BTreeMap: less sharing, more similarity between leaf and internal nodes

This commit is contained in:
Stein Somers 2020-09-26 20:46:44 +02:00
parent 7829e18899
commit 76c466a18f

View File

@ -611,7 +611,7 @@ impl<'a, K: 'a, V: 'a> NodeRef<marker::Mut<'a>, K, V, marker::Leaf> {
/// Adds a key/value pair to the beginning of the node.
fn push_front(&mut self, key: K, val: V) {
debug_assert!(self.len() < CAPACITY);
assert!(self.len() < CAPACITY);
unsafe {
slice_insert(self.keys_mut(), 0, key);
@ -664,14 +664,7 @@ impl<'a, K: 'a, V: 'a> NodeRef<marker::Mut<'a>, K, V, marker::Internal> {
unsafe {
slice_insert(self.keys_mut(), 0, key);
slice_insert(self.vals_mut(), 0, val);
slice_insert(
slice::from_raw_parts_mut(
MaybeUninit::slice_as_mut_ptr(&mut self.as_internal_mut().edges),
self.len() + 1,
),
0,
edge.node,
);
slice_insert(self.edges_mut(), 0, edge.node);
}
self.as_leaf_mut().len += 1;
@ -921,24 +914,6 @@ fn splitpoint(edge_idx: usize) -> (usize, InsertionPlace) {
}
}
impl<'a, K: 'a, V: 'a, NodeType> Handle<NodeRef<marker::Mut<'a>, K, V, NodeType>, marker::Edge> {
/// Helps implementations of `insert_fit` for a particular `NodeType`,
/// by taking care of leaf data.
/// Inserts a new key/value pair between the key/value pairs to the right and left of
/// this edge. This method assumes that there is enough space in the node for the new
/// pair to fit.
fn leafy_insert_fit(&mut self, key: K, val: V) {
debug_assert!(self.node.len() < CAPACITY);
unsafe {
slice_insert(self.node.keys_mut(), self.idx, key);
slice_insert(self.node.vals_mut(), self.idx, val);
self.node.as_leaf_mut().len += 1;
}
}
}
impl<'a, K: 'a, V: 'a> Handle<NodeRef<marker::Mut<'a>, K, V, marker::Leaf>, marker::Edge> {
/// Inserts a new key/value pair between the key/value pairs to the right and left of
/// this edge. This method assumes that there is enough space in the node for the new
@ -946,8 +921,15 @@ impl<'a, K: 'a, V: 'a> Handle<NodeRef<marker::Mut<'a>, K, V, marker::Leaf>, mark
///
/// The returned pointer points to the inserted value.
fn insert_fit(&mut self, key: K, val: V) -> *mut V {
self.leafy_insert_fit(key, val);
unsafe { self.node.val_mut_at(self.idx) }
debug_assert!(self.node.len() < CAPACITY);
unsafe {
slice_insert(self.node.keys_mut(), self.idx, key);
slice_insert(self.node.vals_mut(), self.idx, val);
self.node.as_leaf_mut().len += 1;
self.node.val_mut_at(self.idx)
}
}
}
@ -996,11 +978,14 @@ impl<'a, K: 'a, V: 'a> Handle<NodeRef<marker::Mut<'a>, K, V, marker::Internal>,
/// between this edge and the key/value pair to the right of this edge. This method assumes
/// that there is enough space in the node for the new pair to fit.
fn insert_fit(&mut self, key: K, val: V, edge: Root<K, V>) {
debug_assert!(self.node.len() < CAPACITY);
debug_assert!(edge.height == self.node.height - 1);
unsafe {
slice_insert(self.node.keys_mut(), self.idx, key);
slice_insert(self.node.vals_mut(), self.idx, val);
slice_insert(self.node.edges_mut(), self.idx + 1, edge.node);
self.leafy_insert_fit(key, val);
self.node.as_leaf_mut().len += 1;
self.node.correct_childrens_parent_links((self.idx + 1)..=self.node.len());
}
@ -1131,15 +1116,21 @@ impl<'a, K: 'a, V: 'a, NodeType> Handle<NodeRef<marker::Mut<'a>, K, V, NodeType>
}
impl<'a, K: 'a, V: 'a, NodeType> Handle<NodeRef<marker::Mut<'a>, K, V, NodeType>, marker::KV> {
/// Helps implementations of `split` for a particular `NodeType`,
/// by calculating the length of the new node.
fn split_new_node_len(&self) -> usize {
debug_assert!(self.idx < self.node.len());
self.node.len() - self.idx - 1
}
/// Helps implementations of `split` for a particular `NodeType`,
/// by taking care of leaf data.
fn leafy_split(&mut self, new_node: &mut LeafNode<K, V>) -> (K, V, usize) {
fn split_leaf_data(&mut self, new_node: &mut LeafNode<K, V>) -> (K, V) {
let new_len = self.split_new_node_len();
unsafe {
let k = ptr::read(self.node.key_at(self.idx));
let v = ptr::read(self.node.val_at(self.idx));
let new_len = self.node.len() - self.idx - 1;
ptr::copy_nonoverlapping(
self.node.key_at(self.idx + 1),
MaybeUninit::slice_as_mut_ptr(&mut new_node.keys),
@ -1153,7 +1144,7 @@ impl<'a, K: 'a, V: 'a, NodeType> Handle<NodeRef<marker::Mut<'a>, K, V, NodeType>
self.node.as_leaf_mut().len = self.idx as u16;
new_node.len = new_len as u16;
(k, v, new_len)
(k, v)
}
}
}
@ -1161,7 +1152,7 @@ impl<'a, K: 'a, V: 'a, NodeType> Handle<NodeRef<marker::Mut<'a>, K, V, NodeType>
impl<'a, K: 'a, V: 'a> Handle<NodeRef<marker::Mut<'a>, K, V, marker::Leaf>, marker::KV> {
/// Splits the underlying node into three parts:
///
/// - The node is truncated to only contain the key/value pairs to the right of
/// - The node is truncated to only contain the key/value pairs to the left of
/// this handle.
/// - The key and value pointed to by this handle are extracted.
/// - All the key/value pairs to the right of this handle are put into a newly
@ -1170,9 +1161,10 @@ impl<'a, K: 'a, V: 'a> Handle<NodeRef<marker::Mut<'a>, K, V, marker::Leaf>, mark
unsafe {
let mut new_node = Box::new(LeafNode::new());
let (k, v, _) = self.leafy_split(&mut new_node);
let (k, v) = self.split_leaf_data(&mut new_node);
(self.node, k, v, Root { node: BoxedNode::from_leaf(new_node), height: 0 })
let right = Root { node: BoxedNode::from_leaf(new_node), height: 0 };
(self.node, k, v, right)
}
}
@ -1206,29 +1198,28 @@ impl<'a, K: 'a, V: 'a> Handle<NodeRef<marker::Mut<'a>, K, V, marker::Internal>,
/// Splits the underlying node into three parts:
///
/// - The node is truncated to only contain the edges and key/value pairs to the
/// right of this handle.
/// left of this handle.
/// - The key and value pointed to by this handle are extracted.
/// - All the edges and key/value pairs to the right of this handle are put into
/// a newly allocated node.
pub fn split(mut self) -> (NodeRef<marker::Mut<'a>, K, V, marker::Internal>, K, V, Root<K, V>) {
unsafe {
let mut new_node = Box::new(InternalNode::new());
let (k, v, new_len) = self.leafy_split(&mut new_node.data);
let height = self.node.height;
let old_node = &*self.node.as_internal_ptr();
// Move edges out before reducing length:
let new_len = self.split_new_node_len();
ptr::copy_nonoverlapping(
old_node.edges.as_ptr().add(self.idx + 1),
new_node.edges.as_mut_ptr(),
self.node.edge_at(self.idx + 1),
MaybeUninit::slice_as_mut_ptr(&mut new_node.edges),
new_len + 1,
);
let (k, v) = self.split_leaf_data(&mut new_node.data);
let mut new_root = Root { node: BoxedNode::from_internal(new_node), height };
let height = self.node.height;
let mut right = Root { node: BoxedNode::from_internal(new_node), height };
new_root.internal_node_as_mut().correct_childrens_parent_links(0..=new_len);
right.internal_node_as_mut().correct_childrens_parent_links(0..=new_len);
(self.node, k, v, new_root)
(self.node, k, v, right)
}
}