d8076b9333
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.
80 lines
2.6 KiB
Plaintext
80 lines
2.6 KiB
Plaintext
// Phase 0 baseline (PLAN-FFI.md step 0.9): FFI result chains. The
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// shapes that real sx code uses for opaque C handles (MTLBuffer*,
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// AAssetManager*, file pointers, ...) — passing a C-returned
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// pointer into another C call, stashing it in a struct field,
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// pushing into a `List(*void)`, and iterating that list to feed each
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// handle back through C.
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//
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// No new ABI shape — pointer-in, pointer-out. The lemma locked in:
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// handle-shaped flows survive sx's struct-field assignment, List
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// storage, and iteration-then-call cycles.
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#import "modules/std.sx";
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#import c {
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#include "1217-ffi-09-foreign-result-chain.h";
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#source "1217-ffi-09-foreign-result-chain.c";
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};
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// Struct field hosts an FFI-returned handle.
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Counter :: struct {
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handle: *void = null;
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label: string;
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}
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main :: () -> i32 {
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// ── 1. Chain: make → bump → peek ───────────────────────────────
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a := ffi_chain_make(100);
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print("peek after make = {}\n", ffi_chain_peek(a));
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print("bump(+5) = {}\n", ffi_chain_bump(a, 5));
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print("bump(+3) = {}\n", ffi_chain_bump(a, 3));
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print("peek after bumps = {}\n", ffi_chain_peek(a));
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// ── 2. Stash handle in a struct field, use through `.handle` ──
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c : Counter = .{ handle = ffi_chain_make(50), label = "ctr-a" };
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print("ctr label = {}\n", c.label);
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print("ctr peek = {}\n", ffi_chain_peek(c.handle));
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ffi_chain_bump(c.handle, 7);
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print("ctr after bump = {}\n", ffi_chain_peek(c.handle));
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// ── 3. Push handles into a List, iterate, feed back to C ──────
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handles : List(*void) = .{};
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i : i32 = 0;
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while i < 3 {
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h := ffi_chain_make(i * 10);
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handles.append(h);
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i += 1;
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}
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j : i64 = 0;
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while j < handles.len {
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h := handles.items[j];
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v := ffi_chain_peek(h);
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print("list[{}] peek = {}\n", j, v);
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j += 1;
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}
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// Iterate again, bump each, observe the cumulative effect.
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j = 0;
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while j < handles.len {
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ffi_chain_bump(handles.items[j], 1);
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j += 1;
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}
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j = 0;
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while j < handles.len {
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print("list[{}] after bump= {}\n", j, ffi_chain_peek(handles.items[j]));
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j += 1;
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}
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// ── Cleanup ─────────────────────────────────────────────────────
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ffi_chain_dispose(a);
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ffi_chain_dispose(c.handle);
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j = 0;
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while j < handles.len {
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ffi_chain_dispose(handles.items[j]);
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j += 1;
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}
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0
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}
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