max/nodarium
1
0
Fork 0
Code Issues 9 Pull Requests 1 Actions Packages Projects Releases 5 Wiki Activity

Compare commits

base: max:feat/shape-node
Branches Tags
max:main max:feat/arena-runtime max:feat/shape-node max:feat/zig-based-node
max:v0.0.5 max:v0.0.4 max:v0.0.3 max:v0.0.2 max:v0.0.1
..
compare: max:feat/arena-runtime
Branches Tags
max:feat/arena-runtime max:main max:feat/shape-node max:feat/zig-based-node
max:v0.0.5 max:v0.0.4 max:v0.0.3 max:v0.0.2 max:v0.0.1

56 Commits
feat/shape ... feat/arena

Author SHA1 Message Date
Max Richter
be8161ec8d wip
Some checks failed
📊 Benchmark the Runtime / release (pull_request) Failing after 1m16s
Details
🚀 Lint & Test & Deploy / release (pull_request) Failing after 1m19s
Details
2026-02-17 13:49:10 +01:00
Max Richter
4cb24e8ff9 feat: some shit 2026-02-17 13:49:10 +01:00
Max Richter
30afb30341 feat: add debug node 2026-02-17 13:49:10 +01:00
Max Richter
1d1a44324e feat: some shit 2026-02-17 13:49:10 +01:00
Max Richter
343eca02b5 chore: make sure to specify wasm flags only on wasm build 2026-02-17 13:49:10 +01:00
Max Richter
45a9800e6a chore: cargo fix 2026-02-17 13:49:10 +01:00
Max Richter
b384348e70 feat: make all nodes work with new runtime 2026-02-17 13:49:10 +01:00
Max Richter
25ceb6e94f feat: first working version of new allocator 2026-02-17 13:49:09 +01:00
Max Richter
ff8c6637f8 feat: add "*"/any type input for dev page 2026-02-17 13:49:09 +01:00
Max Richter
2ec9bfc3c9 feat(ci): compress benchmark data
All checks were successful
📊 Benchmark the Runtime / release (push) Successful in 1m20s
Details
🚀 Lint & Test & Deploy / release (push) Successful in 4m7s
Details
2026-02-13 15:21:57 +01:00
Max Richter
c97520617a fix(ci): use older upload-artifact action
All checks were successful
📊 Benchmark the Runtime / release (push) Successful in 1m16s
Details
🚀 Lint & Test & Deploy / release (push) Successful in 4m23s
Details
2026-02-13 15:01:59 +01:00
Max Richter
6475790176 fix(ci): build nodes before benchmarking
Some checks failed
📊 Benchmark the Runtime / release (push) Failing after 1m16s
Details
🚀 Lint & Test & Deploy / release (push) Has been cancelled
Details
2026-02-13 14:57:07 +01:00
Max Richter
580ec73465 ci: run benchmark in ci
Some checks failed
📊 Benchmark the Runtime / release (push) Failing after 42s
Details
🚀 Lint & Test & Deploy / release (push) Successful in 4m20s
Details
2026-02-13 14:46:21 +01:00
nodarium-bot
fd98d457a3 chore(release): v0.0.5 2026-02-13 01:47:35 +00:00
Max Richter
f16ba2601f fix(ci): still trying to get gpg to work
All checks were successful
🚀 Lint & Test & Deploy / release (push) Successful in 3m54s
Details
2026-02-13 02:43:02 +01:00
Max Richter
cc6b832f15 fix(ci): trying to get gpg to work
Some checks failed
🚀 Lint & Test & Deploy / release (push) Failing after 3m22s
Details
2026-02-13 02:25:11 +01:00
Max Richter
dd5fd5bf17 fix(ci): better add updates to package.json
Some checks failed
🚀 Lint & Test & Deploy / release (push) Failing after 4m0s
Details
2026-02-13 02:10:34 +01:00
Max Richter
38d0fffcf4 chore: update ci image
Some checks failed
🚀 Lint & Test & Deploy / release (push) Failing after 3m48s
Details
2026-02-13 01:58:16 +01:00
Max Richter
bce06da456 ci: add gpg-agent to ci image
Some checks failed
Build & Push CI Image / build-and-push (push) Successful in 8m43s
Details
🚀 Lint & Test & Deploy / release (push) Has been cancelled
Details
2026-02-13 01:47:32 +01:00
Max Richter
af585d56ec feat: use new ci image with gpg
Some checks failed
🚀 Lint & Test & Deploy / release (push) Failing after 3m45s
Details
2026-02-13 01:24:19 +01:00
Max Richter
0aa73a27c1 feat: install gpg in ci image
Some checks failed
Build & Push CI Image / build-and-push (push) Successful in 10m7s
Details
🚀 Lint & Test & Deploy / release (push) Has been cancelled
Details
2026-02-13 01:13:01 +01:00
Max Richter
c1ae70282c feat: add color to sockets
Some checks failed
🚀 Lint & Test & Deploy / release (push) Failing after 3m5s
Details 
Closes #34
 2026-02-13 00:57:28 +01:00
Max Richter
4c7b03dfb8 feat: add gradient mesh line 2026-02-13 00:51:21 +01:00
Max Richter
144e8cc797 fix: correctly highlight possible outputs 2026-02-12 23:38:44 +01:00
max_richter
12ff9c1518 Merge pull request 'feat/debug-node' (#41) from feat/debug-node into main
All checks were successful
🚀 Lint & Test & Deploy / release (push) Successful in 3m58s
Details 
Reviewed-on: #41
 2026-02-12 23:20:58 +01:00
max_richter
8d3ffe84ab Merge branch 'main' into feat/debug-node
All checks were successful
🚀 Lint & Test & Deploy / release (pull_request) Successful in 3m54s
Details
2026-02-12 23:05:09 +01:00
Max Richter
95ec93eead feat: better handle ctrl+shift clicks and selections
All checks were successful
🚀 Lint & Test & Deploy / release (pull_request) Successful in 3m45s
Details
2026-02-12 22:46:50 +01:00
Max Richter
d39185efaf feat: add "pnpm qa" command to check before commit
All checks were successful
🚀 Lint & Test & Deploy / release (pull_request) Successful in 3m52s
Details
2026-02-12 22:33:37 +01:00
Max Richter
81580ccd8c fix: cleanup some type errors 2026-02-12 22:33:25 +01:00
Max Richter
bf6f632d27 feat: add shortcut to quick connect to debug
Some checks failed
🚀 Lint & Test & Deploy / release (pull_request) Failing after 1m22s
Details
2026-02-12 22:27:11 +01:00
release-bot
e098be6013 fix: also execute all nodes before debug node
All checks were successful
🚀 Lint & Test & Deploy / release (pull_request) Successful in 3m56s
Details
2026-02-12 21:57:33 +01:00
release-bot
ec13850e1c fix: make debug node work with runtime 2026-02-12 21:42:44 +01:00
release-bot
15e08a8163 feat: implement debug node
All checks were successful
🚀 Lint & Test & Deploy / release (pull_request) Successful in 3m53s
Details 
Closes #39
 2026-02-12 21:33:47 +01:00
release-bot
48cee58ad3 chore: update test snapshots
All checks were successful
🚀 Lint & Test & Deploy / release (pull_request) Successful in 4m8s
Details
2026-02-12 18:26:13 +01:00
release-bot
3235cae904 chore: fix lint and typecheck errors
Some checks failed
🚀 Lint & Test & Deploy / release (pull_request) Failing after 3m15s
Details
2026-02-12 18:19:27 +01:00
release-bot
3f440728fc feat: implement variable height for node shader
Some checks failed
🚀 Lint & Test & Deploy / release (pull_request) Failing after 1m3s
Details
2026-02-12 18:11:14 +01:00
release-bot
da09f8ba1e refactor: move debug node into runtime 2026-02-12 16:18:29 +01:00
release-bot
ddc3b4ce35 feat: allow variable height node parameters 2026-02-12 16:18:12 +01:00
release-bot
2690fc8712 chore: gitignore pnpm-store
All checks were successful
🚀 Lint & Test & Deploy / release (push) Successful in 4m6s
Details
2026-02-12 15:42:38 +01:00
release-bot
072ab9063b feat: add initial debug node 2026-02-12 14:00:18 +01:00
release-bot
e23cad254d feat: add "*" datatype for inputs for debug node 2026-02-12 14:00:06 +01:00
release-bot
5b5c63c1a9 fix(ui): make arrows on inputnumber visible on lighttheme 2026-02-12 13:31:34 +01:00
release-bot
c9021f2383 refactor: merge all dev settings into one setting 2026-02-12 13:10:14 +01:00
max_richter
9eecdd4fb8 Merge pull request 'feat: merge localState recursively with initial' (#38) from feat/debug-node into main
All checks were successful
🚀 Lint & Test & Deploy / release (push) Successful in 3m50s
Details 
Reviewed-on: #38
 2026-02-12 12:51:28 +01:00
release-bot
7e71a41e52 feat: merge localState recursively with initial
All checks were successful
🚀 Lint & Test & Deploy / release (pull_request) Successful in 4m0s
Details 
Closes #17
 2026-02-12 12:50:58 +01:00
release-bot
07cd9e84eb feat: clamp AddMenu to viewport
All checks were successful
🚀 Lint & Test & Deploy / release (push) Successful in 4m10s
Details
2026-02-10 21:51:50 +01:00
release-bot
a31a49ad50 ci: lint and typecheck before build
All checks were successful
🚀 Lint & Test & Deploy / release (push) Successful in 3m42s
Details
2026-02-10 15:54:50 +01:00
release-bot
850d641a25 chore: pnpm format
Some checks failed
🚀 Lint & Test & Deploy / release (push) Has been cancelled
Details
2026-02-10 15:54:01 +01:00
release-bot
ee5ca81757 ci: sign release commits with pgp key
Some checks failed
🚀 Lint & Test & Deploy / release (push) Failing after 2m10s
Details
2026-02-10 15:47:42 +01:00
release-bot
22a11832b8 fix(ci): correctly format changelog 2026-02-10 15:24:23 +01:00
release-bot
b5ce5723fa chore: format favicon svg
All checks were successful
🚀 Lint & Test & Deploy / release (push) Successful in 3m53s
Details
2026-02-10 15:14:35 +01:00
release-bot
102130cc77 feat: add favicon
Some checks failed
🚀 Lint & Test & Deploy / release (push) Failing after 2m5s
Details
2026-02-10 15:11:58 +01:00
release-bot
1668a2e6d5 chore: format changelog.md
Some checks failed
🚀 Lint & Test & Deploy / release (push) Has been cancelled
Details
2026-02-10 15:09:03 +01:00
release-bot
b0af83004e chore(release): v0.0.4 2026-02-10 14:03:49 +00:00
release-bot
51de3ced13 fix(ci): update changelog before building
All checks were successful
🚀 Lint & Test & Deploy / release (push) Successful in 3m47s
Details
2026-02-10 14:59:17 +01:00
max_richter
8d403ba803 Merge pull request 'feat/shape-node' (#36) from feat/shape-node into main
All checks were successful
🚀 Lint & Test & Deploy / release (push) Successful in 4m0s
Details 
Reviewed-on: #36
 2026-02-09 22:32:14 +01:00
105 changed files with 4205 additions and 1132 deletions
Expand all files Collapse all files

9
.cargo/config.toml Normal file
View File

@@ -0,0 +1,9 @@
[target.wasm32-unknown-unknown]
rustflags = [
"-C",
"link-arg=--import-memory",
"-C",
"link-arg=--initial-memory=67108864", # 64 MiB
"-C",
"link-arg=--max-memory=536870912", # 512 MiB
]

23
.gitea/scripts/create-release.sh
View File

@@ -58,6 +58,7 @@ tmp_changelog="CHANGELOG.tmp"
echo "" echo ""
if [ -n "$COMMITS" ]; then if [ -n "$COMMITS" ]; then
echo "---" echo "---"
echo ""
echo "$COMMITS" echo "$COMMITS"
echo "" echo ""
fi fi
@@ -72,12 +73,24 @@ mv "$tmp_changelog" CHANGELOG.md
pnpm exec dprint fmt CHANGELOG.md pnpm exec dprint fmt CHANGELOG.md
# ------------------------------------------------------------------- # -------------------------------------------------------------------
# 5. Create release commit # 5. Setup GPG signing
# ------------------------------------------------------------------- # -------------------------------------------------------------------
git config user.name "release-bot" echo "$BOT_PGP_PRIVATE_KEY" | base64 -d | gpg --batch --import
git config user.email "release-bot@ci" GPG_KEY_ID=$(gpg --list-secret-keys --keyid-format LONG | grep sec | awk '{print $2}' | cut -d'/' -f2)
git add CHANGELOG.md $(find . -name package.json ! -path "*/node_modules/*") export GPG_TTY=$(tty)
echo "allow-loopback-pinentry" >>~/.gnupg/gpg-agent.conf
gpg-connect-agent reloadagent /bye
git config user.name "nodarium-bot"
git config user.email "nodarium-bot@max-richter.dev"
git config --global user.signingkey "$GPG_KEY_ID"
git config --global commit.gpgsign true
# -------------------------------------------------------------------
# 6. Create release commit
# -------------------------------------------------------------------
git add CHANGELOG.md $(git ls-files '**/package.json')
if git diff --cached --quiet; then if git diff --cached --quiet; then
echo "No changes to commit for release $TAG" echo "No changes to commit for release $TAG"
@@ -86,6 +99,4 @@ else
git push origin main git push origin main
fi fi
rm app/static/CHANGELOG.md
cp CHANGELOG.md app/static/CHANGELOG.md
echo "✅ Release process for $TAG complete" echo "✅ Release process for $TAG complete"

59
.gitea/workflows/benchmark.yaml Normal file
View File

@@ -0,0 +1,59 @@
name: 📊 Benchmark the Runtime
on:
push:
branches: ["*"]
pull_request:
branches: ["*"]
env:
PNPM_CACHE_FOLDER: .pnpm-store
CARGO_HOME: .cargo
CARGO_TARGET_DIR: target
jobs:
release:
runs-on: ubuntu-latest
container: git.max-richter.dev/max/nodarium-ci:bce06da456e3c008851ac006033cfff256015a47
steps:
- name: 📑 Checkout Code
uses: actions/checkout@v4
with:
fetch-depth: 0
token: ${{ secrets.GITEA_TOKEN }}
- name: 💾 Setup pnpm Cache
uses: actions/cache@v4
with:
path: ${{ env.PNPM_CACHE_FOLDER }}
key: ${{ runner.os }}-pnpm-${{ hashFiles('**/pnpm-lock.yaml') }}
restore-keys: |
${{ runner.os }}-pnpm-
- name: 🦀 Cache Cargo
uses: actions/cache@v4
with:
path: |
~/.cargo/registry
~/.cargo/git
target
key: ${{ runner.os }}-cargo-${{ hashFiles('**/Cargo.lock') }}
restore-keys: |
${{ runner.os }}-cargo-
- name: 📦 Install Dependencies
run: pnpm install --frozen-lockfile --store-dir ${{ env.PNPM_CACHE_FOLDER }}
- name: 🛠Build Nodes
run: pnpm build:nodes
- name: 🏃 Execute Runtime
run: pnpm run --filter @nodarium/app bench
- name: 📤 Upload Benchmark Results
uses: actions/upload-artifact@v3
with:
name: benchmark-data
path: app/benchmark/out/
compression: 9

12
.gitea/workflows/release.yaml
View File

@@ -15,7 +15,7 @@ env:
jobs: jobs:
release: release:
runs-on: ubuntu-latest runs-on: ubuntu-latest
container: git.max-richter.dev/max/nodarium-ci:fd7268d6208aede435e1685817ae6b271c68bd83 container: git.max-richter.dev/max/nodarium-ci:bce06da456e3c008851ac006033cfff256015a47
steps: steps:
- name: 📑 Checkout Code - name: 📑 Checkout Code
@@ -48,18 +48,20 @@ jobs:
- name: 🧹 Quality Control - name: 🧹 Quality Control
run: | run: |
pnpm build
pnpm lint pnpm lint
pnpm format:check pnpm format:check
pnpm check pnpm check
pnpm build
xvfb-run --auto-servernum --server-args="-screen 0 1280x1024x24" pnpm test xvfb-run --auto-servernum --server-args="-screen 0 1280x1024x24" pnpm test
- name: 🛠️ Build
run: ./.gitea/scripts/build.sh
- name: 🚀 Create Release Commit - name: 🚀 Create Release Commit
if: gitea.ref_type == 'tag' if: gitea.ref_type == 'tag'
run: ./.gitea/scripts/create-release.sh run: ./.gitea/scripts/create-release.sh
env:
BOT_PGP_PRIVATE_KEY: ${{ secrets.BOT_PGP_PRIVATE_KEY }}
- name: 🛠️ Build
run: ./.gitea/scripts/build.sh
- name: 🏷️ Create Gitea Release - name: 🏷️ Create Gitea Release
if: gitea.ref_type == 'tag' if: gitea.ref_type == 'tag'

2
.gitignore vendored
View File

@@ -5,3 +5,5 @@ node_modules/
/target /target
.direnv/ .direnv/
.pnpm-store/

128
CHANGELOG.md
View File

@@ -1,3 +1,131 @@
# v0.0.5 (2026-02-13)
## Features
- Implement debug node with full runtime integration, wildcard (`*`) inputs, variable-height nodes and parameters, and a quick-connect shortcut.
- Add color-coded node sockets and edges to visually indicate data types.
- Recursively merge `localState` with the initial state to safely handle outdated settings stored in `localStorage` when the settings schema changes.
- Clamp the Add Menu to the viewport.
- Add application favicon.
- Consolidate all developer settings into a single **Advanced Mode** setting.
## Fixes
- Fix InputNumber arrow visibility in the light theme.
- Correct changelog formatting issues.
## Chores
- Add `pnpm qa` pre-commit command.
- Run linting and type checks before build in CI.
- Sign release commits with a PGP key.
- General formatting, lint/type cleanup, test snapshot updates, and `.gitignore` maintenance.
---
- [f16ba26](https://git.max-richter.dev/max/nodarium/commit/f16ba2601ff0e8f0f4454e24689499112a2a257a) fix(ci): still trying to get gpg to work
- [cc6b832](https://git.max-richter.dev/max/nodarium/commit/cc6b832f1576356e5453ee4289b02f854152ff9a) fix(ci): trying to get gpg to work
- [dd5fd5b](https://git.max-richter.dev/max/nodarium/commit/dd5fd5bf1715d371566bd40419b72ca05e63401e) fix(ci): better add updates to package.json
- [38d0fff](https://git.max-richter.dev/max/nodarium/commit/38d0fffcf4ca0a346857c3658ccefdfcdf16e217) chore: update ci image
- [bce06da](https://git.max-richter.dev/max/nodarium/commit/bce06da456e3c008851ac006033cfff256015a47) ci: add gpg-agent to ci image
- [af585d5](https://git.max-richter.dev/max/nodarium/commit/af585d56ec825662961c8796226ed9d8cb900795) feat: use new ci image with gpg
- [0aa73a2](https://git.max-richter.dev/max/nodarium/commit/0aa73a27c1f23bea177ecc66034f8e0384c29a8e) feat: install gpg in ci image
- [c1ae702](https://git.max-richter.dev/max/nodarium/commit/c1ae70282cb5d58527180614a80823d80ca478c5) feat: add color to sockets
- [4c7b03d](https://git.max-richter.dev/max/nodarium/commit/4c7b03dfb82174317d8ba01f4725af804201154d) feat: add gradient mesh line
- [144e8cc](https://git.max-richter.dev/max/nodarium/commit/144e8cc797cfcc5a7a1fd9a0a2098dc99afb6170) fix: correctly highlight possible outputs
- [12ff9c1](https://git.max-richter.dev/max/nodarium/commit/12ff9c151873d253ed2e54dcf56aa9c9c4716c7c) Merge pull request 'feat/debug-node' (#41) from feat/debug-node into main
- [8d3ffe8](https://git.max-richter.dev/max/nodarium/commit/8d3ffe84ab9ca9e6d6d28333752e34da878fd3ea) Merge branch 'main' into feat/debug-node
- [95ec93e](https://git.max-richter.dev/max/nodarium/commit/95ec93eeada9bf062e01e1e77b67b8f0343a51bf) feat: better handle ctrl+shift clicks and selections
- [d39185e](https://git.max-richter.dev/max/nodarium/commit/d39185efafc360f49ab9437c0bad1f64665df167) feat: add "pnpm qa" command to check before commit
- [81580cc](https://git.max-richter.dev/max/nodarium/commit/81580ccd8c1db30ce83433c4c4df84bd660d3460) fix: cleanup some type errors
- [bf6f632](https://git.max-richter.dev/max/nodarium/commit/bf6f632d2772c3da812d5864c401f17e1aa8666a) feat: add shortcut to quick connect to debug
- [e098be6](https://git.max-richter.dev/max/nodarium/commit/e098be60135f57cf863904a58489e032ed27e8b4) fix: also execute all nodes before debug node
- [ec13850](https://git.max-richter.dev/max/nodarium/commit/ec13850e1c0ca5846da614d25887ff492cf8be04) fix: make debug node work with runtime
- [15e08a8](https://git.max-richter.dev/max/nodarium/commit/15e08a816339bdf9de9ecb6a57a7defff42dbe8c) feat: implement debug node
- [48cee58](https://git.max-richter.dev/max/nodarium/commit/48cee58ad337c1c6c59a0eb55bf9b5ecd16b99d0) chore: update test snapshots
- [3235cae](https://git.max-richter.dev/max/nodarium/commit/3235cae9049e193c242b6091cee9f01e67ee850e) chore: fix lint and typecheck errors
- [3f44072](https://git.max-richter.dev/max/nodarium/commit/3f440728fc8a94d59022bb545f418be049a1f1ba) feat: implement variable height for node shader
- [da09f8b](https://git.max-richter.dev/max/nodarium/commit/da09f8ba1eda5ed347433d37064a3b4ab49e627e) refactor: move debug node into runtime
- [ddc3b4c](https://git.max-richter.dev/max/nodarium/commit/ddc3b4ce357ef1c1e8066c0a52151713d0b6ed95) feat: allow variable height node parameters
- [2690fc8](https://git.max-richter.dev/max/nodarium/commit/2690fc871291e73d3d028df9668e8fffb1e77476) chore: gitignore pnpm-store
- [072ab90](https://git.max-richter.dev/max/nodarium/commit/072ab9063ba56df0673020eb639548f3a8601e04) feat: add initial debug node
- [e23cad2](https://git.max-richter.dev/max/nodarium/commit/e23cad254d610e00f196b7fdb4532f36fd735a4b) feat: add "*" datatype for inputs for debug node
- [5b5c63c](https://git.max-richter.dev/max/nodarium/commit/5b5c63c1a9c4ef757382bd4452149dc9777693ff) fix(ui): make arrows on inputnumber visible on lighttheme
- [c9021f2](https://git.max-richter.dev/max/nodarium/commit/c9021f2383828f2e2b5594d125165bbc8f70b8e7) refactor: merge all dev settings into one setting
- [9eecdd4](https://git.max-richter.dev/max/nodarium/commit/9eecdd4fb85dc60b8196101050334e26732c9a34) Merge pull request 'feat: merge localState recursively with initial' (#38) from feat/debug-node into main
- [7e71a41](https://git.max-richter.dev/max/nodarium/commit/7e71a41e5229126d404f56598c624709961dbf3b) feat: merge localState recursively with initial
- [07cd9e8](https://git.max-richter.dev/max/nodarium/commit/07cd9e84eb51bc02b7fed39c36cf83caba175ad7) feat: clamp AddMenu to viewport
- [a31a49a](https://git.max-richter.dev/max/nodarium/commit/a31a49ad503d69f92f2491dd685729060ea49896) ci: lint and typecheck before build
- [850d641](https://git.max-richter.dev/max/nodarium/commit/850d641a25cd0c781478c58c117feaf085bdbc62) chore: pnpm format
- [ee5ca81](https://git.max-richter.dev/max/nodarium/commit/ee5ca817573b83cacfa3709e0ae88c6263bc39c1) ci: sign release commits with pgp key
- [22a1183](https://git.max-richter.dev/max/nodarium/commit/22a11832b861ae8b44e2d374b55d12937ecab247) fix(ci): correctly format changelog
- [b5ce572](https://git.max-richter.dev/max/nodarium/commit/b5ce5723fa4a35443df39a9096d0997f808f0b4f) chore: format favicon svg
- [102130c](https://git.max-richter.dev/max/nodarium/commit/102130cc7777ceebcdb3de8466c90cef5b380111) feat: add favicon
- [1668a2e](https://git.max-richter.dev/max/nodarium/commit/1668a2e6d59db071ab3da45204c2b7bfcd2150a2) chore: format changelog.md
# v0.0.4 (2026-02-10)
## Features
- Added shape and leaf nodes, including rotation support.
- Added high-contrast light theme and improved overall node readability.
- Enhanced UI with dots background, clearer details, and consistent node coloring.
- Improved changelog display and parsing robustness.
## Fixes
- Fixed UI issues (backside rendering, missing types, linter errors).
- Improved CI handling of commit messages and changelog placement.
## Chores
- Simplified CI quality checks.
- Updated dprint linters.
- Refactored changelog code.
---
- [51de3ce](https://git.max-richter.dev/max/nodarium/commit/51de3ced133af07b9432e1137068ef43ddfecbc9) fix(ci): update changelog before building
- [8d403ba](https://git.max-richter.dev/max/nodarium/commit/8d403ba8039a05b687f050993a6afca7fb743e12) Merge pull request 'feat/shape-node' (#36) from feat/shape-node into main
- [6bb3011](https://git.max-richter.dev/max/nodarium/commit/6bb301153ac13c31511b6b28ae95c6e0d4c03e9e) Merge remote-tracking branch 'origin/main' into feat/shape-node
- [02eee5f](https://git.max-richter.dev/max/nodarium/commit/02eee5f9bf4b1bc813d5d28673c4d5d77b392a92) fix: disable macro logs in wasm
- [4f48a51](https://git.max-richter.dev/max/nodarium/commit/4f48a519a950123390530f1b6040e2430a767745) feat(nodes): add rotation to instance node
- [97199ac](https://git.max-richter.dev/max/nodarium/commit/97199ac20fb079d6c157962d1a998d63670d8797) feat(nodes): implement leaf node
- [f36f0cb](https://git.max-richter.dev/max/nodarium/commit/f36f0cb2305692c7be60889bcde7f91179e18b81) feat(ui): show circles only when hovering InputShape
- [ed3d48e](https://git.max-richter.dev/max/nodarium/commit/ed3d48e07fa6db84bbb24db6dbe044cbc36f049f) fix(runtime): correctly encode 2d shape for wasm nodes
- [c610d6c](https://git.max-richter.dev/max/nodarium/commit/c610d6c99152d8233235064b81503c2b0dc4ada8) fix(app): show backside in three instances
- [8865b9b](https://git.max-richter.dev/max/nodarium/commit/8865b9b032bdf5a1385b4e9db0b1923f0e224fdd) feat(node): initial leaf / shape nodes
- [235ee5d](https://git.max-richter.dev/max/nodarium/commit/235ee5d979fbd70b3e0fb6f09a352218c3ff1e6d) fix(app): wrong linter errors in changelog
- [23a4857](https://git.max-richter.dev/max/nodarium/commit/23a48572f3913d91d839873cc155a16139c286a6) feat(app): dots background for node interface
- [e89a46e](https://git.max-richter.dev/max/nodarium/commit/e89a46e146e9e95de57ffdf55b05d16d6fe975f4) feat(app): add error page
- [cefda41](https://git.max-richter.dev/max/nodarium/commit/cefda41fcf3d5d011c9f7598a4f3f37136602dbd) feat(theme): optimize node readability
- [21d0f0d](https://git.max-richter.dev/max/nodarium/commit/21d0f0da5a26492fa68ad4897a9b1d9e88857030) feat: add high-contrast-light theme
- [4620245](https://git.max-richter.dev/max/nodarium/commit/46202451ba3eea73bd1bc6ef5129b3e26ee9315c) ci: simplify ci quality checks
- [0f4239d](https://git.max-richter.dev/max/nodarium/commit/0f4239d179ddedd3d012ca98b5bc3312afbc8f10) ci: simplify ci quality checks
- [d9c9bb5](https://git.max-richter.dev/max/nodarium/commit/d9c9bb5234bc8776daf26be99ba77a2145c70649) fix(theme): allow raw html in head style
- [18802fd](https://git.max-richter.dev/max/nodarium/commit/18802fdc10294a58425f052a4fde4bcf4be58caf) fix(ui): add missing types
- [b1cbd23](https://git.max-richter.dev/max/nodarium/commit/b1cbd235420c99a11154ef6a899cc7e14faf1c37) feat(app): use same color for node outline and header
- [33f10da](https://git.max-richter.dev/max/nodarium/commit/33f10da396fdc13edcb8faaee212280102b24f3a) feat(ui): make details stand out
- [af5b3b2](https://git.max-richter.dev/max/nodarium/commit/af5b3b23ba18d73d6abec60949fb0c9edfc25ff8) fix: make sure that CHANGELOG.md is in correct place
- [64d75b9](https://git.max-richter.dev/max/nodarium/commit/64d75b9686c494075223a0a318297fe59ec99e81) feat(ui): add InputColor and custom theme
- [2e6466c](https://git.max-richter.dev/max/nodarium/commit/2e6466ceca1d2131581d1862e93c756affdf6cd6) chore: update dprint linters
- [20d8e2a](https://git.max-richter.dev/max/nodarium/commit/20d8e2abedf0de30299d947575afef9c8ffd61d9) feat(theme): improve light theme a bit
- [715e1d0](https://git.max-richter.dev/max/nodarium/commit/715e1d095b8a77feb0cf66bbb444baf0f163adcb) feat(theme): merge edge and connection color
- [07e2826](https://git.max-richter.dev/max/nodarium/commit/07e2826f16dafa6a07377c9fb591168fa5c2abcf) feat(ui): improve colors of input shape
- [e0ad97b](https://git.max-richter.dev/max/nodarium/commit/e0ad97b003fd8cb4d950c03e5488a5accf6a37d0) feat(ui): highlight circle on hover on InputShape
- [93df4a1](https://git.max-richter.dev/max/nodarium/commit/93df4a19ff816e2bdfa093594721f0829f84c9e6) fix(ci): handle newline in commit messages for git.json
- [d661a4e](https://git.max-richter.dev/max/nodarium/commit/d661a4e4a9dfa6c9c73b5e24a3edcf56e1bbf48c) feat(ui): improve InputShape ux
- [c7f808c](https://git.max-richter.dev/max/nodarium/commit/c7f808ce2d52925425b49f92edf49d9557f8901d) wip
- [72d6cd6](https://git.max-richter.dev/max/nodarium/commit/72d6cd6ea2886626823e6e86856f19338c7af3c1) feat(ui): add initial InputShape element
- [615f2d3](https://git.max-richter.dev/max/nodarium/commit/615f2d3c4866a9e85f3eca398f3f02100c4df355) feat(ui): allow custom snippets in ui section header
- [2fadb68](https://git.max-richter.dev/max/nodarium/commit/2fadb6802de640d692fdab7d654311df0d7b4836) refactor: make changelog code simpler
- [9271d3a](https://git.max-richter.dev/max/nodarium/commit/9271d3a7e4cb0cc751b635c2adb518de7b4100c7) fix(app): handle error while parsing commit
- [13c83ef](https://git.max-richter.dev/max/nodarium/commit/13c83efdb962a6578ade59f10cc574fef0e17534) fix(app): handle error while parsing changelog
- [e44b73b](https://git.max-richter.dev/max/nodarium/commit/e44b73bebfb1cc8e872cd2fa7d8b6ff3565df374) feat: optimize changelog display
- [979e9fd](https://git.max-richter.dev/max/nodarium/commit/979e9fd92289eba9f77221c563337c00028e4cf5) feat: improve changelog readbility
- [544500e](https://git.max-richter.dev/max/nodarium/commit/544500e7fe9ee14412cef76f3c7a32ba6f291656) chore: remove pgp from changelog
- [aaebbc4](https://git.max-richter.dev/max/nodarium/commit/aaebbc4bc082ee93c2317ce45071c9bc61b0b77e) fix: some stuff with ci
# v0.0.3 (2026-02-07) # v0.0.3 (2026-02-07)
## Features ## Features

8
Cargo.lock generated
View File

@@ -24,6 +24,14 @@ dependencies = [
"nodarium_utils", "nodarium_utils",
] ]
[[package]]
name = "debug"
version = "0.1.0"
dependencies = [
"nodarium_macros",
"nodarium_utils",
]
[[package]] [[package]]
name = "float" name = "float"
version = "0.1.0" version = "0.1.0"

2
Dockerfile.ci
View File

@@ -6,6 +6,8 @@ ENV RUSTUP_HOME=/usr/local/rustup \
RUN apt-get update && apt-get install -y \ RUN apt-get update && apt-get install -y \
ca-certificates=20230311+deb12u1 \ ca-certificates=20230311+deb12u1 \
gpg=2.2.40-1.1+deb12u2 \
gpg-agent=2.2.40-1.1+deb12u2 \
curl=7.88.1-10+deb12u14 \ curl=7.88.1-10+deb12u14 \
git=1:2.39.5-0+deb12u3 \ git=1:2.39.5-0+deb12u3 \
jq=1.6-2.1+deb12u1 \ jq=1.6-2.1+deb12u1 \

1
README.md
View File

@@ -27,7 +27,6 @@ Currently this visual programming language is used to develop <https://nodes.max
- [Node.js](https://nodejs.org/en/download) - [Node.js](https://nodejs.org/en/download)
- [pnpm](https://pnpm.io/installation) - [pnpm](https://pnpm.io/installation)
- [rust](https://www.rust-lang.org/tools/install) - [rust](https://www.rust-lang.org/tools/install)
- wasm-pack
### Install dependencies ### Install dependencies

783
SHARED_MEMORY_REFACTOR_PLAN.md Normal file
View File

@@ -0,0 +1,783 @@
# Shared Memory Refactor Plan
## Executive Summary
Migrate to a single shared `WebAssembly.Memory` instance imported by all nodes using `--import-memory`. The `#[nodarium_execute]` macro writes the function's return value directly to shared memory at the specified offset.
## Architecture Overview
```
┌─────────────────────────────────────────────────────────────────────┐
│ Shared WebAssembly.Memory │
│ ┌───────────────────────────────────────────────────────────────┐ │
│ │ [Node A output] [Node B output] [Node C output] ... │ │
│ │ ┌────────────┐ ┌────────────┐ ┌────────────┐ │ │
│ │ │ Vec<i32> │ │ Vec<i32> │ │ Vec<i32> │ │ │
│ │ │ 4 bytes │ │ 12 bytes │ │ 2KB │ │ │
│ │ └────────────┘ └────────────┘ └────────────┘ │ │
│ │ │ │
│ │ offset: 0 ────────────────────────────────────────────────► │ │
│ └───────────────────────────────────────────────────────────────┘ │
└─────────────────────────────────────────────────────────────────────┘
│ import { memory } from "env"
┌─────────────────────────┼─────────────────────────┐
│ │ │
┌────┴────┐ ┌────┴────┐ ┌────┴────┐
│ Node A │ │ Node B │ │ Node C │
│ WASM │ │ WASM │ │ WASM │
└─────────┘ └─────────┘ └─────────┘
```
## Phase 1: Compilation Configuration
### 1.1 Cargo Config
```toml
# nodes/max/plantarium/box/.cargo/config.toml
[build]
rustflags = ["-C", "link-arg=--import-memory"]
```
Or globally in `Cargo.toml`:
```toml
[profile.release]
rustflags = ["-C", "link-arg=--import-memory"]
```
### 1.2 Import Memory Semantics
With `--import-memory`:
- Nodes **import** memory from the host (not export their own)
- All nodes receive the same `WebAssembly.Memory` instance
- Memory is read/write accessible from all modules
- No `memory.grow` needed (host manages allocation)
## Phase 2: Macro Design
### 2.1 Clean Node API
```rust
// input.json has 3 inputs: op_type, a, b
nodarium_definition_file!("src/input.json");
#[nodarium_execute]
pub fn execute(op_type: *i32, a: *i32, b: *i32) -> Vec<i32> {
// Read inputs directly from shared memory
let op = unsafe { *op_type };
let a_val = f32::from_bits(unsafe { *a } as u32);
let b_val = f32::from_bits(unsafe { *b } as u32);
let result = match op {
0 => a_val + b_val,
1 => a_val - b_val,
2 => a_val * b_val,
3 => a_val / b_val,
_ => 0.0,
};
// Return Vec<i32>, macro handles writing to shared memory
vec![result.to_bits()]
}
```
### 2.2 Macro Implementation
```rust
// packages/macros/src/lib.rs
#[proc_macro_attribute]
pub fn nodarium_execute(_attr: TokenStream, item: TokenStream) -> TokenStream {
let input_fn = parse_macro_input!(item as syn::ItemFn);
let fn_name = &input_fn.sig.ident;
// Parse definition to get input count
let project_dir = env::var("CARGO_MANIFEST_DIR").unwrap();
let def: NodeDefinition = serde_json::from_str(&fs::read_to_string(
Path::new(&project_dir).join("src/input.json")
).unwrap()).unwrap();
let input_count = def.inputs.as_ref().map(|i| i.len()).unwrap_or(0);
// Validate signature
validate_signature(&input_fn, input_count);
// Generate wrapper
generate_execute_wrapper(input_fn, fn_name, input_count)
}
fn validate_signature(fn_sig: &syn::Signature, expected_inputs: usize) {
let param_count = fn_sig.inputs.len();
if param_count != expected_inputs {
panic!(
"Execute function has {} parameters but definition has {} inputs\n\
Definition inputs: {:?}\n\
Expected signature:\n\
pub fn execute({}) -> Vec<i32>",
param_count,
expected_inputs,
def.inputs.as_ref().map(|i| i.keys().collect::<Vec<_>>()),
(0..expected_inputs)
.map(|i| format!("arg{}: *const i32", i))
.collect::<Vec<_>>()
.join(", ")
);
}
// Verify return type is Vec<i32>
match &fn_sig.output {
syn::ReturnType::Type(_, ty) => {
if !matches!(&**ty, syn::Type::Path(tp) if tp.path.is_ident("Vec")) {
panic!("Execute function must return Vec<i32>");
}
}
syn::ReturnType::Default => {
panic!("Execute function must return Vec<i32>");
}
}
}
fn generate_execute_wrapper(
input_fn: syn::ItemFn,
fn_name: &syn::Ident,
input_count: usize,
) -> TokenStream {
let arg_names: Vec<_> = (0..input_count)
.map(|i| syn::Ident::new(&format!("arg{}", i), proc_macro2::Span::call_site()))
.collect();
let expanded = quote! {
#input_fn
#[no_mangle]
pub extern "C" fn execute(
output_pos: i32,
#( #arg_names: i32 ),*
) -> i32 {
extern "C" {
fn __nodarium_log(ptr: *const u8, len: usize);
fn __nodarium_log_panic(ptr: *const u8, len: usize);
}
// Setup panic hook
static SET_HOOK: std::sync::Once = std::sync::Once::new();
SET_HOOK.call_once(|| {
std::panic::set_hook(Box::new(|info| {
let msg = info.to_string();
unsafe { __nodarium_log_panic(msg.as_ptr(), msg.len()); }
}));
});
// Call user function
let result = #fn_name(
#( #arg_names as *const i32 ),*
);
// Write result directly to shared memory at output_pos
let len_bytes = result.len() * 4;
unsafe {
let src = result.as_ptr() as *const u8;
let dst = output_pos as *mut u8;
dst.copy_from_nonoverlapping(src, len_bytes);
}
// Forget the Vec to prevent deallocation (data is in shared memory now)
core::mem::forget(result);
len_bytes as i32
}
};
TokenStream::from(expanded)
}
```
### 2.3 Generated Assembly
The macro generates:
```asm
; Input: output_pos in register r0, arg0 in r1, arg1 in r2, arg2 in r3
execute:
; Call user function
bl user_execute ; returns pointer to Vec<i32> in r0
; Calculate byte length
ldr r4, [r0, #8] ; Vec::len field
lsl r4, r4, #2 ; len * 4 (i32 = 4 bytes)
; Copy Vec data to shared memory at output_pos
ldr r5, [r0, #0] ; Vec::ptr field
ldr r6, [r0, #4] ; capacity (unused)
; memcpy(dst=output_pos, src=r5, len=r4)
; (implemented via copy_from_nonoverlapping)
; Return length
mov r0, r4
bx lr
```
## Phase 3: Input Reading Helpers
```rust
// packages/utils/src/accessor.rs
/// Read i32 from shared memory
#[inline]
pub unsafe fn read_i32(ptr: *const i32) -> i32 {
*ptr
}
/// Read f32 from shared memory (stored as i32 bits)
#[inline]
pub unsafe fn read_f32(ptr: *const i32) -> f32 {
f32::from_bits(*ptr as u32)
}
/// Read boolean from shared memory
#[inline]
pub unsafe fn read_bool(ptr: *const i32) -> bool {
*ptr != 0
}
/// Read vec3 (3 f32s) from shared memory
#[inline]
pub unsafe fn read_vec3(ptr: *const i32) -> [f32; 3] {
let p = ptr as *const f32;
[p.read(), p.add(1).read(), p.add(2).read()]
}
/// Read slice from shared memory
#[inline]
pub unsafe fn read_i32_slice(ptr: *const i32, len: usize) -> &[i32] {
std::slice::from_raw_parts(ptr, len)
}
/// Read f32 slice from shared memory
#[inline]
pub unsafe fn read_f32_slice(ptr: *const i32, len: usize) -> &[f32] {
std::slice::from_raw_parts(ptr as *const f32, len)
}
/// Read with default value
#[inline]
pub unsafe fn read_f32_default(ptr: *const i32, default: f32) -> f32 {
if ptr.is_null() { default } else { read_f32(ptr) }
}
#[inline]
pub unsafe fn read_i32_default(ptr: *const i32, default: i32) -> i32 {
if ptr.is_null() { default } else { read_i32(ptr) }
}
```
## Phase 4: Node Implementation Examples
### 4.1 Math Node
```rust
// nodes/max/plantarium/math/src/lib.rs
nodarium_definition_file!("src/input.json");
#[nodarium_execute]
pub fn execute(op_type: *const i32, a: *const i32, b: *const i32) -> Vec<i32> {
use nodarium_utils::{read_i32, read_f32};
let op = unsafe { read_i32(op_type) };
let a_val = unsafe { read_f32(a) };
let b_val = unsafe { read_f32(b) };
let result = match op {
0 => a_val + b_val, // add
1 => a_val - b_val, // subtract
2 => a_val * b_val, // multiply
3 => a_val / b_val, // divide
_ => 0.0,
};
vec![result.to_bits()]
}
```
### 4.2 Vec3 Node
```rust
// nodes/max/plantarium/vec3/src/lib.rs
nodarium_definition_file!("src/input.json");
#[nodarium_execute]
pub fn execute(x: *const i32, y: *const i32, z: *const i32) -> Vec<i32> {
use nodarium_utils::read_f32;
let x_val = unsafe { read_f32(x) };
let y_val = unsafe { read_f32(y) };
let z_val = unsafe { read_f32(z) };
vec![x_val.to_bits(), y_val.to_bits(), z_val.to_bits()]
}
```
### 4.3 Box Node
```rust
// nodes/max/plantarium/box/src/lib.rs
nodarium_definition_file!("src/input.json");
#[nodarium_execute]
pub fn execute(size: *const i32) -> Vec<i32> {
use nodarium_utils::{read_f32, encode_float, calculate_normals};
let size = unsafe { read_f32(size) };
let p = encode_float(size);
let n = encode_float(-size);
let mut cube_geometry = vec![
1, // 1: geometry
8, // 8 vertices
12, // 12 faces
// Face indices
0, 1, 2, 0, 2, 3,
0, 3, 4, 4, 5, 0,
6, 1, 0, 5, 6, 0,
7, 2, 1, 6, 7, 1,
2, 7, 3, 3, 7, 4,
7, 6, 4, 4, 6, 5,
// Bottom plate
p, n, n, p, n, p, n, n, p, n, n, n,
// Top plate
n, p, n, p, p, n, p, p, p, n, p, p,
// Normals
0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0,
];
calculate_normals(&mut cube_geometry);
cube_geometry
}
```
### 4.4 Stem Node
```rust
// nodes/max/plantarium/stem/src/lib.rs
nodarium_definition_file!("src/input.json");
#[nodarium_execute]
pub fn execute(
origin: *const i32,
amount: *const i32,
length: *const i32,
thickness: *const i32,
resolution: *const i32,
) -> Vec<i32> {
use nodarium_utils::{
read_vec3, read_i32, read_f32,
geometry::{create_multiple_paths, wrap_multiple_paths},
};
let origin = unsafe { read_vec3(origin) };
let amount = unsafe { read_i32(amount) } as usize;
let length = unsafe { read_f32(length) };
let thickness = unsafe { read_f32(thickness) };
let resolution = unsafe { read_i32(resolution) } as usize;
let mut stem_data = create_multiple_paths(amount, resolution, 1);
let mut stems = wrap_multiple_paths(&mut stem_data);
for stem in stems.iter_mut() {
let points = stem.get_points_mut();
for (i, point) in points.iter_mut().enumerate() {
let t = i as f32 / (resolution as f32 - 1.0);
point.x = origin[0];
point.y = origin[1] + t * length;
point.z = origin[2];
point.w = thickness * (1.0 - t);
}
}
stem_data
}
```
## Phase 5: Runtime Implementation
```typescript
// app/src/lib/runtime/memory-manager.ts
export const SHARED_MEMORY = new WebAssembly.Memory({
initial: 1024, // 64MB initial
maximum: 4096, // 256MB maximum
});
export class MemoryManager {
private offset: number = 0;
private readonly start: number = 0;
reset() {
this.offset = this.start;
}
alloc(bytes: number): number {
const pos = this.offset;
this.offset += bytes;
return pos;
}
readInt32(pos: number): number {
return new Int32Array(SHARED_MEMORY.buffer)[pos / 4];
}
readFloat32(pos: number): number {
return new Float32Array(SHARED_MEMORY.buffer)[pos / 4];
}
readBytes(pos: number, length: number): Uint8Array {
return new Uint8Array(SHARED_MEMORY.buffer, pos, length);
}
getInt32View(): Int32Array {
return new Int32Array(SHARED_MEMORY.buffer);
}
getFloat32View(): Float32Array {
return new Float32Array(SHARED_MEMORY.buffer);
}
getRemaining(): number {
return SHARED_MEMORY.buffer.byteLength - this.offset;
}
}
```
```typescript
// app/src/lib/runtime/imports.ts
import { SHARED_MEMORY } from "./memory-manager";
export function createImportObject(nodeId: string): WebAssembly.Imports {
return {
env: {
// Import shared memory
memory: SHARED_MEMORY,
// Logging
__nodarium_log: (ptr: number, len: number) => {
const msg = new TextDecoder().decode(
new Uint8Array(SHARED_MEMORY.buffer, ptr, len),
);
console.log(`[${nodeId}] ${msg}`);
},
__nodarium_log_panic: (ptr: number, len: number) => {
const msg = new TextDecoder().decode(
new Uint8Array(SHARED_MEMORY.buffer, ptr, len),
);
console.error(`[${nodeId}] PANIC: ${msg}`);
},
},
};
}
```
```typescript
// app/src/lib/runtime/executor.ts
import { SHARED_MEMORY } from "./memory-manager";
import { createImportObject } from "./imports";
export class SharedMemoryRuntimeExecutor implements RuntimeExecutor {
private memory: MemoryManager;
private results: Map<string, { pos: number; len: number }> = new Map();
private instances: Map<string, WebAssembly.Instance> = new Map();
constructor(private registry: NodeRegistry) {
this.memory = new MemoryManager();
}
async execute(graph: Graph, settings: Record<string, unknown>) {
this.memory.reset();
this.results.clear();
const [outputNode, nodes] = await this.addMetaData(graph);
const sortedNodes = nodes.sort((a, b) => b.depth - a.depth);
for (const node of sortedNodes) {
await this.executeNode(node, settings);
}
const result = this.results.get(outputNode.id);
const view = this.memory.getInt32View();
return view.subarray(result.pos / 4, result.pos / 4 + result.len / 4);
}
private async executeNode(
node: RuntimeNode,
settings: Record<string, unknown>,
) {
const def = this.definitionMap.get(node.type)!;
const inputs = def.inputs || {};
const inputNames = Object.keys(inputs);
const outputSize = this.estimateOutputSize(def);
const outputPos = this.memory.alloc(outputSize);
const args: number[] = [outputPos];
for (const inputName of inputNames) {
const inputDef = inputs[inputName];
const inputNode = node.state.inputNodes[inputName];
if (inputNode) {
const parentResult = this.results.get(inputNode.id)!;
args.push(parentResult.pos);
continue;
}
const valuePos = this.memory.alloc(16);
this.writeValue(
valuePos,
inputDef,
node.props?.[inputName] ??
settings[inputDef.setting ?? ""] ??
inputDef.value,
);
args.push(valuePos);
}
let instance = this.instances.get(node.type);
if (!instance) {
instance = await this.instantiateNode(node.type);
this.instances.set(node.type, instance);
}
const writtenLen = instance.exports.execute(...args);
this.results.set(node.id, { pos: outputPos, len: writtenLen });
}
private writeValue(pos: number, inputDef: NodeInput, value: unknown) {
const view = this.memory.getFloat32View();
const intView = this.memory.getInt32View();
switch (inputDef.type) {
case "float":
view[pos / 4] = value as number;
break;
case "integer":
case "select":
case "seed":
intView[pos / 4] = value as number;
break;
case "boolean":
intView[pos / 4] = value ? 1 : 0;
break;
case "vec3":
const arr = value as number[];
view[pos / 4] = arr[0];
view[pos / 4 + 1] = arr[1];
view[pos / 4 + 2] = arr[2];
break;
}
}
private estimateOutputSize(def: NodeDefinition): number {
const sizes: Record<string, number> = {
float: 16,
integer: 16,
boolean: 16,
vec3: 16,
geometry: 8192,
path: 4096,
};
return sizes[def.outputs?.[0] || "float"] || 64;
}
private async instantiateNode(
nodeType: string,
): Promise<WebAssembly.Instance> {
const wasmBytes = await this.fetchWasm(nodeType);
const module = await WebAssembly.compile(wasmBytes);
const importObject = createImportObject(nodeType);
return WebAssembly.instantiate(module, importObject);
}
}
```
## Phase 7: Execution Flow Visualization
```
┌─────────────────────────────────────────────────────────────────────────────┐
│ Execution Timeline │
└─────────────────────────────────────────────────────────────────────────────┘
Step 1: Setup
SHARED_MEMORY = new WebAssembly.Memory({ initial: 1024 })
memory.offset = 0
Step 2: Execute Node A (math with 3 inputs)
outputPos = memory.alloc(16) = 0
args = [0, ptr_to_op_type, ptr_to_a, ptr_to_b]
Node A reads:
*ptr_to_op_type → op
*ptr_to_a → a
*ptr_to_b → b
Node A returns: vec![result.to_bits()]
Macro writes result directly to SHARED_MEMORY[0..4]
Returns: 4
results['A'] = { pos: 0, len: 4 }
memory.offset = 4
Step 3: Execute Node B (stem with 5 inputs, input[0] from A)
outputPos = memory.alloc(4096) = 4
args = [4, results['A'].pos, ptr_to_amount, ptr_to_length, ...]
Node B reads:
*results['A'].pos → value from Node A
*ptr_to_amount → amount
...
Node B returns: stem_data Vec<i32> (1000 elements = 4000 bytes)
Macro writes stem_data directly to SHARED_MEMORY[4..4004]
Returns: 4000
results['B'] = { pos: 4, len: 4000 }
memory.offset = 4004
Step 4: Execute Node C (output, 1 input from B)
outputPos = memory.alloc(16) = 4004
args = [4004, results['B'].pos, results['B'].len]
Node C reads:
*results['B'].pos → stem geometry
Node C returns: vec![1] (identity)
Macro writes to SHARED_MEMORY[4004..4008]
results['C'] = { pos: 4004, len: 4 }
Final: Return SHARED_MEMORY[4004..4008] as geometry result
```
## Phase 6: Memory Growth Strategy
```typescript
class MemoryManager {
alloc(bytes: number): number {
const required = this.offset + bytes;
const currentBytes = SHARED_MEMORY.buffer.byteLength;
if (required > currentBytes) {
const pagesNeeded = Math.ceil((required - currentBytes) / 65536);
const success = SHARED_MEMORY.grow(pagesNeeded);
if (!success) {
throw new Error(`Out of memory: need ${bytes} bytes`);
}
this.int32View = new Int32Array(SHARED_MEMORY.buffer);
this.float32View = new Float32Array(SHARED_MEMORY.buffer);
}
const pos = this.offset;
this.offset += bytes;
return pos;
}
}
```
## Phase 8: Migration Checklist
### Build Configuration
- [ ] Add `--import-memory` to Rust flags in `Cargo.toml`
- [ ] Ensure no nodes export memory
### Runtime
- [ ] Create `SHARED_MEMORY` instance
- [ ] Implement `MemoryManager` with alloc/read/write
- [ ] Create import object factory
- [ ] Implement `SharedMemoryRuntimeExecutor`
### Macro
- [ ] Parse definition JSON
- [ ] Validate function signature (N params, Vec<i32> return)
- [ ] Generate wrapper that writes return value to `output_pos`
- [ ] Add panic hook
### Utilities
- [ ] `read_i32(ptr: *const i32) -> i32`
- [ ] `read_f32(ptr: *const i32) -> f32`
- [ ] `read_bool(ptr: *const i32) -> bool`
- [ ] `read_vec3(ptr: *const i32) -> [f32; 3]`
- [ ] `read_i32_slice(ptr: *const i32, len: usize) -> &[i32]`
### Nodes
- [ ] `float`, `integer`, `boolean` nodes
- [ ] `vec3` node
- [ ] `math` node
- [ ] `random` node
- [ ] `box` node
- [ ] `stem` node
- [ ] `branch` node
- [ ] `instance` node
- [ ] `output` node
## Phase 9: Before vs After
### Before (per-node memory)
```rust
#[nodarium_execute]
pub fn execute(input: &[i32]) -> Vec<i32> {
let args = split_args(input);
let a = evaluate_float(args[0]);
let b = evaluate_float(args[1]);
vec![(a + b).to_bits()]
}
```
### After (shared memory)
```rust
#[nodarium_execute]
pub fn execute(a: *const i32, b: *const i32) -> Vec<i32> {
use nodarium_utils::read_f32;
let a_val = unsafe { read_f32(a) };
let b_val = unsafe { read_f32(b) };
vec![(a_val + b_val).to_bits()]
}
```
**Key differences:**
- Parameters are input pointers, not a slice
- Use `read_f32` helper instead of `evaluate_float`
- Macro writes result directly to shared memory
- All nodes share the same memory import
## Phase 10: Benefits
| Aspect | Before | After |
| ----------------- | -------------- | -------------------- |
| Memory | N × ~1MB heaps | 1 × 64-256MB shared |
| Cross-node access | Copy via JS | Direct read |
| API | `&[i32]` slice | `*const i32` pointer |
| Validation | Runtime | Compile-time |

227
SUMMARY.md Normal file
View File

@@ -0,0 +1,227 @@
# Nodarium - AI Coding Agent Summary
## Project Overview
Nodarium is a WebAssembly-based visual programming language used to build <https://nodes.max-richter.dev>, a procedural 3D plant modeling tool. The system allows users to create visual node graphs where each node is a compiled WebAssembly module.
## Technology Stack
**Frontend (SvelteKit):**
- Framework: SvelteKit with Svelte 5
- 3D Rendering: Three.js via Threlte
- Styling: Tailwind CSS 4
- Build Tool: Vite
- State Management: Custom store-client package
- WASM Integration: vite-plugin-wasm, comlink
**Backend/Core (Rust/WASM):**
- Language: Rust
- Output: WebAssembly (wasm32-unknown-unknown target)
- Build Tool: cargo
- Procedural Macros: custom macros package
**Package Management:**
- Node packages: pnpm workspace (v10.28.1)
- Rust packages: Cargo workspace
## Directory Structure
```
nodarium/
├── app/ # SvelteKit web application
│ ├── src/
│ │ ├── lib/ # App-specific components and utilities
│ │ ├── routes/ # SvelteKit routes (pages)
│ │ ├── app.css # Global styles
│ │ └── app.html # HTML template
│ ├── static/
│ │ └── nodes/ # Compiled WASM node files served statically
│ ├── package.json # App dependencies
│ ├── svelte.config.js # SvelteKit configuration
│ ├── vite.config.ts # Vite configuration
│ └── tsconfig.json # TypeScript configuration
├── packages/ # Shared workspace packages
│ ├── ui/ # Svelte UI component library (published as @nodarium/ui)
│ │ ├── src/ # UI components
│ │ ├── static/ # Static assets for UI
│ │ ├── dist/ # Built output
│ │ └── package.json
│ ├── registry/ # Node registry with IndexedDB persistence (@nodarium/registry)
│ │ └── src/
│ ├── types/ # Shared TypeScript types (@nodarium/types)
│ │ └── src/
│ ├── utils/ # Shared utilities (@nodarium/utils)
│ │ └── src/
│ └── macros/ # Rust procedural macros for node development
├── nodes/ # WebAssembly node packages (Rust)
│ └── max/plantarium/ # Plantarium nodes namespace
│ ├── box/ # Box geometry node
│ ├── branch/ # Branch generation node
│ ├── float/ # Float value node
│ ├── gravity/ # Gravity simulation node
│ ├── instance/ # Geometry instancing node
│ ├── math/ # Math operations node
│ ├── noise/ # Noise generation node
│ ├── output/ # Output node for results
│ ├── random/ # Random value node
│ ├── rotate/ # Rotation transformation node
│ ├── stem/ # Stem geometry node
│ ├── triangle/ # Triangle geometry node
│ ├── vec3/ # Vector3 manipulation node
│ └── .template/ # Node template for creating new nodes
├── docs/ # Documentation
│ ├── ARCHITECTURE.md # System architecture overview
│ ├── DEVELOPING_NODES.md # Guide for creating new nodes
│ ├── NODE_DEFINITION.md # Node definition schema
│ └── PLANTARIUM.md # Plantarium-specific documentation
├── Cargo.toml # Rust workspace configuration
├── package.json # Root npm scripts
├── pnpm-workspace.yaml # pnpm workspace configuration
├── pnpm-lock.yaml # Locked dependency versions
└── README.md # Project readme
```
## Node System Architecture
### What is a Node?
Nodes are WebAssembly modules that:
- Have a unique ID (e.g., `max/plantarium/stem`)
- Define inputs with types and default values
- Define outputs they produce
- Execute logic when called with arguments
### Node Definition Schema
Nodes are defined via `definition.json` embedded in each WASM module:
```json
{
"id": "namespace/category/node-name",
"outputs": ["geometry"],
"inputs": {
"height": { "type": "float", "value": 1.0 },
"radius": { "type": "float", "value": 0.1 }
}
}
```
For now the outputs are limited to a single output.
### Node Execution
Nodes receive serialized arguments and return serialized outputs. The `nodarium_utils` Rust crate provides helpers for:
- Parsing input arguments
- Creating geometry data
- Concatenating output vectors
### Node Registration
Nodes are:
1. Compiled to WASM files in `target/wasm32-unknown-unknown/release/`
2. Copied to `app/static/nodes/` for serving
3. Registered in the browser via IndexedDB using the registry package
## Key Dependencies
**Frontend:**
- `@sveltejs/kit` - Application framework
- `@threlte/core` & `@threlte/extras` - Three.js Svelte integration
- `three` - 3D graphics library
- `tailwindcss` - CSS framework
- `comlink` - WebWorker RPC
- `idb` - IndexedDB wrapper
- `wabt` - WebAssembly binary toolkit
**Rust/WASM:**
- Language: Rust (compiled with plain cargo)
- Output: WebAssembly (wasm32-unknown-unknown target)
- Generic WASM wrapper for language-agnostic node development
- `glam` - Math library (Vec2, Vec3, Mat4, etc.)
- `nodarium_macros` - Custom procedural macros
- `nodarium_utils` - Shared node utilities
## Build Commands
From root directory:
```bash
# Install dependencies
pnpm i
# Build all WASM nodes (compiles Rust, copies to app/static)
pnpm build:nodes
# Build the app (builds UI library + SvelteKit app)
pnpm build:app
# Full build (nodes + app)
pnpm build
# Development
pnpm dev # Run all dev commands in parallel
pnpm dev:nodes # Watch nodes/, auto-rebuild on changes
pnpm dev:app_ui # Watch app and UI package
pnpm dev_ui # Watch UI package only
```
## Workspace Packages
The project uses pnpm workspaces with the following packages:
| Package | Location | Purpose |
| ------------------ | ------------------ | ------------------------------ |
| @nodarium/app | app/ | Main SvelteKit application |
| @nodarium/ui | packages/ui/ | Reusable UI component library |
| @nodarium/registry | packages/registry/ | Node registry with persistence |
| @nodarium/types | packages/types/ | Shared TypeScript types |
| @nodarium/utils | packages/utils/ | Shared utilities |
| nodarium macros | packages/macros/ | Rust procedural macros |
## Configuration Files
- `.dprint.jsonc` - Dprint formatter configuration
- `svelte.config.js` - SvelteKit configuration (app and ui)
- `vite.config.ts` - Vite bundler configuration
- `tsconfig.json` - TypeScript configuration (app and packages)
- `Cargo.toml` - Rust workspace with member packages
- `flake.nix` - Nix development environment
## Development Workflow
### Adding a New Node
1. Copy the `.template` directory in `nodes/max/plantarium/` to create a new node directory
2. Define node in `src/definition.json`
3. Implement logic in `src/lib.rs`
4. Build with `cargo build --release --target wasm32-unknown-unknown`
5. Test by dragging onto the node graph
### Modifying UI Components
1. Changes to `packages/ui/` automatically rebuild with watch mode
2. App imports from `@nodarium/ui`
3. Run `pnpm dev:app_ui` for hot reload
## Important Notes for AI Agents
1. **WASM Compilation**: Nodes require `wasm32-unknown-unknown` target (`rustup target add wasm32-unknown-unknown`)
2. **Cross-Compilation**: WASM build happens on host, not in containers/VMs
3. **Static Serving**: Compiled WASM files must exist in `app/static/nodes/` before dev server runs
4. **Workspace Dependencies**: Use `workspace:*` protocol for internal packages
5. **Threlte Version**: Uses Threlte 8.x, not 7.x (important for 3D component APIs)
6. **Svelte 5**: Project uses Svelte 5 with runes (`$state`, `$derived`, `$effect`)
7. **Tailwind 4**: Uses Tailwind CSS v4 with `@tailwindcss/vite` plugin
8. **IndexedDB**: Registry uses IDB for persistent node storage in browser

294
SUMMARY_RUNTIME.md Normal file
View File

@@ -0,0 +1,294 @@
# Node Compilation and Runtime Execution
## Overview
Nodarium nodes are WebAssembly modules written in Rust. Each node is a compiled WASM binary that exposes a standardized C ABI interface. The system uses procedural macros to generate the necessary boilerplate for node definitions, memory management, and execution.
## Node Compilation
### 1. Node Definition (JSON)
Each node has a `src/input.json` file that defines:
```json
{
"id": "max/plantarium/stem",
"meta": { "description": "Creates a stem" },
"outputs": ["path"],
"inputs": {
"origin": { "type": "vec3", "value": [0, 0, 0], "external": true },
"amount": { "type": "integer", "value": 1, "min": 1, "max": 64 },
"length": { "type": "float", "value": 5 },
"thickness": { "type": "float", "value": 0.2 }
}
}
```
### 2. Procedural Macros
The `nodarium_macros` crate provides two procedural macros:
#### `#[nodarium_execute]`
Transforms a Rust function into a WASM-compatible entry point:
```rust
#[nodarium_execute]
pub fn execute(input: &[i32]) -> Vec<i32> {
// Node logic here
}
```
The macro generates:
- **C ABI wrapper**: Converts the WASM interface to a standard C FFI
- **`execute` function**: Takes `(ptr: *const i32, len: usize)` and returns `*mut i32`
- **Memory allocation**: `__alloc(len: usize) -> *mut i32` for buffer allocation
- **Memory deallocation**: `__free(ptr: *mut i32, len: usize)` for cleanup
- **Static output buffer**: `OUTPUT_BUFFER` for returning results
- **Panic hook**: Routes panics through `host_log_panic` for debugging
- **Internal logic wrapper**: Wraps the original function
#### `nodarium_definition_file!("path")`
Embeds the node definition JSON into the WASM binary:
```rust
nodarium_definition_file!("src/input.json");
```
Generates:
- **`DEFINITION_DATA`**: Static byte array in `nodarium_definition` section
- **`get_definition_ptr()`**: Returns pointer to definition data
- **`get_definition_len()`**: Returns length of definition data
### 3. Build Process
Nodes are compiled with:
```bash
cargo build --release --target wasm32-unknown-unknown
```
The resulting `.wasm` files are copied to `app/static/nodes/` for serving.
## Node Execution Runtime
### Architecture
```
┌─────────────────────────────────────────────────────────────┐
│ WebWorker Thread │
│ ┌─────────────────────────────────────────────────────────┐│
│ │ WorkerRuntimeExecutor ││
│ │ ┌───────────────────────────────────────────────────┐ ││
│ │ │ MemoryRuntimeExecutor ││
│ │ │ ┌─────────────────────────────────────────────┐ ││
│ │ │ │ Node Registry (WASM + Definitions) ││
│ │ │ └─────────────────────────────────────────────┘ ││
│ │ │ ┌─────────────────────────────────────────────┐ ││
│ │ │ │ Execution Engine (Bottom-Up Evaluation) ││
│ │ │ └─────────────────────────────────────────────┘ ││
│ │ └───────────────────────────────────────────────────┘ ││
│ └─────────────────────────────────────────────────────────┘│
└─────────────────────────────────────────────────────────────┘
```
### 1. MemoryRuntimeExecutor
The core execution engine in `runtime-executor.ts`:
#### Metadata Collection (`addMetaData`)
1. Load node definitions from registry
2. Build parent/child relationships from graph edges
3. Calculate execution depth via reverse BFS from output node
#### Node Sorting
Nodes are sorted by depth (highest depth first) for bottom-up execution:
```
Depth 3: n3 n6
Depth 2: n2 n4 n5
Depth 1: n1
Depth 0: Output
Execution order: n3, n6, n2, n4, n5, n1, Output
```
#### Input Collection
For each node, inputs are gathered from:
1. **Connected nodes**: Results from parent nodes in the graph
2. **Node props**: Values stored directly on the node instance
3. **Settings**: Global settings mapped via `setting` property
4. **Defaults**: Values from node definition
#### Input Encoding
Values are encoded as `Int32Array`:
- **Floats**: IEEE 754 bits cast to i32
- **Vectors**: `[0, count, v1, v2, v3, 1, 1]` (nested bracket format)
- **Booleans**: `0` or `1`
- **Integers**: Direct i32 value
#### Caching
Results are cached using:
```typescript
inputHash = `node-${node.id}-${fastHashArrayBuffer(encoded_inputs)}`
```
The cache uses LRU eviction (default size: 50 entries).
### 2. Execution Flow
```typescript
async execute(graph: Graph, settings) {
// 1. Load definitions and build node relationships
const [outputNode, nodes] = await this.addMetaData(graph);
// 2. Sort nodes by depth (bottom-up)
const sortedNodes = nodes.sort((a, b) => b.depth - a.depth);
// 3. Execute each node
for (const node of sortedNodes) {
const inputs = this.collectInputs(node, settings);
const encoded = concatEncodedArrays(inputs);
const result = nodeType.execute(encoded);
this.results[node.id] = result;
}
// 4. Return output node result
return this.results[outputNode.id];
}
```
### 3. Worker Isolation
`WorkerRuntimeExecutor` runs execution in a WebWorker via Comlink:
```typescript
class WorkerRuntimeExecutor implements RuntimeExecutor {
private worker = new ComlinkWorker(...);
async execute(graph, settings) {
return this.worker.executeGraph(graph, settings);
}
}
```
The worker backend (`worker-runtime-executor-backend.ts`):
- Creates a single `MemoryRuntimeExecutor` instance
- Manages caching state
- Collects performance metrics
### 4. Remote Execution (Optional)
`RemoteRuntimeExecutor` can execute graphs on a remote server:
```typescript
class RemoteRuntimeExecutor implements RuntimeExecutor {
async execute(graph, settings) {
const res = await fetch(this.url, {
method: "POST",
body: JSON.stringify({ graph, settings })
});
return new Int32Array(await res.arrayBuffer());
}
}
```
## Data Encoding Format
### Bracket Notation
Inputs and outputs use a nested bracket encoding:
```
[0, count, item1, item2, ..., 1, 1]
^ ^ items ^ ^
| | | |
| | | +-- closing bracket
| +-- number of items + 1 |
+-- opening bracket (0) +-- closing bracket (1)
```
### Example Encodings
**Float (5.0)**:
```typescript
encodeFloat(5.0) // → 1084227584 (IEEE 754 bits as i32)
```
**Vec3 ([1, 2, 3])**:
```typescript
[0, 4, encodeFloat(1), encodeFloat(2), encodeFloat(3), 1, 1]
```
**Nested Math Expression**:
```
[0, 3, 0, 2, 0, 3, 0, 0, 0, 3, 7549747, 127, 1, 1, ...]
```
### Decoding Utilities
From `packages/utils/src/tree.rs`:
- `split_args()`: Parses nested bracket arrays into segments
- `evaluate_float()`: Recursively evaluates and decodes float expressions
- `evaluate_int()`: Evaluates integer/math node expressions
- `evaluate_vec3()`: Decodes vec3 arrays
## Geometry Data Format
### Path Data
Paths represent procedural plant structures:
```
[0, count, [0, header_size, node_type, depth, x, y, z, w, ...], 1, 1]
```
Each point has 4 values: x, y, z position + thickness (w).
### Geometry Data
Meshes use a similar format with vertices and face indices.
## Performance Tracking
The runtime collects detailed performance metrics:
- `collect-metadata`: Time to build node graph
- `collected-inputs`: Time to gather inputs
- `encoded-inputs`: Time to encode inputs
- `hash-inputs`: Time to compute cache hash
- `cache-hit`: 1 if cache hit, 0 if miss
- `node/{node_type}`: Time per node execution
## Caching Strategy
### MemoryRuntimeCache
LRU cache implementation:
```typescript
class MemoryRuntimeCache {
private map = new Map<string, unknown>();
size: number = 50;
get(key) { /* move to front */ }
set(key, value) { /* evict oldest if at capacity */ }
}
```
### IndexDBCache
For persistence across sessions, the registry uses IndexedDB caching.
## Summary
The Nodarium node system works as follows:
1. **Compilation**: Rust functions are decorated with macros that generate C ABI WASM exports
2. **Registration**: Node definitions are embedded in WASM and loaded at runtime
3. **Graph Analysis**: Runtime builds node relationships and execution order
4. **Bottom-Up Execution**: Nodes execute from leaves to output
5. **Caching**: Results are cached per-node-inputs hash for performance
6. **Isolation**: Execution runs in a WebWorker to prevent main thread blocking

1
app/Dockerfile
View File

@@ -28,5 +28,6 @@ RUN rm /etc/nginx/conf.d/default.conf
COPY app/docker/app.conf /etc/nginx/conf.d/app.conf COPY app/docker/app.conf /etc/nginx/conf.d/app.conf
COPY --from=builder /app/app/build /app COPY --from=builder /app/app/build /app
COPY --from=builder /app/packages/ui/build /app/ui
EXPOSE 80 EXPOSE 80

1
app/benchmark/.gitignore vendored Normal file
View File

@@ -0,0 +1 @@
out/

47
app/benchmark/benchmarkRegistry.ts Normal file
View File

@@ -0,0 +1,47 @@
import { NodeDefinition, NodeId, NodeRegistry } from '@nodarium/types';
import { createWasmWrapper } from '@nodarium/utils';
import { readFile } from 'node:fs/promises';
import { resolve } from 'node:path';
export class BenchmarkRegistry implements NodeRegistry {
status: 'loading' | 'ready' | 'error' = 'loading';
private nodes = new Map<string, NodeDefinition>();
async load(nodeIds: NodeId[]): Promise<NodeDefinition[]> {
const nodes = await Promise.all(nodeIds.map(async id => {
const p = resolve('static/nodes/' + id + '.wasm');
const file = await readFile(p);
const node = createWasmWrapper(file as unknown as ArrayBuffer);
const d = node.get_definition();
return {
...d,
execute: node.execute
};
}));
for (const n of nodes) {
this.nodes.set(n.id, n);
}
this.status = 'ready';
return nodes;
}
async register(id: string, wasmBuffer: ArrayBuffer): Promise<NodeDefinition> {
const wasm = createWasmWrapper(wasmBuffer);
const d = wasm.get_definition();
const node = {
...d,
execute: wasm.execute
};
this.nodes.set(id, node);
return node;
}
getNode(id: NodeId | string): NodeDefinition | undefined {
return this.nodes.get(id);
}
getAllNodes(): NodeDefinition[] {
return [];
}
}

56
app/benchmark/index.ts Normal file
View File

@@ -0,0 +1,56 @@
import type { Graph, Graph as GraphType, NodeId } from '@nodarium/types';
import { createLogger, createPerformanceStore } from '@nodarium/utils';
import { mkdir, writeFile } from 'node:fs/promises';
import { resolve } from 'node:path';
import { MemoryRuntimeExecutor } from '../src/lib/runtime/runtime-executor.ts';
import { BenchmarkRegistry } from './benchmarkRegistry.ts';
import defaultPlantTemplate from './templates/default.json' assert { type: 'json' };
import lottaFacesTemplate from './templates/lotta-faces.json' assert { type: 'json' };
import plantTemplate from './templates/plant.json' assert { type: 'json' };
const registry = new BenchmarkRegistry();
const r = new MemoryRuntimeExecutor(registry);
const perfStore = createPerformanceStore();
const log = createLogger('bench');
const templates: Record<string, Graph> = {
'plant': plantTemplate as unknown as GraphType,
'lotta-faces': lottaFacesTemplate as unknown as GraphType,
'default': defaultPlantTemplate as unknown as GraphType
};
async function run(g: GraphType, amount: number) {
await registry.load(plantTemplate.nodes.map(n => n.type) as NodeId[]);
log.log('loaded ' + g.nodes.length + ' nodes');
log.log('warming up');
// Warm up the runtime? maybe this does something?
for (let index = 0; index < 10; index++) {
await r.execute(g, { randomSeed: true });
}
log.log('executing');
r.perf = perfStore;
for (let i = 0; i < amount; i++) {
r.perf?.startRun();
await r.execute(g, { randomSeed: true });
r.perf?.stopRun();
}
log.log('finished');
return r.perf.get();
}
async function main() {
const outPath = resolve('benchmark/out/');
await mkdir(outPath, { recursive: true });
for (const key in templates) {
log.log('executing ' + key);
const perfData = await run(templates[key], 100);
await writeFile(resolve(outPath, key + '.json'), JSON.stringify(perfData));
await new Promise(res => setTimeout(res, 200));
}
}
main();

95
app/benchmark/templates/default.json Normal file
View File

@@ -0,0 +1,95 @@
{
"settings": { "resolution.circle": 26, "resolution.curve": 39 },
"nodes": [
{ "id": 9, "position": [220, 80], "type": "max/plantarium/output", "props": {} },
{
"id": 10,
"position": [95, 80],
"type": "max/plantarium/stem",
"props": { "amount": 5, "length": 11, "thickness": 0.1 }
},
{
"id": 14,
"position": [195, 80],
"type": "max/plantarium/gravity",
"props": {
"strength": 0.38,
"scale": 39,
"fixBottom": 0,
"directionalStrength": [1, 1, 1],
"depth": 1,
"curviness": 1
}
},
{
"id": 15,
"position": [120, 80],
"type": "max/plantarium/noise",
"props": {
"strength": 4.9,
"scale": 2.2,
"fixBottom": 1,
"directionalStrength": [1, 1, 1],
"depth": 1,
"octaves": 1
}
},
{
"id": 16,
"position": [70, 80],
"type": "max/plantarium/vec3",
"props": { "0": 0, "1": 0, "2": 0 }
},
{
"id": 17,
"position": [45, 80],
"type": "max/plantarium/random",
"props": { "min": -2, "max": 2 }
},
{
"id": 18,
"position": [170, 80],
"type": "max/plantarium/branch",
"props": {
"length": 1.6,
"thickness": 0.69,
"amount": 36,
"offsetSingle": 0.5,
"lowestBranch": 0.46,
"highestBranch": 1,
"depth": 1,
"rotation": 180
}
},
{
"id": 19,
"position": [145, 80],
"type": "max/plantarium/gravity",
"props": {
"strength": 0.38,
"scale": 39,
"fixBottom": 0,
"directionalStrength": [1, 1, 1],
"depth": 1,
"curviness": 1
}
},
{
"id": 20,
"position": [70, 120],
"type": "max/plantarium/random",
"props": { "min": 0.073, "max": 0.15 }
}
],
"edges": [
[14, 0, 9, "input"],
[10, 0, 15, "plant"],
[16, 0, 10, "origin"],
[17, 0, 16, "0"],
[17, 0, 16, "2"],
[18, 0, 14, "plant"],
[15, 0, 19, "plant"],
[19, 0, 18, "plant"],
[20, 0, 10, "thickness"]
]
}

44
app/benchmark/templates/lotta-faces.json Normal file
View File

@@ -0,0 +1,44 @@
{
"settings": { "resolution.circle": 64, "resolution.curve": 64, "randomSeed": false },
"nodes": [
{ "id": 9, "position": [260, 0], "type": "max/plantarium/output", "props": {} },
{
"id": 18,
"position": [185, 0],
"type": "max/plantarium/stem",
"props": { "amount": 64, "length": 12, "thickness": 0.15 }
},
{
"id": 19,
"position": [210, 0],
"type": "max/plantarium/noise",
"props": { "scale": 1.3, "strength": 5.4 }
},
{
"id": 20,
"position": [235, 0],
"type": "max/plantarium/branch",
"props": { "length": 0.8, "thickness": 0.8, "amount": 3 }
},
{
"id": 21,
"position": [160, 0],
"type": "max/plantarium/vec3",
"props": { "0": 0.39, "1": 0, "2": 0.41 }
},
{
"id": 22,
"position": [130, 0],
"type": "max/plantarium/random",
"props": { "min": -2, "max": 2 }
}
],
"edges": [
[18, 0, 19, "plant"],
[19, 0, 20, "plant"],
[20, 0, 9, "input"],
[21, 0, 18, "origin"],
[22, 0, 21, "0"],
[22, 0, 21, "2"]
]
}

71
app/benchmark/templates/plant.json Normal file
View File

@@ -0,0 +1,71 @@
{
"settings": { "resolution.circle": 26, "resolution.curve": 39 },
"nodes": [
{ "id": 9, "position": [180, 80], "type": "max/plantarium/output", "props": {} },
{
"id": 10,
"position": [55, 80],
"type": "max/plantarium/stem",
"props": { "amount": 1, "length": 11, "thickness": 0.71 }
},
{
"id": 11,
"position": [80, 80],
"type": "max/plantarium/noise",
"props": {
"strength": 35,
"scale": 4.6,
"fixBottom": 1,
"directionalStrength": [1, 0.74, 0.083],
"depth": 1
}
},
{
"id": 12,
"position": [105, 80],
"type": "max/plantarium/branch",
"props": {
"length": 3,
"thickness": 0.6,
"amount": 10,
"rotation": 180,
"offsetSingle": 0.34,
"lowestBranch": 0.53,
"highestBranch": 1,
"depth": 1
}
},
{
"id": 13,
"position": [130, 80],
"type": "max/plantarium/noise",
"props": {
"strength": 8,
"scale": 7.7,
"fixBottom": 1,
"directionalStrength": [1, 0, 1],
"depth": 1
}
},
{
"id": 14,
"position": [155, 80],
"type": "max/plantarium/gravity",
"props": {
"strength": 0.11,
"scale": 39,
"fixBottom": 0,
"directionalStrength": [1, 1, 1],
"depth": 1,
"curviness": 1
}
}
],
"edges": [
[10, 0, 11, "plant"],
[11, 0, 12, "plant"],
[12, 0, 13, "plant"],
[13, 0, 14, "plant"],
[14, 0, 9, "input"]
]
}

BIN
app/e2e/main.test.ts-snapshots/test-1-linux.png
View File

Binary file not shown.
Side by Side Swipe Overlay

Before

Width:  |  Height:  |  Size: 42 KiB

After

Width:  |  Height:  |  Size: 43 KiB

6
app/package.json
View File

@@ -1,7 +1,7 @@
{ {
"name": "@nodarium/app", "name": "@nodarium/app",
"private": true, "private": true,
"version": "0.0.3", "version": "0.0.5",
"type": "module", "type": "module",
"scripts": { "scripts": {
"dev": "vite dev", "dev": "vite dev",
@@ -14,7 +14,8 @@
"format": "dprint fmt -c '../.dprint.jsonc' .", "format": "dprint fmt -c '../.dprint.jsonc' .",
"format:check": "dprint check -c '../.dprint.jsonc' .", "format:check": "dprint check -c '../.dprint.jsonc' .",
"lint": "eslint .", "lint": "eslint .",
"check": "svelte-kit sync && svelte-check --tsconfig ./tsconfig.json" "check": "svelte-kit sync && svelte-check --tsconfig ./tsconfig.json",
"bench": "tsx ./benchmark/index.ts"
}, },
"dependencies": { "dependencies": {
"@nodarium/ui": "workspace:*", "@nodarium/ui": "workspace:*",
@@ -51,6 +52,7 @@
"svelte": "^5.49.2", "svelte": "^5.49.2",
"svelte-check": "^4.3.6", "svelte-check": "^4.3.6",
"tslib": "^2.8.1", "tslib": "^2.8.1",
"tsx": "^4.21.0",
"typescript": "^5.9.3", "typescript": "^5.9.3",
"typescript-eslint": "^8.54.0", "typescript-eslint": "^8.54.0",
"vite": "^7.3.1", "vite": "^7.3.1",

2
app/src/app.html
View File

@@ -2,7 +2,7 @@
<html lang="en"> <html lang="en">
<head> <head>
<meta charset="utf-8" /> <meta charset="utf-8" />
<link rel="icon" href="%sveltekit.assets%/svelte.svg" /> <link rel="icon" href="%sveltekit.assets%/favicon.svg" />
<meta name="viewport" content="width=device-width, initial-scale=1" /> <meta name="viewport" content="width=device-width, initial-scale=1" />
%sveltekit.head% %sveltekit.head%
<title>Nodes</title> <title>Nodes</title>

73
app/src/lib/graph-interface/components/AddMenu.svelte
View File

@@ -5,19 +5,33 @@
import { getGraphManager, getGraphState } from '../graph-state.svelte'; import { getGraphManager, getGraphState } from '../graph-state.svelte';
type Props = { type Props = {
paddingLeft?: number;
paddingRight?: number;
paddingTop?: number;
paddingBottom?: number;
onnode: (n: NodeInstance) => void; onnode: (n: NodeInstance) => void;
}; };
const { onnode }: Props = $props(); const padding = 10;
const {
paddingLeft = padding,
paddingRight = padding,
paddingTop = padding,
paddingBottom = padding,
onnode
}: Props = $props();
const graph = getGraphManager(); const graph = getGraphManager();
const graphState = getGraphState(); const graphState = getGraphState();
let input: HTMLInputElement; let input: HTMLInputElement;
let wrapper: HTMLDivElement;
let value = $state<string>(); let value = $state<string>();
let activeNodeId = $state<NodeId>(); let activeNodeId = $state<NodeId>();
const MENU_WIDTH = 150;
const MENU_HEIGHT = 350;
const allNodes = graphState.activeSocket const allNodes = graphState.activeSocket
? graph.getPossibleNodes(graphState.activeSocket) ? graph.getPossibleNodes(graphState.activeSocket)
: graph.getNodeDefinitions(); : graph.getNodeDefinitions();
@@ -79,19 +93,52 @@
} }
} }
function clampAddMenuPosition() {
if (!graphState.addMenuPosition) return;
const camX = graphState.cameraPosition[0];
const camY = graphState.cameraPosition[1];
const zoom = graphState.cameraPosition[2];
const halfViewportWidth = (graphState.width / 2) / zoom;
const halfViewportHeight = (graphState.height / 2) / zoom;
const halfMenuWidth = (MENU_WIDTH / 2) / zoom;
const halfMenuHeight = (MENU_HEIGHT / 2) / zoom;
const minX = camX - halfViewportWidth - halfMenuWidth + paddingLeft / zoom;
const maxX = camX + halfViewportWidth - halfMenuWidth - paddingRight / zoom;
const minY = camY - halfViewportHeight - halfMenuHeight + paddingTop / zoom;
const maxY = camY + halfViewportHeight - halfMenuHeight - paddingBottom / zoom;
const clampedX = Math.max(
minX + halfMenuWidth,
Math.min(graphState.addMenuPosition[0], maxX - halfMenuWidth)
);
const clampedY = Math.max(
minY + halfMenuHeight,
Math.min(graphState.addMenuPosition[1], maxY - halfMenuHeight)
);
if (clampedX !== graphState.addMenuPosition[0] || clampedY !== graphState.addMenuPosition[1]) {
graphState.addMenuPosition = [clampedX, clampedY];
}
}
$effect(() => {
const pos = graphState.addMenuPosition;
const zoom = graphState.cameraPosition[2];
const width = graphState.width;
const height = graphState.height;
if (pos && zoom && width && height) {
clampAddMenuPosition();
}
});
onMount(() => { onMount(() => {
input.disabled = false; input.disabled = false;
setTimeout(() => input.focus(), 50); setTimeout(() => input.focus(), 50);
const rect = wrapper.getBoundingClientRect();
const deltaY = rect.bottom - window.innerHeight;
const deltaX = rect.right - window.innerWidth;
if (deltaY > 0) {
wrapper.style.marginTop = `-${deltaY + 30}px`;
}
if (deltaX > 0) {
wrapper.style.marginLeft = `-${deltaX + 30}px`;
}
}); });
</script> </script>
@@ -100,7 +147,7 @@
position.z={graphState.addMenuPosition?.[1]} position.z={graphState.addMenuPosition?.[1]}
transform={false} transform={false}
> >
<div class="add-menu-wrapper" bind:this={wrapper}> <div class="add-menu-wrapper">
<div class="header"> <div class="header">
<input <input
id="add-menu" id="add-menu"

24
app/src/lib/graph-interface/edges/Edge.svelte
View File

@@ -6,15 +6,12 @@
toneMapped: false toneMapped: false
}); });
let lineColor = $state(colors.outline.clone().convertSRGBToLinear());
$effect.root(() => { $effect.root(() => {
$effect(() => { $effect(() => {
if (appSettings.value.theme === undefined) { if (appSettings.value.theme === undefined) {
return; return;
} }
circleMaterial.color = colors.outline.clone().convertSRGBToLinear(); circleMaterial.color = colors.outline.clone().convertSRGBToLinear();
lineColor = colors.outline.clone().convertSRGBToLinear();
}); });
}); });
@@ -35,6 +32,7 @@
import { CubicBezierCurve } from 'three/src/extras/curves/CubicBezierCurve.js'; import { CubicBezierCurve } from 'three/src/extras/curves/CubicBezierCurve.js';
import { Vector2 } from 'three/src/math/Vector2.js'; import { Vector2 } from 'three/src/math/Vector2.js';
import { getGraphState } from '../graph-state.svelte'; import { getGraphState } from '../graph-state.svelte';
import MeshGradientLineMaterial from './MeshGradientLine/MeshGradientLineMaterial.svelte';
const graphState = getGraphState(); const graphState = getGraphState();
@@ -45,12 +43,17 @@
y2: number; y2: number;
z: number; z: number;
id?: string; id?: string;
inputType?: string;
outputType?: string;
}; };
const { x1, y1, x2, y2, z, id }: Props = $props(); const { x1, y1, x2, y2, z, inputType = 'unknown', outputType = 'unknown', id }: Props = $props();
const thickness = $derived(Math.max(0.001, 0.00082 * Math.exp(0.055 * z))); const thickness = $derived(Math.max(0.001, 0.00082 * Math.exp(0.055 * z)));
const inputColor = $derived(graphState.colors.getColor(inputType));
const outputColor = $derived(graphState.colors.getColor(outputType));
let points = $state<Vector3[]>([]); let points = $state<Vector3[]>([]);
let lastId: string | null = null; let lastId: string | null = null;
@@ -106,9 +109,9 @@
position.z={y1} position.z={y1}
position.y={0.8} position.y={0.8}
rotation.x={-Math.PI / 2} rotation.x={-Math.PI / 2}
material={circleMaterial}
> >
<T.CircleGeometry args={[0.5, 16]} /> <T.CircleGeometry args={[0.5, 16]} />
<T.MeshBasicMaterial color={inputColor} toneMapped={false} />
</T.Mesh> </T.Mesh>
<T.Mesh <T.Mesh
@@ -119,6 +122,7 @@
material={circleMaterial} material={circleMaterial}
> >
<T.CircleGeometry args={[0.5, 16]} /> <T.CircleGeometry args={[0.5, 16]} />
<T.MeshBasicMaterial color={outputColor} toneMapped={false} />
</T.Mesh> </T.Mesh>
{#if graphState.hoveredEdgeId === id} {#if graphState.hoveredEdgeId === id}
@@ -126,7 +130,8 @@
<MeshLineGeometry {points} /> <MeshLineGeometry {points} />
<MeshLineMaterial <MeshLineMaterial
width={thickness * 5} width={thickness * 5}
color={lineColor} color={inputColor}
tonemapped={false}
opacity={0.5} opacity={0.5}
transparent transparent
/> />
@@ -135,5 +140,10 @@
<T.Mesh position.x={x1} position.z={y1} position.y={0.1}> <T.Mesh position.x={x1} position.z={y1} position.y={0.1}>
<MeshLineGeometry {points} /> <MeshLineGeometry {points} />
<MeshLineMaterial width={thickness} color={lineColor} /> <MeshGradientLineMaterial
width={thickness}
colorStart={inputColor}
colorEnd={outputColor}
tonemapped={false}
/>
</T.Mesh> </T.Mesh>

112
app/src/lib/graph-interface/edges/MeshGradientLine/MeshGradientLineMaterial.svelte Normal file
View File

@@ -0,0 +1,112 @@
<script lang="ts">
import { T, useThrelte } from '@threlte/core';
import { Color, ShaderMaterial, Vector2 } from 'three';
import fragmentShader from './fragment.frag';
import type { MeshLineMaterialProps } from './types';
import vertexShader from './vertex.vert';
let {
opacity = 1,
colorStart = '#ffffff',
colorEnd = '#ffffff',
dashOffset = 0,
dashArray = 0,
dashRatio = 0,
attenuate = true,
width = 1,
scaleDown = 0,
alphaMap,
ref = $bindable(),
children,
...props
}: MeshLineMaterialProps = $props();
let { invalidate, size } = useThrelte();
// svelte-ignore state_referenced_locally
const uniforms = {
lineWidth: { value: width },
colorStart: { value: new Color(colorStart) },
colorEnd: { value: new Color(colorEnd) },
opacity: { value: opacity },
resolution: { value: new Vector2(1, 1) },
sizeAttenuation: { value: attenuate ? 1 : 0 },
dashArray: { value: dashArray },
useDash: { value: dashArray > 0 ? 1 : 0 },
dashOffset: { value: dashOffset },
dashRatio: { value: dashRatio },
scaleDown: { value: scaleDown / 10 },
alphaTest: { value: 0 },
alphaMap: { value: alphaMap },
useAlphaMap: { value: alphaMap ? 1 : 0 }
};
const material = new ShaderMaterial({ uniforms });
$effect.pre(() => {
uniforms.lineWidth.value = width;
invalidate();
});
$effect.pre(() => {
uniforms.opacity.value = opacity;
invalidate();
});
$effect.pre(() => {
uniforms.resolution.value.set($size.width, $size.height);
invalidate();
});
$effect.pre(() => {
uniforms.sizeAttenuation.value = attenuate ? 1 : 0;
invalidate();
});
$effect.pre(() => {
uniforms.dashArray.value = dashArray;
uniforms.useDash.value = dashArray > 0 ? 1 : 0;
invalidate();
});
$effect.pre(() => {
uniforms.dashOffset.value = dashOffset;
invalidate();
});
$effect.pre(() => {
uniforms.dashRatio.value = dashRatio;
invalidate();
});
$effect.pre(() => {
uniforms.scaleDown.value = scaleDown / 10;
invalidate();
});
$effect.pre(() => {
uniforms.alphaMap.value = alphaMap;
uniforms.useAlphaMap.value = alphaMap ? 1 : 0;
invalidate();
});
$effect.pre(() => {
uniforms.colorStart.value.set(colorStart);
invalidate();
});
$effect.pre(() => {
uniforms.colorEnd.value.set(colorEnd);
invalidate();
});
</script>
<T
is={material}
bind:ref
{fragmentShader}
{vertexShader}
{...props}
>
{@render children?.({ ref: material })}
</T>

30
app/src/lib/graph-interface/edges/MeshGradientLine/fragment.frag Normal file
View File

@@ -0,0 +1,30 @@
uniform vec3 colorStart;
uniform vec3 colorEnd;
uniform float useDash;
uniform float dashArray;
uniform float dashOffset;
uniform float dashRatio;
uniform sampler2D alphaMap;
uniform float useAlphaMap;
varying vec2 vUV;
varying vec4 vColor;
varying float vCounters;
vec4 CustomLinearTosRGB( in vec4 value ) {
return vec4( mix( pow( value.rgb, vec3( 0.41666 ) ) * 1.055 - vec3( 0.055 ), value.rgb * 12.92, vec3( lessThanEqual( value.rgb, vec3( 0.0031308 ) ) ) ), value.a );
}
void main() {
vec4 c = mix(vec4(colorStart,1.0),vec4(colorEnd, 1.0), vCounters);
if( useAlphaMap == 1. ) c.a *= texture2D( alphaMap, vUV ).r;
if( useDash == 1. ){
c.a *= ceil(mod(vCounters + dashOffset, dashArray) - (dashArray * dashRatio));
}
gl_FragColor = CustomLinearTosRGB(c);
}

68
app/src/lib/graph-interface/edges/MeshGradientLine/types.ts Normal file
View File

@@ -0,0 +1,68 @@
import type { Props } from '@threlte/core';
import type { BufferGeometry, Vector3 } from 'three';
import type { ColorRepresentation, ShaderMaterial, Texture } from 'three';
export type MeshLineGeometryProps = Props<BufferGeometry> & {
/**
* @default []
*/
points: Vector3[];
/**
* @default 'none'
*/
shape?: 'none' | 'taper' | 'custom';
/**
* @default () => 1
*/
shapeFunction?: (p: number) => number;
};
export type MeshLineMaterialProps =
& Omit<
Props<ShaderMaterial>,
'uniforms' | 'fragmentShader' | 'vertexShader'
>
& {
/**
* @default 1
*/
opacity?: number;
/**
* @default '#ffffff'
*/
color?: ColorRepresentation;
/**
* @default 0
*/
dashOffset?: number;
/**
* @default 0
*/
dashArray?: number;
/**
* @default 0
*/
dashRatio?: number;
/**
* @default true
*/
attenuate?: boolean;
/**
* @default 1
*/
width?: number;
/**
* @default 0
*/
scaleDown?: number;
alphaMap?: Texture | undefined;
};

83
app/src/lib/graph-interface/edges/MeshGradientLine/vertex.vert Normal file
View File

@@ -0,0 +1,83 @@
attribute vec3 previous;
attribute vec3 next;
attribute float side;
attribute float width;
attribute float counters;
uniform vec2 resolution;
uniform float lineWidth;
uniform vec3 color;
uniform float opacity;
uniform float sizeAttenuation;
uniform float scaleDown;
varying vec2 vUV;
varying vec4 vColor;
varying float vCounters;
vec2 intoScreen(vec4 i) {
return resolution * (0.5 * i.xy / i.w + 0.5);
}
void main() {
float aspect = resolution.y / resolution.x;
mat4 m = projectionMatrix * modelViewMatrix;
vec4 currentClip = m * vec4( position, 1.0 );
vec4 prevClip = m * vec4( previous, 1.0 );
vec4 nextClip = m * vec4( next, 1.0 );
vec4 currentNormed = currentClip / currentClip.w;
vec4 prevNormed = prevClip / prevClip.w;
vec4 nextNormed = nextClip / nextClip.w;
vec2 currentScreen = intoScreen(currentNormed);
vec2 prevScreen = intoScreen(prevNormed);
vec2 nextScreen = intoScreen(nextNormed);
float actualWidth = lineWidth * width;
vec2 dir;
if(nextScreen == currentScreen) {
dir = normalize( currentScreen - prevScreen );
} else if(prevScreen == currentScreen) {
dir = normalize( nextScreen - currentScreen );
} else {
vec2 inDir = currentScreen - prevScreen;
vec2 outDir = nextScreen - currentScreen;
vec2 fullDir = nextScreen - prevScreen;
if(length(fullDir) > 0.0) {
dir = normalize(fullDir);
} else if(length(inDir) > 0.0){
dir = normalize(inDir);
} else {
dir = normalize(outDir);
}
}
vec2 normal = vec2(-dir.y, dir.x);
if(sizeAttenuation != 0.0) {
normal /= currentClip.w;
normal *= min(resolution.x, resolution.y);
}
if (scaleDown > 0.0) {
float dist = length(nextNormed - prevNormed);
normal *= smoothstep(0.0, scaleDown, dist);
}
vec2 offsetInScreen = actualWidth * normal * side * 0.5;
vec2 withOffsetScreen = currentScreen + offsetInScreen;
vec3 withOffsetNormed = vec3((2.0 * withOffsetScreen/resolution - 1.0), currentNormed.z);
vCounters = counters;
vColor = vec4( color, opacity );
vUV = uv;
gl_Position = currentClip.w * vec4(withOffsetNormed, 1.0);
}

67
app/src/lib/graph-interface/graph-manager.svelte.ts
View File

@@ -25,14 +25,15 @@ const clone = 'structuredClone' in self
? self.structuredClone ? self.structuredClone
: (args: unknown) => JSON.parse(JSON.stringify(args)); : (args: unknown) => JSON.parse(JSON.stringify(args));
function areSocketsCompatible( export function areSocketsCompatible(
output: string | undefined, output: string | undefined,
inputs: string | (string | undefined)[] | undefined inputs: string | (string | undefined)[] | undefined
) { ) {
if (output === '*') return true;
if (Array.isArray(inputs) && output) { if (Array.isArray(inputs) && output) {
return inputs.includes(output); return inputs.includes('*') || inputs.includes(output);
} }
return inputs === output; return inputs === output || inputs === '*';
} }
function areEdgesEqual(firstEdge: Edge, secondEdge: Edge) { function areEdgesEqual(firstEdge: Edge, secondEdge: Edge) {
@@ -268,14 +269,7 @@ export class GraphManager extends EventEmitter<{
private _init(graph: Graph) { private _init(graph: Graph) {
const nodes = new SvelteMap( const nodes = new SvelteMap(
graph.nodes.map((node) => { graph.nodes.map((node) => {
const nodeType = this.registry.getNode(node.type); return [node.id, node as NodeInstance];
const n = node as NodeInstance;
if (nodeType) {
n.state = {
type: nodeType
};
}
return [node.id, n];
}) })
); );
@@ -300,6 +294,30 @@ export class GraphManager extends EventEmitter<{
this.execute(); this.execute();
} }
private async loadAllCollections() {
// Fetch all nodes from all collections of the loaded nodes
const nodeIds = Array.from(new Set([...this.graph.nodes.map((n) => n.type)]));
const allCollections = new Set<`${string}/${string}`>();
for (const id of nodeIds) {
const [user, collection] = id.split('/');
allCollections.add(`${user}/${collection}`);
}
const allCollectionIds = await Promise
.all([...allCollections]
.map(async (collection) =>
remoteRegistry
.fetchCollection(collection)
.then((collection: { nodes: { id: NodeId }[] }) => {
return collection.nodes.map(n => n.id.replace(/\.wasm$/, '') as NodeId);
})
));
const missingNodeIds = [...new Set(allCollectionIds.flat())];
this.registry.load(missingNodeIds);
}
async load(graph: Graph) { async load(graph: Graph) {
const a = performance.now(); const a = performance.now();
@@ -384,7 +402,9 @@ export class GraphManager extends EventEmitter<{
this.loaded = true; this.loaded = true;
logger.log(`Graph loaded in ${performance.now() - a}ms`); logger.log(`Graph loaded in ${performance.now() - a}ms`);
setTimeout(() => this.execute(), 100); setTimeout(() => this.execute(), 100);
this.loadAllCollections(); // lazily load all nodes from all collections
} }
getAllNodes() { getAllNodes() {
@@ -491,10 +511,10 @@ export class GraphManager extends EventEmitter<{
const inputs = Object.entries(to.state?.type?.inputs ?? {}); const inputs = Object.entries(to.state?.type?.inputs ?? {});
const outputs = from.state?.type?.outputs ?? []; const outputs = from.state?.type?.outputs ?? [];
for (let i = 0; i < inputs.length; i++) { for (let i = 0; i < inputs.length; i++) {
const [inputName, input] = inputs[0]; const [inputName, input] = inputs[i];
for (let o = 0; o < outputs.length; o++) { for (let o = 0; o < outputs.length; o++) {
const output = outputs[0]; const output = outputs[o];
if (input.type === output) { if (input.type === output || input.type === '*') {
return this.createEdge(from, o, to, inputName); return this.createEdge(from, o, to, inputName);
} }
} }
@@ -596,11 +616,14 @@ export class GraphManager extends EventEmitter<{
return; return;
} }
const fromType = from.state.type || this.registry.getNode(from.type);
const toType = to.state.type || this.registry.getNode(to.type);
// check if socket types match // check if socket types match
const fromSocketType = from.state?.type?.outputs?.[fromSocket]; const fromSocketType = fromType?.outputs?.[fromSocket];
const toSocketType = [to.state?.type?.inputs?.[toSocket]?.type]; const toSocketType = [toType?.inputs?.[toSocket]?.type];
if (to.state?.type?.inputs?.[toSocket]?.accepts) { if (toType?.inputs?.[toSocket]?.accepts) {
toSocketType.push(...(to?.state?.type?.inputs?.[toSocket]?.accepts || [])); toSocketType.push(...(toType?.inputs?.[toSocket]?.accepts || []));
} }
if (!areSocketsCompatible(fromSocketType, toSocketType)) { if (!areSocketsCompatible(fromSocketType, toSocketType)) {
@@ -723,8 +746,9 @@ export class GraphManager extends EventEmitter<{
} }
getPossibleSockets({ node, index }: Socket): [NodeInstance, string | number][] { getPossibleSockets({ node, index }: Socket): [NodeInstance, string | number][] {
const nodeType = node?.state?.type; const nodeType = this.registry.getNode(node.type);
if (!nodeType) return []; if (!nodeType) return [];
console.log({ index });
const sockets: [NodeInstance, string | number][] = []; const sockets: [NodeInstance, string | number][] = [];
@@ -739,7 +763,7 @@ export class GraphManager extends EventEmitter<{
const ownType = nodeType?.inputs?.[index].type; const ownType = nodeType?.inputs?.[index].type;
for (const node of nodes) { for (const node of nodes) {
const nodeType = node?.state?.type; const nodeType = this.registry.getNode(node.type);
const inputs = nodeType?.outputs; const inputs = nodeType?.outputs;
if (!inputs) continue; if (!inputs) continue;
for (let index = 0; index < inputs.length; index++) { for (let index = 0; index < inputs.length; index++) {
@@ -771,7 +795,7 @@ export class GraphManager extends EventEmitter<{
const ownType = nodeType.outputs?.[index]; const ownType = nodeType.outputs?.[index];
for (const node of nodes) { for (const node of nodes) {
const inputs = node?.state?.type?.inputs; const inputs = this.registry.getNode(node.type)?.inputs;
if (!inputs) continue; if (!inputs) continue;
for (const key in inputs) { for (const key in inputs) {
const otherType = [inputs[key].type]; const otherType = [inputs[key].type];
@@ -787,6 +811,7 @@ export class GraphManager extends EventEmitter<{
} }
} }
console.log(`Found ${sockets.length} possible sockets`, sockets);
return sockets; return sockets;
} }

102
app/src/lib/graph-interface/graph-state.svelte.ts
View File

@@ -3,6 +3,8 @@ import { getContext, setContext } from 'svelte';
import { SvelteMap, SvelteSet } from 'svelte/reactivity'; import { SvelteMap, SvelteSet } from 'svelte/reactivity';
import type { OrthographicCamera, Vector3 } from 'three'; import type { OrthographicCamera, Vector3 } from 'three';
import type { GraphManager } from './graph-manager.svelte'; import type { GraphManager } from './graph-manager.svelte';
import { ColorGenerator } from './graph/colors';
import { getNodeHeight, getSocketPosition } from './helpers/nodeHelpers';
const graphStateKey = Symbol('graph-state'); const graphStateKey = Symbol('graph-state');
export function getGraphState() { export function getGraphState() {
@@ -27,7 +29,32 @@ type EdgeData = {
points: Vector3[]; points: Vector3[];
}; };
const predefinedColors = {
path: {
hue: 80,
lightness: 20,
saturation: 80
},
float: {
hue: 70,
lightness: 10,
saturation: 0
},
geometry: {
hue: 0,
lightness: 50,
saturation: 70
},
'*': {
hue: 200,
lightness: 20,
saturation: 100
}
} as const;
export class GraphState { export class GraphState {
colors = new ColorGenerator(predefinedColors);
constructor(private graph: GraphManager) { constructor(private graph: GraphManager) {
$effect.root(() => { $effect.root(() => {
$effect(() => { $effect(() => {
@@ -159,54 +186,27 @@ export class GraphState {
return 1; return 1;
} }
getSocketPosition( tryConnectToDebugNode(nodeId: number) {
node: NodeInstance, const node = this.graph.nodes.get(nodeId);
index: string | number if (!node) return;
): [number, number] { if (node.type.endsWith('/debug')) return;
if (typeof index === 'number') { if (!node.state.type?.outputs?.length) return;
return [ for (const _node of this.graph.nodes.values()) {
(node?.state?.x ?? node.position[0]) + 20, if (_node.type.endsWith('/debug')) {
(node?.state?.y ?? node.position[1]) + 2.5 + 10 * index this.graph.createEdge(node, 0, _node, 'input');
]; return;
} else {
const _index = Object.keys(node.state?.type?.inputs || {}).indexOf(index);
return [
node?.state?.x ?? node.position[0],
(node?.state?.y ?? node.position[1]) + 10 + 10 * _index
];
} }
} }
private nodeHeightCache: Record<string, number> = {}; const debugNode = this.graph.createNode({
getNodeHeight(nodeTypeId: string) { type: 'max/plantarium/debug',
if (nodeTypeId in this.nodeHeightCache) { position: [node.position[0] + 30, node.position[1]],
return this.nodeHeightCache[nodeTypeId]; props: {}
} });
const node = this.graph.getNodeType(nodeTypeId);
if (!node?.inputs) {
return 5;
}
let height = 5;
for (const key of Object.keys(node.inputs)) { if (debugNode) {
if (key === 'seed') continue; this.graph.createEdge(node, 0, debugNode, 'input');
if (!node.inputs) continue;
if (node?.inputs?.[key] === undefined) continue;
if ('setting' in node.inputs[key]) continue;
if (node.inputs[key].hidden) continue;
if (
node.inputs[key].type === 'shape'
&& node.inputs[key].external !== true
&& node.inputs[key].internal !== false
) {
height += 20;
continue;
} }
height += 10;
}
this.nodeHeightCache[nodeTypeId] = height;
return height;
} }
copyNodes() { copyNodes() {
@@ -259,14 +259,14 @@ export class GraphState {
let { node, index, position } = socket; let { node, index, position } = socket;
// remove existing edge // if the socket is an input socket -> remove existing edges
if (typeof index === 'string') { if (typeof index === 'string') {
const edges = this.graph.getEdgesToNode(node); const edges = this.graph.getEdgesToNode(node);
for (const edge of edges) { for (const edge of edges) {
if (edge[3] === index) { if (edge[3] === index) {
node = edge[0]; node = edge[0];
index = edge[1]; index = edge[1];
position = this.getSocketPosition(node, index); position = getSocketPosition(node, index);
this.graph.removeEdge(edge); this.graph.removeEdge(edge);
break; break;
} }
@@ -286,7 +286,7 @@ export class GraphState {
return { return {
node, node,
index, index,
position: this.getSocketPosition(node, index) position: getSocketPosition(node, index)
}; };
}); });
} }
@@ -323,7 +323,7 @@ export class GraphState {
for (const node of this.graph.nodes.values()) { for (const node of this.graph.nodes.values()) {
const x = node.position[0]; const x = node.position[0];
const y = node.position[1]; const y = node.position[1];
const height = this.getNodeHeight(node.type); const height = getNodeHeight(node.state.type!);
if (downX > x && downX < x + 20 && downY > y && downY < y + height) { if (downX > x && downX < x + 20 && downY > y && downY < y + height) {
clickedNodeId = node.id; clickedNodeId = node.id;
break; break;
@@ -335,14 +335,12 @@ export class GraphState {
} }
isNodeInView(node: NodeInstance) { isNodeInView(node: NodeInstance) {
const height = this.getNodeHeight(node.type); const height = getNodeHeight(node.state.type!);
const width = 20; const width = 20;
return ( return node.position[0] > this.cameraBounds[0] - width
node.position[0] > this.cameraBounds[0] - width
&& node.position[0] < this.cameraBounds[1] && node.position[0] < this.cameraBounds[1]
&& node.position[1] > this.cameraBounds[2] - height && node.position[1] > this.cameraBounds[2] - height
&& node.position[1] < this.cameraBounds[3] && node.position[1] < this.cameraBounds[3];
);
} }
openNodePalette() { openNodePalette() {

29
app/src/lib/graph-interface/graph/Graph.svelte
View File

@@ -11,15 +11,18 @@
import Debug from '../debug/Debug.svelte'; import Debug from '../debug/Debug.svelte';
import EdgeEl from '../edges/Edge.svelte'; import EdgeEl from '../edges/Edge.svelte';
import { getGraphManager, getGraphState } from '../graph-state.svelte'; import { getGraphManager, getGraphState } from '../graph-state.svelte';
import { getSocketPosition } from '../helpers/nodeHelpers';
import NodeEl from '../node/Node.svelte'; import NodeEl from '../node/Node.svelte';
import { maxZoom, minZoom } from './constants'; import { maxZoom, minZoom } from './constants';
import { FileDropEventManager } from './drop.events'; import { FileDropEventManager } from './drop.events';
import { MouseEventManager } from './mouse.events'; import { MouseEventManager } from './mouse.events';
const { const {
keymap keymap,
addMenuPadding
}: { }: {
keymap: ReturnType<typeof createKeyMap>; keymap: ReturnType<typeof createKeyMap>;
addMenuPadding?: { left?: number; right?: number; bottom?: number; top?: number };
} = $props(); } = $props();
const graph = getGraphManager(); const graph = getGraphManager();
@@ -36,8 +39,8 @@
return [0, 0, 0, 0]; return [0, 0, 0, 0];
} }
const pos1 = graphState.getSocketPosition(fromNode, edge[1]); const pos1 = getSocketPosition(fromNode, edge[1]);
const pos2 = graphState.getSocketPosition(toNode, edge[3]); const pos2 = getSocketPosition(toNode, edge[3]);
return [pos1[0], pos1[1], pos2[0], pos2[1]]; return [pos1[0], pos1[1], pos2[0], pos2[1]];
} }
@@ -92,6 +95,13 @@
graphState.activeSocket = null; graphState.activeSocket = null;
graphState.addMenuPosition = null; graphState.addMenuPosition = null;
} }
function getSocketType(node: NodeInstance, index: number | string): string {
if (typeof index === 'string') {
return node.state.type?.inputs?.[index].type || 'unknown';
}
return node.state.type?.outputs?.[index] || 'unknown';
}
</script> </script>
<svelte:window <svelte:window
@@ -160,12 +170,20 @@
{#if graph.status === 'idle'} {#if graph.status === 'idle'}
{#if graphState.addMenuPosition} {#if graphState.addMenuPosition}
<AddMenu onnode={handleNodeCreation} /> <AddMenu
onnode={handleNodeCreation}
paddingTop={addMenuPadding?.top}
paddingRight={addMenuPadding?.right}
paddingBottom={addMenuPadding?.bottom}
paddingLeft={addMenuPadding?.left}
/>
{/if} {/if}
{#if graphState.activeSocket} {#if graphState.activeSocket}
<EdgeEl <EdgeEl
z={graphState.cameraPosition[2]} z={graphState.cameraPosition[2]}
inputType={getSocketType(graphState.activeSocket.node, graphState.activeSocket.index)}
outputType={getSocketType(graphState.activeSocket.node, graphState.activeSocket.index)}
x1={graphState.activeSocket.position[0]} x1={graphState.activeSocket.position[0]}
y1={graphState.activeSocket.position[1]} y1={graphState.activeSocket.position[1]}
x2={graphState.edgeEndPosition?.[0] ?? graphState.mousePosition[0]} x2={graphState.edgeEndPosition?.[0] ?? graphState.mousePosition[0]}
@@ -178,6 +196,8 @@
<EdgeEl <EdgeEl
id={graph.getEdgeId(edge)} id={graph.getEdgeId(edge)}
z={graphState.cameraPosition[2]} z={graphState.cameraPosition[2]}
inputType={getSocketType(edge[0], edge[1])}
outputType={getSocketType(edge[2], edge[3])}
{x1} {x1}
{y1} {y1}
{x2} {x2}
@@ -200,7 +220,6 @@
<NodeEl <NodeEl
{node} {node}
inView={graphState.isNodeInView(node)} inView={graphState.isNodeInView(node)}
z={graphState.cameraPosition[2]}
/> />
{/each} {/each}
</div> </div>

6
app/src/lib/graph-interface/graph/Wrapper.svelte
View File

@@ -18,6 +18,8 @@
showHelp?: boolean; showHelp?: boolean;
settingTypes?: Record<string, unknown>; settingTypes?: Record<string, unknown>;
addMenuPadding?: { left?: number; right?: number; bottom?: number; top?: number };
onsave?: (save: Graph) => void; onsave?: (save: Graph) => void;
onresult?: (result: unknown) => void; onresult?: (result: unknown) => void;
}; };
@@ -25,11 +27,13 @@
let { let {
graph, graph,
registry, registry,
addMenuPadding,
settings = $bindable(), settings = $bindable(),
activeNode = $bindable(), activeNode = $bindable(),
backgroundType = $bindable('grid'), backgroundType = $bindable('grid'),
snapToGrid = $bindable(true), snapToGrid = $bindable(true),
showHelp = $bindable(false), showHelp = $bindable(false),
settings = $bindable(),
settingTypes = $bindable(), settingTypes = $bindable(),
onsave, onsave,
onresult onresult
@@ -83,4 +87,4 @@
}); });
</script> </script>
<GraphEl {keymap} /> <GraphEl {keymap} {addMenuPadding} />

44
app/src/lib/graph-interface/graph/colors.ts Normal file
View File

@@ -0,0 +1,44 @@
type Color = { hue: number; saturation: number; lightness: number };
export class ColorGenerator {
private colors: Map<string, Color> = new Map();
private lightnessLevels = [10, 60];
constructor(predefined: Record<string, Color>) {
for (const [id, colorStr] of Object.entries(predefined)) {
this.colors.set(id, colorStr);
}
}
public getColor(id: string): string {
if (this.colors.has(id)) {
return this.colorToHsl(this.colors.get(id)!);
}
const newColor = this.generateNewColor();
this.colors.set(id, newColor);
return this.colorToHsl(newColor);
}
private generateNewColor(): Color {
const existingHues = Array.from(this.colors.values()).map(c => c.hue).sort();
let hue = existingHues[0];
let attempts = 0;
while (
existingHues.some(h => Math.abs(h - hue) < 30 || Math.abs(h - hue) > 330)
&& attempts < 360
) {
hue = (hue + 30) % 360;
attempts++;
}
const lightness = 60;
return { hue, lightness, saturation: 100 };
}
private colorToHsl(c: Color): string {
return `hsl(${c.hue}, ${c.saturation}%, ${c.lightness}%)`;
}
}

7
app/src/lib/graph-interface/graph/mouse.events.ts
View File

@@ -3,6 +3,7 @@ import { type NodeInstance } from '@nodarium/types';
import type { GraphManager } from '../graph-manager.svelte'; import type { GraphManager } from '../graph-manager.svelte';
import { type GraphState } from '../graph-state.svelte'; import { type GraphState } from '../graph-state.svelte';
import { snapToGrid as snapPointToGrid } from '../helpers'; import { snapToGrid as snapPointToGrid } from '../helpers';
import { getNodeHeight } from '../helpers/nodeHelpers';
import { maxZoom, minZoom, zoomSpeed } from './constants'; import { maxZoom, minZoom, zoomSpeed } from './constants';
import { EdgeInteractionManager } from './edge.events'; import { EdgeInteractionManager } from './edge.events';
@@ -188,6 +189,10 @@ export class MouseEventManager {
// if we clicked on a node // if we clicked on a node
if (clickedNodeId !== -1) { if (clickedNodeId !== -1) {
if (event.ctrlKey && event.shiftKey) {
this.state.tryConnectToDebugNode(clickedNodeId);
return;
}
if (this.state.activeNodeId === -1) { if (this.state.activeNodeId === -1) {
this.state.activeNodeId = clickedNodeId; this.state.activeNodeId = clickedNodeId;
// if the selected node is the same as the clicked node // if the selected node is the same as the clicked node
@@ -289,7 +294,7 @@ export class MouseEventManager {
if (!node?.state) continue; if (!node?.state) continue;
const x = node.position[0]; const x = node.position[0];
const y = node.position[1]; const y = node.position[1];
const height = this.state.getNodeHeight(node.type); const height = getNodeHeight(node.state.type!);
if (x > x1 - 20 && x < x2 && y > y1 - height && y < y2) { if (x > x1 - 20 && x < x2 && y > y1 - height && y < y2) {
this.state.selectedNodes?.add(node.id); this.state.selectedNodes?.add(node.id);
} else { } else {

7
app/src/lib/graph-interface/helpers/index.ts
View File

@@ -35,6 +35,9 @@ export function createNodePath({
rightBump = false, rightBump = false,
aspectRatio = 1 aspectRatio = 1
} = {}) { } = {}) {
const leftBumpTopY = y + height / 2;
const leftBumpBottomY = y - height / 2;
return `M0,${cornerTop} return `M0,${cornerTop}
${ ${
cornerTop cornerTop
@@ -64,9 +67,7 @@ export function createNodePath({
} }
${ ${
leftBump leftBump
? ` V${y + height / 2} C${depth},${y + height / 2} ${depth},${y - height / 2} 0,${ ? ` V${leftBumpTopY} C${depth},${leftBumpTopY} ${depth},${leftBumpBottomY} 0,${leftBumpBottomY}`
y - height / 2
}`
: ` H0` : ` H0`
} }
Z`.replace(/\s+/g, ' '); Z`.replace(/\s+/g, ' ');

71
app/src/lib/graph-interface/helpers/nodeHelpers.ts Normal file
View File

@@ -0,0 +1,71 @@
import type { NodeDefinition, NodeInstance } from '@nodarium/types';
export function getParameterHeight(node: NodeDefinition, inputKey: string) {
const input = node.inputs?.[inputKey];
if (!input) {
return 0;
}
if (inputKey === 'seed') return 0;
if (!node.inputs) return 0;
if ('setting' in input) return 0;
if (input.hidden) return 0;
if (input.type === 'shape' && input.external !== true) {
return 200;
}
if (
input?.label !== '' && !input.external && input.type !== 'path'
&& input.type !== 'geometry'
) {
return 100;
}
return 50;
}
export function getSocketPosition(
node: NodeInstance,
index: string | number
): [number, number] {
if (typeof index === 'number') {
return [
(node?.state?.x ?? node.position[0]) + 20,
(node?.state?.y ?? node.position[1]) + 2.5 + 10 * index
];
} else {
let height = 5;
const nodeType = node.state.type!;
const inputs = nodeType.inputs || {};
for (const inputKey in inputs) {
const h = getParameterHeight(nodeType, inputKey) / 10;
if (inputKey === index) {
height += h / 2;
break;
}
height += h;
}
return [
node?.state?.x ?? node.position[0],
(node?.state?.y ?? node.position[1]) + height
];
}
}
const nodeHeightCache: Record<string, number> = {};
export function getNodeHeight(node: NodeDefinition) {
if (node.id in nodeHeightCache) {
return nodeHeightCache[node.id];
}
if (!node?.inputs) {
return 5;
}
let height = 5;
for (const key in node.inputs) {
const h = getParameterHeight(node, key) / 10;
height += h;
}
nodeHeightCache[node.id] = height;
return height;
}

78
app/src/lib/graph-interface/node/Node.frag
View File

@@ -1,56 +1,88 @@
varying vec2 vUv; varying vec2 vUv;
uniform float uWidth; uniform float uWidth;
uniform float uHeight; uniform float uHeight;
uniform float uZoom;
uniform vec3 uColorDark; uniform vec3 uColorDark;
uniform vec3 uColorBright; uniform vec3 uColorBright;
uniform vec3 uStrokeColor; uniform vec3 uStrokeColor;
uniform float uStrokeWidth;
const float uHeaderHeight = 5.0;
uniform float uSectionHeights[16];
uniform int uNumSections;
float msign(in float x) { return (x < 0.0) ? -1.0 : 1.0; } float msign(in float x) { return (x < 0.0) ? -1.0 : 1.0; }
float sdCircle(vec2 p, float r) { return length(p) - r; }
vec4 roundedBoxSDF( in vec2 p, in vec2 b, in float r, in float s) { vec4 roundedBoxSDF( in vec2 p, in vec2 b, in float r, in float s) {
vec2 q = abs(p) - b + r; vec2 q = abs(p) - b + r;
float l = b.x + b.y + 1.570796 * r; float l = b.x + b.y + 1.570796 * r;
float k1 = min(max(q.x, q.y), 0.0) + length(max(q, 0.0)) - r; float k1 = min(max(q.x, q.y), 0.0) + length(max(q, 0.0)) - r;
float k2 = ((q.x > 0.0) ? atan(q.y, q.x) : 1.570796); float k2 = ((q.x > 0.0) ? atan(q.y, q.x) : 1.570796);
float k3 = 3.0 + 2.0 * msign(min(p.x, -p.y)) - msign(p.x); float k3 = 3.0 + 2.0 * msign(min(p.x, -p.y)) - msign(p.x);
float k4 = msign(p.x * p.y); float k4 = msign(p.x * p.y);
float k5 = r * k2 + max(-q.x, 0.0); float k5 = r * k2 + max(-q.x, 0.0);
float ra = s * round(k1 / s); float ra = s * round(k1 / s);
float l2 = l + 1.570796 * ra; float l2 = l + 1.570796 * ra;
return vec4(k1 - ra, k3 * l2 + k4 * (b.y + ((q.y > 0.0) ? k5 + k2 * ra : q.y)), 4.0 * l2, k1); return vec4(k1 - ra, k3 * l2 + k4 * (b.y + ((q.y > 0.0) ? k5 + k2 * ra : q.y)), 4.0 * l2, k1);
} }
void main(){ void main(){
float strokeWidth = mix(2.0, 0.5, uZoom);
float y = (1.0-vUv.y) * uHeight; float borderRadius = 0.5;
float dentRadius = 0.8;
float y = (1.0 - vUv.y) * uHeight;
float x = vUv.x * uWidth; float x = vUv.x * uWidth;
vec2 size = vec2(uWidth, uHeight); vec2 size = vec2(uWidth, uHeight);
vec2 uv = (vUv - 0.5) * 2.0; vec2 uvCenter = (vUv - 0.5) * 2.0;
float u_border_radius = 0.4; vec4 boxData = roundedBoxSDF(uvCenter * size, size, borderRadius * 2.0, 0.0);
vec4 distance = roundedBoxSDF(uv * size, size, u_border_radius*2.0, 0.0); float sceneSDF = boxData.w;
if (distance.w > 0.0 ) { vec2 headerDentPos = vec2(uWidth, uHeaderHeight * 0.5);
// outside float headerDentDist = sdCircle(vec2(x, y) - headerDentPos, dentRadius);
gl_FragColor = vec4(0.0,0.0,0.0, 0.0); sceneSDF = max(sceneSDF, -headerDentDist*2.0);
}else{
if (distance.w > -uStrokeWidth || mod(y+5.0, 10.0) < uStrokeWidth/2.0) { float currentYBoundary = uHeaderHeight;
// draw the outer stroke float previousYBoundary = uHeaderHeight;
gl_FragColor = vec4(uStrokeColor, 1.0);
}else if (y<5.0){ for (int i = 0; i < 16; i++) {
// draw the header if (i >= uNumSections) break;
gl_FragColor = vec4(uColorBright, 1.0);
}else{ float sectionHeight = uSectionHeights[i];
gl_FragColor = vec4(uColorDark, 1.0); currentYBoundary += sectionHeight;
float centerY = previousYBoundary + (sectionHeight * 0.5);
vec2 circlePos = vec2(0.0, centerY);
float circleDist = sdCircle(vec2(x, y) - circlePos, dentRadius);
sceneSDF = max(sceneSDF, -circleDist*2.0);
previousYBoundary = currentYBoundary;
} }
if (sceneSDF > 0.05) {
gl_FragColor = vec4(0.0, 0.0, 0.0, 0.0);
return;
}
vec3 finalColor = (y < uHeaderHeight) ? uColorBright : uColorDark;
bool isDivider = false;
float dividerY = uHeaderHeight;
if (abs(y - dividerY) < strokeWidth * 0.25) isDivider = true;
for (int i = 0; i < 16; i++) {
if (i >= uNumSections - 1) break;
dividerY += uSectionHeights[i];
if (abs(y - dividerY) < strokeWidth * 0.25) isDivider = true;
}
if (sceneSDF > -strokeWidth || isDivider) {
gl_FragColor = vec4(uStrokeColor, 1.0);
} else {
gl_FragColor = vec4(finalColor, 1.0);
} }
} }

40
app/src/lib/graph-interface/node/Node.svelte
View File

@@ -5,6 +5,7 @@
import { type Mesh } from 'three'; import { type Mesh } from 'three';
import { getGraphState } from '../graph-state.svelte'; import { getGraphState } from '../graph-state.svelte';
import { colors } from '../graph/colors.svelte'; import { colors } from '../graph/colors.svelte';
import { getNodeHeight, getParameterHeight } from '../helpers/nodeHelpers';
import NodeFrag from './Node.frag'; import NodeFrag from './Node.frag';
import NodeVert from './Node.vert'; import NodeVert from './Node.vert';
import NodeHtml from './NodeHTML.svelte'; import NodeHtml from './NodeHTML.svelte';
@@ -14,9 +15,10 @@
type Props = { type Props = {
node: NodeInstance; node: NodeInstance;
inView: boolean; inView: boolean;
z: number;
}; };
let { node = $bindable(), inView, z }: Props = $props(); let { node = $bindable(), inView }: Props = $props();
const nodeType = $derived(node.state.type!);
const isActive = $derived(graphState.activeNodeId === node.id); const isActive = $derived(graphState.activeNodeId === node.id);
const isSelected = $derived(graphState.selectedNodes.has(node.id)); const isSelected = $derived(graphState.selectedNodes.has(node.id));
@@ -29,9 +31,18 @@
: colors.outline) : colors.outline)
); );
const sectionHeights = $derived(
Object
.keys(nodeType.inputs || {})
.map(key => getParameterHeight(nodeType, key) / 10)
.filter(b => !!b)
);
let meshRef: Mesh | undefined = $state(); let meshRef: Mesh | undefined = $state();
const height = graphState.getNodeHeight(node.type); const height = getNodeHeight(node.state.type!);
const zoom = $derived(graphState.cameraPosition[2]);
$effect(() => { $effect(() => {
if (meshRef && !node.state?.mesh) { if (meshRef && !node.state?.mesh) {
@@ -39,6 +50,10 @@
graphState.updateNodePosition(node); graphState.updateNodePosition(node);
} }
}); });
const zoomValue = $derived(
(Math.log(graphState.cameraPosition[2]) - Math.log(1)) / (Math.log(40) - Math.log(1))
);
// const zoomValue = (graphState.cameraPosition[2] - 1) / 39;
</script> </script>
<T.Mesh <T.Mesh
@@ -47,7 +62,7 @@
position.y={0.8} position.y={0.8}
rotation.x={-Math.PI / 2} rotation.x={-Math.PI / 2}
bind:ref={meshRef} bind:ref={meshRef}
visible={inView && z < 7} visible={inView && zoom < 7}
> >
<T.PlaneGeometry args={[20, height]} radius={1} /> <T.PlaneGeometry args={[20, height]} radius={1} />
<T.ShaderMaterial <T.ShaderMaterial
@@ -57,14 +72,19 @@
uniforms={{ uniforms={{
uColorBright: { value: colors['layer-2'] }, uColorBright: { value: colors['layer-2'] },
uColorDark: { value: colors['layer-1'] }, uColorDark: { value: colors['layer-1'] },
uStrokeColor: { value: colors['layer-2'].clone() }, uStrokeColor: { value: colors.outline.clone() },
uStrokeWidth: { value: 1.0 }, uSectionHeights: { value: [5, 10] },
uNumSections: { value: 2 },
uWidth: { value: 20 }, uWidth: { value: 20 },
uHeight: { value: height } uHeight: { value: 200 },
uZoom: { value: 1.0 }
}} }}
uniforms.uStrokeColor.value={strokeColor.clone()} uniforms.uZoom.value={zoomValue}
uniforms.uStrokeWidth.value={(7 - z) / 3} uniforms.uHeight.value={height}
uniforms.uSectionHeights.value={sectionHeights}
uniforms.uNumSections.value={sectionHeights.length}
uniforms.uStrokeColor.value={strokeColor}
/> />
</T.Mesh> </T.Mesh>
<NodeHtml bind:node {inView} {isActive} {isSelected} {z} /> <NodeHtml bind:node {inView} {isActive} {isSelected} z={zoom} />

48
app/src/lib/graph-interface/node/NodeHeader.svelte
View File

@@ -1,7 +1,9 @@
<script lang="ts"> <script lang="ts">
import type { NodeInstance } from '@nodarium/types'; import { appSettings } from '$lib/settings/app-settings.svelte';
import type { NodeInstance, Socket } from '@nodarium/types';
import { getGraphState } from '../graph-state.svelte'; import { getGraphState } from '../graph-state.svelte';
import { createNodePath } from '../helpers/index.js'; import { createNodePath } from '../helpers/index.js';
import { getSocketPosition } from '../helpers/nodeHelpers';
const graphState = getGraphState(); const graphState = getGraphState();
@@ -14,7 +16,7 @@
graphState.setDownSocket?.({ graphState.setDownSocket?.({
node, node,
index: 0, index: 0,
position: graphState.getSocketPosition?.(node, 0) position: getSocketPosition?.(node, 0)
}); });
} }
} }
@@ -43,14 +45,35 @@
aspectRatio aspectRatio
}) })
); );
const socketId = $derived(`${node.id}-${0}`);
function getSocketType(s: Socket | null) {
if (!s) return 'unknown';
if (typeof s.index === 'string') {
return s.node.state.type?.inputs?.[s.index].type || 'unknown';
}
return s.node.state.type?.outputs?.[s.index] || 'unknown';
}
const socketType = $derived(getSocketType(graphState.activeSocket));
const hoverColor = $derived(graphState.colors.getColor(socketType));
</script> </script>
<div class="wrapper" data-node-id={node.id} data-node-type={node.type}> <div
class="wrapper"
data-node-id={node.id}
data-node-type={node.type}
style:--socket-color={hoverColor}
class:possible-socket={graphState?.possibleSocketIds.has(socketId)}
>
<div class="content"> <div class="content">
{#if appSettings.value.debug.advancedMode}
<span class="bg-white text-black! mr-2 px-1 rounded-sm opacity-30">{node.id}</span>
{/if}
{node.type.split('/').pop()} {node.type.split('/').pop()}
</div> </div>
<div <div
class="click-target" class="target"
role="button" role="button"
tabindex="0" tabindex="0"
onmousedown={handleMouseDown} onmousedown={handleMouseDown}
@@ -78,7 +101,20 @@
height: 50px; height: 50px;
} }
.click-target { .possible-socket .target::before {
content: "";
position: absolute;
width: 30px;
height: 30px;
border-radius: 100%;
box-shadow: 0px 0px 10px var(--socket-color);
background-color: var(--socket-color);
outline: solid thin var(--socket-color);
opacity: 0.7;
z-index: -10;
}
.target {
position: absolute; position: absolute;
right: 0px; right: 0px;
top: 50%; top: 50%;
@@ -89,7 +125,7 @@
border-radius: 50%; border-radius: 50%;
} }
.click-target:hover + svg path { .target:hover + svg path {
d: var(--hover-path); d: var(--hover-path);
} }

66
app/src/lib/graph-interface/node/NodeParameter.svelte
View File

@@ -1,7 +1,8 @@
<script lang="ts"> <script lang="ts">
import type { NodeInput, NodeInstance } from '@nodarium/types'; import type { NodeInput, NodeInstance, Socket } from '@nodarium/types';
import { getGraphManager, getGraphState } from '../graph-state.svelte'; import { getGraphManager, getGraphState } from '../graph-state.svelte';
import { createNodePath } from '../helpers'; import { createNodePath } from '../helpers';
import { getParameterHeight, getSocketPosition } from '../helpers/nodeHelpers';
import NodeInputEl from './NodeInput.svelte'; import NodeInputEl from './NodeInput.svelte';
type Props = { type Props = {
@@ -12,19 +13,18 @@
}; };
const graph = getGraphManager(); const graph = getGraphManager();
const graphState = getGraphState();
const graphId = graph?.id;
const elementId = `input-${Math.random().toString(36).substring(7)}`;
let { node = $bindable(), input, id, isLast }: Props = $props(); let { node = $bindable(), input, id, isLast }: Props = $props();
const inputType = $derived(node?.state?.type?.inputs?.[id]); const nodeType = $derived(node.state.type!);
const inputType = $derived(nodeType.inputs?.[id]);
const socketId = $derived(`${node.id}-${id}`); const socketId = $derived(`${node.id}-${id}`);
const isShape = $derived(input.type === 'shape' && input.external !== true); const height = $derived(getParameterHeight(nodeType, id));
const height = $derived(isShape ? 200 : 100);
const graphState = getGraphState();
const graphId = graph?.id;
const elementId = `input-${Math.random().toString(36).substring(7)}`;
function handleMouseDown(ev: MouseEvent) { function handleMouseDown(ev: MouseEvent) {
ev.preventDefault(); ev.preventDefault();
@@ -32,18 +32,18 @@
graphState.setDownSocket({ graphState.setDownSocket({
node, node,
index: id, index: id,
position: graphState.getSocketPosition?.(node, id) position: getSocketPosition(node, id)
}); });
} }
const leftBump = $derived(node.state?.type?.inputs?.[id].internal !== true); const leftBump = $derived(nodeType.inputs?.[id].internal !== true);
const cornerBottom = $derived(isLast ? 5 : 0); const cornerBottom = $derived(isLast ? 5 : 0);
const aspectRatio = 0.5; const aspectRatio = 0.5;
const path = $derived( const path = $derived(
createNodePath({ createNodePath({
depth: 6, depth: 6,
height: 18, height: 2000 / height,
y: 50.5, y: 50.5,
cornerBottom, cornerBottom,
leftBump, leftBump,
@@ -53,13 +53,24 @@
const pathHover = $derived( const pathHover = $derived(
createNodePath({ createNodePath({
depth: 7, depth: 7,
height: 20, height: 2200 / height,
y: 50.5, y: 50.5,
cornerBottom, cornerBottom,
leftBump, leftBump,
aspectRatio aspectRatio
}) })
); );
function getSocketType(s: Socket | null) {
if (!s) return 'unknown';
if (typeof s.index === 'string') {
return s.node.state.type?.inputs?.[s.index].type || 'unknown';
}
return s.node.state.type?.outputs?.[s.index] || 'unknown';
}
const socketType = $derived(getSocketType(graphState.activeSocket));
const hoverColor = $derived(graphState.colors.getColor(socketType));
</script> </script>
<div <div
@@ -67,6 +78,7 @@
data-node-type={node.type} data-node-type={node.type}
data-node-input={id} data-node-input={id}
style:height="{height}px" style:height="{height}px"
style:--socket-color={hoverColor}
class:possible-socket={graphState?.possibleSocketIds.has(socketId)} class:possible-socket={graphState?.possibleSocketIds.has(socketId)}
> >
{#key id && graphId} {#key id && graphId}
@@ -74,10 +86,6 @@
{#if inputType?.label !== ''} {#if inputType?.label !== ''}
<label for={elementId} title={input.description}>{input.label || id}</label> <label for={elementId} title={input.description}>{input.label || id}</label>
{/if} {/if}
<span
class="absolute i-[tabler--help-circle] size-4 block top-2 right-2 opacity-30"
title={JSON.stringify(input, null, 2)}
></span>
{#if inputType?.external !== true} {#if inputType?.external !== true}
<NodeInputEl {graph} {elementId} bind:node {input} {id} /> <NodeInputEl {graph} {elementId} bind:node {input} {id} />
{/if} {/if}
@@ -99,10 +107,8 @@
xmlns="http://www.w3.org/2000/svg" xmlns="http://www.w3.org/2000/svg"
viewBox="0 0 100 100" viewBox="0 0 100 100"
preserveAspectRatio="none" preserveAspectRatio="none"
style={` style:--path={`path("${path}")`}
--path: path("${path}"); style:--hover-path={`path("${pathHover}")`}
--hover-path: path("${pathHover}");
`}
> >
<path vector-effect="non-scaling-stroke"></path> <path vector-effect="non-scaling-stroke"></path>
</svg> </svg>
@@ -124,9 +130,16 @@
transform: translateY(-50%) translateX(-50%); transform: translateY(-50%) translateX(-50%);
} }
.possible-socket .target { .possible-socket .target::before {
box-shadow: 0px 0px 10px rgba(255, 255, 255, 0.5); content: "";
background-color: rgba(255, 255, 255, 0.2); position: absolute;
width: 30px;
height: 30px;
border-radius: 100%;
box-shadow: 0px 0px 10px var(--socket-color);
background-color: var(--socket-color);
outline: solid thin var(--socket-color);
opacity: 0.5;
z-index: -10; z-index: -10;
} }
@@ -136,11 +149,12 @@
.content { .content {
position: relative; position: relative;
padding: 10px 20px;
display: flex; display: flex;
flex-direction: column; flex-direction: column;
padding-inline: 20px;
height: 100%; height: 100%;
justify-content: space-around; justify-content: center;
gap: 10px;
box-sizing: border-box; box-sizing: border-box;
} }

37
app/src/lib/helpers/localState.svelte.ts
View File

@@ -1,5 +1,37 @@
import { browser } from '$app/environment'; import { browser } from '$app/environment';
function mergeRecursive<T>(current: T, initial: T): T {
if (typeof initial === 'number') {
if (typeof current === 'number') return current;
return initial;
}
if (typeof initial === 'boolean') {
if (typeof current === 'boolean') return current;
return initial;
}
if (Array.isArray(initial)) {
if (Array.isArray(current)) return current;
return initial;
}
if (typeof initial === 'object' && initial) {
const merged = initial;
if (typeof current === 'object' && current) {
for (const key of Object.keys(initial)) {
if (key in current) {
// @ts-expect-error It's safe dont worry about it
merged[key] = mergeRecursive(current[key], initial[key]);
}
}
}
return merged;
}
return current;
}
export class LocalStore<T> { export class LocalStore<T> {
value = $state<T>() as T; value = $state<T>() as T;
key = ''; key = '';
@@ -10,7 +42,10 @@ export class LocalStore<T> {
if (browser) { if (browser) {
const item = localStorage.getItem(key); const item = localStorage.getItem(key);
if (item) this.value = this.deserialize(item); if (item) {
const storedValue = this.deserialize(item);
this.value = mergeRecursive(storedValue, value);
}
} }
$effect.root(() => { $effect.root(() => {

11
app/src/lib/node-registry/debugNode.ts Normal file
View File

@@ -0,0 +1,11 @@
export const debugNode = {
id: 'max/plantarium/debug',
inputs: {
input: {
type: '*'
}
},
execute(_data: Int32Array): Int32Array {
return _data;
}
} as const;

22
app/src/lib/node-registry/node-registry-client.ts
View File

@@ -2,6 +2,7 @@ import {
type AsyncCache, type AsyncCache,
type NodeDefinition, type NodeDefinition,
NodeDefinitionSchema, NodeDefinitionSchema,
type NodeId,
type NodeRegistry type NodeRegistry
} from '@nodarium/types'; } from '@nodarium/types';
import { createLogger, createWasmWrapper } from '@nodarium/utils'; import { createLogger, createWasmWrapper } from '@nodarium/utils';
@@ -12,11 +13,19 @@ log.mute();
export class RemoteNodeRegistry implements NodeRegistry { export class RemoteNodeRegistry implements NodeRegistry {
status: 'loading' | 'ready' | 'error' = 'loading'; status: 'loading' | 'ready' | 'error' = 'loading';
private nodes: Map<string, NodeDefinition> = new Map(); private nodes: Map<string, NodeDefinition> = new Map();
private memory = new WebAssembly.Memory({ initial: 1024, maximum: 8192 });
constructor( constructor(
private url: string, private url: string,
public cache?: AsyncCache<ArrayBuffer | string> public cache?: AsyncCache<ArrayBuffer | string>,
) {} nodes?: NodeDefinition[]
) {
if (nodes?.length) {
for (const node of nodes) {
this.nodes.set(node.id, node);
}
}
}
async fetchJson(url: string, skipCache = false) { async fetchJson(url: string, skipCache = false) {
const finalUrl = `${this.url}/${url}`; const finalUrl = `${this.url}/${url}`;
@@ -163,6 +172,13 @@ export class RemoteNodeRegistry implements NodeRegistry {
} }
getAllNodes() { getAllNodes() {
return [...this.nodes.values()]; const allNodes = [...this.nodes.values()];
log.info('getting all nodes', allNodes);
return allNodes;
}
async overwriteNode(nodeId: NodeId, node: NodeDefinition) {
log.info('Overwritten node', { nodeId, node });
this.nodes.set(nodeId, node);
} }
} }

19
app/src/lib/result-viewer/Debug.svelte Normal file
View File

@@ -0,0 +1,19 @@
<script lang="ts">
import { T } from '@threlte/core';
import type { Group } from 'three';
import { updateDebugScene } from './debug';
type Props = {
debugData?: Record<number, { type: string; data: Int32Array }>;
};
let group = $state<Group>(null!);
const { debugData }: Props = $props();
$effect(() => {
if (!group || !debugData) return;
updateDebugScene(group, $state.snapshot(debugData));
});
</script>
<T.Group bind:ref={group} />

62
app/src/lib/result-viewer/Scene.svelte
View File

@@ -1,33 +1,26 @@
<script lang="ts"> <script lang="ts">
import { colors } from '$lib/graph-interface/graph/colors.svelte'; import { colors } from '$lib/graph-interface/graph/colors.svelte';
import { T, useTask, useThrelte } from '@threlte/core'; import { T, useTask, useThrelte } from '@threlte/core';
import { Grid, MeshLineGeometry, MeshLineMaterial, Text } from '@threlte/extras'; import { Grid } from '@threlte/extras';
import { import { Box3, type BufferGeometry, type Group, Mesh, MeshBasicMaterial, Vector3 } from 'three';
Box3,
type BufferGeometry,
type Group,
Mesh,
MeshBasicMaterial,
Vector3,
type Vector3Tuple
} from 'three';
import { appSettings } from '../settings/app-settings.svelte'; import { appSettings } from '../settings/app-settings.svelte';
import Camera from './Camera.svelte'; import Camera from './Camera.svelte';
import Debug from './Debug.svelte';
const { renderStage, invalidate: _invalidate } = useThrelte(); const { renderStage, invalidate: _invalidate } = useThrelte();
type Props = { type Props = {
fps: number[]; fps: number[];
lines: Vector3[][]; debugData?: Record<number, { type: string; data: Int32Array }>;
scene: Group; scene: Group;
centerCamera: boolean; centerCamera: boolean;
}; };
let { let {
lines,
centerCamera, centerCamera,
fps = $bindable(), fps = $bindable(),
scene = $bindable() scene = $bindable(),
debugData
}: Props = $props(); }: Props = $props();
let geometries = $state.raw<BufferGeometry[]>([]); let geometries = $state.raw<BufferGeometry[]>([]);
@@ -91,18 +84,12 @@
}); });
_invalidate(); _invalidate();
}); });
function getPosition(geo: BufferGeometry, i: number) {
return [
geo.attributes.position.array[i],
geo.attributes.position.array[i + 1],
geo.attributes.position.array[i + 2]
] as Vector3Tuple;
}
</script> </script>
<Camera {center} {centerCamera} /> <Camera {center} {centerCamera} />
<Debug {debugData} />
{#if appSettings.value.showGrid} {#if appSettings.value.showGrid}
<Grid <Grid
cellColor={colors['outline']} cellColor={colors['outline']}
@@ -116,35 +103,4 @@
fadeOrigin={new Vector3(0, 0, 0)} fadeOrigin={new Vector3(0, 0, 0)}
/> />
{/if} {/if}
<T.Group bind:ref={scene}></T.Group>
<T.Group>
{#if geometries}
{#each geometries as geo (geo.id)}
{#if appSettings.value.debug.showIndices}
{#each geo.attributes.position.array, i (i)}
{#if i % 3 === 0}
<Text fontSize={0.25} position={getPosition(geo, i)} />
{/if}
{/each}
{/if}
{#if appSettings.value.debug.showVertices}
<T.Points visible={true}>
<T is={geo} />
<T.PointsMaterial size={0.25} />
</T.Points>
{/if}
{/each}
{/if}
<T.Group bind:ref={scene}></T.Group>
</T.Group>
{#if appSettings.value.debug.showStemLines && lines}
{#each lines as line (line[0].x + '-' + line[0].y + '-' + '' + line[0].z)}
<T.Mesh>
<MeshLineGeometry points={line} />
<MeshLineMaterial width={0.1} color="red" depthTest={false} />
</T.Mesh>
{/each}
{/if}

41
app/src/lib/result-viewer/Viewer.svelte
View File

@@ -1,10 +1,10 @@
<script lang="ts"> <script lang="ts">
import SmallPerformanceViewer from '$lib/performance/SmallPerformanceViewer.svelte'; import SmallPerformanceViewer from '$lib/performance/SmallPerformanceViewer.svelte';
import { appSettings } from '$lib/settings/app-settings.svelte'; import { appSettings } from '$lib/settings/app-settings.svelte';
import { decodeFloat, splitNestedArray } from '@nodarium/utils'; import { splitNestedArray } from '@nodarium/utils';
import type { PerformanceStore } from '@nodarium/utils'; import type { PerformanceStore } from '@nodarium/utils';
import { Canvas } from '@threlte/core'; import { Canvas } from '@threlte/core';
import { DoubleSide, Vector3 } from 'three'; import { DoubleSide } from 'three';
import { type Group, MeshMatcapMaterial, TextureLoader } from 'three'; import { type Group, MeshMatcapMaterial, TextureLoader } from 'three';
import { createGeometryPool, createInstancedGeometryPool } from './geometryPool'; import { createGeometryPool, createInstancedGeometryPool } from './geometryPool';
import Scene from './Scene.svelte'; import Scene from './Scene.svelte';
@@ -23,6 +23,7 @@
let geometryPool: ReturnType<typeof createGeometryPool>; let geometryPool: ReturnType<typeof createGeometryPool>;
let instancePool: ReturnType<typeof createInstancedGeometryPool>; let instancePool: ReturnType<typeof createInstancedGeometryPool>;
export function updateGeometries(inputs: Int32Array[], group: Group) { export function updateGeometries(inputs: Int32Array[], group: Group) {
geometryPool = geometryPool || createGeometryPool(group, material); geometryPool = geometryPool || createGeometryPool(group, material);
instancePool = instancePool || createInstancedGeometryPool(group, material); instancePool = instancePool || createInstancedGeometryPool(group, material);
@@ -40,44 +41,16 @@
scene: Group; scene: Group;
centerCamera: boolean; centerCamera: boolean;
perf: PerformanceStore; perf: PerformanceStore;
debugData?: Record<number, { type: string; data: Int32Array }>;
}; };
let { scene = $bindable(), centerCamera, perf }: Props = $props(); let { scene = $bindable(), centerCamera, debugData, perf }: Props = $props();
let lines = $state<Vector3[][]>([]);
function createLineGeometryFromEncodedData(encodedData: Int32Array) {
const positions: Vector3[] = [];
const amount = (encodedData.length - 1) / 4;
for (let i = 0; i < amount; i++) {
const x = decodeFloat(encodedData[2 + i * 4 + 0]);
const y = decodeFloat(encodedData[2 + i * 4 + 1]);
const z = decodeFloat(encodedData[2 + i * 4 + 2]);
positions.push(new Vector3(x, y, z));
}
return positions;
}
export const update = function update(result: Int32Array) { export const update = function update(result: Int32Array) {
perf.addPoint('split-result'); perf.addPoint('split-result');
const inputs = splitNestedArray(result); const inputs = splitNestedArray(result);
perf.endPoint(); perf.endPoint();
if (appSettings.value.debug.showStemLines) {
perf.addPoint('create-lines');
lines = inputs
.map((input) => {
if (input[0] === 0) {
return createLineGeometryFromEncodedData(input);
}
})
.filter(Boolean) as Vector3[][];
perf.endPoint();
}
perf.addPoint('update-geometries'); perf.addPoint('update-geometries');
const { totalVertices, totalFaces } = updateGeometries(inputs, scene); const { totalVertices, totalFaces } = updateGeometries(inputs, scene);
@@ -89,7 +62,7 @@
}; };
</script> </script>
{#if appSettings.value.debug.showPerformancePanel} {#if appSettings.value.debug.advancedMode}
<SmallPerformanceViewer {fps} store={perf} /> <SmallPerformanceViewer {fps} store={perf} />
{/if} {/if}
@@ -97,8 +70,8 @@
<Canvas> <Canvas>
<Scene <Scene
bind:this={sceneComponent} bind:this={sceneComponent}
{lines}
{centerCamera} {centerCamera}
{debugData}
bind:scene bind:scene
bind:fps bind:fps
/> />

90
app/src/lib/result-viewer/debug.ts Normal file
View File

@@ -0,0 +1,90 @@
import { splitNestedArray } from '@nodarium/utils';
import {
BufferGeometry,
type Group,
InstancedMesh,
Line,
LineBasicMaterial,
Matrix4,
MeshBasicMaterial,
SphereGeometry,
Vector3
} from 'three';
function writePath(scene: Group, data: Int32Array): Vector3[] {
const positions: Vector3[] = [];
const f32 = new Float32Array(data.buffer);
for (let i = 2; i + 2 < f32.length; i += 4) {
const vec = new Vector3(f32[i], f32[i + 1], f32[i + 2]);
positions.push(vec);
}
// Path line
if (positions.length >= 2) {
const geometry = new BufferGeometry().setFromPoints(positions);
const line = new Line(
geometry,
new LineBasicMaterial({ color: 0xff0000, depthTest: false })
);
scene.add(line);
}
// Instanced spheres at points
if (positions.length > 0) {
const sphereGeometry = new SphereGeometry(0.05, 8, 8); // keep low-poly
const sphereMaterial = new MeshBasicMaterial({
color: 0xff0000,
depthTest: false
});
const spheres = new InstancedMesh(
sphereGeometry,
sphereMaterial,
positions.length
);
const matrix = new Matrix4();
for (let i = 0; i < positions.length; i++) {
matrix.makeTranslation(
positions[i].x,
positions[i].y,
positions[i].z
);
spheres.setMatrixAt(i, matrix);
}
spheres.instanceMatrix.needsUpdate = true;
scene.add(spheres);
}
return positions;
}
function clearGroup(group: Group) {
for (let i = group.children.length - 1; i >= 0; i--) {
const child = group.children[i];
group.remove(child);
// optional but correct: free GPU memory
// @ts-expect-error three.js runtime fields
child.geometry?.dispose?.();
// @ts-expect-error three.js runtime fields
child.material?.dispose?.();
}
}
export function updateDebugScene(
group: Group,
data: Record<number, { type: string; data: Int32Array }>
) {
clearGroup(group);
return Object.entries(data || {}).map(([, d]) => {
switch (d.type) {
case 'path':
splitNestedArray(d.data)
.forEach(p => writePath(group, p));
}
// eslint-disable-next-line @typescript-eslint/no-unused-vars
return (_g: Group) => {};
}).flat();
}

39
app/src/lib/runtime/helpers.ts Normal file
View File

@@ -0,0 +1,39 @@
export function logInt32ArrayChanges(
before: Int32Array,
after: Int32Array,
clamp = 10
): void {
if (before.length !== after.length) {
throw new Error('Arrays must have the same length');
}
let rangeStart: number | null = null;
let collected: number[] = [];
const flush = (endIndex: number) => {
if (rangeStart === null) return;
const preview = collected.slice(0, clamp);
const suffix = collected.length > clamp ? '...' : '';
console.log(
`Change ${rangeStart}-${endIndex}: [${preview.join(', ')}${suffix}]`
);
rangeStart = null;
collected = [];
};
for (let i = 0; i < before.length; i++) {
if (before[i] !== after[i]) {
if (rangeStart === null) {
rangeStart = i;
}
collected.push(after[i]);
} else {
flush(i - 1);
}
}
flush(before.length - 1);
}

405
app/src/lib/runtime/runtime-executor.ts
View File

@@ -1,3 +1,5 @@
import type { SettingsToStore } from '$lib/settings/app-settings.svelte';
import { RemoteNodeRegistry } from '@nodarium/registry';
import type { import type {
Graph, Graph,
NodeDefinition, NodeDefinition,
@@ -7,24 +9,38 @@ import type {
SyncCache SyncCache
} from '@nodarium/types'; } from '@nodarium/types';
import { import {
concatEncodedArrays,
createLogger, createLogger,
createWasmWrapper,
encodeFloat, encodeFloat,
fastHashArrayBuffer,
type PerformanceStore type PerformanceStore
} from '@nodarium/utils'; } from '@nodarium/utils';
import { DevSettingsType } from '../../routes/dev/settings.svelte';
import { logInt32ArrayChanges } from './helpers';
import type { RuntimeNode } from './types'; import type { RuntimeNode } from './types';
const log = createLogger('runtime-executor'); const log = createLogger('runtime-executor');
log.mute(); // log.mute(); // Keep logging enabled for debug info
function getValue(input: NodeInput, value?: unknown) { const remoteRegistry = new RemoteNodeRegistry('');
type WasmExecute = (outputPos: number, args: number[]) => number;
function getValue(input: NodeInput, value?: unknown): number | number[] | Int32Array {
if (value === undefined && 'value' in input) { if (value === undefined && 'value' in input) {
value = input.value; value = input.value;
} }
if (input.type === 'float') { switch (input.type) {
case 'float':
return encodeFloat(value as number); return encodeFloat(value as number);
case 'select':
return (value as number) ?? 0;
case 'vec3': {
const arr = Array.isArray(value) ? value : [];
return [0, arr.length + 1, ...arr.map(v => encodeFloat(v)), 1, 1];
}
} }
if (Array.isArray(value)) { if (Array.isArray(value)) {
@@ -40,57 +56,82 @@ function getValue(input: NodeInput, value?: unknown) {
return [0, value.length + 1, ...value, 1, 1] as number[]; return [0, value.length + 1, ...value, 1, 1] as number[];
} }
if (typeof value === 'boolean') { if (typeof value === 'boolean') return value ? 1 : 0;
return value ? 1 : 0; if (typeof value === 'number') return value;
} if (value instanceof Int32Array) return value;
if (typeof value === 'number') { throw new Error(`Unsupported input type: ${input.type}`);
return value;
}
if (value instanceof Int32Array) {
return value;
}
throw new Error(`Unknown input type ${input.type}`);
} }
export class MemoryRuntimeExecutor implements RuntimeExecutor { function compareInt32(a: Int32Array, b: Int32Array): boolean {
private definitionMap: Map<string, NodeDefinition> = new Map(); if (a.length !== b.length) return false;
for (let i = 0; i < a.length; i++) {
if (a[i] !== b[i]) return false;
}
return true;
}
export type Pointer = {
start: number;
end: number;
_title?: string;
};
private seed = Math.floor(Math.random() * 100000000); private seed = Math.floor(Math.random() * 100000000);
private debugData: Record<number, { type: string; data: Int32Array }> = {};
perf?: PerformanceStore; perf?: PerformanceStore;
constructor( constructor(
private registry: NodeRegistry, private readonly registry: NodeRegistry,
public cache?: SyncCache<Int32Array> public cache?: SyncCache<Int32Array>
) { ) {
this.cache = undefined; this.cache = undefined;
this.refreshView();
log.info('MemoryRuntimeExecutor initialized');
} }
private refreshView(): void {
this.memoryView = new Int32Array(this.memory.buffer);
log.info(`Memory view refreshed, length: ${this.memoryView.length}`);
}
public getMemory(): Int32Array {
return new Int32Array(this.memory.buffer);
}
private map = new Map<string, { definition: NodeDefinition; execute: WasmExecute }>();
private async getNodeDefinitions(graph: Graph) { private async getNodeDefinitions(graph: Graph) {
if (this.registry.status !== 'ready') { if (this.registry.status !== 'ready') {
throw new Error('Node registry is not ready'); throw new Error('Node registry is not ready');
} }
await this.registry.load(graph.nodes.map((node) => node.type)); await this.registry.load(graph.nodes.map(n => n.type));
log.info(`Loaded ${graph.nodes.length} node types from registry`);
const typeMap = new Map<string, NodeDefinition>(); for (const { type } of graph.nodes) {
for (const node of graph.nodes) { if (this.map.has(type)) continue;
if (!typeMap.has(node.type)) {
const type = this.registry.getNode(node.type); const def = this.registry.getNode(type);
if (type) { if (!def) continue;
typeMap.set(node.type, type);
log.info(`Fetching WASM for node type: ${type}`);
const buffer = await remoteRegistry.fetchArrayBuffer(`nodes/${type}.wasm`);
const wrapper = createWasmWrapper(buffer, this.memory);
this.map.set(type, {
definition: def,
execute: wrapper.execute
});
log.info(`Node type ${type} loaded and wrapped`);
} }
}
} return this.map;
return typeMap;
} }
private async addMetaData(graph: Graph) { private async addMetaData(graph: Graph) {
// First, lets check if all nodes have a definition this.nodes = await this.getNodeDefinitions(graph);
this.definitionMap = await this.getNodeDefinitions(graph); log.info(`Metadata added for ${this.nodes.size} nodes`);
const graphNodes = graph.nodes.map(node => { const graphNodes = graph.nodes.map(node => {
const n = node as RuntimeNode; const n = node as RuntimeNode;
@@ -103,55 +144,68 @@ export class MemoryRuntimeExecutor implements RuntimeExecutor {
return n; return n;
}); });
const outputNode = graphNodes.find((node) => node.type.endsWith('/output')); const outputNode = graphNodes.find(n => n.type.endsWith('/output') || n.type.endsWith('/debug'))
if (!outputNode) { ?? graphNodes[0];
throw new Error('No output node found');
}
const nodeMap = new Map( const nodeMap = new Map(graphNodes.map(n => [n.id, n]));
graphNodes.map((node) => [node.id, node])
);
// loop through all edges and assign the parent and child nodes to each node // loop through all edges and assign the parent and child nodes to each node
for (const edge of graph.edges) { for (const edge of graph.edges) {
const [parentId, /*_parentOutput*/, childId, childInput] = edge; const [parentId, /*_parentOutput*/, childId, childInput] = edge;
const parent = nodeMap.get(parentId); const parent = nodeMap.get(parentId);
const child = nodeMap.get(childId); const child = nodeMap.get(childId);
if (parent && child) { if (!parent || !child) continue;
parent.state.children.push(child); parent.state.children.push(child);
child.state.parents.push(parent); child.state.parents.push(parent);
child.state.inputNodes[childInput] = parent; child.state.inputNodes[childInput] = parent;
} }
}
const nodes = []; const nodes = new Map<number, RuntimeNode>();
// loop through all the nodes and assign each nodes its depth // loop through all the nodes and assign each nodes its depth
const stack = [outputNode]; const stack = [outputNode, ...graphNodes.filter(n => n.type.endsWith('/debug'))];
while (stack.length) { while (stack.length) {
const node = stack.pop(); const node = stack.pop()!;
if (!node) continue;
for (const parent of node.state.parents) { for (const parent of node.state.parents) {
parent.state = parent.state || {};
parent.state.depth = node.state.depth + 1; parent.state.depth = node.state.depth + 1;
stack.push(parent); stack.push(parent);
} }
nodes.push(node); nodes.set(node.id, node);
} }
return [outputNode, nodes] as const; for (const node of graphNodes) {
if (node.type.endsWith('/debug')) {
node.state = node.state || {};
const parent = node.state.parents[0];
if (parent) {
node.state.depth = parent.state.depth - 1;
parent.state.debugNode = true;
}
nodes.set(node.id, node);
}
} }
async execute(graph: Graph, settings: Record<string, unknown>) { const _nodes = [...nodes.values()];
this.perf?.addPoint('runtime');
return [outputNode, _nodes] as const;
}
private writeToMemory(value: number | number[] | Int32Array, title?: string): Pointer {
const start = this.offset;
if (typeof value === 'number') {
this.memoryView[this.offset++] = value;
} else {
this.memoryView.set(value, this.offset);
this.offset += value.length;
}
let a = performance.now(); let a = performance.now();
this.debugData = {};
// Then we add some metadata to the graph // Then we add some metadata to the graph
const [outputNode, nodes] = await this.addMetaData(graph); const [_outputNode, nodes] = await this.addMetaData(graph);
let b = performance.now();
this.perf?.addPoint('collect-metadata', b - a);
/* /*
* Here we sort the nodes into buckets, which we then execute one by one * Here we sort the nodes into buckets, which we then execute one by one
@@ -169,58 +223,75 @@ export class MemoryRuntimeExecutor implements RuntimeExecutor {
(a, b) => (b.state?.depth || 0) - (a.state?.depth || 0) (a, b) => (b.state?.depth || 0) - (a.state?.depth || 0)
); );
// here we store the intermediate results of the nodes console.log({ settings });
const results: Record<string, Int32Array> = {};
if (settings['randomSeed']) { this.printMemory();
this.seed = Math.floor(Math.random() * 100000000); const seedPtr = this.writeToMemory(this.seed, 'seed');
}
const settingPtrs = new Map<string, Pointer>(
Object.entries(settings).map((
[key, value]
) => [key as string, this.writeToMemory(value as number, `setting.${key}`)])
);
for (const node of sortedNodes) { for (const node of sortedNodes) {
const node_type = this.definitionMap.get(node.type)!; const node_type = this.nodes.get(node.type)!;
console.log('---------------');
console.log('STARTING NODE EXECUTION', node_type.definition.id + '/' + node.id);
this.printMemory();
// console.log(node_type.definition.inputs);
const inputs = Object.entries(node_type.definition.inputs || {}).map(
([key, input]) => {
// We should probably initially write this to memory
if (input.type === 'seed') {
return seedPtr;
}
const title = `${node.id}.${key}`;
// We should probably initially write this to memory
// If the input is linked to a setting, we use that value
// TODO: handle nodes which reference undefined settings
if (input.setting) {
return settingPtrs.get(input.setting)!;
}
// check if the input is connected to another node
const inputNode = node.state.inputNodes[key];
if (inputNode) {
if (this.results[inputNode.id] === undefined) {
throw new Error(
`Node ${node.type}/${node.id} is missing input from node ${inputNode.type}/${inputNode.id}`
);
}
return this.results[inputNode.id];
}
// If the value is stored in the node itself, we use that value
if (node.props?.[key] !== undefined) {
const value = getValue(input, node.props[key]);
console.log(`Writing prop for ${node.id} -> ${key} to memory`, node.props[key], value);
return this.writeToMemory(value, title);
}
return this.writeToMemory(getValue(input), title);
}
);
this.printMemory();
if (!node_type || !node.state || !node_type.execute) { if (!node_type || !node.state || !node_type.execute) {
log.warn(`Node ${node.id} has no definition`); log.warn(`Node ${node.id} has no definition`);
continue; continue;
} }
a = performance.now(); this.inputPtrs[node.id] = inputs;
const args = inputs.map(s => [s.start, s.end]).flat();
// Collect the inputs for the node console.log('ARGS', inputs);
const inputs = Object.entries(node_type.inputs || {}).map(
([key, input]) => {
if (input.type === 'seed') {
return this.seed;
}
// If the input is linked to a setting, we use that value
if (input.setting) {
return getValue(input, settings[input.setting]);
}
// check if the input is connected to another node
const inputNode = node.state.inputNodes[key];
if (inputNode) {
if (results[inputNode.id] === undefined) {
throw new Error(
`Node ${node.type} is missing input from node ${inputNode.type}`
);
}
return results[inputNode.id];
}
// If the value is stored in the node itself, we use that value
if (node.props?.[key] !== undefined) {
return getValue(input, node.props[key]);
}
return getValue(input);
}
);
b = performance.now();
this.perf?.addPoint('collected-inputs', b - a);
this.printMemory();
try { try {
a = performance.now(); a = performance.now();
const encoded_inputs = concatEncodedArrays(inputs); const encoded_inputs = concatEncodedArrays(inputs);
@@ -237,6 +308,12 @@ export class MemoryRuntimeExecutor implements RuntimeExecutor {
log.log(`Using cached value for ${node_type.id || node.id}`); log.log(`Using cached value for ${node_type.id || node.id}`);
this.perf?.addPoint('cache-hit', 1); this.perf?.addPoint('cache-hit', 1);
results[node.id] = cachedValue as Int32Array; results[node.id] = cachedValue as Int32Array;
if (node.state.debugNode && node_type.outputs) {
this.debugData[node.id] = {
type: node_type.outputs[0],
data: cachedValue
};
}
continue; continue;
} }
this.perf?.addPoint('cache-hit', 0); this.perf?.addPoint('cache-hit', 0);
@@ -245,32 +322,152 @@ export class MemoryRuntimeExecutor implements RuntimeExecutor {
log.log(`Inputs:`, inputs); log.log(`Inputs:`, inputs);
a = performance.now(); a = performance.now();
results[node.id] = node_type.execute(encoded_inputs); results[node.id] = node_type.execute(encoded_inputs);
if (node.state.debugNode && node_type.outputs) {
this.debugData[node.id] = {
type: node_type.outputs[0],
data: results[node.id]
};
}
log.log('Executed', node.type, node.id); log.log('Executed', node.type, node.id);
b = performance.now(); b = performance.now();
if (this.cache && node.id !== outputNode.id) { if (this.cache && node.id !== outputNode.id) {
this.cache.set(inputHash, results[node.id]); this.cache.set(inputHash, this.results[node.id]);
} }
this.perf?.addPoint('node/' + node_type.id, b - a); this.perf?.addPoint('node/' + node_type.id, b - a);
log.log('Result:', results[node.id]); log.log('Result:', results[node.id]);
log.groupEnd(); log.groupEnd();
} catch (e) { } catch (e) {
log.groupEnd(); console.error(`Failed to execute node ${node.type}/${node.id}`, e);
log.error(`Error executing node ${node_type.id || node.id}`, e); this.isRunning = false;
} }
} }
// return the result of the parent of the output node this.isRunning = true;
const res = results[outputNode.id]; log.info('Execution started');
if (this.cache) { try {
this.cache.size = sortedNodes.length * 2; this.offset = 0;
this.results = {};
this.inputPtrs = {};
this.allPtrs = [];
this.seed += 2;
this.refreshView();
const [outputNode, nodes] = await this.addMetaData(graph);
const sortedNodes = [...nodes].sort(
(a, b) => (b.state.depth ?? 0) - (a.state.depth ?? 0)
);
const seedPtr = this.writeToMemory(this.seed, 'seed');
const settingPtrs = new Map<string, Pointer>();
for (const [key, value] of Object.entries(settings)) {
const ptr = this.writeToMemory(value as number, `setting.${key}`);
settingPtrs.set(key, ptr);
} }
let lastNodePtr: Pointer | undefined = undefined;
for (const node of sortedNodes) {
const nodeType = this.nodes.get(node.type);
if (!nodeType) continue;
log.info(`Executing node: ${node.id} (type: ${node.type})`);
const inputs = Object.entries(nodeType.definition.inputs || {}).map(
([key, input]) => {
if (input.type === 'seed') return seedPtr;
if (input.setting) {
const ptr = settingPtrs.get(input.setting);
if (!ptr) throw new Error(`Missing setting: ${input.setting}`);
return ptr;
}
const src = node.state.inputNodes[key];
if (src) {
const res = this.results[src.id];
if (!res) {
throw new Error(`Missing input from ${src.type}/${src.id}`);
}
return res;
}
if (node.props?.[key] !== undefined) {
return this.writeToMemory(
getValue(input, node.props[key]),
`${node.id}.${key}`
);
}
return this.writeToMemory(getValue(input), `${node.id}.${key}`);
}
);
this.inputPtrs[node.id] = inputs;
const args = inputs.flatMap(p => [p.start * 4, p.end * 4]);
log.info(`Executing node ${node.type}/${node.id}`);
const memoryBefore = this.memoryView.slice(0, this.offset);
const bytesWritten = nodeType.execute(this.offset * 4, args);
this.refreshView();
const memoryAfter = this.memoryView.slice(0, this.offset);
logInt32ArrayChanges(memoryBefore, memoryAfter);
this.refreshView();
const outLen = bytesWritten >> 2;
const outputStart = this.offset;
if (
args.length === 2
&& inputs[0].end - inputs[0].start === outLen
&& compareInt32(
this.memoryView.slice(inputs[0].start, inputs[0].end),
this.memoryView.slice(outputStart, outputStart + outLen)
)
) {
this.results[node.id] = inputs[0];
this.allPtrs.push(this.results[node.id]);
log.info(`Node ${node.id} result reused input memory`);
} else {
this.results[node.id] = {
start: outputStart,
end: outputStart + outLen,
_title: `${node.id} ->`
};
this.allPtrs.push(this.results[node.id]);
this.offset += outLen;
lastNodePtr = this.results[node.id];
log.info(
`Node ${node.id} wrote result to memory: start=${outputStart}, end=${outputStart + outLen
}`
);
}
}
const res = this.results[outputNode.id] ?? lastNodePtr;
if (!res) throw new Error('Output node produced no result');
log.info(`Execution finished, output pointer: start=${res.start}, end=${res.end}`);
this.refreshView();
return this.memoryView.slice(res.start, res.end);
} catch (e) {
log.info('Execution error:', e);
console.error(e);
} finally {
this.isRunning = false;
console.log('Final Memory', [...this.memoryView.slice(0, 20)]);
this.perf?.endPoint('runtime'); this.perf?.endPoint('runtime');
log.info('Executor state reset');
}
}
return res as unknown as Int32Array; getDebugData() {
return this.debugData;
} }
getPerformanceData() { getPerformanceData() {

1
app/src/lib/runtime/types.ts
View File

@@ -5,6 +5,7 @@ type RuntimeState = {
parents: RuntimeNode[]; parents: RuntimeNode[];
children: RuntimeNode[]; children: RuntimeNode[];
inputNodes: Record<string, RuntimeNode>; inputNodes: Record<string, RuntimeNode>;
debugNode?: boolean;
}; };
export type RuntimeNode = SerializedNode & { state: RuntimeState }; export type RuntimeNode = SerializedNode & { state: RuntimeState };

7
app/src/lib/runtime/worker-runtime-executor-backend.ts
View File

@@ -1,3 +1,4 @@
import { debugNode } from '$lib/node-registry/debugNode';
import { IndexDBCache, RemoteNodeRegistry } from '$lib/node-registry/index'; import { IndexDBCache, RemoteNodeRegistry } from '$lib/node-registry/index';
import type { Graph } from '@nodarium/types'; import type { Graph } from '@nodarium/types';
import { createPerformanceStore } from '@nodarium/utils'; import { createPerformanceStore } from '@nodarium/utils';
@@ -5,7 +6,7 @@ import { MemoryRuntimeExecutor } from './runtime-executor';
import { MemoryRuntimeCache } from './runtime-executor-cache'; import { MemoryRuntimeCache } from './runtime-executor-cache';
const indexDbCache = new IndexDBCache('node-registry'); const indexDbCache = new IndexDBCache('node-registry');
const nodeRegistry = new RemoteNodeRegistry('', indexDbCache); const nodeRegistry = new RemoteNodeRegistry('', indexDbCache, [debugNode]);
const cache = new MemoryRuntimeCache(); const cache = new MemoryRuntimeCache();
const executor = new MemoryRuntimeExecutor(nodeRegistry, cache); const executor = new MemoryRuntimeExecutor(nodeRegistry, cache);
@@ -43,3 +44,7 @@ export async function executeGraph(
export function getPerformanceData() { export function getPerformanceData() {
return performanceStore.get(); return performanceStore.get();
} }
export function getDebugData() {
return executor.getDebugData();
}

7
app/src/lib/runtime/worker-runtime-executor.ts
View File

@@ -6,12 +6,15 @@ export class WorkerRuntimeExecutor implements RuntimeExecutor {
new URL(`./worker-runtime-executor-backend.ts`, import.meta.url) new URL(`./worker-runtime-executor-backend.ts`, import.meta.url)
); );
async execute(graph: Graph, settings: Record<string, unknown>) { execute(graph: Graph, settings: Record<string, unknown>) {
return this.worker.executeGraph(graph, settings); return this.worker.executeGraph(graph, settings);
} }
async getPerformanceData() { getPerformanceData() {
return this.worker.getPerformanceData(); return this.worker.getPerformanceData();
} }
getDebugData() {
return this.worker.getDebugData();
}
set useRuntimeCache(useCache: boolean) { set useRuntimeCache(useCache: boolean) {
this.worker.setUseRuntimeCache(useCache); this.worker.setUseRuntimeCache(useCache);
} }

29
app/src/lib/settings/app-settings.svelte.ts
View File

@@ -59,34 +59,9 @@ export const AppSettingTypes = {
label: 'Execute in WebWorker', label: 'Execute in WebWorker',
value: true value: true
}, },
showIndices: { advancedMode: {
type: 'boolean', type: 'boolean',
label: 'Show Indices', label: 'Advanced Mode',
value: false
},
showPerformancePanel: {
type: 'boolean',
label: 'Show Performance Panel',
value: false
},
showBenchmarkPanel: {
type: 'boolean',
label: 'Show Benchmark Panel',
value: false
},
showVertices: {
type: 'boolean',
label: 'Show Vertices',
value: false
},
showStemLines: {
type: 'boolean',
label: 'Show Stem Lines',
value: false
},
showGraphJson: {
type: 'boolean',
label: 'Show Graph Source',
value: false value: false
}, },
cache: { cache: {

6
app/src/lib/sidebar/Sidebar.svelte
View File

@@ -2,7 +2,11 @@
import { type Snippet } from 'svelte'; import { type Snippet } from 'svelte';
import { panelState as state } from './PanelState.svelte'; import { panelState as state } from './PanelState.svelte';
const { children } = $props<{ children?: Snippet }>(); let { children, open = $bindable(false) } = $props<{ children?: Snippet; open?: boolean }>();
$effect(() => {
open = !!state.activePanel.value;
});
</script> </script>
<div class="wrapper" class:visible={state.activePanel.value}> <div class="wrapper" class:visible={state.activePanel.value}>

6
app/src/lib/sidebar/panels/ActiveNodeSelected.svelte
View File

@@ -42,11 +42,13 @@
const store: Store = {}; const store: Store = {};
Object.keys(inputs).forEach((key) => { Object.keys(inputs).forEach((key) => {
if (props) { if (props) {
const value = props[key] || inputs[key].value; const value = props[key] !== undefined ? props[key] : inputs[key].value;
if (Array.isArray(value) || typeof value === 'number') { if (Array.isArray(value) || typeof value === 'number') {
store[key] = value; store[key] = value;
} else if (typeof value === 'boolean') {
store[key] = value ? 1 : 0;
} else { } else {
console.error('Wrong error'); console.error('Wrong error', { value });
} }
} }
}); });

22
app/src/routes/+page.svelte
View File

@@ -4,6 +4,7 @@
import Grid from '$lib/grid'; import Grid from '$lib/grid';
import { debounceAsyncFunction } from '$lib/helpers'; import { debounceAsyncFunction } from '$lib/helpers';
import { createKeyMap } from '$lib/helpers/createKeyMap'; import { createKeyMap } from '$lib/helpers/createKeyMap';
import { debugNode } from '$lib/node-registry/debugNode.js';
import { IndexDBCache, RemoteNodeRegistry } from '$lib/node-registry/index'; import { IndexDBCache, RemoteNodeRegistry } from '$lib/node-registry/index';
import NodeStore from '$lib/node-store/NodeStore.svelte'; import NodeStore from '$lib/node-store/NodeStore.svelte';
import PerformanceViewer from '$lib/performance/PerformanceViewer.svelte'; import PerformanceViewer from '$lib/performance/PerformanceViewer.svelte';
@@ -32,7 +33,8 @@
const { data } = $props(); const { data } = $props();
const registryCache = new IndexDBCache('node-registry'); const registryCache = new IndexDBCache('node-registry');
const nodeRegistry = new RemoteNodeRegistry('', registryCache);
const nodeRegistry = new RemoteNodeRegistry('', registryCache, [debugNode]);
const workerRuntime = new WorkerRuntimeExecutor(); const workerRuntime = new WorkerRuntimeExecutor();
const runtimeCache = new MemoryRuntimeCache(); const runtimeCache = new MemoryRuntimeCache();
const memoryRuntime = new MemoryRuntimeExecutor(nodeRegistry, runtimeCache); const memoryRuntime = new MemoryRuntimeExecutor(nodeRegistry, runtimeCache);
@@ -63,8 +65,10 @@
let activeNode = $state<NodeInstance | undefined>(undefined); let activeNode = $state<NodeInstance | undefined>(undefined);
let scene = $state<Group>(null!); let scene = $state<Group>(null!);
let sidebarOpen = $state(false);
let graphInterface = $state<ReturnType<typeof GraphInterface>>(null!); let graphInterface = $state<ReturnType<typeof GraphInterface>>(null!);
let viewerComponent = $state<ReturnType<typeof Viewer>>(); let viewerComponent = $state<ReturnType<typeof Viewer>>();
let debugData = $state<Record<number, { type: string; data: Int32Array }>>();
const manager = $derived(graphInterface?.manager); const manager = $derived(graphInterface?.manager);
async function randomGenerate() { async function randomGenerate() {
@@ -86,11 +90,6 @@
let graphSettingTypes = $state({ let graphSettingTypes = $state({
randomSeed: { type: 'boolean', value: false } randomSeed: { type: 'boolean', value: false }
}); });
$effect(() => {
if (graphSettings && graphSettingTypes) {
manager?.setSettings($state.snapshot(graphSettings));
}
});
async function update( async function update(
g: Graph, g: Graph,
@@ -104,6 +103,7 @@
if (appSettings.value.debug.useWorker) { if (appSettings.value.debug.useWorker) {
let perfData = await runtime.getPerformanceData(); let perfData = await runtime.getPerformanceData();
debugData = await runtime.getDebugData();
let lastRun = perfData?.at(-1); let lastRun = perfData?.at(-1);
if (lastRun?.total) { if (lastRun?.total) {
lastRun.runtime = lastRun.total; lastRun.runtime = lastRun.total;
@@ -162,6 +162,7 @@
bind:scene bind:scene
bind:this={viewerComponent} bind:this={viewerComponent}
perf={performanceStore} perf={performanceStore}
debugData={debugData}
centerCamera={appSettings.value.centerCamera} centerCamera={appSettings.value.centerCamera}
/> />
</Grid.Cell> </Grid.Cell>
@@ -171,6 +172,7 @@
graph={pm.graph} graph={pm.graph}
bind:this={graphInterface} bind:this={graphInterface}
registry={nodeRegistry} registry={nodeRegistry}
addMenuPadding={{ right: sidebarOpen ? 330 : undefined }}
backgroundType={appSettings.value.nodeInterface.backgroundType} backgroundType={appSettings.value.nodeInterface.backgroundType}
snapToGrid={appSettings.value.nodeInterface.snapToGrid} snapToGrid={appSettings.value.nodeInterface.snapToGrid}
bind:activeNode bind:activeNode
@@ -181,7 +183,7 @@
onresult={(result) => handleUpdate(result as Graph)} onresult={(result) => handleUpdate(result as Graph)}
/> />
{/if} {/if}
<Sidebar> <Sidebar bind:open={sidebarOpen}>
<Panel id="general" title="General" icon="i-[tabler--settings]"> <Panel id="general" title="General" icon="i-[tabler--settings]">
<NestedSettings <NestedSettings
id="general" id="general"
@@ -214,7 +216,7 @@
<Panel <Panel
id="performance" id="performance"
title="Performance" title="Performance"
hidden={!appSettings.value.debug.showPerformancePanel} hidden={!appSettings.value.debug.advancedMode}
icon="i-[tabler--brand-speedtest] bg-red-400" icon="i-[tabler--brand-speedtest] bg-red-400"
> >
{#if $performanceStore} {#if $performanceStore}
@@ -227,7 +229,7 @@
<Panel <Panel
id="graph-source" id="graph-source"
title="Graph Source" title="Graph Source"
hidden={!appSettings.value.debug.showGraphJson} hidden={!appSettings.value.debug.advancedMode}
icon="i-[tabler--code]" icon="i-[tabler--code]"
> >
<GraphSource graph={pm.graph ?? manager?.serialize()} /> <GraphSource graph={pm.graph ?? manager?.serialize()} />
@@ -235,7 +237,7 @@
<Panel <Panel
id="benchmark" id="benchmark"
title="Benchmark" title="Benchmark"
hidden={!appSettings.value.debug.showBenchmarkPanel} hidden={!appSettings.value.debug.advancedMode}
icon="i-[tabler--graph] bg-red-400" icon="i-[tabler--graph] bg-red-400"
> >
<BenchmarkPanel run={randomGenerate} /> <BenchmarkPanel run={randomGenerate} />

2
app/src/routes/dev/+layout.svelte
View File

@@ -3,6 +3,6 @@
const { children } = $props<{ children?: Snippet }>(); const { children } = $props<{ children?: Snippet }>();
</script> </script>
<main class="w-screen overflow-x-hidden"> <main class="w-screen h-screen overflow-x-hidden">
{@render children()} {@render children()}
</main> </main>

105
app/src/routes/dev/+page.svelte
View File

@@ -44,8 +44,9 @@
} }
} }
$effect(() => { let graphSettings = $state<Record<string, any>>({});
fetchNodeData(activeNode.value); let graphSettingTypes = $state({
randomSeed: { type: "boolean", value: false },
}); });
$effect(() => { $effect(() => {
@@ -61,19 +62,85 @@
}); });
</script> </script>
<div class="node-wrapper absolute bottom-8 left-8"> <svelte:window
{#if nodeInstance} bind:innerHeight={windowHeight}
<NodeHTML inView position="relative" z={5} bind:node={nodeInstance} /> onkeydown={(ev) => ev.key === "r" && handleResult()}
{/if} />
</div>
<Grid.Row> <Grid.Row>
<Grid.Cell> <Grid.Cell>
<pre> {#if visibleRows?.length}
<code> <table
{JSON.stringify(nodeInstance?.props)} class="min-w-full select-none overflow-auto text-left text-sm flex-1"
</code> onscroll={(e) => {
</pre> const scrollTop = e.currentTarget.scrollTop;
start.value = Math.floor(scrollTop / rowHeight);
}}
>
<thead class="">
<tr>
<th class="px-4 py-2 border-b border-[var(--outline)]">i</th>
<th
class="px-4 py-2 border-b border-[var(--outline)] w-[50px]"
style:width="50px">Ptrs</th
>
<th class="px-4 py-2 border-b border-[var(--outline)]">Value</th>
<th class="px-4 py-2 border-b border-[var(--outline)]">Float</th>
</tr>
</thead>
<tbody
onscroll={(e) => {
const scrollTop = e.currentTarget.scrollTop;
start.value = Math.floor(scrollTop / rowHeight);
}}
>
{#each visibleRows as r, i}
{@const index = i + start.value}
{@const ptr = ptrs[i]}
<tr class="h-[40px] odd:bg-[var(--layer-1)]">
<td class="px-4 border-b border-[var(--outline)] w-8">{index}</td>
<td
class="border-b border-[var(--outline)] overflow-hidden text-ellipsis pl-2
{ptr?._title?.includes('->')
? 'bg-red-500'
: 'bg-blue-500'}"
style="width: 100px; min-width: 100px; max-width: 100px;"
>
{ptr?._title}
</td>
<td
class="px-4 border-b border-[var(--outline)] cursor-pointer text-blue-600 hover:text-blue-800"
onclick={() =>
(rowIsFloat.value[index] = !rowIsFloat.value[index])}
>
{decodeValue(r, rowIsFloat.value[index])}
</td>
<td class="px-4 border-b border-[var(--outline)] italic w-5">
<input
type="checkbox"
checked={rowIsFloat.value[index]}
onclick={() =>
(rowIsFloat.value[index] = !rowIsFloat.value[index])}
/>
</td>
</tr>
{/each}
</tbody>
</table>
<button
onclick={() => copyVisibleMemory(visibleRows, ptrs, start.value)}
class="flex items-center cursor-pointer absolute bottom-4 left-4 z-100 bg-gray-200 px-2 py-1 rounded hover:bg-gray-300"
>
Copy Visible Memory
</button>
<input
class="absolute bottom-4 right-4 bg-white"
bind:value={start.value}
min="0"
type="number"
step="1"
/>
{/if}
</Grid.Cell> </Grid.Cell>
<Grid.Cell> <Grid.Cell>
@@ -82,6 +149,20 @@
</Grid.Row> </Grid.Row>
<Sidebar> <Sidebar>
<Panel id="general" title="General" icon="i-[tabler--settings]">
<h3 class="p-4 pb-0">Debug Settings</h3>
<NestedSettings
id="Debug"
bind:value={devSettings.value}
type={DevSettingsType}
/>
<hr />
<NestedSettings
id="general"
bind:value={appSettings.value}
type={AppSettingTypes}
/>
</Panel>
<Panel <Panel
id="node-store" id="node-store"
classes="text-green-400" classes="text-green-400"

74
app/src/routes/dev/dev-graph.json Normal file
View File

@@ -0,0 +1,74 @@
{
"settings": {
"resolution.circle": 26,
"resolution.curve": 39
},
"nodes": [
{
"id": 9,
"position": [
225,
65
],
"type": "max/plantarium/output",
"props": {
"out": 0
}
},
{
"id": 10,
"position": [
200,
60
],
"type": "max/plantarium/math",
"props": {
"op_type": 3,
"a": 2,
"b": 0.38
}
},
{
"id": 11,
"position": [
175,
60
],
"type": "max/plantarium/float",
"props": {
"value": 0.66
}
},
{
"id": 12,
"position": [
175,
80
],
"type": "max/plantarium/float",
"props": {
"value": 1
}
}
],
"edges": [
[
11,
0,
10,
"a"
],
[
12,
0,
10,
"b"
],
[
10,
0,
9,
"out"
]
]
}

48
app/src/routes/dev/helpers.ts Normal file
View File

@@ -0,0 +1,48 @@
import type { Pointer } from '$lib/runtime';
export function copyVisibleMemory(rows: Int32Array, currentPtrs: Pointer[], start: number) {
if (!rows?.length) return;
// Build an array of rows for the table
const tableRows = [...rows].map((value, i) => {
const index = start + i;
const ptr = currentPtrs[i];
return {
index,
ptr: ptr?._title ?? '',
value: value
};
});
// Compute column widths
const indexWidth = Math.max(
5,
...tableRows.map((r) => r.index.toString().length)
);
const ptrWidth = Math.max(
10,
...tableRows.map((r) => r.ptr.length)
);
const valueWidth = Math.max(
10,
...tableRows.map((r) => r.value.toString().length)
);
// Build header
let output =
`| ${'Index'.padEnd(indexWidth)} | ${'Ptr'.padEnd(ptrWidth)} | ${'Value'.padEnd(valueWidth)
} |\n`
+ `|-${'-'.repeat(indexWidth)}-|-${'-'.repeat(ptrWidth)}-|-${'-'.repeat(valueWidth)}-|\n`;
// Add rows
for (const row of tableRows) {
output += `| ${row.index.toString().padEnd(indexWidth)} | ${row.ptr.padEnd(ptrWidth)} | ${row.value.toString().padEnd(valueWidth)
} |\n`;
}
// Copy to clipboard
navigator.clipboard
.writeText(output)
.then(() => console.log('Memory + metadata copied as table'))
.catch((err) => console.error('Failed to copy memory:', err));
}

15
app/src/routes/dev/settings.svelte.ts Normal file
View File

@@ -0,0 +1,15 @@
import { localState } from '$lib/helpers/localState.svelte';
import { settingsToStore } from '$lib/settings/app-settings.svelte';
export const DevSettingsType = {
debugNode: {
type: 'boolean',
label: 'Debug Nodes',
value: true
}
} as const;
export let devSettings = localState(
'dev-settings',
settingsToStore(DevSettingsType)
);

19
app/static/favicon.svg Normal file
View File

@@ -0,0 +1,19 @@
<svg width="100" height="100" viewBox="0 0 100 100" fill="none" xmlns="http://www.w3.org/2000/svg">
<path
d="M55.2154 77.6602L52.2788 78.3944L49.2607 60.6933L52.2788 33.0404L47.6293 18.0312L45.9162 18.6838L41.6745 28.7987L31.6412 33.4483H20.2211L21.6894 24.0675L31.6412 15.9919L45.9162 15.1762L49.7501 15.9919L55.2154 32.6326L54.5628 38.5873L64.8409 33.0404L69.5721 37.69L80.1764 43.1553L84.1734 52.8624L83.113 64.1193L73.8954 61.8353L66.3092 52.4545V38.5873L64.1068 36.7112L54.155 42.4212L52.2788 60.6933L55.2154 77.6602Z"
fill="url(#paint0_linear)"
/>
<defs>
<linearGradient
id="paint0_linear"
x1="34.3903"
y1="15.1762"
x2="52.1972"
y2="78.3944"
gradientUnits="userSpaceOnUse"
>
<stop stop-color="#4CAF7B" />
<stop offset="1" stop-color="#347452" />
</linearGradient>
</defs>
</svg>
Side by Side

After

Width:  |  Height:  |  Size: 861 B

19
app/static/svelte.svg
View File

@@ -1,19 +0,0 @@
<svg
xmlns="http://www.w3.org/2000/svg"
xmlns:xlink="http://www.w3.org/1999/xlink"
aria-hidden="true"
role="img"
class="iconify iconify--logos"
width="26.6"
height="32"
preserveAspectRatio="xMidYMid meet"
viewBox="0 0 256 308"
>
<path
fill="#FF3E00"
d="M239.682 40.707C211.113-.182 154.69-12.301 113.895 13.69L42.247 59.356a82.198 82.198 0 0 0-37.135 55.056a86.566 86.566 0 0 0 8.536 55.576a82.425 82.425 0 0 0-12.296 30.719a87.596 87.596 0 0 0 14.964 66.244c28.574 40.893 84.997 53.007 125.787 27.016l71.648-45.664a82.182 82.182 0 0 0 37.135-55.057a86.601 86.601 0 0 0-8.53-55.577a82.409 82.409 0 0 0 12.29-30.718a87.573 87.573 0 0 0-14.963-66.244"
></path><path
fill="#FFF"
d="M106.889 270.841c-23.102 6.007-47.497-3.036-61.103-22.648a52.685 52.685 0 0 1-9.003-39.85a49.978 49.978 0 0 1 1.713-6.693l1.35-4.115l3.671 2.697a92.447 92.447 0 0 0 28.036 14.007l2.663.808l-.245 2.659a16.067 16.067 0 0 0 2.89 10.656a17.143 17.143 0 0 0 18.397 6.828a15.786 15.786 0 0 0 4.403-1.935l71.67-45.672a14.922 14.922 0 0 0 6.734-9.977a15.923 15.923 0 0 0-2.713-12.011a17.156 17.156 0 0 0-18.404-6.832a15.78 15.78 0 0 0-4.396 1.933l-27.35 17.434a52.298 52.298 0 0 1-14.553 6.391c-23.101 6.007-47.497-3.036-61.101-22.649a52.681 52.681 0 0 1-9.004-39.849a49.428 49.428 0 0 1 22.34-33.114l71.664-45.677a52.218 52.218 0 0 1 14.563-6.398c23.101-6.007 47.497 3.036 61.101 22.648a52.685 52.685 0 0 1 9.004 39.85a50.559 50.559 0 0 1-1.713 6.692l-1.35 4.116l-3.67-2.693a92.373 92.373 0 0 0-28.037-14.013l-2.664-.809l.246-2.658a16.099 16.099 0 0 0-2.89-10.656a17.143 17.143 0 0 0-18.398-6.828a15.786 15.786 0 0 0-4.402 1.935l-71.67 45.674a14.898 14.898 0 0 0-6.73 9.975a15.9 15.9 0 0 0 2.709 12.012a17.156 17.156 0 0 0 18.404 6.832a15.841 15.841 0 0 0 4.402-1.935l27.345-17.427a52.147 52.147 0 0 1 14.552-6.397c23.101-6.006 47.497 3.037 61.102 22.65a52.681 52.681 0 0 1 9.003 39.848a49.453 49.453 0 0 1-22.34 33.12l-71.664 45.673a52.218 52.218 0 0 1-14.563 6.398"
></path>
</svg>
Side by Side

Before

Width:  |  Height:  |  Size: 1.9 KiB

26
app/static/tauri.svg
View File

@@ -1,26 +0,0 @@
<svg width="206" height="231" viewBox="0 0 206 231" fill="none" xmlns="http://www.w3.org/2000/svg">
<path
d="M143.143 84C143.143 96.1503 133.293 106 121.143 106C108.992 106 99.1426 96.1503 99.1426 84C99.1426 71.8497 108.992 62 121.143 62C133.293 62 143.143 71.8497 143.143 84Z"
fill="#FFC131"
/>
<ellipse
cx="84.1426"
cy="147"
rx="22"
ry="22"
transform="rotate(180 84.1426 147)"
fill="#24C8DB"
/>
<path
fill-rule="evenodd"
clip-rule="evenodd"
d="M166.738 154.548C157.86 160.286 148.023 164.269 137.757 166.341C139.858 160.282 141 153.774 141 147C141 144.543 140.85 142.121 140.558 139.743C144.975 138.204 149.215 136.139 153.183 133.575C162.73 127.404 170.292 118.608 174.961 108.244C179.63 97.8797 181.207 86.3876 179.502 75.1487C177.798 63.9098 172.884 53.4021 165.352 44.8883C157.82 36.3744 147.99 30.2165 137.042 27.1546C126.095 24.0926 114.496 24.2568 103.64 27.6274C92.7839 30.998 83.1319 37.4317 75.8437 46.1553C74.9102 47.2727 74.0206 48.4216 73.176 49.5993C61.9292 50.8488 51.0363 54.0318 40.9629 58.9556C44.2417 48.4586 49.5653 38.6591 56.679 30.1442C67.0505 17.7298 80.7861 8.57426 96.2354 3.77762C111.685 -1.01901 128.19 -1.25267 143.769 3.10474C159.348 7.46215 173.337 16.2252 184.056 28.3411C194.775 40.457 201.767 55.4101 204.193 71.404C206.619 87.3978 204.374 103.752 197.73 118.501C191.086 133.25 180.324 145.767 166.738 154.548ZM41.9631 74.275L62.5557 76.8042C63.0459 72.813 63.9401 68.9018 65.2138 65.1274C57.0465 67.0016 49.2088 70.087 41.9631 74.275Z"
fill="#FFC131"
/>
<path
fill-rule="evenodd"
clip-rule="evenodd"
d="M38.4045 76.4519C47.3493 70.6709 57.2677 66.6712 67.6171 64.6132C65.2774 70.9669 64 77.8343 64 85.0001C64 87.1434 64.1143 89.26 64.3371 91.3442C60.0093 92.8732 55.8533 94.9092 51.9599 97.4256C42.4128 103.596 34.8505 112.392 30.1816 122.756C25.5126 133.12 23.9357 144.612 25.6403 155.851C27.3449 167.09 32.2584 177.598 39.7906 186.112C47.3227 194.626 57.153 200.784 68.1003 203.846C79.0476 206.907 90.6462 206.743 101.502 203.373C112.359 200.002 122.011 193.568 129.299 184.845C130.237 183.722 131.131 182.567 131.979 181.383C143.235 180.114 154.132 176.91 164.205 171.962C160.929 182.49 155.596 192.319 148.464 200.856C138.092 213.27 124.357 222.426 108.907 227.222C93.458 232.019 76.9524 232.253 61.3736 227.895C45.7948 223.538 31.8055 214.775 21.0867 202.659C10.3679 190.543 3.37557 175.59 0.949823 159.596C-1.47592 143.602 0.768139 127.248 7.41237 112.499C14.0566 97.7497 24.8183 85.2327 38.4045 76.4519ZM163.062 156.711L163.062 156.711C162.954 156.773 162.846 156.835 162.738 156.897C162.846 156.835 162.954 156.773 163.062 156.711Z"
fill="#24C8DB"
/>
</svg>
Side by Side

Before

Width:  |  Height:  |  Size: 2.6 KiB

37
app/static/vite.svg
View File

@@ -1,37 +0,0 @@
<svg
xmlns="http://www.w3.org/2000/svg"
xmlns:xlink="http://www.w3.org/1999/xlink"
aria-hidden="true"
role="img"
class="iconify iconify--logos"
width="31.88"
height="32"
preserveAspectRatio="xMidYMid meet"
viewBox="0 0 256 257"
>
<defs><linearGradient
id="IconifyId1813088fe1fbc01fb466"
x1="-.828%"
x2="57.636%"
y1="7.652%"
y2="78.411%"
><stop offset="0%" stop-color="#41D1FF"></stop><stop
offset="100%"
stop-color="#BD34FE"
></stop></linearGradient><linearGradient
id="IconifyId1813088fe1fbc01fb467"
x1="43.376%"
x2="50.316%"
y1="2.242%"
y2="89.03%"
><stop offset="0%" stop-color="#FFEA83"></stop><stop
offset="8.333%"
stop-color="#FFDD35"
></stop><stop offset="100%" stop-color="#FFA800"></stop></linearGradient></defs><path
fill="url(#IconifyId1813088fe1fbc01fb466)"
d="M255.153 37.938L134.897 252.976c-2.483 4.44-8.862 4.466-11.382.048L.875 37.958c-2.746-4.814 1.371-10.646 6.827-9.67l120.385 21.517a6.537 6.537 0 0 0 2.322-.004l117.867-21.483c5.438-.991 9.574 4.796 6.877 9.62Z"
></path><path
fill="url(#IconifyId1813088fe1fbc01fb467)"
d="M185.432.063L96.44 17.501a3.268 3.268 0 0 0-2.634 3.014l-5.474 92.456a3.268 3.268 0 0 0 3.997 3.378l24.777-5.718c2.318-.535 4.413 1.507 3.936 3.838l-7.361 36.047c-.495 2.426 1.782 4.5 4.151 3.78l15.304-4.649c2.372-.72 4.652 1.36 4.15 3.788l-11.698 56.621c-.732 3.542 3.979 5.473 5.943 2.437l1.313-2.028l72.516-144.72c1.215-2.423-.88-5.186-3.54-4.672l-25.505 4.922c-2.396.462-4.435-1.77-3.759-4.114l16.646-57.705c.677-2.35-1.37-4.583-3.769-4.113Z"
></path>
</svg>
Side by Side

Before

Width:  |  Height:  |  Size: 1.6 KiB

9
docs/DEVELOPING_NODES.md
View File

@@ -4,20 +4,19 @@ This guide will help you developing your first Nodarium Node written in Rust. As
## Prerequesites ## Prerequesites
You need to have [Rust](https://www.rust-lang.org/tools/install) and [wasm-pack](https://rustwasm.github.io/docs/wasm-pack/) installed. Rust is the language we are going to develop our node in and wasm-pack helps us compile our rust code into a webassembly file. You need to have [Rust](https://www.rust-lang.org/tools/install) installed. Rust is the language we are going to develop our node in and cargo compiles our rust code into webassembly.
```bash ```bash
# install rust # install rust
curl --proto '=https' --tlsv1.2 -sSf https://sh.rustup.rs | sh curl --proto '=https' --tlsv1.2 -sSf https://sh.rustup.rs | sh
# install wasm-pack
cargo install wasm-pack
``` ```
## Clone Template ## Clone Template
```bash ```bash
wasm-pack new my-new-node --template https://github.com/jim-fx/nodarium_template # copy the template directory
cd my-new-node cp -r nodes/max/plantarium/.template nodes/max/plantarium/my-new-node
cd nodes/max/plantarium/my-new-node
``` ```
## Setup Definition ## Setup Definition

14
nodes/max/plantarium/box/src/lib.rs
View File

@@ -1,20 +1,18 @@
use nodarium_macros::nodarium_definition_file; use nodarium_macros::nodarium_definition_file;
use nodarium_macros::nodarium_execute; use nodarium_macros::nodarium_execute;
use nodarium_utils::{ use nodarium_utils::{
encode_float, evaluate_float, geometry::calculate_normals,log, encode_float, evaluate_float, geometry::calculate_normals, wrap_arg,
split_args, wrap_arg, read_i32_slice
}; };
nodarium_definition_file!("src/input.json"); nodarium_definition_file!("src/input.json");
#[nodarium_execute] #[nodarium_execute]
pub fn execute(input: &[i32]) -> Vec<i32> { pub fn execute(size: (i32, i32)) -> Vec<i32> {
let args = split_args(input); let args = read_i32_slice(size);
log!("WASM(cube): input: {:?} -> {:?}", input, args); let size = evaluate_float(&args);
let size = evaluate_float(args[0]);
let p = encode_float(size); let p = encode_float(size);
let n = encode_float(-size); let n = encode_float(-size);
@@ -77,8 +75,6 @@ pub fn execute(input: &[i32]) -> Vec<i32> {
let res = wrap_arg(&cube_geometry); let res = wrap_arg(&cube_geometry);
log!("WASM(box): output: {:?}", res);
res res
} }

38
nodes/max/plantarium/branch/src/lib.rs
View File

@@ -1,5 +1,6 @@
use nodarium_macros::nodarium_definition_file; use nodarium_macros::nodarium_definition_file;
use nodarium_macros::nodarium_execute; use nodarium_macros::nodarium_execute;
use nodarium_utils::read_i32_slice;
use nodarium_utils::{ use nodarium_utils::{
concat_arg_vecs, evaluate_float, evaluate_int, concat_arg_vecs, evaluate_float, evaluate_int,
geometry::{ geometry::{
@@ -13,15 +14,25 @@ use std::f32::consts::PI;
nodarium_definition_file!("src/input.json"); nodarium_definition_file!("src/input.json");
#[nodarium_execute] #[nodarium_execute]
pub fn execute(input: &[i32]) -> Vec<i32> { pub fn execute(
let args = split_args(input); path: (i32, i32),
length: (i32, i32),
let paths = split_args(args[0]); thickness: (i32, i32),
offset_single: (i32, i32),
lowest_branch: (i32, i32),
highest_branch: (i32, i32),
depth: (i32, i32),
amount: (i32, i32),
resolution_curve: (i32, i32),
rotation: (i32, i32),
) -> Vec<i32> {
let arg = read_i32_slice(path);
let paths = split_args(arg.as_slice());
let mut output: Vec<Vec<i32>> = Vec::new(); let mut output: Vec<Vec<i32>> = Vec::new();
let resolution = evaluate_int(args[8]).max(4) as usize; let resolution = evaluate_int(read_i32_slice(resolution_curve).as_slice()).max(4) as usize;
let depth = evaluate_int(args[6]); let depth = evaluate_int(read_i32_slice(depth).as_slice());
let mut max_depth = 0; let mut max_depth = 0;
for path_data in paths.iter() { for path_data in paths.iter() {
@@ -40,18 +51,18 @@ pub fn execute(input: &[i32]) -> Vec<i32> {
let path = wrap_path(path_data); let path = wrap_path(path_data);
let branch_amount = evaluate_int(args[7]).max(1); let branch_amount = evaluate_int(read_i32_slice(amount).as_slice()).max(1);
let lowest_branch = evaluate_float(args[4]); let lowest_branch = evaluate_float(read_i32_slice(lowest_branch).as_slice());
let highest_branch = evaluate_float(args[5]); let highest_branch = evaluate_float(read_i32_slice(highest_branch).as_slice());
for i in 0..branch_amount { for i in 0..branch_amount {
let a = i as f32 / (branch_amount - 1).max(1) as f32; let a = i as f32 / (branch_amount - 1).max(1) as f32;
let length = evaluate_float(args[1]); let length = evaluate_float(read_i32_slice(length).as_slice());
let thickness = evaluate_float(args[2]); let thickness = evaluate_float(read_i32_slice(thickness).as_slice());
let offset_single = if i % 2 == 0 { let offset_single = if i % 2 == 0 {
evaluate_float(args[3]) evaluate_float(read_i32_slice(offset_single).as_slice())
} else { } else {
0.0 0.0
}; };
@@ -65,7 +76,8 @@ pub fn execute(input: &[i32]) -> Vec<i32> {
root_alpha + (offset_single - 0.5) * 6.0 / resolution as f32, root_alpha + (offset_single - 0.5) * 6.0 / resolution as f32,
); );
let rotation_angle = (evaluate_float(args[9]) * PI / 180.0) * i as f32; let rotation_angle =
(evaluate_float(read_i32_slice(rotation).as_slice()) * PI / 180.0) * i as f32;
// check if diration contains NaN // check if diration contains NaN
if orthogonal[0].is_nan() || orthogonal[1].is_nan() || orthogonal[2].is_nan() { if orthogonal[0].is_nan() || orthogonal[1].is_nan() || orthogonal[2].is_nan() {

6
nodes/max/plantarium/debug/.gitignore vendored Normal file
View File

@@ -0,0 +1,6 @@
/target
**/*.rs.bk
Cargo.lock
bin/
pkg/
wasm-pack.log

12
nodes/max/plantarium/debug/Cargo.toml Normal file
View File

@@ -0,0 +1,12 @@
[package]
name = "debug"
version = "0.1.0"
authors = ["Max Richter <jim-x@web.de>"]
edition = "2018"
[lib]
crate-type = ["cdylib", "rlib"]
[dependencies]
nodarium_macros = { version = "0.1.0", path = "../../../../packages/macros" }
nodarium_utils = { version = "0.1.0", path = "../../../../packages/utils" }

22
nodes/max/plantarium/debug/src/input.json Normal file
View File

@@ -0,0 +1,22 @@
{
"id": "max/plantarium/debug",
"outputs": [],
"inputs": {
"input": {
"type": "float",
"accepts": [
"*"
],
"external": true
},
"type": {
"type": "select",
"options": [
"float",
"vec3",
"geometry"
],
"internal": true
}
}
}

25
nodes/max/plantarium/debug/src/lib.rs Normal file
View File

@@ -0,0 +1,25 @@
use nodarium_macros::nodarium_definition_file;
use nodarium_macros::nodarium_execute;
use nodarium_utils::encode_float;
use nodarium_utils::evaluate_float;
use nodarium_utils::evaluate_vec3;
use nodarium_utils::read_i32;
use nodarium_utils::read_i32_slice;
nodarium_definition_file!("src/input.json");
#[nodarium_execute]
pub fn execute(input: (i32, i32), input_type: (i32, i32)) -> Vec<i32> {
let inp = read_i32_slice(input);
let t = read_i32(input_type.0);
if t == 0 {
let f = evaluate_float(inp.as_slice());
return vec![encode_float(f)];
}
if t == 1 {
let f = evaluate_vec3(inp.as_slice());
return vec![encode_float(f[0]), encode_float(f[1]), encode_float(f[2])];
}
return inp;
}

5
nodes/max/plantarium/float/Cargo.toml
View File

@@ -2,11 +2,14 @@
name = "float" name = "float"
version = "0.1.0" version = "0.1.0"
authors = ["Max Richter <jim-x@web.de>"] authors = ["Max Richter <jim-x@web.de>"]
edition = "2018" edition = "2021"
[lib] [lib]
crate-type = ["cdylib", "rlib"] crate-type = ["cdylib", "rlib"]
[profile.dev]
panic = "unwind"
[dependencies] [dependencies]
nodarium_macros = { version = "0.1.0", path = "../../../../packages/macros" } nodarium_macros = { version = "0.1.0", path = "../../../../packages/macros" }
nodarium_utils = { version = "0.1.0", path = "../../../../packages/utils" } nodarium_utils = { version = "0.1.0", path = "../../../../packages/utils" }

5
nodes/max/plantarium/float/src/lib.rs
View File

@@ -1,9 +1,10 @@
use nodarium_macros::nodarium_definition_file; use nodarium_macros::nodarium_definition_file;
use nodarium_macros::nodarium_execute; use nodarium_macros::nodarium_execute;
use nodarium_utils::read_i32;
nodarium_definition_file!("src/input.json"); nodarium_definition_file!("src/input.json");
#[nodarium_execute] #[nodarium_execute]
pub fn execute(args: &[i32]) -> Vec<i32> { pub fn execute(a: (i32, i32)) -> Vec<i32> {
args.into() vec![read_i32(a.0)]
} }

21
nodes/max/plantarium/gravity/src/lib.rs
View File

@@ -1,6 +1,7 @@
use glam::Vec3; use glam::Vec3;
use nodarium_macros::nodarium_definition_file; use nodarium_macros::nodarium_definition_file;
use nodarium_macros::nodarium_execute; use nodarium_macros::nodarium_execute;
use nodarium_utils::read_i32_slice;
use nodarium_utils::{ use nodarium_utils::{
concat_args, evaluate_float, evaluate_int, concat_args, evaluate_float, evaluate_int,
geometry::{wrap_path, wrap_path_mut}, geometry::{wrap_path, wrap_path_mut},
@@ -14,13 +15,17 @@ fn lerp_vec3(a: Vec3, b: Vec3, t: f32) -> Vec3 {
} }
#[nodarium_execute] #[nodarium_execute]
pub fn execute(input: &[i32]) -> Vec<i32> { pub fn execute(
plant: (i32, i32),
strength: (i32, i32),
curviness: (i32, i32),
depth: (i32, i32),
) -> Vec<i32> {
reset_call_count(); reset_call_count();
let args = split_args(input); let arg = read_i32_slice(plant);
let plants = split_args(arg.as_slice());
let plants = split_args(args[0]); let depth = evaluate_int(read_i32_slice(depth).as_slice());
let depth = evaluate_int(args[3]);
let mut max_depth = 0; let mut max_depth = 0;
for path_data in plants.iter() { for path_data in plants.iter() {
@@ -55,9 +60,9 @@ pub fn execute(input: &[i32]) -> Vec<i32> {
let length = direction.length(); let length = direction.length();
let curviness = evaluate_float(args[2]); let str = evaluate_float(read_i32_slice(strength).as_slice());
let strength = let curviness = evaluate_float(read_i32_slice(curviness).as_slice());
evaluate_float(args[1]) / curviness.max(0.0001) * evaluate_float(args[1]); let strength = str / curviness.max(0.0001) * str;
log!( log!(
"length: {}, curviness: {}, strength: {}", "length: {}, curviness: {}, strength: {}",

2
nodes/max/plantarium/instance/src/lib.rs
View File

@@ -13,7 +13,7 @@ pub fn execute(input: &[i32]) -> Vec<i32> {
let args = split_args(input); let args = split_args(input);
let mut inputs = split_args(args[0]); let mut inputs = split_args(args[0]);
let mut geo_data = args[1].to_vec(); let mut geo_data = read_i32_slice(geometry);
let geo = wrap_geometry_data(&mut geo_data); let geo = wrap_geometry_data(&mut geo_data);
let mut transforms: Vec<Mat4> = Vec::new(); let mut transforms: Vec<Mat4> = Vec::new();

20
nodes/max/plantarium/math/src/lib.rs
View File

@@ -1,13 +1,15 @@
use nodarium_macros::nodarium_definition_file; use nodarium_macros::nodarium_definition_file;
use nodarium_macros::nodarium_execute; use nodarium_macros::nodarium_execute;
use nodarium_utils::{ use nodarium_utils::log;
concat_args, split_args use nodarium_utils::{concat_arg_vecs, read_i32_slice};
};
#[nodarium_execute]
pub fn execute(args: &[i32]) -> Vec<i32> {
let args = split_args(args);
concat_args(vec![&[0], args[0], args[1], args[2]])
}
nodarium_definition_file!("src/input.json"); nodarium_definition_file!("src/input.json");
#[nodarium_execute]
pub fn execute(op_type: (i32, i32), a: (i32, i32), b: (i32, i32)) -> Vec<i32> {
log!("math.op {:?}", op_type);
let op = read_i32_slice(op_type);
let a_val = read_i32_slice(a);
let b_val = read_i32_slice(b);
concat_arg_vecs(vec![vec![0], op, a_val, b_val])
}

2
nodes/max/plantarium/noise/Cargo.toml
View File

@@ -2,7 +2,7 @@
name = "noise" name = "noise"
version = "0.1.0" version = "0.1.0"
authors = ["Max Richter <jim-x@web.de>"] authors = ["Max Richter <jim-x@web.de>"]
edition = "2018" edition = "2021"
[lib] [lib]
crate-type = ["cdylib", "rlib"] crate-type = ["cdylib", "rlib"]

33
nodes/max/plantarium/noise/src/lib.rs
View File

@@ -1,7 +1,8 @@
use nodarium_macros::nodarium_definition_file; use nodarium_macros::nodarium_definition_file;
use nodarium_macros::nodarium_execute; use nodarium_macros::nodarium_execute;
use nodarium_utils::read_i32_slice;
use nodarium_utils::{ use nodarium_utils::{
concat_args, evaluate_float, evaluate_int, evaluate_vec3, geometry::wrap_path_mut, concat_args, evaluate_float, evaluate_int, evaluate_vec3, geometry::wrap_path_mut, read_i32,
reset_call_count, split_args, reset_call_count, split_args,
}; };
use noise::{HybridMulti, MultiFractal, NoiseFn, OpenSimplex}; use noise::{HybridMulti, MultiFractal, NoiseFn, OpenSimplex};
@@ -13,23 +14,31 @@ fn lerp(a: f32, b: f32, t: f32) -> f32 {
} }
#[nodarium_execute] #[nodarium_execute]
pub fn execute(input: &[i32]) -> Vec<i32> { pub fn execute(
plant: (i32, i32),
scale: (i32, i32),
strength: (i32, i32),
fix_bottom: (i32, i32),
seed: (i32, i32),
directional_strength: (i32, i32),
depth: (i32, i32),
octaves: (i32, i32),
) -> Vec<i32> {
reset_call_count(); reset_call_count();
let args = split_args(input); let arg = read_i32_slice(plant);
let plants = split_args(arg.as_slice());
let scale = (evaluate_float(read_i32_slice(scale).as_slice()) * 0.1) as f64;
let strength = evaluate_float(read_i32_slice(strength).as_slice());
let fix_bottom = evaluate_float(read_i32_slice(fix_bottom).as_slice());
let plants = split_args(args[0]); let seed = read_i32(seed.0);
let scale = (evaluate_float(args[1]) * 0.1) as f64;
let strength = evaluate_float(args[2]);
let fix_bottom = evaluate_float(args[3]);
let seed = args[4][0]; let directional_strength = evaluate_vec3(read_i32_slice(directional_strength).as_slice());
let directional_strength = evaluate_vec3(args[5]); let depth = evaluate_int(read_i32_slice(depth).as_slice());
let depth = evaluate_int(args[6]); let octaves = evaluate_int(read_i32_slice(octaves).as_slice());
let octaves = evaluate_int(args[7]);
let noise_x: HybridMulti<OpenSimplex> = let noise_x: HybridMulti<OpenSimplex> =
HybridMulti::new(seed as u32 + 1).set_octaves(octaves as usize); HybridMulti::new(seed as u32 + 1).set_octaves(octaves as usize);

2
nodes/max/plantarium/output/src/inputs.json → nodes/max/plantarium/output/src/input.json
View File

@@ -5,7 +5,7 @@
"input": { "input": {
"type": "path", "type": "path",
"accepts": [ "accepts": [
"geometry" "*"
], ],
"external": true "external": true
}, },

43
nodes/max/plantarium/output/src/lib.rs
View File

@@ -1,44 +1,11 @@
use nodarium_macros::nodarium_definition_file; use nodarium_macros::nodarium_definition_file;
use nodarium_macros::nodarium_execute; use nodarium_macros::nodarium_execute;
use nodarium_utils::{ use nodarium_utils::read_i32_slice;
concat_args, evaluate_int,
geometry::{extrude_path, wrap_path},
log, split_args,
};
nodarium_definition_file!("src/inputs.json"); nodarium_definition_file!("src/input.json");
#[nodarium_execute] #[nodarium_execute]
pub fn execute(input: &[i32]) -> Vec<i32> { pub fn execute(input: (i32, i32), _res: (i32, i32)) -> Vec<i32> {
log!("WASM(output): input: {:?}", input); let inp = read_i32_slice(input);
return inp;
let args = split_args(input);
log!("WASM(output) args: {:?}", args);
assert_eq!(args.len(), 2, "Expected 2 arguments, got {}", args.len());
let inputs = split_args(args[0]);
let resolution = evaluate_int(args[1]) as usize;
log!("inputs: {}, resolution: {}", inputs.len(), resolution);
let mut output: Vec<Vec<i32>> = Vec::new();
for arg in inputs {
let arg_type = arg[2];
log!("arg_type: {}, \n {:?}", arg_type, arg,);
if arg_type == 0 {
// if this is path we need to extrude it
output.push(arg.to_vec());
let path_data = wrap_path(arg);
let geometry = extrude_path(path_data, resolution);
output.push(geometry);
continue;
}
output.push(arg.to_vec());
}
concat_args(output.iter().map(|v| v.as_slice()).collect())
} }

0
nodes/max/plantarium/random/src/definition.json → nodes/max/plantarium/random/src/input.json
View File

16
nodes/max/plantarium/random/src/lib.rs
View File

@@ -1,11 +1,17 @@
use nodarium_macros::nodarium_definition_file; use nodarium_macros::nodarium_definition_file;
use nodarium_macros::nodarium_execute; use nodarium_macros::nodarium_execute;
use nodarium_utils::{concat_args, split_args}; use nodarium_utils::concat_arg_vecs;
use nodarium_utils::read_i32_slice;
nodarium_definition_file!("src/definition.json"); nodarium_definition_file!("src/input.json");
#[nodarium_execute] #[nodarium_execute]
pub fn execute(args: &[i32]) -> Vec<i32> { pub fn execute(min: (i32, i32), max: (i32, i32), seed: (i32, i32)) -> Vec<i32> {
let args = split_args(args); nodarium_utils::log!("random execute start");
concat_args(vec![&[1], args[0], args[1], args[2]]) concat_arg_vecs(vec![
vec![1],
read_i32_slice(min),
read_i32_slice(max),
read_i32_slice(seed),
])
} }

25
nodes/max/plantarium/rotate/src/lib.rs
View File

@@ -1,23 +1,26 @@
use glam::{Mat4, Vec3}; use glam::{Mat4, Vec3};
use nodarium_macros::nodarium_definition_file; use nodarium_macros::nodarium_definition_file;
use nodarium_macros::nodarium_execute; use nodarium_macros::nodarium_execute;
use nodarium_utils::read_i32_slice;
use nodarium_utils::{ use nodarium_utils::{
concat_args, evaluate_float, evaluate_int, geometry::wrap_path_mut, log, concat_args, evaluate_float, evaluate_int, geometry::wrap_path_mut, log, split_args,
split_args,
}; };
nodarium_definition_file!("src/input.json"); nodarium_definition_file!("src/input.json");
#[nodarium_execute] #[nodarium_execute]
pub fn execute(input: &[i32]) -> Vec<i32> { pub fn execute(
plant: (i32, i32),
axis: (i32, i32),
angle: (i32, i32),
spread: (i32, i32),
) -> Vec<i32> {
log!("DEBUG args: {:?}", plant);
log!("DEBUG args: {:?}", input); let arg = read_i32_slice(plant);
let plants = split_args(arg.as_slice());
let args = split_args(input); let axis = evaluate_int(read_i32_slice(axis).as_slice()); // 0 =x, 1 = y, 2 = z
let spread = evaluate_int(read_i32_slice(spread).as_slice());
let plants = split_args(args[0]);
let axis = evaluate_int(args[1]); // 0 =x, 1 = y, 2 = z
let spread = evaluate_int(args[3]);
let output: Vec<Vec<i32>> = plants let output: Vec<Vec<i32>> = plants
.iter() .iter()
@@ -32,7 +35,7 @@ pub fn execute(input: &[i32]) -> Vec<i32> {
let path = wrap_path_mut(&mut path_data); let path = wrap_path_mut(&mut path_data);
let angle = evaluate_float(args[2]); let angle = evaluate_float(read_i32_slice(angle).as_slice());
let origin = [path.points[0], path.points[1], path.points[2]]; let origin = [path.points[0], path.points[1], path.points[2]];

19
nodes/max/plantarium/stem/src/lib.rs
View File

@@ -3,30 +3,29 @@ use nodarium_macros::nodarium_execute;
use nodarium_utils::{ use nodarium_utils::{
evaluate_float, evaluate_int, evaluate_vec3, evaluate_float, evaluate_int, evaluate_vec3,
geometry::{create_multiple_paths, wrap_multiple_paths}, geometry::{create_multiple_paths, wrap_multiple_paths},
log, reset_call_count, split_args, log, reset_call_count,
read_i32_slice, read_i32,
}; };
nodarium_definition_file!("src/input.json"); nodarium_definition_file!("src/input.json");
#[nodarium_execute] #[nodarium_execute]
pub fn execute(input: &[i32]) -> Vec<i32> { pub fn execute(origin: (i32, i32), _amount: (i32,i32), length: (i32, i32), thickness: (i32, i32), resolution_curve: (i32, i32)) -> Vec<i32> {
reset_call_count(); reset_call_count();
let args = split_args(input); let amount = evaluate_int(read_i32_slice(_amount).as_slice()) as usize;
let path_resolution = read_i32(resolution_curve.0) as usize;
let amount = evaluate_int(args[1]) as usize; log!("stem args: amount={:?}", amount);
let path_resolution = evaluate_int(args[4]) as usize;
log!("stem args: {:?}", args);
let mut stem_data = create_multiple_paths(amount, path_resolution, 1); let mut stem_data = create_multiple_paths(amount, path_resolution, 1);
let mut stems = wrap_multiple_paths(&mut stem_data); let mut stems = wrap_multiple_paths(&mut stem_data);
for stem in stems.iter_mut() { for stem in stems.iter_mut() {
let origin = evaluate_vec3(args[0]); let origin = evaluate_vec3(read_i32_slice(origin).as_slice());
let length = evaluate_float(args[2]); let length = evaluate_float(read_i32_slice(length).as_slice());
let thickness = evaluate_float(args[3]); let thickness = evaluate_float(read_i32_slice(thickness).as_slice());
let amount_points = stem.points.len() / 4; let amount_points = stem.points.len() / 4;
for i in 0..amount_points { for i in 0..amount_points {

31
nodes/max/plantarium/triangle/src/lib.rs
View File

@@ -1,21 +1,17 @@
use nodarium_macros::nodarium_definition_file; use nodarium_macros::nodarium_definition_file;
use nodarium_macros::nodarium_execute; use nodarium_macros::nodarium_execute;
use nodarium_utils::{ use nodarium_utils::read_i32_slice;
decode_float, encode_float, evaluate_int, split_args, wrap_arg, log use nodarium_utils::{decode_float, encode_float, evaluate_int, log, wrap_arg};
};
nodarium_definition_file!("src/input.json"); nodarium_definition_file!("src/input.json");
#[nodarium_execute] #[nodarium_execute]
pub fn execute(input: &[i32]) -> Vec<i32> { pub fn execute(size: (i32, i32)) -> Vec<i32> {
let size = evaluate_int(read_i32_slice(size).as_slice());
let args = split_args(input);
let size = evaluate_int(args[0]);
let decoded = decode_float(size); let decoded = decode_float(size);
let negative_size = encode_float(-decoded); let negative_size = encode_float(-decoded);
log!("WASM(triangle): input: {:?} -> {}", args[0],decoded); log!("WASM(triangle): input: {:?} -> {}", size, decoded);
// [[1,3, x, y, z, x, y,z,x,y,z]]; // [[1,3, x, y, z, x, y,z,x,y,z]];
wrap_arg(&[ wrap_arg(&[
@@ -23,7 +19,9 @@ pub fn execute(input: &[i32]) -> Vec<i32> {
3, // 3 vertices 3, // 3 vertices
1, // 1 face 1, // 1 face
// this are the indeces for the face // this are the indeces for the face
0, 2, 1, 0,
2,
1,
// //
negative_size, // x -> point 1 negative_size, // x -> point 1
0, // y 0, // y
@@ -37,9 +35,14 @@ pub fn execute(input: &[i32]) -> Vec<i32> {
0, // y 0, // y
size, // z size, // z
// this is the normal for the single face 1065353216 == 1.0f encoded is i32 // this is the normal for the single face 1065353216 == 1.0f encoded is i32
0, 1065353216, 0, 0,
0, 1065353216, 0, 1065353216,
0, 1065353216, 0, 0,
0,
1065353216,
0,
0,
1065353216,
0,
]) ])
} }

16
nodes/max/plantarium/vec3/src/lib.rs
View File

@@ -1,13 +1,17 @@
use nodarium_macros::nodarium_definition_file; use nodarium_macros::nodarium_definition_file;
use nodarium_macros::nodarium_execute; use nodarium_macros::nodarium_execute;
use nodarium_utils::{concat_args, log, split_args}; use nodarium_utils::concat_args;
use nodarium_utils::log;
use nodarium_utils::read_i32_slice;
nodarium_definition_file!("src/input.json"); nodarium_definition_file!("src/input.json");
#[nodarium_execute] #[nodarium_execute]
pub fn execute(input: &[i32]) -> Vec<i32> { pub fn execute(x: (i32, i32), y: (i32, i32), z: (i32, i32)) -> Vec<i32> {
let args = split_args(input); log!("vec3 x: {:?}", x);
log!("vec3 input: {:?}", input); concat_args(vec![
log!("vec3 args: {:?}", args); read_i32_slice(x).as_slice(),
concat_args(args) read_i32_slice(y).as_slice(),
read_i32_slice(z).as_slice(),
])
} }

3
package.json
View File

@@ -1,8 +1,9 @@
{ {
"version": "0.0.3", "version": "0.0.4",
"scripts": { "scripts": {
"postinstall": "pnpm run -r --filter 'ui' build", "postinstall": "pnpm run -r --filter 'ui' build",
"lint": "pnpm run -r --parallel lint", "lint": "pnpm run -r --parallel lint",
"qa": "pnpm lint && pnpm check && pnpm test",
"format": "pnpm dprint fmt", "format": "pnpm dprint fmt",
"format:check": "pnpm dprint check", "format:check": "pnpm dprint check",
"test": "pnpm run -r --parallel test", "test": "pnpm run -r --parallel test",

233
packages/macros/src/lib.rs
View File

@@ -6,96 +6,202 @@ use std::env;
use std::fs; use std::fs;
use std::path::Path; use std::path::Path;
use syn::parse_macro_input; use syn::parse_macro_input;
use syn::spanned::Spanned;
fn add_line_numbers(input: String) -> String { fn add_line_numbers(input: String) -> String {
return input input
.split('\n') .split('\n')
.enumerate() .enumerate()
.map(|(i, line)| format!("{:2}: {}", i + 1, line)) .map(|(i, line)| format!("{:2}: {}", i + 1, line))
.collect::<Vec<String>>() .collect::<Vec<String>>()
.join("\n"); .join("\n")
}
fn read_node_definition(file_path: &Path) -> NodeDefinition {
let project_dir = env::var("CARGO_MANIFEST_DIR").unwrap();
let full_path = Path::new(&project_dir).join(file_path);
let json_content = fs::read_to_string(&full_path).unwrap_or_else(|err| {
panic!(
"Failed to read JSON file at '{}/{}': {}",
project_dir,
file_path.to_string_lossy(),
err
)
});
serde_json::from_str(&json_content).unwrap_or_else(|err| {
panic!(
"JSON file contains invalid JSON: \n{} \n{}",
err,
add_line_numbers(json_content.clone())
)
})
} }
#[proc_macro_attribute] #[proc_macro_attribute]
pub fn nodarium_execute(_attr: TokenStream, item: TokenStream) -> TokenStream { pub fn nodarium_execute(_attr: TokenStream, item: TokenStream) -> TokenStream {
let input_fn = parse_macro_input!(item as syn::ItemFn); let input_fn = parse_macro_input!(item as syn::ItemFn);
let _fn_name = &input_fn.sig.ident; let fn_name = &input_fn.sig.ident;
let _fn_vis = &input_fn.vis; let fn_vis = &input_fn.vis;
let fn_body = &input_fn.block; let fn_body = &input_fn.block;
let inner_fn_name = syn::Ident::new(&format!("__nodarium_inner_{}", fn_name), fn_name.span());
let first_arg_ident = if let Some(syn::FnArg::Typed(pat_type)) = input_fn.sig.inputs.first() { let def: NodeDefinition = read_node_definition(Path::new("src/input.json"));
let input_count = def.inputs.as_ref().map(|i| i.len()).unwrap_or(0);
validate_signature(&input_fn.sig, input_count, &def);
let input_param_names: Vec<_> = input_fn
.sig
.inputs
.iter()
.filter_map(|arg| {
if let syn::FnArg::Typed(pat_type) = arg {
if let syn::Pat::Ident(pat_ident) = &*pat_type.pat { if let syn::Pat::Ident(pat_ident) = &*pat_type.pat {
&pat_ident.ident Some(pat_ident.ident.clone())
} else { } else {
panic!("Expected a simple identifier for the first argument"); None
} }
} else { } else {
panic!("The execute function must have at least one argument (the input slice)"); None
}
})
.collect();
let param_count = input_fn.sig.inputs.len();
let total_c_params = param_count * 2;
let arg_names: Vec<_> = (0..total_c_params)
.map(|i| syn::Ident::new(&format!("arg{i}"), input_fn.sig.span()))
.collect();
let mut tuple_args = Vec::new();
for i in 0..param_count {
let start_name = &arg_names[i * 2];
let end_name = &arg_names[i * 2 + 1];
let tuple_arg = quote! {
(#start_name, #end_name)
}; };
tuple_args.push(tuple_arg);
}
// We create a wrapper that handles the C ABI and pointer math
let expanded = quote! { let expanded = quote! {
extern "C" { extern "C" {
fn host_log_panic(ptr: *const u8, len: usize); fn __nodarium_log(ptr: *const u8, len: usize);
fn host_log(ptr: *const u8, len: usize);
} }
fn setup_panic_hook() { #[cfg(target_arch = "wasm32")]
static SET_HOOK: std::sync::Once = std::sync::Once::new(); fn init_panic_hook() {
SET_HOOK.call_once(|| { std::panic::set_hook(Box::new(|_info| {
std::panic::set_hook(Box::new(|info| { unsafe {
let msg = info.to_string(); __nodarium_log(b"PANIC\0".as_ptr(), 5);
unsafe { host_log_panic(msg.as_ptr(), msg.len()); } }
})); }));
});
} }
#[no_mangle] #[no_mangle]
pub extern "C" fn __alloc(len: usize) -> *mut i32 { pub extern "C" fn init_allocator() {
let mut buf = Vec::with_capacity(len); nodarium_utils::allocator::ALLOCATOR.init();
let ptr = buf.as_mut_ptr();
std::mem::forget(buf);
ptr
} }
#[no_mangle] #fn_vis fn #inner_fn_name(#( #input_param_names: (i32, i32) ),*) -> Vec<i32> {
pub extern "C" fn __free(ptr: *mut i32, len: usize) {
unsafe {
let _ = Vec::from_raw_parts(ptr, 0, len);
}
}
static mut OUTPUT_BUFFER: Vec<i32> = Vec::new();
#[no_mangle]
pub extern "C" fn execute(ptr: *const i32, len: usize) -> *mut i32 {
setup_panic_hook();
// 1. Convert raw pointer to slice
let input = unsafe { core::slice::from_raw_parts(ptr, len) };
// 2. Call the logic (which we define below)
let result_data: Vec<i32> = internal_logic(input);
// 3. Use the static buffer for the result
let result_len = result_data.len();
unsafe {
OUTPUT_BUFFER.clear();
OUTPUT_BUFFER.reserve(result_len + 1);
OUTPUT_BUFFER.push(result_len as i32);
OUTPUT_BUFFER.extend(result_data);
OUTPUT_BUFFER.as_mut_ptr()
}
}
fn internal_logic(#first_arg_ident: &[i32]) -> Vec<i32> {
#fn_body #fn_body
} }
#[no_mangle]
#fn_vis extern "C" fn execute(output_pos: i32, #( #arg_names: i32 ),*) -> i32 {
nodarium_utils::allocator::ALLOCATOR.init();
#[cfg(target_arch = "wasm32")]
init_panic_hook();
nodarium_utils::log!("before_fn");
let result = #inner_fn_name(
#( #tuple_args ),*
);
nodarium_utils::log!("after_fn: result_len={}", result.len());
let len_bytes = result.len() * 4;
unsafe {
let src = result.as_ptr() as *const u8;
let dst = output_pos as *mut u8;
nodarium_utils::log!("writing output_pos={:?} src={:?} len_bytes={:?}", output_pos, src, len_bytes);
dst.copy_from_nonoverlapping(src, len_bytes);
}
len_bytes as i32
}
}; };
TokenStream::from(expanded) TokenStream::from(expanded)
} }
fn validate_signature(fn_sig: &syn::Signature, expected_inputs: usize, def: &NodeDefinition) {
let param_count = fn_sig.inputs.len();
let expected_params = expected_inputs;
if param_count != expected_params {
panic!(
"Execute function has {} parameters but definition has {} inputs\n\
Definition inputs: {:?}\n\
Expected signature:\n\
pub fn execute({}) -> Vec<i32>",
param_count,
expected_inputs,
def.inputs
.as_ref()
.map(|i| i.keys().collect::<Vec<_>>())
.unwrap_or_default(),
(0..expected_inputs)
.map(|i| format!("arg{i}: (i32, i32)"))
.collect::<Vec<_>>()
.join(", ")
);
}
for (i, arg) in fn_sig.inputs.iter().enumerate() {
match arg {
syn::FnArg::Typed(pat_type) => {
let type_str = quote! { #pat_type.ty }.to_string();
let clean_type = type_str
.trim()
.trim_start_matches("_")
.trim_end_matches(".ty")
.trim()
.to_string();
if !clean_type.contains("(") && !clean_type.contains(",") {
panic!(
"Parameter {i} has type '{clean_type}' but should be a tuple (i32, i32) representing (start, end) positions in memory",
);
}
}
syn::FnArg::Receiver(_) => {
panic!("Execute function cannot have 'self' parameter");
}
}
}
match &fn_sig.output {
syn::ReturnType::Type(_, ty) => {
let is_vec = match &**ty {
syn::Type::Path(tp) => tp
.path
.segments
.first()
.map(|seg| seg.ident == "Vec")
.unwrap_or(false),
_ => false,
};
if !is_vec {
panic!("Execute function must return Vec<i32>");
}
}
syn::ReturnType::Default => {
panic!("Execute function must return Vec<i32>");
}
}
}
#[proc_macro] #[proc_macro]
pub fn nodarium_definition_file(input: TokenStream) -> TokenStream { pub fn nodarium_definition_file(input: TokenStream) -> TokenStream {
let path_lit = syn::parse_macro_input!(input as syn::LitStr); let path_lit = syn::parse_macro_input!(input as syn::LitStr);
@@ -105,30 +211,23 @@ pub fn nodarium_definition_file(input: TokenStream) -> TokenStream {
let full_path = Path::new(&project_dir).join(&file_path); let full_path = Path::new(&project_dir).join(&file_path);
let json_content = fs::read_to_string(&full_path).unwrap_or_else(|err| { let json_content = fs::read_to_string(&full_path).unwrap_or_else(|err| {
panic!("Failed to read JSON file at '{}/{}': {}", project_dir, file_path, err) panic!("Failed to read JSON file at '{project_dir}/{file_path}': {err}",)
}); });
let _: NodeDefinition = serde_json::from_str(&json_content).unwrap_or_else(|err| { let _: NodeDefinition = serde_json::from_str(&json_content).unwrap_or_else(|err| {
panic!("JSON file contains invalid JSON: \n{} \n{}", err, add_line_numbers(json_content.clone())) panic!(
"JSON file contains invalid JSON: \n{} \n{}",
err,
add_line_numbers(json_content.clone())
)
}); });
// We use the span from the input path literal
let bytes = syn::LitByteStr::new(json_content.as_bytes(), path_lit.span()); let bytes = syn::LitByteStr::new(json_content.as_bytes(), path_lit.span());
let len = json_content.len(); let len = json_content.len();
let expanded = quote! { let expanded = quote! {
#[link_section = "nodarium_definition"] #[link_section = "nodarium_definition"]
static DEFINITION_DATA: [u8; #len] = *#bytes; static DEFINITION_DATA: [u8; #len] = *#bytes;
#[no_mangle]
pub extern "C" fn get_definition_ptr() -> *const u8 {
DEFINITION_DATA.as_ptr()
}
#[no_mangle]
pub extern "C" fn get_definition_len() -> usize {
DEFINITION_DATA.len()
}
}; };
TokenStream::from(expanded) TokenStream::from(expanded)

2
packages/types/package.json
View File

@@ -1,6 +1,6 @@
{ {
"name": "@nodarium/types", "name": "@nodarium/types",
"version": "0.0.3", "version": "0.0.5",
"description": "", "description": "",
"main": "src/index.ts", "main": "src/index.ts",
"scripts": { "scripts": {

10
packages/types/src/inputs.ts
View File

@@ -9,6 +9,7 @@ const DefaultOptionsSchema = z.object({
accepts: z accepts: z
.array( .array(
z.union([ z.union([
z.literal('*'),
z.literal('float'), z.literal('float'),
z.literal('integer'), z.literal('integer'),
z.literal('boolean'), z.literal('boolean'),
@@ -89,6 +90,12 @@ export const NodeInputPathSchema = z.object({
value: z.array(z.number()).optional() value: z.array(z.number()).optional()
}); });
export const NodeInputAnySchema = z.object({
...DefaultOptionsSchema.shape,
type: z.literal('*'),
value: z.any().optional()
});
export const NodeInputSchema = z.union([ export const NodeInputSchema = z.union([
NodeInputSeedSchema, NodeInputSeedSchema,
NodeInputBooleanSchema, NodeInputBooleanSchema,
@@ -100,7 +107,8 @@ export const NodeInputSchema = z.union([
NodeInputSeedSchema, NodeInputSeedSchema,
NodeInputVec3Schema, NodeInputVec3Schema,
NodeInputGeometrySchema, NodeInputGeometrySchema,
NodeInputPathSchema NodeInputPathSchema,
NodeInputAnySchema
]); ]);
export type NodeInput = z.infer<typeof NodeInputSchema>; export type NodeInput = z.infer<typeof NodeInputSchema>;

4
packages/types/src/types.ts
View File

@@ -21,7 +21,7 @@ export type NodeRuntimeState = {
parents?: NodeInstance[]; parents?: NodeInstance[];
children?: NodeInstance[]; children?: NodeInstance[];
inputNodes?: Record<string, NodeInstance>; inputNodes?: Record<string, NodeInstance>;
type?: NodeDefinition; type?: NodeDefinition; // we should probably remove this and rely on registry.getNode(nodeType)
downX?: number; downX?: number;
downY?: number; downY?: number;
x?: number; x?: number;
@@ -65,7 +65,7 @@ export const NodeSchema = z.object({
export type SerializedNode = z.infer<typeof NodeSchema>; export type SerializedNode = z.infer<typeof NodeSchema>;
export type NodeDefinition = z.infer<typeof NodeDefinitionSchema> & { export type NodeDefinition = z.infer<typeof NodeDefinitionSchema> & {
execute(input: Int32Array): Int32Array; execute(outputPos: number, args: number[]): number;
}; };
export type Socket = { export type Socket = {

2
packages/ui/package.json
View File

@@ -1,6 +1,6 @@
{ {
"name": "@nodarium/ui", "name": "@nodarium/ui",
"version": "0.0.3", "version": "0.0.5",
"scripts": { "scripts": {
"dev": "vite", "dev": "vite",
"build": "vite build && npm run package", "build": "vite build && npm run package",

11
packages/ui/src/lib/app.css
View File

@@ -3,10 +3,10 @@
prefix: "i"; prefix: "i";
} }
@source inline("{hover:,}{bg-,outline-,text-,}layer-0"); @source inline("{hover:,}{bg-,outline-,text-,}layer-0{/30,/50,}");
@source inline("{hover:,}{bg-,outline-,text-,}layer-1"); @source inline("{hover:,}{bg-,outline-,text-,}layer-1{/30,/50,}");
@source inline("{hover:,}{bg-,outline-,text-,}layer-2"); @source inline("{hover:,}{bg-,outline-,text-,}layer-2{/30,/50,}");
@source inline("{hover:,}{bg-,outline-,text-,}layer-3"); @source inline("{hover:,}{bg-,outline-,text-,}layer-3{/30,/50,}");
@source inline("{hover:,}{bg-,outline-,text-,}active"); @source inline("{hover:,}{bg-,outline-,text-,}active");
@source inline("{hover:,}{bg-,outline-,text-,}selected"); @source inline("{hover:,}{bg-,outline-,text-,}selected");
@source inline("{hover:,}{bg-,outline-,text-,}outline{!,}"); @source inline("{hover:,}{bg-,outline-,text-,}outline{!,}");
@@ -80,6 +80,7 @@ html {
--neutral-100: #e7e7e7; --neutral-100: #e7e7e7;
--neutral-200: #cecece; --neutral-200: #cecece;
--neutral-300: #7c7c7c; --neutral-300: #7c7c7c;
--neutral-350: #808080;
--neutral-400: #2d2d2d; --neutral-400: #2d2d2d;
--neutral-500: #171717; --neutral-500: #171717;
--neutral-800: #111111; --neutral-800: #111111;
@@ -107,7 +108,7 @@ body {
html.theme-light { html.theme-light {
--color-text: var(--neutral-800); --color-text: var(--neutral-800);
--color-outline: var(--neutral-300); --color-outline: var(--neutral-350);
--color-layer-0: var(--neutral-050); --color-layer-0: var(--neutral-050);
--color-layer-1: var(--neutral-100); --color-layer-1: var(--neutral-100);
--color-layer-2: var(--neutral-200); --color-layer-2: var(--neutral-200);

4
packages/ui/src/lib/inputs/InputNumber.svelte
View File

@@ -126,7 +126,7 @@
<button <button
aria-label="step down" aria-label="step down"
onmousedown={stepDown} onmousedown={stepDown}
class="cursor-pointer w-4 bg-layer-3 opacity-30 hover:opacity-50" class="cursor-pointer w-4 bg-layer-3/30 hover:bg-layer-3/50"
> >
<span class="i-[tabler--chevron-compact-left] block h-full w-full text-outline!"></span> <span class="i-[tabler--chevron-compact-left] block h-full w-full text-outline!"></span>
</button> </button>
@@ -161,7 +161,7 @@
<button <button
aria-label="step up" aria-label="step up"
onmousedown={stepUp} onmousedown={stepUp}
class="cursor-pointer w-4 bg-layer-3 opacity-30 hover:opacity-50" class="cursor-pointer w-4 bg-layer-3/30 hover:bg-layer-3/50"
> >
<span class="i-[tabler--chevron-compact-right] block h-full w-full text-outline!"></span> <span class="i-[tabler--chevron-compact-right] block h-full w-full text-outline!"></span>
</button> </button>

2
packages/ui/src/routes/+page.svelte
View File

@@ -73,7 +73,7 @@
<InputCheckbox bind:value={mirrorShape} /> <InputCheckbox bind:value={mirrorShape} />
<p>mirror</p> <p>mirror</p>
</label> </label>
<p>{JSON.stringify(points)}</p> <p class="max-w-full overflow-hidden">{JSON.stringify(points)}</p>
{/snippet} {/snippet}
<div style:width="300px"> <div style:width="300px">
<InputShape bind:value={points} mirror={mirrorShape} /> <InputShape bind:value={points} mirror={mirrorShape} />

2
packages/ui/src/routes/Section.svelte
View File

@@ -12,7 +12,7 @@
<section class="border-outline border-1/2 bg-layer-1 rounded border mb-4 p-4 flex flex-col gap-4 {_class}"> <section class="border-outline border-1/2 bg-layer-1 rounded border mb-4 p-4 flex flex-col gap-4 {_class}">
<h3 class="flex gap-2 font-bold"> <h3 class="flex gap-2 font-bold">
{title} {title}
<div class="flex gap-4 w-full font-normal opacity-50 max-w-[75%] whitespace-pre overflow-hidden text-clip"> <div class="flex gap-4 w-full font-normal opacity-50 max-w-[75%]">
{#if header} {#if header}
{@render header()} {@render header()}
{:else} {:else}

4
packages/utils/Cargo.toml
View File

@@ -9,6 +9,10 @@ description = "A collection of utilities for Nodarium"
[lib] [lib]
crate-type = ["rlib"] crate-type = ["rlib"]
[features]
default = ["std"]
std = []
[dependencies] [dependencies]
glam = "0.30.10" glam = "0.30.10"
noise = "0.9.0" noise = "0.9.0"

5
packages/utils/package.json
View File

@@ -1,8 +1,9 @@
{ {
"name": "@nodarium/utils", "name": "@nodarium/utils",
"version": "0.0.3", "version": "0.0.5",
"description": "", "description": "",
"main": "src/index.ts", "main": "./src/index.ts",
"type": "module",
"scripts": { "scripts": {
"test": "vitest", "test": "vitest",
"format": "dprint fmt -c '../../.dprint.jsonc' .", "format": "dprint fmt -c '../../.dprint.jsonc' .",

68
packages/utils/src/allocator.rs Normal file
View File

@@ -0,0 +1,68 @@
use core::alloc::{GlobalAlloc, Layout};
use core::sync::atomic::{AtomicUsize, Ordering};
extern "C" {
fn __wasm_memory_size() -> usize;
fn __nodarium_manual_end() -> usize;
}
#[allow(dead_code)]
const WASM_PAGE_SIZE: usize = 64 * 1024;
pub struct UpwardBumpAllocator {
heap_base: AtomicUsize,
}
impl Default for UpwardBumpAllocator {
fn default() -> Self {
Self::new()
}
}
impl UpwardBumpAllocator {
pub const fn new() -> Self {
Self {
heap_base: AtomicUsize::new(0),
}
}
#[allow(dead_code)]
pub fn init(&self) {
// Start heap at 10000 to leave space for data sections
self.heap_base.store(10000, Ordering::Relaxed);
}
}
#[global_allocator]
pub static ALLOCATOR: UpwardBumpAllocator = UpwardBumpAllocator::new();
unsafe impl GlobalAlloc for UpwardBumpAllocator {
unsafe fn alloc(&self, layout: Layout) -> *mut u8 {
let align = layout.align();
let size = layout.size();
let mut current = self.heap_base.load(Ordering::Relaxed);
loop {
let aligned = (current + align - 1) & !(align - 1);
let new_current = aligned + size;
let manual_end = unsafe { __nodarium_manual_end() };
if new_current > manual_end {
return core::ptr::null_mut();
}
match self.heap_base.compare_exchange(
current,
new_current,
Ordering::SeqCst,
Ordering::Relaxed,
) {
Ok(_) => return aligned as *mut u8,
Err(next) => current = next,
}
}
}
unsafe fn dealloc(&self, _: *mut u8, _: Layout) {}
}

Some files were not shown because too many files have changed in this diff Show More