Bounded Vectors
A BoundedVec<T, MaxLen>
is a growable storage similar to a Vec<T>
except that it
is bounded with a maximum possible length. Unlike Vec
, BoundedVec
is not implemented
via slices and thus is not subject to the same restrictions slices are (notably, nested
slices - and thus nested vectors as well - are disallowed).
Since a BoundedVec is backed by a normal array under the hood, growing the BoundedVec by pushing an additional element is also more efficient - the length only needs to be increased by one.
For these reasons BoundedVec<T, N>
should generally be preferred over Vec<T>
when there
is a reasonable maximum bound that can be placed on the vector.
Example:
let mut vector: BoundedVec<Field, 10> = BoundedVec::new();
for i in 0..5 {
vector.push(i);
}
assert(vector.len() == 5);
assert(vector.max_len() == 10);
Methods
new
pub fn new() -> Self
Creates a new, empty vector of length zero.
Since this container is backed by an array internally, it still needs an initial value
to give each element. To resolve this, each element is zeroed internally. This value
is guaranteed to be inaccessible unless get_unchecked
is used.
Example:
let empty_vector: BoundedVec<Field, 10> = BoundedVec::new();
assert(empty_vector.len() == 0);
Note that whenever calling new
the maximum length of the vector should always be specified
via a type signature:
fn good() -> BoundedVec<Field, 10> {
// Ok! MaxLen is specified with a type annotation
let v1: BoundedVec<Field, 3> = BoundedVec::new();
let v2 = BoundedVec::new();
// Ok! MaxLen is known from the type of `good`'s return value
v2
}
fn bad() {
// Error: Type annotation needed
// The compiler can't infer `MaxLen` from this code.
let mut v3 = BoundedVec::new();
v3.push(5);
}
Source code: test_programs/noir_test_success/bounded_vec/src/main.nr#L11-L27
This defaulting of MaxLen
(and numeric generics in general) to zero may change in future noir versions
but for now make sure to use type annotations when using bounded vectors. Otherwise, you will receive a constraint failure at runtime when the vec is pushed to.
get
pub fn get(self, index: u64) -> T {
Retrieves an element from the vector at the given index, starting from zero.
If the given index is equal to or greater than the length of the vector, this will issue a constraint failure.
Example:
fn foo<N>(v: BoundedVec<u32, N>) {
let first = v.get(0);
let last = v.get(v.len() - 1);
assert(first != last);
}
get_unchecked
pub fn get_unchecked(self, index: u64) -> T {
Retrieves an element from the vector at the given index, starting from zero, without performing a bounds check.
Since this function does not perform a bounds check on length before accessing the element, it is unsafe! Use at your own risk!
Example:
fn sum_of_first_three<let N: u32>(v: BoundedVec<u32, N>) -> u32 {
// Always ensure the length is larger than the largest
// index passed to get_unchecked
assert(v.len() > 2);
let first = v.get_unchecked(0);
let second = v.get_unchecked(1);
let third = v.get_unchecked(2);
first + second + third
}
Source code: test_programs/noir_test_success/bounded_vec/src/main.nr#L54-L64
set
pub fn set(&mut self: Self, index: u64, value: T) {
Writes an element to the vector at the given index, starting from zero.
If the given index is equal to or greater than the length of the vector, this will issue a constraint failure.
Example:
fn foo<N>(v: BoundedVec<u32, N>) {
let first = v.get(0);
assert(first != 42);
v.set(0, 42);
let new_first = v.get(0);
assert(new_first == 42);
}
set_unchecked
pub fn set_unchecked(&mut self: Self, index: u64, value: T) -> T {
Writes an element to the vector at the given index, starting from zero, without performing a bounds check.
Since this function does not perform a bounds check on length before accessing the element, it is unsafe! Use at your own risk!
Example:
fn set_unchecked_example() {
let mut vec: BoundedVec<u32, 5> = BoundedVec::new();
vec.extend_from_array([1, 2]);
// Here we're safely writing within the valid range of `vec`
// `vec` now has the value [42, 2]
vec.set_unchecked(0, 42);
// We can then safely read this value back out of `vec`.
// Notice that we use the checked version of `get` which would prevent reading unsafe values.
assert_eq(vec.get(0), 42);
// We've now written past the end of `vec`.
// As this index is still within the maximum potential length of `v`,
// it won't cause a constraint failure.
vec.set_unchecked(2, 42);
println(vec);
// This will write past the end of the maximum potential length of `vec`,
// it will then trigger a constraint failure.
vec.set_unchecked(5, 42);
println(vec);
}
Source code: test_programs/noir_test_success/bounded_vec/src/main.nr#L67-L91
push
pub fn push(&mut self, elem: T) {
Pushes an element to the end of the vector. This increases the length of the vector by one.
Panics if the new length of the vector will be greater than the max length.
Example:
let mut v: BoundedVec<Field, 2> = BoundedVec::new();
v.push(1);
v.push(2);
// Panics with failed assertion "push out of bounds"
v.push(3);
Source code: test_programs/noir_test_success/bounded_vec/src/main.nr#L95-L103
pop
pub fn pop(&mut self) -> T
Pops the element at the end of the vector. This will decrease the length of the vector by one.
Panics if the vector is empty.
Example:
let mut v: BoundedVec<Field, 2> = BoundedVec::new();
v.push(1);
v.push(2);
let two = v.pop();
let one = v.pop();
assert(two == 2);
assert(one == 1);
// error: cannot pop from an empty vector
// let _ = v.pop();
Source code: test_programs/noir_test_success/bounded_vec/src/main.nr#L108-L120
len
pub fn len(self) -> u64 {
Returns the current length of this vector
Example:
let mut v: BoundedVec<Field, 4> = BoundedVec::new();
assert(v.len() == 0);
v.push(100);
assert(v.len() == 1);
v.push(200);
v.push(300);
v.push(400);
assert(v.len() == 4);
let _ = v.pop();
let _ = v.pop();
assert(v.len() == 2);
Source code: test_programs/noir_test_success/bounded_vec/src/main.nr#L125-L140
max_len
pub fn max_len(_self: BoundedVec<T, MaxLen>) -> u64 {
Returns the maximum length of this vector. This is always
equal to the MaxLen
parameter this vector was initialized with.
Example:
let mut v: BoundedVec<Field, 5> = BoundedVec::new();
assert(v.max_len() == 5);
v.push(10);
assert(v.max_len() == 5);
Source code: test_programs/noir_test_success/bounded_vec/src/main.nr#L145-L151
storage
pub fn storage(self) -> [T; MaxLen] {
Returns the internal array within this vector. Since arrays in Noir are immutable, mutating the returned storage array will not mutate the storage held internally by this vector.
Note that uninitialized elements may be zeroed out!
Example:
let mut v: BoundedVec<Field, 5> = BoundedVec::new();
assert(v.storage() == [0, 0, 0, 0, 0]);
v.push(57);
assert(v.storage() == [57, 0, 0, 0, 0]);
Source code: test_programs/noir_test_success/bounded_vec/src/main.nr#L156-L163
extend_from_array
pub fn extend_from_array<Len>(&mut self, array: [T; Len])
Pushes each element from the given array to this vector.
Panics if pushing each element would cause the length of this vector to exceed the maximum length.
Example:
let mut vec: BoundedVec<Field, 3> = BoundedVec::new();
vec.extend_from_array([2, 4]);
assert(vec.len == 2);
assert(vec.get(0) == 2);
assert(vec.get(1) == 4);
Source code: test_programs/noir_test_success/bounded_vec/src/main.nr#L168-L175
extend_from_bounded_vec
pub fn extend_from_bounded_vec<Len>(&mut self, vec: BoundedVec<T, Len>)
Pushes each element from the other vector to this vector. The length of the other vector is left unchanged.
Panics if pushing each element would cause the length of this vector to exceed the maximum length.
Example:
let mut v1: BoundedVec<Field, 5> = BoundedVec::new();
let mut v2: BoundedVec<Field, 7> = BoundedVec::new();
v2.extend_from_array([1, 2, 3]);
v1.extend_from_bounded_vec(v2);
assert(v1.storage() == [1, 2, 3, 0, 0]);
assert(v2.storage() == [1, 2, 3, 0, 0, 0, 0]);
Source code: test_programs/noir_test_success/bounded_vec/src/main.nr#L180-L189
from_array
pub fn from_array<Len>(array: [T; Len]) -> Self
Creates a new vector, populating it with values derived from an array input. The maximum length of the vector is determined based on the type signature.
Example:
let bounded_vec: BoundedVec<Field, 10> = BoundedVec::from_array([1, 2, 3])
map
pub fn map<U, Env>(self, f: fn[Env](T) -> U) -> BoundedVec<U, MaxLen>
Creates a new vector of equal size by calling a closure on each element in this vector.
Example:
let vec: BoundedVec<u32, 4> = BoundedVec::from_array([1, 2, 3, 4]);
let result = vec.map(|value| value * 2);
Source code: noir_stdlib/src/collections/bounded_vec.nr#L493-L496
any
pub fn any<Env>(self, predicate: fn[Env](T) -> bool) -> bool
Returns true if the given predicate returns true for any element in this vector.
Example:
let mut v: BoundedVec<u32, 3> = BoundedVec::new();
v.extend_from_array([2, 4, 6]);
let all_even = !v.any(|elem: u32| elem % 2 != 0);
assert(all_even);
Source code: test_programs/noir_test_success/bounded_vec/src/main.nr#L256-L262