/*! * Helper types for interfacing with the `intrinsic::visit_ty` * reflection system. */ use intrinsic::{TyDesc, get_tydesc, visit_tydesc, TyVisitor}; use libc::c_void; /** * Trait for visitor that wishes to reflect on data. To use this, create a * struct that encapsulates the set of pointers you wish to walk through a * data structure, and implement both `MovePtr` for it as well as `TyVisitor`; * then build a MovePtrAdaptor wrapped around your struct. */ trait MovePtr { fn move_ptr(adjustment: fn(*c_void) -> *c_void); } /// Helper function for alignment calculation. #[inline(always)] fn align(size: uint, align: uint) -> uint { ((size + align) - 1u) & !(align - 1u) } /// Adaptor to wrap around visitors implementing MovePtr. struct MovePtrAdaptor { inner: V } pub fn MovePtrAdaptor(+v: V) -> MovePtrAdaptor { MovePtrAdaptor { inner: move v } } /// Abstract type-directed pointer-movement using the MovePtr trait impl MovePtrAdaptor: TyVisitor { #[inline(always)] fn bump(sz: uint) { do self.inner.move_ptr() |p| { ((p as uint) + sz) as *c_void }; } #[inline(always)] fn align(a: uint) { do self.inner.move_ptr() |p| { align(p as uint, a) as *c_void }; } #[inline(always)] fn align_to() { self.align(sys::min_align_of::()); } #[inline(always)] fn bump_past() { self.bump(sys::size_of::()); } fn visit_bot() -> bool { self.align_to::<()>(); if ! self.inner.visit_bot() { return false; } self.bump_past::<()>(); true } fn visit_nil() -> bool { self.align_to::<()>(); if ! self.inner.visit_nil() { return false; } self.bump_past::<()>(); true } fn visit_bool() -> bool { self.align_to::(); if ! self.inner.visit_bool() { return false; } self.bump_past::(); true } fn visit_int() -> bool { self.align_to::(); if ! self.inner.visit_int() { return false; } self.bump_past::(); true } fn visit_i8() -> bool { self.align_to::(); if ! self.inner.visit_i8() { return false; } self.bump_past::(); true } fn visit_i16() -> bool { self.align_to::(); if ! self.inner.visit_i16() { return false; } self.bump_past::(); true } fn visit_i32() -> bool { self.align_to::(); if ! self.inner.visit_i32() { return false; } self.bump_past::(); true } fn visit_i64() -> bool { self.align_to::(); if ! self.inner.visit_i64() { return false; } self.bump_past::(); true } fn visit_uint() -> bool { self.align_to::(); if ! self.inner.visit_uint() { return false; } self.bump_past::(); true } fn visit_u8() -> bool { self.align_to::(); if ! self.inner.visit_u8() { return false; } self.bump_past::(); true } fn visit_u16() -> bool { self.align_to::(); if ! self.inner.visit_u16() { return false; } self.bump_past::(); true } fn visit_u32() -> bool { self.align_to::(); if ! self.inner.visit_u32() { return false; } self.bump_past::(); true } fn visit_u64() -> bool { self.align_to::(); if ! self.inner.visit_u64() { return false; } self.bump_past::(); true } fn visit_float() -> bool { self.align_to::(); if ! self.inner.visit_float() { return false; } self.bump_past::(); true } fn visit_f32() -> bool { self.align_to::(); if ! self.inner.visit_f32() { return false; } self.bump_past::(); true } fn visit_f64() -> bool { self.align_to::(); if ! self.inner.visit_f64() { return false; } self.bump_past::(); true } fn visit_char() -> bool { self.align_to::(); if ! self.inner.visit_char() { return false; } self.bump_past::(); true } fn visit_str() -> bool { self.align_to::<~str>(); if ! self.inner.visit_str() { return false; } self.bump_past::<~str>(); true } fn visit_estr_box() -> bool { self.align_to::<@str>(); if ! self.inner.visit_estr_box() { return false; } self.bump_past::<@str>(); true } fn visit_estr_uniq() -> bool { self.align_to::<~str>(); if ! self.inner.visit_estr_uniq() { return false; } self.bump_past::<~str>(); true } fn visit_estr_slice() -> bool { self.align_to::<&static/str>(); if ! self.inner.visit_estr_slice() { return false; } self.bump_past::<&static/str>(); true } fn visit_estr_fixed(n: uint, sz: uint, align: uint) -> bool { self.align(align); if ! self.inner.visit_estr_fixed(n, sz, align) { return false; } self.bump(sz); true } fn visit_box(mtbl: uint, inner: *TyDesc) -> bool { self.align_to::<@u8>(); if ! self.inner.visit_box(mtbl, inner) { return false; } self.bump_past::<@u8>(); true } fn visit_uniq(mtbl: uint, inner: *TyDesc) -> bool { self.align_to::<~u8>(); if ! self.inner.visit_uniq(mtbl, inner) { return false; } self.bump_past::<~u8>(); true } fn visit_ptr(mtbl: uint, inner: *TyDesc) -> bool { self.align_to::<*u8>(); if ! self.inner.visit_ptr(mtbl, inner) { return false; } self.bump_past::<*u8>(); true } fn visit_rptr(mtbl: uint, inner: *TyDesc) -> bool { self.align_to::<&static/u8>(); if ! self.inner.visit_rptr(mtbl, inner) { return false; } self.bump_past::<&static/u8>(); true } fn visit_unboxed_vec(mtbl: uint, inner: *TyDesc) -> bool { self.align_to::(); if ! self.inner.visit_vec(mtbl, inner) { return false; } true } fn visit_vec(mtbl: uint, inner: *TyDesc) -> bool { self.align_to::<~[u8]>(); if ! self.inner.visit_vec(mtbl, inner) { return false; } self.bump_past::<~[u8]>(); true } fn visit_evec_box(mtbl: uint, inner: *TyDesc) -> bool { self.align_to::<@[u8]>(); if ! self.inner.visit_evec_box(mtbl, inner) { return false; } self.bump_past::<@[u8]>(); true } fn visit_evec_uniq(mtbl: uint, inner: *TyDesc) -> bool { self.align_to::<~[u8]>(); if ! self.inner.visit_evec_uniq(mtbl, inner) { return false; } self.bump_past::<~[u8]>(); true } fn visit_evec_slice(mtbl: uint, inner: *TyDesc) -> bool { self.align_to::<&static/[u8]>(); if ! self.inner.visit_evec_slice(mtbl, inner) { return false; } self.bump_past::<&static/[u8]>(); true } fn visit_evec_fixed(n: uint, sz: uint, align: uint, mtbl: uint, inner: *TyDesc) -> bool { self.align(align); if ! self.inner.visit_evec_fixed(n, sz, align, mtbl, inner) { return false; } self.bump(sz); true } fn visit_enter_rec(n_fields: uint, sz: uint, align: uint) -> bool { self.align(align); if ! self.inner.visit_enter_rec(n_fields, sz, align) { return false; } true } fn visit_rec_field(i: uint, name: &str, mtbl: uint, inner: *TyDesc) -> bool { unsafe { self.align((*inner).align); } if ! self.inner.visit_rec_field(i, name, mtbl, inner) { return false; } unsafe { self.bump((*inner).size); } true } fn visit_leave_rec(n_fields: uint, sz: uint, align: uint) -> bool { if ! self.inner.visit_leave_rec(n_fields, sz, align) { return false; } true } fn visit_enter_class(n_fields: uint, sz: uint, align: uint) -> bool { self.align(align); if ! self.inner.visit_enter_class(n_fields, sz, align) { return false; } true } fn visit_class_field(i: uint, name: &str, mtbl: uint, inner: *TyDesc) -> bool { unsafe { self.align((*inner).align); } if ! self.inner.visit_class_field(i, name, mtbl, inner) { return false; } unsafe { self.bump((*inner).size); } true } fn visit_leave_class(n_fields: uint, sz: uint, align: uint) -> bool { if ! self.inner.visit_leave_class(n_fields, sz, align) { return false; } true } fn visit_enter_tup(n_fields: uint, sz: uint, align: uint) -> bool { self.align(align); if ! self.inner.visit_enter_tup(n_fields, sz, align) { return false; } true } fn visit_tup_field(i: uint, inner: *TyDesc) -> bool { unsafe { self.align((*inner).align); } if ! self.inner.visit_tup_field(i, inner) { return false; } unsafe { self.bump((*inner).size); } true } fn visit_leave_tup(n_fields: uint, sz: uint, align: uint) -> bool { if ! self.inner.visit_leave_tup(n_fields, sz, align) { return false; } true } fn visit_enter_fn(purity: uint, proto: uint, n_inputs: uint, retstyle: uint) -> bool { if ! self.inner.visit_enter_fn(purity, proto, n_inputs, retstyle) { return false } true } fn visit_fn_input(i: uint, mode: uint, inner: *TyDesc) -> bool { if ! self.inner.visit_fn_input(i, mode, inner) { return false; } true } fn visit_fn_output(retstyle: uint, inner: *TyDesc) -> bool { if ! self.inner.visit_fn_output(retstyle, inner) { return false; } true } fn visit_leave_fn(purity: uint, proto: uint, n_inputs: uint, retstyle: uint) -> bool { if ! self.inner.visit_leave_fn(purity, proto, n_inputs, retstyle) { return false; } true } fn visit_enter_enum(n_variants: uint, sz: uint, align: uint) -> bool { self.align(align); if ! self.inner.visit_enter_enum(n_variants, sz, align) { return false; } true } fn visit_enter_enum_variant(variant: uint, disr_val: int, n_fields: uint, name: &str) -> bool { if ! self.inner.visit_enter_enum_variant(variant, disr_val, n_fields, name) { return false; } true } fn visit_enum_variant_field(i: uint, inner: *TyDesc) -> bool { if ! self.inner.visit_enum_variant_field(i, inner) { return false; } true } fn visit_leave_enum_variant(variant: uint, disr_val: int, n_fields: uint, name: &str) -> bool { if ! self.inner.visit_leave_enum_variant(variant, disr_val, n_fields, name) { return false; } true } fn visit_leave_enum(n_variants: uint, sz: uint, align: uint) -> bool { if ! self.inner.visit_leave_enum(n_variants, sz, align) { return false; } true } fn visit_trait() -> bool { self.align_to::(); if ! self.inner.visit_trait() { return false; } self.bump_past::(); true } fn visit_var() -> bool { if ! self.inner.visit_var() { return false; } true } fn visit_var_integral() -> bool { if ! self.inner.visit_var_integral() { return false; } true } fn visit_param(i: uint) -> bool { if ! self.inner.visit_param(i) { return false; } true } fn visit_self() -> bool { self.align_to::<&static/u8>(); if ! self.inner.visit_self() { return false; } self.align_to::<&static/u8>(); true } fn visit_type() -> bool { if ! self.inner.visit_type() { return false; } true } fn visit_opaque_box() -> bool { self.align_to::<@u8>(); if ! self.inner.visit_opaque_box() { return false; } self.bump_past::<@u8>(); true } fn visit_constr(inner: *TyDesc) -> bool { if ! self.inner.visit_constr(inner) { return false; } true } fn visit_closure_ptr(ck: uint) -> bool { self.align_to::(); if ! self.inner.visit_closure_ptr(ck) { return false; } self.bump_past::(); true } }