ptt-sententree/static/node_modules/heap/lib/heap.js

// Generated by CoffeeScript 1.8.0
(function() {
  var Heap, defaultCmp, floor, heapify, heappop, heappush, heappushpop, heapreplace, insort, min, nlargest, nsmallest, updateItem, _siftdown, _siftup;

  floor = Math.floor, min = Math.min;


  /*
  Default comparison function to be used
   */

  defaultCmp = function(x, y) {
    if (x < y) {
      return -1;
    }
    if (x > y) {
      return 1;
    }
    return 0;
  };


  /*
  Insert item x in list a, and keep it sorted assuming a is sorted.
  
  If x is already in a, insert it to the right of the rightmost x.
  
  Optional args lo (default 0) and hi (default a.length) bound the slice
  of a to be searched.
   */

  insort = function(a, x, lo, hi, cmp) {
    var mid;
    if (lo == null) {
      lo = 0;
    }
    if (cmp == null) {
      cmp = defaultCmp;
    }
    if (lo < 0) {
      throw new Error('lo must be non-negative');
    }
    if (hi == null) {
      hi = a.length;
    }
    while (lo < hi) {
      mid = floor((lo + hi) / 2);
      if (cmp(x, a[mid]) < 0) {
        hi = mid;
      } else {
        lo = mid + 1;
      }
    }
    return ([].splice.apply(a, [lo, lo - lo].concat(x)), x);
  };


  /*
  Push item onto heap, maintaining the heap invariant.
   */

  heappush = function(array, item, cmp) {
    if (cmp == null) {
      cmp = defaultCmp;
    }
    array.push(item);
    return _siftdown(array, 0, array.length - 1, cmp);
  };


  /*
  Pop the smallest item off the heap, maintaining the heap invariant.
   */

  heappop = function(array, cmp) {
    var lastelt, returnitem;
    if (cmp == null) {
      cmp = defaultCmp;
    }
    lastelt = array.pop();
    if (array.length) {
      returnitem = array[0];
      array[0] = lastelt;
      _siftup(array, 0, cmp);
    } else {
      returnitem = lastelt;
    }
    return returnitem;
  };


  /*
  Pop and return the current smallest value, and add the new item.
  
  This is more efficient than heappop() followed by heappush(), and can be
  more appropriate when using a fixed size heap. Note that the value
  returned may be larger than item! That constrains reasonable use of
  this routine unless written as part of a conditional replacement:
      if item > array[0]
        item = heapreplace(array, item)
   */

  heapreplace = function(array, item, cmp) {
    var returnitem;
    if (cmp == null) {
      cmp = defaultCmp;
    }
    returnitem = array[0];
    array[0] = item;
    _siftup(array, 0, cmp);
    return returnitem;
  };


  /*
  Fast version of a heappush followed by a heappop.
   */

  heappushpop = function(array, item, cmp) {
    var _ref;
    if (cmp == null) {
      cmp = defaultCmp;
    }
    if (array.length && cmp(array[0], item) < 0) {
      _ref = [array[0], item], item = _ref[0], array[0] = _ref[1];
      _siftup(array, 0, cmp);
    }
    return item;
  };


  /*
  Transform list into a heap, in-place, in O(array.length) time.
   */

  heapify = function(array, cmp) {
    var i, _i, _j, _len, _ref, _ref1, _results, _results1;
    if (cmp == null) {
      cmp = defaultCmp;
    }
    _ref1 = (function() {
      _results1 = [];
      for (var _j = 0, _ref = floor(array.length / 2); 0 <= _ref ? _j < _ref : _j > _ref; 0 <= _ref ? _j++ : _j--){ _results1.push(_j); }
      return _results1;
    }).apply(this).reverse();
    _results = [];
    for (_i = 0, _len = _ref1.length; _i < _len; _i++) {
      i = _ref1[_i];
      _results.push(_siftup(array, i, cmp));
    }
    return _results;
  };


  /*
  Update the position of the given item in the heap.
  This function should be called every time the item is being modified.
   */

  updateItem = function(array, item, cmp) {
    var pos;
    if (cmp == null) {
      cmp = defaultCmp;
    }
    pos = array.indexOf(item);
    if (pos === -1) {
      return;
    }
    _siftdown(array, 0, pos, cmp);
    return _siftup(array, pos, cmp);
  };


  /*
  Find the n largest elements in a dataset.
   */

  nlargest = function(array, n, cmp) {
    var elem, result, _i, _len, _ref;
    if (cmp == null) {
      cmp = defaultCmp;
    }
    result = array.slice(0, n);
    if (!result.length) {
      return result;
    }
    heapify(result, cmp);
    _ref = array.slice(n);
    for (_i = 0, _len = _ref.length; _i < _len; _i++) {
      elem = _ref[_i];
      heappushpop(result, elem, cmp);
    }
    return result.sort(cmp).reverse();
  };


  /*
  Find the n smallest elements in a dataset.
   */

  nsmallest = function(array, n, cmp) {
    var elem, i, los, result, _i, _j, _len, _ref, _ref1, _results;
    if (cmp == null) {
      cmp = defaultCmp;
    }
    if (n * 10 <= array.length) {
      result = array.slice(0, n).sort(cmp);
      if (!result.length) {
        return result;
      }
      los = result[result.length - 1];
      _ref = array.slice(n);
      for (_i = 0, _len = _ref.length; _i < _len; _i++) {
        elem = _ref[_i];
        if (cmp(elem, los) < 0) {
          insort(result, elem, 0, null, cmp);
          result.pop();
          los = result[result.length - 1];
        }
      }
      return result;
    }
    heapify(array, cmp);
    _results = [];
    for (i = _j = 0, _ref1 = min(n, array.length); 0 <= _ref1 ? _j < _ref1 : _j > _ref1; i = 0 <= _ref1 ? ++_j : --_j) {
      _results.push(heappop(array, cmp));
    }
    return _results;
  };

  _siftdown = function(array, startpos, pos, cmp) {
    var newitem, parent, parentpos;
    if (cmp == null) {
      cmp = defaultCmp;
    }
    newitem = array[pos];
    while (pos > startpos) {
      parentpos = (pos - 1) >> 1;
      parent = array[parentpos];
      if (cmp(newitem, parent) < 0) {
        array[pos] = parent;
        pos = parentpos;
        continue;
      }
      break;
    }
    return array[pos] = newitem;
  };

  _siftup = function(array, pos, cmp) {
    var childpos, endpos, newitem, rightpos, startpos;
    if (cmp == null) {
      cmp = defaultCmp;
    }
    endpos = array.length;
    startpos = pos;
    newitem = array[pos];
    childpos = 2 * pos + 1;
    while (childpos < endpos) {
      rightpos = childpos + 1;
      if (rightpos < endpos && !(cmp(array[childpos], array[rightpos]) < 0)) {
        childpos = rightpos;
      }
      array[pos] = array[childpos];
      pos = childpos;
      childpos = 2 * pos + 1;
    }
    array[pos] = newitem;
    return _siftdown(array, startpos, pos, cmp);
  };

  Heap = (function() {
    Heap.push = heappush;

    Heap.pop = heappop;

    Heap.replace = heapreplace;

    Heap.pushpop = heappushpop;

    Heap.heapify = heapify;

    Heap.updateItem = updateItem;

    Heap.nlargest = nlargest;

    Heap.nsmallest = nsmallest;

    function Heap(cmp) {
      this.cmp = cmp != null ? cmp : defaultCmp;
      this.nodes = [];
    }

    Heap.prototype.push = function(x) {
      return heappush(this.nodes, x, this.cmp);
    };

    Heap.prototype.pop = function() {
      return heappop(this.nodes, this.cmp);
    };

    Heap.prototype.peek = function() {
      return this.nodes[0];
    };

    Heap.prototype.contains = function(x) {
      return this.nodes.indexOf(x) !== -1;
    };

    Heap.prototype.replace = function(x) {
      return heapreplace(this.nodes, x, this.cmp);
    };

    Heap.prototype.pushpop = function(x) {
      return heappushpop(this.nodes, x, this.cmp);
    };

    Heap.prototype.heapify = function() {
      return heapify(this.nodes, this.cmp);
    };

    Heap.prototype.updateItem = function(x) {
      return updateItem(this.nodes, x, this.cmp);
    };

    Heap.prototype.clear = function() {
      return this.nodes = [];
    };

    Heap.prototype.empty = function() {
      return this.nodes.length === 0;
    };

    Heap.prototype.size = function() {
      return this.nodes.length;
    };

    Heap.prototype.clone = function() {
      var heap;
      heap = new Heap();
      heap.nodes = this.nodes.slice(0);
      return heap;
    };

    Heap.prototype.toArray = function() {
      return this.nodes.slice(0);
    };

    Heap.prototype.insert = Heap.prototype.push;

    Heap.prototype.top = Heap.prototype.peek;

    Heap.prototype.front = Heap.prototype.peek;

    Heap.prototype.has = Heap.prototype.contains;

    Heap.prototype.copy = Heap.prototype.clone;

    return Heap;

  })();

  (function(root, factory) {
    if (typeof define === 'function' && define.amd) {
      return define([], factory);
    } else if (typeof exports === 'object') {
      return module.exports = factory();
    } else {
      return root.Heap = factory();
    }
  })(this, function() {
    return Heap;
  });

}).call(this);
First commit 5 years ago			`// Generated by CoffeeScript 1.8.0`
			`(function() {`
			`var Heap, defaultCmp, floor, heapify, heappop, heappush, heappushpop, heapreplace, insort, min, nlargest, nsmallest, updateItem, _siftdown, _siftup;`

			`floor = Math.floor, min = Math.min;`


			`/*`
			`Default comparison function to be used`
			`*/`

			`defaultCmp = function(x, y) {`
			`if (x < y) {`
			`return -1;`
			`}`
			`if (x > y) {`
			`return 1;`
			`}`
			`return 0;`
			`};`


			`/*`
			`Insert item x in list a, and keep it sorted assuming a is sorted.`

			`If x is already in a, insert it to the right of the rightmost x.`

			`Optional args lo (default 0) and hi (default a.length) bound the slice`
			`of a to be searched.`
			`*/`

			`insort = function(a, x, lo, hi, cmp) {`
			`var mid;`
			`if (lo == null) {`
			`lo = 0;`
			`}`
			`if (cmp == null) {`
			`cmp = defaultCmp;`
			`}`
			`if (lo < 0) {`
			`throw new Error('lo must be non-negative');`
			`}`
			`if (hi == null) {`
			`hi = a.length;`
			`}`
			`while (lo < hi) {`
			`mid = floor((lo + hi) / 2);`
			`if (cmp(x, a[mid]) < 0) {`
			`hi = mid;`
			`} else {`
			`lo = mid + 1;`
			`}`
			`}`
			`return ([].splice.apply(a, [lo, lo - lo].concat(x)), x);`
			`};`


			`/*`
			`Push item onto heap, maintaining the heap invariant.`
			`*/`

			`heappush = function(array, item, cmp) {`
			`if (cmp == null) {`
			`cmp = defaultCmp;`
			`}`
			`array.push(item);`
			`return _siftdown(array, 0, array.length - 1, cmp);`
			`};`


			`/*`
			`Pop the smallest item off the heap, maintaining the heap invariant.`
			`*/`

			`heappop = function(array, cmp) {`
			`var lastelt, returnitem;`
			`if (cmp == null) {`
			`cmp = defaultCmp;`
			`}`
			`lastelt = array.pop();`
			`if (array.length) {`
			`returnitem = array[0];`
			`array[0] = lastelt;`
			`_siftup(array, 0, cmp);`
			`} else {`
			`returnitem = lastelt;`
			`}`
			`return returnitem;`
			`};`


			`/*`
			`Pop and return the current smallest value, and add the new item.`

			`This is more efficient than heappop() followed by heappush(), and can be`
			`more appropriate when using a fixed size heap. Note that the value`
			`returned may be larger than item! That constrains reasonable use of`
			`this routine unless written as part of a conditional replacement:`
			`if item > array[0]`
			`item = heapreplace(array, item)`
			`*/`

			`heapreplace = function(array, item, cmp) {`
			`var returnitem;`
			`if (cmp == null) {`
			`cmp = defaultCmp;`
			`}`
			`returnitem = array[0];`
			`array[0] = item;`
			`_siftup(array, 0, cmp);`
			`return returnitem;`
			`};`


			`/*`
			`Fast version of a heappush followed by a heappop.`
			`*/`

			`heappushpop = function(array, item, cmp) {`
			`var _ref;`
			`if (cmp == null) {`
			`cmp = defaultCmp;`
			`}`
			`if (array.length && cmp(array[0], item) < 0) {`
			`_ref = [array[0], item], item = _ref[0], array[0] = _ref[1];`
			`_siftup(array, 0, cmp);`
			`}`
			`return item;`
			`};`


			`/*`
			`Transform list into a heap, in-place, in O(array.length) time.`
			`*/`

			`heapify = function(array, cmp) {`
			`var i, _i, _j, _len, _ref, _ref1, _results, _results1;`
			`if (cmp == null) {`
			`cmp = defaultCmp;`
			`}`
			`_ref1 = (function() {`
			`_results1 = [];`
			`for (var _j = 0, _ref = floor(array.length / 2); 0 <= _ref ? _j < _ref : _j > _ref; 0 <= _ref ? _j++ : _j--){ _results1.push(_j); }`
			`return _results1;`
			`}).apply(this).reverse();`
			`_results = [];`
			`for (_i = 0, _len = _ref1.length; _i < _len; _i++) {`
			`i = _ref1[_i];`
			`_results.push(_siftup(array, i, cmp));`
			`}`
			`return _results;`
			`};`


			`/*`
			`Update the position of the given item in the heap.`
			`This function should be called every time the item is being modified.`
			`*/`

			`updateItem = function(array, item, cmp) {`
			`var pos;`
			`if (cmp == null) {`
			`cmp = defaultCmp;`
			`}`
			`pos = array.indexOf(item);`
			`if (pos === -1) {`
			`return;`
			`}`
			`_siftdown(array, 0, pos, cmp);`
			`return _siftup(array, pos, cmp);`
			`};`


			`/*`
			`Find the n largest elements in a dataset.`
			`*/`

			`nlargest = function(array, n, cmp) {`
			`var elem, result, _i, _len, _ref;`
			`if (cmp == null) {`
			`cmp = defaultCmp;`
			`}`
			`result = array.slice(0, n);`
			`if (!result.length) {`
			`return result;`
			`}`
			`heapify(result, cmp);`
			`_ref = array.slice(n);`
			`for (_i = 0, _len = _ref.length; _i < _len; _i++) {`
			`elem = _ref[_i];`
			`heappushpop(result, elem, cmp);`
			`}`
			`return result.sort(cmp).reverse();`
			`};`


			`/*`
			`Find the n smallest elements in a dataset.`
			`*/`

			`nsmallest = function(array, n, cmp) {`
			`var elem, i, los, result, _i, _j, _len, _ref, _ref1, _results;`
			`if (cmp == null) {`
			`cmp = defaultCmp;`
			`}`
			`if (n * 10 <= array.length) {`
			`result = array.slice(0, n).sort(cmp);`
			`if (!result.length) {`
			`return result;`
			`}`
			`los = result[result.length - 1];`
			`_ref = array.slice(n);`
			`for (_i = 0, _len = _ref.length; _i < _len; _i++) {`
			`elem = _ref[_i];`
			`if (cmp(elem, los) < 0) {`
			`insort(result, elem, 0, null, cmp);`
			`result.pop();`
			`los = result[result.length - 1];`
			`}`
			`}`
			`return result;`
			`}`
			`heapify(array, cmp);`
			`_results = [];`
			`for (i = _j = 0, _ref1 = min(n, array.length); 0 <= _ref1 ? _j < _ref1 : _j > _ref1; i = 0 <= _ref1 ? ++_j : --_j) {`
			`_results.push(heappop(array, cmp));`
			`}`
			`return _results;`
			`};`

			`_siftdown = function(array, startpos, pos, cmp) {`
			`var newitem, parent, parentpos;`
			`if (cmp == null) {`
			`cmp = defaultCmp;`
			`}`
			`newitem = array[pos];`
			`while (pos > startpos) {`
			`parentpos = (pos - 1) >> 1;`
			`parent = array[parentpos];`
			`if (cmp(newitem, parent) < 0) {`
			`array[pos] = parent;`
			`pos = parentpos;`
			`continue;`
			`}`
			`break;`
			`}`
			`return array[pos] = newitem;`
			`};`

			`_siftup = function(array, pos, cmp) {`
			`var childpos, endpos, newitem, rightpos, startpos;`
			`if (cmp == null) {`
			`cmp = defaultCmp;`
			`}`
			`endpos = array.length;`
			`startpos = pos;`
			`newitem = array[pos];`
			`childpos = 2 * pos + 1;`
			`while (childpos < endpos) {`
			`rightpos = childpos + 1;`
			`if (rightpos < endpos && !(cmp(array[childpos], array[rightpos]) < 0)) {`
			`childpos = rightpos;`
			`}`
			`array[pos] = array[childpos];`
			`pos = childpos;`
			`childpos = 2 * pos + 1;`
			`}`
			`array[pos] = newitem;`
			`return _siftdown(array, startpos, pos, cmp);`
			`};`

			`Heap = (function() {`
			`Heap.push = heappush;`

			`Heap.pop = heappop;`

			`Heap.replace = heapreplace;`

			`Heap.pushpop = heappushpop;`

			`Heap.heapify = heapify;`

			`Heap.updateItem = updateItem;`

			`Heap.nlargest = nlargest;`

			`Heap.nsmallest = nsmallest;`

			`function Heap(cmp) {`
			`this.cmp = cmp != null ? cmp : defaultCmp;`
			`this.nodes = [];`
			`}`

			`Heap.prototype.push = function(x) {`
			`return heappush(this.nodes, x, this.cmp);`
			`};`

			`Heap.prototype.pop = function() {`
			`return heappop(this.nodes, this.cmp);`
			`};`

			`Heap.prototype.peek = function() {`
			`return this.nodes[0];`
			`};`

			`Heap.prototype.contains = function(x) {`
			`return this.nodes.indexOf(x) !== -1;`
			`};`

			`Heap.prototype.replace = function(x) {`
			`return heapreplace(this.nodes, x, this.cmp);`
			`};`

			`Heap.prototype.pushpop = function(x) {`
			`return heappushpop(this.nodes, x, this.cmp);`
			`};`

			`Heap.prototype.heapify = function() {`
			`return heapify(this.nodes, this.cmp);`
			`};`

			`Heap.prototype.updateItem = function(x) {`
			`return updateItem(this.nodes, x, this.cmp);`
			`};`

			`Heap.prototype.clear = function() {`
			`return this.nodes = [];`
			`};`

			`Heap.prototype.empty = function() {`
			`return this.nodes.length === 0;`
			`};`

			`Heap.prototype.size = function() {`
			`return this.nodes.length;`
			`};`

			`Heap.prototype.clone = function() {`
			`var heap;`
			`heap = new Heap();`
			`heap.nodes = this.nodes.slice(0);`
			`return heap;`
			`};`

			`Heap.prototype.toArray = function() {`
			`return this.nodes.slice(0);`
			`};`

			`Heap.prototype.insert = Heap.prototype.push;`

			`Heap.prototype.top = Heap.prototype.peek;`

			`Heap.prototype.front = Heap.prototype.peek;`

			`Heap.prototype.has = Heap.prototype.contains;`

			`Heap.prototype.copy = Heap.prototype.clone;`

			`return Heap;`

			`})();`

			`(function(root, factory) {`
			`if (typeof define === 'function' && define.amd) {`
			`return define([], factory);`
			`} else if (typeof exports === 'object') {`
			`return module.exports = factory();`
			`} else {`
			`return root.Heap = factory();`
			`}`
			`})(this, function() {`
			`return Heap;`
			`});`

			`}).call(this);`