activegraph 1.0.5.post1

An event-sourced reactive graph runtime for long-running, auditable, agentic systems.

Active Graph

The graph is the world. Behaviors are physics. The trace is the proof.

An event-sourced reactive graph runtime for long-running, auditable, agentic systems. Behaviors react to a shared graph instead of talking to each other. Every change is traceable. Every run is resumable, forkable, and diff-able from its event log.

If chat-based agents are a group conversation, Active Graph is a shared workspace where everyone can see what changed, who changed it, and why.

Try it in 30 seconds

pip install activegraph
activegraph quickstart

The bundled Diligence pack runs against recorded fixtures: no API key, no configuration, byte-deterministic output. You see what the framework does before you read about how it does it.

Then walk the 10-minute tutorial:

activegraph quickstart --interactive

It scaffolds a behavior, runs it against the same fixtures, and ends with the fork-and-diff workflow — the framework's most differentiated capability.

Install

pip install activegraph                    # core runtime + SQLite store + Diligence pack
pip install "activegraph[llm]"             # Anthropic + OpenAI providers
pip install "activegraph[anthropic]"       # Anthropic provider only
pip install "activegraph[openai]"          # OpenAI provider only (+ tiktoken)
pip install "activegraph[postgres]"        # Postgres-backed event store
pip install "activegraph[prometheus]"      # Prometheus metrics
pip install "activegraph[all]"             # everything

Both LLM providers expose the same LLMProvider Protocol surface; swap one for the other without touching @llm_behavior definitions. The LLM providers reference covers the side-by-side surface and the v1.0.1 limitations (OpenAI tool use is a v1.1 candidate).

Python 3.11+. Two hard dependencies (click for the CLI, pydantic for the pack format); persistence backends and provider integrations are opt-in extras.

What you get

• Event-sourced graph runtime. Objects + typed relations + an append-only event log. Every mutation is an event; the trace is the audit trail.
• Reactive behaviors as first-class. Function, class, LLM-backed, or attached to typed edges (the relation-behavior primitive — edges with logic). Subscriptions are event type + predicate + a Cypher subset for graph-shape patterns.
• Fork-and-diff. Branch any run at any event into an independent fork, configure it differently, and structurally diff the result against the parent. Cache replay means the shared prefix doesn't re-execute (no new LLM calls). Most agent frameworks can't do this.
• Packs. A pack bundles object types, behaviors, tools, prompts, and policies for a specific domain. The bundled Diligence pack is the reference: 8 object types, 7 behaviors, 3 tools, recorded fixtures.
• Per-error reference pages. Every error message ends with a More: link to a page that explains when it fires, why, and how to fix it. Catalog at docs.activegraph.ai/reference/errors.

Concepts at a glance

The framework's twelve primitives, in roughly the order you meet them when reading a trace. Each links to its concept page on the doc site; read those when you want depth on one piece.

• Graph — objects and typed relations forming the world the framework reasons about. The graph is a projection of the event log; every mutation is an event. → concepts/graph
• Events — the append-only history. Every behavior fires in response to events and produces more events; the trace is the ordered log of all of them. → concepts/events
• Behaviors — the unit of reactive code. Function, class, or LLM-backed; declares what events it subscribes to and what it produces. The determinism contract is per-behavior. → concepts/behaviors
• Relations — typed edges between objects, with their own behaviors. The relation-behavior primitive — coordination logic on the edge, not on either endpoint — is uncommon in other agent frameworks. → concepts/relations
• Patches — proposed mutations with optimistic concurrency. Behaviors propose patches; the runtime applies or rejects them; rejections are events in their own right. → concepts/patches
• Views — scoped reads of the graph for behavior context. Type filters, depth filters, recent-event windows. Views are how pattern-driven behaviors see only what they need to. → concepts/views
• Frames — bounded contexts for a run. Goal, constraints, budget, and the registered behaviors for this frame. A run can have one frame or many. → concepts/frames
• Policies — approval and gating for behavior capabilities. Which behaviors can call which tools, which mutations require human approval, what the runtime refuses. → concepts/policies
• Patterns — the Cypher subset for pattern subscriptions. Beyond event-type + predicate, behaviors can subscribe to graph shapes (claim-cited-by-evidence, task-blocks-task, …) with NOT EXISTS and temporal predicates. → concepts/patterns
• Replay — re-execute a run from its event log. Strict mode re-fires every behavior and fails on divergence; permissive mode reconstructs state without re-firing. The LLM replay cache is what makes fork cheap. → concepts/replay
• Forking — branch any run at any event into an independent fork; structurally diff the fork against the parent. The framework's mechanism for hypothesis testing on agentic systems. → concepts/forking
• Failure model — a behavior failure is a behavior.failed event, not an exception. The audit trail captures failures as first-class history. Exceptions live at runtime entry points only. → concepts/failure-model

A small example

The relation-behavior primitive — coordination logic on the edge, not on either endpoint:

from activegraph import Graph, Runtime, behavior, relation_behavior

graph = Graph()
runtime = Runtime(graph, budget={"max_events": 200, "max_seconds": 60})

@behavior(name="planner", on=["goal.created"])
def planner(event, graph, ctx):
    research = graph.add_object("task", {"title": "Research", "status": "open"})
    memo = graph.add_object("task", {"title": "Draft memo", "status": "blocked"})
    graph.add_relation(research.id, memo.id, "depends_on")

@behavior(name="researcher", on=["object.created"], where={"object.type": "task"})
def researcher(event, graph, ctx):
    task = event.payload["object"]
    if task["data"]["status"] != "open" or "Research" not in task["data"]["title"]:
        return
    graph.add_object("claim", {"text": "Market early but growing.", "confidence": 0.7})
    graph.emit("task.completed", {"task_id": task["id"]})

@relation_behavior(name="unblock", relation_type="depends_on", on=["task.completed"])
def unblock(relation, event, graph, ctx):
    if event.payload["task_id"] == relation.source:
        graph.patch_object(relation.target, {"status": "open"})

runtime.run_goal("Evaluate this startup idea")
runtime.print_trace()

The unblock relation behavior fires only for events touching one of its edge endpoints. The conceptual deep-dive on edges-with-logic is in docs/concepts/relations.md.

Documentation

• docs.activegraph.ai — full doc site: concepts, guides, cookbook, CLI reference, API reference, the per-error catalog.
• 10-minute tutorial — install to a working custom behavior, including fork-and-diff.
• AI coding assistants — the docs are machine-readable at docs.activegraph.ai/llms.txt (structured index) and docs.activegraph.ai/llms-full.txt (concatenated full content), generated from the same source markdown as the rendered site. Built for AI agents evaluating the framework via Claude Code, Cursor, Replit, and similar tooling.
• CHANGELOG.md — every release, with per-version migration notes.
• CONTRACT.md — locked design decisions, version by version. Useful when you want to know why something is the way it is.
• examples/ — runnable end-to-end demos: diligence_real_run.py, resume_and_fork.py, llm_claim_extraction.py, diligence_with_tools.py, operate_a_run.py, babyagi.py — BabyAGI's autonomous agent loop, rebuilt as three reactive behaviors over a shared graph.

What this is not

• Not a chat framework. If your problem fits in one conversation, use a chat framework.
• Not a workflow engine. Workflows model control flow. This models world state.
• Not a rules engine, exactly. Rules engines forward-chain over facts. This event-sources over a graph and supports LLM behaviors as first-class.
• Not a production graph database. The default store is SQLite, optionally Postgres. For a high-throughput graph backend, plug one in behind the EventStore protocol.
• Not magic. Bad behaviors produce bad graphs. The runtime makes the badness inspectable, not absent.

Status

v1.0 (stable) (2026-05). The first-time-user gate per CONTRACT v1.0 #C4 ran through three rcs; v1.0 final ships rc3 plus a tutorial-step-7 output fix and a README "Concepts at a glance" index. See CHANGELOG.md for the full v0 → v1.0 history and per-version migration notes.

Major shipped milestones:

• v1.0 — error hierarchy rewrite with per-error reference pages, doc site at docs.activegraph.ai, activegraph quickstart command, mypy --strict and docstring coverage CI gates, wheel-completeness and deploy-verification CI gates.
• v0.9 — pack format and the Diligence reference pack (8 object types, 7 behaviors, 3 tools, recorded fixtures).
• v0.8 — operator surface: structured logging, Prometheus metrics, runtime.status(), full activegraph CLI, PostgresEventStore.
• v0.7 — @tool decorator, Cypher-subset pattern subscriptions, temporal predicates.
• v0.6 — @llm_behavior with structured output, frame-aware prompt construction, cost accounting.
• v0.5 — full event-log persistence, save/load across processes, fork from any historical event, structural diff between runs.
• v0 — core runtime: graph, behaviors, relation behaviors, patches with optimistic concurrency, views, frames, policies, budgets, the trace.

Roadmap items planned for v1.1 are tracked in CONTRACT.md § v1.1.

License

Active Graph is licensed under the Apache License 2.0. See LICENSE for the full text and NOTICE for the attribution that downstream redistributors must preserve.

Contributing

See CONTRIBUTING.md for the current contribution policy. The framework is in its early public phase: issues are open, documentation PRs are welcome, code PRs are maintainer-only with an issue-first discussion gate (the abstractions are still settling). The policy relaxes as the contributor community matures.

Test discipline: tests must remain deterministic. No live network calls in CI. LLM and tool tests use recorded fixtures (RecordedLLMProvider, RecordedToolProvider). If a contribution adds a test that would only pass with a live API key or live HTTP, it cannot land.

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The graph is the world. Behaviors are physics. The trace is the proof.