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      // Copyright 2019-2020 Georges Racinet <georges.racinet@octobus.net>

      //

      // This software may be used and distributed according to the terms of the

      // GNU General Public License version 2 or any later version.

      //! Definitions and utilities for Revision nodes

      //!

      //! In Mercurial code base, it is customary to call "a node" the binary SHA

      //! of a revision.

      use crate::errors::HgError;

      use bytes_cast::BytesCast;

      use std::convert::{TryFrom, TryInto};

      use std::fmt;

      /// The length in bytes of a `Node`

      ///

      /// This constant is meant to ease refactors of this module, and

      /// are private so that calling code does not expect all nodes have

      /// the same size, should we support several formats concurrently in

      /// the future.

      pub const NODE_BYTES_LENGTH: usize = 20;

      /// Id of the null node.

      ///

      /// Used to indicate the absence of node.

      pub const NULL_NODE_ID: [u8; NODE_BYTES_LENGTH] = [0u8; NODE_BYTES_LENGTH];

      /// The length in bytes of a `Node`

      ///

      /// see also `NODES_BYTES_LENGTH` about it being private.

      const NODE_NYBBLES_LENGTH: usize = 2 * NODE_BYTES_LENGTH;

      /// Default for UI presentation

      const SHORT_PREFIX_DEFAULT_NYBBLES_LENGTH: u8 = 12;

      /// Private alias for readability and to ease future change

      type NodeData = [u8; NODE_BYTES_LENGTH];

      /// Binary revision SHA

      ///

      /// ## Future changes of hash size

      ///

      /// To accomodate future changes of hash size, Rust callers

      /// should use the conversion methods at the boundaries (FFI, actual

      /// computation of hashes and I/O) only, and only if required.

      ///

      /// All other callers outside of unit tests should just handle `Node` values

      /// and never make any assumption on the actual length, using [`nybbles_len`]

      /// if they need a loop boundary.

      ///

      /// All methods that create a `Node` either take a type that enforces

      /// the size or return an error at runtime.

      ///

      /// [`nybbles_len`]: #method.nybbles_len

      #[derive(Copy, Clone, Debug, PartialEq, BytesCast, derive_more::From)]

      #[repr(transparent)]

      pub struct Node {

          data: NodeData,

      }

      /// The node value for NULL_REVISION

      pub const NULL_NODE: Node = Node {

          data: [0; NODE_BYTES_LENGTH],

      };

      /// Return an error if the slice has an unexpected length

      impl<'a> TryFrom<&'a [u8]> for &'a Node {

          type Error = ();

          #[inline]

          fn try_from(bytes: &'a [u8]) -> Result<Self, Self::Error> {

              match Node::from_bytes(bytes) {

                  Ok((node, rest)) if rest.is_empty() => Ok(node),

                  _ => Err(()),

              }

          }

      }

      /// Return an error if the slice has an unexpected length

      impl TryFrom<&'_ [u8]> for Node {

          type Error = std::array::TryFromSliceError;

          #[inline]

          fn try_from(bytes: &'_ [u8]) -> Result<Self, Self::Error> {

              let data = bytes.try_into()?;

              Ok(Self { data })

          }

      }

      impl From<&'_ NodeData> for Node {

          #[inline]

          fn from(data: &'_ NodeData) -> Self {

              Self { data: *data }

          }

      }

      impl fmt::LowerHex for Node {

          fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {

              for &byte in &self.data {

                  write!(f, "{:02x}", byte)?

              }

              Ok(())

          }

      }

      #[derive(Debug)]

      pub struct FromHexError;

      /// Low level utility function, also for prefixes

      fn get_nybble(s: &[u8], i: usize) -> u8 {

          if i % 2 == 0 {

              s[i / 2] >> 4

          } else {

              s[i / 2] & 0x0f

          }

      }

      impl Node {

          /// Retrieve the `i`th half-byte of the binary data.

          ///

          /// This is also the `i`th hexadecimal digit in numeric form,

          /// also called a [nybble](https://en.wikipedia.org/wiki/Nibble).

          pub fn get_nybble(&self, i: usize) -> u8 {

              get_nybble(&self.data, i)

          }

          /// Length of the data, in nybbles

          pub fn nybbles_len(&self) -> usize {

              // public exposure as an instance method only, so that we can

              // easily support several sizes of hashes if needed in the future.

              NODE_NYBBLES_LENGTH

          }

          /// Convert from hexadecimal string representation

          ///

          /// Exact length is required.

          ///

          /// To be used in FFI and I/O only, in order to facilitate future

          /// changes of hash format.

          pub fn from_hex(hex: impl AsRef<[u8]>) -> Result<Node, FromHexError> {

              let prefix = NodePrefix::from_hex(hex)?;

              if prefix.nybbles_len() == NODE_NYBBLES_LENGTH {

                  Ok(Self { data: prefix.data })

              } else {

                  Err(FromHexError)

              }

          }

          /// `from_hex`, but for input from an internal file of the repository such

          /// as a changelog or manifest entry.

          ///

          /// An error is treated as repository corruption.

          pub fn from_hex_for_repo(hex: impl AsRef<[u8]>) -> Result<Node, HgError> {

              Self::from_hex(hex.as_ref()).map_err(|FromHexError| {

                  HgError::CorruptedRepository(format!(

                      "Expected a full hexadecimal node ID, found {}",

                      String::from_utf8_lossy(hex.as_ref())

                  ))

              })

          }

          /// Provide access to binary data

          ///

          /// This is needed by FFI layers, for instance to return expected

          /// binary values to Python.

          pub fn as_bytes(&self) -> &[u8] {

              &self.data

          }

          pub fn short(&self) -> NodePrefix {

              NodePrefix {

                  nybbles_len: SHORT_PREFIX_DEFAULT_NYBBLES_LENGTH,

                  data: self.data,

              }

          }

      }

      /// The beginning of a binary revision SHA.

      ///

      /// Since it can potentially come from an hexadecimal representation with

      /// odd length, it needs to carry around whether the last 4 bits are relevant

      /// or not.

      #[derive(Debug, PartialEq, Copy, Clone)]

      pub struct NodePrefix {

          /// In `1..=NODE_NYBBLES_LENGTH`

          nybbles_len: u8,

          /// The first `4 * length_in_nybbles` bits are used (considering bits

          /// within a bytes in big-endian: most significant first), the rest

          /// are zero.

          data: NodeData,

      }

      impl NodePrefix {

          /// Convert from hexadecimal string representation

          ///

          /// Similarly to `hex::decode`, can be used with Unicode string types

          /// (`String`, `&str`) as well as bytes.

          ///

          /// To be used in FFI and I/O only, in order to facilitate future

          /// changes of hash format.

          pub fn from_hex(hex: impl AsRef<[u8]>) -> Result<Self, FromHexError> {

              let hex = hex.as_ref();

              let len = hex.len();

              if len > NODE_NYBBLES_LENGTH || len == 0 {

                  return Err(FromHexError);

              }

              let mut data = [0; NODE_BYTES_LENGTH];

              let mut nybbles_len = 0;

              for &ascii_byte in hex {

                  let nybble = match char::from(ascii_byte).to_digit(16) {

                      Some(digit) => digit as u8,

                      None => return Err(FromHexError),

                  };

                  // Fill in the upper half of a byte first, then the lower half.

                  let shift = if nybbles_len % 2 == 0 { 4 } else { 0 };

                  data[nybbles_len as usize / 2] |= nybble << shift;

                  nybbles_len += 1;

              }

              Ok(Self { data, nybbles_len })

          }

          pub fn nybbles_len(&self) -> usize {

              self.nybbles_len as _

          }

          pub fn is_prefix_of(&self, node: &Node) -> bool {

              let full_bytes = self.nybbles_len() / 2;

              if self.data[..full_bytes] != node.data[..full_bytes] {

                  return false;

              }

              if self.nybbles_len() % 2 == 0 {

                  return true;

              }

              let last = self.nybbles_len() - 1;

              self.get_nybble(last) == node.get_nybble(last)

          }

          /// Retrieve the `i`th half-byte from the prefix.

          ///

          /// This is also the `i`th hexadecimal digit in numeric form,

          /// also called a [nybble](https://en.wikipedia.org/wiki/Nibble).

          pub fn get_nybble(&self, i: usize) -> u8 {

              assert!(i < self.nybbles_len());

              get_nybble(&self.data, i)

          }

          fn iter_nybbles(&self) -> impl Iterator<Item = u8> + '_ {

              (0..self.nybbles_len()).map(move |i| get_nybble(&self.data, i))

          }

          /// Return the index first nybble that's different from `node`

          ///

          /// If the return value is `None` that means that `self` is

          /// a prefix of `node`, but the current method is a bit slower

          /// than `is_prefix_of`.

          ///

          /// Returned index is as in `get_nybble`, i.e., starting at 0.

          pub fn first_different_nybble(&self, node: &Node) -> Option<usize> {

              self.iter_nybbles()

                  .zip(NodePrefix::from(*node).iter_nybbles())

                  .position(|(a, b)| a != b)

          }

      }

      impl fmt::LowerHex for NodePrefix {

          fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {

              let full_bytes = self.nybbles_len() / 2;

              for &byte in &self.data[..full_bytes] {

                  write!(f, "{:02x}", byte)?

              }

              if self.nybbles_len() % 2 == 1 {

                  let last = self.nybbles_len() - 1;

                  write!(f, "{:x}", self.get_nybble(last))?

              }

              Ok(())

          }

      }

      /// A shortcut for full `Node` references

      impl From<&'_ Node> for NodePrefix {

          fn from(node: &'_ Node) -> Self {

              NodePrefix {

                  nybbles_len: node.nybbles_len() as _,

                  data: node.data,

              }

          }

      }

      /// A shortcut for full `Node` references

      impl From<Node> for NodePrefix {

          fn from(node: Node) -> Self {

              NodePrefix {

                  nybbles_len: node.nybbles_len() as _,

                  data: node.data,

              }

          }

      }

      impl PartialEq<Node> for NodePrefix {

          fn eq(&self, other: &Node) -> bool {

              Self::from(*other) == *self

          }

      }

      #[cfg(test)]

      mod tests {

          use super::*;

          const SAMPLE_NODE_HEX: &str = "0123456789abcdeffedcba9876543210deadbeef";

          const SAMPLE_NODE: Node = Node {

              data: [

                  0x01, 0x23, 0x45, 0x67, 0x89, 0xab, 0xcd, 0xef, 0xfe, 0xdc, 0xba,

                  0x98, 0x76, 0x54, 0x32, 0x10, 0xde, 0xad, 0xbe, 0xef,

              ],

          };

          /// Pad an hexadecimal string to reach `NODE_NYBBLES_LENGTH`

          /// The padding is made with zeros.

          pub fn hex_pad_right(hex: &str) -> String {

              let mut res = hex.to_string();

              while res.len() < NODE_NYBBLES_LENGTH {

                  res.push('0');

              }

              res

          }

          #[test]

          fn test_node_from_hex() {

              let not_hex = "012... oops";

              let too_short = "0123";

              let too_long = format!("{}0", SAMPLE_NODE_HEX);

              assert_eq!(Node::from_hex(SAMPLE_NODE_HEX).unwrap(), SAMPLE_NODE);

              assert!(Node::from_hex(not_hex).is_err());

              assert!(Node::from_hex(too_short).is_err());

              assert!(Node::from_hex(&too_long).is_err());

          }

          #[test]

          fn test_node_encode_hex() {

              assert_eq!(format!("{:x}", SAMPLE_NODE), SAMPLE_NODE_HEX);

          }

          #[test]

          fn test_prefix_from_to_hex() -> Result<(), FromHexError> {

              assert_eq!(format!("{:x}", NodePrefix::from_hex("0e1")?), "0e1");

              assert_eq!(format!("{:x}", NodePrefix::from_hex("0e1a")?), "0e1a");

              assert_eq!(

                  format!("{:x}", NodePrefix::from_hex(SAMPLE_NODE_HEX)?),

                  SAMPLE_NODE_HEX

              );

              Ok(())

          }

          #[test]

          fn test_prefix_from_hex_errors() {

              assert!(NodePrefix::from_hex("testgr").is_err());

              let mut long = format!("{:x}", NULL_NODE);

              long.push('c');

              assert!(NodePrefix::from_hex(&long).is_err())

          }

          #[test]

          fn test_is_prefix_of() -> Result<(), FromHexError> {

              let mut node_data = [0; NODE_BYTES_LENGTH];

              node_data[0] = 0x12;

              node_data[1] = 0xca;

              let node = Node::from(node_data);

              assert!(NodePrefix::from_hex("12")?.is_prefix_of(&node));

              assert!(!NodePrefix::from_hex("1a")?.is_prefix_of(&node));

              assert!(NodePrefix::from_hex("12c")?.is_prefix_of(&node));

              assert!(!NodePrefix::from_hex("12d")?.is_prefix_of(&node));

              Ok(())

          }

          #[test]

          fn test_get_nybble() -> Result<(), FromHexError> {

              let prefix = NodePrefix::from_hex("dead6789cafe")?;

              assert_eq!(prefix.get_nybble(0), 13);

              assert_eq!(prefix.get_nybble(7), 9);

              Ok(())

          }

          #[test]

          fn test_first_different_nybble_even_prefix() {

              let prefix = NodePrefix::from_hex("12ca").unwrap();

              let mut node = Node::from([0; NODE_BYTES_LENGTH]);

              assert_eq!(prefix.first_different_nybble(&node), Some(0));

              node.data[0] = 0x13;

              assert_eq!(prefix.first_different_nybble(&node), Some(1));

              node.data[0] = 0x12;

              assert_eq!(prefix.first_different_nybble(&node), Some(2));

              node.data[1] = 0xca;

              // now it is a prefix

              assert_eq!(prefix.first_different_nybble(&node), None);

          }

          #[test]

          fn test_first_different_nybble_odd_prefix() {

              let prefix = NodePrefix::from_hex("12c").unwrap();

              let mut node = Node::from([0; NODE_BYTES_LENGTH]);

              assert_eq!(prefix.first_different_nybble(&node), Some(0));

              node.data[0] = 0x13;

              assert_eq!(prefix.first_different_nybble(&node), Some(1));

              node.data[0] = 0x12;

              assert_eq!(prefix.first_different_nybble(&node), Some(2));

              node.data[1] = 0xca;

              // now it is a prefix

              assert_eq!(prefix.first_different_nybble(&node), None);

          }

      }

      #[cfg(test)]

      pub use tests::hex_pad_right;

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				// Copyright 2019-2020 Georges Racinet <georges.racinet@octobus.net>
				//
				// This software may be used and distributed according to the terms of the
				// GNU General Public License version 2 or any later version.

				//! Definitions and utilities for Revision nodes
				//!
				//! In Mercurial code base, it is customary to call "a node" the binary SHA
				//! of a revision.

				use crate::errors::HgError;
				use bytes_cast::BytesCast;
				use std::convert::{TryFrom, TryInto};
				use std::fmt;

				/// The length in bytes of a `Node`
				///
				/// This constant is meant to ease refactors of this module, and
				/// are private so that calling code does not expect all nodes have
				/// the same size, should we support several formats concurrently in
				/// the future.
				pub const NODE_BYTES_LENGTH: usize = 20;

				/// Id of the null node.
				///
				/// Used to indicate the absence of node.
				pub const NULL_NODE_ID: [u8; NODE_BYTES_LENGTH] = [0u8; NODE_BYTES_LENGTH];

				/// The length in bytes of a `Node`
				///
				/// see also `NODES_BYTES_LENGTH` about it being private.
				const NODE_NYBBLES_LENGTH: usize = 2 * NODE_BYTES_LENGTH;

				/// Default for UI presentation
				const SHORT_PREFIX_DEFAULT_NYBBLES_LENGTH: u8 = 12;

				/// Private alias for readability and to ease future change
				type NodeData = [u8; NODE_BYTES_LENGTH];

				/// Binary revision SHA
				///
				/// ## Future changes of hash size
				///
				/// To accomodate future changes of hash size, Rust callers
				/// should use the conversion methods at the boundaries (FFI, actual
				/// computation of hashes and I/O) only, and only if required.
				///
				/// All other callers outside of unit tests should just handle `Node` values
				/// and never make any assumption on the actual length, using [`nybbles_len`]
				/// if they need a loop boundary.
				///
				/// All methods that create a `Node` either take a type that enforces
				/// the size or return an error at runtime.
				///
				/// [`nybbles_len`]: #method.nybbles_len
				#[derive(Copy, Clone, Debug, PartialEq, BytesCast, derive_more::From)]
				#[repr(transparent)]
				pub struct Node {
				data: NodeData,
				}

				/// The node value for NULL_REVISION
				pub const NULL_NODE: Node = Node {
				data: [0; NODE_BYTES_LENGTH],
				};

				/// Return an error if the slice has an unexpected length
				impl<'a> TryFrom<&'a [u8]> for &'a Node {
				type Error = ();

				#[inline]
				fn try_from(bytes: &'a [u8]) -> Result<Self, Self::Error> {
				match Node::from_bytes(bytes) {
				Ok((node, rest)) if rest.is_empty() => Ok(node),
				_ => Err(()),
				}
				}
				}

				/// Return an error if the slice has an unexpected length
				impl TryFrom<&'_ [u8]> for Node {
				type Error = std::array::TryFromSliceError;

				#[inline]
				fn try_from(bytes: &'_ [u8]) -> Result<Self, Self::Error> {
				let data = bytes.try_into()?;
				Ok(Self { data })
				}
				}

				impl From<&'_ NodeData> for Node {
				#[inline]
				fn from(data: &'_ NodeData) -> Self {
				Self { data: *data }
				}
				}

				impl fmt::LowerHex for Node {
				fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
				for &byte in &self.data {
				write!(f, "{:02x}", byte)?
				}
				Ok(())
				}
				}

				#[derive(Debug)]
				pub struct FromHexError;

				/// Low level utility function, also for prefixes
				fn get_nybble(s: &[u8], i: usize) -> u8 {
				if i % 2 == 0 {
				s[i / 2] >> 4
				} else {
				s[i / 2] & 0x0f
				}
				}

				impl Node {
				/// Retrieve the `i`th half-byte of the binary data.
				///
				/// This is also the `i`th hexadecimal digit in numeric form,
				/// also called a [nybble](https://en.wikipedia.org/wiki/Nibble).
				pub fn get_nybble(&self, i: usize) -> u8 {
				get_nybble(&self.data, i)
				}

				/// Length of the data, in nybbles
				pub fn nybbles_len(&self) -> usize {
				// public exposure as an instance method only, so that we can
				// easily support several sizes of hashes if needed in the future.
				NODE_NYBBLES_LENGTH
				}

				/// Convert from hexadecimal string representation
				///
				/// Exact length is required.
				///
				/// To be used in FFI and I/O only, in order to facilitate future
				/// changes of hash format.
				pub fn from_hex(hex: impl AsRef<[u8]>) -> Result<Node, FromHexError> {
				let prefix = NodePrefix::from_hex(hex)?;
				if prefix.nybbles_len() == NODE_NYBBLES_LENGTH {
				Ok(Self { data: prefix.data })
				} else {
				Err(FromHexError)
				}
				}

				/// `from_hex`, but for input from an internal file of the repository such
				/// as a changelog or manifest entry.
				///
				/// An error is treated as repository corruption.
				pub fn from_hex_for_repo(hex: impl AsRef<[u8]>) -> Result<Node, HgError> {
				Self::from_hex(hex.as_ref()).map_err(\|FromHexError\| {
				HgError::CorruptedRepository(format!(
				"Expected a full hexadecimal node ID, found {}",
				String::from_utf8_lossy(hex.as_ref())
				))
				})
				}

				/// Provide access to binary data
				///
				/// This is needed by FFI layers, for instance to return expected
				/// binary values to Python.
				pub fn as_bytes(&self) -> &[u8] {
				&self.data
				}

				pub fn short(&self) -> NodePrefix {
				NodePrefix {
				nybbles_len: SHORT_PREFIX_DEFAULT_NYBBLES_LENGTH,
				data: self.data,
				}
				}
				}

				/// The beginning of a binary revision SHA.
				///
				/// Since it can potentially come from an hexadecimal representation with
				/// odd length, it needs to carry around whether the last 4 bits are relevant
				/// or not.
				#[derive(Debug, PartialEq, Copy, Clone)]
				pub struct NodePrefix {
				/// In `1..=NODE_NYBBLES_LENGTH`
				nybbles_len: u8,
				/// The first `4 * length_in_nybbles` bits are used (considering bits
				/// within a bytes in big-endian: most significant first), the rest
				/// are zero.
				data: NodeData,
				}

				impl NodePrefix {
				/// Convert from hexadecimal string representation
				///
				/// Similarly to `hex::decode`, can be used with Unicode string types
				/// (`String`, `&str`) as well as bytes.
				///
				/// To be used in FFI and I/O only, in order to facilitate future
				/// changes of hash format.
				pub fn from_hex(hex: impl AsRef<[u8]>) -> Result<Self, FromHexError> {
				let hex = hex.as_ref();
				let len = hex.len();
				if len > NODE_NYBBLES_LENGTH \|\| len == 0 {
				return Err(FromHexError);
				}

				let mut data = [0; NODE_BYTES_LENGTH];
				let mut nybbles_len = 0;
				for &ascii_byte in hex {
				let nybble = match char::from(ascii_byte).to_digit(16) {
				Some(digit) => digit as u8,
				None => return Err(FromHexError),
				};
				// Fill in the upper half of a byte first, then the lower half.
				let shift = if nybbles_len % 2 == 0 { 4 } else { 0 };
				data[nybbles_len as usize / 2] \|= nybble << shift;
				nybbles_len += 1;
				}
				Ok(Self { data, nybbles_len })
				}

				pub fn nybbles_len(&self) -> usize {
				self.nybbles_len as _
				}

				pub fn is_prefix_of(&self, node: &Node) -> bool {
				let full_bytes = self.nybbles_len() / 2;
				if self.data[..full_bytes] != node.data[..full_bytes] {
				return false;
				}
				if self.nybbles_len() % 2 == 0 {
				return true;
				}
				let last = self.nybbles_len() - 1;
				self.get_nybble(last) == node.get_nybble(last)
				}

				/// Retrieve the `i`th half-byte from the prefix.
				///
				/// This is also the `i`th hexadecimal digit in numeric form,
				/// also called a [nybble](https://en.wikipedia.org/wiki/Nibble).
				pub fn get_nybble(&self, i: usize) -> u8 {
				assert!(i < self.nybbles_len());
				get_nybble(&self.data, i)
				}

				fn iter_nybbles(&self) -> impl Iterator<Item = u8> + '_ {
				(0..self.nybbles_len()).map(move \|i\| get_nybble(&self.data, i))
				}

				/// Return the index first nybble that's different from `node`
				///
				/// If the return value is `None` that means that `self` is
				/// a prefix of `node`, but the current method is a bit slower
				/// than `is_prefix_of`.
				///
				/// Returned index is as in `get_nybble`, i.e., starting at 0.
				pub fn first_different_nybble(&self, node: &Node) -> Option<usize> {
				self.iter_nybbles()
				.zip(NodePrefix::from(*node).iter_nybbles())
				.position(\|(a, b)\| a != b)
				}
				}

				impl fmt::LowerHex for NodePrefix {
				fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
				let full_bytes = self.nybbles_len() / 2;
				for &byte in &self.data[..full_bytes] {
				write!(f, "{:02x}", byte)?
				}
				if self.nybbles_len() % 2 == 1 {
				let last = self.nybbles_len() - 1;
				write!(f, "{:x}", self.get_nybble(last))?
				}
				Ok(())
				}
				}

				/// A shortcut for full `Node` references
				impl From<&'_ Node> for NodePrefix {
				fn from(node: &'_ Node) -> Self {
				NodePrefix {
				nybbles_len: node.nybbles_len() as _,
				data: node.data,
				}
				}
				}

				/// A shortcut for full `Node` references
				impl From<Node> for NodePrefix {
				fn from(node: Node) -> Self {
				NodePrefix {
				nybbles_len: node.nybbles_len() as _,
				data: node.data,
				}
				}
				}

				impl PartialEq<Node> for NodePrefix {
				fn eq(&self, other: &Node) -> bool {
				Self::from(other) == self
				}
				}

				#[cfg(test)]
				mod tests {
				use super::*;

				const SAMPLE_NODE_HEX: &str = "0123456789abcdeffedcba9876543210deadbeef";
				const SAMPLE_NODE: Node = Node {
				data: [
				0x01, 0x23, 0x45, 0x67, 0x89, 0xab, 0xcd, 0xef, 0xfe, 0xdc, 0xba,
				0x98, 0x76, 0x54, 0x32, 0x10, 0xde, 0xad, 0xbe, 0xef,
				],
				};

				/// Pad an hexadecimal string to reach `NODE_NYBBLES_LENGTH`
				/// The padding is made with zeros.
				pub fn hex_pad_right(hex: &str) -> String {
				let mut res = hex.to_string();
				while res.len() < NODE_NYBBLES_LENGTH {
				res.push('0');
				}
				res
				}

				#[test]
				fn test_node_from_hex() {
				let not_hex = "012... oops";
				let too_short = "0123";
				let too_long = format!("{}0", SAMPLE_NODE_HEX);
				assert_eq!(Node::from_hex(SAMPLE_NODE_HEX).unwrap(), SAMPLE_NODE);
				assert!(Node::from_hex(not_hex).is_err());
				assert!(Node::from_hex(too_short).is_err());
				assert!(Node::from_hex(&too_long).is_err());
				}

				#[test]
				fn test_node_encode_hex() {
				assert_eq!(format!("{:x}", SAMPLE_NODE), SAMPLE_NODE_HEX);
				}

				#[test]
				fn test_prefix_from_to_hex() -> Result<(), FromHexError> {
				assert_eq!(format!("{:x}", NodePrefix::from_hex("0e1")?), "0e1");
				assert_eq!(format!("{:x}", NodePrefix::from_hex("0e1a")?), "0e1a");
				assert_eq!(
				format!("{:x}", NodePrefix::from_hex(SAMPLE_NODE_HEX)?),
				SAMPLE_NODE_HEX
				);
				Ok(())
				}

				#[test]
				fn test_prefix_from_hex_errors() {
				assert!(NodePrefix::from_hex("testgr").is_err());
				let mut long = format!("{:x}", NULL_NODE);
				long.push('c');
				assert!(NodePrefix::from_hex(&long).is_err())
				}

				#[test]
				fn test_is_prefix_of() -> Result<(), FromHexError> {
				let mut node_data = [0; NODE_BYTES_LENGTH];
				node_data[0] = 0x12;
				node_data[1] = 0xca;
				let node = Node::from(node_data);
				assert!(NodePrefix::from_hex("12")?.is_prefix_of(&node));
				assert!(!NodePrefix::from_hex("1a")?.is_prefix_of(&node));
				assert!(NodePrefix::from_hex("12c")?.is_prefix_of(&node));
				assert!(!NodePrefix::from_hex("12d")?.is_prefix_of(&node));
				Ok(())
				}

				#[test]
				fn test_get_nybble() -> Result<(), FromHexError> {
				let prefix = NodePrefix::from_hex("dead6789cafe")?;
				assert_eq!(prefix.get_nybble(0), 13);
				assert_eq!(prefix.get_nybble(7), 9);
				Ok(())
				}

				#[test]
				fn test_first_different_nybble_even_prefix() {
				let prefix = NodePrefix::from_hex("12ca").unwrap();
				let mut node = Node::from([0; NODE_BYTES_LENGTH]);
				assert_eq!(prefix.first_different_nybble(&node), Some(0));
				node.data[0] = 0x13;
				assert_eq!(prefix.first_different_nybble(&node), Some(1));
				node.data[0] = 0x12;
				assert_eq!(prefix.first_different_nybble(&node), Some(2));
				node.data[1] = 0xca;
				// now it is a prefix
				assert_eq!(prefix.first_different_nybble(&node), None);
				}

				#[test]
				fn test_first_different_nybble_odd_prefix() {
				let prefix = NodePrefix::from_hex("12c").unwrap();
				let mut node = Node::from([0; NODE_BYTES_LENGTH]);
				assert_eq!(prefix.first_different_nybble(&node), Some(0));
				node.data[0] = 0x13;
				assert_eq!(prefix.first_different_nybble(&node), Some(1));
				node.data[0] = 0x12;
				assert_eq!(prefix.first_different_nybble(&node), Some(2));
				node.data[1] = 0xca;
				// now it is a prefix
				assert_eq!(prefix.first_different_nybble(&node), None);
				}
				}

				#[cfg(test)]
				pub use tests::hex_pad_right;