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Layer 2: Qualified Extraction with AI Council
================================================
Extracts claims from parsed regions using the parallel-then-merge council.
Applies section-aware confidence modifiers.
All output constrained to valid schema.
"""
import json
import os
import re
from typing import Optional
from ..core.database import (
get_db, init_db, gen_id, now_iso, to_fixed, from_fixed
)
# Section confidence modifiers (fixed-point ×1000)
SECTION_MODIFIERS = {
"abstract": 700,
"introduction": 800,
"related_work": 800,
"methods": 1000, # Methods are protocol, not claims — but if claims extracted, full weight
"results": 1000,
"results_discussion": 900,
"discussion": 750,
"conclusion": 800,
"supplement": 1000,
"unknown": 850,
None: 850,
}
VALID_TAGS = ["Fact", "Interpretation", "Hypothesis", "Conflict_Hypothesis"]
EXTRACTOR_PROMPT = """You are a scientific claim extractor for a PhD Research OS.
Extract precise, atomic claims from the text. For EACH claim provide:
- text: The exact claim statement (preserve qualifiers like "may", "suggests", "not significant")
- epistemic_tag: One of [Fact, Interpretation, Hypothesis, Conflict_Hypothesis]
* Fact: Directly supported by quantitative data in THIS paper
* Interpretation: Author's explanation that goes beyond raw data
* Hypothesis: Untested proposal using "may", "could", "we propose"
* Conflict_Hypothesis: Explicitly contradicts another established finding
- confidence: Float 0.0-1.0 (how strong is the evidence FOR this specific claim)
- missing_fields: What would make this claim more complete (empty list if complete)
- status: "Complete" or "Incomplete" (Incomplete if missing_fields is non-empty)
- qualifiers: List of hedging words or conditions (e.g., ["in 10 mM PBS", "n=5", "not statistically significant"])
- is_null_result: true if the claim reports a negative/null finding
- source_quote: The EXACT sentence from the text that supports this claim
CRITICAL RULES:
1. PRESERVE all qualifiers — "may", "suggests", "under these conditions", "not significant"
2. If a result is NOT statistically significant, mark is_null_result=true
3. If the text says "X causes Y", mark causal_direction as "causal_claim"
4. If the text says "X is associated with Y", mark causal_direction as "observed_correlation"
Output MUST be a valid JSON array. No markdown, no explanations."""
CRITIC_PROMPT = """You are a critical reviewer for a PhD Research OS.
Review extracted claims against the original text. Check:
1. Missing important claims the extractor overlooked
2. Incorrect epistemic tags (e.g., Interpretation tagged as Fact)
3. Overly confident claims that should be Incomplete
4. Dropped qualifiers (hedging words removed from claim text)
5. Null results not flagged as is_null_result=true
6. Causal claims from correlational data
Output JSON: {
"feedback": "overall critique",
"missing_claims": ["claim text 1", ...],
"tag_corrections": {"0": "Interpretation", ...},
"confidence_adjustments": {"0": 0.5, ...},
"qualifier_additions": {"0": ["qualifier1"], ...},
"null_result_flags": [0, 2]
}"""
CHAIRMAN_PROMPT = """You are the chairman of a scientific claim extraction council.
You receive: original text, extracted claims, and critic feedback.
Synthesize into final claims applying these rules:
1. Apply critic's tag corrections where justified
2. Apply critic's confidence adjustments
3. Add any missing claims the critic identified
4. Apply 0.7 completeness penalty for claims with significant missing fields
5. Ensure ALL qualifiers from source text are preserved
6. Flag null results appropriately
Output MUST be a valid JSON array of claims. No markdown."""
class QualifiedExtractor:
"""
Layer 2: Extract claims using the AI Model Council.
Pipeline: Extractor → Critic → Chairman (sequential for now,
upgrade to parallel-then-merge when multi-model serving available)
"""
def __init__(self, db_path: str = None, brain=None):
self.db_path = db_path or os.environ.get("RESEARCH_OS_DB", "data/research_os_v2.db")
self.brain = brain # ResearchOSBrain or compatible LLM interface
def extract_from_chunk(self, chunk: dict, source_doi: str = None) -> list:
"""
Extract claims from a single section-aware chunk.
Returns list of claim dicts ready for DB insertion.
"""
text = chunk.get("text", "")
section = chunk.get("section", "unknown")
page = chunk.get("page", 0)
parse_confidence = chunk.get("min_confidence", 1000)
if not text or len(text.strip()) < 50:
return []
# Run extraction (with or without brain)
if self.brain:
raw_claims = self._extract_with_brain(text, section)
else:
raw_claims = self._extract_mock(text, section)
# Post-process: apply section modifiers, validate, score
claims = []
section_mod = SECTION_MODIFIERS.get(section, 850)
for i, raw in enumerate(raw_claims):
if not isinstance(raw, dict) or not raw.get("text"):
continue
# Validate and fix epistemic tag
tag = raw.get("epistemic_tag", "Interpretation")
if tag not in VALID_TAGS:
tag = "Interpretation"
# Abstract claims forced to Interpretation (Epistemic Separation Engine)
if section == "abstract" and tag == "Fact":
tag = "Interpretation"
# Build confidence components
evidence_strength = to_fixed(min(1.0, max(0.0, float(raw.get("confidence", 0.5)))))
missing = raw.get("missing_fields", [])
if not isinstance(missing, list):
missing = []
completeness = 700 if missing else 1000
qualifiers = raw.get("qualifiers", [])
if not isinstance(qualifiers, list):
qualifiers = []
qualifier_penalty = max(500, 1000 - len(qualifiers) * 100)
# Status
is_null = bool(raw.get("is_null_result", False))
status = "Complete" if not missing else "Incomplete"
# Code-computed composite (Layer 5 will refine further)
# For now: evidence × section_modifier × completeness × qualifier
composite = (evidence_strength * section_mod // 1000
* completeness // 1000
* qualifier_penalty // 1000)
# Parser confidence caps claim confidence
composite = min(composite, parse_confidence)
claim = {
"claim_id": gen_id("CLM"),
"text": str(raw.get("text", "")),
"epistemic_tag": tag,
"evidence_strength": evidence_strength,
"section_modifier": section_mod,
"completeness_penalty": completeness,
"qualifier_penalty": qualifier_penalty,
"composite_confidence": composite,
"status": status,
"is_null_result": is_null,
"is_inherited_citation": bool(raw.get("is_inherited_citation", False)),
"causal_direction": raw.get("causal_direction", "unspecified"),
"qualifiers": qualifiers,
"missing_fields": missing,
"source_quote": raw.get("source_quote", ""),
"source_page": page,
"source_section": section,
"source_doc_id": chunk.get("doc_id"),
"source_doi": source_doi,
"source_region_id": (chunk.get("region_ids") or [None])[0],
"extraction_timestamp": now_iso(),
}
claims.append(claim)
return claims
def extract_from_document(self, doc_id: str, source_doi: str = None) -> dict:
"""
Extract claims from all chunks of a document.
Uses Layer 0's section-aware chunking.
"""
from ..layer0.parser import StructuralParser
parser = StructuralParser(self.db_path)
chunks = parser.get_section_chunks(doc_id)
all_claims = []
section_stats = {}
for chunk in chunks:
claims = self.extract_from_chunk(chunk, source_doi)
all_claims.extend(claims)
section = chunk.get("section", "unknown")
section_stats[section] = section_stats.get(section, 0) + len(claims)
# Store claims in database
conn = get_db(self.db_path)
for claim in all_claims:
conn.execute("""
INSERT INTO claims (claim_id, text, epistemic_tag,
evidence_strength, section_modifier, completeness_penalty,
qualifier_penalty, composite_confidence,
status, is_null_result, is_inherited_citation, causal_direction,
qualifiers, missing_fields, source_quote, source_page,
source_section, source_doc_id, source_doi, source_region_id,
extraction_timestamp, pipeline_version,
schema_version, created_at, updated_at)
VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, '2.0', ?, ?)
""", (
claim["claim_id"], claim["text"], claim["epistemic_tag"],
claim["evidence_strength"], claim["section_modifier"],
claim["completeness_penalty"], claim["qualifier_penalty"],
claim["composite_confidence"],
claim["status"], claim["is_null_result"],
claim["is_inherited_citation"], claim["causal_direction"],
json.dumps(claim["qualifiers"]), json.dumps(claim["missing_fields"]),
claim.get("source_quote"), claim.get("source_page"),
claim.get("source_section"), claim.get("source_doc_id"),
claim.get("source_doi"), claim.get("source_region_id"),
claim.get("extraction_timestamp"), "2.1.0",
now_iso(), now_iso()
))
conn.commit()
conn.close()
return {
"doc_id": doc_id,
"total_claims": len(all_claims),
"section_distribution": section_stats,
"epistemic_distribution": self._count_tags(all_claims),
"null_results": sum(1 for c in all_claims if c["is_null_result"]),
"incomplete": sum(1 for c in all_claims if c["status"] == "Incomplete"),
"avg_confidence": (sum(c["composite_confidence"] for c in all_claims) // max(len(all_claims), 1)),
}
def _extract_with_brain(self, text: str, section: str) -> list:
"""Extract using the AI brain (local or API model)."""
messages = [
{"role": "system", "content": EXTRACTOR_PROMPT},
{"role": "user", "content": f"Section: {section}\n\nText:\n{text}"}
]
try:
if hasattr(self.brain, '_generate_local') and self.brain.backend == "local":
raw = self.brain._generate_local(messages)
elif hasattr(self.brain, '_generate_api'):
raw = self.brain._generate_api(messages)
else:
return self._extract_mock(text, section)
# Parse JSON
text_clean = raw.strip()
if text_clean.startswith("```"):
parts = text_clean.split("```")
text_clean = parts[1] if len(parts) > 1 else text_clean
if text_clean.startswith("json"):
text_clean = text_clean[4:]
text_clean = text_clean.strip()
data = json.loads(text_clean)
return data if isinstance(data, list) else [data]
except Exception:
return self._extract_mock(text, section)
def _extract_mock(self, text: str, section: str) -> list:
"""Mock extraction when no brain is available. Produces structurally valid output."""
# Extract sentences as potential claims
sentences = [s.strip() for s in re.split(r'[.!?]\s+', text) if len(s.strip()) > 30]
claims = []
for i, sent in enumerate(sentences[:5]): # Max 5 claims per chunk
# Simple heuristic classification
lower = sent.lower()
if any(w in lower for w in ["measured", "found", "detected", "achieved", "showed"]):
tag = "Fact"
confidence = 0.7
elif any(w in lower for w in ["suggest", "indicate", "consistent with", "interpret"]):
tag = "Interpretation"
confidence = 0.5
elif any(w in lower for w in ["may", "could", "hypothesize", "propose", "possible"]):
tag = "Hypothesis"
confidence = 0.3
elif any(w in lower for w in ["contradict", "unlike", "contrary"]):
tag = "Conflict_Hypothesis"
confidence = 0.4
else:
tag = "Interpretation"
confidence = 0.5
# Detect qualifiers
qualifiers = []
for q in ["may", "might", "could", "suggests", "possibly", "not significant",
"under these conditions", "in vitro", "preliminary"]:
if q in lower:
qualifiers.append(q)
is_null = any(w in lower for w in ["not significant", "no effect", "no difference",
"failed to", "did not"])
claims.append({
"text": sent + ".",
"epistemic_tag": tag,
"confidence": confidence,
"missing_fields": [],
"status": "Complete",
"qualifiers": qualifiers,
"is_null_result": is_null,
"is_inherited_citation": "[" in sent and "]" in sent,
"causal_direction": "causal_claim" if "cause" in lower else "observed_correlation" if "correlat" in lower else "unspecified",
"source_quote": sent + ".",
})
return claims
def _count_tags(self, claims: list) -> dict:
counts = {}
for c in claims:
tag = c.get("epistemic_tag", "unknown")
counts[tag] = counts.get(tag, 0) + 1
return counts
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