjectId::null());
}
// If there's still none, guess we're done with keyboard events for the time being
let Some(surface_info) = surfaces.get_mut(&keyboard_focus) else {break};
if surface_info.handle_keyboard_events(keyboard, locked) {
// We haven't gotten to a point where we can switch the focus
break;
} else {
*keyboard_focus = ObjectId::null();
}
}
}
pub fn new_surface(&self, surface: &WlSurface, panel_item: Weak<PanelItem>) {
self.surfaces
.lock()
.insert(surface.id(), SurfaceInfo::new(surface, panel_item));
}
pub fn drop_surface(&self, surface: &WlSurface) {
self.surfaces.lock().remove(&surface.id());
if let Some((_, pointer_focus)) = self.pointer.get() {
let mut pointer_focus = pointer_focus.lock();
if *pointer_focus == surface.id() {
*pointer_focus = ObjectId::null();
}
}
if let Some((_, keyboard_focus)) = self.keyboard.get() {
let mut keyboard_focus = keyboard_focus.lock();
if *keyboard_focus == surface.id() {
*keyboard_focus = ObjectId::null();
}
}
}
}
impl Drop for SeatData {
fn drop(&mut self) {
let id = self.global_id.take().unwrap();
let _ = task::new(|| "global destroy queue garbage collection", async move {
GLOBAL_DESTROY_QUEUE.get().unwrap().send(id).await
});
}
}
impl GlobalDispatch<WlSeat, Arc<SeatData>, WaylandState> for WaylandState {
fn bind(
_state: &mut WaylandState,
_handle: &DisplayHandle,
_client: &Client,
resource: New<WlSeat>,
data: &Arc<SeatData>,
data_init: &mut DataInit<'_, WaylandState>,
) {
let resource = data_init.init(resource, data.clone());
if resource.version() >= EVT_NAME_SINCE {
resource.name(nanoid!());
}
resource.capabilities(Capability::Pointer | Capability::Keyboard);
}
fn can_view(client: Client, data: &Arc<SeatData>) -> bool {
client.id() == data.client
}
}
impl Dispatch<WlSeat, Arc<SeatData>, WaylandState> for WaylandState {
fn request(
_state: &mut WaylandState,
_client: &Client,
_resource: &WlSeat,
request: wl_seat::Request,
data: &Arc<SeatData>,
_dh: &DisplayHandle,
data_init: &mut DataInit<'_, WaylandState>,
) {
match request {
wl_seat::Request::GetPointer { id } => {
let pointer = data_init.init(id, data.clone());
let _ = data.pointer.set((pointer, Mutex::new(ObjectId::null())));
}
wl_seat::Request::GetKeyboard { id } => {
let keyboard = data_init.init(id, data.clone());
keyboard.repeat_info(0, 0);
let _ = data.keyboard.set((keyboard, Mutex::new(ObjectId::null())));
}
wl_seat::Request::GetTouch { id } => {
let _ = data.touch.set(data_init.init(id, data.clone()));
}
wl_seat::Request::Release => (),
_ => unreachable!(),
}
}
}
pub struct Cursor {
pub hotspot: Vector2<i32>,
}
impl Dispatch<WlPointer, Arc<SeatData>, WaylandState> for WaylandState {
fn request(
state: &mut WaylandState,
_client: &Client,
_resource: &WlPointer,
request: wl_pointer::Request,
seat_data: &Arc<SeatData>,
dh: &DisplayHandle,
_data_init: &mut DataInit<'_, WaylandState>,
) {
match request {
wl_pointer::Request::SetCursor {
serial: _,
surface,
hotspot_x,
hotspot_y,
} => {
if let Some(surface) = surface.as_ref() {
CoreSurface::add_to(&state.display, dh.clone(), surface, |_| ());
compositor::with_states(surface, |data| {
data.data_map.insert_if_missing_threadsafe(|| {
Arc::new(Mutex::new(Cursor {
hotspot: Vector2::from([hotspot_x, hotspot_y]),
}))
});
let mut cursor = data.data_map.get::<Arc<Mutex<Cursor>>>().unwrap().lock();
cursor.hotspot = Vector2::from([hotspot_x, hotspot_y]);
if let Some(core_surface) = data.data_map.get::<Arc<CoreSurface>>() {
core_surface.set_material_offset(1);
}
})
}
let Some((_, focus)) = seat_data.pointer.get() else {return};
let focus = focus.lock();
let surfaces = seat_data.surfaces.lock();
let Some(surface_info) = surfaces.get(&focus) else {return};
let Some(panel_item) = surface_info.panel_item.upgrade() else {return};
panel_item.set_cursor(surface.as_ref(), hotspot_x, hotspot_y);
}
wl_pointer::Request::Release => (),
_ => unreachable!(),
}
}
}
impl Dispatch<WlKeyboard, Arc<SeatData>, WaylandState> for WaylandState {
fn request(
_state: &mut WaylandState,
_client: &Client,
_resource: &WlKeyboard,
request: <WlKeyboard as Resource>::Request,
_data: &Arc<SeatData>,
_dh: &DisplayHandle,
_data_init: &mut DataInit<'_, WaylandState>,
) {
match request {
wl_keyboard::Request::Release => (),
_ => unreachable!(),
}
}
}
impl Dispatch<WlTouch, Arc<SeatData>, WaylandState> for WaylandState {
fn request(
_state: &mut WaylandState,
_client: &Client,
_resource: &WlTouch,
request: <WlTouch as Resource>::Request,
_data: &Arc<SeatData>,
_dh: &DisplayHandle,
_data_init: &mut DataInit<'_, WaylandState>,
) {
match request {
wl_touch::Request::Release => (),
_ => unreachable!(),
pub fn reset_input(&self) {
for id in self.touches.lock().keys() {
self.touch_up(*id)
}
}
}

7
src/wayland/shaders/mod.rs
View File

@@ -1,7 +0,0 @@
#![allow(dead_code)]
// Basic gamma correction shader
// pub const PANEL_SHADER_BYTES: &[u8] = include_bytes!("shader_unlit_gamma.sks");
// Simula shader with fancy lanzcos sampling
pub const PANEL_SHADER_BYTES: &[u8] = include_bytes!("shader_unlit_simula.sks");

BIN
src/wayland/shaders/shader_unlit_gamma.sks
View File

Binary file not shown.

BIN
src/wayland/shaders/shader_unlit_simula.sks
View File

Binary file not shown.

147
src/wayland/state.rs
View File

@@ -1,44 +1,60 @@
use crate::wayland::seat::SeatData;
use super::seat::SeatWrapper;
use crate::wayland::drm::wl_drm::WlDrm;
use once_cell::sync::OnceCell;
use parking_lot::Mutex;
use rustc_hash::FxHashMap;
use smithay::{
backend::{
allocator::dmabuf::Dmabuf,
renderer::{gles::GlesRenderer, ImportDma},
allocator::{dmabuf::Dmabuf, Fourcc},
egl::EGLDevice,
renderer::gles::GlesRenderer,
},
delegate_dmabuf, delegate_output, delegate_shm,
input::{keyboard::XkbConfig, SeatState},
output::{Mode, Output, Scale, Subpixel},
reexports::{
wayland_protocols::xdg::{
decoration::zv1::server::zxdg_decoration_manager_v1::ZxdgDecorationManagerV1,
shell::server::xdg_wm_base::XdgWmBase,
shell::server::xdg_toplevel::WmCapabilities,
},
wayland_protocols_misc::server_decoration::server::org_kde_kwin_server_decoration_manager::Mode as DecorationMode,
wayland_server::{
backend::{ClientData, ClientId, DisconnectReason},
protocol::{wl_buffer::WlBuffer, wl_data_device_manager::WlDataDeviceManager},
Display, DisplayHandle,
protocol::{
wl_buffer::WlBuffer, wl_data_device_manager::WlDataDeviceManager,
wl_output::WlOutput,
},
DisplayHandle,
},
},
utils::{Size, Transform},
wayland::{
buffer::BufferHandler,
compositor::{CompositorClientState, CompositorState},
dmabuf::{self, DmabufGlobal, DmabufHandler, DmabufState},
shell::kde::decoration::KdeDecorationState,
dmabuf::{
self, DmabufFeedback, DmabufFeedbackBuilder, DmabufGlobal, DmabufHandler, DmabufState,
},
output::OutputHandler,
shell::{
kde::decoration::KdeDecorationState,
xdg::{WmCapabilitySet, XdgShellState},
},
shm::{ShmHandler, ShmState},
},
};
use std::sync::{Arc, Weak};
use tracing::info;
use std::sync::Arc;
use tokio::sync::mpsc::UnboundedSender;
use tracing::{info, warn};
#[derive(Default)]
pub struct ClientState {
pub pid: Option<i32>,
pub id: OnceCell<ClientId>,
pub compositor_state: CompositorClientState,
pub seat: Arc<SeatWrapper>,
}
impl ClientData for ClientState {
fn initialized(&self, client_id: ClientId) {
info!("Wayland client {:?} connected", client_id);
let _ = self.id.set(client_id);
}
fn disconnected(&self, client_id: ClientId, reason: DisconnectReason) {
@@ -50,37 +66,75 @@ impl ClientData for ClientState {
}
pub struct WaylandState {
pub weak_ref: Weak<Mutex<WaylandState>>,
pub display: Arc<Mutex<Display<WaylandState>>>,
pub display_handle: DisplayHandle,
pub compositor_state: CompositorState,
// pub xdg_activation_state: XdgActivationState,
pub kde_decoration_state: KdeDecorationState,
pub shm_state: ShmState,
pub dmabuf_state: DmabufState,
pub dmabuf_global: DmabufGlobal,
pub pending_dmabufs: Vec<Dmabuf>,
dmabuf_state: (DmabufState, DmabufGlobal, Option<DmabufFeedback>),
pub drm_formats: Vec<Fourcc>,
pub dmabuf_tx: UnboundedSender<(Dmabuf, Option<dmabuf::ImportNotifier>)>,
pub seat_state: SeatState<Self>,
pub seat: Arc<SeatWrapper>,
pub xdg_shell: XdgShellState,
pub output: Output,
pub seats: FxHashMap<ClientId, Arc<SeatData>>,
}
impl WaylandState {
pub fn new(
display: Arc<Mutex<Display<WaylandState>>>,
display_handle: DisplayHandle,
renderer: &GlesRenderer,
dmabuf_tx: UnboundedSender<(Dmabuf, Option<dmabuf::ImportNotifier>)>,
) -> Arc<Mutex<Self>> {
let compositor_state = CompositorState::new::<Self>(&display_handle);
// let xdg_activation_state = XdgActivationState::new::<Self, _>(&display_handle);
let kde_decoration_state =
KdeDecorationState::new::<Self>(&display_handle, DecorationMode::Server);
let shm_state = ShmState::new::<Self>(&display_handle, vec![]);
let mut dmabuf_state = DmabufState::new();
let dmabuf_global = dmabuf_state.create_global::<Self>(
&display_handle,
renderer.dmabuf_formats().collect::<Vec<_>>(),
);
let render_node = EGLDevice::device_for_display(renderer.egl_context().display())
.and_then(|device| device.try_get_render_node());
let dmabuf_formats = renderer
.egl_context()
.dmabuf_render_formats()
.iter()
.cloned()
.collect::<Vec<_>>();
let drm_formats = dmabuf_formats.iter().map(|f| f.code).collect();
let dmabuf_default_feedback = match render_node {
Ok(Some(node)) => DmabufFeedbackBuilder::new(node.dev_id(), dmabuf_formats.clone())
.build()
.ok(),
Ok(None) => {
warn!("failed to query render node, dmabuf will use v3");
None
}
Err(err) => {
warn!(?err, "failed to egl device for display, dmabuf will use v3");
None
}
};
// if we failed to build dmabuf feedback we fall back to dmabuf v3
// Note: egl on Mesa requires either v4 or wl_drm (initialized with bind_wl_display)
let dmabuf_state = if let Some(default_feedback) = dmabuf_default_feedback {
let mut dmabuf_state = DmabufState::new();
let dmabuf_global = dmabuf_state.create_global_with_default_feedback::<WaylandState>(
&display_handle,
&default_feedback,
);
(dmabuf_state, dmabuf_global, Some(default_feedback))
} else {
let mut dmabuf_state = DmabufState::new();
let dmabuf_global =
dmabuf_state.create_global::<WaylandState>(&display_handle, dmabuf_formats.clone());
(dmabuf_state, dmabuf_global, None)
};
let mut seat_state = SeatState::new();
let mut seat = seat_state.new_wl_seat(&display_handle, "seat0");
seat.add_pointer();
seat.add_keyboard(XkbConfig::default(), 200, 25).unwrap();
seat.add_touch();
let output = Output::new(
"1x".to_owned(),
smithay::output::PhysicalProperties {
@@ -92,7 +146,7 @@ impl WaylandState {
);
let _output_global = output.create_global::<Self>(&display_handle);
let mode = Mode {
size: (4096, 4096).into(),
size: (1024, 1024).into(),
refresh: 60000,
};
output.change_current_state(
@@ -102,35 +156,36 @@ impl WaylandState {
None,
);
output.set_preferred(mode);
let mut xdg_shell = XdgShellState::new::<Self>(&display_handle);
let mut capabilities = WmCapabilitySet::default();
capabilities.set(WmCapabilities::Maximize);
capabilities.set(WmCapabilities::Fullscreen);
capabilities.unset(WmCapabilities::Minimize);
capabilities.unset(WmCapabilities::WindowMenu);
xdg_shell.replace_capabilities(capabilities);
display_handle.create_global::<Self, WlDataDeviceManager, _>(3, ());
display_handle.create_global::<Self, XdgWmBase, _>(5, ());
display_handle.create_global::<Self, ZxdgDecorationManagerV1, _>(1, ());
display_handle.create_global::<Self, WlDrm, _>(2, ());
info!("Init Wayland compositor");
Arc::new_cyclic(|weak| {
Mutex::new(WaylandState {
weak_ref: weak.clone(),
display,
display_handle,
compositor_state,
// xdg_activation_state,
kde_decoration_state,
shm_state,
drm_formats,
dmabuf_state,
dmabuf_global,
pending_dmabufs: Vec::new(),
dmabuf_tx,
seat_state,
seat: Arc::new(SeatWrapper::new(weak.clone(), seat)),
xdg_shell,
output,
seats: FxHashMap::default(),
})
})
}
pub fn new_client(&mut self, client: ClientId, dh: &DisplayHandle) {
let seat_data = SeatData::new(dh, client.clone());
self.seats.insert(client, seat_data);
}
}
impl Drop for WaylandState {
fn drop(&mut self) {
@@ -147,17 +202,21 @@ impl ShmHandler for WaylandState {
}
impl DmabufHandler for WaylandState {
fn dmabuf_state(&mut self) -> &mut DmabufState {
&mut self.dmabuf_state
&mut self.dmabuf_state.0
}
fn dmabuf_imported(
&mut self,
_global: &DmabufGlobal,
_dmabuf: Dmabuf,
) -> Result<(), dmabuf::ImportError> {
Ok(())
dmabuf: Dmabuf,
notifier: dmabuf::ImportNotifier,
) {
self.dmabuf_tx.send((dmabuf, Some(notifier))).unwrap();
}
}
impl OutputHandler for WaylandState {
fn output_bound(&mut self, _output: Output, _wl_output: WlOutput) {}
}
delegate_dmabuf!(WaylandState);
delegate_shm!(WaylandState);
delegate_output!(WaylandState);

246
src/wayland/surface.rs
View File

@@ -1,40 +1,39 @@
use super::{shaders::PANEL_SHADER_BYTES, state::WaylandState};
use super::utils::WlSurfaceExt;
use crate::{
core::{delta::Delta, destroy_queue, registry::Registry},
nodes::drawable::model::ModelPart,
nodes::{
drawable::{
model::{MaterialWrapper, ModelPart},
shaders::PANEL_SHADER_BYTES,
},
items::camera::TexWrapper,
},
};
use mint::Vector2;
use once_cell::sync::OnceCell;
use parking_lot::Mutex;
use send_wrapper::SendWrapper;
use smithay::{
backend::renderer::{
gles::{GlesRenderer, GlesTexture},
utils::{import_surface_tree, on_commit_buffer_handler, RendererSurfaceStateUserData},
utils::{import_surface_tree, RendererSurfaceStateUserData},
Renderer, Texture,
},
desktop::utils::send_frames_surface_tree,
output::Output,
reexports::wayland_server::{
self, protocol::wl_surface::WlSurface, Display, DisplayHandle, Resource,
},
wayland::compositor::{self, SurfaceData},
reexports::wayland_server::{self, protocol::wl_surface::WlSurface, Resource},
};
use std::{
ffi::c_void,
sync::{Arc, Weak},
time::Duration,
};
use stereokit::{
Material, StereoKitDraw, Tex, TextureAddress, TextureFormat, TextureSample, TextureType,
Transparency,
use std::{ffi::c_void, sync::Arc, time::Duration};
use stereokit_rust::{
material::{Material, Transparency},
shader::Shader,
tex::{Tex, TexAddress, TexFormat, TexSample, TexType},
util::Time,
};
pub static CORE_SURFACES: Registry<CoreSurface> = Registry::new();
pub struct CoreSurfaceData {
wl_tex: Option<SendWrapper<GlesTexture>>,
pub size: Vector2<u32>,
}
impl Drop for CoreSurfaceData {
fn drop(&mut self) {
@@ -43,134 +42,133 @@ impl Drop for CoreSurfaceData {
}
pub struct CoreSurface {
display: Weak<Mutex<Display<WaylandState>>>,
pub dh: DisplayHandle,
pub weak_surface: wayland_server::Weak<WlSurface>,
mapped_data: Mutex<Option<CoreSurfaceData>>,
sk_tex: OnceCell<SendWrapper<Tex>>,
sk_mat: OnceCell<Arc<SendWrapper<Material>>>,
sk_tex: OnceCell<Mutex<TexWrapper>>,
sk_mat: OnceCell<Mutex<MaterialWrapper>>,
material_offset: Mutex<Delta<u32>>,
on_commit: Box<dyn Fn(u32) + Send + Sync>,
pub pending_material_applications: Registry<ModelPart>,
}
impl CoreSurface {
pub fn add_to(
display: &Arc<Mutex<Display<WaylandState>>>,
dh: DisplayHandle,
surface: &WlSurface,
on_commit: impl Fn(u32) + Send + Sync + 'static,
) {
compositor::with_states(surface, |data| {
data.data_map.insert_if_missing_threadsafe(|| {
CORE_SURFACES.add(CoreSurface {
display: Arc::downgrade(display),
dh,
weak_surface: surface.downgrade(),
mapped_data: Mutex::new(None),
sk_tex: OnceCell::new(),
sk_mat: OnceCell::new(),
material_offset: Mutex::new(Delta::new(0)),
on_commit: Box::new(on_commit) as Box<dyn Fn(u32) + Send + Sync>,
pending_material_applications: Registry::new(),
})
});
pub fn add_to(surface: &WlSurface) {
let core_surface = CORE_SURFACES.add(CoreSurface {
weak_surface: surface.downgrade(),
mapped_data: Mutex::new(None),
sk_tex: OnceCell::new(),
sk_mat: OnceCell::new(),
material_offset: Mutex::new(Delta::new(0)),
pending_material_applications: Registry::new(),
});
}
pub fn commit(&self, count: u32) {
(self.on_commit)(count);
surface.insert_data(core_surface);
}
pub fn from_wl_surface(surf: &WlSurface) -> Option<Arc<CoreSurface>> {
compositor::with_states(surf, |data| {
data.data_map.get::<Arc<CoreSurface>>().cloned()
})
surf.get_data()
}
pub fn process(&self, sk: &impl StereoKitDraw, renderer: &mut GlesRenderer) {
let Some(wl_surface) = self.wl_surface() else { return };
pub fn process(&self, renderer: &mut GlesRenderer) {
let Some(wl_surface) = self.wl_surface() else {
return;
};
let sk_tex = self.sk_tex.get_or_init(|| {
SendWrapper::new(sk.tex_create(TextureType::IMAGE_NO_MIPS, TextureFormat::RGBA32))
Mutex::new(TexWrapper(Tex::new(
TexType::ImageNomips,
TexFormat::RGBA32Linear,
nanoid::nanoid!(),
)))
});
self.sk_mat.get_or_init(|| {
let shader = sk.shader_create_mem(&PANEL_SHADER_BYTES).unwrap();
let mat = sk.material_create(&shader);
sk.material_set_texture(&mat, "diffuse", sk_tex.as_ref());
sk.material_set_transparency(&mat, Transparency::Blend);
Arc::new(SendWrapper::new(mat))
let shader = Shader::from_memory(PANEL_SHADER_BYTES).unwrap();
// let _ = renderer.with_context(|c| unsafe {
// shader_inject(c, &mut shader, SIMULA_VERT_STR, SIMULA_FRAG_STR)
// });
let mut mat = Material::new(shader, None);
mat.diffuse_tex(&sk_tex.lock().0);
mat.transparency(Transparency::Blend);
Mutex::new(MaterialWrapper(mat))
});
// Let smithay handle buffer management (has to be done here as RendererSurfaceStates is not thread safe)
on_commit_buffer_handler::<WaylandState>(&wl_surface);
// Import all surface buffers into textures
if import_surface_tree(renderer, &wl_surface).is_err() {
return;
}
let mapped = compositor::with_states(&wl_surface, |data| {
data.data_map
.get::<RendererSurfaceStateUserData>()
.map(|surface_states| surface_states.borrow().buffer().is_some())
.unwrap_or(false)
});
self.update_textures(renderer);
self.apply_surface_materials();
}
pub fn update_textures(&self, renderer: &mut GlesRenderer) {
let Some(wl_surface) = self.wl_surface() else {
return;
};
let mapped = wl_surface
.get_data_raw::<RendererSurfaceStateUserData, _, _>(|surface_states| {
surface_states.lock().unwrap().buffer().is_some()
})
.unwrap_or(false);
if !mapped {
return;
}
let mut mapped_data = self.mapped_data.lock();
self.with_states(|data| {
// let just_mapped = mapped_data.is_none();
// if just_mapped {
let renderer_surface_state = data
.data_map
.get::<RendererSurfaceStateUserData>()
.unwrap()
.borrow();
let smithay_tex = renderer_surface_state
.texture::<GlesRenderer>(renderer.id())
.unwrap()
.clone();
let sk_tex = self.sk_tex.get().unwrap();
let sk_mat = self.sk_mat.get().unwrap();
unsafe {
sk.tex_set_surface(
sk_tex.as_ref(),
smithay_tex.tex_id() as usize as *mut c_void,
TextureType::IMAGE_NO_MIPS,
smithay::backend::renderer::gles::ffi::RGBA8.into(),
smithay_tex.width() as i32,
smithay_tex.height() as i32,
1,
false,
);
sk.tex_set_sample(sk_tex.as_ref(), TextureSample::Point);
sk.tex_set_address(sk_tex.as_ref(), TextureAddress::Clamp);
}
if let Some(material_offset) = self.material_offset.lock().delta() {
sk.material_set_queue_offset(sk_mat.as_ref().as_ref(), *material_offset as i32);
}
let Some(smithay_tex) = wl_surface
.get_data_raw::<RendererSurfaceStateUserData, _, _>(|surface_states| {
surface_states
.lock()
.unwrap()
.texture::<GlesRenderer>(renderer.id())
.cloned()
})
.flatten()
else {
return;
};
let surface_size = renderer_surface_state.surface_size().unwrap();
let new_mapped_data = CoreSurfaceData {
size: Vector2::from([surface_size.w as u32, surface_size.h as u32]),
wl_tex: Some(SendWrapper::new(smithay_tex)),
};
*mapped_data = Some(new_mapped_data);
});
self.apply_surface_materials();
let Some(sk_tex) = self.sk_tex.get() else {
return;
};
let Some(sk_mat) = self.sk_mat.get() else {
return;
};
sk_tex
.lock()
.0
.set_native_surface(
smithay_tex.tex_id() as usize as *mut c_void,
TexType::ImageNomips,
smithay::backend::renderer::gles::ffi::RGBA8.into(),
smithay_tex.width() as i32,
smithay_tex.height() as i32,
1,
false,
)
.sample_mode(TexSample::Point)
.address_mode(TexAddress::Clamp);
if let Some(material_offset) = self.material_offset.lock().delta() {
sk_mat.lock().0.queue_offset(*material_offset as i32);
}
let new_mapped_data = CoreSurfaceData {
wl_tex: Some(SendWrapper::new(smithay_tex)),
};
*mapped_data = Some(new_mapped_data);
}
pub fn frame(&self, sk: &impl StereoKitDraw, output: Output) {
let Some(wl_surface) = self.wl_surface() else { return };
pub fn frame(&self, output: Output) {
let Some(wl_surface) = self.wl_surface() else {
return;
};
send_frames_surface_tree(
&wl_surface,
&output,
Duration::from_secs_f64(sk.time_get()),
Duration::from_secs_f64(Time::get_total_unscaled()),
None,
|_, _| Some(output.clone()),
);
@@ -180,41 +178,23 @@ impl CoreSurface {
*self.material_offset.lock().value_mut() = material_offset;
}
pub fn apply_material(&self, model_node: &Arc<ModelPart>) {
self.pending_material_applications.add_raw(model_node)
pub fn apply_material(&self, model_part: &Arc<ModelPart>) {
self.pending_material_applications.add_raw(model_part)
}
fn apply_surface_materials(&self) {
for model_node in self.pending_material_applications.get_valid_contents() {
model_node.replace_material(self.sk_mat.clone().get().unwrap().clone());
if let Some(sk_mat) = self.sk_mat.get() {
let sk_mat = sk_mat.lock();
for model_node in self.pending_material_applications.get_valid_contents() {
model_node.replace_material_now(&sk_mat.0);
}
self.pending_material_applications.clear();
}
self.pending_material_applications.clear();
}
pub fn wl_surface(&self) -> Option<WlSurface> {
self.weak_surface.upgrade().ok()
}
pub fn with_states<F, T>(&self, f: F) -> Option<T>
where
F: FnOnce(&SurfaceData) -> T,
{
self.wl_surface()
.map(|wl_surface| compositor::with_states(&wl_surface, f))
}
pub fn size(&self) -> Option<Vector2<u32>> {
self.mapped_data.lock().as_ref().map(|d| d.size)
}
pub fn flush_clients(&self) {
self.display
.upgrade()
.unwrap()
.lock()
.flush_clients()
.unwrap();
}
}
impl Drop for CoreSurface {
fn drop(&mut self) {

121
src/wayland/utils.rs Normal file
View File

@@ -0,0 +1,121 @@
use mint::Vector2;
use parking_lot::Mutex;
use smithay::{
backend::renderer::utils::RendererSurfaceStateUserData,
reexports::wayland_server::protocol::wl_surface::WlSurface,
wayland::{
compositor,
shell::xdg::{SurfaceCachedState, XdgToplevelSurfaceData},
},
};
use crate::nodes::items::panel::{ChildInfo, Geometry, ToplevelInfo};
use super::xdg_shell::surface_panel_item;
pub trait WlSurfaceExt {
fn insert_data<T: Send + Sync + 'static>(&self, data: T) -> bool;
fn get_data<T: Send + Sync + Clone + 'static>(&self) -> Option<T>;
fn get_data_raw<T: Send + Sync + 'static, O, F: FnOnce(&T) -> O>(&self, f: F) -> Option<O>;
fn get_current_surface_state(&self) -> SurfaceCachedState;
fn get_pending_surface_state(&self) -> SurfaceCachedState;
fn get_size(&self) -> Option<Vector2<u32>>;
fn get_geometry(&self) -> Option<Geometry>;
}
impl WlSurfaceExt for WlSurface {
fn insert_data<T: Send + Sync + 'static>(&self, data: T) -> bool {
compositor::with_states(self, |d| {
d.data_map.insert_if_missing_threadsafe(move || data)
})
}
fn get_data<T: Send + Sync + Clone + 'static>(&self) -> Option<T> {
compositor::with_states(self, |d| d.data_map.get::<T>().cloned())
}
fn get_data_raw<T: Send + Sync + 'static, O, F: FnOnce(&T) -> O>(&self, f: F) -> Option<O> {
compositor::with_states(self, |d| Some((f)(d.data_map.get::<T>()?)))
}
fn get_current_surface_state(&self) -> SurfaceCachedState {
compositor::with_states(self, |states| {
*states.cached_state.get::<SurfaceCachedState>().current()
})
}
fn get_pending_surface_state(&self) -> SurfaceCachedState {
compositor::with_states(self, |states| {
*states.cached_state.get::<SurfaceCachedState>().pending()
})
}
fn get_size(&self) -> Option<Vector2<u32>> {
self.get_data_raw::<RendererSurfaceStateUserData, _, _>(|surface_states| {
surface_states.lock().unwrap().surface_size()
})
.flatten()
.map(|size| Vector2::from([size.w as u32, size.h as u32]))
}
fn get_geometry(&self) -> Option<Geometry> {
self.get_current_surface_state().geometry.map(|r| r.into())
}
}
pub trait ToplevelInfoExt {
fn get_toplevel_info(&self) -> Option<ToplevelInfo>;
fn with_toplevel_info<O, F: FnOnce(&mut ToplevelInfo) -> O>(&self, f: F) -> Option<O>;
fn get_parent(&self) -> Option<u64>;
fn get_app_id(&self) -> Option<String>;
fn get_title(&self) -> Option<String>;
fn min_size(&self) -> Option<Vector2<u32>>;
fn max_size(&self) -> Option<Vector2<u32>>;
}
impl ToplevelInfoExt for WlSurface {
fn get_toplevel_info(&self) -> Option<ToplevelInfo> {
self.get_data_raw::<Mutex<ToplevelInfo>, _, _>(|c| c.lock().clone())
}
fn with_toplevel_info<O, F: FnOnce(&mut ToplevelInfo) -> O>(&self, f: F) -> Option<O> {
self.get_data_raw::<Mutex<ToplevelInfo>, _, _>(|r| (f)(&mut r.lock()))
}
fn get_parent(&self) -> Option<u64> {
self.get_data_raw::<XdgToplevelSurfaceData, _, _>(|d| d.lock().unwrap().parent.clone())
.flatten()
.and_then(|p| surface_panel_item(&p))
.and_then(|p| p.node.upgrade())
.map(|p| p.get_id())
}
fn get_app_id(&self) -> Option<String> {
self.get_data_raw::<XdgToplevelSurfaceData, _, _>(|d| d.lock().ok()?.app_id.clone())
.flatten()
}
fn get_title(&self) -> Option<String> {
self.get_data_raw::<XdgToplevelSurfaceData, _, _>(|d| d.lock().ok()?.title.clone())
.flatten()
}
fn min_size(&self) -> Option<Vector2<u32>> {
let state = self.get_pending_surface_state();
let size = state.min_size;
if size.w == 0 && size.h == 0 {
None
} else {
Some(Vector2::from([size.w as u32, size.h as u32]))
}
}
fn max_size(&self) -> Option<Vector2<u32>> {
let state = self.get_pending_surface_state();
let size = state.max_size;
if size.w == 0 && size.h == 0 {
None
} else {
Some(Vector2::from([size.w as u32, size.h as u32]))
}
}
}
pub trait ChildInfoExt {
fn get_child_info(&self) -> Option<ChildInfo>;
fn with_child_info<O, F: FnOnce(&mut ChildInfo) -> O>(&self, f: F) -> Option<O>;
}
impl ChildInfoExt for WlSurface {
fn get_child_info(&self) -> Option<ChildInfo> {
self.get_data_raw::<Mutex<ChildInfo>, _, _>(|c| c.lock().clone())
}
fn with_child_info<O, F: FnOnce(&mut ChildInfo) -> O>(&self, f: F) -> Option<O> {
self.get_data_raw::<Mutex<ChildInfo>, _, _>(|r| (f)(&mut r.lock()))
}
}

189
src/wayland/wayland-drm.xml Normal file
View File

@@ -0,0 +1,189 @@
<?xml version="1.0" encoding="UTF-8"?>
<protocol name="drm">
<copyright>
Copyright © 2008-2011 Kristian Høgsberg
Copyright © 2010-2011 Intel Corporation
Permission to use, copy, modify, distribute, and sell this
software and its documentation for any purpose is hereby granted
without fee, provided that\n the above copyright notice appear in
all copies and that both that copyright notice and this permission
notice appear in supporting documentation, and that the name of
the copyright holders not be used in advertising or publicity
pertaining to distribution of the software without specific,
written prior permission. The copyright holders make no
representations about the suitability of this software for any
purpose. It is provided "as is" without express or implied
warranty.
THE COPYRIGHT HOLDERS DISCLAIM ALL WARRANTIES WITH REGARD TO THIS
SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND
FITNESS, IN NO EVENT SHALL THE COPYRIGHT HOLDERS BE LIABLE FOR ANY
SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN
AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION,
ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF
THIS SOFTWARE.
</copyright>
<!-- drm support. This object is created by the server and published
using the display's global event. -->
<interface name="wl_drm" version="2">
<enum name="error">
<entry name="authenticate_fail" value="0" />
<entry name="invalid_format" value="1" />
<entry name="invalid_name" value="2" />
</enum>
<enum name="format">
<!-- The drm format codes match the #defines in drm_fourcc.h.
The formats actually supported by the compositor will be
reported by the format event. New codes must not be added,
unless directly taken from drm_fourcc.h. -->
<entry name="c8" value="0x20203843" />
<entry name="rgb332" value="0x38424752" />
<entry name="bgr233" value="0x38524742" />
<entry name="xrgb4444" value="0x32315258" />
<entry name="xbgr4444" value="0x32314258" />
<entry name="rgbx4444" value="0x32315852" />
<entry name="bgrx4444" value="0x32315842" />
<entry name="argb4444" value="0x32315241" />
<entry name="abgr4444" value="0x32314241" />
<entry name="rgba4444" value="0x32314152" />
<entry name="bgra4444" value="0x32314142" />
<entry name="xrgb1555" value="0x35315258" />
<entry name="xbgr1555" value="0x35314258" />
<entry name="rgbx5551" value="0x35315852" />
<entry name="bgrx5551" value="0x35315842" />
<entry name="argb1555" value="0x35315241" />
<entry name="abgr1555" value="0x35314241" />
<entry name="rgba5551" value="0x35314152" />
<entry name="bgra5551" value="0x35314142" />
<entry name="rgb565" value="0x36314752" />
<entry name="bgr565" value="0x36314742" />
<entry name="rgb888" value="0x34324752" />
<entry name="bgr888" value="0x34324742" />
<entry name="xrgb8888" value="0x34325258" />
<entry name="xbgr8888" value="0x34324258" />
<entry name="rgbx8888" value="0x34325852" />
<entry name="bgrx8888" value="0x34325842" />
<entry name="argb8888" value="0x34325241" />
<entry name="abgr8888" value="0x34324241" />
<entry name="rgba8888" value="0x34324152" />
<entry name="bgra8888" value="0x34324142" />
<entry name="xrgb2101010" value="0x30335258" />
<entry name="xbgr2101010" value="0x30334258" />
<entry name="rgbx1010102" value="0x30335852" />
<entry name="bgrx1010102" value="0x30335842" />
<entry name="argb2101010" value="0x30335241" />
<entry name="abgr2101010" value="0x30334241" />
<entry name="rgba1010102" value="0x30334152" />
<entry name="bgra1010102" value="0x30334142" />
<entry name="yuyv" value="0x56595559" />
<entry name="yvyu" value="0x55595659" />
<entry name="uyvy" value="0x59565955" />
<entry name="vyuy" value="0x59555956" />
<entry name="ayuv" value="0x56555941" />
<entry name="xyuv8888" value="0x56555958" />
<entry name="nv12" value="0x3231564e" />
<entry name="nv21" value="0x3132564e" />
<entry name="nv16" value="0x3631564e" />
<entry name="nv61" value="0x3136564e" />
<entry name="yuv410" value="0x39565559" />
<entry name="yvu410" value="0x39555659" />
<entry name="yuv411" value="0x31315559" />
<entry name="yvu411" value="0x31315659" />
<entry name="yuv420" value="0x32315559" />
<entry name="yvu420" value="0x32315659" />
<entry name="yuv422" value="0x36315559" />
<entry name="yvu422" value="0x36315659" />
<entry name="yuv444" value="0x34325559" />
<entry name="yvu444" value="0x34325659" />
<entry name="abgr16f" value="0x48344241" />
<entry name="xbgr16f" value="0x48344258" />
</enum>
<!-- Call this request with the magic received from drmGetMagic().
It will be passed on to the drmAuthMagic() or
DRIAuthConnection() call. This authentication must be
completed before create_buffer could be used. -->
<request name="authenticate">
<arg name="id" type="uint" />
</request>
<!-- Create a wayland buffer for the named DRM buffer. The DRM
surface must have a name using the flink ioctl -->
<request name="create_buffer">
<arg name="id" type="new_id" interface="wl_buffer" />
<arg name="name" type="uint" />
<arg name="width" type="int" />
<arg name="height" type="int" />
<arg name="stride" type="uint" />
<arg name="format" type="uint" />
</request>
<!-- Create a wayland buffer for the named DRM buffer. The DRM
surface must have a name using the flink ioctl -->
<request name="create_planar_buffer">
<arg name="id" type="new_id" interface="wl_buffer" />
<arg name="name" type="uint" />
<arg name="width" type="int" />
<arg name="height" type="int" />
<arg name="format" type="uint" />
<arg name="offset0" type="int" />
<arg name="stride0" type="int" />
<arg name="offset1" type="int" />
<arg name="stride1" type="int" />
<arg name="offset2" type="int" />
<arg name="stride2" type="int" />
</request>
<!-- Notification of the path of the drm device which is used by
the server. The client should use this device for creating
local buffers. Only buffers created from this device should
be be passed to the server using this drm object's
create_buffer request. -->
<event name="device">
<arg name="name" type="string" />
</event>
<event name="format">
<arg name="format" type="uint" />
</event>
<!-- Raised if the authenticate request succeeded -->
<event name="authenticated" />
<enum name="capability" since="2">
<description summary="wl_drm capability bitmask">
Bitmask of capabilities.
</description>
<entry name="prime" value="1" summary="wl_drm prime available" />
</enum>
<event name="capabilities">
<arg name="value" type="uint" />
</event>
<!-- Version 2 additions -->
<!-- Create a wayland buffer for the prime fd. Use for regular and planar
buffers. Pass 0 for offset and stride for unused planes. -->
<request name="create_prime_buffer" since="2">
<arg name="id" type="new_id" interface="wl_buffer" />
<arg name="name" type="fd" />
<arg name="width" type="int" />
<arg name="height" type="int" />
<arg name="format" type="uint" />
<arg name="offset0" type="int" />
<arg name="stride0" type="int" />
<arg name="offset1" type="int" />
<arg name="stride1" type="int" />
<arg name="offset2" type="int" />
<arg name="stride2" type="int" />
</request>
</interface>
</protocol>

1135
src/wayland/xdg_shell.rs
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