diff --git a/library/alloc/src/collections/btree/node.rs b/library/alloc/src/collections/btree/node.rs index 769383515b7f1..16b4b1091eff7 100644 --- a/library/alloc/src/collections/btree/node.rs +++ b/library/alloc/src/collections/btree/node.rs @@ -295,15 +295,6 @@ impl NodeRef { } } -impl<'a, K, V> NodeRef, K, V, marker::Internal> { - /// Exposes the data of an internal node in an immutable tree. - fn as_internal(this: &Self) -> &'a InternalNode { - let ptr = Self::as_internal_ptr(this); - // SAFETY: there can be no mutable references into this tree borrowed as `Immut`. - unsafe { &*ptr } - } -} - impl<'a, K, V> NodeRef, K, V, marker::Internal> { /// Borrows exclusive access to the data of an internal node. fn as_internal_mut(&mut self) -> &mut InternalNode { @@ -368,17 +359,6 @@ impl<'a, K: 'a, V: 'a, Type> NodeRef, K, V, Type> { } } -impl<'a, K, V> NodeRef, K, V, marker::Internal> { - /// Exposes the contents of one of the edges in the node. - /// - /// # Safety - /// The node has more than `idx` initialized elements. - unsafe fn edge_at(self, idx: usize) -> &'a BoxedNode { - debug_assert!(idx <= self.len()); - unsafe { Self::as_internal(&self).edges.get_unchecked(idx).assume_init_ref() } - } -} - impl NodeRef { /// Finds the parent of the current node. Returns `Ok(handle)` if the current /// node actually has a parent, where `handle` points to the edge of the parent @@ -550,31 +530,6 @@ impl<'a, K: 'a, V: 'a> NodeRef, K, V, marker::Internal> { } } -impl<'a, K: 'a, V: 'a, Type> NodeRef, K, V, Type> { - /// Exposes the entire key storage area in the node, - /// regardless of the node's current length, - /// having exclusive access to the entire node. - unsafe fn key_area(self) -> &'a [MaybeUninit] { - self.into_leaf().keys.as_slice() - } - - /// Exposes the entire value storage area in the node, - /// regardless of the node's current length, - /// having exclusive access to the entire node. - unsafe fn val_area(self) -> &'a [MaybeUninit] { - self.into_leaf().vals.as_slice() - } -} - -impl<'a, K: 'a, V: 'a> NodeRef, K, V, marker::Internal> { - /// Exposes the entire storage area for edge contents in the node, - /// regardless of the node's current length, - /// having exclusive access to the entire node. - unsafe fn edge_area(self) -> &'a [MaybeUninit>] { - Self::as_internal(&self).edges.as_slice() - } -} - impl<'a, K, V, Type> NodeRef, K, V, Type> { /// # Safety /// - The node has more than `idx` initialized elements. @@ -707,12 +662,12 @@ impl<'a, K: 'a, V: 'a> NodeRef, K, V, marker::LeafOrInternal> { let idx = self.len() - 1; unsafe { - let key = ptr::read(self.reborrow().key_at(idx)); - let val = ptr::read(self.reborrow().val_at(idx)); + let key = self.key_area_mut_at(idx).assume_init_read(); + let val = self.val_area_mut_at(idx).assume_init_read(); let edge = match self.reborrow_mut().force() { ForceResult::Leaf(_) => None, - ForceResult::Internal(internal) => { - let node = ptr::read(internal.reborrow().edge_at(idx + 1)); + ForceResult::Internal(mut internal) => { + let node = internal.edge_area_mut_at(idx + 1).assume_init_read(); let mut edge = Root { node, height: internal.height - 1, _marker: PhantomData }; // Currently, clearing the parent link is superfluous, because we will // insert the node elsewhere and set its parent link again. @@ -1172,16 +1127,16 @@ impl<'a, K: 'a, V: 'a, NodeType> Handle, K, V, NodeType> let new_len = self.node.len() - self.idx - 1; new_node.len = new_len as u16; unsafe { - let k = ptr::read(self.node.reborrow().key_at(self.idx)); - let v = ptr::read(self.node.reborrow().val_at(self.idx)); + let k = self.node.key_area_mut_at(self.idx).assume_init_read(); + let v = self.node.val_area_mut_at(self.idx).assume_init_read(); ptr::copy_nonoverlapping( - self.node.reborrow().key_area().as_ptr().add(self.idx + 1), + self.node.key_area_mut_at(self.idx + 1..).as_ptr(), new_node.keys.as_mut_ptr(), new_len, ); ptr::copy_nonoverlapping( - self.node.reborrow().val_area().as_ptr().add(self.idx + 1), + self.node.val_area_mut_at(self.idx + 1..).as_ptr(), new_node.vals.as_mut_ptr(), new_len, ); @@ -1240,7 +1195,7 @@ impl<'a, K: 'a, V: 'a> Handle, K, V, marker::Internal>, let kv = self.split_leaf_data(&mut new_node.data); let new_len = usize::from(new_node.data.len); ptr::copy_nonoverlapping( - self.node.reborrow().edge_area().as_ptr().add(self.idx + 1), + self.node.edge_area_mut_at(self.idx + 1..).as_ptr(), new_node.edges.as_mut_ptr(), new_len + 1, ); @@ -1352,7 +1307,7 @@ impl<'a, K: 'a, V: 'a> BalancingContext<'a, K, V> { let old_parent_len = parent_node.len(); let mut left_node = self.left_child; let old_left_len = left_node.len(); - let right_node = self.right_child; + let mut right_node = self.right_child; let right_len = right_node.len(); let new_left_len = old_left_len + 1 + right_len; @@ -1370,7 +1325,7 @@ impl<'a, K: 'a, V: 'a> BalancingContext<'a, K, V> { slice_remove(parent_node.key_area_mut_at(..old_parent_len), parent_idx); left_node.key_area_mut_at(old_left_len).write(parent_key); ptr::copy_nonoverlapping( - right_node.reborrow().key_area().as_ptr(), + right_node.key_area_mut_at(..).as_ptr(), left_node.key_area_mut_at(old_left_len + 1..).as_mut_ptr(), right_len, ); @@ -1379,7 +1334,7 @@ impl<'a, K: 'a, V: 'a> BalancingContext<'a, K, V> { slice_remove(parent_node.val_area_mut_at(..old_parent_len), parent_idx); left_node.val_area_mut_at(old_left_len).write(parent_val); ptr::copy_nonoverlapping( - right_node.reborrow().val_area().as_ptr(), + right_node.val_area_mut_at(..).as_ptr(), left_node.val_area_mut_at(old_left_len + 1..).as_mut_ptr(), right_len, ); @@ -1392,9 +1347,9 @@ impl<'a, K: 'a, V: 'a> BalancingContext<'a, K, V> { // SAFETY: the height of the nodes being merged is one below the height // of the node of this edge, thus above zero, so they are internal. let mut left_node = left_node.reborrow_mut().cast_to_internal_unchecked(); - let right_node = right_node.cast_to_internal_unchecked(); + let mut right_node = right_node.cast_to_internal_unchecked(); ptr::copy_nonoverlapping( - right_node.reborrow().edge_area().as_ptr(), + right_node.edge_area_mut_at(..).as_ptr(), left_node.edge_area_mut_at(old_left_len + 1..).as_mut_ptr(), right_len + 1, ); @@ -1503,7 +1458,6 @@ impl<'a, K: 'a, V: 'a> BalancingContext<'a, K, V> { match (left_node.reborrow_mut().force(), right_node.reborrow_mut().force()) { (ForceResult::Internal(left), ForceResult::Internal(mut right)) => { // Make room for stolen edges. - let left = left.reborrow(); let right_edges = right.edge_area_mut_at(..).as_mut_ptr(); ptr::copy(right_edges, right_edges.add(count), old_right_len + 1); right.correct_childrens_parent_links(count..new_right_len + 1); @@ -1561,7 +1515,7 @@ impl<'a, K: 'a, V: 'a> BalancingContext<'a, K, V> { match (left_node.reborrow_mut().force(), right_node.reborrow_mut().force()) { (ForceResult::Internal(left), ForceResult::Internal(mut right)) => { // Steal edges. - move_edges(right.reborrow(), 0, left, old_left_len + 1, count); + move_edges(right.reborrow_mut(), 0, left, old_left_len + 1, count); // Fill gap where stolen edges used to be. let right_edges = right.edge_area_mut_at(..).as_mut_ptr(); @@ -1590,14 +1544,14 @@ unsafe fn move_kv( // Source and destination must have the same height. unsafe fn move_edges<'a, K: 'a, V: 'a>( - source: NodeRef, K, V, marker::Internal>, + mut source: NodeRef, K, V, marker::Internal>, source_offset: usize, mut dest: NodeRef, K, V, marker::Internal>, dest_offset: usize, count: usize, ) { unsafe { - let source_ptr = source.edge_area().as_ptr(); + let source_ptr = source.edge_area_mut_at(..).as_ptr(); let dest_ptr = dest.edge_area_mut_at(dest_offset..).as_mut_ptr(); ptr::copy_nonoverlapping(source_ptr.add(source_offset), dest_ptr, count); dest.correct_childrens_parent_links(dest_offset..dest_offset + count); @@ -1699,7 +1653,6 @@ impl<'a, K, V> Handle, K, V, marker::LeafOrInternal>, ma match (left_node.force(), right_node.force()) { (ForceResult::Internal(left), ForceResult::Internal(right)) => { - let left = left.reborrow(); move_edges(left, new_left_len + 1, right, 1, new_right_len); } (ForceResult::Leaf(_), ForceResult::Leaf(_)) => {}