630 lines
18 KiB
Rust
630 lines
18 KiB
Rust
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import intrinsic::{tydesc, get_tydesc, visit_tydesc, ty_visitor};
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import libc::c_void;
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// FIXME: this is a near-duplicate of code in core::vec.
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type unboxed_vec_repr = {
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mut fill: uint,
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mut alloc: uint,
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data: u8
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};
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#[doc = "High-level interfaces to `intrinsic::visit_ty` reflection system."]
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/// Trait for visitor that wishes to reflect on data.
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trait movable_ptr {
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fn move_ptr(adjustment: fn(*c_void) -> *c_void);
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}
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/// Helper function for alignment calculation.
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#[inline(always)]
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fn align(size: uint, align: uint) -> uint {
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((size + align) - 1u) & !(align - 1u)
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}
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enum ptr_visit_adaptor<V: ty_visitor movable_ptr> = {
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inner: V
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};
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impl<V: ty_visitor movable_ptr> ptr_visit_adaptor<V>: ty_visitor {
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#[inline(always)]
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fn bump(sz: uint) {
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do self.inner.move_ptr() |p| {
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((p as uint) + sz) as *c_void
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};
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}
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#[inline(always)]
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fn align(a: uint) {
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do self.inner.move_ptr() |p| {
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align(p as uint, a) as *c_void
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};
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}
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#[inline(always)]
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fn align_to<T>() {
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self.align(sys::min_align_of::<T>());
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}
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#[inline(always)]
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fn bump_past<T>() {
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self.bump(sys::size_of::<T>());
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}
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fn visit_bot() -> bool {
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self.align_to::<()>();
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if ! self.inner.visit_bot() { return false; }
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self.bump_past::<()>();
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true
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}
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fn visit_nil() -> bool {
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self.align_to::<()>();
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if ! self.inner.visit_nil() { return false; }
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self.bump_past::<()>();
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true
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}
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fn visit_bool() -> bool {
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self.align_to::<bool>();
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if ! self.inner.visit_bool() { return false; }
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self.bump_past::<bool>();
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true
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}
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fn visit_int() -> bool {
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self.align_to::<int>();
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if ! self.inner.visit_int() { return false; }
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self.bump_past::<int>();
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true
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}
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fn visit_i8() -> bool {
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self.align_to::<i8>();
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if ! self.inner.visit_i8() { return false; }
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self.bump_past::<i8>();
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true
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}
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fn visit_i16() -> bool {
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self.align_to::<i16>();
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if ! self.inner.visit_i16() { return false; }
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self.bump_past::<i16>();
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true
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}
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fn visit_i32() -> bool {
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self.align_to::<i32>();
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if ! self.inner.visit_i32() { return false; }
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self.bump_past::<i32>();
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true
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}
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fn visit_i64() -> bool {
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self.align_to::<i64>();
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if ! self.inner.visit_i64() { return false; }
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self.bump_past::<i64>();
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true
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}
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fn visit_uint() -> bool {
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self.align_to::<uint>();
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if ! self.inner.visit_uint() { return false; }
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self.bump_past::<uint>();
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true
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}
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fn visit_u8() -> bool {
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self.align_to::<u8>();
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if ! self.inner.visit_u8() { return false; }
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self.bump_past::<u8>();
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true
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}
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fn visit_u16() -> bool {
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self.align_to::<u16>();
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if ! self.inner.visit_u16() { return false; }
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self.bump_past::<u16>();
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true
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}
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fn visit_u32() -> bool {
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self.align_to::<u32>();
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if ! self.inner.visit_u32() { return false; }
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self.bump_past::<u32>();
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true
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}
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fn visit_u64() -> bool {
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self.align_to::<u64>();
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if ! self.inner.visit_u64() { return false; }
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self.bump_past::<u64>();
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true
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}
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fn visit_float() -> bool {
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self.align_to::<float>();
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if ! self.inner.visit_float() { return false; }
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self.bump_past::<float>();
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true
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}
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fn visit_f32() -> bool {
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self.align_to::<f32>();
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if ! self.inner.visit_f32() { return false; }
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self.bump_past::<f32>();
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true
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}
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fn visit_f64() -> bool {
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self.align_to::<f64>();
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if ! self.inner.visit_f64() { return false; }
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self.bump_past::<f64>();
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true
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}
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fn visit_char() -> bool {
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self.align_to::<char>();
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if ! self.inner.visit_char() { return false; }
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self.bump_past::<char>();
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true
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}
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fn visit_str() -> bool {
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self.align_to::<~str>();
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if ! self.inner.visit_str() { return false; }
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self.bump_past::<~str>();
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true
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}
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fn visit_estr_box() -> bool {
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self.align_to::<@str>();
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if ! self.inner.visit_estr_box() { return false; }
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self.bump_past::<@str>();
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true
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}
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fn visit_estr_uniq() -> bool {
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self.align_to::<~str>();
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if ! self.inner.visit_estr_uniq() { return false; }
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self.bump_past::<~str>();
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true
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}
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fn visit_estr_slice() -> bool {
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self.align_to::<&static/str>();
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if ! self.inner.visit_estr_slice() { return false; }
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self.bump_past::<&static/str>();
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true
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}
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fn visit_estr_fixed(n: uint,
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sz: uint,
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align: uint) -> bool {
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self.align(align);
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if ! self.inner.visit_estr_fixed(n, sz, align) { return false; }
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self.bump(sz);
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true
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}
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fn visit_box(mtbl: uint, inner: *tydesc) -> bool {
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self.align_to::<@u8>();
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if ! self.inner.visit_box(mtbl, inner) { return false; }
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self.bump_past::<@u8>();
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true
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}
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fn visit_uniq(mtbl: uint, inner: *tydesc) -> bool {
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self.align_to::<~u8>();
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if ! self.inner.visit_uniq(mtbl, inner) { return false; }
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self.bump_past::<~u8>();
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true
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}
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fn visit_ptr(mtbl: uint, inner: *tydesc) -> bool {
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self.align_to::<*u8>();
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if ! self.inner.visit_ptr(mtbl, inner) { return false; }
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self.bump_past::<*u8>();
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true
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}
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fn visit_rptr(mtbl: uint, inner: *tydesc) -> bool {
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self.align_to::<&static/u8>();
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if ! self.inner.visit_rptr(mtbl, inner) { return false; }
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self.bump_past::<&static/u8>();
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true
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}
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fn visit_unboxed_vec(mtbl: uint, inner: *tydesc) -> bool {
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self.align_to::<unboxed_vec_repr>();
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// FIXME: Inner really has to move its own pointers on this one.
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// or else possibly we could have some weird interface wherein we
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// read-off a word from inner's pointers, but the read-word has to
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// always be the same in all sub-pointers? Dubious.
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if ! self.inner.visit_vec(mtbl, inner) { return false; }
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true
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}
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fn visit_vec(mtbl: uint, inner: *tydesc) -> bool {
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self.align_to::<~[u8]>();
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if ! self.inner.visit_vec(mtbl, inner) { return false; }
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self.bump_past::<~[u8]>();
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true
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}
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fn visit_evec_box(mtbl: uint, inner: *tydesc) -> bool {
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self.align_to::<@[u8]>();
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if ! self.inner.visit_evec_box(mtbl, inner) { return false; }
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self.bump_past::<@[u8]>();
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true
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}
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fn visit_evec_uniq(mtbl: uint, inner: *tydesc) -> bool {
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self.align_to::<~[u8]>();
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if ! self.inner.visit_evec_uniq(mtbl, inner) { return false; }
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self.bump_past::<~[u8]>();
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true
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}
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fn visit_evec_slice(mtbl: uint, inner: *tydesc) -> bool {
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self.align_to::<&static/[u8]>();
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if ! self.inner.visit_evec_slice(mtbl, inner) { return false; }
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self.bump_past::<&static/[u8]>();
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true
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}
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fn visit_evec_fixed(n: uint, sz: uint, align: uint,
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mtbl: uint, inner: *tydesc) -> bool {
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self.align(align);
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if ! self.inner.visit_evec_fixed(n, sz, align, mtbl, inner) {
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return false;
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}
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self.bump(sz);
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true
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}
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fn visit_enter_rec(n_fields: uint, sz: uint, align: uint) -> bool {
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self.align(align);
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if ! self.inner.visit_enter_rec(n_fields, sz, align) { return false; }
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true
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}
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fn visit_rec_field(i: uint, name: &str,
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mtbl: uint, inner: *tydesc) -> bool {
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if ! self.inner.visit_rec_field(i, name, mtbl, inner) { return false; }
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true
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}
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fn visit_leave_rec(n_fields: uint, sz: uint, align: uint) -> bool {
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if ! self.inner.visit_leave_rec(n_fields, sz, align) { return false; }
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true
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}
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fn visit_enter_class(n_fields: uint, sz: uint, align: uint) -> bool {
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self.align(align);
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if ! self.inner.visit_enter_class(n_fields, sz, align) {
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return false;
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}
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true
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}
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fn visit_class_field(i: uint, name: &str,
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mtbl: uint, inner: *tydesc) -> bool {
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if ! self.inner.visit_class_field(i, name, mtbl, inner) {
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return false;
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}
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true
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}
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fn visit_leave_class(n_fields: uint, sz: uint, align: uint) -> bool {
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if ! self.inner.visit_leave_class(n_fields, sz, align) {
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return false;
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}
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true
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}
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fn visit_enter_tup(n_fields: uint, sz: uint, align: uint) -> bool {
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self.align(align);
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if ! self.inner.visit_enter_tup(n_fields, sz, align) { return false; }
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true
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}
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fn visit_tup_field(i: uint, inner: *tydesc) -> bool {
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if ! self.inner.visit_tup_field(i, inner) { return false; }
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true
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}
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fn visit_leave_tup(n_fields: uint, sz: uint, align: uint) -> bool {
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if ! self.inner.visit_leave_tup(n_fields, sz, align) { return false; }
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true
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}
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fn visit_enter_fn(purity: uint, proto: uint,
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n_inputs: uint, retstyle: uint) -> bool {
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if ! self.inner.visit_enter_fn(purity, proto, n_inputs, retstyle) {
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return false
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}
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true
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}
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fn visit_fn_input(i: uint, mode: uint, inner: *tydesc) -> bool {
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if ! self.inner.visit_fn_input(i, mode, inner) { return false; }
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true
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}
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fn visit_fn_output(retstyle: uint, inner: *tydesc) -> bool {
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if ! self.inner.visit_fn_output(retstyle, inner) { return false; }
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true
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}
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fn visit_leave_fn(purity: uint, proto: uint,
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n_inputs: uint, retstyle: uint) -> bool {
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if ! self.inner.visit_leave_fn(purity, proto, n_inputs, retstyle) {
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return false;
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}
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true
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}
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fn visit_enter_enum(n_variants: uint, sz: uint, align: uint) -> bool {
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self.align(align);
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if ! self.inner.visit_enter_enum(n_variants, sz, align) { return false; }
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true
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}
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fn visit_enter_enum_variant(variant: uint,
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disr_val: int,
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n_fields: uint,
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name: &str) -> bool {
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if ! self.inner.visit_enter_enum_variant(variant, disr_val,
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n_fields, name) {
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return false;
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}
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true
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}
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fn visit_enum_variant_field(i: uint, inner: *tydesc) -> bool {
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if ! self.inner.visit_enum_variant_field(i, inner) { return false; }
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true
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}
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fn visit_leave_enum_variant(variant: uint,
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disr_val: int,
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n_fields: uint,
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name: &str) -> bool {
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if ! self.inner.visit_leave_enum_variant(variant, disr_val,
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n_fields, name) {
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return false;
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}
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true
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}
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fn visit_leave_enum(n_variants: uint, sz: uint, align: uint) -> bool {
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if ! self.inner.visit_leave_enum(n_variants, sz, align) { return false; }
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true
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}
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fn visit_trait() -> bool {
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self.align_to::<ty_visitor>();
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if ! self.inner.visit_trait() { return false; }
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self.bump_past::<ty_visitor>();
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true
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}
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fn visit_var() -> bool {
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if ! self.inner.visit_var() { return false; }
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true
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}
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fn visit_var_integral() -> bool {
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if ! self.inner.visit_var_integral() { return false; }
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true
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}
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fn visit_param(i: uint) -> bool {
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if ! self.inner.visit_param(i) { return false; }
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true
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}
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fn visit_self() -> bool {
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self.align_to::<&static/u8>();
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if ! self.inner.visit_self() { return false; }
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self.align_to::<&static/u8>();
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true
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}
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fn visit_type() -> bool {
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if ! self.inner.visit_type() { return false; }
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true
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}
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fn visit_opaque_box() -> bool {
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self.align_to::<@u8>();
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if ! self.inner.visit_opaque_box() { return false; }
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self.bump_past::<@u8>();
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true
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}
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fn visit_constr(inner: *tydesc) -> bool {
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if ! self.inner.visit_constr(inner) { return false; }
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true
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}
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fn visit_closure_ptr(ck: uint) -> bool {
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self.align_to::<fn@()>();
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if ! self.inner.visit_closure_ptr(ck) { return false; }
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self.bump_past::<fn@()>();
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true
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}
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}
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enum my_visitor = @{
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mut ptr1: *c_void,
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mut ptr2: *c_void,
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mut vals: ~[~str]
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};
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impl my_visitor {
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fn get<T>(f: fn(T)) {
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unsafe {
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f(*(self.ptr1 as *T));
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}
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}
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fn visit_inner(inner: *tydesc) -> bool {
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let u = my_visitor(*self);
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let v = ptr_visit_adaptor({inner: u});
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visit_tydesc(inner, v as ty_visitor);
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true
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}
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}
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impl my_visitor: movable_ptr {
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fn move_ptr(adjustment: fn(*c_void) -> *c_void) {
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self.ptr1 = adjustment(self.ptr1);
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self.ptr2 = adjustment(self.ptr2);
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}
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}
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impl my_visitor: ty_visitor {
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fn visit_bot() -> bool { true }
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fn visit_nil() -> bool { true }
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fn visit_bool() -> bool {
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do self.get::<bool>() |b| {
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self.vals += ~[bool::to_str(b)];
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};
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true
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}
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fn visit_int() -> bool {
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do self.get::<int>() |i| {
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self.vals += ~[int::to_str(i, 10u)];
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};
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true
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}
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fn visit_i8() -> bool { true }
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fn visit_i16() -> bool { true }
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fn visit_i32() -> bool { true }
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fn visit_i64() -> bool { true }
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fn visit_uint() -> bool { true }
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fn visit_u8() -> bool { true }
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fn visit_u16() -> bool { true }
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fn visit_u32() -> bool { true }
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fn visit_u64() -> bool { true }
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fn visit_float() -> bool { true }
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fn visit_f32() -> bool { true }
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fn visit_f64() -> bool { true }
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fn visit_char() -> bool { true }
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fn visit_str() -> bool { true }
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fn visit_estr_box() -> bool { true }
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fn visit_estr_uniq() -> bool { true }
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fn visit_estr_slice() -> bool { true }
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fn visit_estr_fixed(_n: uint, _sz: uint,
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_align: uint) -> bool { true }
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fn visit_box(_mtbl: uint, _inner: *tydesc) -> bool { true }
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fn visit_uniq(_mtbl: uint, _inner: *tydesc) -> bool { true }
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fn visit_ptr(_mtbl: uint, _inner: *tydesc) -> bool { true }
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fn visit_rptr(_mtbl: uint, _inner: *tydesc) -> bool { true }
|
|
|
|
fn visit_vec(_mtbl: uint, _inner: *tydesc) -> bool { true }
|
|
fn visit_unboxed_vec(_mtbl: uint, _inner: *tydesc) -> bool { true }
|
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fn visit_evec_box(_mtbl: uint, _inner: *tydesc) -> bool { true }
|
|
fn visit_evec_uniq(_mtbl: uint, _inner: *tydesc) -> bool { true }
|
|
fn visit_evec_slice(_mtbl: uint, _inner: *tydesc) -> bool { true }
|
|
fn visit_evec_fixed(_n: uint, _sz: uint, _align: uint,
|
|
_mtbl: uint, _inner: *tydesc) -> bool { true }
|
|
|
|
fn visit_enter_rec(_n_fields: uint,
|
|
_sz: uint, _align: uint) -> bool { true }
|
|
fn visit_rec_field(_i: uint, _name: &str,
|
|
_mtbl: uint, inner: *tydesc) -> bool {
|
|
error!("rec field!");
|
|
self.visit_inner(inner)
|
|
}
|
|
fn visit_leave_rec(_n_fields: uint,
|
|
_sz: uint, _align: uint) -> bool { true }
|
|
|
|
fn visit_enter_class(_n_fields: uint,
|
|
_sz: uint, _align: uint) -> bool { true }
|
|
fn visit_class_field(_i: uint, _name: &str,
|
|
_mtbl: uint, inner: *tydesc) -> bool {
|
|
self.visit_inner(inner)
|
|
}
|
|
fn visit_leave_class(_n_fields: uint,
|
|
_sz: uint, _align: uint) -> bool { true }
|
|
|
|
fn visit_enter_tup(_n_fields: uint,
|
|
_sz: uint, _align: uint) -> bool { true }
|
|
fn visit_tup_field(_i: uint, inner: *tydesc) -> bool {
|
|
error!("tup field!");
|
|
self.visit_inner(inner)
|
|
}
|
|
fn visit_leave_tup(_n_fields: uint,
|
|
_sz: uint, _align: uint) -> bool { true }
|
|
|
|
fn visit_enter_enum(_n_variants: uint,
|
|
_sz: uint, _align: uint) -> bool {
|
|
// FIXME: this needs to rewind between enum variants, or something.
|
|
true
|
|
}
|
|
fn visit_enter_enum_variant(_variant: uint,
|
|
_disr_val: int,
|
|
_n_fields: uint,
|
|
_name: &str) -> bool { true }
|
|
fn visit_enum_variant_field(_i: uint, inner: *tydesc) -> bool {
|
|
self.visit_inner(inner)
|
|
}
|
|
fn visit_leave_enum_variant(_variant: uint,
|
|
_disr_val: int,
|
|
_n_fields: uint,
|
|
_name: &str) -> bool { true }
|
|
fn visit_leave_enum(_n_variants: uint,
|
|
_sz: uint, _align: uint) -> bool { true }
|
|
|
|
fn visit_enter_fn(_purity: uint, _proto: uint,
|
|
_n_inputs: uint, _retstyle: uint) -> bool { true }
|
|
fn visit_fn_input(_i: uint, _mode: uint, _inner: *tydesc) -> bool { true }
|
|
fn visit_fn_output(_retstyle: uint, _inner: *tydesc) -> bool { true }
|
|
fn visit_leave_fn(_purity: uint, _proto: uint,
|
|
_n_inputs: uint, _retstyle: uint) -> bool { true }
|
|
|
|
|
|
fn visit_trait() -> bool { true }
|
|
fn visit_var() -> bool { true }
|
|
fn visit_var_integral() -> bool { true }
|
|
fn visit_param(_i: uint) -> bool { true }
|
|
fn visit_self() -> bool { true }
|
|
fn visit_type() -> bool { true }
|
|
fn visit_opaque_box() -> bool { true }
|
|
fn visit_constr(_inner: *tydesc) -> bool { true }
|
|
fn visit_closure_ptr(_ck: uint) -> bool { true }
|
|
}
|
|
|
|
fn get_tydesc_for<T>(&&_t: T) -> *tydesc {
|
|
get_tydesc::<T>()
|
|
}
|
|
|
|
fn main() {
|
|
let r = (1,2,3,true,false,{x:5,y:4,z:3});
|
|
let p = ptr::addr_of(r) as *c_void;
|
|
let u = my_visitor(@{mut ptr1: p,
|
|
mut ptr2: p,
|
|
mut vals: ~[]});
|
|
let v = ptr_visit_adaptor({inner: u});
|
|
let td = get_tydesc_for(r);
|
|
unsafe { error!("tydesc sz: %u, align: %u",
|
|
(*td).size, (*td).align); }
|
|
let v = v as ty_visitor;
|
|
visit_tydesc(td, v);
|
|
|
|
for (copy u.vals).each |s| {
|
|
io::println(fmt!("val: %s", s));
|
|
}
|
|
error!("%?", copy u.vals);
|
|
assert u.vals == ~[~"1", ~"2", ~"3", ~"true", ~"false", ~"5", ~"4", ~"3"];
|
|
}
|