Metadata-Version: 2.4
Name: aictx
Version: 6.10.0
Summary: Repo-local continuity runtime for coding agents
Author: Santi Santamaria
License-Expression: MIT
Project-URL: Homepage, https://aictx.org
Project-URL: Documentation, https://aictx.org/
Project-URL: Repository, https://github.com/oldskultxo/aictx
Project-URL: Issues, https://github.com/oldskultxo/aictx/issues
Keywords: ai,llm,coding-agents,continuity,agent-memory,repo-local,developer-tools,execution-memory,codex,claude
Classifier: Programming Language :: Python :: 3
Classifier: Programming Language :: Python :: 3 :: Only
Classifier: Development Status :: 4 - Beta
Requires-Python: >=3.11
Description-Content-Type: text/markdown
License-File: LICENSE
Provides-Extra: repomap
Requires-Dist: tree-sitter-language-pack<1.0.0,>=0.13.0; extra == "repomap"
Dynamic: license-file

# AICTX 
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**Operational continuity for AI coding agents.**

AICTX helps Codex, Claude, GitHub Copilot and other coding agents continue work across sessions by preserving the last useful execution state: active work, next actions, decisions, failures, validation evidence and repo context.

The next agent does not start from zero. It resumes from what actually happened.

It also makes continuity shared across agents. Codex can finalize work into `.aictx/`, then Claude Code, GitHub Copilot, or another compatible agent can resume from the same repo-local facts instead of relying on one provider's chat history.

**Website:** https://aictx.org  
**PyPI package:** https://pypi.org/project/aictx/  
**CLI:** `aictx`

It is a repo-local CLI/runtime layer for agent continuity. It stores inspectable artifacts under `.aictx/` and exposes continuity through CLI commands, local MCP tools/resources/prompts, and generated agent instructions.

AICTX is **Codex-first**, **GitHub Copilot-aware**, **Claude-aware**, and **generic-agent compatible**.

![AICTX + Coding Agent Runtime Flow](https://raw.githubusercontent.com/oldskultxo/aictx/main/docs/images/aictx-runtime-flow.png)

[Quickstart](docs/QUICK-START.md) · [Installation](docs/INSTALLATION.md) · [Continuity View](docs/CONTINUITY_VIEW.md) · [Demo](docs/DEMO.md) · [Technical overview](docs/TECHNICAL_OVERVIEW.md) · [Official project](docs/OFFICIAL_PROJECT.md)

---

## The problem

Coding agents are powerful, but most sessions still start cold:

- they rediscover the same repository structure;
- they reopen broad docs before the relevant source or test;
- they repeat failed commands or stale assumptions;
- unfinished work depends on chat history instead of repo-local state.

AICTX makes that continuity repo-local, inspectable, and reusable.

## Install

Install AICTX, then initialize the repository:

```bash
pip install aictx
aictx install
aictx init
aictx --version
```

If `~/.codex/` already exists, `aictx install` detects Codex and installs/updates AICTX-managed global Codex integration by default. Interactive installs ask for confirmation; `aictx install --yes` applies the detected setup automatically.

After that, keep using your coding agent.

The generated repo instructions and hooks guide supported agents to call AICTX automatically. The normal user experience is:

```text
install -> init -> use your coding agent
```

See [Installation](docs/INSTALLATION.md) and [Quickstart](docs/QUICK-START.md).

---

## The operational continuity loop

```text
resume useful context -> do the work -> finalize evidence -> next session continues
```

AICTX stores continuity locally under `.aictx/`, so it is inspectable, reviewable and not dependent on hidden chat history.

That continuity is agent-neutral:

```text
Codex finalize -> .aictx continuity -> Claude/Copilot/other agent resume
```

This is useful when a team or solo developer alternates between coding agents. The repo carries the operational handoff: what was tried, what failed, what passed, what remains, and where the next agent should start.

Start lifecycle work with `aictx resume --task "..."` and close it with `aictx finalize`. For on-demand task planning outside the startup lifecycle, AICTX can also compile a bounded read-only Task Context Pack:

```bash
aictx prepare "fix the parser bug" --repo . --json
```

`prepare` is not a replacement for `resume` / `finalize`; use `resume` to start lifecycle work, and use `prepare` only for focused read-only context outside that startup path.

## MCP server

AICTX can expose repo-local continuity as local MCP tools, resources and prompts.

Compatible agents can launch:

```bash
aictx mcp-server --repo . --profile full
```

The default `aictx install` / `aictx init` flow prepares AICTX MCP runtime metadata and repo-local MCP config through AICTX-managed, reversible setup. Sensitive client config is written as a managed `<AICTX>` block where the format supports comments, and as AICTX-managed JSON metadata in `.mcp.json` / `.vscode/mcp.json`. `aictx clean` / `aictx uninstall` remove only those managed entries and preserve user-authored MCP servers. Agents should prefer MCP tools when available and fall back to CLI commands otherwise.

See [MCP](docs/MCP.md), [Continuity Guard](docs/CONTINUITY_GUARD.md), and [Steer Guard](docs/STEER_GUARD.md).


## Agent plugins

AICTX also ships Claude Code and Codex plugin artifacts.

The plugins are MCP-first and CLI-fallback: compatible agents should call AICTX MCP tools such as `aictx_resume`, `aictx_finalize`, and `aictx_view`; when MCP is unavailable they fall back to the AICTX CLI.

See [Plugins](docs/PLUGINS.md).

## What changes?

### Without operational continuity

```text
A new agent session starts cold.
It scans README, docs, Makefile and source files.
It rediscovers decisions.
It may repeat failed commands.
It asks for context that already existed.
```

### With AICTX

```text
The agent runs one resume command.
It sees active work, next action, known failures and validation path.
After work, it finalizes factual evidence for the next session.
```

AICTX turns disconnected agent sessions into a continuous operational workflow, even when the next session uses a different coding agent.

## Inspect the continuity

```bash
aictx view --repo .
```

AICTX can render the current operational state of a repository as local Markdown and Mermaid:

```text
.aictx/reports/continuity-view.md
.aictx/reports/continuity-map.mmd
```

Not hidden memory. Reviewable operational continuity, with quality signals for stale, missing, demoted, or unverified context.

![AICTX Continuity View example](https://aictx.org/images/continuity-view.png)

[Continuity View documentation](docs/CONTINUITY_VIEW.md) · [Image asset](https://raw.githubusercontent.com/oldskultxo/aictx/main/docs/images/continuity-view.png)

## What AICTX preserves

AICTX focuses on operational facts that help the next agent continue useful work:

- active Work State and next action;
- execution summaries and handoffs;
- explicit decisions;
- known failures and resolved failure patterns;
- strategy hints from successful prior work;
- execution contracts and contract-compliance signals;
- optional RepoMap structural entry points;
- continuity quality signals for stale, missing, demoted, obsolete, or unverified context;
- read-only Task Context Packs for focused task-specific context;
- lifecycle diagnostics for incomplete or unfinalized sessions;
- optional Git-portable continuity for small teams.

## What AICTX is not

AICTX is not an autonomous coding agent, a cloud memory service, a vector database, a dashboard, a replacement for human review, or a guarantee of correctness, productivity gains or token savings.

It is a repo-local operational continuity layer used by cooperating coding agents.

---

## Core capabilities

| Capability | What it does | Why it matters |
|---|---|---|
| **Work State** | Preserves active task, hypothesis, files, next action, risks, and verification state | The next session knows what was in progress |
| **Failure Memory** | Stores observed command/test/build/type/lint failures as structured patterns | Agents can avoid repeating known mistakes |
| **RepoMap** | Optional Tree-sitter structural map of files and symbols | Agents get compact structural entry points for “where should I look first?” |
| **Strategy Memory** | Reuses successful prior execution patterns | Known-good approaches can be suggested again |
| **Handoff / Decisions** | Keeps operational summaries and explicit project decisions | Architecture and intent survive session boundaries |
| **Execution Summary** | Captures what happened at finalize time | The next session starts from factual continuity |
| **Cross-agent continuity** | Stores continuity in the repository instead of one agent's chat history | Codex, Claude Code, GitHub Copilot, and generic agents can hand off through the same `.aictx/` state |
| **Continuity View** | Generates `.aictx/reports/continuity-view.md` and `.aictx/reports/continuity-map.mmd` from repo-local continuity | Users and agents can inspect active Work State, handoffs, failures, contracts, summaries, RepoMap hints, and portability in one deterministic Markdown/Mermaid view |
| **Continuity Quality** | Scores repo-local continuity freshness and flags stale, missing, demoted, obsolete, or unverified context | Agents can avoid trusting old memory blindly and treat weak continuity as background evidence |
| **Continuity Guard** | Provides read-only action-boundary checks through `aictx guard` / `aictx_continuity_guard` | Agents can re-ground before edits, risky commands, final answers, finalize, scope changes, or handoffs |
| **Steer Guard** | Classifies user interventions through `aictx steer` / `aictx_steer_guard` | Agents can distinguish side comments from task-changing instructions during active work |
| **Task Context Pack** | Compiles focused read-only context for a supplied goal through `aictx prepare` or `aictx_prepare_task_context` | Agents can ask for bounded task-specific context without mutating lifecycle state |
| **Lifecycle Diagnostics** | Tracks resume, Work State writes, and finalize events as best-effort local diagnostics | Users can see incomplete or unfinalized sessions without AICTX blocking work |
| **Contract Compliance** | Audits first action, edit scope, validation, and structural alignment | Gaps can carry over into Work State instead of disappearing |
| **Doctor** | Read-only repo/runtime diagnostic with `aictx doctor --repo . --json`; add `--release-readiness` for strict aictx release-gate checks | Support uses a general repo diagnostic while releases keep stricter checks |
| **Resume capsule** | Compiles continuity into one agent brief | Agents do not need to discover AICTX internals at startup |

---

## Supported agents

AICTX is runner-aware, not runner-locked.

- **Codex-first:** `AGENTS.md`, optional global Codex setup, CLI/runtime JSON contract, MCP support, and Codex plugin artifacts.
- **Claude-aware:** `CLAUDE.md`, `.claude/settings.json`, hooks, MCP support, and Claude Code plugin artifacts.
- **GitHub Copilot:** best-effort instruction hardening through `.github/copilot-instructions.md`, `.github/instructions/aictx.instructions.md`, optional prompt files, and VS Code MCP config when supported.
- **Generic fallback:** any agent that can read repo instructions, run CLI commands, consume JSON/Markdown, or connect to a local MCP server.

---

## Documentation

Start here:

- [Installation](docs/INSTALLATION.md)
- [Quickstart](docs/QUICK-START.md)
- [Demo](docs/DEMO.md)
- [Technical overview](docs/TECHNICAL_OVERVIEW.md)

Core concepts:

- [AI coding agent memory](docs/concepts/ai-coding-agent-memory.md)
- [Repo-local continuity](docs/concepts/repo-local-memory.md)
- [Operational continuity](docs/concepts/operational-memory.md)
- [Failure memory for coding agents](docs/concepts/failure-memory-for-coding-agents.md)
- [Work State](docs/WORK_STATE.md)
- [RepoMap](docs/REPOMAP.md)
- [Failure Memory](docs/FAILURE_MEMORY.md)
- [Strategy Memory](docs/STRATEGY_MEMORY.md)
- [Handoffs and Decisions](docs/HANDOFFS.md)
- [Execution Summary](docs/EXECUTION_SUMMARY.md)
- [Execution Contracts and Compliance](docs/EXECUTION_CONTRACTS.md)
- [Doctor diagnostics](docs/DOCTOR.md)

Use cases and comparisons:

- [Shared continuity across coding agents](docs/use-cases/shared-continuity-across-agents.md)
- [Codex operational continuity](docs/use-cases/codex-memory.md)
- [Claude Code operational continuity](docs/use-cases/claude-code-memory.md)
- [GitHub Copilot operational continuity](docs/use-cases/github-copilot-memory.md)
- [Comparing coding-agent continuity approaches](docs/compare/coding-agent-continuity-approaches.md)
- [AICTX vs AGENTS.md](docs/compare/aictx-vs-agents-md.md)
- [AICTX vs long context](docs/compare/aictx-vs-long-context.md)
- [AICTX vs vector databases](docs/compare/aictx-vs-vector-database.md)
- [AICTX vs chat history](docs/compare/aictx-vs-chat-history.md)

Operations and trust:

- [Usage](docs/USAGE.md)
- [Cleanup](docs/CLEANUP.md)
- [Safety](docs/SAFETY.md)
- [Limitations](docs/LIMITATIONS.md)
- [Upgrade](docs/UPGRADE.md)
- [Release checklist](docs/RELEASE_CHECKLIST.md)
- [Contributing](CONTRIBUTING.md)

---

## Current limits

AICTX improves continuity only when agents or integrations cooperate with the runtime contract. File access, commands, tests, and failures are strongest when passed explicitly or captured through wrapped execution.

AICTX does not claim measured productivity gains, guaranteed speedups, or automatic correctness.

It makes operational continuity visible, inspectable, and reusable.
