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// Copyright 2019-2020 Georges Racinet <georges.racinet@octobus.net>
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//
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// This software may be used and distributed according to the terms of the
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// GNU General Public License version 2 or any later version.
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//! Definitions and utilities for Revision nodes
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//!
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//! In Mercurial code base, it is customary to call "a node" the binary SHA
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//! of a revision.
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use hex::{self, FromHex, FromHexError};
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use std::convert::{TryFrom, TryInto};
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/// The length in bytes of a `Node`
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///
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/// This constant is meant to ease refactors of this module, and
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/// are private so that calling code does not expect all nodes have
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/// the same size, should we support several formats concurrently in
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/// the future.
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pub const NODE_BYTES_LENGTH: usize = 20;
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/// Id of the null node.
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///
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/// Used to indicate the absence of node.
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pub const NULL_NODE_ID: [u8; NODE_BYTES_LENGTH] = [0u8; NODE_BYTES_LENGTH];
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/// The length in bytes of a `Node`
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///
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/// see also `NODES_BYTES_LENGTH` about it being private.
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const NODE_NYBBLES_LENGTH: usize = 2 * NODE_BYTES_LENGTH;
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/// Private alias for readability and to ease future change
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type NodeData = [u8; NODE_BYTES_LENGTH];
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/// Binary revision SHA
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///
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/// ## Future changes of hash size
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///
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/// To accomodate future changes of hash size, Rust callers
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/// should use the conversion methods at the boundaries (FFI, actual
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/// computation of hashes and I/O) only, and only if required.
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///
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/// All other callers outside of unit tests should just handle `Node` values
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/// and never make any assumption on the actual length, using [`nybbles_len`]
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/// if they need a loop boundary.
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///
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/// All methods that create a `Node` either take a type that enforces
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/// the size or fail immediately at runtime with [`ExactLengthRequired`].
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///
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/// [`nybbles_len`]: #method.nybbles_len
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/// [`ExactLengthRequired`]: struct.NodeError#variant.ExactLengthRequired
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#[derive(Clone, Debug, PartialEq)]
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#[repr(transparent)]
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pub struct Node {
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data: NodeData,
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}
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/// The node value for NULL_REVISION
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pub const NULL_NODE: Node = Node {
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data: [0; NODE_BYTES_LENGTH],
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};
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impl From<NodeData> for Node {
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fn from(data: NodeData) -> Node {
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Node { data }
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}
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}
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/// Return an error if the slice has an unexpected length
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impl<'a> TryFrom<&'a [u8]> for &'a Node {
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type Error = std::array::TryFromSliceError;
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#[inline]
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fn try_from(bytes: &'a [u8]) -> Result<&'a Node, Self::Error> {
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let data = bytes.try_into()?;
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// Safety: `#[repr(transparent)]` makes it ok to "wrap" the target
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// of a reference to the type of the single field.
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Ok(unsafe { std::mem::transmute::<&NodeData, &Node>(data) })
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}
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}
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#[derive(Debug, PartialEq)]
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pub enum NodeError {
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ExactLengthRequired(usize, String),
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PrefixTooLong(String),
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HexError(FromHexError, String),
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}
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/// Low level utility function, also for prefixes
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fn get_nybble(s: &[u8], i: usize) -> u8 {
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if i % 2 == 0 {
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s[i / 2] >> 4
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} else {
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s[i / 2] & 0x0f
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}
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}
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impl Node {
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/// Retrieve the `i`th half-byte of the binary data.
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///
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/// This is also the `i`th hexadecimal digit in numeric form,
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/// also called a [nybble](https://en.wikipedia.org/wiki/Nibble).
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pub fn get_nybble(&self, i: usize) -> u8 {
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get_nybble(&self.data, i)
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}
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/// Length of the data, in nybbles
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pub fn nybbles_len(&self) -> usize {
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// public exposure as an instance method only, so that we can
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// easily support several sizes of hashes if needed in the future.
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NODE_NYBBLES_LENGTH
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}
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/// Convert from hexadecimal string representation
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///
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/// Exact length is required.
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///
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/// To be used in FFI and I/O only, in order to facilitate future
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/// changes of hash format.
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pub fn from_hex(hex: impl AsRef<[u8]>) -> Result<Node, NodeError> {
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Ok(NodeData::from_hex(hex.as_ref())
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.map_err(|e| NodeError::from((e, hex)))?
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.into())
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}
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/// Convert to hexadecimal string representation
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///
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/// To be used in FFI and I/O only, in order to facilitate future
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/// changes of hash format.
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pub fn encode_hex(&self) -> String {
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hex::encode(self.data)
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}
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/// Provide access to binary data
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///
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/// This is needed by FFI layers, for instance to return expected
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/// binary values to Python.
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pub fn as_bytes(&self) -> &[u8] {
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&self.data
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}
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}
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impl<T: AsRef<[u8]>> From<(FromHexError, T)> for NodeError {
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fn from(err_offender: (FromHexError, T)) -> Self {
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let (err, offender) = err_offender;
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let offender = String::from_utf8_lossy(offender.as_ref()).into_owned();
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match err {
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FromHexError::InvalidStringLength => {
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NodeError::ExactLengthRequired(NODE_NYBBLES_LENGTH, offender)
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}
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_ => NodeError::HexError(err, offender),
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}
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}
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}
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/// The beginning of a binary revision SHA.
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///
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/// Since it can potentially come from an hexadecimal representation with
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/// odd length, it needs to carry around whether the last 4 bits are relevant
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/// or not.
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#[derive(Debug, PartialEq)]
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pub struct NodePrefix {
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buf: Vec<u8>,
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is_odd: bool,
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}
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impl NodePrefix {
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/// Convert from hexadecimal string representation
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///
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/// Similarly to `hex::decode`, can be used with Unicode string types
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/// (`String`, `&str`) as well as bytes.
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///
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/// To be used in FFI and I/O only, in order to facilitate future
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/// changes of hash format.
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pub fn from_hex(hex: impl AsRef<[u8]>) -> Result<Self, NodeError> {
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let hex = hex.as_ref();
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let len = hex.len();
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if len > NODE_NYBBLES_LENGTH {
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return Err(NodeError::PrefixTooLong(
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String::from_utf8_lossy(hex).to_owned().to_string(),
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));
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}
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let is_odd = len % 2 == 1;
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let even_part = if is_odd { &hex[..len - 1] } else { hex };
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let mut buf: Vec<u8> =
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Vec::from_hex(&even_part).map_err(|e| (e, hex))?;
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if is_odd {
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let latest_char = char::from(hex[len - 1]);
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let latest_nybble = latest_char.to_digit(16).ok_or_else(|| {
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(
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FromHexError::InvalidHexCharacter {
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c: latest_char,
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index: len - 1,
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},
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hex,
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)
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})? as u8;
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buf.push(latest_nybble << 4);
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}
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Ok(NodePrefix { buf, is_odd })
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}
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pub fn borrow(&self) -> NodePrefixRef {
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NodePrefixRef {
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buf: &self.buf,
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is_odd: self.is_odd,
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}
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}
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}
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#[derive(Clone, Debug, PartialEq)]
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pub struct NodePrefixRef<'a> {
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buf: &'a [u8],
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is_odd: bool,
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}
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impl<'a> NodePrefixRef<'a> {
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pub fn len(&self) -> usize {
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if self.is_odd {
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self.buf.len() * 2 - 1
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} else {
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self.buf.len() * 2
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}
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}
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pub fn is_empty(&self) -> bool {
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self.len() == 0
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}
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pub fn is_prefix_of(&self, node: &Node) -> bool {
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if self.is_odd {
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let buf = self.buf;
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let last_pos = buf.len() - 1;
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node.data.starts_with(buf.split_at(last_pos).0)
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&& node.data[last_pos] >> 4 == buf[last_pos] >> 4
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} else {
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node.data.starts_with(self.buf)
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}
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}
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/// Retrieve the `i`th half-byte from the prefix.
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///
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/// This is also the `i`th hexadecimal digit in numeric form,
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/// also called a [nybble](https://en.wikipedia.org/wiki/Nibble).
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pub fn get_nybble(&self, i: usize) -> u8 {
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assert!(i < self.len());
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get_nybble(self.buf, i)
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}
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/// Return the index first nybble that's different from `node`
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///
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/// If the return value is `None` that means that `self` is
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/// a prefix of `node`, but the current method is a bit slower
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/// than `is_prefix_of`.
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///
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/// Returned index is as in `get_nybble`, i.e., starting at 0.
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pub fn first_different_nybble(&self, node: &Node) -> Option<usize> {
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let buf = self.buf;
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let until = if self.is_odd {
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buf.len() - 1
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} else {
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buf.len()
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};
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for (i, item) in buf.iter().enumerate().take(until) {
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if *item != node.data[i] {
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return if *item & 0xf0 == node.data[i] & 0xf0 {
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Some(2 * i + 1)
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} else {
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Some(2 * i)
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};
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}
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}
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if self.is_odd && buf[until] & 0xf0 != node.data[until] & 0xf0 {
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Some(until * 2)
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} else {
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None
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}
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}
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}
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/// A shortcut for full `Node` references
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impl<'a> From<&'a Node> for NodePrefixRef<'a> {
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fn from(node: &'a Node) -> Self {
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NodePrefixRef {
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buf: &node.data,
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is_odd: false,
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}
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}
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}
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impl PartialEq<Node> for NodePrefixRef<'_> {
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fn eq(&self, other: &Node) -> bool {
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!self.is_odd && self.buf == other.data
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}
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}
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#[cfg(test)]
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mod tests {
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use super::*;
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fn sample_node() -> Node {
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let mut data = [0; NODE_BYTES_LENGTH];
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data.copy_from_slice(&[
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0x01, 0x23, 0x45, 0x67, 0x89, 0xab, 0xcd, 0xef, 0xfe, 0xdc, 0xba,
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0x98, 0x76, 0x54, 0x32, 0x10, 0xde, 0xad, 0xbe, 0xef,
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]);
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data.into()
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}
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/// Pad an hexadecimal string to reach `NODE_NYBBLES_LENGTH`
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///check_hash
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/// The padding is made with zeros
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pub fn hex_pad_right(hex: &str) -> String {
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let mut res = hex.to_string();
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while res.len() < NODE_NYBBLES_LENGTH {
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res.push('0');
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}
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res
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}
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fn sample_node_hex() -> String {
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hex_pad_right("0123456789abcdeffedcba9876543210deadbeef")
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}
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#[test]
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fn test_node_from_hex() {
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assert_eq!(Node::from_hex(&sample_node_hex()), Ok(sample_node()));
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let mut short = hex_pad_right("0123");
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short.pop();
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short.pop();
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assert_eq!(
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Node::from_hex(&short),
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Err(NodeError::ExactLengthRequired(NODE_NYBBLES_LENGTH, short)),
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);
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let not_hex = hex_pad_right("012... oops");
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assert_eq!(
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Node::from_hex(¬_hex),
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Err(NodeError::HexError(
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FromHexError::InvalidHexCharacter { c: '.', index: 3 },
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not_hex,
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)),
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);
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}
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#[test]
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fn test_node_encode_hex() {
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assert_eq!(sample_node().encode_hex(), sample_node_hex());
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}
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#[test]
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fn test_prefix_from_hex() -> Result<(), NodeError> {
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assert_eq!(
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NodePrefix::from_hex("0e1")?,
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NodePrefix {
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buf: vec![14, 16],
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is_odd: true
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}
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);
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assert_eq!(
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NodePrefix::from_hex("0e1a")?,
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NodePrefix {
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buf: vec![14, 26],
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is_odd: false
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}
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);
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// checking limit case
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let node_as_vec = sample_node().data.iter().cloned().collect();
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assert_eq!(
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NodePrefix::from_hex(sample_node_hex())?,
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NodePrefix {
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buf: node_as_vec,
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is_odd: false
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}
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);
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Ok(())
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}
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#[test]
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fn test_prefix_from_hex_errors() {
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assert_eq!(
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NodePrefix::from_hex("testgr"),
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Err(NodeError::HexError(
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FromHexError::InvalidHexCharacter { c: 't', index: 0 },
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"testgr".to_string()
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))
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);
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let mut long = NULL_NODE.encode_hex();
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long.push('c');
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match NodePrefix::from_hex(&long)
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.expect_err("should be refused as too long")
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{
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NodeError::PrefixTooLong(s) => assert_eq!(s, long),
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err => panic!(format!("Should have been TooLong, got {:?}", err)),
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}
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}
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#[test]
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fn test_is_prefix_of() -> Result<(), NodeError> {
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let mut node_data = [0; NODE_BYTES_LENGTH];
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node_data[0] = 0x12;
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node_data[1] = 0xca;
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let node = Node::from(node_data);
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assert!(NodePrefix::from_hex("12")?.borrow().is_prefix_of(&node));
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assert!(!NodePrefix::from_hex("1a")?.borrow().is_prefix_of(&node));
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assert!(NodePrefix::from_hex("12c")?.borrow().is_prefix_of(&node));
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assert!(!NodePrefix::from_hex("12d")?.borrow().is_prefix_of(&node));
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Ok(())
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}
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#[test]
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fn test_get_nybble() -> Result<(), NodeError> {
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let prefix = NodePrefix::from_hex("dead6789cafe")?;
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assert_eq!(prefix.borrow().get_nybble(0), 13);
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assert_eq!(prefix.borrow().get_nybble(7), 9);
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Ok(())
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}
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#[test]
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fn test_first_different_nybble_even_prefix() {
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let prefix = NodePrefix::from_hex("12ca").unwrap();
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let prefref = prefix.borrow();
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let mut node = Node::from([0; NODE_BYTES_LENGTH]);
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assert_eq!(prefref.first_different_nybble(&node), Some(0));
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node.data[0] = 0x13;
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assert_eq!(prefref.first_different_nybble(&node), Some(1));
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node.data[0] = 0x12;
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assert_eq!(prefref.first_different_nybble(&node), Some(2));
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node.data[1] = 0xca;
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// now it is a prefix
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|
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assert_eq!(prefref.first_different_nybble(&node), None);
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}
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#[test]
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|
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fn test_first_different_nybble_odd_prefix() {
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|
|
let prefix = NodePrefix::from_hex("12c").unwrap();
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|
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let prefref = prefix.borrow();
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|
|
let mut node = Node::from([0; NODE_BYTES_LENGTH]);
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|
|
assert_eq!(prefref.first_different_nybble(&node), Some(0));
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|
|
node.data[0] = 0x13;
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|
|
assert_eq!(prefref.first_different_nybble(&node), Some(1));
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|
|
node.data[0] = 0x12;
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|
|
assert_eq!(prefref.first_different_nybble(&node), Some(2));
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|
|
node.data[1] = 0xca;
|
|
|
// now it is a prefix
|
|
|
assert_eq!(prefref.first_different_nybble(&node), None);
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|
|
}
|
|
|
}
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|
|
|
|
|
#[cfg(test)]
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|
|
pub use tests::hex_pad_right;
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|