lighthouse/eth2/utils/cached_tree_hash/src/btree_overlay.rs

use super::*;

#[derive(Debug, PartialEq, Clone)]
pub struct BTreeSchema {
    pub depth: usize,
    lengths: Vec<usize>,
}

impl BTreeSchema {
    pub fn from_lengths(depth: usize, lengths: Vec<usize>) -> Self {
        Self { depth, lengths }
    }

    pub fn into_overlay(self, offset: usize) -> BTreeOverlay {
        BTreeOverlay {
            offset,
            depth: self.depth,
            lengths: self.lengths,
        }
    }
}

impl Into<BTreeSchema> for BTreeOverlay {
    fn into(self) -> BTreeSchema {
        BTreeSchema {
            depth: self.depth,
            lengths: self.lengths,
        }
    }
}

#[derive(Debug, PartialEq, Clone)]
pub enum LeafNode {
    DoesNotExist,
    Exists(Range<usize>),
    Padding,
}

#[derive(Debug, PartialEq, Clone)]
pub struct BTreeOverlay {
    offset: usize,
    pub depth: usize,
    lengths: Vec<usize>,
}

impl BTreeOverlay {
    pub fn new<T>(item: &T, initial_offset: usize, depth: usize) -> Self
    where
        T: CachedTreeHash<T>,
    {
        item.tree_hash_cache_schema(depth)
            .into_overlay(initial_offset)
    }

    pub fn num_leaf_nodes(&self) -> usize {
        self.lengths.len().next_power_of_two()
    }

    pub fn num_padding_leaves(&self) -> usize {
        self.num_leaf_nodes() - self.lengths.len()
    }

    /// Returns the number of nodes in the tree.
    ///
    /// Note: this is distinct from `num_chunks`, which returns the total number of chunks in
    /// this tree.
    pub fn num_nodes(&self) -> usize {
        2 * self.num_leaf_nodes() - 1
    }

    pub fn num_internal_nodes(&self) -> usize {
        self.num_leaf_nodes() - 1
    }

    fn first_node(&self) -> usize {
        self.offset
    }

    pub fn root(&self) -> usize {
        self.first_node()
    }

    pub fn next_node(&self) -> usize {
        self.first_node() + self.num_internal_nodes() + self.num_leaf_nodes() - self.lengths.len()
            + self.lengths.iter().sum::<usize>()
    }

    pub fn height(&self) -> usize {
        self.num_leaf_nodes().trailing_zeros() as usize
    }

    pub fn internal_chunk_range(&self) -> Range<usize> {
        self.offset..self.offset + self.num_internal_nodes()
    }

    pub fn chunk_range(&self) -> Range<usize> {
        self.first_node()..self.next_node()
    }

    /// Returns the number of chunks inside this tree (including subtrees).
    ///
    /// Note: this is distinct from `num_nodes` which returns the number of nodes in the binary
    /// tree.
    pub fn num_chunks(&self) -> usize {
        self.next_node() - self.first_node()
    }

    pub fn first_leaf_node(&self) -> usize {
        self.offset + self.num_internal_nodes()
    }

    /// Returns the chunk-range for a given leaf node.
    ///
    /// Returns `None` if:
    ///     - The specified node is internal.
    ///     - The specified node is padding.
    ///     - The specified node is OOB of the tree.
    pub fn get_leaf_node(&self, i: usize) -> Result<LeafNode, Error> {
        if i >= self.num_nodes() {
            Ok(LeafNode::DoesNotExist)
        } else if i >= self.num_nodes() - self.num_padding_leaves() {
            Ok(LeafNode::Padding)
        } else if (i == self.num_internal_nodes()) && (self.lengths.len() == 0) {
            // If this is the first leaf node and the overlay contains zero items, return `None` as
            // this node must be padding.
            Ok(LeafNode::Padding)
        } else {
            let i = i - self.num_internal_nodes();

            let first_node = self.offset
                + self.num_internal_nodes()
                + self.lengths.iter().take(i).sum::<usize>();
            let last_node = first_node + self.lengths[i];

            Ok(LeafNode::Exists(first_node..last_node))
        }
    }

    pub fn child_chunks(&self, parent: usize) -> (usize, usize) {
        let children = children(parent);

        if children.1 < self.num_internal_nodes() {
            (children.0 + self.offset, children.1 + self.offset)
        } else {
            let chunks = self.n_leaf_node_chunks(children.1);
            (chunks[chunks.len() - 2], chunks[chunks.len() - 1])
        }
    }

    /// (parent, (left_child, right_child))
    pub fn internal_parents_and_children(&self) -> Vec<(usize, (usize, usize))> {
        let mut chunks = Vec::with_capacity(self.num_nodes());
        chunks.append(&mut self.internal_node_chunks());
        chunks.append(&mut self.leaf_node_chunks());

        (0..self.num_internal_nodes())
            .into_iter()
            .map(|parent| {
                let children = children(parent);
                (chunks[parent], (chunks[children.0], chunks[children.1]))
            })
            .collect()
    }

    // Returns a `Vec` of chunk indices for each internal node of the tree.
    pub fn internal_node_chunks(&self) -> Vec<usize> {
        (self.offset..self.offset + self.num_internal_nodes()).collect()
    }

    // Returns a `Vec` of the first chunk index for each leaf node of the tree.
    pub fn leaf_node_chunks(&self) -> Vec<usize> {
        self.n_leaf_node_chunks(self.num_leaf_nodes())
    }

    // Returns a `Vec` of the first chunk index for the first `n` leaf nodes of the tree.
    fn n_leaf_node_chunks(&self, n: usize) -> Vec<usize> {
        let mut chunks = Vec::with_capacity(n);

        let mut chunk = self.offset + self.num_internal_nodes();
        for i in 0..n {
            chunks.push(chunk);

            match self.lengths.get(i) {
                Some(len) => {
                    chunk += len;
                }
                None => chunk += 1,
            }
        }

        chunks
    }
}

fn children(parent: usize) -> (usize, usize) {
    ((2 * parent + 1), (2 * parent + 2))
}

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

    fn get_tree_a(n: usize) -> BTreeOverlay {
        BTreeSchema::from_lengths(0, vec![1; n]).into_overlay(0)
    }

    #[test]
    fn leaf_node_chunks() {
        let tree = get_tree_a(4);

        assert_eq!(tree.leaf_node_chunks(), vec![3, 4, 5, 6])
    }

    #[test]
    fn internal_node_chunks() {
        let tree = get_tree_a(4);

        assert_eq!(tree.internal_node_chunks(), vec![0, 1, 2])
    }

    #[test]
    fn internal_parents_and_children() {
        let tree = get_tree_a(4);

        assert_eq!(
            tree.internal_parents_and_children(),
            vec![(0, (1, 2)), (1, (3, 4)), (2, (5, 6))]
        )
    }

    #[test]
    fn chunk_range() {
        let tree = get_tree_a(4);
        assert_eq!(tree.chunk_range(), 0..7);

        let tree = get_tree_a(1);
        assert_eq!(tree.chunk_range(), 0..1);

        let tree = get_tree_a(2);
        assert_eq!(tree.chunk_range(), 0..3);

        let tree = BTreeSchema::from_lengths(0, vec![1, 1]).into_overlay(11);
        assert_eq!(tree.chunk_range(), 11..14);

        let tree = BTreeSchema::from_lengths(0, vec![7, 7, 7]).into_overlay(0);
        assert_eq!(tree.chunk_range(), 0..25);
    }

    #[test]
    fn get_leaf_node() {
        let tree = get_tree_a(4);

        assert_eq!(tree.get_leaf_node(3), Ok(LeafNode::Exists(3..4)));
        assert_eq!(tree.get_leaf_node(4), Ok(LeafNode::Exists(4..5)));
        assert_eq!(tree.get_leaf_node(5), Ok(LeafNode::Exists(5..6)));
        assert_eq!(tree.get_leaf_node(6), Ok(LeafNode::Exists(6..7)));
        assert_eq!(tree.get_leaf_node(7), Ok(LeafNode::DoesNotExist));

        let tree = get_tree_a(3);

        assert_eq!(tree.get_leaf_node(3), Ok(LeafNode::Exists(3..4)));
        assert_eq!(tree.get_leaf_node(4), Ok(LeafNode::Exists(4..5)));
        assert_eq!(tree.get_leaf_node(5), Ok(LeafNode::Exists(5..6)));
        assert_eq!(tree.get_leaf_node(6), Ok(LeafNode::Padding));
        assert_eq!(tree.get_leaf_node(7), Ok(LeafNode::DoesNotExist));

        let tree = get_tree_a(0);

        assert_eq!(tree.get_leaf_node(0), Ok(LeafNode::Padding));
        assert_eq!(tree.get_leaf_node(1), Ok(LeafNode::DoesNotExist));

        let tree = BTreeSchema::from_lengths(0, vec![3]).into_overlay(0);
        assert_eq!(tree.get_leaf_node(0), Ok(LeafNode::Exists(0..3)));
        assert_eq!(tree.get_leaf_node(1), Ok(LeafNode::DoesNotExist));
    }

    #[test]
    fn root_of_one_node() {
        let tree = get_tree_a(1);

        assert_eq!(tree.root(), 0);
        assert_eq!(tree.num_internal_nodes(), 0);
        assert_eq!(tree.num_leaf_nodes(), 1);
    }

    #[test]
    fn child_chunks() {
        let tree = get_tree_a(4);

        assert_eq!(tree.child_chunks(0), (1, 2))
    }
}
Tidy CachedTreeHash trait 2019-04-15 01:37:29 +00:00			`use super::*;`

Update `CachedTreeHash` trait to return schema 2019-04-26 02:27:04 +00:00			`#[derive(Debug, PartialEq, Clone)]`
			`pub struct BTreeSchema {`
			`pub depth: usize,`
			`lengths: Vec<usize>,`
			`}`

			`impl BTreeSchema {`
			`pub fn from_lengths(depth: usize, lengths: Vec<usize>) -> Self {`
			`Self { depth, lengths }`
			`}`

			`pub fn into_overlay(self, offset: usize) -> BTreeOverlay {`
			`BTreeOverlay {`
			`offset,`
			`depth: self.depth,`
			`lengths: self.lengths,`
			`}`
			`}`
			`}`

			`impl Into<BTreeSchema> for BTreeOverlay {`
			`fn into(self) -> BTreeSchema {`
			`BTreeSchema {`
			`depth: self.depth,`
			`lengths: self.lengths,`
			`}`
			`}`
			`}`

Fix bug with cached tree hash, passes tests 2019-04-27 06:22:42 +00:00			`#[derive(Debug, PartialEq, Clone)]`
			`pub enum LeafNode {`
			`DoesNotExist,`
			`Exists(Range<usize>),`
			`Padding,`
			`}`

Remove "old" item requirement from treehash 2019-04-21 02:12:47 +00:00			`#[derive(Debug, PartialEq, Clone)]`
Tidy CachedTreeHash trait 2019-04-15 01:37:29 +00:00			`pub struct BTreeOverlay {`
Update `CachedTreeHash` trait to return schema 2019-04-26 02:27:04 +00:00			`offset: usize,`
Update depth variable 2019-04-23 23:29:32 +00:00			`pub depth: usize,`
Update `CachedTreeHash` trait to return schema 2019-04-26 02:27:04 +00:00			`lengths: Vec<usize>,`
Tidy CachedTreeHash trait 2019-04-15 01:37:29 +00:00			`}`

			`impl BTreeOverlay {`
Remove `num_items` from `BTreeOverlay` 2019-04-26 01:34:07 +00:00			`pub fn new<T>(item: &T, initial_offset: usize, depth: usize) -> Self`
Tidy CachedTreeHash trait 2019-04-15 01:37:29 +00:00			`where`
Rename `CachedTreeHash` trait, add readme 2019-04-24 08:23:58 +00:00			`T: CachedTreeHash<T>,`
Tidy CachedTreeHash trait 2019-04-15 01:37:29 +00:00			`{`
Update `CachedTreeHash` trait to return schema 2019-04-26 02:27:04 +00:00			`item.tree_hash_cache_schema(depth)`
			`.into_overlay(initial_offset)`
Remove "old" item requirement from treehash 2019-04-21 02:12:47 +00:00			`}`
Tidy CachedTreeHash trait 2019-04-15 01:37:29 +00:00
Remove "old" item requirement from treehash 2019-04-21 02:12:47 +00:00			`pub fn num_leaf_nodes(&self) -> usize {`
			`self.lengths.len().next_power_of_two()`
			`}`
Tidy CachedTreeHash trait 2019-04-15 01:37:29 +00:00
Add tests, fix bugs 2019-04-22 06:09:29 +00:00			`pub fn num_padding_leaves(&self) -> usize {`
Remove "old" item requirement from treehash 2019-04-21 02:12:47 +00:00			`self.num_leaf_nodes() - self.lengths.len()`
			`}`
Tidy CachedTreeHash trait 2019-04-15 01:37:29 +00:00
Fix bug with num_nodes/num_chunks 2019-04-24 00:17:05 +00:00			`/// Returns the number of nodes in the tree.`
			`///`
			/// Note: this is distinct from `num_chunks`, which returns the total number of chunks in
			`/// this tree.`
Remove "old" item requirement from treehash 2019-04-21 02:12:47 +00:00			`pub fn num_nodes(&self) -> usize {`
			`2 * self.num_leaf_nodes() - 1`
			`}`

			`pub fn num_internal_nodes(&self) -> usize {`
			`self.num_leaf_nodes() - 1`
			`}`
Tidy CachedTreeHash trait 2019-04-15 01:37:29 +00:00
Remove "old" item requirement from treehash 2019-04-21 02:12:47 +00:00			`fn first_node(&self) -> usize {`
			`self.offset`
Tidy CachedTreeHash trait 2019-04-15 01:37:29 +00:00			`}`

			`pub fn root(&self) -> usize {`
Remove "old" item requirement from treehash 2019-04-21 02:12:47 +00:00			`self.first_node()`
			`}`

			`pub fn next_node(&self) -> usize {`
Implement further cache tests and bug fixes 2019-04-21 23:20:13 +00:00			`self.first_node() + self.num_internal_nodes() + self.num_leaf_nodes() - self.lengths.len()`
			`+ self.lengths.iter().sum::<usize>()`
Tidy CachedTreeHash trait 2019-04-15 01:37:29 +00:00			`}`

			`pub fn height(&self) -> usize {`
Remove "old" item requirement from treehash 2019-04-21 02:12:47 +00:00			`self.num_leaf_nodes().trailing_zeros() as usize`
Tidy CachedTreeHash trait 2019-04-15 01:37:29 +00:00			`}`

Fix bug with cached tree hash, passes tests 2019-04-27 06:22:42 +00:00			`pub fn internal_chunk_range(&self) -> Range<usize> {`
			`self.offset..self.offset + self.num_internal_nodes()`
			`}`

Tidy CachedTreeHash trait 2019-04-15 01:37:29 +00:00			`pub fn chunk_range(&self) -> Range<usize> {`
Remove "old" item requirement from treehash 2019-04-21 02:12:47 +00:00			`self.first_node()..self.next_node()`
Tidy CachedTreeHash trait 2019-04-15 01:37:29 +00:00			`}`

Fix bug with num_nodes/num_chunks 2019-04-24 00:17:05 +00:00			`/// Returns the number of chunks inside this tree (including subtrees).`
			`///`
			/// Note: this is distinct from `num_nodes` which returns the number of nodes in the binary
			`/// tree.`
			`pub fn num_chunks(&self) -> usize {`
Remove "old" item requirement from treehash 2019-04-21 02:12:47 +00:00			`self.next_node() - self.first_node()`
Tidy CachedTreeHash trait 2019-04-15 01:37:29 +00:00			`}`

Remove "old" item requirement from treehash 2019-04-21 02:12:47 +00:00			`pub fn first_leaf_node(&self) -> usize {`
			`self.offset + self.num_internal_nodes()`
Tidy CachedTreeHash trait 2019-04-15 01:37:29 +00:00			`}`

Add tests, fix bugs 2019-04-22 06:09:29 +00:00			`/// Returns the chunk-range for a given leaf node.`
			`///`
			/// Returns `None` if:
			`/// - The specified node is internal.`
			`/// - The specified node is padding.`
			`/// - The specified node is OOB of the tree.`
Fix bug with cached tree hash, passes tests 2019-04-27 06:22:42 +00:00			`pub fn get_leaf_node(&self, i: usize) -> Result<LeafNode, Error> {`
			`if i >= self.num_nodes() {`
			`Ok(LeafNode::DoesNotExist)`
			`} else if i >= self.num_nodes() - self.num_padding_leaves() {`
			`Ok(LeafNode::Padding)`
Remove `num_items` from `BTreeOverlay` 2019-04-26 01:34:07 +00:00			`} else if (i == self.num_internal_nodes()) && (self.lengths.len() == 0) {`
Add tests, fix bugs 2019-04-22 06:09:29 +00:00			// If this is the first leaf node and the overlay contains zero items, return `None` as
			`// this node must be padding.`
Fix bug with cached tree hash, passes tests 2019-04-27 06:22:42 +00:00			`Ok(LeafNode::Padding)`
Remove "old" item requirement from treehash 2019-04-21 02:12:47 +00:00			`} else {`
Add tests, fix bugs 2019-04-22 06:09:29 +00:00			`let i = i - self.num_internal_nodes();`

			`let first_node = self.offset`
			`+ self.num_internal_nodes()`
			`+ self.lengths.iter().take(i).sum::<usize>();`
Remove "old" item requirement from treehash 2019-04-21 02:12:47 +00:00			`let last_node = first_node + self.lengths[i];`
Add tests, fix bugs 2019-04-22 06:09:29 +00:00
Fix bug with cached tree hash, passes tests 2019-04-27 06:22:42 +00:00			`Ok(LeafNode::Exists(first_node..last_node))`
Remove "old" item requirement from treehash 2019-04-21 02:12:47 +00:00			`}`
Tidy CachedTreeHash trait 2019-04-15 01:37:29 +00:00			`}`

Implement further cache tests and bug fixes 2019-04-21 23:20:13 +00:00			`pub fn child_chunks(&self, parent: usize) -> (usize, usize) {`
			`let children = children(parent);`

			`if children.1 < self.num_internal_nodes() {`
			`(children.0 + self.offset, children.1 + self.offset)`
			`} else {`
			`let chunks = self.n_leaf_node_chunks(children.1);`
			`(chunks[chunks.len() - 2], chunks[chunks.len() - 1])`
			`}`
			`}`

			`/// (parent, (left_child, right_child))`
Remove "old" item requirement from treehash 2019-04-21 02:12:47 +00:00			`pub fn internal_parents_and_children(&self) -> Vec<(usize, (usize, usize))> {`
Implement further cache tests and bug fixes 2019-04-21 23:20:13 +00:00			`let mut chunks = Vec::with_capacity(self.num_nodes());`
			`chunks.append(&mut self.internal_node_chunks());`
			`chunks.append(&mut self.leaf_node_chunks());`

Remove "old" item requirement from treehash 2019-04-21 02:12:47 +00:00			`(0..self.num_internal_nodes())`
			`.into_iter()`
			`.map(\|parent\| {`
			`let children = children(parent);`
Implement further cache tests and bug fixes 2019-04-21 23:20:13 +00:00			`(chunks[parent], (chunks[children.0], chunks[children.1]))`
Remove "old" item requirement from treehash 2019-04-21 02:12:47 +00:00			`})`
			`.collect()`
Tidy CachedTreeHash trait 2019-04-15 01:37:29 +00:00			`}`

Remove "old" item requirement from treehash 2019-04-21 02:12:47 +00:00			// Returns a `Vec` of chunk indices for each internal node of the tree.
			`pub fn internal_node_chunks(&self) -> Vec<usize> {`
			`(self.offset..self.offset + self.num_internal_nodes()).collect()`
Tidy CachedTreeHash trait 2019-04-15 01:37:29 +00:00			`}`
Implement further cache tests and bug fixes 2019-04-21 23:20:13 +00:00
			// Returns a `Vec` of the first chunk index for each leaf node of the tree.
			`pub fn leaf_node_chunks(&self) -> Vec<usize> {`
			`self.n_leaf_node_chunks(self.num_leaf_nodes())`
			`}`

			// Returns a `Vec` of the first chunk index for the first `n` leaf nodes of the tree.
			`fn n_leaf_node_chunks(&self, n: usize) -> Vec<usize> {`
			`let mut chunks = Vec::with_capacity(n);`

			`let mut chunk = self.offset + self.num_internal_nodes();`
			`for i in 0..n {`
			`chunks.push(chunk);`

			`match self.lengths.get(i) {`
			`Some(len) => {`
			`chunk += len;`
			`}`
			`None => chunk += 1,`
			`}`
			`}`

			`chunks`
			`}`
			`}`

Create `cached_tree_hash` crate. 2019-04-25 23:55:03 +00:00			`fn children(parent: usize) -> (usize, usize) {`
			`((2 * parent + 1), (2 * parent + 2))`
			`}`

Implement further cache tests and bug fixes 2019-04-21 23:20:13 +00:00			`#[cfg(test)]`
			`mod test {`
			`use super::*;`

			`fn get_tree_a(n: usize) -> BTreeOverlay {`
Update `CachedTreeHash` trait to return schema 2019-04-26 02:27:04 +00:00			`BTreeSchema::from_lengths(0, vec![1; n]).into_overlay(0)`
Implement further cache tests and bug fixes 2019-04-21 23:20:13 +00:00			`}`

			`#[test]`
			`fn leaf_node_chunks() {`
			`let tree = get_tree_a(4);`

			`assert_eq!(tree.leaf_node_chunks(), vec![3, 4, 5, 6])`
			`}`

			`#[test]`
			`fn internal_node_chunks() {`
			`let tree = get_tree_a(4);`

			`assert_eq!(tree.internal_node_chunks(), vec![0, 1, 2])`
			`}`

			`#[test]`
			`fn internal_parents_and_children() {`
			`let tree = get_tree_a(4);`

			`assert_eq!(`
			`tree.internal_parents_and_children(),`
			`vec![(0, (1, 2)), (1, (3, 4)), (2, (5, 6))]`
			`)`
			`}`

			`#[test]`
			`fn chunk_range() {`
			`let tree = get_tree_a(4);`
			`assert_eq!(tree.chunk_range(), 0..7);`

			`let tree = get_tree_a(1);`
			`assert_eq!(tree.chunk_range(), 0..1);`

			`let tree = get_tree_a(2);`
			`assert_eq!(tree.chunk_range(), 0..3);`

Update `CachedTreeHash` trait to return schema 2019-04-26 02:27:04 +00:00			`let tree = BTreeSchema::from_lengths(0, vec![1, 1]).into_overlay(11);`
Implement further cache tests and bug fixes 2019-04-21 23:20:13 +00:00			`assert_eq!(tree.chunk_range(), 11..14);`
Fix bug with shrinking list. 2019-04-26 06:55:19 +00:00
			`let tree = BTreeSchema::from_lengths(0, vec![7, 7, 7]).into_overlay(0);`
			`assert_eq!(tree.chunk_range(), 0..25);`
Implement further cache tests and bug fixes 2019-04-21 23:20:13 +00:00			`}`

Add tests, fix bugs 2019-04-22 06:09:29 +00:00			`#[test]`
			`fn get_leaf_node() {`
			`let tree = get_tree_a(4);`

Fix bug with cached tree hash, passes tests 2019-04-27 06:22:42 +00:00			`assert_eq!(tree.get_leaf_node(3), Ok(LeafNode::Exists(3..4)));`
			`assert_eq!(tree.get_leaf_node(4), Ok(LeafNode::Exists(4..5)));`
			`assert_eq!(tree.get_leaf_node(5), Ok(LeafNode::Exists(5..6)));`
			`assert_eq!(tree.get_leaf_node(6), Ok(LeafNode::Exists(6..7)));`
			`assert_eq!(tree.get_leaf_node(7), Ok(LeafNode::DoesNotExist));`

			`let tree = get_tree_a(3);`

			`assert_eq!(tree.get_leaf_node(3), Ok(LeafNode::Exists(3..4)));`
			`assert_eq!(tree.get_leaf_node(4), Ok(LeafNode::Exists(4..5)));`
			`assert_eq!(tree.get_leaf_node(5), Ok(LeafNode::Exists(5..6)));`
			`assert_eq!(tree.get_leaf_node(6), Ok(LeafNode::Padding));`
			`assert_eq!(tree.get_leaf_node(7), Ok(LeafNode::DoesNotExist));`

			`let tree = get_tree_a(0);`

			`assert_eq!(tree.get_leaf_node(0), Ok(LeafNode::Padding));`
			`assert_eq!(tree.get_leaf_node(1), Ok(LeafNode::DoesNotExist));`

			`let tree = BTreeSchema::from_lengths(0, vec![3]).into_overlay(0);`
			`assert_eq!(tree.get_leaf_node(0), Ok(LeafNode::Exists(0..3)));`
			`assert_eq!(tree.get_leaf_node(1), Ok(LeafNode::DoesNotExist));`
Add tests, fix bugs 2019-04-22 06:09:29 +00:00			`}`

Implement further cache tests and bug fixes 2019-04-21 23:20:13 +00:00			`#[test]`
			`fn root_of_one_node() {`
			`let tree = get_tree_a(1);`

			`assert_eq!(tree.root(), 0);`
			`assert_eq!(tree.num_internal_nodes(), 0);`
			`assert_eq!(tree.num_leaf_nodes(), 1);`
			`}`

			`#[test]`
			`fn child_chunks() {`
			`let tree = get_tree_a(4);`

			`assert_eq!(tree.child_chunks(0), (1, 2))`
			`}`
Tidy CachedTreeHash trait 2019-04-15 01:37:29 +00:00			`}`