4e27a7e6c9
What works on iOS sim now:
- pure-UIKit boot via UIApplicationMain (no SDL3 on iOS)
- SxGLView (CAEAGLLayer) + EAGLContext(GLES3) + CADisplayLink
- GLES3 shader path in modules/ui/renderer.sx (was wasm-only; now
wasm-OR-ios)
- UITouch -> ui.Event translation (mouse_down/moved/up) on touchesBegan/
Moved/Ended/Cancelled. Verified by tapping the chess board: the
expected pawn highlights and its legal moves show as green dots.
- chdir to NSBundle.mainBundle.resourcePath inside UIKitPlatform.init so
the game's relative fopen("assets/...") calls resolve.
Required restructuring to fix four problems discovered along the way:
1. GL context + load_gl must happen BEFORE UIApplicationMain so the
game's pipeline.init (which compiles shaders) doesn't crash on null
function pointers. Pulled EAGLContext creation + load_gl out of
didFinishLaunching: into UIKitPlatform.init via uikit_create_gl_context.
2. UIScreen.nativeScale returns CGFloat (=double on 64-bit Apple).
Reading it through a `(*void, *void) -> f32` msgSend signature
clobbers the value to 0 — the upper 32 bits of d0 land where the f32
reads from. Replaced msg_f with msg_d returning f64 (and added
msg_odbl for setContentScaleFactor: which takes CGFloat).
3. `xx <f64-call-result>` directly assigned to an f32 field through a
sema path lowers as `sitofp` (integer→float) on the double — LLVM
verification rejects it. Workaround: hoist into an `f64` local first.
4. The renderer was selecting the GLSL 330 core shader on every non-wasm
target, including iOS GLES3 where it silently fails to compile and
no quads render. Added OS == .ios to the GLES branch.
Game changes:
- main.sx: g_plat is now a boxed `Platform` (not concrete *SdlPlatform).
Backend chosen per-target via `inline if OS == .ios { ... }`. The
ESC-to-stop handling is OS-guarded (mobile apps don't quit on key
press, and SDL_Keycode references would force-link SDL on iOS).
- build.sx: iOS no longer adds SDL3; it adds UIKit + OpenGLES +
QuartzCore instead.
- delta_time and viewport dims are now mirrored to free globals so the
dock subsystem (`g_dock_delta_time = @g_delta_time`) and build_ui
layout decisions don't need a pointer through the boxed protocol.
Other:
- Added `stop()` to the Platform protocol (no-op on UIKitPlatform).
- examples/66-uikit-platform.sx updated: taps advance the clear color
(red → green → blue) — smoke test for the touch IMP wiring.
- shutdown() on UIKitPlatform is a no-op (mobile apps don't tear down).
Outstanding for next session:
- The Dynamic Island notch overlaps the top of the board because we
haven't read UIView.safeAreaInsets yet (CGRect/UIEdgeInsets struct
returns require a different msgSend ABI than we currently express).
- Keyboard observer (UIKeyboardWillChangeFrameNotification + animation
duration) — the load-bearing iOS feature.
- Real-device codesigning workflow for the new build.
Two more sx compiler bugs to file out of this work:
- xx(f64 call result) → f32 emits sitofp (problem #3 above).
- Inline `#import` inside `inline if` fails to parse (we worked around
by importing both backends unconditionally; the unused-backend's
Obj-C calls are gated by `inline if OS == .ios`).
sx
An experimental systems programming language with Jai-inspired syntax, compile-time execution, generics, closures, protocols, and an LLVM backend.
Status: Highly experimental. The language and compiler are under active development.
At a Glance
#import "modules/std.sx";
Point :: struct {
x, y: s32;
magnitude :: (self: *Point) -> f32 { sqrt(self.x * self.x + self.y * self.y); }
}
main :: () {
p := Point.{ x = 3, y = 4 };
print("point: {}, magnitude: {}\n", p, p.magnitude());
}
Key characteristics:
- Jai-inspired declaration syntax:
name :: valuefor constants,name := valuefor variables - Compiles to native code via LLVM 19
- Compile-time execution with
#run - Generics via monomorphization
- First-class closures with value capture
- Protocol-based polymorphism (traits)
- Pattern matching on enums, optionals, and type categories
- C interop via
#foreignand#import c - Targets: macOS (ARM64, x86_64), Linux (x86_64, ARM64), Windows (x86_64), WebAssembly
Building
Requires Zig 0.16+ and LLVM 19+.
zig build
On macOS with Homebrew LLVM:
# default path: /opt/homebrew/opt/llvm@19
zig build
Custom LLVM path:
zig build -Dllvm-prefix=/path/to/llvm
Usage
sx run file.sx # compile and run
sx build file.sx # compile to binary
sx build file.sx -o out # compile with output path
sx ir file.sx # emit LLVM IR
sx lsp # start language server
Options:
--target <triple> target platform (shortcuts: macos, linux, windows, wasm)
--opt <level> optimization: none, less, default, aggressive
--cpu <name> target CPU
-o <path> output path
Language Overview
Types
| Type | Description |
|---|---|
s8..s64, u8..u64 |
Signed/unsigned integers (default: s64) |
f32, f64 |
Floating point (default: f32) |
bool |
true / false |
string |
UTF-8 fat pointer {ptr, len} |
[N]T |
Fixed-size array |
[]T |
Slice (fat pointer) |
*T, [*]T |
Single / many pointer |
?T |
Optional |
struct, enum, union |
Composite types |
Closure(args) -> ret |
Closure type |
Declarations
// Constants (compile-time when possible)
PI :: 3.14159;
MAX : s32 : 100;
// Variables (mutable)
x := 42; // inferred type
y : s32 = 0; // explicit type
z : s32 = ---; // uninitialized
Structs
Vec3 :: struct {
x, y, z: f32;
length :: (self: *Vec3) -> f32 {
sqrt(self.x * self.x + self.y * self.y + self.z * self.z);
}
}
v := Vec3.{ x = 1, y = 2, z = 3 };
v2 := Vec3.{ 1, 2, 3 }; // positional
print("{}\n", v.length());
Structs support field defaults, #using for composition, and methods defined in the body.
Enums (Tagged Unions)
Shape :: enum {
circle: f32;
rect: struct { w, h: f32; };
none;
}
area :: (s: Shape) -> f32 {
if s == {
case .circle: (r) => 3.14159 * r * r;
case .rect: (r) => r.w * r.h;
case .none: 0;
}
}
Flag enums with power-of-2 values:
Perms :: enum flags { read; write; execute; }
rw := Perms.read | Perms.write;
Optionals
x: ?s32 = 42;
y: ?s32 = null;
val := x ?? 0; // null coalescing
forced := x!; // force unwrap (traps on null)
if v := x { // safe unwrap
print("{}\n", v);
}
// Optional chaining
node: ?Node = get_node();
name := node?.name ?? "unknown";
Generics
max :: (a: $T, b: T) -> T {
if a > b then a else b;
}
List :: struct ($T: Type) {
items: [*]T;
len: s64;
append :: (self: *List(T), item: T) { ... }
}
Generic constraints via protocols:
are_equal :: ($T: Type/Eq, a: T, b: T) -> bool { a.eq(b); }
Closures
make_adder :: (n: s64) -> Closure(s64) -> s64 {
closure((x: s64) -> s64 => x + n);
}
add5 := make_adder(5);
print("{}\n", add5(100)); // 105
Closures capture by value. Bare functions auto-promote to closures when needed.
Protocols
Drawable :: protocol {
draw :: (x: s32, y: s32);
}
impl Drawable for Circle {
draw :: (self: *Circle, x: s32, y: s32) { ... }
}
shape : Drawable = xx my_circle; // type erasure via xx
shape.draw(10, 20); // dynamic dispatch
#inline protocols store function pointers directly (no vtable indirection):
Allocator :: protocol #inline {
alloc :: (size: s64) -> *void;
dealloc :: (ptr: *void);
}
Pattern Matching
// On enums
if shape == {
case .circle: (r) => print("radius: {}\n", r);
case .rect: (r) => print("{}x{}\n", r.w, r.h);
case .none: print("nothing\n");
}
// On optionals
if opt == {
case .some: (val) => use(val);
case .none: fallback();
}
// On type categories (via Any)
if type_of(val) == {
case int: print("integer\n");
case string: print("string\n");
case struct: print("struct\n");
}
Control Flow
// Chained comparisons
if 0 <= x <= 100 { ... }
// While
while i < 10 { i += 1; }
// For (arrays and slices)
for items: (val) { print("{}\n", val); }
for items: (val, idx) { print("[{}] = {}\n", idx, val); }
// Defer
f := open("file.txt");
defer close(f);
// Multi-target assignment (atomic swap)
a, b = b, a;
Pipe Operator
result := data |> parse() |> transform() |> serialize();
// equivalent to: serialize(transform(parse(data)))
Compile-Time Execution
// Evaluate at compile time
FIBONACCI_10 :: #run fib(10);
// Generate code at compile time
#insert #run generate_lookup_table();
C Interop
Foreign functions:
libc :: #library "c";
printf :: (fmt: [:0]u8, args: ..Any) -> s32 #foreign libc;
write_fd :: (fd: s32, buf: [*]u8, count: u64) -> s64 #foreign libc "write";
Direct C header import:
#import c {
#include "vendors/mylib/api.h";
#source "vendors/mylib/impl.c";
};
Modules
#import "modules/std.sx"; // flat import
math :: #import "modules/math.sx"; // namespaced import
Implicit Context
Every program gets an implicit context with a default allocator:
// No boilerplate needed — context is auto-initialized
main :: () {
list := List(s64).create(); // uses context.allocator
list.append(42);
}
// Override allocator for a scope
push Context.{ allocator = my_arena } {
do_work(); // all allocations use my_arena
}
Quick Sort Example
#import "modules/std.sx";
quick_sort :: (items: []$T) {
partition :: (items: []T, lo: s64, hi: s64) -> s64 {
pivot := items[hi];
i := lo - 1;
j := lo;
while j < hi {
if items[j] < pivot {
i += 1;
items[i], items[j] = items[j], items[i];
}
j += 1;
}
i += 1;
items[i], items[hi] = items[hi], items[i];
i;
}
sort :: (items: []T, lo: s64, hi: s64) {
if lo < hi {
pi := partition(items, lo, hi);
sort(items, lo, pi - 1);
sort(items, pi + 1, hi);
}
}
sort(items, 0, items.len - 1);
}
main :: () {
arr : []s64 = .[333, 2, 3, 5, 2, 2, 3, 4, 5, 6, 6, 1];
quick_sort(arr);
print("{}\n", arr);
// [1, 2, 2, 2, 3, 3, 4, 5, 5, 6, 6, 333]
}
Standard Library
The standard library (modules/std.sx) provides:
- I/O:
print(fmt, args...),out(str) - Collections:
List($T)(dynamic array) - Strings:
concat,substr,int_to_string,float_to_string,cstring - Memory:
Allocatorprotocol,GPA(general purpose),Arena(bump allocator) - Math:
sqrt,sin,cos - Introspection:
type_of,type_name,field_count,field_name,field_value,size_of
Cross-Compilation
sx build app.sx --target linux # Linux x86_64
sx build app.sx --target macos-arm # macOS ARM64
sx build app.sx --target windows # Windows x86_64
sx build app.sx --target wasm # WebAssembly
Acknowledgments
- Jonathan Blow for Jai, the language that inspired this one
- Andrew Kelley for Zig, which made this compiler a joy to write
License
MIT