// Copyright 2015-2017 Parity Technologies (UK) Ltd. // This file is part of Parity. // Parity is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // Parity is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // You should have received a copy of the GNU General Public License // along with Parity. If not, see . //! Nibble-orientated view onto byte-slice, allowing nibble-precision offsets. use std::cmp::*; use std::fmt; use elastic_array::ElasticArray36; /// Nibble-orientated view onto byte-slice, allowing nibble-precision offsets. /// /// This is an immutable struct. No operations actually change it. /// /// # Example /// ```snippet /// use patricia_trie::nibbleslice::NibbleSlice; /// fn main() { /// let d1 = &[0x01u8, 0x23, 0x45]; /// let d2 = &[0x34u8, 0x50, 0x12]; /// let d3 = &[0x00u8, 0x12]; /// let n1 = NibbleSlice::new(d1); // 0,1,2,3,4,5 /// let n2 = NibbleSlice::new(d2); // 3,4,5,0,1,2 /// let n3 = NibbleSlice::new_offset(d3, 1); // 0,1,2 /// assert!(n1 > n3); // 0,1,2,... > 0,1,2 /// assert!(n1 < n2); // 0,... < 3,... /// assert!(n2.mid(3) == n3); // 0,1,2 == 0,1,2 /// assert!(n1.starts_with(&n3)); /// assert_eq!(n1.common_prefix(&n3), 3); /// assert_eq!(n2.mid(3).common_prefix(&n1), 3); /// } /// ``` #[derive(Copy, Clone, Eq, Ord)] pub struct NibbleSlice<'a> { data: &'a [u8], offset: usize, data_encode_suffix: &'a [u8], offset_encode_suffix: usize, } /// Iterator type for a nibble slice. pub struct NibbleSliceIterator<'a> { p: &'a NibbleSlice<'a>, i: usize, } impl<'a> Iterator for NibbleSliceIterator<'a> { type Item = u8; fn next(&mut self) -> Option { self.i += 1; match self.i <= self.p.len() { true => Some(self.p.at(self.i - 1)), false => None, } } } impl<'a, 'view> NibbleSlice<'a> where 'a: 'view { /// Create a new nibble slice with the given byte-slice. pub fn new(data: &'a [u8]) -> Self { NibbleSlice::new_offset(data, 0) } /// Create a new nibble slice with the given byte-slice with a nibble offset. pub fn new_offset(data: &'a [u8], offset: usize) -> Self { NibbleSlice{data: data, offset: offset, data_encode_suffix: &b""[..], offset_encode_suffix: 0} } /// Create a composed nibble slice; one followed by the other. pub fn new_composed(a: &'a NibbleSlice, b: &'a NibbleSlice) -> Self { NibbleSlice{data: a.data, offset: a.offset, data_encode_suffix: b.data, offset_encode_suffix: b.offset} } /*pub fn new_composed_bytes_offset(a: &NibbleSlice, b: &NibbleSlice) -> (Bytes, usize) { let r: Vec::with_capacity((a.len() + b.len() + 1) / 2); let mut i = (a.len() + b.len()) % 2; while i < a.len() { match i % 2 { 0 => , 1 => , } i += 1; } while i < a.len() + b.len() { i += 1; } (r, a.len() + b.len()) }*/ /// Get an iterator for the series of nibbles. pub fn iter(&'a self) -> NibbleSliceIterator<'a> { NibbleSliceIterator { p: self, i: 0 } } /// Create a new nibble slice from the given HPE encoded data (e.g. output of `encoded()`). pub fn from_encoded(data: &'a [u8]) -> (NibbleSlice, bool) { (Self::new_offset(data, if data[0] & 16 == 16 {1} else {2}), data[0] & 32 == 32) } /// Is this an empty slice? pub fn is_empty(&self) -> bool { self.len() == 0 } /// Get the length (in nibbles, naturally) of this slice. pub fn len(&self) -> usize { (self.data.len() + self.data_encode_suffix.len()) * 2 - self.offset - self.offset_encode_suffix } /// Get the nibble at position `i`. pub fn at(&self, i: usize) -> u8 { let l = self.data.len() * 2 - self.offset; if i < l { if (self.offset + i) & 1 == 1 { self.data[(self.offset + i) / 2] & 15u8 } else { self.data[(self.offset + i) / 2] >> 4 } } else { let i = i - l; if (self.offset_encode_suffix + i) & 1 == 1 { self.data_encode_suffix[(self.offset_encode_suffix + i) / 2] & 15u8 } else { self.data_encode_suffix[(self.offset_encode_suffix + i) / 2] >> 4 } } } /// Return object which represents a view on to this slice (further) offset by `i` nibbles. pub fn mid(&'view self, i: usize) -> NibbleSlice<'a> { NibbleSlice{ data: self.data, offset: self.offset + i, data_encode_suffix: &b""[..], offset_encode_suffix: 0 } } /// Do we start with the same nibbles as the whole of `them`? pub fn starts_with(&self, them: &Self) -> bool { self.common_prefix(them) == them.len() } /// How many of the same nibbles at the beginning do we match with `them`? pub fn common_prefix(&self, them: &Self) -> usize { let s = min(self.len(), them.len()); let mut i = 0usize; while i < s { if self.at(i) != them.at(i) { break; } i += 1; } i } /// Encode while nibble slice in prefixed hex notation, noting whether it `is_leaf`. pub fn encoded(&self, is_leaf: bool) -> ElasticArray36 { let l = self.len(); let mut r = ElasticArray36::new(); let mut i = l % 2; r.push(if i == 1 {0x10 + self.at(0)} else {0} + if is_leaf {0x20} else {0}); while i < l { r.push(self.at(i) * 16 + self.at(i + 1)); i += 2; } r } /// Encode only the leftmost `n` bytes of the nibble slice in prefixed hex notation, /// noting whether it `is_leaf`. pub fn encoded_leftmost(&self, n: usize, is_leaf: bool) -> ElasticArray36 { let l = min(self.len(), n); let mut r = ElasticArray36::new(); let mut i = l % 2; r.push(if i == 1 {0x10 + self.at(0)} else {0} + if is_leaf {0x20} else {0}); while i < l { r.push(self.at(i) * 16 + self.at(i + 1)); i += 2; } r } } impl<'a> PartialEq for NibbleSlice<'a> { fn eq(&self, them: &Self) -> bool { self.len() == them.len() && self.starts_with(them) } } impl<'a> PartialOrd for NibbleSlice<'a> { fn partial_cmp(&self, them: &Self) -> Option { let s = min(self.len(), them.len()); let mut i = 0usize; while i < s { match self.at(i).partial_cmp(&them.at(i)).unwrap() { Ordering::Less => return Some(Ordering::Less), Ordering::Greater => return Some(Ordering::Greater), _ => i += 1, } } self.len().partial_cmp(&them.len()) } } impl<'a> fmt::Debug for NibbleSlice<'a> { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { for i in 0..self.len() { match i { 0 => write!(f, "{:01x}", self.at(i))?, _ => write!(f, "'{:01x}", self.at(i))?, } } Ok(()) } } #[cfg(test)] mod tests { use super::NibbleSlice; use elastic_array::ElasticArray36; static D: &'static [u8;3] = &[0x01u8, 0x23, 0x45]; #[test] fn basics() { let n = NibbleSlice::new(D); assert_eq!(n.len(), 6); assert!(!n.is_empty()); let n = NibbleSlice::new_offset(D, 6); assert!(n.is_empty()); let n = NibbleSlice::new_offset(D, 3); assert_eq!(n.len(), 3); for i in 0..3 { assert_eq!(n.at(i), i as u8 + 3); } } #[test] fn iterator() { let n = NibbleSlice::new(D); let mut nibbles: Vec = vec![]; nibbles.extend(n.iter()); assert_eq!(nibbles, (0u8..6).collect::>()) } #[test] fn mid() { let n = NibbleSlice::new(D); let m = n.mid(2); for i in 0..4 { assert_eq!(m.at(i), i as u8 + 2); } let m = n.mid(3); for i in 0..3 { assert_eq!(m.at(i), i as u8 + 3); } } #[test] fn encoded() { let n = NibbleSlice::new(D); assert_eq!(n.encoded(false), ElasticArray36::from_slice(&[0x00, 0x01, 0x23, 0x45])); assert_eq!(n.encoded(true), ElasticArray36::from_slice(&[0x20, 0x01, 0x23, 0x45])); assert_eq!(n.mid(1).encoded(false), ElasticArray36::from_slice(&[0x11, 0x23, 0x45])); assert_eq!(n.mid(1).encoded(true), ElasticArray36::from_slice(&[0x31, 0x23, 0x45])); } #[test] fn from_encoded() { let n = NibbleSlice::new(D); assert_eq!((n, false), NibbleSlice::from_encoded(&[0x00, 0x01, 0x23, 0x45])); assert_eq!((n, true), NibbleSlice::from_encoded(&[0x20, 0x01, 0x23, 0x45])); assert_eq!((n.mid(1), false), NibbleSlice::from_encoded(&[0x11, 0x23, 0x45])); assert_eq!((n.mid(1), true), NibbleSlice::from_encoded(&[0x31, 0x23, 0x45])); } #[test] fn shared() { let n = NibbleSlice::new(D); let other = &[0x01u8, 0x23, 0x01, 0x23, 0x45, 0x67]; let m = NibbleSlice::new(other); assert_eq!(n.common_prefix(&m), 4); assert_eq!(m.common_prefix(&n), 4); assert_eq!(n.mid(1).common_prefix(&m.mid(1)), 3); assert_eq!(n.mid(1).common_prefix(&m.mid(2)), 0); assert_eq!(n.common_prefix(&m.mid(4)), 6); assert!(!n.starts_with(&m.mid(4))); assert!(m.mid(4).starts_with(&n)); } #[test] fn compare() { let other = &[0x01u8, 0x23, 0x01, 0x23, 0x45]; let n = NibbleSlice::new(D); let m = NibbleSlice::new(other); assert!(n != m); assert!(n > m); assert!(m < n); assert!(n == m.mid(4)); assert!(n >= m.mid(4)); assert!(n <= m.mid(4)); } }