- Refaktor: overlap-kjerne flyttet til scripts/kb-eval/lib/sibling-overlap.mjs (bryter sirkulær import eval.mjs<->detect); detect re-eksporterer → B1-tester urørt - K10 = søsken-scope-ikke-overlapp, deterministisk cross-skill: perSkillSiblingOverlap + attachSiblingOverlap i eval.mjs. combined = boundaryTension + df-vektet leksikalsk; per-skill verdikt = verste søskenpar; terskel 7.0 (naturlig gap 7.42→6.67) - Empirisk (alle 5): eng+infra FAIL (7.42 mot hverandre), advisor/gov/sec PASS → eng↔infra-signal mater B3 merge/saner (ikke blokkering) - Gated baseline-regen via --write (descriptions urørt → judge K1/K4/K7/K8/K9 merget uendret, ikke fabrikkert); rubric K1-K10 - TDD: +9 tester (tests/kb-eval/test-k10-sibling-overlap.test.mjs), kb-eval 31→40 - 0 skriving til skills/. Suiter: validate 239 · kb-update 122 · kb-integrity 192/192
180 lines
7.4 KiB
JavaScript
180 lines
7.4 KiB
JavaScript
// sibling-overlap.mjs — shared deterministic overlap core for the skill rubric.
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//
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// Extracted from detect-skill-lifecycle.mjs (Sesjon 15 / B2) so BOTH the B1
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// detector and eval.mjs can use the same overlap mechanics without a circular
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// import (detect already imports from eval.mjs; eval.mjs now needs the overlap
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// core, so it lives here and both import it).
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//
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// Two deterministic signals, combined per skill pair:
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// (1) boundary-tension graph — operator-curated k1-trigger-prompts.json:
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// each out_of_domain entry is a sibling prompt tagged belongs_to=<skill>,
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// a hand-labelled "confusable neighbour". Symmetric counts = how much two
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// skills sit on each other's trigger boundary.
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// (2) df-weighted lexical trigger-surface overlap — shared content tokens
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// between two descriptions, each weighted 1/df so domain-common vocabulary
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// ("azure") contributes little and distinctive shared tokens contribute more.
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// combined = boundaryTension + weightedScore.
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//
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// K10 (B2): perSkillSiblingOverlap maps the pairwise combined scores to a
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// per-skill verdict — a skill's K10 is its worst sibling pair; it FAILS when
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// that exceeds the rubric threshold. This is the bar B3 merge/sanitize rests on.
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//
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// Zero dependencies — pure functions only (no fs/path). Inputs are passed in.
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// Operator-designated B1 focus boundary (Azure-deployment: build <-> operate).
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export const FOCUS_PAIR = ['ms-ai-engineering', 'ms-ai-infrastructure'];
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// K10 rubric threshold — a skill FAILS sibling-scope-non-overlap when its worst
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// sibling pair's combined score is at or above this. Set in the natural
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// distribution gap (7.42 -> 6.67) just below the operator-designated eng<->infra
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// boundary, so exactly that pair is surfaced as the B3 merge/sanitize signal.
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export const K10_OVERLAP_THRESHOLD = 7.0;
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// Function words (no + en) of length >= 3. Tokens < 3 chars are dropped anyway,
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// so this list only needs the longer connectives. Domain nouns are NOT here —
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// df-weighting handles common domain vocabulary instead.
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const STOPWORDS = new Set([
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'the', 'and', 'for', 'with', 'between', 'before', 'not', 'are', 'that', 'this',
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'into', 'over', 'per', 'use', 'used', 'when', 'which', 'how', 'via', 'from',
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'eller', 'som', 'til', 'med', 'mot', 'ved', 'for', 'har', 'kan', 'ikke', 'der',
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'det', 'den', 'ein', 'eit', 'sin',
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// description-format boilerplate (every skill ends with "Triggers on:")
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'triggers', 'trigger',
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]);
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/** Lowercase, split on non-alphanumeric, drop stopwords + tokens < 3 chars. */
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export function tokenize(text) {
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return (text.toLowerCase().match(/[a-z0-9æøå]+/g) || [])
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.filter((w) => w.length >= 3 && !STOPWORDS.has(w));
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}
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/** Trigger surface of a description: quoted phrases + content-token set. */
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export function extractTriggerSurface(description) {
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const phrases = (description.match(/"([^"]+)"/g) || []).map((p) => p.slice(1, -1));
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return { phrases, tokens: new Set(tokenize(description)) };
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}
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/** token -> number of skill-surfaces that contain it. */
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export function buildDocumentFrequency(surfaces) {
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const df = new Map();
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for (const s of surfaces) {
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for (const t of s.tokens) df.set(t, (df.get(t) || 0) + 1);
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}
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return df;
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}
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/** Order-independent pair key. */
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export function pairKey(a, b) {
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return [a, b].sort().join('|');
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}
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/** Lexical overlap between two surfaces, df-weighted. */
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export function lexicalOverlap(surfaceA, surfaceB, df) {
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const shared = [];
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for (const t of surfaceA.tokens) if (surfaceB.tokens.has(t)) shared.push(t);
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shared.sort();
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const union = new Set([...surfaceA.tokens, ...surfaceB.tokens]).size;
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const jaccard = union > 0 ? shared.length / union : 0;
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let weightedScore = 0;
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for (const t of shared) weightedScore += 1 / (df.get(t) || 1);
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return {
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shared,
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jaccard: Number(jaccard.toFixed(4)),
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weightedScore: Number(weightedScore.toFixed(4)),
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};
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}
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/**
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* Symmetric boundary-tension matrix from the curated prompt set.
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* Counts out_of_domain entries whose belongs_to is one of the real skills
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* (controls / out-of-stack entries are ignored). Keyed by pairKey.
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*/
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export function boundaryTensionMatrix(promptSet) {
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const skills = Object.keys(promptSet).filter((k) => k !== '_meta');
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const skillSet = new Set(skills);
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const m = {};
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for (const s of skills) {
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for (const e of promptSet[s].out_of_domain || []) {
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const b = e && e.belongs_to;
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if (!skillSet.has(b) || b === s) continue;
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const k = pairKey(s, b);
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m[k] = (m[k] || 0) + 1;
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}
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}
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return m;
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}
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/**
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* Pure core: given { skill -> description } and the curated prompt set, compute
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* the overlap report section. combined = boundaryTension + weightedScore
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* (operator-grounded primary signal + distinctive-lexical corroboration).
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*/
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export function computeOverlapFromInputs(descriptionsBySkill, promptSet) {
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const skills = Object.keys(descriptionsBySkill).sort();
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const surfaces = {};
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for (const s of skills) surfaces[s] = extractTriggerSurface(descriptionsBySkill[s]);
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const df = buildDocumentFrequency(Object.values(surfaces));
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const tension = boundaryTensionMatrix(promptSet);
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const pairs = [];
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for (let i = 0; i < skills.length; i++) {
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for (let j = i + 1; j < skills.length; j++) {
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const a = skills[i];
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const b = skills[j];
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const key = pairKey(a, b);
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const lexical = lexicalOverlap(surfaces[a], surfaces[b], df);
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const boundaryTension = tension[key] || 0;
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const combined = Number((boundaryTension + lexical.weightedScore).toFixed(4));
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pairs.push({ pair: [a, b], key, boundaryTension, lexical, combined });
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}
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}
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// sort by combined desc, then key asc for stable ties
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pairs.sort((x, y) => y.combined - x.combined || x.key.localeCompare(y.key));
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const focusKey = pairKey(...FOCUS_PAIR);
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const focusPair = pairs.find((p) => p.key === focusKey) || null;
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return {
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method:
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'deterministic: (1) operator-curated boundary-tension (k1-trigger-prompts belongs_to), ' +
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'(2) df-weighted lexical trigger-surface overlap. combined = boundaryTension + weightedScore.',
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focusPairReason:
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'Azure-deployment boundary engineering(build) <-> infrastructure(operate) — operator-designated B1 target.',
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pairs,
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focusPair,
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};
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}
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/**
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* K10 — sibling-scope-non-overlap, per skill.
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*
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* Maps the pairwise `combined` scores (from computeOverlapFromInputs) to a
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* per-skill verdict: a skill's K10 is its WORST sibling pair (max combined among
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* pairs containing it). pass = maxCombined < threshold. A failing skill is a
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* B3 merge/sanitize candidate against its worst sibling — never a blocker here.
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*
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* @param {Array<{pair:string[], combined:number}>} pairs from computeOverlapFromInputs
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* @param {{threshold?:number}} [opts]
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* @returns {Record<string,{maxCombined:number, worstSibling:string|null, pass:boolean, threshold:number}>}
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*/
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export function perSkillSiblingOverlap(pairs, { threshold = K10_OVERLAP_THRESHOLD } = {}) {
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const out = {};
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const ensure = (s) => {
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if (!out[s]) out[s] = { maxCombined: 0, worstSibling: null, pass: true, threshold };
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};
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for (const p of pairs) {
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const [a, b] = p.pair;
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ensure(a);
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ensure(b);
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if (p.combined > out[a].maxCombined) {
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out[a].maxCombined = p.combined;
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out[a].worstSibling = b;
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}
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if (p.combined > out[b].maxCombined) {
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out[b].maxCombined = p.combined;
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out[b].worstSibling = a;
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}
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}
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for (const s of Object.keys(out)) out[s].pass = out[s].maxCombined < threshold;
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return out;
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}
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