Running a program is a closed world — every namespace is required, then it runs
to completion — so make it direct-link by default (inlining, record shapes, the
inference's specialization), and for a -m/-M entry auto-enable the whole-program
cross-namespace inference pass. A decomposed multi-namespace program was ~3.7x
slower than the same code in one namespace purely because per-namespace
inference can't see a caller in a not-yet-loaded namespace; this closes that for
the common case with no flags and no hints.
Interactive modes (repl, -e, nrepl-server) stay indirect/open — they have to let
you redefine vars, which direct-linking seals against. Opt-outs:
JOLT_NO_DIRECT_LINK forces the open path even for a program run (hot-reload,
runtime redefinition); JOLT_NO_WHOLE_PROGRAM keeps direct-linking but per-ns;
JOLT_DIRECT_LINK / JOLT_WHOLE_PROGRAM still force-on. Namespaces required inside
-main (after the batch pass) fall back to per-ns inference.
The success checker (RFC 0006) rides on the inference for free, but a casual
program run shouldn't spam type warnings just because it now direct-links, so its
default-on is suppressed when direct-linking was auto-enabled (:direct-link-auto?);
an explicit JOLT_DIRECT_LINK or JOLT_TYPE_CHECK still turns it on. whole-program-
test and devirt-test opt their per-ns baseline out of the new auto-default.
Docs: RFC 0005 gains 'Compilation modes and defaults' + 'Cross-namespace
inference'; RFC 0004 documents cross-ns/param hints; self-hosting-compiler and
--help updated. Full gate green.
A protocol method call compiles to (protocol-dispatch proto method this rest) — a
runtime registry walk (type-tag -> proto -> method) on every call, ~19x a direct
call. When the inference proves the receiver (arg 0) is a known record type, the
call now resolves to a DIRECT method call at compile time, skipping the registry.
- defprotocol registers each method's var-key 'ns/method' -> [proto method] (a
ctx-capturing register-protocol-methods! emitted into the do-block); infer-unit!
feeds it to the inference via a box (like record-shapes).
- the record-ctor return type carries :type (the record tag) so the inference
knows the receiver type; the :else invoke case annotates a protocol call whose
arg0 has a known :type with :devirt-{type,proto,method}.
- emit-invoke resolves the impl via find-protocol-method at emit time and emits a
direct call to the embedded impl fn value. Unknown/polymorphic receivers (no
proven :type) fall back to the dispatch path unchanged.
Measured: removes the dispatch overhead (14.7s -> 9.3s on a 10M-call loop); the
remaining cost is the method body itself (non-inlined, unproven reads) — inlining
the resolved method is the follow-up (jolt-t6r) toward direct-call speed.
Sound under the closed-world assumption direct-linking already makes (the impl is
resolved + embedded at compile time). Adds devirt-test (subprocess: dispatched ==
devirtualized across polymorphic dispatch, unknown-receiver fallback, and
heterogeneous collections). Stalin's compile-call/callee-environment is the model.