sx/examples/errors/1051-errors-cleanup-closure-boundary.sx

// A closure literal inside a `defer` / `onfail` body is its OWN function
// boundary (ERR step E1.7). Two boundary effects, both pinned here:
//
//   (a) `checkCleanupNode` sees a bare lambda STATEMENT as a `.lambda` node and
//       STOPS — it does not descend into the lambda body. So the bare failable
//       inside the lambda is the lambda's concern, not a cleanup violation
//       (were the `.lambda` arm to recurse, this bare `failing()` would reject
//       like the ones in 1052).
//
//   (b) value-slot liveness (E1.8) is analysed per-boundary: `flowExpr` recurses
//       into the lambda via `analyzeFnBody`, so a value slot read inside the
//       lambda must prove its own error absent — `v` here is live under its
//       `if !err` guard. (The rejecting counterpart is 1053.)
//
// Also: `try` is legal inside the lambda (it propagates through the lambda's own
// `!E` channel) even though it is parser-banned in the cleanup body directly.
//
// Locks the closure-boundary arms of the error-flow pass before A5.2 extracts it
// into its own module. Constructible since issue 0073 (closure literal in a
// `defer` body no longer segfaults lowering — see 0310).

#import "modules/std.sx";

E :: error { Bad }

failing :: () -> !E { raise error.Bad; }
recover :: () -> (i32, !E) { return 21; }

work :: () {
    defer {
        // (a) bare lambda statement — checkCleanupNode stops at the `.lambda`.
        () -> !E { failing(); };

        // (b) called closure — its body is analysed as its own boundary.
        emit := () -> !E {
            v, err := recover();
            if !err { print("defer closure: v={}\n", v); }   // E1.8: live under guard
            try failing();
        };
        emit() catch (e) print("defer closure: raised\n");
    }
    print("body\n");
}

main :: () -> i32 {
    work();
    return 0;
}