# linear-on-sx loop agent (single agent, queue-driven) Role: iterates `plans/linear-on-sx.md` forever. **Linear/affine resource model** — values used at most once, references handed off not copied. Target: **Granule** (graded modal types over HM). The chisel is *consumption*: forcing the substrate to articulate aliasing/ownership it currently leaves fully duplicable. One feature per commit. ``` description: linear-on-sx queue loop subagent_type: general-purpose run_in_background: true isolation: worktree ``` ## Prerequisites — check before starting 1. **lib-guest lex + pratt present** — parser consumes `lib/guest/lex.sx` + `lib/guest/pratt.sx`. 2. **ADT primitive (`define-type` + `match`)** for linear pairs/sums (Phase 3). **Pre-flight:** ``` ls /root/rose-ash/lib/guest/lex.sx /root/rose-ash/lib/guest/pratt.sx ``` If missing, stop and record a Blockers entry. ## Prompt You are the sole background agent working `/root/rose-ash/plans/linear-on-sx.md`, in an isolated git worktree on branch `loops/linear`, forever, one commit per feature. Push to `origin/loops/linear` after every commit. Never touch `main` or `architecture`. ## Restart baseline — check before iterating 1. Read `plans/linear-on-sx.md` — Roadmap + Progress log + Blockers. 2. Run the pre-flight; record gaps in Blockers. 3. `ls lib/linear/` — pick up from the most advanced file. No dir → Phase 1. 4. If `lib/linear/tests/*.sx` exist, run them via the epoch protocol against `sx_server.exe`. Green before new work. ## The queue Phase order per `plans/linear-on-sx.md`: - **Phase 1** — parser (HM core + linear arrows `-o`, modality annotations) - **Phase 2** — type system: linear vs unrestricted worlds; **per-variable usage counting**; reject use-zero / use-twice of a linear var (the chisel) - **Phase 3** — linear functions + linear pattern matching (linear pairs, destructure) - **Phase 4** — modalities: `!A` unrestricted, promotion `[e]`, graded `[n]A` (semiring algebra over grades) - **Phase 5** — linear references / channels / file handles (type-tracked transitions) - **Phase 6** — effects + linearity (linear values through `perform`/handlers; capabilities as linear values) - **Phase 7** — lightweight borrowing (`borrow x as y in body`, lexical, no regions) - **Phase 8** — artdag idioms demo (each effect node holds a linear CID → new CID) - **Phase 9** — propose `lib/guest/linear/` extraction (wait for a 2nd consumer) Within a phase, pick the checkbox with the best tests-per-effort ratio. Every iteration: implement → test → commit → tick `[ ]` → Progress log → push → next. ## Chisel discipline — consumption The payoff is **Phase 2's usage checker**: SX values are fully duplicable today; linearity makes "at most one use" a first-class, statically-enforced property. The checker is a *static analysis written in SX over the AST* — runtime values stay ordinary SX values (linearity is erased after checking, like types in HM guests). Do NOT try to make the SX runtime physically prevent aliasing; enforce it in the checker and let well-typed programs run on the normal CEK. Phase 6 (linear values crossing `perform`) is where it touches the effect system — if a handler can silently duplicate a resumption-captured linear value, that's a substrate note (Blockers), not a linear-lang fix. ## Ground rules (hard) - **Scope:** only `lib/linear/**` and `plans/linear-on-sx.md`. Do **not** edit `spec/`, `hosts/`, `shared/`, `lib/guest/**` (read-only), or other `lib//`. - **Consume `lib/guest/`** (lex, pratt, match, hm where useful). - **Linearity is a checker, not a runtime guard.** Enforce statically; run on the normal CEK. Substrate gaps → failing test + Blockers, never a `spec/` patch. - **NEVER call `sx_build`** (600s watchdog). Broken binary → Blockers, stop. - **SX files:** `sx-tree` MCP tools ONLY; `sx_validate` after every edit; `file:` not `path:`. Never `Edit`/`Read`/`Write` on `.sx`. - **Worktree:** commit, then push `origin/loops/linear`. Never `main`/`architecture`. - **Commits:** one feature per commit (`linear: usage counting rejects double-use + 5 tests`). - **Plan file:** Progress log + tick boxes every commit. - **Blocked 2 iterations → Blockers, move on.** ## Linear-specific gotchas - **Two type worlds, one value space.** `A -o B` (linear) and `A -> B` (unrestricted) are distinct *types*; the underlying SX closures are identical. The distinction lives only in the checker's context discipline. - **Context splitting is the heart of linear checking.** When checking `f x`, the linear context divides between `f` and `x` — a variable can't be available to both. Model contexts as multisets and split, don't share. - **Promotion has a side condition:** `[e]` is `!A` only if `e` used no linear variables. Enforce it; it's the usual soundness leak. - **Grades form a semiring** (`+` for sequencing alternatives, `*` for nesting). `[2]A` then used under `[3]` → `[6]A`. Get the algebra right or graded use breaks. - **Borrow is non-consuming and lexical** — after `borrow x as y in body`, `x` is still linear and unused. No lifetimes, just scopes. ## General gotchas (all loops) - SX `do` = R7RS iteration; use `begin` for multi-expr sequences. - `cond`/`when`/`let` clauses evaluate only the last expr — wrap multiples in `begin`. - `let` is parallel — nest `let`s when one binding references an earlier one. - `env-bind!` creates a binding; `env-set!` mutates an existing one. - Namespace-prefix guest helpers (`lin/…`). - Shell heredoc `||` gets eaten — escape or use `case`. ## Style - No comments in `.sx` unless non-obvious. No new planning docs — update the plan. - Short, factual commit messages. One feature per iteration. Commit. Log. Push. Next. Go. Run the pre-flight. If lib-guest is missing, stop and report. Otherwise read the plan, find the first unchecked `[ ]`, implement it.