typedmem 0.4.1

Typed, policy-aware, evolving memory layer for AI agents.

TypedMemory

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Most AI agents store memory as text.

That's why they contradict themselves, forget updates over time, and never resolve goals.

TypedMemory stores memory as structured knowledge — and evolves it.

$ pip install typedmem

$ typedmem --profile engineering_design add \
    "SQLite handles our single-writer load fine" --type risk --subject storage
$ typedmem --profile engineering_design add \
    "SQLite blocks under concurrent writes"     --type risk --subject storage

$ typedmem --profile engineering_design evolve --evolver contradictions

cluster 1 (2 memories):
  [risk] SQLite handles our single-writer load fine
  [risk] SQLite blocks under concurrent writes

That's a contradiction surfaced by a one-line evolver. The two memories are still in the store — TypedMemory cross-linked them via metadata["conflicts_with"] instead of silently overwriting one with the other.

What makes TypedMemory different

Most systems store memory. TypedMemory evolves it.

• Contradictions get surfaced — the FLAG policy cross-links conflicting memories so you can see both sides, not just the last write
• Preferences get tracked — every REPLACE writes to replace_log; a drift detector flags unstable preferences before they corrupt your agent's behavior
• Goals get resolved — when an event arrives that semantically matches an active goal, the goal flips to resolved (with a one-level undo)
• Stale memories get summarized — non-destructively: originals are kept, a new summary memory links back via metadata["summarizes"]
• Every action leaves an audit trail — EvolutionRecord per change, written into the affected memory's metadata["evolution_history"]

Memory becomes a living knowledge layer, not a log.

How it works

                              ┌──────────────────┐
                              │  DomainProfile   │  ← schema: which types,
                              │  TypeSpec × N    │     which policies,
                              │  prompt + rules  │     which validations
                              └────────┬─────────┘
                                       │
       text ──► Extractor ──► Memory ──┴──► MemoryStore ──► Retriever
                                            │
                                            ▼
                                         Evolver
                              (contradictions, drift, goals,
                               non-destructive summarization)

Every memory has a type (claim, decision, observation, …), a confidence, a structured source, a lifecycle policy, and a workspace — not a string in a vector database. Memories know how to update themselves on conflict, how to decay over time, and how to be summarized.

Zero runtime dependencies. Stdlib only. LLM clients, YAML profile loading, and richer embedders are optional extras.

Why this exists

Most "AI memory" libraries are wrappers around a vector database. That works for "remember what the user said," but it falls apart the moment you want an agent to:

• track who said what, in which document, at which span (provenance)
• handle the same fact from three sources without storing it three times (reinforcement)
• recognize that a new decision supersedes the old one without losing the audit trail
• summarize stale events without throwing away the originals
• isolate legal memory from medical memory on the same machine
• flag contradictions instead of silently overwriting them

TypedMemory handles these as first-class concepts, not bolt-ons.

Install

pip install typedmem                       # default install, zero deps
pip install 'typedmem[anthropic]'          # + AnthropicClient
pip install 'typedmem[openai]'             # + OpenAIClient
pip install 'typedmem[yaml]'               # + DomainProfile.from_yaml()
pip install 'typedmem[all]'

Python 3.10+.

60-second demo: an engineering design agent

import json
from typedmem import (
    DomainProfile, FakeClient, LLMExtractor, SQLiteMemoryStore,
)

profile = DomainProfile.builtin("engineering_design")
store = SQLiteMemoryStore.for_profile(profile, "design.db")

# Pretend the LLM extracted these from your design docs.
extractor = LLMExtractor(client=FakeClient([
    json.dumps([
        {"type": "decision", "content": "Use SQLite for storage",
         "subject": "storage_backend", "confidence": 0.9,
         "source": {"document_id": "design_v1.md"}},
        {"type": "risk", "content": "SQLite is single-writer",
         "subject": "storage_backend", "confidence": 0.8,
         "source": {"document_id": "design_v1.md"}},
    ]),
    json.dumps([
        {"type": "decision", "content": "Switch to PostgreSQL for concurrent writes",
         "subject": "storage_backend", "confidence": 0.9,
         "source": {"document_id": "design_v2.md"}},
        {"type": "risk", "content": "Postgres adds an external service",
         "subject": "storage_backend", "confidence": 0.85,
         "source": {"document_id": "design_v2.md"}},
    ]),
]), profile=profile)

for snippet in ("v1 text", "v2 text"):
    for m in extractor.extract(snippet):
        store.add(m)

# decision → SUPERSEDE: old preserved, new active.
print(store.by_type("decision"))                       # → just PostgreSQL
print(store.by_type("decision", include_superseded=True))  # → both

# risk → FLAG: two risks on the same subject get cross-linked.
for cluster in store.contradictions():
    for m in cluster:
        print(m.content)                                # → both risks

See examples/engineering_design_demo.py for the full version with audit trail and source provenance, or run:

typedmem profiles
typedmem --profile engineering_design add "..." --document-id design_v3.md
typedmem --profile engineering_design list --type decision
typedmem evolve --evolver contradictions

The mental model

Layer	What it gives you	Examples
Memory	Typed object with content + confidence + workspace + sources + status	Memory(type="claim", content=..., sources=[Source(...)])
Source	Structured provenance with hashable identity	(document_id, chunk_id, span) — dedup key for REINFORCE
workspace	Namespace on every memory	One agent, multiple corpora, zero cross-contamination
ConflictPolicy	What to do when a new memory hits the same (workspace, type, subject) slot	REPLACE · KEEP_BOTH · SUPERSEDE · REINFORCE · FLAG · IGNORE
DomainProfile	Schema for a domain: which types, what policy each obeys, what's required	engineering_design · research_paper · legal · medical_literature · personal · …
Evolver	Reads memories (not text); produces audit-trailed actions	ContradictionSurfacer · PreferenceDriftDetector · GoalResolver · SummaryEvolver

Built-in profiles

Profile	Types	Notable policies
core	fact, note, goal, task, event	Shared primitives all other profiles can opt into
personal	+ preference, observation	preference → REPLACE (60d decay)
child_development	+ observation (tagged), milestone, concern	observation tags: language/motor/emotional/cognitive/social
research_paper	+ claim, method, evidence, limitation, open_question	evidence → REINFORCE (multiple papers corroborate)
engineering_design	+ decision, constraint, risk, assumption, todo	decision → SUPERSEDE, risk → FLAG
legal	+ obligation, exception, deadline, definition, citation	definition → SUPERSEDE
medical_literature	+ finding, population, intervention, outcome, limitation	outcome → REINFORCE across studies

Custom profiles via Python dataclass, JSON, or YAML.

Storage

Three backends, one ABC:

Store	Persistence	Notes
InMemoryStore	None	Default; fastest
JSONLMemoryStore	Append-only file	Last-write-wins; tombstones; compact() rewrites
SQLiteMemoryStore	SQLite file	Indexed on (workspace, type, subject); persists embeddings; auto-migrates v0.2 → v0.4 schemas

from typedmem import SQLiteMemoryStore, DomainProfile

store = SQLiteMemoryStore.for_profile(
    DomainProfile.builtin("research_paper"),
    path="papers.db",
)

Retrieval

from typedmem import HashingEmbeddingProvider, Retriever

retriever = Retriever(store, embedder=HashingEmbeddingProvider())
hits = retriever.relevant(
    "blood pressure reduction",
    types=["evidence"],
    workspace="cardiology",
)

relevant() blends three signals: semantic (cosine), recency (exponential decay), confidence (with type-specific half-life). Without an embedder, falls back to token overlap.

Evolution

Evolvers read stored memories and produce auditable actions.

from typedmem import (
    ContradictionSurfacer, PreferenceDriftDetector,
    GoalResolver, SummaryEvolver,
    HashingEmbeddingProvider, AnthropicClient,
)

# 1. Pure read: walk the FLAG graph.
for cluster in store.contradictions():
    print(f"{len(cluster)} memories cross-link as contradictions")

# 2. Annotation: catch unstable preferences.
PreferenceDriftDetector(min_replaces=3, window_days=30).evolve(store)

# 3. Safe match: dry-run first, then commit.
embedder = HashingEmbeddingProvider()
plan = GoalResolver(embedder, threshold=0.85).evolve(store, dry_run=True)
print(plan.summary())
GoalResolver(embedder, threshold=0.85).evolve(store)            # commit

# 4. Non-destructive summary of stale events.
SummaryEvolver(AnthropicClient(), min_cluster_size=3).evolve(store)
# Originals untouched; new memory links via metadata["summarizes"].

Every action emits an EvolutionRecord (evolver, action, input_ids, output_ids, reason, timestamp) and gets appended to each affected memory's metadata["evolution_history"]. No black-box mutations.

CLI

typedmem profiles                                            # list built-in domain profiles
typedmem --profile research_paper add "..." --document-id paper.pdf
typedmem --profile engineering_design list --type decision
typedmem search "blood pressure" --type evidence
typedmem evolve --evolver contradictions
typedmem evolve --evolver goals --apply --threshold 0.9      # dry-run by default
typedmem history MEMORY_ID                                   # audit trail for one memory
typedmem workspaces

Default store: ~/.typedmem/memories.db (override with --store path.db or --store path.jsonl).

Status & roadmap

v0.4 is the first public release.

• v0.5 sentence-transformer embedder, profile composition (extends), destructive compaction (MemoryStore.compact_summaries())
• v0.6 hybrid BM25+semantic retrieval, query DSL, observability hooks

What TypedMemory doesn't do and doesn't plan to:

• ship document chunkers / loaders — define the ingest() seam, bring your own (unstructured, langchain, plain regex)
• ship its own vector DB — the abstraction is ready for one, but brute-force cosine wins under ~50k memories
• pull network dependencies into the default install — every provider is an opt-in extra

License

MIT — see LICENSE.

Contributing

Issues and PRs welcome. Please run pytest and the demos in examples/ before opening a PR; CI runs them on Python 3.10/3.11/3.12.