redef fun length do return root.length
+ # Iterator on the nodes of the rope, in forward postfix order
+ private fun postfix(from: Int): Postfix do return new Postfix.from(self, from)
+
+ # Iterator on the leaves of the rope, forward order
+ 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)
+
+ # Iterator on the substrings, starting at position `from`, in forward order
+ fun substrings_from(from: Int): IndexedIterator[Text] do return new SubstringsIterator(self, from)
+
# Path to the Leaf for `position`
private fun node_at(position: Int): Path
do
return cct
end
+ # O(log(n))
+ #
+ # var rope = new RopeString.from("abcd")
+ # assert rope.substring(1, 2) == "bc"
+ # assert rope.substring(-1, 2) == "a"
+ # assert rope.substring(1, 0) == ""
+ # assert rope.substring(2, 5) == "cd"
+ #
+ redef fun substring(pos, len)
+ do
+ if pos < 0 then
+ len += pos
+ pos = 0
+ end
+
+ if pos + len > length then len = length - pos
+
+ if len <= 0 then return new RopeString.from("")
+
+ var path = node_at(pos)
+
+ 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))
+
+ 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
+ end
+
+ var ret = new RopeString
+ ret.root = nod
+
+ path = ret.node_at(len-1)
+
+ offset = path.offset
+ nod = new Leaf(path.leaf.str.substring(0, offset+1))
+
+ 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
+ end
+
+ ret.root = nod
+
+ return ret
+ end
+end
+
+# Used to iterate on a Rope
+private class IteratorElement
+
+ init(e: RopeNode)
+ do
+ if e isa Leaf then
+ left = true
+ right = true
+ end
+ node = e
+ end
+
+ # The node being visited
+ var node: RopeNode
+ # If the node has a left child, was it visited ?
+ var left = false
+ # If the node has a right child, was it visited ?
+ var right = false
+ # Was the current node visited ?
+ var done = false
+end
+
+# Simple Postfix iterator on the nodes of a Rope
+private class Postfix
+ super IndexedIterator[RopeNode]
+
+ # Target Rope to iterate on
+ var target: Rope
+
+ # Current position in Rope
+ var pos: Int
+
+ # Visited nodes
+ var stack = new List[IteratorElement]
+
+ init from(tgt: Rope, pos: Int)
+ do
+ self.target = tgt
+ self.pos = pos
+ if pos < 0 or pos >= tgt.length then return
+ var path = tgt.node_at(pos)
+ self.pos -= path.offset
+ for i in path.stack do
+ var item = new IteratorElement(i.node)
+ item.left = true
+ if i.right then item.right = true
+ stack.push item
+ end
+ var item = new IteratorElement(path.leaf)
+ item.done = true
+ stack.push item
+ end
+
+ redef fun item
+ do
+ assert is_ok
+ return stack.last.node
+ end
+
+ redef fun is_ok do return not stack.is_empty
+
+ redef fun index do return pos
+
+ redef fun next do
+ if stack.is_empty then return
+ if pos > target.length-1 then
+ stack.clear
+ return
+ end
+ var lst = stack.last
+ if lst.done then
+ if lst.node isa Leaf then
+ pos += lst.node.length
+ end
+ stack.pop
+ next
+ return
+ end
+ if not lst.left then
+ lst.left = true
+ var nod = lst.node
+ if nod isa Concat and nod.left != null then
+ stack.push(new IteratorElement(nod.left.as(not null)))
+ next
+ return
+ end
+ end
+ if not lst.right then
+ lst.right = true
+ var nod = lst.node
+ if nod isa Concat and nod.right != null then
+ stack.push(new IteratorElement(nod.right.as(not null)))
+ next
+ return
+ end
+ end
+ lst.done = true
+ end
+end
+
+# Iterates on the leaves (substrings) of the Rope
+class LeavesIterator
+ super IndexedIterator[Leaf]
+
+ private var nodes: Postfix
+
+ init(tgt: Rope, pos: Int)
+ do
+ nodes = tgt.postfix(pos)
+ end
+
+ redef fun is_ok do return nodes.is_ok
+
+ redef fun item
+ do
+ assert is_ok
+ return nodes.item.as(Leaf)
+ end
+
+ redef fun index do return nodes.index
+
+ redef fun next
+ do
+ while nodes.is_ok do
+ nodes.next
+ if nodes.is_ok and nodes.item isa Leaf then break
+ end
+ end
+end
+
+# Uses the leaves and calculates a new substring on each iteration
+class SubstringsIterator
+ super IndexedIterator[Text]
+
+ private var nodes: IndexedIterator[Leaf]
+
+ # Current position in Rope
+ var pos: Int
+
+ # Current substring, computed from the current Leaf and indexes
+ var substring: Text
+
+ init(tgt: Rope, pos: Int)
+ do
+ nodes = tgt.leaves(pos)
+ self.pos = pos
+ if pos < 0 or pos >= tgt.length then return
+ make_substring
+ end
+
+ # Compute the bounds of the current substring and makes the substring
+ private fun make_substring
+ do
+ substring = nodes.item.str
+ var min = 0
+ var length = substring.length
+ if nodes.index < pos then
+ min = pos - nodes.index
+ end
+ substring = substring.substring(min, length)
+ end
+
+ redef fun is_ok do return nodes.is_ok
+
+ redef fun item
+ do
+ assert is_ok
+ return substring
+ end
+
+ redef fun index do return pos
+
+ redef fun next
+ do
+ pos += substring.length
+ nodes.next
+ if nodes.is_ok then make_substring
+ end
+
+end
+
+class RopeCharIterator
+ super IndexedIterator[Char]
+
+ var substrings: IndexedIterator[Text]
+
+ var pos: Int
+
+ var max: Int
+
+ var substr_iter: IndexedIterator[Char]
+
+ init(tgt: Rope, from: Int)
+ do
+ substrings = tgt.substrings_from(from)
+ max = tgt.length - 1
+ if not substrings.is_ok then
+ pos = tgt.length
+ return
+ end
+ pos = from
+ substr_iter = substrings.item.chars.iterator
+ end
+
+ redef fun item do return substr_iter.item
+
+ redef fun is_ok do return pos <= max
+
+ redef fun index do return pos
+
+ redef fun next
+ do
+ pos += 1
+ if substr_iter.is_ok then
+ substr_iter.next
+ end
+ if not substr_iter.is_ok then
+ substrings.next
+ if substrings.is_ok then
+ substr_iter = substrings.item.chars.iterator
+ end
+ end
+ end
end