use super::NibbleVec;
use crate::{
nibble::{nibble_ops, BackingByteVec, NibbleSlice},
node::NodeKey,
node_codec::Partial,
};
use hash_db::Prefix;
impl Default for NibbleVec {
fn default() -> Self {
NibbleVec::new()
}
}
impl NibbleVec {
pub fn new() -> Self {
NibbleVec { inner: BackingByteVec::new(), len: 0 }
}
#[inline(always)]
pub fn len(&self) -> usize {
self.len
}
pub fn is_empty(&self) -> bool {
self.len == 0
}
#[inline]
pub fn at(&self, idx: usize) -> u8 {
let ix = idx / nibble_ops::NIBBLE_PER_BYTE;
let pad = idx % nibble_ops::NIBBLE_PER_BYTE;
nibble_ops::at_left(pad as u8, self.inner[ix])
}
pub fn push(&mut self, nibble: u8) {
let i = self.len % nibble_ops::NIBBLE_PER_BYTE;
if i == 0 {
self.inner.push(nibble_ops::push_at_left(0, nibble, 0));
} else {
let output = self
.inner
.last_mut()
.expect("len != 0 since len % 2 != 0; inner has a last element; qed");
*output = nibble_ops::push_at_left(i as u8, nibble, *output);
}
self.len += 1;
}
pub fn pop(&mut self) -> Option<u8> {
if self.is_empty() {
return None
}
let byte = self.inner.pop().expect("len != 0; inner has last elem; qed");
self.len -= 1;
let i_new = self.len % nibble_ops::NIBBLE_PER_BYTE;
if i_new != 0 {
self.inner.push(nibble_ops::pad_left(byte));
}
Some(nibble_ops::at_left(i_new as u8, byte))
}
pub fn drop_lasts(&mut self, n: usize) {
if n == 0 {
return
}
if n >= self.len {
self.clear();
return
}
let end = self.len - n;
let end_index = end / nibble_ops::NIBBLE_PER_BYTE +
if end % nibble_ops::NIBBLE_PER_BYTE == 0 { 0 } else { 1 };
(end_index..self.inner.len()).for_each(|_| {
self.inner.pop();
});
self.len = end;
let pos = self.len % nibble_ops::NIBBLE_PER_BYTE;
if pos != 0 {
let kl = self.inner.len() - 1;
self.inner[kl] = nibble_ops::pad_left(self.inner[kl]);
}
}
pub fn as_prefix(&self) -> Prefix<'_> {
let split = self.len / nibble_ops::NIBBLE_PER_BYTE;
let pos = (self.len % nibble_ops::NIBBLE_PER_BYTE) as u8;
if pos == 0 {
(&self.inner[..split], None)
} else {
(&self.inner[..split], Some(nibble_ops::pad_left(self.inner[split])))
}
}
pub fn append(&mut self, v: &NibbleVec) {
if v.len == 0 {
return
}
let final_len = self.len + v.len;
let offset = self.len % nibble_ops::NIBBLE_PER_BYTE;
let final_offset = final_len % nibble_ops::NIBBLE_PER_BYTE;
let last_index = self.len / nibble_ops::NIBBLE_PER_BYTE;
if offset > 0 {
let (s1, s2) = nibble_ops::SPLIT_SHIFTS;
self.inner[last_index] =
nibble_ops::pad_left(self.inner[last_index]) | (v.inner[0] >> s2);
(0..v.inner.len() - 1)
.for_each(|i| self.inner.push(v.inner[i] << s1 | v.inner[i + 1] >> s2));
if final_offset > 0 {
self.inner.push(v.inner[v.inner.len() - 1] << s1);
}
} else {
(0..v.inner.len()).for_each(|i| self.inner.push(v.inner[i]));
}
self.len += v.len;
}
pub fn append_partial(&mut self, (start_byte, sl): Partial) {
if start_byte.0 == 1 {
self.push(nibble_ops::at_left(1, start_byte.1));
}
let pad = self.inner.len() * nibble_ops::NIBBLE_PER_BYTE - self.len;
if pad == 0 {
self.inner.extend_from_slice(&sl[..]);
} else {
let kend = self.inner.len() - 1;
if sl.len() > 0 {
self.inner[kend] = nibble_ops::pad_left(self.inner[kend]);
let (s1, s2) = nibble_ops::SPLIT_SHIFTS;
self.inner[kend] |= sl[0] >> s1;
(0..sl.len() - 1).for_each(|i| self.inner.push(sl[i] << s2 | sl[i + 1] >> s1));
self.inner.push(sl[sl.len() - 1] << s2);
}
}
self.len += sl.len() * nibble_ops::NIBBLE_PER_BYTE;
}
pub(crate) fn append_optional_slice_and_nibble(
&mut self,
o_slice: Option<&NibbleSlice>,
o_index: Option<u8>,
) -> usize {
let mut res = 0;
if let Some(slice) = o_slice {
self.append_partial(slice.right());
res += slice.len();
}
if let Some(ix) = o_index {
self.push(ix);
res += 1;
}
res
}
#[cfg(feature = "std")]
pub(crate) fn clone_append_optional_slice_and_nibble(
&self,
o_slice: Option<&NibbleSlice>,
o_index: Option<u8>,
) -> Self {
let mut p = self.clone();
p.append_optional_slice_and_nibble(o_slice, o_index);
p
}
pub fn inner(&self) -> &[u8] {
&self.inner[..]
}
pub fn clear(&mut self) {
self.inner.clear();
self.len = 0;
}
pub fn as_nibbleslice(&self) -> Option<NibbleSlice<'_>> {
if self.len % nibble_ops::NIBBLE_PER_BYTE == 0 {
Some(NibbleSlice::new(self.inner()))
} else {
None
}
}
pub fn starts_with(&self, other: &Self) -> bool {
if self.len() < other.len() {
return false
}
let byte_len = other.len() / nibble_ops::NIBBLE_PER_BYTE;
if &self.inner[..byte_len] != &other.inner[..byte_len] {
return false
}
for pad in 0..(other.len() - byte_len * nibble_ops::NIBBLE_PER_BYTE) {
let self_nibble = nibble_ops::at_left(pad as u8, self.inner[byte_len]);
let other_nibble = nibble_ops::at_left(pad as u8, other.inner[byte_len]);
if self_nibble != other_nibble {
return false
}
}
true
}
pub fn starts_with_slice(&self, other: &NibbleSlice) -> bool {
if self.len() < other.len() {
return false
}
match self.as_nibbleslice() {
Some(slice) => slice.starts_with(&other),
None => {
for i in 0..other.len() {
if self.at(i) != other.at(i) {
return false
}
}
true
},
}
}
pub fn right_iter<'a>(&'a self) -> impl Iterator<Item = u8> + 'a {
let require_padding = self.len % nibble_ops::NIBBLE_PER_BYTE != 0;
let mut ix = 0;
let inner = &self.inner;
let (left_s, right_s) = nibble_ops::SPLIT_SHIFTS;
crate::rstd::iter::from_fn(move || {
if require_padding && ix < inner.len() {
if ix == 0 {
ix += 1;
Some(inner[ix - 1] >> nibble_ops::BIT_PER_NIBBLE)
} else {
ix += 1;
Some(inner[ix - 2] << left_s | inner[ix - 1] >> right_s)
}
} else if ix < inner.len() {
ix += 1;
Some(inner[ix - 1])
} else {
None
}
})
}
}
impl<'a> From<NibbleSlice<'a>> for NibbleVec {
fn from(s: NibbleSlice<'a>) -> Self {
let mut v = NibbleVec::new();
for i in 0..s.len() {
v.push(s.at(i));
}
v
}
}
impl From<&NibbleVec> for NodeKey {
fn from(nibble: &NibbleVec) -> NodeKey {
if let Some(slice) = nibble.as_nibbleslice() {
slice.into()
} else {
(1, nibble.right_iter().collect())
}
}
}
#[cfg(test)]
mod tests {
use super::*;
use crate::{nibble::nibble_ops, NibbleSlice};
#[test]
fn push_pop() {
let mut v = NibbleVec::new();
for i in 0..(nibble_ops::NIBBLE_PER_BYTE * 3) {
let iu8 = (i % nibble_ops::NIBBLE_PER_BYTE) as u8;
v.push(iu8);
assert_eq!(v.len() - 1, i);
assert_eq!(v.at(i), iu8);
}
for i in (0..(nibble_ops::NIBBLE_PER_BYTE * 3)).rev() {
let iu8 = (i % nibble_ops::NIBBLE_PER_BYTE) as u8;
let a = v.pop();
assert_eq!(a, Some(iu8));
assert_eq!(v.len(), i);
}
}
#[test]
fn append_partial() {
append_partial_inner(&[1, 2, 3], &[], ((1, 1), &[0x23]));
append_partial_inner(&[1, 2, 3], &[1], ((0, 0), &[0x23]));
append_partial_inner(&[0, 1, 2, 3], &[0], ((1, 1), &[0x23]));
}
fn append_partial_inner(res: &[u8], init: &[u8], partial: ((u8, u8), &[u8])) {
let mut resv = NibbleVec::new();
res.iter().for_each(|r| resv.push(*r));
let mut initv = NibbleVec::new();
init.iter().for_each(|r| initv.push(*r));
initv.append_partial(partial);
assert_eq!(resv, initv);
}
#[test]
fn drop_lasts_test() {
let test_trun = |a: &[u8], b: usize, c: (&[u8], usize)| {
let mut k = NibbleVec::new();
for v in a {
k.push(*v);
}
k.drop_lasts(b);
assert_eq!((&k.inner[..], k.len), c);
};
test_trun(&[1, 2, 3, 4], 0, (&[0x12, 0x34], 4));
test_trun(&[1, 2, 3, 4], 1, (&[0x12, 0x30], 3));
test_trun(&[1, 2, 3, 4], 2, (&[0x12], 2));
test_trun(&[1, 2, 3, 4], 3, (&[0x10], 1));
test_trun(&[1, 2, 3, 4], 4, (&[], 0));
test_trun(&[1, 2, 3, 4], 5, (&[], 0));
test_trun(&[1, 2, 3], 0, (&[0x12, 0x30], 3));
test_trun(&[1, 2, 3], 1, (&[0x12], 2));
test_trun(&[1, 2, 3], 2, (&[0x10], 1));
test_trun(&[1, 2, 3], 3, (&[], 0));
test_trun(&[1, 2, 3], 4, (&[], 0));
}
#[test]
fn right_iter_works() {
let data = vec![1, 2, 3, 4, 5, 234, 78, 99];
let nibble = NibbleSlice::new(&data);
let vec = NibbleVec::from(nibble);
nibble
.right_iter()
.zip(vec.right_iter())
.enumerate()
.for_each(|(i, (l, r))| assert_eq!(l, r, "Don't match at {}", i));
let nibble = NibbleSlice::new_offset(&data, 3);
let vec = NibbleVec::from(nibble);
nibble
.right_iter()
.zip(vec.right_iter())
.enumerate()
.for_each(|(i, (l, r))| assert_eq!(l, r, "Don't match at {}", i));
}
}