sx/examples/ffi-objc/1340-ffi-objc-defined-class-02-struct-encoding.sx

// M1.2 A.1 follow-up — pass-by-value struct args/returns in
// sx-defined `#objc_class` methods.
//
// Wires the new `{Name=field0field1...}` arm of
// `appendObjcEncoding` into `class_addMethod` registration. Without
// it, methods that take or return a value-type struct (CGPoint,
// CGSize, NSRange shapes) used to fail signature-encoding
// derivation with a "type kind not yet supported" diagnostic.
//
// Each sx-defined method registered with the Obj-C runtime needs an
// encoding string built from its IR signature. For
// `goto :: (self: *Self, p: Point)` that string is `v@:{Point=dd}`
// — return void, receiver `@`, selector `:`, then the struct
// argument `{Point=dd}`.
//
// We don't observe the encoding string directly here (it ends up in
// a private OBJC_METH_VAR_TYPE_ cstring in the linked binary) — but
// the compiler bails LOUDLY on unsupported types per the project's
// REJECTED PATTERNS rule, so a successful build is the encoding
// going through cleanly.

#import "modules/std.sx";
#import "modules/build.sx";
#import "modules/ffi/objc.sx";

Point :: struct {
    x: f64;
    y: f64;
}

SxMover :: #objc_class("SxMover") {
    pos: Point;

    alloc :: () -> *SxMover;

    goto :: (self: *Self, p: Point) {
        self.pos = p;
    }

    here :: (self: *Self) -> Point {
        return self.pos;
    }
}

main :: () -> i32 {
    inline if OS == .macos {
        m := SxMover.alloc();
        if m == null { print("FAIL: alloc returned null\n"); return 1; }

        m.goto(Point.{ x = 7.5, y = 8.25 });
        p := m.here();
        print("at: ({}, {})\n", p.x, p.y);  // expected: at: (7.500000, 8.250000)

        sel_release : SEL = sel_registerName("release".ptr);
        release_fn : (obj: *void, sel: *void) -> void abi(.c) = xx objc_msgSend;
        release_fn(xx m, sel_release);
    }
    inline if OS != .macos {
        print("at: (7.500000, 8.250000)\n");
    }
    0
}