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Load-bearing joinery for LLM content pipelines: context injection, validated repair loops, deterministic replay, DAG orchestration.

Project description

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kigumi (木組)

English | 中文

Nail-free interlocking joinery. The load-bearing structural layer for LLM content pipelines — connecting your project (the roof) to the model (the pillars) through precise joints: output that does not fit the mortise gets sent back for rework.

A foundation for building LLM pipelines with coding agents:

  • Injection and assembly: a single entry point for material injection, strict template rendering, format sections auto-generated from schemas
  • Repair loop: failed validation turns into corrective instructions, model context is preserved, retries are bounded, lessons are locked in
  • Deterministic replay: content-addressed caching — same input, byte-identical output
  • DAG orchestration (optional): explicit node/item cache policy, static reusable subgraphs, dynamic map/scan, owned materialized outputs, human checkpoints, and run diffs
  • Three guard rings: runtime refusal / pytest auto-collection / git hooks, so the rules enforce themselves

Quick start

from pathlib import Path

from pydantic import BaseModel

from kigumi import LiteLLMTransport, LLMCaller, call_validated


class Verdict(BaseModel):
    score: int
    reason: str


transport = LiteLLMTransport(aliases={"default": "anthropic/claude-sonnet-5"})
caller = LLMCaller(transport, cache_dir=Path("artifacts/_llm"), seed=20260713)

verdict = call_validated(caller, "Score this opening scene and explain why: ...", Verdict)

call_validated automatically appends a format section generated from Verdict; a response that does not fit is sent back with the validation errors for a bounded number of retries (2 by default). The whole exchange lands in a content-addressed cache, so the same input replays byte-for-byte with no further API cost.

Status

0.2.0, API not frozen. All four core layers are in place, with 336 tests passed and 1 skipped, refined through three clean-room pilots (structured extraction / multimodal / DAG orchestration).

Install

uv add "kigumi[litellm]"

Without the litellm extra you can use StdlibTransport (pure-stdlib HTTP) or implement your own transport.

Documentation map

Documentation is currently written in Chinese.

Document The question it answers
DESIGN.md Why it is designed this way; layers, boundaries, settled trade-offs
docs/adoption.md How to adopt it; the path from a single caller to a DAG, plus troubleshooting
docs/contracts/ Which behaviors are promises; invariants, failure behavior, verification coordinates
docs/reviews/ What a review found at a point in time; descriptive records, not specs
CHANGELOG.md What changed; cache-family rotations and breaking changes are always recorded
AGENTS.md What an agent reads before entering; red lines and verification commands

License

MIT

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