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rag-from-scratch/chunks/chunker.py
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#!/usr/bin/env python3
"""
Chunking adattivo
Divide il Markdown revisionato in chunk semantici pronti per la
vettorizzazione. La strategia dipende dal profilo strutturale del documento.
Input: conversione/<stem>/clean.md + conversione/<stem>/structure_profile.json
Output: chunks/<stem>/chunks.json
Uso:
python chunks/chunker.py # tutti i documenti in conversione/
python chunks/chunker.py --stem documento # un solo documento
python chunks/chunker.py --stem documento --force
"""
import argparse
import json
import re
import sys
from pathlib import Path
_HERE = Path(__file__).resolve().parent
if str(_HERE) not in sys.path:
sys.path.insert(0, str(_HERE))
import config as cfg
# ─── Utilità ──────────────────────────────────────────────────────────────────
def split_sentences(text: str) -> list[str]:
parts = re.split(r'(?<=[.!?»])\s+(?=[A-ZÀÈÉÌÒÙA-Z\"])', text.strip())
if len(parts) <= 1:
parts = re.split(r'(?<=[.!?»])\s+', text.strip())
return [p.strip() for p in parts if p.strip()]
def slugify(s: str, max_len: int = 60) -> str:
s = s.lower()
s = re.sub(r'[^\w\s-]', '', s)
s = re.sub(r'[\s_-]+', '_', s).strip('_')
return s[:max_len] if s else "section"
def _is_table_block(text: str) -> bool:
"""True se il testo è prevalentemente una tabella Markdown (≥50% righe con |)."""
lines = [l for l in text.strip().splitlines() if l.strip()]
if not lines:
return False
table_lines = sum(1 for l in lines if l.strip().startswith("|"))
return table_lines / len(lines) >= 0.5
def _ov(strategy: str) -> tuple[int, float, int]:
"""Legge (target_chars, tolerance, overlap) dagli override di strategia."""
ov = cfg.STRATEGY_OVERRIDES.get(strategy, {})
target = ov.get("target_chars", cfg.TARGET_CHARS)
tolerance = ov.get("tolerance", cfg.CHUNK_TOLERANCE)
overlap = ov.get("overlap", cfg.OVERLAP_SENTENCES)
return target, tolerance, overlap
# ─── Core: split in sotto-chunk orientato al target ───────────────────────────
def make_sub_chunks(
body: str,
prefix: str,
sezione: str,
titolo: str,
target: int,
tolerance: float,
overlap_s: int,
) -> list[dict]:
"""Divide body in chunk il più vicini possibile a `target` char.
Logica:
lower = target × (1 tolerance) → soglia minima per emettere
upper = target × (1 + tolerance) → limite massimo
Si accumulano frasi intere finché la successiva farebbe superare `upper`.
A quel punto si emette (siamo vicini al target) e si riparte con overlap.
Ogni chunk termina sempre su un confine di frase; non attraversa mai
il boundary dell'header corrente.
"""
if cfg.PROTECT_TABLES and _is_table_block(body):
chunk_text = prefix + body
return [{
"chunk_id": f"{slugify(sezione)}__{slugify(titolo)}__s0",
"text": chunk_text,
"sezione": sezione,
"titolo": titolo,
"sub_index": 0,
"n_chars": len(chunk_text),
}]
# Soglia calcolata sul corpo (n_chars finale = prefix_len + body_len).
prefix_len = len(prefix)
upper_body = max(1, int(target * (1 + tolerance)) - prefix_len)
sentences = split_sentences(body)
if not sentences:
return []
chunks: list[dict] = []
current: list[str] = []
current_len = 0
sub_index = 0
def _emit() -> None:
nonlocal current, current_len, sub_index
chunk_text = prefix + " ".join(current)
chunks.append({
"chunk_id": f"{slugify(sezione)}__{slugify(titolo)}__s{sub_index}",
"text": chunk_text,
"sezione": sezione,
"titolo": titolo,
"sub_index": sub_index,
"n_chars": len(chunk_text),
})
overlap = current[-overlap_s:] if overlap_s and len(current) > overlap_s else []
current = overlap[:]
# Lunghezza corretta dell'overlap (n-1 spazi tra n frasi).
current_len = sum(len(s) for s in current) + max(0, len(current) - 1)
sub_index += 1
for sent in sentences:
sep = 1 if current else 0
new_len = current_len + sep + len(sent)
if new_len <= upper_body:
# Ancora entro il limite del corpo: aggiungi e continua.
current.append(sent)
current_len = new_len
elif current:
# La frase successiva sfora il limite: emetti il chunk corrente
# (che termina su frase completa) poi inizia il nuovo con questa frase.
_emit()
current.append(sent)
current_len += (1 if current[:-1] else 0) + len(sent)
else:
# Chunk vuoto: la singola frase supera già il limite — emettiamo così com'è.
current.append(sent)
current_len = len(sent)
_emit()
if current:
chunk_text = prefix + " ".join(current)
chunks.append({
"chunk_id": f"{slugify(sezione)}__{slugify(titolo)}__s{sub_index}",
"text": chunk_text,
"sezione": sezione,
"titolo": titolo,
"sub_index": sub_index,
"n_chars": len(chunk_text),
})
return chunks
# ─── Parser Markdown ──────────────────────────────────────────────────────────
def parse_h3_sections(text: str) -> list[dict]:
sections = []
current_h2 = ""
current_h3 = ""
current_body_lines: list[str] = []
def flush():
body = "\n".join(current_body_lines).strip()
if body:
sections.append({
"sezione": current_h2,
"titolo": current_h3,
"body": body,
})
for line in text.splitlines():
if re.match(r"^# ", line):
flush()
current_h2 = line[2:].strip()
current_h3 = ""
current_body_lines = []
elif re.match(r"^## ", line):
flush()
current_h2 = line[3:].strip()
current_h3 = ""
current_body_lines = []
elif re.match(r"^### ", line):
flush()
current_h3 = line[4:].strip()
current_body_lines = []
else:
current_body_lines.append(line)
flush()
return sections
def parse_h2_sections(text: str) -> list[dict]:
sections = []
current_h2 = ""
current_body_lines: list[str] = []
def flush():
body = "\n".join(current_body_lines).strip()
if body:
sections.append({"sezione": current_h2, "body": body})
for line in text.splitlines():
if re.match(r"^## ", line):
flush()
current_h2 = line[3:].strip()
current_body_lines = []
elif re.match(r"^# ", line):
flush()
current_h2 = line[2:].strip()
current_body_lines = []
else:
current_body_lines.append(line)
flush()
return sections
# ─── Strategie di chunking ────────────────────────────────────────────────────
def chunk_h3_aware(text: str, stem: str) -> list[dict]:
target, tolerance, overlap = _ov("h3_aware")
lower = int(target * (1 - tolerance))
sections = parse_h3_sections(text)
merged: list[dict] = []
pending: dict | None = None
for sec in sections:
if pending is None:
pending = dict(sec)
continue
if (pending["sezione"] == sec["sezione"]
and len(pending["body"]) < lower):
sep_title = " / ".join(filter(None, [pending["titolo"], sec["titolo"]]))
pending = {
"sezione": pending["sezione"],
"titolo": sep_title or pending["titolo"],
"body": pending["body"] + "\n\n" + sec["body"],
}
else:
merged.append(pending)
pending = dict(sec)
if pending:
merged.append(pending)
chunks = []
for sec in merged:
sezione = sec["sezione"] or stem
titolo = sec["titolo"] or ""
body = sec["body"]
prefix = f"[{sezione} > {titolo}]\n" if titolo else f"[{sezione}]\n"
chunks.extend(make_sub_chunks(body, prefix, sezione, titolo, target, tolerance, overlap))
return chunks
def chunk_h2_paragraph_split(text: str, stem: str) -> list[dict]:
target, tolerance, overlap = _ov("h2_paragraph_split")
lower = int(target * (1 - tolerance))
sections = parse_h2_sections(text)
chunks = []
for sec in sections:
sezione = sec["sezione"] or stem
body = sec["body"]
prefix = f"[{sezione}]\n"
paragraphs = [
p.strip()
for p in re.split(r"\n{2,}", body)
if p.strip() and not re.match(r"^#+\s", p.strip())
]
merged_pars: list[str] = []
pending = ""
for par in paragraphs:
if pending and len(pending) < lower:
pending = pending + "\n\n" + par
else:
if pending:
merged_pars.append(pending)
pending = par
if pending:
merged_pars.append(pending)
for idx, par in enumerate(merged_pars):
sub = make_sub_chunks(par, prefix, sezione, f"par{idx}", target, tolerance, overlap)
for c in sub:
c["chunk_id"] = f"{slugify(sezione)}__p{idx}__s{c['sub_index']}"
chunks.extend(sub)
return chunks
def chunk_paragraph(text: str, stem: str) -> list[dict]:
target, tolerance, overlap = _ov("paragraph")
lower = int(target * (1 - tolerance))
paragraphs = [
p.strip()
for p in re.split(r"\n{2,}", text)
if p.strip() and not re.match(r"^#+\s", p.strip())
]
prefix = f"[Documento: {stem}]\n"
merged: list[str] = []
pending = ""
for par in paragraphs:
if pending and len(pending) < lower:
pending = pending + "\n\n" + par
else:
if pending:
merged.append(pending)
pending = par
if pending:
merged.append(pending)
chunks = []
for idx, par in enumerate(merged):
sub = make_sub_chunks(par, prefix, stem, f"par{idx}", target, tolerance, overlap)
for c in sub:
c["chunk_id"] = f"para__{idx}__s{c['sub_index']}"
chunks.extend(sub)
return chunks
def chunk_sliding_window(text: str, stem: str) -> list[dict]:
target, tolerance, overlap = _ov("sliding_window")
upper = int(target * (1 + tolerance))
sentences = split_sentences(text)
prefix = f"[Documento: {stem}]\n"
chunks = []
i = 0
win_idx = 0
while i < len(sentences):
window: list[str] = []
cur_len = 0
j = i
while j < len(sentences):
s = sentences[j]
sep = 1 if window else 0
if window and cur_len + sep + len(s) > upper:
break
window.append(s)
cur_len += sep + len(s)
j += 1
if not window:
window = [sentences[i]]
j = i + 1
chunk_text = prefix + " ".join(window)
chunks.append({
"chunk_id": f"win__{win_idx}",
"text": chunk_text,
"sezione": stem,
"titolo": f"finestra {win_idx}",
"sub_index": win_idx,
"n_chars": len(chunk_text),
})
win_idx += 1
i += max(1, len(window) - overlap)
return chunks
# ─── Dispatcher ───────────────────────────────────────────────────────────────
_STRATEGIES: dict[str, callable] = {
"h3_aware": chunk_h3_aware,
"h2_paragraph_split": chunk_h2_paragraph_split,
"paragraph": chunk_paragraph,
"sliding_window": chunk_sliding_window,
}
def chunk_document(clean_md: Path, profile: dict, stem: str) -> list[dict]:
text = clean_md.read_text(encoding="utf-8")
strategia = profile.get("strategia_chunking", "paragraph")
fn = _STRATEGIES.get(strategia, chunk_paragraph)
return fn(text, stem)
# ─── Per-document processing ──────────────────────────────────────────────────
def process_stem(stem: str, project_root: Path, force: bool) -> bool:
conv_dir = project_root / "conversione" / stem
out_dir = project_root / "chunks" / stem
clean_md = conv_dir / "clean.md"
profile_path = conv_dir / "structure_profile.json"
out_file = out_dir / "chunks.json"
print(f"\nDocumento: {stem}")
if not clean_md.exists():
print(f" ✗ clean.md non trovato in conversione/{stem}/ — skip")
return False
if not profile_path.exists():
print(f" ✗ structure_profile.json non trovato in conversione/{stem}/ — skip")
return False
if out_file.exists() and not force:
print(f" ⚠️ chunks.json già presente — skip")
print(f" (usa --force per rieseguire)")
return True
profile = json.loads(profile_path.read_text(encoding="utf-8"))
strategia = profile.get("strategia_chunking", "paragraph")
print(f" Strategia: {strategia}")
chunks = chunk_document(clean_md, profile, stem)
if not chunks:
print(f" ✗ Nessun chunk generato — controlla clean.md")
return False
out_dir.mkdir(parents=True, exist_ok=True)
out_file.write_text(
json.dumps(chunks, ensure_ascii=False, indent=2), encoding="utf-8"
)
target, tolerance, _ = _ov(strategia)
lower = int(target * (1 - tolerance))
upper = int(target * (1 + tolerance))
lengths = [c["n_chars"] for c in chunks]
min_c = min(lengths)
max_c = max(lengths)
avg_c = int(sum(lengths) / len(lengths))
short = sum(1 for l in lengths if l < lower)
long_ = sum(1 for l in lengths if l > upper)
print(f" Target: {target} char ±{int(tolerance*100)}% "
f"→ range [{lower}, {upper}]")
print(f" Chunk totali: {len(chunks)}")
print(f" Min: {min_c} char Max: {max_c} char Media: {avg_c} char")
if short:
print(f" ⚠️ {short} chunk sotto lower ({lower})")
if long_:
print(f" ⚠️ {long_} chunk sopra upper ({upper})")
print(f" ✅ chunks.json salvato in chunks/{stem}/")
return True
# ─── Entry point ─────────────────────────────────────────────────────────────
if __name__ == "__main__":
project_root = Path(__file__).parent.parent
parser = argparse.ArgumentParser(description="Chunking adattivo")
parser.add_argument("--stem", help="Nome del documento (sottocartella di conversione/)")
parser.add_argument("--force", action="store_true", help="Riesegui anche se già presente")
args = parser.parse_args()
if args.stem:
stems = [args.stem]
else:
conv_dir = project_root / "conversione"
if not conv_dir.exists():
print(f"Errore: cartella conversione/ non trovata in {project_root}")
sys.exit(1)
stems = sorted(
p.name for p in conv_dir.iterdir()
if p.is_dir() and (p / "clean.md").exists()
)
if not stems:
print(f"Errore: nessun documento trovato in conversione/")
sys.exit(1)
results = [process_stem(s, project_root, args.force) for s in stems]
ok = sum(results)
total = len(results)
print(f"\n{'' if all(results) else '⚠️ '} {ok}/{total} documenti processati")
sys.exit(0 if all(results) else 1)