Tokenization and Casing — Guardrails and Fix Pattern

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Use this page when retrieval fails because the text was chunked or embedded with inconsistent tokenization or casing rules.
This is common when corpus ingestion applies one tokenizer (e.g. sentencepiece, BPE) and queries use another, or when upper/lowercase mismatches create drift.

Open these first

Visual map and recovery: RAG Architecture & Recovery
Chunking checklist: chunking-checklist.md
Retrieval traceability: retrieval-traceability.md
Embedding vs meaning: embedding-vs-semantic.md

Core acceptance

Corpus and query tokenizers are identical.
ΔS(question, retrieved) ≤ 0.45, stable under three paraphrases.
λ remains convergent across casing variants.
Coverage ≥ 0.70 for the target section.

Typical breakpoints and the right fix

Different tokenizers for corpus vs query
→ Rebuild index with unified tokenizer. See chunking-checklist.md.
Casing drift (retrieval fails if query has capitalized or accented terms)
→ Apply consistent lowercasing or case-fold normalization before embedding.
Unicode variants (fullwidth vs halfwidth, accents vs base letters)
→ Normalize text with NFC/NFKC before chunking.
Mixed language tokenization (CJK vs Latin vs Indic split differently)
→ Align multilingual tokenizer to match model embedding assumptions.

Fix in 60 seconds

Check tokenizer logs
Sample corpus and query text, run through the same tokenizer, compare token IDs.
Case-fold
Apply .lower() or Unicode case-fold to both corpus and queries before embedding.
Normalize Unicode
Use unicodedata.normalize("NFKC", text) to ensure consistency.
Re-index if drift found
If tokenization differs, rebuild embedding index after enforcing preprocessing rules.

Copy-paste probe

import unicodedata

def normalize_and_lower(text):
    return unicodedata.normalize("NFKC", text).lower()

sample = "Résumé vs Resume"
print(normalize_and_lower(sample))
# → "resume vs resume"

Target: queries and corpus map to the same normalized form.

Common gotchas

Chunked with sentencepiece but queries fed through default BPE → mismatch.
Different language casing (Turkish dotted i, German ß) → normalize before embed.
Multilingual queries that mix scripts → ensure same tokenizer config across corpora.

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🧭 Explore More

Module	Description	Link
WFGY Core	WFGY 2.0 engine is live: full symbolic reasoning architecture and math stack	View →
Problem Map 1.0	Initial 16-mode diagnostic and symbolic fix framework	View →
Problem Map 2.0	RAG-focused failure tree, modular fixes, and pipelines	View →
Semantic Clinic Index	Expanded failure catalog: prompt injection, memory bugs, logic drift	View →
Semantic Blueprint	Layer-based symbolic reasoning & semantic modulations	View →
Benchmark vs GPT-5	Stress test GPT-5 with full WFGY reasoning suite	View →
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