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sx/examples/1036-errors-failable-smoke.sx
agra d8076b9333 lang: rename signed integer types sN -> iN 
Surface rename of the signed integer family: s1..s64 become i1..i64
(u1..u64, usize, isize unchanged). 'string' keeps the s-prefix arm in
name classification; width parsing moves to the i-prefix arm next to
isize.

Internal TypeId tags follow the surface (.s8/.s16/.s32/.s64 ->
.i8/.i16/.i32/.i64), as do mono-key mangle fragments (ptr_i64,
tu_i64_bool) and all display/diagnostic formatting (i{d}).

Migrated in the same sweep: stdlib + examples + issue repros + FFI C
companions (shared symbol names like ffi_id_i64), expected
stdout/stderr/ir snapshots, specs.md, readme.md, CLAUDE.md/AGENTS.md,
implementation_plan.md, docs/, issue writeups. Vendored stb_image and
historical flow state left untouched.

zig build test: 426/426; examples suite: 595/595.
2026-06-12 09:31:53 +03:00

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// End-to-end error handling: failable functions (named + inferred sets) consumed
// through every absorbing form — destructure, `try` (in helpers), `catch` (bare-
// expr / match-body / diverging block / no-binding), `or` value-terminator,
// `onfail` cleanup interleaved with `defer`, plus `error.X` as a value and `{}`
// tag-name interpolation.
#import "modules/std.sx";
SmokeErr :: error { Empty, BadDigit, Overflow }
// value-carrying, named set
sm_parse :: (n: i32) -> (i32, !SmokeErr) {
if n < 0 { raise error.BadDigit; }
if n == 0 { raise error.Empty; }
if n > 99 { raise error.Overflow; }
return n * 2;
}
// pure failable, inferred set (ad-hoc tag)
sm_check :: (ok: bool) -> ! {
if !ok { raise error.NotReady; }
return;
}
// multi-value, inferred set: `try` propagates; SCC absorbs SmokeErr
sm_pair :: (a: i32, b: i32) -> (i32, i32, !) {
x := try sm_parse(a);
y := try sm_parse(b);
return (x, y);
}
// catch with a diverging block body
sm_or_default :: (n: i32) -> i32 {
return sm_parse(n) catch (e) {
print(" logged {}\n", e);
return -1;
};
}
// onfail + defer interleave: cleanup runs only on the error path
sm_acquire :: (fail: bool) -> (i32, !) {
defer print(" defer A\n");
onfail print(" onfail B\n");
if fail { raise error.Acquire; }
return 7;
}
// or-chain: try a, fall to try b; propagate if both fail
sm_first :: (a: i32, b: i32) -> (i32, !) {
v := try sm_parse(a) or try sm_parse(b);
return v;
}
// --- Composition (ERR E5.1): failable closures, widening, generics ---
// Closure(...) param, try-propagated (the env is carried)
sm_run :: (cb: Closure(i32) -> (i32, !SmokeErr), n: i32) -> (i32, !SmokeErr) {
return try cb(n);
}
// bare fn-type param: a NON-failable closure literal widens into the failable
// slot (the ∅-widening adapter wraps `{value, 0}`)
sm_widen :: (cb: (i32) -> (i32, !SmokeErr), n: i32) -> i32 {
return cb(n) catch (e) -1;
}
// generic ($T) value-carrying failable composition, monomorphized per call
sm_wrap :: ($T: Type, f: Closure() -> (T, !SmokeErr)) -> (T, !SmokeErr) {
return try f();
}
main :: () {
// error.X as a typed value + {} interpolation renders the tag name
e0 : SmokeErr = error.BadDigit;
print("tag: {}\n", e0);
// success destructure + error inspect
v1, err1 := sm_parse(5);
if !err1 { print("parsed: {}\n", v1); }
v2, err2 := sm_parse(-1);
if err2 == error.BadDigit { print("got: {}\n", err2); }
// catch — bare-expr body
ce := sm_parse(0) catch (e) 100;
print("catch-expr: {}\n", ce);
// catch — match-body per-tag dispatch
cm := sm_parse(200) catch (e) == {
case .Overflow: 1;
case .Empty: 2;
else: 3;
};
print("catch-match: {}\n", cm);
// catch — diverging block (in helper)
print("or-default ok: {}\n", sm_or_default(5));
print("or-default err: {}\n", sm_or_default(-5));
// or — value terminator (bare LHS; non-failable result)
ov := sm_parse(0) or 55;
print("or-value: {}\n", ov);
// or-chain via helper (first ok wins; propagation absorbed by destructure)
g, gerr := sm_first(0, 8);
if !gerr { print("or-chain: {}\n", g); }
// multi-value failable consumed by catch (tuple body)
p, q := sm_pair(0, 3) catch (e) (0, 0);
print("pair-catch: {} {}\n", p, q);
p2, q2 := sm_pair(4, 5) catch (e) (0, 0);
print("pair-ok: {} {}\n", p2, q2);
// pure failable: absorb with no-binding catch
sm_check(false) catch { print("check absorbed\n"); };
// onfail/defer interleave on error vs success
print("acquire fail:\n");
hv, herr := sm_acquire(true);
print("acquire ok:\n");
iv, ierr := sm_acquire(false);
// composition: inline failable closure literal through a Closure(...) param
cl := sm_run(closure((x: i32) -> (i32, !SmokeErr) { if x < 0 { raise error.BadDigit; } return x * 2; }), 6) catch (e) -1;
print("closure-run: {}\n", cl); // 12
print("closure-run-err: {}\n", sm_run(closure((x: i32) -> (i32, !SmokeErr) { raise error.Empty; }), 1) catch (e) -9); // -9
// non-failable closure literal widened into the failable bare slot
print("widen: {}\n", sm_widen(closure((x: i32) -> i32 => x + 1), 9)); // 10
// generic failable composition (monomorphized at i32)
print("wrap: {}\n", sm_wrap(i32, closure(() -> (i32, !SmokeErr) { return 42; })) catch (e) 0); // 42
print("errors ok\n");
}
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