private abstract class RopeNode
# Length of the node
var length = 0
+
+ # Transforms the current node to a Leaf.
+ # This might be costly to invoke since this produces a FlatString concatenation.
+ # Can be used internally to limit the growth of the Rope when working with small leaves.
+ fun to_leaf: Leaf is abstract
end
# Node that represents a concatenation between two nodes (of any RopeNode type)
super RopeNode
# Left child of the node
- var _left: nullable RopeNode = null
+ var left: nullable RopeNode
# Right child of the node
- var _right: nullable RopeNode = null
-
- fun left: nullable RopeNode do return _left
- fun right: nullable RopeNode do return _right
+ var right: nullable RopeNode
- fun left=(l: RopeNode)
+ init(l: nullable RopeNode, r: nullable RopeNode)
do
- _left = l
- length = l.length
- if _right != null then length += _right.length
+ left = l
+ right = r
+ if l != null then length += l.length
+ if r != null then length += r.length
end
- fun right=(r: RopeNode)
+ redef fun to_leaf
do
- _right = r
- length = r.length
- if _left != null then length += _left.length
+ if left == null then
+ if right == null then return new StringLeaf("".as(FlatString))
+ return right.to_leaf
+ end
+ if right == null then return left.as(not null).to_leaf
+ return new StringLeaf((left.to_leaf.str.as(FlatString) + right.to_leaf.str.as(FlatString)).as(FlatString))
end
end
# Leaf of a Rope, contains a FlatString
-private class Leaf
+private abstract class Leaf
super RopeNode
# Encapsulated FlatString in the leaf node
- var str: FlatString
+ var str: FlatText
+
+end
+
+private class StringLeaf
+ super Leaf
init(val: FlatString) do
self.str = val
length = str.length
end
+ redef fun to_leaf do return self
end
# Basic structure, binary tree with a root node.
# Creates a new Rope with `s` as root
init from(s: String) do
- if s isa RopeString then root = s.root else root = new Leaf(s.as(FlatString))
+ if s isa RopeString then root = s.root else root = new StringLeaf(s.as(FlatString))
end
private init from_root(r: RopeNode)
private fun leaves(from: Int): LeavesIterator do return new LeavesIterator(self, from)
# Iterator on the substrings from 0, in forward order
- fun substrings: IndexedIterator[Text] do return new SubstringsIterator(self, 0)
+ redef fun substrings do return new SubstringsIterator(self, 0)
# Iterator on the substrings, starting at position `from`, in forward order
fun substrings_from(from: Int): IndexedIterator[Text] do return new SubstringsIterator(self, from)
redef fun empty do return once new RopeString.from("")
+ redef var chars: SequenceRead[Char] = new RopeStringChars(self)
+
redef fun reversed
do
var ret = empty.as(RopeString)
end
# Inserts a String `str` at position `pos`
- fun insert_at(str: String, pos: Int): RopeString
+ redef fun insert_at(str, pos)
do
if str.length == 0 then return self
if self.length == 0 then return new RopeString.from(str)
var path = node_at(pos)
- var last_concat = new Concat
+ var last_concat: Concat
if path.offset == 0 then
- last_concat.right = path.leaf
- if str isa FlatString then last_concat.left = new Leaf(str) else last_concat.left = str.as(RopeString).root
+ if str isa FlatString then
+ last_concat = new Concat(new StringLeaf(str), path.leaf)
+ else
+ last_concat = new Concat(str.as(RopeString).root, path.leaf)
+ end
else if path.offset == path.leaf.length then
- if str isa FlatString then last_concat.right = new Leaf(str) else last_concat.right = str.as(RopeString).root
- last_concat.left = path.leaf
+ if str isa FlatString then
+ last_concat = new Concat(path.leaf, new StringLeaf(str))
+ else
+ last_concat = new Concat(path.leaf, str.as(RopeString).root)
+ end
else
var s = path.leaf.str
var l_half = s.substring(0, s.length - path.offset)
var r_half = s.substring_from(s.length - path.offset)
- var cct = new Concat
- cct.right = new Leaf(r_half)
- last_concat.left = new Leaf(l_half)
- if str isa FlatString then last_concat.right = new Leaf(str) else last_concat.right = str.as(RopeString).root
- cct.left = last_concat
- last_concat = cct
+ var cct: Concat
+ var ll = new StringLeaf(l_half.as(FlatString))
+ if str isa FlatString then
+ cct = new Concat(ll, new StringLeaf(str))
+ else
+ cct = new Concat(ll, str.as(RopeString).root)
+ end
+ last_concat = new Concat(cct, new StringLeaf(r_half.as(FlatString)))
end
for i in path.stack.reverse_iterator do
- var nod = new Concat
if i.left then
- nod.right = i.node.right.as(not null)
- nod.left = last_concat
+ last_concat = new Concat(last_concat, i.node.right)
else
- nod.left = i.node.left.as(not null)
- nod.right = last_concat
+ last_concat = new Concat(i.node.left, last_concat)
end
- last_concat = nod
end
return new RopeString.from_root(last_concat)
end
# Adds `s` at the beginning of self
- fun prepend(s: String): String do return insert_at(s, 0)
+ redef fun prepend(s) do return insert_at(s, 0)
# Adds `s` at the end of self
- fun append(s: String): String
+ redef fun append(s)
do
if self.is_empty then return s
return new RopeString.from_root(append_to_path(root,s))
# Builds a new path from root to the rightmost node with s appended
private fun append_to_path(node: RopeNode, s: String): RopeNode
do
- var cct = new Concat
+ var cct: Concat
if node isa Leaf then
- cct.left = node
- if s isa FlatString then cct.right = new Leaf(s) else cct.right = s.as(RopeString).root
- else if node isa Concat then
- var right = node.right
- if node.left != null then cct.left = node.left.as(not null)
+ if s isa FlatString then
+ cct = new Concat(node, new StringLeaf(s))
+ else
+ cct = new Concat(node, s.as(RopeString).root)
+ end
+ else
+ var n = node.as(Concat)
+ var right = n.right
+ var lft = n.left.as(not null)
if right == null then
- if s isa FlatString then cct.right = new Leaf(s) else cct.right = s.as(RopeString).root
+ if s isa FlatString then
+ cct = new Concat(lft, new StringLeaf(s))
+ else
+ cct = new Concat(lft, s.as(RopeString).root)
+ end
else
- cct.right = append_to_path(right, s)
+ cct = new Concat(lft, append_to_path(right, s))
end
end
return cct
var lf = path.leaf
var offset = path.offset
- if path.leaf.str.length - offset > len then lf = new Leaf(lf.str.substring(offset,len)) else lf = new Leaf(lf.str.substring_from(offset))
+ if path.leaf.str.length - offset > len then lf = new StringLeaf(lf.str.substring(offset,len).as(FlatString)) else lf = new StringLeaf(lf.str.substring_from(offset).as(FlatString))
var nod: RopeNode = lf
for i in path.stack.reverse_iterator do
if i.right then continue
- var tmp = new Concat
- tmp.left = nod
- var r = i.node.right
- if r != null then tmp.right = r
- nod = tmp
+ nod = new Concat(nod, i.node.right)
end
var ret = new RopeString
path = ret.node_at(len-1)
offset = path.offset
- nod = new Leaf(path.leaf.str.substring(0, offset+1))
+ nod = new StringLeaf(path.leaf.str.substring(0, offset+1).as(FlatString))
for i in path.stack.reverse_iterator do
if i.left then continue
- var tmp = new Concat
- tmp.right = nod
- var l = i.node.left
- if l != null then tmp.left = l
- nod = tmp
+ nod = new Concat(i.node.left, nod)
end
ret.root = nod
end
end
+redef class FlatString
+
+ redef fun append(s) do return (new RopeString.from(self)) + s
+
+ redef fun prepend(s) do return (new RopeString.from(self)).prepend(s)
+
+ redef fun insert_at(s, pos)
+ do
+ if pos == 0 then return prepend(s)
+ if pos == length then return append(s)
+
+ var l = substring(0,pos)
+ var r = substring_from(pos)
+ var ret: String = new RopeString.from(l)
+ ret += s
+ return ret + r
+ end
+
+end
+
+private class RopeStringChars
+ super SequenceRead[Char]
+
+ var tgt: Rope
+
+ redef fun [](pos)
+ do
+ assert pos < tgt.length
+ var path = tgt.node_at(pos)
+ return path.leaf.str.chars[path.offset]
+ end
+
+ redef fun iterator do return iterator_from(0)
+
+ redef fun iterator_from(pos) do return new RopeCharIterator(tgt, pos)
+
+ redef fun reverse_iterator do return reverse_iterator_from(tgt.length-1)
+
+ redef fun reverse_iterator_from(pos) do return new ReverseRopeCharIterator(tgt, pos)
+end
+
# Used to iterate on a Rope
private class IteratorElement