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996 lines
22 KiB
996 lines
22 KiB
"use strict" |
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module.exports = createRBTree |
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var RED = 0 |
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var BLACK = 1 |
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function RBNode(color, key, value, left, right, count) { |
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this._color = color |
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this.key = key |
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this.value = value |
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this.left = left |
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this.right = right |
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this._count = count |
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} |
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function cloneNode(node) { |
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return new RBNode(node._color, node.key, node.value, node.left, node.right, node._count) |
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} |
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function repaint(color, node) { |
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return new RBNode(color, node.key, node.value, node.left, node.right, node._count) |
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} |
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function recount(node) { |
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node._count = 1 + (node.left ? node.left._count : 0) + (node.right ? node.right._count : 0) |
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} |
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function RedBlackTree(compare, root) { |
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this._compare = compare |
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this.root = root |
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} |
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var proto = RedBlackTree.prototype |
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Object.defineProperty(proto, "keys", { |
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get: function() { |
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var result = [] |
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this.forEach(function(k,v) { |
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result.push(k) |
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}) |
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return result |
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} |
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}) |
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Object.defineProperty(proto, "values", { |
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get: function() { |
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var result = [] |
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this.forEach(function(k,v) { |
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result.push(v) |
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}) |
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return result |
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} |
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}) |
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//Returns the number of nodes in the tree |
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Object.defineProperty(proto, "length", { |
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get: function() { |
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if(this.root) { |
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return this.root._count |
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} |
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return 0 |
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} |
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}) |
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//Insert a new item into the tree |
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proto.insert = function(key, value) { |
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var cmp = this._compare |
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//Find point to insert new node at |
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var n = this.root |
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var n_stack = [] |
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var d_stack = [] |
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while(n) { |
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var d = cmp(key, n.key) |
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n_stack.push(n) |
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d_stack.push(d) |
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if(d <= 0) { |
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n = n.left |
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} else { |
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n = n.right |
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} |
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} |
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//Rebuild path to leaf node |
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n_stack.push(new RBNode(RED, key, value, null, null, 1)) |
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for(var s=n_stack.length-2; s>=0; --s) { |
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var n = n_stack[s] |
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if(d_stack[s] <= 0) { |
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n_stack[s] = new RBNode(n._color, n.key, n.value, n_stack[s+1], n.right, n._count+1) |
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} else { |
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n_stack[s] = new RBNode(n._color, n.key, n.value, n.left, n_stack[s+1], n._count+1) |
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} |
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} |
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//Rebalance tree using rotations |
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//console.log("start insert", key, d_stack) |
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for(var s=n_stack.length-1; s>1; --s) { |
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var p = n_stack[s-1] |
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var n = n_stack[s] |
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if(p._color === BLACK || n._color === BLACK) { |
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break |
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} |
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var pp = n_stack[s-2] |
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if(pp.left === p) { |
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if(p.left === n) { |
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var y = pp.right |
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if(y && y._color === RED) { |
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//console.log("LLr") |
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p._color = BLACK |
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pp.right = repaint(BLACK, y) |
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pp._color = RED |
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s -= 1 |
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} else { |
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//console.log("LLb") |
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pp._color = RED |
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pp.left = p.right |
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p._color = BLACK |
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p.right = pp |
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n_stack[s-2] = p |
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n_stack[s-1] = n |
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recount(pp) |
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recount(p) |
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if(s >= 3) { |
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var ppp = n_stack[s-3] |
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if(ppp.left === pp) { |
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ppp.left = p |
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} else { |
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ppp.right = p |
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} |
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} |
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break |
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} |
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} else { |
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var y = pp.right |
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if(y && y._color === RED) { |
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//console.log("LRr") |
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p._color = BLACK |
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pp.right = repaint(BLACK, y) |
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pp._color = RED |
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s -= 1 |
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} else { |
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//console.log("LRb") |
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p.right = n.left |
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pp._color = RED |
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pp.left = n.right |
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n._color = BLACK |
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n.left = p |
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n.right = pp |
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n_stack[s-2] = n |
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n_stack[s-1] = p |
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recount(pp) |
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recount(p) |
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recount(n) |
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if(s >= 3) { |
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var ppp = n_stack[s-3] |
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if(ppp.left === pp) { |
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ppp.left = n |
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} else { |
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ppp.right = n |
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} |
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} |
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break |
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} |
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} |
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} else { |
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if(p.right === n) { |
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var y = pp.left |
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if(y && y._color === RED) { |
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//console.log("RRr", y.key) |
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p._color = BLACK |
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pp.left = repaint(BLACK, y) |
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pp._color = RED |
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s -= 1 |
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} else { |
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//console.log("RRb") |
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pp._color = RED |
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pp.right = p.left |
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p._color = BLACK |
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p.left = pp |
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n_stack[s-2] = p |
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n_stack[s-1] = n |
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recount(pp) |
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recount(p) |
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if(s >= 3) { |
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var ppp = n_stack[s-3] |
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if(ppp.right === pp) { |
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ppp.right = p |
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} else { |
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ppp.left = p |
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} |
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} |
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break |
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} |
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} else { |
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var y = pp.left |
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if(y && y._color === RED) { |
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//console.log("RLr") |
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p._color = BLACK |
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pp.left = repaint(BLACK, y) |
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pp._color = RED |
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s -= 1 |
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} else { |
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//console.log("RLb") |
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p.left = n.right |
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pp._color = RED |
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pp.right = n.left |
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n._color = BLACK |
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n.right = p |
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n.left = pp |
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n_stack[s-2] = n |
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n_stack[s-1] = p |
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recount(pp) |
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recount(p) |
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recount(n) |
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if(s >= 3) { |
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var ppp = n_stack[s-3] |
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if(ppp.right === pp) { |
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ppp.right = n |
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} else { |
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ppp.left = n |
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} |
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} |
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break |
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} |
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} |
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} |
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} |
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//Return new tree |
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n_stack[0]._color = BLACK |
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return new RedBlackTree(cmp, n_stack[0]) |
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} |
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//Visit all nodes inorder |
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function doVisitFull(visit, node) { |
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if(node.left) { |
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var v = doVisitFull(visit, node.left) |
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if(v) { return v } |
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} |
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var v = visit(node.key, node.value) |
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if(v) { return v } |
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if(node.right) { |
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return doVisitFull(visit, node.right) |
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} |
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} |
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//Visit half nodes in order |
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function doVisitHalf(lo, compare, visit, node) { |
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var l = compare(lo, node.key) |
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if(l <= 0) { |
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if(node.left) { |
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var v = doVisitHalf(lo, compare, visit, node.left) |
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if(v) { return v } |
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} |
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var v = visit(node.key, node.value) |
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if(v) { return v } |
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} |
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if(node.right) { |
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return doVisitHalf(lo, compare, visit, node.right) |
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} |
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} |
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//Visit all nodes within a range |
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function doVisit(lo, hi, compare, visit, node) { |
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var l = compare(lo, node.key) |
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var h = compare(hi, node.key) |
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var v |
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if(l <= 0) { |
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if(node.left) { |
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v = doVisit(lo, hi, compare, visit, node.left) |
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if(v) { return v } |
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} |
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if(h > 0) { |
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v = visit(node.key, node.value) |
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if(v) { return v } |
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} |
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} |
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if(h > 0 && node.right) { |
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return doVisit(lo, hi, compare, visit, node.right) |
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} |
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} |
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proto.forEach = function rbTreeForEach(visit, lo, hi) { |
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if(!this.root) { |
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return |
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} |
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switch(arguments.length) { |
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case 1: |
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return doVisitFull(visit, this.root) |
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break |
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case 2: |
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return doVisitHalf(lo, this._compare, visit, this.root) |
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break |
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case 3: |
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if(this._compare(lo, hi) >= 0) { |
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return |
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} |
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return doVisit(lo, hi, this._compare, visit, this.root) |
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break |
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} |
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} |
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//First item in list |
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Object.defineProperty(proto, "begin", { |
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get: function() { |
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var stack = [] |
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var n = this.root |
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while(n) { |
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stack.push(n) |
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n = n.left |
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} |
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return new RedBlackTreeIterator(this, stack) |
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} |
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}) |
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//Last item in list |
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Object.defineProperty(proto, "end", { |
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get: function() { |
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var stack = [] |
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var n = this.root |
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while(n) { |
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stack.push(n) |
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n = n.right |
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} |
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return new RedBlackTreeIterator(this, stack) |
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} |
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}) |
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//Find the ith item in the tree |
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proto.at = function(idx) { |
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if(idx < 0) { |
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return new RedBlackTreeIterator(this, []) |
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} |
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var n = this.root |
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var stack = [] |
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while(true) { |
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stack.push(n) |
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if(n.left) { |
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if(idx < n.left._count) { |
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n = n.left |
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continue |
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} |
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idx -= n.left._count |
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} |
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if(!idx) { |
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return new RedBlackTreeIterator(this, stack) |
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} |
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idx -= 1 |
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if(n.right) { |
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if(idx >= n.right._count) { |
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break |
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} |
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n = n.right |
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} else { |
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break |
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} |
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} |
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return new RedBlackTreeIterator(this, []) |
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} |
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proto.ge = function(key) { |
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var cmp = this._compare |
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var n = this.root |
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var stack = [] |
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var last_ptr = 0 |
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while(n) { |
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var d = cmp(key, n.key) |
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stack.push(n) |
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if(d <= 0) { |
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last_ptr = stack.length |
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} |
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if(d <= 0) { |
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n = n.left |
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} else { |
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n = n.right |
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} |
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} |
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stack.length = last_ptr |
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return new RedBlackTreeIterator(this, stack) |
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} |
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proto.gt = function(key) { |
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var cmp = this._compare |
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var n = this.root |
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var stack = [] |
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var last_ptr = 0 |
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while(n) { |
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var d = cmp(key, n.key) |
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stack.push(n) |
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if(d < 0) { |
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last_ptr = stack.length |
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} |
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if(d < 0) { |
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n = n.left |
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} else { |
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n = n.right |
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} |
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} |
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stack.length = last_ptr |
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return new RedBlackTreeIterator(this, stack) |
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} |
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proto.lt = function(key) { |
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var cmp = this._compare |
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var n = this.root |
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var stack = [] |
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var last_ptr = 0 |
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while(n) { |
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var d = cmp(key, n.key) |
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stack.push(n) |
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if(d > 0) { |
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last_ptr = stack.length |
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} |
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if(d <= 0) { |
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n = n.left |
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} else { |
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n = n.right |
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} |
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} |
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stack.length = last_ptr |
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return new RedBlackTreeIterator(this, stack) |
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} |
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proto.le = function(key) { |
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var cmp = this._compare |
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var n = this.root |
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var stack = [] |
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var last_ptr = 0 |
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while(n) { |
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var d = cmp(key, n.key) |
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stack.push(n) |
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if(d >= 0) { |
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last_ptr = stack.length |
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} |
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if(d < 0) { |
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n = n.left |
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} else { |
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n = n.right |
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} |
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} |
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stack.length = last_ptr |
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return new RedBlackTreeIterator(this, stack) |
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} |
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//Finds the item with key if it exists |
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proto.find = function(key) { |
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var cmp = this._compare |
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var n = this.root |
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var stack = [] |
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while(n) { |
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var d = cmp(key, n.key) |
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stack.push(n) |
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if(d === 0) { |
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return new RedBlackTreeIterator(this, stack) |
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} |
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if(d <= 0) { |
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n = n.left |
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} else { |
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n = n.right |
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} |
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} |
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return new RedBlackTreeIterator(this, []) |
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} |
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//Removes item with key from tree |
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proto.remove = function(key) { |
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var iter = this.find(key) |
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if(iter) { |
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return iter.remove() |
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} |
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return this |
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} |
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//Returns the item at `key` |
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proto.get = function(key) { |
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var cmp = this._compare |
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var n = this.root |
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while(n) { |
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var d = cmp(key, n.key) |
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if(d === 0) { |
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return n.value |
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} |
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if(d <= 0) { |
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n = n.left |
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} else { |
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n = n.right |
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} |
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} |
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return |
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} |
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//Iterator for red black tree |
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function RedBlackTreeIterator(tree, stack) { |
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this.tree = tree |
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this._stack = stack |
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} |
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var iproto = RedBlackTreeIterator.prototype |
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//Test if iterator is valid |
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Object.defineProperty(iproto, "valid", { |
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get: function() { |
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return this._stack.length > 0 |
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} |
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}) |
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//Node of the iterator |
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Object.defineProperty(iproto, "node", { |
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get: function() { |
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if(this._stack.length > 0) { |
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return this._stack[this._stack.length-1] |
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} |
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return null |
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}, |
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enumerable: true |
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}) |
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//Makes a copy of an iterator |
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iproto.clone = function() { |
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return new RedBlackTreeIterator(this.tree, this._stack.slice()) |
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} |
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//Swaps two nodes |
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function swapNode(n, v) { |
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n.key = v.key |
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n.value = v.value |
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n.left = v.left |
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n.right = v.right |
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n._color = v._color |
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n._count = v._count |
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} |
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//Fix up a double black node in a tree |
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function fixDoubleBlack(stack) { |
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var n, p, s, z |
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for(var i=stack.length-1; i>=0; --i) { |
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n = stack[i] |
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if(i === 0) { |
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n._color = BLACK |
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return |
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} |
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//console.log("visit node:", n.key, i, stack[i].key, stack[i-1].key) |
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p = stack[i-1] |
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if(p.left === n) { |
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//console.log("left child") |
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s = p.right |
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if(s.right && s.right._color === RED) { |
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//console.log("case 1: right sibling child red") |
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s = p.right = cloneNode(s) |
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z = s.right = cloneNode(s.right) |
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p.right = s.left |
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s.left = p |
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s.right = z |
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s._color = p._color |
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n._color = BLACK |
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p._color = BLACK |
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z._color = BLACK |
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recount(p) |
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recount(s) |
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if(i > 1) { |
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var pp = stack[i-2] |
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if(pp.left === p) { |
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pp.left = s |
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} else { |
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pp.right = s |
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} |
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} |
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stack[i-1] = s |
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return |
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} else if(s.left && s.left._color === RED) { |
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//console.log("case 1: left sibling child red") |
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s = p.right = cloneNode(s) |
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z = s.left = cloneNode(s.left) |
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p.right = z.left |
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s.left = z.right |
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z.left = p |
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z.right = s |
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z._color = p._color |
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p._color = BLACK |
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s._color = BLACK |
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n._color = BLACK |
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recount(p) |
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recount(s) |
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recount(z) |
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if(i > 1) { |
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var pp = stack[i-2] |
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if(pp.left === p) { |
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pp.left = z |
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} else { |
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pp.right = z |
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} |
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} |
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stack[i-1] = z |
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return |
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} |
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if(s._color === BLACK) { |
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if(p._color === RED) { |
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//console.log("case 2: black sibling, red parent", p.right.value) |
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p._color = BLACK |
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p.right = repaint(RED, s) |
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return |
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} else { |
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//console.log("case 2: black sibling, black parent", p.right.value) |
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p.right = repaint(RED, s) |
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continue |
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} |
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} else { |
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//console.log("case 3: red sibling") |
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s = cloneNode(s) |
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p.right = s.left |
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s.left = p |
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s._color = p._color |
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p._color = RED |
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recount(p) |
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recount(s) |
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if(i > 1) { |
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var pp = stack[i-2] |
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if(pp.left === p) { |
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pp.left = s |
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} else { |
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pp.right = s |
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} |
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} |
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stack[i-1] = s |
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stack[i] = p |
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if(i+1 < stack.length) { |
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stack[i+1] = n |
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} else { |
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stack.push(n) |
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} |
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i = i+2 |
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} |
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} else { |
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//console.log("right child") |
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s = p.left |
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if(s.left && s.left._color === RED) { |
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//console.log("case 1: left sibling child red", p.value, p._color) |
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s = p.left = cloneNode(s) |
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z = s.left = cloneNode(s.left) |
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p.left = s.right |
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s.right = p |
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s.left = z |
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s._color = p._color |
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n._color = BLACK |
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p._color = BLACK |
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z._color = BLACK |
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recount(p) |
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recount(s) |
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if(i > 1) { |
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var pp = stack[i-2] |
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if(pp.right === p) { |
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pp.right = s |
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} else { |
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pp.left = s |
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} |
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} |
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stack[i-1] = s |
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return |
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} else if(s.right && s.right._color === RED) { |
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//console.log("case 1: right sibling child red") |
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s = p.left = cloneNode(s) |
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z = s.right = cloneNode(s.right) |
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p.left = z.right |
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s.right = z.left |
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z.right = p |
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z.left = s |
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z._color = p._color |
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p._color = BLACK |
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s._color = BLACK |
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n._color = BLACK |
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recount(p) |
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recount(s) |
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recount(z) |
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if(i > 1) { |
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var pp = stack[i-2] |
|
if(pp.right === p) { |
|
pp.right = z |
|
} else { |
|
pp.left = z |
|
} |
|
} |
|
stack[i-1] = z |
|
return |
|
} |
|
if(s._color === BLACK) { |
|
if(p._color === RED) { |
|
//console.log("case 2: black sibling, red parent") |
|
p._color = BLACK |
|
p.left = repaint(RED, s) |
|
return |
|
} else { |
|
//console.log("case 2: black sibling, black parent") |
|
p.left = repaint(RED, s) |
|
continue |
|
} |
|
} else { |
|
//console.log("case 3: red sibling") |
|
s = cloneNode(s) |
|
p.left = s.right |
|
s.right = p |
|
s._color = p._color |
|
p._color = RED |
|
recount(p) |
|
recount(s) |
|
if(i > 1) { |
|
var pp = stack[i-2] |
|
if(pp.right === p) { |
|
pp.right = s |
|
} else { |
|
pp.left = s |
|
} |
|
} |
|
stack[i-1] = s |
|
stack[i] = p |
|
if(i+1 < stack.length) { |
|
stack[i+1] = n |
|
} else { |
|
stack.push(n) |
|
} |
|
i = i+2 |
|
} |
|
} |
|
} |
|
} |
|
|
|
//Removes item at iterator from tree |
|
iproto.remove = function() { |
|
var stack = this._stack |
|
if(stack.length === 0) { |
|
return this.tree |
|
} |
|
//First copy path to node |
|
var cstack = new Array(stack.length) |
|
var n = stack[stack.length-1] |
|
cstack[cstack.length-1] = new RBNode(n._color, n.key, n.value, n.left, n.right, n._count) |
|
for(var i=stack.length-2; i>=0; --i) { |
|
var n = stack[i] |
|
if(n.left === stack[i+1]) { |
|
cstack[i] = new RBNode(n._color, n.key, n.value, cstack[i+1], n.right, n._count) |
|
} else { |
|
cstack[i] = new RBNode(n._color, n.key, n.value, n.left, cstack[i+1], n._count) |
|
} |
|
} |
|
|
|
//Get node |
|
n = cstack[cstack.length-1] |
|
//console.log("start remove: ", n.value) |
|
|
|
//If not leaf, then swap with previous node |
|
if(n.left && n.right) { |
|
//console.log("moving to leaf") |
|
|
|
//First walk to previous leaf |
|
var split = cstack.length |
|
n = n.left |
|
while(n.right) { |
|
cstack.push(n) |
|
n = n.right |
|
} |
|
//Copy path to leaf |
|
var v = cstack[split-1] |
|
cstack.push(new RBNode(n._color, v.key, v.value, n.left, n.right, n._count)) |
|
cstack[split-1].key = n.key |
|
cstack[split-1].value = n.value |
|
|
|
//Fix up stack |
|
for(var i=cstack.length-2; i>=split; --i) { |
|
n = cstack[i] |
|
cstack[i] = new RBNode(n._color, n.key, n.value, n.left, cstack[i+1], n._count) |
|
} |
|
cstack[split-1].left = cstack[split] |
|
} |
|
//console.log("stack=", cstack.map(function(v) { return v.value })) |
|
|
|
//Remove leaf node |
|
n = cstack[cstack.length-1] |
|
if(n._color === RED) { |
|
//Easy case: removing red leaf |
|
//console.log("RED leaf") |
|
var p = cstack[cstack.length-2] |
|
if(p.left === n) { |
|
p.left = null |
|
} else if(p.right === n) { |
|
p.right = null |
|
} |
|
cstack.pop() |
|
for(var i=0; i<cstack.length; ++i) { |
|
cstack[i]._count-- |
|
} |
|
return new RedBlackTree(this.tree._compare, cstack[0]) |
|
} else { |
|
if(n.left || n.right) { |
|
//Second easy case: Single child black parent |
|
//console.log("BLACK single child") |
|
if(n.left) { |
|
swapNode(n, n.left) |
|
} else if(n.right) { |
|
swapNode(n, n.right) |
|
} |
|
//Child must be red, so repaint it black to balance color |
|
n._color = BLACK |
|
for(var i=0; i<cstack.length-1; ++i) { |
|
cstack[i]._count-- |
|
} |
|
return new RedBlackTree(this.tree._compare, cstack[0]) |
|
} else if(cstack.length === 1) { |
|
//Third easy case: root |
|
//console.log("ROOT") |
|
return new RedBlackTree(this.tree._compare, null) |
|
} else { |
|
//Hard case: Repaint n, and then do some nasty stuff |
|
//console.log("BLACK leaf no children") |
|
for(var i=0; i<cstack.length; ++i) { |
|
cstack[i]._count-- |
|
} |
|
var parent = cstack[cstack.length-2] |
|
fixDoubleBlack(cstack) |
|
//Fix up links |
|
if(parent.left === n) { |
|
parent.left = null |
|
} else { |
|
parent.right = null |
|
} |
|
} |
|
} |
|
return new RedBlackTree(this.tree._compare, cstack[0]) |
|
} |
|
|
|
//Returns key |
|
Object.defineProperty(iproto, "key", { |
|
get: function() { |
|
if(this._stack.length > 0) { |
|
return this._stack[this._stack.length-1].key |
|
} |
|
return |
|
}, |
|
enumerable: true |
|
}) |
|
|
|
//Returns value |
|
Object.defineProperty(iproto, "value", { |
|
get: function() { |
|
if(this._stack.length > 0) { |
|
return this._stack[this._stack.length-1].value |
|
} |
|
return |
|
}, |
|
enumerable: true |
|
}) |
|
|
|
|
|
//Returns the position of this iterator in the sorted list |
|
Object.defineProperty(iproto, "index", { |
|
get: function() { |
|
var idx = 0 |
|
var stack = this._stack |
|
if(stack.length === 0) { |
|
var r = this.tree.root |
|
if(r) { |
|
return r._count |
|
} |
|
return 0 |
|
} else if(stack[stack.length-1].left) { |
|
idx = stack[stack.length-1].left._count |
|
} |
|
for(var s=stack.length-2; s>=0; --s) { |
|
if(stack[s+1] === stack[s].right) { |
|
++idx |
|
if(stack[s].left) { |
|
idx += stack[s].left._count |
|
} |
|
} |
|
} |
|
return idx |
|
}, |
|
enumerable: true |
|
}) |
|
|
|
//Advances iterator to next element in list |
|
iproto.next = function() { |
|
var stack = this._stack |
|
if(stack.length === 0) { |
|
return |
|
} |
|
var n = stack[stack.length-1] |
|
if(n.right) { |
|
n = n.right |
|
while(n) { |
|
stack.push(n) |
|
n = n.left |
|
} |
|
} else { |
|
stack.pop() |
|
while(stack.length > 0 && stack[stack.length-1].right === n) { |
|
n = stack[stack.length-1] |
|
stack.pop() |
|
} |
|
} |
|
} |
|
|
|
//Checks if iterator is at end of tree |
|
Object.defineProperty(iproto, "hasNext", { |
|
get: function() { |
|
var stack = this._stack |
|
if(stack.length === 0) { |
|
return false |
|
} |
|
if(stack[stack.length-1].right) { |
|
return true |
|
} |
|
for(var s=stack.length-1; s>0; --s) { |
|
if(stack[s-1].left === stack[s]) { |
|
return true |
|
} |
|
} |
|
return false |
|
} |
|
}) |
|
|
|
//Update value |
|
iproto.update = function(value) { |
|
var stack = this._stack |
|
if(stack.length === 0) { |
|
throw new Error("Can't update empty node!") |
|
} |
|
var cstack = new Array(stack.length) |
|
var n = stack[stack.length-1] |
|
cstack[cstack.length-1] = new RBNode(n._color, n.key, value, n.left, n.right, n._count) |
|
for(var i=stack.length-2; i>=0; --i) { |
|
n = stack[i] |
|
if(n.left === stack[i+1]) { |
|
cstack[i] = new RBNode(n._color, n.key, n.value, cstack[i+1], n.right, n._count) |
|
} else { |
|
cstack[i] = new RBNode(n._color, n.key, n.value, n.left, cstack[i+1], n._count) |
|
} |
|
} |
|
return new RedBlackTree(this.tree._compare, cstack[0]) |
|
} |
|
|
|
//Moves iterator backward one element |
|
iproto.prev = function() { |
|
var stack = this._stack |
|
if(stack.length === 0) { |
|
return |
|
} |
|
var n = stack[stack.length-1] |
|
if(n.left) { |
|
n = n.left |
|
while(n) { |
|
stack.push(n) |
|
n = n.right |
|
} |
|
} else { |
|
stack.pop() |
|
while(stack.length > 0 && stack[stack.length-1].left === n) { |
|
n = stack[stack.length-1] |
|
stack.pop() |
|
} |
|
} |
|
} |
|
|
|
//Checks if iterator is at start of tree |
|
Object.defineProperty(iproto, "hasPrev", { |
|
get: function() { |
|
var stack = this._stack |
|
if(stack.length === 0) { |
|
return false |
|
} |
|
if(stack[stack.length-1].left) { |
|
return true |
|
} |
|
for(var s=stack.length-1; s>0; --s) { |
|
if(stack[s-1].right === stack[s]) { |
|
return true |
|
} |
|
} |
|
return false |
|
} |
|
}) |
|
|
|
//Default comparison function |
|
function defaultCompare(a, b) { |
|
if(a < b) { |
|
return -1 |
|
} |
|
if(a > b) { |
|
return 1 |
|
} |
|
return 0 |
|
} |
|
|
|
//Build a tree |
|
function createRBTree(compare) { |
|
return new RedBlackTree(compare || defaultCompare, null) |
|
} |