Builds on the ^:struct keyword-lookup hint: - ^TypeName for records. A tag naming a defrecord/deftype now resolves to the struct fast path: record instances are tables tagged :jolt/deftype (not :jolt/type), so a raw keyword get is correct for them. A new host contract fn record-type? detects a record by its ->Name constructor; a non-record tag (^String, ^long, ...) is ignored, as before. - (get m :k) and (get m :k default) now get the same inlined keyword lookup as (:k m): the representation guard fast path when unhinted, and the bare get when the subject is ^:struct/^Record. A variable/number/string key still falls through to core-get. The two call shapes share one emitter (emit-kw-lookup). - JOLT_CHECK_HINTS=1 turns a violated hint into a clear runtime error (naming the local and key) by keeping the guard and throwing on the tagged arm. It is off by default with zero cost to normal builds (a hinted lookup still emits a bare get), and is part of the image-cache fingerprint. This is the answer to "a lying hint is silent": opt into checking during development. - Docs: RFC 0004 records the design, soundness contract, and measurements; the reader spec gains S12b (hints are semantically transparent; jolt recognizes ^:struct and ^Record as lookup-optimization assertions). There is no Clojure keyword equivalent for "plain map / fast keyword access" (Clojure hints are class names), so ^:struct stays a jolt-specific flag, analogous to ^:dynamic. Verified: conformance 335/335 in all three modes and the full jpm test pass; a seeded ray-tracer render is byte-identical hinted vs unhinted; the struct-hint test covers record hints, the get-form, inline propagation, and the checked-mode error. Full render with hints holds at 13.3s -> 10.9s (1.22x).
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RFC 0004: Type hints and keyword-lookup specialization
Status: accepted (design note)
This note describes how Jolt treats Clojure type hints, and the one place it
uses them: a ^:struct or ^Record hint on a local lets a constant-keyword
lookup skip its runtime representation guard. It records the rationale, the
soundness contract, the checked mode for catching inaccurate hints, and the
measured effect, so later work does not relitigate it.
Background: why the lookup carries a guard
A Jolt map value has several runtime representations (see RFC on collections and
src/jolt/core.janet): a Janet struct for a small all-scalar-key literal map, a
persistent hash map (a table tagged :jolt/type :jolt/phm) when a key is a
collection or a value is nil, plus sorted maps, transients, and record/deftype
instances. A record instance is a Janet table tagged :jolt/deftype but, like a
struct, it carries no :jolt/type, so a raw Janet (get inst :field) reads its
fields directly.
A constant-keyword lookup (:k m) compiles to a guarded form:
(if (get m :jolt/type) (core-get m k) (get m k))
The guard is one opcode. A non-nil :jolt/type routes phm/sorted/transient/
lazy-seq values to core-get's full semantics; everything else (structs,
records, nil, scalars) takes the bare Janet get, which matches core-get for
keyword keys. The guard is correct and cheap, but on a struct it is a second
get: profiling the ray tracer (a naive all-maps program) found keyword lookups
are about half of a render, and the guard is the only avoidable part of each
one. A bare get is roughly 20ns where the guarded form is roughly 36ns.
Dropping the guard is only safe when the subject is known to be a plain struct/record rather than a tagged collection. Jolt does not infer that inter-procedurally (it would be unsound across a dynamic language's call boundaries). A type hint supplies the same fact soundly, as a programmer assertion.
What the hints mean
Two hints on a local resolve to the "plain struct/record" assertion, which we
call the :struct hint internally:
^:struct— the value is a plain struct or record map. There is no Clojure keyword with this meaning (Clojure's type hints are class names), so this is a Jolt-specific metadata flag, analogous to^:dynamic.^NamewhereNameis adefrecord/deftype. Both forms define a->Namepositional constructor, so the analyzer treats a tag whose->Nameresolves as a record type. Record instances are raw-get-safe, so the lookup drops the guard. A^String,^long, or any other non-record tag is not a record and is ignored, exactly as before.
Every other hint parses and is inert, matching Clojure (S12b in the reader spec). A hint never changes a program's result; it only permits an optimization.
How it flows
The reader already keeps ^hint metadata on the binding symbol and is otherwise
transparent (reader.janet, meta-form->map). The change threads that fact to
the lookup site:
- The analyzer (
jolt-core/jolt/analyzer.clj) records a:structhint per local in its env when a param orletbinding carries^:structor a record-type tag, and attaches:hint :structto that local's:localIR node. Resolving a record-type tag uses a new host contract functionrecord-type?(src/jolt/host_iface.janet), which checks for the->Nameconstructor. - The back end (
emit-kw-lookupinsrc/jolt/backend.janet) emits the bare get when the lookup subject is a:localcarrying the hint, and the guarded form otherwise. The unhinted path is byte-identical to before. - The inline pass (
jolt-core/jolt/passes.clj) propagates the hint: when it binds a non-trivial call argument to a fresh local, it carries the called function's parameter hint onto that local, so lookups inside the spliced body keep the bare path. Without this, inlining a hinted function would erase the benefit, because the hinted parameter is replaced by an unhinted temporary.
The same machinery covers both (:k m) and (get m :k [default]) when the key
is a constant keyword. A get with a variable, numeric, or string key falls
through to core-get unchanged.
Soundness and the checked mode
An accurate hint is correctness-preserving by construction: for a struct or
record the bare get equals the guarded result. An inaccurate hint (asserting
^:struct for a value that is actually a phm) makes the raw get return the wrong
thing. This is the same contract as a wrong Clojure ^String, except that a
wrong Jolt hint fails silently rather than throwing.
To make a lie visible without taxing the fast path, JOLT_CHECK_HINTS=1 keeps
the guard but throws on the tagged arm with a message naming the local and key:
type hint violated on `m`: (:a m) — value carries :jolt/type
(a phm/sorted/transient/lazy-seq), not the plain struct/record the
^:struct/^Record hint asserts
This is a development aid, off by default, with zero cost to normal builds (the flag is read when the lookup is compiled, and the bare get is emitted when it is off). The flag is part of the image-cache fingerprint.
Coverage
Type hints parse in every position Clojure accepts them and are inert except for the optimization above. This matches Clojure's "parse and otherwise do nothing" model, with the difference that Clojure additionally uses hints to avoid reflection and select primitive arithmetic, which do not apply to a Janet host.
Measured effect
On the ray tracer (~/src/examples/ray-tracer, all values are {:r :g :b}-style
maps), with inlining on and the hot parameters hinted, a render goes from 13.3s
to 10.9s, about 1.22x, taking it to roughly 7.8x the JVM from 9.4x after the
inline pass. A seeded render produces an identical pixel checksum hinted and
unhinted, confirming the hints are correctness-preserving on the full pipeline.
Status and non-goals
Implemented. Not pursued: inter-procedural shape inference (unsound in a dynamic language without a guard, which costs as much as the one being removed) and a shape-based "hidden class" representation (profiling showed allocation is about 1% of the workload, so a cheaper allocation would not help, and an escaping-map lookup through a runtime shape check costs about the same as the guard it would replace). The hint is the sound, opt-in lever on the part of the cost that can move.