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sx/library/modules/allocators.sx
agra c027e1969b stdlib: relocate modules under library/ 
- examples/modules/ -> library/modules/ (top-level, no more
  symlink hacks in consumer projects)
- compiler discovers stdlib via _NSGetExecutablePath / readlink
  /proc/self/exe; searches dev layout (../../library), install
  layout (../library), and alongside-binary fallback
- SX_STDLIB_PATH env var overrides for tests / dev convenience
- SX_DEBUG_STDLIB env var dumps the discovery results
- build.zig installs library/ alongside the binary
- Compilation gains stdlib_paths field threaded through resolveImports
- 50 tests pass; consumer projects can now build from any cwd
2026-05-17 13:49:25 +03:00

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#import "std.sx";
// --- Allocator protocol (inline: ctx + fn-ptrs, no vtable indirection) ---
Allocator :: protocol #inline {
alloc :: (size: s64) -> *void;
dealloc :: (ptr: *void);
}
// --- GPA: general purpose allocator (malloc/free wrapper) ---
GPA :: struct {
alloc_count: s64;
create :: (gpa: *GPA) -> Allocator {
xx gpa;
}
}
impl Allocator for GPA {
alloc :: (self: *GPA, size: s64) -> *void {
self.alloc_count += 1;
malloc(size);
}
dealloc :: (self: *GPA, ptr: *void) {
self.alloc_count -= 1;
free(ptr);
}
}
// --- Arena: multi-chunk bump allocator ---
ArenaChunk :: struct {
next: *ArenaChunk;
cap: s64;
}
Arena :: struct {
first: *ArenaChunk;
end_index: s64;
parent: Allocator;
add_chunk :: (a: *Arena, min_size: s64) {
prev_cap := if a.first != null then a.first.cap else 0;
needed := min_size + 16 + 16;
len := (prev_cap + needed) * 3 / 2;
raw := a.parent.alloc(len);
chunk : *ArenaChunk = xx raw;
chunk.next = a.first;
chunk.cap = len;
a.first = chunk;
a.end_index = 0;
}
create :: (a: *Arena, parent: Allocator, size: s64) -> Allocator {
a.first = null;
a.end_index = 0;
a.parent = parent;
a.add_chunk(size);
xx a;
}
reset :: (a: *Arena) {
if a.first != null {
it := a.first.next;
while it != null {
next := it.next;
a.parent.dealloc(it);
it = next;
}
a.first.next = null;
}
a.end_index = 0;
}
deinit :: (a: *Arena) {
it := a.first;
while it != null {
next := it.next;
a.parent.dealloc(it);
it = next;
}
a.first = null;
a.end_index = 0;
}
}
impl Allocator for Arena {
alloc :: (self: *Arena, size: s64) -> *void {
aligned := (size + 7) & (0 - 8);
if self.first != null {
usable := self.first.cap - 16;
if self.end_index + aligned <= usable {
buf : [*]u8 = xx self.first;
ptr := @buf[16 + self.end_index];
self.end_index = self.end_index + aligned;
return ptr;
}
}
self.add_chunk(aligned);
buf : [*]u8 = xx self.first;
ptr := @buf[16 + self.end_index];
self.end_index = self.end_index + aligned;
ptr;
}
dealloc :: (self: *Arena, ptr: *void) {}
}
// --- BufAlloc: bump allocator backed by a user-provided slice ---
BufAlloc :: struct {
buf: [*]u8;
len: s64;
pos: s64;
create :: (b: *BufAlloc, buf: [*]u8, len: s64) -> Allocator {
b.buf = buf;
b.len = len;
b.pos = 0;
xx b;
}
reset :: (b: *BufAlloc) {
b.pos = 0;
}
}
impl Allocator for BufAlloc {
alloc :: (self: *BufAlloc, size: s64) -> *void {
aligned := (size + 7) & (0 - 8);
if self.pos + aligned > self.len {
return null;
}
ptr := @self.buf[self.pos];
self.pos = self.pos + aligned;
ptr;
}
dealloc :: (self: *BufAlloc, ptr: *void) {}
}
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