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Removing a lot of usage of '&const'

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This commit is contained in:
Alex Crichton 2013-06-23 20:44:11 -07:00
parent 0326b0abed
commit b29c368674
17 changed files with 105 additions and 137 deletions
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4
src/libextra/arc.rs
View File

@ -436,8 +436,8 @@ impl<T:Freeze + Send> RWARC<T> {
// lock it. This wraps the unsafety, with the justification that the 'lock'
// field is never overwritten; only 'failed' and 'data'.
#[doc(hidden)]
fn borrow_rwlock<T:Freeze + Send>(state: *const RWARCInner<T>) -> *RWlock {
unsafe { cast::transmute(&const (*state).lock) }
fn borrow_rwlock<T:Freeze + Send>(state: *mut RWARCInner<T>) -> *RWlock {
unsafe { cast::transmute(&(*state).lock) }
}
/// The "write permission" token used for RWARC.write_downgrade().

4
src/libextra/bitv.rs
View File

@ -705,8 +705,8 @@ impl cmp::Eq for BitvSet {
}
impl Container for BitvSet {
fn len(&const self) -> uint { self.size }
fn is_empty(&const self) -> bool { self.size == 0 }
fn len(&self) -> uint { self.size }
fn is_empty(&self) -> bool { self.size == 0 }
}
impl Mutable for BitvSet {

4
src/libextra/deque.rs
View File

@ -28,10 +28,10 @@ pub struct Deque<T> {
impl<T> Container for Deque<T> {
/// Return the number of elements in the deque
fn len(&const self) -> uint { self.nelts }
fn len(&self) -> uint { self.nelts }
/// Return true if the deque contains no elements
fn is_empty(&const self) -> bool { self.len() == 0 }
fn is_empty(&self) -> bool { self.len() == 0 }
}
impl<T> Mutable for Deque<T> {

8
src/libextra/flate.rs
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@ -44,8 +44,8 @@ static lz_fast : c_int = 0x1; // LZ with only one probe
static lz_norm : c_int = 0x80; // LZ with 128 probes, "normal"
static lz_best : c_int = 0xfff; // LZ with 4095 probes, "best"
pub fn deflate_bytes(bytes: &const [u8]) -> ~[u8] {
do vec::as_const_buf(bytes) |b, len| {
pub fn deflate_bytes(bytes: &[u8]) -> ~[u8] {
do vec::as_imm_buf(bytes) |b, len| {
unsafe {
let mut outsz : size_t = 0;
let res =
@ -62,8 +62,8 @@ pub fn deflate_bytes(bytes: &const [u8]) -> ~[u8] {
}
}
pub fn inflate_bytes(bytes: &const [u8]) -> ~[u8] {
do vec::as_const_buf(bytes) |b, len| {
pub fn inflate_bytes(bytes: &[u8]) -> ~[u8] {
do vec::as_imm_buf(bytes) |b, len| {
unsafe {
let mut outsz : size_t = 0;
let res =

8
src/libextra/treemap.rs
View File

@ -87,10 +87,10 @@ impl<K: Ord + TotalOrd, V> Ord for TreeMap<K, V> {
impl<K: TotalOrd, V> Container for TreeMap<K, V> {
/// Return the number of elements in the map
fn len(&const self) -> uint { self.length }
fn len(&self) -> uint { self.length }
/// Return true if the map contains no elements
fn is_empty(&const self) -> bool { self.root.is_none() }
fn is_empty(&self) -> bool { self.root.is_none() }
}
impl<K: TotalOrd, V> Mutable for TreeMap<K, V> {
@ -265,11 +265,11 @@ impl<T: Ord + TotalOrd> Ord for TreeSet<T> {
impl<T: TotalOrd> Container for TreeSet<T> {
/// Return the number of elements in the set
#[inline]
fn len(&const self) -> uint { self.map.len() }
fn len(&self) -> uint { self.map.len() }
/// Return true if the set contains no elements
#[inline]
fn is_empty(&const self) -> bool { self.map.is_empty() }
fn is_empty(&self) -> bool { self.map.is_empty() }
}
impl<T: TotalOrd> Mutable for TreeSet<T> {

76
src/librustc/middle/lang_items.rs
View File

@ -152,122 +152,122 @@ impl LanguageItems {
// FIXME #4621: Method macros sure would be nice here.
pub fn freeze_trait(&const self) -> def_id {
pub fn freeze_trait(&self) -> def_id {
self.items[FreezeTraitLangItem as uint].get()
}
pub fn copy_trait(&const self) -> def_id {
pub fn copy_trait(&self) -> def_id {
self.items[CopyTraitLangItem as uint].get()
}
pub fn send_trait(&const self) -> def_id {
pub fn send_trait(&self) -> def_id {
self.items[SendTraitLangItem as uint].get()
}
pub fn sized_trait(&const self) -> def_id {
pub fn sized_trait(&self) -> def_id {
self.items[SizedTraitLangItem as uint].get()
}
pub fn drop_trait(&const self) -> def_id {
pub fn drop_trait(&self) -> def_id {
self.items[DropTraitLangItem as uint].get()
}
pub fn add_trait(&const self) -> def_id {
pub fn add_trait(&self) -> def_id {
self.items[AddTraitLangItem as uint].get()
}
pub fn sub_trait(&const self) -> def_id {
pub fn sub_trait(&self) -> def_id {
self.items[SubTraitLangItem as uint].get()
}
pub fn mul_trait(&const self) -> def_id {
pub fn mul_trait(&self) -> def_id {
self.items[MulTraitLangItem as uint].get()
}
pub fn div_trait(&const self) -> def_id {
pub fn div_trait(&self) -> def_id {
self.items[DivTraitLangItem as uint].get()
}
pub fn rem_trait(&const self) -> def_id {
pub fn rem_trait(&self) -> def_id {
self.items[RemTraitLangItem as uint].get()
}
pub fn neg_trait(&const self) -> def_id {
pub fn neg_trait(&self) -> def_id {
self.items[NegTraitLangItem as uint].get()
}
pub fn not_trait(&const self) -> def_id {
pub fn not_trait(&self) -> def_id {
self.items[NotTraitLangItem as uint].get()
}
pub fn bitxor_trait(&const self) -> def_id {
pub fn bitxor_trait(&self) -> def_id {
self.items[BitXorTraitLangItem as uint].get()
}
pub fn bitand_trait(&const self) -> def_id {
pub fn bitand_trait(&self) -> def_id {
self.items[BitAndTraitLangItem as uint].get()
}
pub fn bitor_trait(&const self) -> def_id {
pub fn bitor_trait(&self) -> def_id {
self.items[BitOrTraitLangItem as uint].get()
}
pub fn shl_trait(&const self) -> def_id {
pub fn shl_trait(&self) -> def_id {
self.items[ShlTraitLangItem as uint].get()
}
pub fn shr_trait(&const self) -> def_id {
pub fn shr_trait(&self) -> def_id {
self.items[ShrTraitLangItem as uint].get()
}
pub fn index_trait(&const self) -> def_id {
pub fn index_trait(&self) -> def_id {
self.items[IndexTraitLangItem as uint].get()
}
pub fn eq_trait(&const self) -> def_id {
pub fn eq_trait(&self) -> def_id {
self.items[EqTraitLangItem as uint].get()
}
pub fn ord_trait(&const self) -> def_id {
pub fn ord_trait(&self) -> def_id {
self.items[OrdTraitLangItem as uint].get()
}
pub fn str_eq_fn(&const self) -> def_id {
pub fn str_eq_fn(&self) -> def_id {
self.items[StrEqFnLangItem as uint].get()
}
pub fn uniq_str_eq_fn(&const self) -> def_id {
pub fn uniq_str_eq_fn(&self) -> def_id {
self.items[UniqStrEqFnLangItem as uint].get()
}
pub fn annihilate_fn(&const self) -> def_id {
pub fn annihilate_fn(&self) -> def_id {
self.items[AnnihilateFnLangItem as uint].get()
}
pub fn log_type_fn(&const self) -> def_id {
pub fn log_type_fn(&self) -> def_id {
self.items[LogTypeFnLangItem as uint].get()
}
pub fn fail_fn(&const self) -> def_id {
pub fn fail_fn(&self) -> def_id {
self.items[FailFnLangItem as uint].get()
}
pub fn fail_bounds_check_fn(&const self) -> def_id {
pub fn fail_bounds_check_fn(&self) -> def_id {
self.items[FailBoundsCheckFnLangItem as uint].get()
}
pub fn exchange_malloc_fn(&const self) -> def_id {
pub fn exchange_malloc_fn(&self) -> def_id {
self.items[ExchangeMallocFnLangItem as uint].get()
}
pub fn exchange_free_fn(&const self) -> def_id {
pub fn exchange_free_fn(&self) -> def_id {
self.items[ExchangeFreeFnLangItem as uint].get()
}
pub fn malloc_fn(&const self) -> def_id {
pub fn malloc_fn(&self) -> def_id {
self.items[MallocFnLangItem as uint].get()
}
pub fn free_fn(&const self) -> def_id {
pub fn free_fn(&self) -> def_id {
self.items[FreeFnLangItem as uint].get()
}
pub fn borrow_as_imm_fn(&const self) -> def_id {
pub fn borrow_as_imm_fn(&self) -> def_id {
self.items[BorrowAsImmFnLangItem as uint].get()
}
pub fn borrow_as_mut_fn(&const self) -> def_id {
pub fn borrow_as_mut_fn(&self) -> def_id {
self.items[BorrowAsMutFnLangItem as uint].get()
}
pub fn return_to_mut_fn(&const self) -> def_id {
pub fn return_to_mut_fn(&self) -> def_id {
self.items[ReturnToMutFnLangItem as uint].get()
}
pub fn check_not_borrowed_fn(&const self) -> def_id {
pub fn check_not_borrowed_fn(&self) -> def_id {
self.items[CheckNotBorrowedFnLangItem as uint].get()
}
pub fn strdup_uniq_fn(&const self) -> def_id {
pub fn strdup_uniq_fn(&self) -> def_id {
self.items[StrDupUniqFnLangItem as uint].get()
}
pub fn record_borrow_fn(&const self) -> def_id {
pub fn record_borrow_fn(&self) -> def_id {
self.items[RecordBorrowFnLangItem as uint].get()
}
pub fn unrecord_borrow_fn(&const self) -> def_id {
pub fn unrecord_borrow_fn(&self) -> def_id {
self.items[UnrecordBorrowFnLangItem as uint].get()
}
pub fn start_fn(&const self) -> def_id {
pub fn start_fn(&self) -> def_id {
self.items[StartFnLangItem as uint].get()
}
pub fn ty_desc(&const self) -> def_id {

4
src/librustc/middle/ty.rs
View File

@ -3696,14 +3696,14 @@ pub enum DtorKind {
}
impl DtorKind {
pub fn is_not_present(&const self) -> bool {
pub fn is_not_present(&self) -> bool {
match *self {
NoDtor => true,
_ => false
}
}
pub fn is_present(&const self) -> bool {
pub fn is_present(&self) -> bool {
!self.is_not_present()
}

2
src/librustc/middle/typeck/check/vtable.rs
View File

@ -64,7 +64,7 @@ pub struct VtableContext {
}
impl VtableContext {
pub fn tcx(&const self) -> ty::ctxt { self.ccx.tcx }
pub fn tcx(&self) -> ty::ctxt { self.ccx.tcx }
}
fn has_trait_bounds(type_param_defs: &[ty::TypeParameterDef]) -> bool {

6
src/libstd/at_vec.rs
View File

@ -108,7 +108,7 @@ pub fn build_sized_opt<A>(size: Option<uint>,
/// Iterates over the `rhs` vector, copying each element and appending it to the
/// `lhs`. Afterwards, the `lhs` is then returned for use again.
#[inline]
pub fn append<T:Copy>(lhs: @[T], rhs: &const [T]) -> @[T] {
pub fn append<T:Copy>(lhs: @[T], rhs: &[T]) -> @[T] {
do build_sized(lhs.len() + rhs.len()) |push| {
for lhs.iter().advance |x| { push(copy *x); }
for uint::range(0, rhs.len()) |i| { push(copy rhs[i]); }
@ -180,9 +180,9 @@ pub mod traits {
use kinds::Copy;
use ops::Add;
impl<'self,T:Copy> Add<&'self const [T],@[T]> for @[T] {
impl<'self,T:Copy> Add<&'self [T],@[T]> for @[T] {
#[inline]
fn add(&self, rhs: & &'self const [T]) -> @[T] {
fn add(&self, rhs: & &'self [T]) -> @[T] {
append(*self, (*rhs))
}
}

8
src/libstd/hashmap.rs
View File

@ -282,10 +282,10 @@ impl<K:Hash + Eq,V> HashMap<K, V> {
impl<K:Hash + Eq,V> Container for HashMap<K, V> {
/// Return the number of elements in the map
fn len(&const self) -> uint { self.size }
fn len(&self) -> uint { self.size }
/// Return true if the map contains no elements
fn is_empty(&const self) -> bool { self.len() == 0 }
fn is_empty(&self) -> bool { self.len() == 0 }
}
impl<K:Hash + Eq,V> Mutable for HashMap<K, V> {
@ -623,10 +623,10 @@ impl<T:Hash + Eq> Eq for HashSet<T> {
impl<T:Hash + Eq> Container for HashSet<T> {
/// Return the number of elements in the set
fn len(&const self) -> uint { self.map.len() }
fn len(&self) -> uint { self.map.len() }
/// Return true if the set contains no elements
fn is_empty(&const self) -> bool { self.map.is_empty() }
fn is_empty(&self) -> bool { self.map.is_empty() }
}
impl<T:Hash + Eq> Mutable for HashSet<T> {

6
src/libstd/io.rs
View File

@ -1152,7 +1152,7 @@ impl<W:Writer,C> Writer for Wrapper<W, C> {
impl Writer for *libc::FILE {
fn write(&self, v: &[u8]) {
unsafe {
do vec::as_const_buf(v) |vbuf, len| {
do vec::as_imm_buf(v) |vbuf, len| {
let nout = libc::fwrite(vbuf as *c_void,
1,
len as size_t,
@ -1203,9 +1203,9 @@ impl Writer for fd_t {
fn write(&self, v: &[u8]) {
unsafe {
let mut count = 0u;
do vec::as_const_buf(v) |vbuf, len| {
do vec::as_imm_buf(v) |vbuf, len| {
while count < len {
let vb = ptr::const_offset(vbuf, count) as *c_void;
let vb = ptr::offset(vbuf, count) as *c_void;
let nout = libc::write(*self, vb, len as size_t);
if nout < 0 as ssize_t {
error!("error writing buffer");

4
src/libstd/option.rs
View File

@ -121,13 +121,13 @@ impl<T> Option<T> {
/// Returns true if the option equals `none`
#[inline]
pub fn is_none(&const self) -> bool {
pub fn is_none(&self) -> bool {
match *self { None => true, Some(_) => false }
}
/// Returns true if the option contains some value
#[inline]
pub fn is_some(&const self) -> bool { !self.is_none() }
pub fn is_some(&self) -> bool { !self.is_none() }
/// Update an optional value by optionally running its content through a
/// function that returns an option.

18
src/libstd/ptr.rs
View File

@ -232,9 +232,9 @@ pub unsafe fn array_each<T>(arr: **T, cb: &fn(*T)) {
#[allow(missing_doc)]
pub trait RawPtr<T> {
fn is_null(&const self) -> bool;
fn is_not_null(&const self) -> bool;
unsafe fn to_option(&const self) -> Option<&T>;
fn is_null(&self) -> bool;
fn is_not_null(&self) -> bool;
unsafe fn to_option(&self) -> Option<&T>;
fn offset(&self, count: uint) -> Self;
}
@ -242,11 +242,11 @@ pub trait RawPtr<T> {
impl<T> RawPtr<T> for *T {
/// Returns true if the pointer is equal to the null pointer.
#[inline]
fn is_null(&const self) -> bool { is_null(*self) }
fn is_null(&self) -> bool { is_null(*self) }
/// Returns true if the pointer is not equal to the null pointer.
#[inline]
fn is_not_null(&const self) -> bool { is_not_null(*self) }
fn is_not_null(&self) -> bool { is_not_null(*self) }
///
/// Returns `None` if the pointer is null, or else returns the value wrapped
@ -259,7 +259,7 @@ impl<T> RawPtr<T> for *T {
/// be pointing to invalid memory.
///
#[inline]
unsafe fn to_option(&const self) -> Option<&T> {
unsafe fn to_option(&self) -> Option<&T> {
if self.is_null() { None } else {
Some(cast::transmute(*self))
}
@ -274,11 +274,11 @@ impl<T> RawPtr<T> for *T {
impl<T> RawPtr<T> for *mut T {
/// Returns true if the pointer is equal to the null pointer.
#[inline]
fn is_null(&const self) -> bool { is_null(*self) }
fn is_null(&self) -> bool { is_null(*self) }
/// Returns true if the pointer is not equal to the null pointer.
#[inline]
fn is_not_null(&const self) -> bool { is_not_null(*self) }
fn is_not_null(&self) -> bool { is_not_null(*self) }
///
/// Returns `None` if the pointer is null, or else returns the value wrapped
@ -291,7 +291,7 @@ impl<T> RawPtr<T> for *mut T {
/// be pointing to invalid memory.
///
#[inline]
unsafe fn to_option(&const self) -> Option<&T> {
unsafe fn to_option(&self) -> Option<&T> {
if self.is_null() { None } else {
Some(cast::transmute(*self))
}

8
src/libstd/str.rs
View File

@ -569,7 +569,7 @@ Section: Misc
*/
/// Determines if a vector of bytes contains valid UTF-8
pub fn is_utf8(v: &const [u8]) -> bool {
pub fn is_utf8(v: &[u8]) -> bool {
let mut i = 0u;
let total = v.len();
while i < total {
@ -815,7 +815,7 @@ pub mod raw {
}
/// Create a Rust string from a *u8 buffer of the given length
pub unsafe fn from_buf_len(buf: *const u8, len: uint) -> ~str {
pub unsafe fn from_buf_len(buf: *u8, len: uint) -> ~str {
let mut v: ~[u8] = vec::with_capacity(len + 1);
vec::as_mut_buf(v, |vbuf, _len| {
ptr::copy_memory(vbuf, buf as *u8, len)
@ -838,8 +838,8 @@ pub mod raw {
}
/// Converts a vector of bytes to a new owned string.
pub unsafe fn from_bytes(v: &const [u8]) -> ~str {
do vec::as_const_buf(v) |buf, len| {
pub unsafe fn from_bytes(v: &[u8]) -> ~str {
do vec::as_imm_buf(v) |buf, len| {
from_buf_len(buf, len)
}
}

2
src/libstd/task/spawn.rs
View File

@ -129,7 +129,7 @@ type TaskGroupInner<'self> = &'self mut Option<TaskGroupData>;
// A taskgroup is 'dead' when nothing can cause it to fail; only members can.
fn taskgroup_is_dead(tg: &TaskGroupData) -> bool {
(&const tg.members).is_empty()
tg.members.is_empty()
}
// A list-like structure by which taskgroups keep track of all ancestor groups

8
src/libstd/trie.rs
View File

@ -35,11 +35,11 @@ pub struct TrieMap<T> {
impl<T> Container for TrieMap<T> {
/// Return the number of elements in the map
#[inline]
fn len(&const self) -> uint { self.length }
fn len(&self) -> uint { self.length }
/// Return true if the map contains no elements
#[inline]
fn is_empty(&const self) -> bool { self.len() == 0 }
fn is_empty(&self) -> bool { self.len() == 0 }
}
impl<T> Mutable for TrieMap<T> {
@ -179,11 +179,11 @@ pub struct TrieSet {
impl Container for TrieSet {
/// Return the number of elements in the set
#[inline]
fn len(&const self) -> uint { self.map.len() }
fn len(&self) -> uint { self.map.len() }
/// Return true if the set contains no elements
#[inline]
fn is_empty(&const self) -> bool { self.map.is_empty() }
fn is_empty(&self) -> bool { self.map.is_empty() }
}
impl Mutable for TrieSet {

72
src/libstd/vec.rs
View File

@ -64,7 +64,7 @@ pub mod rustrt {
}
/// Returns true if two vectors have the same length
pub fn same_length<T, U>(xs: &const [T], ys: &const [U]) -> bool {
pub fn same_length<T, U>(xs: &[T], ys: &[U]) -> bool {
xs.len() == ys.len()
}
@ -350,10 +350,7 @@ pub fn dedup<T:Eq>(v: &mut ~[T]) {
if v.len() < 1 { return; }
let mut last_written = 0;
let mut next_to_read = 1;
do as_const_buf(*v) |p, ln| {
// We have a mutable reference to v, so we can make arbitrary
// changes. (cf. push and pop)
let p = p as *mut T;
do as_mut_buf(*v) |p, ln| {
// last_written < next_to_read <= ln
while next_to_read < ln {
// last_written < next_to_read < ln
@ -384,7 +381,7 @@ pub fn dedup<T:Eq>(v: &mut ~[T]) {
/// Iterates over the `rhs` vector, copying each element and appending it to the
/// `lhs`. Afterwards, the `lhs` is then returned for use again.
#[inline]
pub fn append<T:Copy>(lhs: ~[T], rhs: &const [T]) -> ~[T] {
pub fn append<T:Copy>(lhs: ~[T], rhs: &[T]) -> ~[T] {
let mut v = lhs;
v.push_all(rhs);
v
@ -831,7 +828,7 @@ pub fn unzip<T,U>(v: ~[(T, U)]) -> (~[T], ~[U]) {
/**
* Convert two vectors to a vector of pairs, by reference. As zip().
*/
pub fn zip_slice<T:Copy,U:Copy>(v: &const [T], u: &const [U])
pub fn zip_slice<T:Copy,U:Copy>(v: &[T], u: &[U])
-> ~[(T, U)] {
let mut zipped = ~[];
let sz = v.len();
@ -893,7 +890,7 @@ pub fn reverse<T>(v: &mut [T]) {
}
/// Returns a vector with the order of elements reversed
pub fn reversed<T:Copy>(v: &const [T]) -> ~[T] {
pub fn reversed<T:Copy>(v: &[T]) -> ~[T] {
let mut rs: ~[T] = ~[];
let mut i = v.len();
if i == 0 { return (rs); } else { i -= 1; }
@ -1003,16 +1000,6 @@ pub fn as_imm_buf<T,U>(s: &[T],
}
}
/// Similar to `as_imm_buf` but passing a `*const T`
#[inline]
pub fn as_const_buf<T,U>(s: &const [T], f: &fn(*const T, uint) -> U) -> U {
unsafe {
let v : *(*const T,uint) = transmute(&s);
let (buf,len) = *v;
f(buf, len / sys::nonzero_size_of::<T>())
}
}
/// Similar to `as_imm_buf` but passing a `*mut T`
#[inline]
pub fn as_mut_buf<T,U>(s: &mut [T], f: &fn(*mut T, uint) -> U) -> U {
@ -1198,25 +1185,25 @@ pub mod traits {
use ops::Add;
use vec::append;
impl<'self,T:Copy> Add<&'self const [T],~[T]> for ~[T] {
impl<'self,T:Copy> Add<&'self [T],~[T]> for ~[T] {
#[inline]
fn add(&self, rhs: & &'self const [T]) -> ~[T] {
fn add(&self, rhs: & &'self [T]) -> ~[T] {
append(copy *self, (*rhs))
}
}
}
impl<'self, T> Container for &'self const [T] {
impl<'self, T> Container for &'self [T] {
/// Returns true if a vector contains no elements
#[inline]
fn is_empty(&self) -> bool {
as_const_buf(*self, |_p, len| len == 0u)
as_imm_buf(*self, |_p, len| len == 0u)
}
/// Returns the length of a vector
#[inline]
fn len(&self) -> uint {
as_const_buf(*self, |_p, len| len)
as_imm_buf(*self, |_p, len| len)
}
}
@ -1224,13 +1211,13 @@ impl<T> Container for ~[T] {
/// Returns true if a vector contains no elements
#[inline]
fn is_empty(&self) -> bool {
as_const_buf(*self, |_p, len| len == 0u)
as_imm_buf(*self, |_p, len| len == 0u)
}
/// Returns the length of a vector
#[inline]
fn len(&self) -> uint {
as_const_buf(*self, |_p, len| len)
as_imm_buf(*self, |_p, len| len)
}
}
@ -1843,7 +1830,7 @@ impl<T> Mutable for ~[T] {
#[allow(missing_doc)]
pub trait OwnedCopyableVector<T:Copy> {
fn push_all(&mut self, rhs: &const [T]);
fn push_all(&mut self, rhs: &[T]);
fn grow(&mut self, n: uint, initval: &T);
fn grow_set(&mut self, index: uint, initval: &T, val: T);
}
@ -1860,7 +1847,7 @@ impl<T:Copy> OwnedCopyableVector<T> for ~[T] {
/// assert!(a == ~[1, 2, 3, 4]);
/// ~~~
#[inline]
fn push_all(&mut self, rhs: &const [T]) {
fn push_all(&mut self, rhs: &[T]) {
let new_len = self.len() + rhs.len();
self.reserve(new_len);
@ -2017,7 +2004,7 @@ pub mod raw {
use ptr;
use sys;
use unstable::intrinsics;
use vec::{UnboxedVecRepr, as_const_buf, as_mut_buf, with_capacity};
use vec::{UnboxedVecRepr, as_imm_buf, as_mut_buf, with_capacity};
use util;
/// The internal representation of a (boxed) vector
@ -2065,15 +2052,6 @@ pub mod raw {
}
}
/** see `to_ptr()` */
#[inline]
pub fn to_const_ptr<T>(v: &const [T]) -> *const T {
unsafe {
let repr: **SliceRepr = transmute(&v);
transmute(&((**repr).data))
}
}
/** see `to_ptr()` */
#[inline]
pub fn to_mut_ptr<T>(v: &mut [T]) -> *mut T {
@ -2113,8 +2091,8 @@ pub mod raw {
* Unchecked vector indexing.
*/
#[inline]
pub unsafe fn get<T:Copy>(v: &const [T], i: uint) -> T {
as_const_buf(v, |p, _len| copy *ptr::const_offset(p, i))
pub unsafe fn get<T:Copy>(v: &[T], i: uint) -> T {
as_imm_buf(v, |p, _len| copy *ptr::offset(p, i))
}
/**
@ -2156,13 +2134,13 @@ pub mod raw {
* may overlap.
*/
#[inline]
pub unsafe fn copy_memory<T>(dst: &mut [T], src: &const [T],
pub unsafe fn copy_memory<T>(dst: &mut [T], src: &[T],
count: uint) {
assert!(dst.len() >= count);
assert!(src.len() >= count);
do as_mut_buf(dst) |p_dst, _len_dst| {
do as_const_buf(src) |p_src, _len_src| {
do as_imm_buf(src) |p_src, _len_src| {
ptr::copy_memory(p_dst, p_src, count)
}
}
@ -2238,7 +2216,7 @@ pub mod bytes {
* may overlap.
*/
#[inline]
pub fn copy_memory(dst: &mut [u8], src: &const [u8], count: uint) {
pub fn copy_memory(dst: &mut [u8], src: &[u8], count: uint) {
// Bound checks are done at vec::raw::copy_memory.
unsafe { vec::raw::copy_memory(dst, src, count) }
}
@ -3690,16 +3668,6 @@ mod tests {
}
}
#[test]
#[ignore(windows)]
#[should_fail]
fn test_as_const_buf_fail() {
let v = [(~0, @0), (~0, @0), (~0, @0), (~0, @0)];
do as_const_buf(v) |_buf, _i| {
fail!()
}
}
#[test]
#[ignore(cfg(windows))]
#[should_fail]