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.

examples/1147-diagnostics-float-division-narrowing.sx

@@ -20,7 +20,7 @@
 // integer truncating division; each now rejects the non-integral float.
 #import "modules/std.sx";
 
-// An UNTYPED float-EXPRESSION const carries a placeholder `s64` type, yet its
+// An UNTYPED float-EXPRESSION const carries a placeholder `i64` type, yet its
 // value is float — `ME / 2` is still float division and must reject (judged by
 // the const's VALUE, not its declared type), at BOTH the typed-binding path and
 // the count path.
@@ -28,19 +28,19 @@ ME :: 4.0 + 1.0;       // untyped float-EXPRESSION const (= 5.0)
 
 // Typed CONST: declared but not referenced, so the single narrowing error is not
 // followed by a downstream "unresolved const" cascade.
-K : s64 : 5.0 / 2.0;   // 2.5 non-integral float-DIVISION const → error
+K : i64 : 5.0 / 2.0;   // 2.5 non-integral float-DIVISION const → error
 
 BadField :: struct {
-    f : s64 = 5.0 / 2.0;   // non-integral float-DIVISION field default → error
+    f : i64 = 5.0 / 2.0;   // non-integral float-DIVISION field default → error
 }
 
-badParam :: (x : s64 = 5.0 / 2.0) -> s64 { return x; }  // float-DIVISION param default → error
+badParam :: (x : i64 = 5.0 / 2.0) -> i64 { return x; }  // float-DIVISION param default → error
 
 main :: () {
-    local : s64 = 5.0 / 2.0;     // non-integral float-DIVISION local → error
-    dim : [5.0 / 2.0]s64 = ---;  // non-integral float-DIVISION array dimension → error
-    cdiv : s64 = ME / 2;         // untyped float-EXPR const division (5.0/2 = 2.5) → error
-    cdim : [ME / 2]s64 = ---;    // same, at the count path → error
+    local : i64 = 5.0 / 2.0;     // non-integral float-DIVISION local → error
+    dim : [5.0 / 2.0]i64 = ---;  // non-integral float-DIVISION array dimension → error
+    cdiv : i64 = ME / 2;         // untyped float-EXPR const division (5.0/2 = 2.5) → error
+    cdim : [ME / 2]i64 = ---;    // same, at the count path → error
     b := BadField.{};
     print("{} {} {} {} {} {}\n", local, b.f, badParam(), dim.len, cdiv, cdim.len);
 }