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Kodelyth ECC
Skill

content-hash-cache-pattern

Cache expensive file processing results using SHA-256 content hashes — path-independent, auto-invalidating, with service layer separation.

Invoke via:use content-hash-cache-pattern
Origin:ECC

Content-Hash File Cache Pattern

Cache expensive file processing results (PDF parsing, text extraction, image analysis) using SHA-256 content hashes as cache keys. Unlike path-based caching, this approach survives file moves/renames and auto-invalidates when content changes.

When to Activate

  • Building file processing pipelines (PDF, images, text extraction)
  • Processing cost is high and same files are processed repeatedly
  • Need a --cache/--no-cache CLI option
  • Want to add caching to existing pure functions without modifying them

Core Pattern

1. Content-Hash Based Cache Key

Use file content (not path) as the cache key:

import hashlib
from pathlib import Path

_HASH_CHUNK_SIZE = 65536 # 64KB chunks for large files

def compute_file_hash(path: Path) -> str: """SHA-256 of file contents (chunked for large files).""" if not path.is_file(): raise FileNotFoundError(f"File not found: {path}") sha256 = hashlib.sha256() with open(path, "rb") as f: while True: chunk = f.read(_HASH_CHUNK_SIZE) if not chunk: break sha256.update(chunk) return sha256.hexdigest()

Why content hash? File rename/move = cache hit. Content change = automatic invalidation. No index file needed.

2. Frozen Dataclass for Cache Entry

from dataclasses import dataclass

@dataclass(frozen=True, slots=True) class CacheEntry: file_hash: str source_path: str document: ExtractedDocument # The cached result

3. File-Based Cache Storage

Each cache entry is stored as {hash}.json — O(1) lookup by hash, no index file required.

import json
from typing import Any

def write_cache(cache_dir: Path, entry: CacheEntry) -> None: cache_dir.mkdir(parents=True, exist_ok=True) cache_file = cache_dir / f"{entry.file_hash}.json" data = serialize_entry(entry) cache_file.write_text(json.dumps(data, ensure_ascii=False), encoding="utf-8")

def read_cache(cache_dir: Path, file_hash: str) -> CacheEntry | None: cache_file = cache_dir / f"{file_hash}.json" if not cache_file.is_file(): return None try: raw = cache_file.read_text(encoding="utf-8") data = json.loads(raw) return deserialize_entry(data) except (json.JSONDecodeError, ValueError, KeyError): return None # Treat corruption as cache miss

4. Service Layer Wrapper (SRP)

Keep the processing function pure. Add caching as a separate service layer.

def extract_with_cache(
    file_path: Path,
    *,
    cache_enabled: bool = True,
    cache_dir: Path = Path(".cache"),
) -> ExtractedDocument:
    """Service layer: cache check -> extraction -> cache write."""
    if not cache_enabled:
        return extract_text(file_path)  # Pure function, no cache knowledge

file_hash = compute_file_hash(file_path)

# Check cache cached = read_cache(cache_dir, file_hash) if cached is not None: logger.info("Cache hit: %s (hash=%s)", file_path.name, file_hash[:12]) return cached.document

# Cache miss -> extract -> store logger.info("Cache miss: %s (hash=%s)", file_path.name, file_hash[:12]) doc = extract_text(file_path) entry = CacheEntry(file_hash=file_hash, source_path=str(file_path), document=doc) write_cache(cache_dir, entry) return doc

Key Design Decisions

| Decision | Rationale | |----------|-----------| | SHA-256 content hash | Path-independent, auto-invalidates on content change | | {hash}.json file naming | O(1) lookup, no index file needed | | Service layer wrapper | SRP: extraction stays pure, cache is a separate concern | | Manual JSON serialization | Full control over frozen dataclass serialization | | Corruption returns None | Graceful degradation, re-processes on next run | | cache_dir.mkdir(parents=True) | Lazy directory creation on first write |

Best Practices

  • Hash content, not paths — paths change, content identity doesn't
  • Chunk large files when hashing — avoid loading entire files into memory
  • Keep processing functions pure — they should know nothing about caching
  • Log cache hit/miss with truncated hashes for debugging
  • Handle corruption gracefully — treat invalid cache entries as misses, never crash

Anti-Patterns to Avoid

# BAD: Path-based caching (breaks on file move/rename)
cache = {"/path/to/file.pdf": result}

BAD: Adding cache logic inside the processing function (SRP violation)

def extract_text(path, *, cache_enabled=False, cache_dir=None): if cache_enabled: # Now this function has two responsibilities ...

BAD: Using dataclasses.asdict() with nested frozen dataclasses

(can cause issues with complex nested types)

data = dataclasses.asdict(entry) # Use manual serialization instead

When to Use

  • File processing pipelines (PDF parsing, OCR, text extraction, image analysis)
  • CLI tools that benefit from --cache/--no-cache options
  • Batch processing where the same files appear across runs
  • Adding caching to existing pure functions without modifying them

When NOT to Use

  • Data that must always be fresh (real-time feeds)
  • Cache entries that would be extremely large (consider streaming instead)
  • Results that depend on parameters beyond file content (e.g., different extraction configs)