rust/src/libcore/at_vec.rs

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//! Managed vectors
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use ptr::addr_of;
/// Code for dealing with @-vectors. This is pretty incomplete, and
/// contains a bunch of duplication from the code for ~-vectors.
#[abi = "cdecl"]
extern mod rustrt {
#[legacy_exports];
fn vec_reserve_shared_actual(++t: *sys::TypeDesc,
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++v: **vec::raw::VecRepr,
++n: libc::size_t);
}
#[abi = "rust-intrinsic"]
extern mod rusti {
#[legacy_exports];
fn move_val_init<T>(&dst: T, -src: T);
}
/// Returns the number of elements the vector can hold without reallocating
#[inline(always)]
pub pure fn capacity<T>(&&v: @[const T]) -> uint {
unsafe {
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let repr: **raw::VecRepr =
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::cast::reinterpret_cast(&addr_of(v));
(**repr).unboxed.alloc / sys::size_of::<T>()
}
}
/**
* Builds a vector by calling a provided function with an argument
* function that pushes an element to the back of a vector.
* This version takes an initial size for the vector.
*
* # Arguments
*
* * size - An initial size of the vector to reserve
* * builder - A function that will construct the vector. It recieves
* as an argument a function that will push an element
* onto the vector being constructed.
*/
#[inline(always)]
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pub pure fn build_sized<A>(size: uint,
builder: fn(push: pure fn(+v: A))) -> @[A] {
let mut vec = @[];
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unsafe { raw::reserve(vec, size); }
builder(|+x| unsafe { raw::push(vec, move x) });
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return vec;
}
/**
* Builds a vector by calling a provided function with an argument
* function that pushes an element to the back of a vector.
*
* # Arguments
*
* * builder - A function that will construct the vector. It recieves
* as an argument a function that will push an element
* onto the vector being constructed.
*/
#[inline(always)]
pub pure fn build<A>(builder: fn(push: pure fn(+v: A))) -> @[A] {
build_sized(4, builder)
}
/**
* Builds a vector by calling a provided function with an argument
* function that pushes an element to the back of a vector.
* This version takes an initial size for the vector.
*
* # Arguments
*
* * size - An option, maybe containing initial size of the vector to reserve
* * builder - A function that will construct the vector. It recieves
* as an argument a function that will push an element
* onto the vector being constructed.
*/
#[inline(always)]
pub pure fn build_sized_opt<A>(size: Option<uint>,
builder: fn(push: pure fn(+v: A))) -> @[A] {
build_sized(size.get_default(4), builder)
}
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// Appending
#[inline(always)]
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pub pure fn append<T: Copy>(lhs: @[T], rhs: &[const T]) -> @[T] {
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do build_sized(lhs.len() + rhs.len()) |push| {
for vec::each(lhs) |x| { push(*x); }
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for uint::range(0, rhs.len()) |i| { push(rhs[i]); }
}
}
/// Apply a function to each element of a vector and return the results
pub pure fn map<T, U>(v: &[T], f: fn(T) -> U) -> @[U] {
do build_sized(v.len()) |push| {
for vec::each(v) |elem| {
push(f(*elem));
}
}
}
/**
* Creates and initializes an immutable vector.
*
* Creates an immutable vector of size `n_elts` and initializes the elements
* to the value returned by the function `op`.
*/
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pub pure fn from_fn<T>(n_elts: uint, op: iter::InitOp<T>) -> @[T] {
do build_sized(n_elts) |push| {
let mut i: uint = 0u;
while i < n_elts { push(op(i)); i += 1u; }
}
}
/**
* Creates and initializes an immutable vector.
*
* Creates an immutable vector of size `n_elts` and initializes the elements
* to the value `t`.
*/
pub pure fn from_elem<T: Copy>(n_elts: uint, t: T) -> @[T] {
do build_sized(n_elts) |push| {
let mut i: uint = 0u;
while i < n_elts { push(t); i += 1u; }
}
}
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#[cfg(notest)]
mod traits {
#[legacy_exports];
impl<T: Copy> @[T] : Add<&[const T],@[T]> {
#[inline(always)]
pure fn add(rhs: & &[const T]) -> @[T] {
append(self, (*rhs))
}
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}
}
#[cfg(test)]
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pub mod traits {
#[legacy_exports];}
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pub mod raw {
pub type VecRepr = vec::raw::VecRepr;
pub type SliceRepr = vec::raw::SliceRepr;
/**
* Sets the length of a vector
*
* This will explicitly set the size of the vector, without actually
* modifing its buffers, so it is up to the caller to ensure that
* the vector is actually the specified size.
*/
#[inline(always)]
pub unsafe fn set_len<T>(&&v: @[const T], new_len: uint) {
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let repr: **VecRepr = ::cast::reinterpret_cast(&addr_of(v));
(**repr).unboxed.fill = new_len * sys::size_of::<T>();
}
#[inline(always)]
pub unsafe fn push<T>(&v: @[const T], +initval: T) {
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let repr: **VecRepr = ::cast::reinterpret_cast(&addr_of(v));
let fill = (**repr).unboxed.fill;
if (**repr).unboxed.alloc > fill {
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push_fast(v, move initval);
}
else {
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push_slow(v, move initval);
}
}
// This doesn't bother to make sure we have space.
#[inline(always)] // really pretty please
pub unsafe fn push_fast<T>(&v: @[const T], +initval: T) {
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let repr: **VecRepr = ::cast::reinterpret_cast(&addr_of(v));
let fill = (**repr).unboxed.fill;
(**repr).unboxed.fill += sys::size_of::<T>();
let p = ptr::addr_of((**repr).unboxed.data);
let p = ptr::offset(p, fill) as *mut T;
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rusti::move_val_init(*p, move initval);
}
pub unsafe fn push_slow<T>(&v: @[const T], +initval: T) {
reserve_at_least(v, v.len() + 1u);
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push_fast(v, move initval);
}
/**
* Reserves capacity for exactly `n` elements in the given vector.
*
* If the capacity for `v` is already equal to or greater than the
* requested capacity, then no action is taken.
*
* # Arguments
*
* * v - A vector
* * n - The number of elements to reserve space for
*/
pub unsafe fn reserve<T>(&v: @[const T], n: uint) {
// Only make the (slow) call into the runtime if we have to
if capacity(v) < n {
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let ptr = addr_of(v) as **VecRepr;
rustrt::vec_reserve_shared_actual(sys::get_type_desc::<T>(),
ptr, n as libc::size_t);
}
}
/**
* Reserves capacity for at least `n` elements in the given vector.
*
* This function will over-allocate in order to amortize the
* allocation costs in scenarios where the caller may need to
* repeatedly reserve additional space.
*
* If the capacity for `v` is already equal to or greater than the
* requested capacity, then no action is taken.
*
* # Arguments
*
* * v - A vector
* * n - The number of elements to reserve space for
*/
pub unsafe fn reserve_at_least<T>(&v: @[const T], n: uint) {
reserve(v, uint::next_power_of_two(n));
}
}
#[test]
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pub fn test() {
// Some code that could use that, then:
fn seq_range(lo: uint, hi: uint) -> @[uint] {
do build |push| {
for uint::range(lo, hi) |i| {
push(i);
}
}
}
assert seq_range(10, 15) == @[10, 11, 12, 13, 14];
assert from_fn(5, |x| x+1) == @[1, 2, 3, 4, 5];
assert from_elem(5, 3.14) == @[3.14, 3.14, 3.14, 3.14, 3.14];
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}
#[test]
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pub fn append_test() {
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assert @[1,2,3] + @[4,5,6] == @[1,2,3,4,5,6];
}