Tauri now joins FastAPI/Django/axum as a first-class Mizan backend. The
React frontend calls Mizan-registered functions through Tauri's IPC
with the same {result, invalidate, merge} envelope the HTTP path uses;
the schema flows Pydantic → decoru → Rust → KDL → TS in one
mizan-generate invocation.
New packages:
* backends/mizan-tauri — Tauri plugin exposing a single `mizan_invoke`
command that routes through mizan-core's FUNCTIONS / CONTEXTS
registries. No per-function tauri::command; the linkme slice IS the
dispatch table.
* frontends/mizan-tauri-transport — TS package exporting
tauriTransport() that wraps invoke('plugin:mizan|mizan_invoke', ...)
and re-shapes errors into MizanError. Pairs with mizan-tauri.
@mizan/base — pluggable transport:
* Adds MizanTransport interface + transport config field.
* Existing fetch-based body factored into httpTransport() (default).
* mizanCall/mizanFetch delegate to config.transport; merge/invalidate
side-effects stay in the kernel (transport-agnostic).
* Consumers swap via configure({ transport: tauriTransport() }).
mizan-codegen — Rust source + Pydantic pre-step:
* [source.rust] runs a Cargo bin (cargo run --bin <name>) and parses
KDL from stdout. The bin uses mizan_core::build_ir() after
force-linking the consumer's #[derive(Mizan)] / #[mizan::client]
registrations.
* [source.rust.pydantic] is an optional pre-step that pipes an
embedded Python bridge (scripts/run_decoru.py) to python and writes
decoru-emitted Rust types into the consumer crate. The bridge
auto-discovers BaseModel subclasses AND Enum subclasses
(last-variant-is-default convention so decoru's impl Default keeps
compiling against enum-typed fields without explicit Pydantic
defaults).
* Pure-Rust usage stays intact — omit pydantic block and write Rust
types by hand.
mizan-macros:
* #[mizan::client] now supports Result<T, MizanError> returns. The
dispatch wrapper `?`-unwraps the user fn so server-side errors
surface as the protocol's standard {code, message, details?}
envelope; T-returning functions stay unchanged.
* #[derive(Mizan)] strips the r# raw-identifier prefix and honors
field-level #[serde(rename = "...")] when emitting IR field names.
Matches serde's wire shape — fixes IR-vs-JSON drift for Rust-keyword
fields (e.g. `r#type` → `type`).
react.tsx template:
* Conditionally emits context-related imports / useContextSubscription
helper based on has_global || !named_contexts.is_empty(). Consumers
without contexts (mutation/RPC-only apps like claude-manage) no
longer get dead imports that trip noUnusedLocals.
Verified end-to-end: cargo build clean across mizan-tauri,
mizan-codegen, AFI rust_app; AFI three-way KDL parity tests pass;
claude-manage migration drives the full stack (Pydantic schema →
generated TS api → Tauri-IPC transport → mizan-core dispatch).
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
The Mizan codegen substrate moves off JavaScript template-literal emission
onto a compiled Rust binary that consumes the same OpenAPI + x-mizan-* IR
the JS substrate consumed. Three structural wins fall out of one move:
1. Moat closes. The codegen logic (how `affects` becomes auto-invalidation,
how named contexts collapse onto bundled fetches, how the registry-to-
Provider mapping is shaped) ships compiled instead of as source bytes
in every consumer's node_modules.
2. Pattern F (lines.push append-walls) becomes structurally unauthorable.
The emit substrate is askama templates in templates/<target>/*.j2 —
actual target-language files with {{ ... }} substitution markers,
syntax-highlighted natively, type-checked against the render context
structs at compile time. The Rust emit modules build typed render
contexts and call .render(); no string-builder surface exists.
3. OpenAPI `default`-bearing fields now emit as non-optional in TS / Python
/ Rust — the server always populates them, so consumer code reads them
without nullable checks. Surfaced by Blazr's typecheck on regeneration.
Layout:
frontends/mizan-rust/ — Rust port of @mizan/base; #[cfg(feature="pyo3")]
exposes PyMizanClient for the Python target.
protocol/mizan-codegen/ — codegen binary source + askama templates.
protocol/mizan-generate/ — npm-package shim. bin/launcher.mjs dispatches
to the platform-appropriate prebuilt binary.
Old generator/ JS tree deleted.
tests/rust/ — wire-parity drivers. drive_kernel exercises
raw client.call() / fetch_context(); drive_emitted
exercises the typed crate the codegen emits.
tests/afi/afi_codegen_app.py — codegen entrypoint module (imports + registers).
backends/mizan-fastapi/.../schema.py — adds outputNullable so the Rust
codegen can wrap T | None responses in Option<T>.
Verification:
- 20 mizan-codegen tests green (IR deserialization, byte-equivalent
parity vs JS baseline for stage1/rust/python/react/vue/svelte,
structural test for channels).
- tests/rust/run_wire_parity.py — 12/12 probes green via the Rust binary
driving the FastAPI fixture end-to-end.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
