Files
thejayman77 a47897e7b1 zen: UB base loop → Swim1_norm (gentle in-place swim, not the static Idle)
Idle is a resting pose (only eye/mouth/fin micro-motion). Swapped the base loop to
Swim1_norm — a ~2.5s swim cycle with ZERO root drift (verified via trim-clip.mjs), so
UB undulates continuously without traveling off-screen. Generalized the trimmer
(tools/glb-split/trim-clip.mjs: extract any [start,end] range, rebased to 0, + drift report).

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-07-01 19:21:55 -04:00

57 lines
2.5 KiB
JavaScript

// Extract ONE clip [tStart,tEnd] (seconds) from a GLB's baked Take, rebased to start at 0,
// and report the root joint's net translation over the clip (so we know if a swim cycle
// drifts the fish through space vs. swims in place). Usage:
// node trim-clip.mjs in.glb out.glb 3.667 6.167
import { NodeIO } from '@gltf-transform/core';
import { ALL_EXTENSIONS } from '@gltf-transform/extensions';
import { prune } from '@gltf-transform/functions';
const [, , inPath, outPath, s0, s1] = process.argv;
const tStart = parseFloat(s0), tEnd = parseFloat(s1), EPS = 1e-4;
const io = new NodeIO().registerExtensions(ALL_EXTENSIONS);
const doc = await io.read(inPath);
const root = doc.getRoot();
// Pass 1: per unique input, find the kept index window + rebase times to 0.
const win = new Map(); // input -> {a,b}
for (const anim of root.listAnimations())
for (const sm of anim.listSamplers()) {
const input = sm.getInput();
if (win.has(input)) continue;
const t = input.getArray();
let a = 0; while (a < t.length - 1 && t[a] < tStart - EPS) a++;
let b = t.length - 1; while (b > a && t[b] > tEnd + EPS) b--;
win.set(input, { a, b });
const base = t[a];
input.setArray(t.slice(a, b + 1).map((x) => x - base));
}
// Pass 2: slice each output to its input's window.
for (const anim of root.listAnimations())
for (const sm of anim.listSamplers()) {
const { a, b } = win.get(sm.getInput());
const out = sm.getOutput();
const c = out.getElementSize();
out.setArray(out.getArray().slice(a * c, (b + 1) * c));
}
// Report root-joint translation drift over the clip (first joint's translation track).
const skin = root.listSkins()[0];
const rootJoint = skin?.listJoints()[0];
let drift = 'n/a';
if (rootJoint) {
for (const anim of root.listAnimations())
for (const ch of anim.listChannels()) {
if (ch.getTargetNode() === rootJoint && ch.getTargetPath() === 'translation') {
const o = ch.getSampler().getOutput().getArray();
const n = o.length / 3;
const dx = o[(n - 1) * 3] - o[0], dy = o[(n - 1) * 3 + 1] - o[1], dz = o[(n - 1) * 3 + 2] - o[2];
drift = `Δ[${dx.toFixed(4)}, ${dy.toFixed(4)}, ${dz.toFixed(4)}] (model units)`;
}
}
}
await doc.transform(prune());
await io.write(outPath, doc);
const a = root.listAnimations()[0];
let tmax = 0; for (const ch of a.listChannels()) { const arr = ch.getSampler().getInput().getArray(); tmax = Math.max(tmax, arr[arr.length - 1]); }
console.log(`wrote ${outPath} | clip duration ${tmax.toFixed(2)}s | root drift ${drift}`);