`#jni_call` collapses to a single surface — env is *always* implicit:
either picked up from the lexically-enclosing `#jni_env(env) { ... }`
block's Ref (cheap, register-resident, no TL touch) or from the
runtime's thread-local slot via `sx_jni_env_tl_get()` (one fn call
per dispatch). The explicit-env shape is gone — chess and the
existing tests migrate cleanly by wrapping their helper-fn bodies
in `#jni_env(env) { ... }`.
The TL slot lives outside the user's IR module so the LLVM ORC JIT
can load object files cleanly without `orc_rt` for TLS support:
library/vendors/sx_jni_runtime/sx_jni_env_tl.c:
static _Thread_local void *sx_jni_env_tl_slot;
void *sx_jni_env_tl_get(void) { return sx_jni_env_tl_slot; }
void sx_jni_env_tl_set(void *env) { sx_jni_env_tl_slot = env; }
Linkage:
- sx-the-compiler links the .c file via build.zig so the JIT
process-symbol generator resolves `sx_jni_env_tl_get`/`_set`.
- AOT targets get the same .c file auto-linked via the lowering
pass: when lower touches the TL externs, it sets
`needs_jni_env_tl_runtime`, and `Compilation.lowerToIR` appends a
synthetic `CImportInfo` to `lowering_extra_c_sources` that
`collectCImportSources` merges with user-written ones.
Lowering-side changes:
- `getJniEnvTlFids` lazily declares the two externs (parallel
to `getSelRegisterNameFid`) and flips `needs_jni_env_tl_runtime`.
- `#jni_env(env) { body }` emits save→set→body→restore via three
`call` ops to the externs; the inner body sees env via the
lexical-direct stack.
- `lowerJniCall` resolves env from `jni_env_stack` (top) or the TL
fallback. The explicit-env branch is gone.
- `jni_env_stack_base` tracks per-fn lexical scope so lazy-lowering
a callee doesn't accidentally see the caller's Ref (Refs are only
valid inside one fn's instruction stream).
Test migration (mechanical):
- ffi-jni-call-{01..09}: each helper fn wraps `#jni_call(...)`
bodies in `#jni_env(env) { ... }`. Returning values pass through
the block as an expression — `#jni_env` now also lowers in
expression position.
Verified:
- zig build test + tests/run_examples.sh: 130/130 green.
- tests/cross_compile.sh: 3/3 green.
- Chess APK rebuilt + reinstalled on Pixel. Board renders with
status-bar clearance + info panel intact; no crashes in logcat.
Safe-insets dispatch through `#jni_env` + lexical-direct now
fully exercised end-to-end on real hardware.
Static dispatch wired in. The early `is_static` bail in
`.jni_msg_send` is gone; both paths now share the same lazy-cache +
phi structure with two static-specific differences:
1. `GetObjectClass` is skipped — for static calls, `target` IS the
`jclass`. The cached `cls` slot just stores `NewGlobalRef(target)`
directly.
2. The method-ID lookup uses `GetStaticMethodID` (slot 113), and the
dispatch uses `CallStatic<Type>Method` (Object 114 / Boolean 117
/ Int 129 / Long 132 / Float 135 / Double 138 / Void 141).
Slot interning still applies: the `@SX_JNI_{CLS,MID}_<key>` pair is
shared between instance and static literal call sites with the same
`(name, sig)` — though in practice the JNI runtime treats instance
and static method-IDs as distinct, so two sites with the same name
but different dispatch kinds would collide in the cache. This isn't
a problem the chess Android backend hits (each method is uniquely
either static or instance in the API), so the simpler single-key
intern stays.
IR snapshot updated: `ret i32 undef` replaced by the full
NewGlobalRef → GetStaticMethodID → CallStaticIntMethod sequence
through vtable slots 21, 113, 129. Args `i32 3, i32 7` thread through
the existing arg-coercion loop.
Test-add for static dispatch — `#jni_static_call(s32)(env, cls,
"max", "(II)I", 3, 7)` exercises GetStaticMethodID + CallStaticIntMethod
plus two integer args. Today the lowering bails on `is_static = true`
with `LLVMGetUndef`. IR snapshot captures the placeholder.
The next commit:
- Adds `Jni.GetStaticMethodID` (113), `Jni.CallStaticVoidMethod` (141),
`Jni.CallStaticIntMethod` (129), etc. to the constants struct.
- Wires the static path: skip `GetObjectClass` (`target` IS the
jclass), `NewGlobalRef(target)` to cache it, `GetStaticMethodID`
for the method, then `CallStatic<Type>Method` per return type.
