arturparkhisenko/ds.csv

## ds.csv

          
            Name
            Indexing (Average)
            Search (Average)
            Insertion (Average)
            Deletion (Worst)
            Indexing (Worst)
            Search (Worst)
            Insertion (Worst)
            Deletion (Worst)
            Space

            
              Basic Array
              O(1)
              O(n)
              Undefined
              Undefined
              O(1)
              O(n)
              Undefined
              Undefined
              O(n)

            
              Dynamic Array
              O(1)
              O(n)
              O(n)
              O(n)
              O(1)
              O(n)
              O(n)
              O(n)
              O(n)

            
              Singly-Linked List
              O(n)
              O(n)
              O(1)
              O(1)
              O(n)
              O(n)
              O(1)
              O(1)
              O(n)

            
              Doubly-Linked List
              O(n)
              O(n)
              O(1)
              O(1)
              O(n)
              O(n)
              O(1)
              O(1)
              O(n)

            
              Skip List
              O(log(n))
              O(log(n))
              O(log(n))
              O(log(n))
              O(n)
              O(n)
              O(n)
              O(n)
              O(n log(n))

            
              Hash Table
              Undefined
              O(1)
              O(1)
              O(1)
              Undefined
              O(n)
              O(n)
              O(n)
              O(n)

            
              Binary Search Tree
              O(log(n))
              O(log(n))
              O(log(n))
              O(log(n))
              O(n)
              O(n)
              O(n)
              O(n)
              O(n)

            
              Cartresian Tree
              Undefined
              O(log(n))
              O(log(n))
              O(log(n))
              Undefined
              O(n)
              O(n)
              O(n)
              O(n)

            
              B-Tree
              O(log(n))
              O(log(n))
              O(log(n))
              O(log(n))
              O(log(n))
              O(log(n))
              O(log(n))
              O(log(n))
              O(n)

            
              Red-Black Tree
              O(log(n))
              O(log(n))
              O(log(n))
              O(log(n))
              O(log(n))
              O(log(n))
              O(log(n))
              O(log(n))
              O(n)

            
              Splay Tree
              Undefined
              O(log(n))
              O(log(n))
              O(log(n))
              Undefined
              O(log(n))
              O(log(n))
              O(log(n))
              O(n)

            
              AVL Tree
              O(log(n))
              O(log(n))
              O(log(n))
              O(log(n))
              O(log(n))
              O(log(n))
              O(log(n))
              O(log(n))
              O(n)

## ds.js
var margin = {top: 30, right: 10, bottom: 10, left: 10},
    width = 1000 - margin.left - margin.right,
    height = 300 - margin.top - margin.bottom;


var svg = d3.select(".chart").append("svg")
    .attr("width", width + margin.left + margin.right)
    .attr("height", height + margin.top + margin.bottom)
  .append("g")
    .attr("transform", "translate(" + margin.left + "," + margin.top + ")");


var x = d3.scale.ordinal().rangePoints([0, width], 1),
    y = {};

var line = d3.svg.line(),
    axis = d3.svg.axis().orient("left"),
    foreground;

var source_select = d3.select("#source_select");

// first time
// load data and render the page
d3.csv(source_select.property("value"), function(err, dataset) {
  render_page(dataset);
});


// on source change
source_select.on("change", function(){

  // clean up svg canvas
  svg.selectAll('*').remove();
  // load data and render the page
  d3.csv(source_select.property("value"), function(err, dataset) {
    render_page(dataset);
  });

});


// functions


function obj_ascending (obj1, obj2) {
  return d3.ascending(d3.values(obj1), d3.values(obj2));
}

function obj_descending (obj1, obj2) {
  return d3.descending(d3.values(obj1), d3.values(obj2));
}


function render_page(dataset){

  // extract colnames
  var dimensions = d3.keys(dataset[0]).filter(function(d) {
    return d != "Name"});


  draw(dataset, dimensions);

  // create sliders
  create_sliders(dimensions);


  var n = get_size();
  scores = score(dataset, n);
  render_ranking(scores);
  highlight_best(scores);


  d3.selectAll(".controls input")
  .on("input", function() {

    var n = get_size();
    var scores = score(dataset, n);
    render_ranking(scores);
    highlight_best(scores);

  });

};


function highlight_best(scores){

  name_best = d3.keys(scores.sort(obj_descending)[0])[0];
  d3.selectAll('.foreground path')
  .filter(function(d) { return d.Name === name_best; })
  .call(highlight);

}

function render_ranking (scores) {

  d3.select("div#ranking").selectAll("ol").remove();

  d3.select("div#ranking")
  .append("ol")
  .selectAll("li")
  .data(scores)
  .enter()
  .append("li")
  .sort(obj_descending)
  .text(function(d) {return d3.keys(d)+": "+ d3.values(d).map(d3.format(".4f"));})


}

function print_debug(names, weight, row_scores, row_costs){

 var score_div = d3.select("div.debug");

 score_div.html(null);

 score_div.append('h2').text('Weights: ');
 score_div.append('p').text(weight.map(d3.format("%")));


 score_div.append('h2').text('row_scores: ');
 score_div.append("div")
 .selectAll("p")
 .data(row_scores)
 .enter()
 .append("p")
 .text(function(d,i) { return names[i]+ ': '+ d.map(d3.format(".3f")).join('  ,  '); });


 score_div.append('h2').text('row_costs: ');
 score_div.append("div")
 .selectAll("p")
 .data(row_costs)
 .enter()
 .append("p")
 .text(function(d,i) { return names[i]+ ': '+ d.map(d3.format(".3f")).join('  ,  '); });
 console.log(weight);
 console.log('row_costs: ', row_costs);
 console.log('row_scores: ', row_scores);

}


function score(dataset, n) {
  // n: problem size
  var values = get_slider_values(),
  slider_sum = d3.sum(values),
  weight = values.map(function(x) { return x/slider_sum;});

  //calc cost for each row
  var row_costs = dataset.map(function(d) {return row_cost(d, n);} );

  var row_scores = row_costs.map(function(cost) { return row_score(weight, cost)});

  var scores = row_scores.map(function(rs) {return d3.sum(rs);});

  var names = dataset.map(function(d){ return d.Name;});
  // print_debug(names, weight, row_scores, row_costs);


  var scores_obj = [];
  for (i in names) {
    tmp = {};
    tmp[names[i]] = scores[i];
    scores_obj.push(tmp);
  };

 return scores_obj;
}

// calculate score for given cost and weight vectors
function row_score(weight, cost){
// weight: vector of weights (length = # dimensions)
// cost: vector of cost calculated from equations (length = # dimensions)
var score = [];

for (i in cost){
  score[i] = weight[i] * (1/cost[i]);
};

return score;
};

// calculate cost vector for a single row
function row_cost(d, n) {
  // d: object representing one row of data
  // n: problem size

  var d = d3.map(d);
  d.remove('Name');

  var dimensions = d.keys();
  var cost = [];

  var cost = dimensions.map(function(dim) {
   return equations[d.get(dim)](n);
 });


  return cost;
};

var equations=
{
  'O(n!)': function(x) {
    var rval=1;
    for (var i = 2; i <= x; i++) {
      rval = rval * i;
    }
    return rval;
  },

  'O(n^2)': function(x) {
    return x * x;
  },

  'O(n log(n))': function(x) {
    return x * Math.log(x);
  },

  'O(log(n))': function(x) {
    return Math.log(x);
  },

  'O(n)': function(x) {
    return x;
  },

  'O(m+n)': function(x) {
    return x;
  },

  'O(1)': function(x) {
    return 1;
  },

  'Undefined': function(x) {
    // return 1e15;
    return Infinity;
  }

};

function get_size(){
  return +d3.select("div#size input").property('value');
}


function get_slider_values() {
  var slider_values =
  d3.selectAll('div#sliders input')[0]
  .map(function(slider) {return +slider.value;});

  return slider_values;
};


// dynamically create sliders for each input dimension
function create_sliders(dimensions) {

    d3.select('#sliders')
    .selectAll('div')
    .remove();

    d3.select('#sliders')
    .selectAll('div')
      .data(dimensions)
    .enter()
      .append('div')
      .attr('id', function(d,i) { return 'slider'+i; })
      .append('label')
      .text(function(d) { return d; })
      .append('input')
      .property({'type':'range', 'min':0, 'max':100, 'step':25});


}


function draw(dataset, dimensions) {

  x.domain(dimensions);

  // create an array of scales. one for each column
  dimensions.forEach(function(d){
    y[d] = d3.scale.ordinal()
        .domain(d3.set(dataset.map(function(row) { return row[d];})).values().sort()) // extract column
        .rangePoints([0,height-20])
  });

  var foreground = svg.append('g')
      .attr('class', 'foreground')
      .selectAll('path')
      .data(dataset)
      .enter()
      .append('path')
      .attr('d', function(d) { return path(d,dimensions); } );

  // Add a group element for each dimension.
  var g = svg.selectAll(".dimension")
            .data(dimensions)
          .enter().append("g")
            .attr("class", "dimension")
            .attr("transform", function(d) { return "translate(" + x(d) + ")"; });

  g.append("g")
      .attr("class", "axis")
      .each(function(d) { d3.select(this).call(axis.scale(y[d])); });

  var labels = g.append("text")
      .style("text-anchor", "middle")
      .attr("y", -15)
      .attr('class', 'label')
      .text(function(d) { return d; });

      // highlight the first path
      d3.select('.foreground path').call(highlight);

      // hover effect
      foreground
      .on('mouseover', function(d) {

        d3.select(this).call(highlight);
      });


}


// Returns the path for a given data point.
function path(d, dimensions) {
  return line(dimensions.map(function(p) { return [x(p), y[p](d[p])]; }));
}

function tbl_row(obj) {
  var obj = d3.map(obj);
  obj.remove('Name');
  var header = obj.keys().map(function(v) { return '<th>'+v+'</th>'});
  var row = obj.values().map(function(v) { return '<td>'+v+'</td>'});
  return '<tr>' + header.join('') + '</tr>' + '<tr>'+row.join('')+'</tr>';
}

function highlight(selected_path) {
  d3.selectAll('.foreground path').style({'stroke': '#ddd', 'stroke-width': '1px'})
  selected_path.style({'stroke': 'gold', 'stroke-width': '3px'});
  d3.select('#btn-title').text(selected_path.datum().Name).style('display', 'block');
  d3.select('#tbl_output').html(tbl_row(selected_path.datum()));
}

## heap.csv

          
            Name
            Heapify
            Find Max
            Extract Max
            Increase Key
            Insert
            Delete
            Merge

            
              Linked List (sorted)
              Undefined
              O(1)
              O(1)
              O(n)
              O(n)
              O(1)
              O(m+n)

            
              Linked List (unsorted)
              Undefined
              O(n)
              O(n)
              O(1)
              O(1)
              O(1)
              O(1)

            
              Binary Heap
              O(n)
              O(1)
              O(log(n))
              O(log(n))
              O(log(n))
              O(log(n))
              O(m+n)

            
              Binomial Heap
              Undefined
              O(log(n))
              O(log(n))
              O(log(n))
              O(log(n))
              O(log(n))
              O(log(n))

            
              Fibonacci Heap
              Undefined
              O(1)
              O(log(n))
              O(1)
              O(1)
              O(log(n))
              O(1)

## index.html
<!DOCTYPE html>
<meta charset="utf-8">
<style>

#container {
  width: 1050px;
  margin: auto;
  margin-top: 20px;
  margin-bottom: 20px;
  padding: 10px;
  border:1px solid black;
  /*background-color: ghostwhite;*/

}

svg {
  font: 10px sans-serif;
}

.foreground path {
  fill: none;
  stroke: #ddd;
}

.axis line,
.axis path {
  fill: none;
  stroke: #000;
  stroke-dasharray: 5,5;
  shape-rendering: crispEdges;
}

.axis text {
  text-shadow: 0 1px 0 #fff, 1px 0 0 #fff, 0 -1px 0 #fff, -1px 0 0 #fff;
}

text.label {
  font: 12px Verdana;
  fill: darkgray;
}

.label:hover {
  fill: gold;
}


.chart {
  margin: auto;
  /*float: left;*/
}
.output {
  width: 70%;
  margin: auto;
  font: 12px Verdana;
  /*float: left;*/
}

#btn-title {
  display: none;
}

fieldset.controls {
  padding: 5px;
  font-weight: normal;
  width: 300px;
}


fieldset.controls label {
  font-weight: normal;
  width: 280px;
}

fieldset.controls input {
  display: inline-block;
  width: 150px;
  vertical-align: middle;
  float: right;
}

div#size {
  margin-bottom: 5px;
}

div#ranking {
  margin-top: 20px;
  margin-right: 30px;
  /*background-color: ghostwhite;*/
  float: right;
  padding: 10px;
}


</style>
<head>
  <link href="//maxcdn.bootstrapcdn.com/bootstrap/3.3.1/css/bootstrap.min.css" rel="stylesheet">
</head>
<body>
  <div id='container'>
    <label>Pick one:
      <select name="source_select" id="source_select">
        <option value="ds.csv" selected>Data Structure</option>
        <option value="heap.csv">Heap</option>
      </select>
    </label> <br>

    <div class="chart"></div>
    <div class="output">

      <div>
        <button type="button" class="btn btn-danger" id="btn-title" disabled></button> <br>
      </div>

      <table class='table table-bordered table-striped' id='tbl_output'></table>
    </div>

    <div id="ranking"><p>Ranking:</p></div>

    <fieldset class='controls'>
      <legend>Problem Specification</legend>
      <div id="size">
        <label>Problem Size<input type="number" min="0" step="1000" value="10000"></label>
      </div>
      <div id="sliders"></div>
    </fieldset>

    <div class="debug">

    </div>

  </div>


  <script src="http://d3js.org/d3.v3.min.js"></script>
  <script src="ds.js"></script>
</body>
Name	Indexing (Average)	Search (Average)	Insertion (Average)	Deletion (Worst)	Indexing (Worst)	Search (Worst)	Insertion (Worst)	Deletion (Worst)	Space
Basic Array	O(1)	O(n)	Undefined	Undefined	O(1)	O(n)	Undefined	Undefined	O(n)
Dynamic Array	O(1)	O(n)	O(n)	O(n)	O(1)	O(n)	O(n)	O(n)	O(n)
Singly-Linked List	O(n)	O(n)	O(1)	O(1)	O(n)	O(n)	O(1)	O(1)	O(n)
Doubly-Linked List	O(n)	O(n)	O(1)	O(1)	O(n)	O(n)	O(1)	O(1)	O(n)
Skip List	O(log(n))	O(log(n))	O(log(n))	O(log(n))	O(n)	O(n)	O(n)	O(n)	O(n log(n))
Hash Table	Undefined	O(1)	O(1)	O(1)	Undefined	O(n)	O(n)	O(n)	O(n)
Binary Search Tree	O(log(n))	O(log(n))	O(log(n))	O(log(n))	O(n)	O(n)	O(n)	O(n)	O(n)
Cartresian Tree	Undefined	O(log(n))	O(log(n))	O(log(n))	Undefined	O(n)	O(n)	O(n)	O(n)
B-Tree	O(log(n))	O(log(n))	O(log(n))	O(log(n))	O(log(n))	O(log(n))	O(log(n))	O(log(n))	O(n)
Red-Black Tree	O(log(n))	O(log(n))	O(log(n))	O(log(n))	O(log(n))	O(log(n))	O(log(n))	O(log(n))	O(n)
Splay Tree	Undefined	O(log(n))	O(log(n))	O(log(n))	Undefined	O(log(n))	O(log(n))	O(log(n))	O(n)
AVL Tree	O(log(n))	O(log(n))	O(log(n))	O(log(n))	O(log(n))	O(log(n))	O(log(n))	O(log(n))	O(n)
	var margin = {top: 30, right: 10, bottom: 10, left: 10},
	width = 1000 - margin.left - margin.right,
	height = 300 - margin.top - margin.bottom;


	var svg = d3.select(".chart").append("svg")
	.attr("width", width + margin.left + margin.right)
	.attr("height", height + margin.top + margin.bottom)
	.append("g")
	.attr("transform", "translate(" + margin.left + "," + margin.top + ")");


	var x = d3.scale.ordinal().rangePoints([0, width], 1),
	y = {};

	var line = d3.svg.line(),
	axis = d3.svg.axis().orient("left"),
	foreground;

	var source_select = d3.select("#source_select");

	// first time
	// load data and render the page
	d3.csv(source_select.property("value"), function(err, dataset) {
	render_page(dataset);
	});


	// on source change
	source_select.on("change", function(){

	// clean up svg canvas
	svg.selectAll('*').remove();
	// load data and render the page
	d3.csv(source_select.property("value"), function(err, dataset) {
	render_page(dataset);
	});

	});




	// functions


	function obj_ascending (obj1, obj2) {
	return d3.ascending(d3.values(obj1), d3.values(obj2));
	}

	function obj_descending (obj1, obj2) {
	return d3.descending(d3.values(obj1), d3.values(obj2));
	}


	function render_page(dataset){

	// extract colnames
	var dimensions = d3.keys(dataset[0]).filter(function(d) {
	return d != "Name"});



	draw(dataset, dimensions);

	// create sliders
	create_sliders(dimensions);



	var n = get_size();
	scores = score(dataset, n);
	render_ranking(scores);
	highlight_best(scores);


	d3.selectAll(".controls input")
	.on("input", function() {

	var n = get_size();
	var scores = score(dataset, n);
	render_ranking(scores);
	highlight_best(scores);

	});

	};


	function highlight_best(scores){

	name_best = d3.keys(scores.sort(obj_descending)[0])[0];
	d3.selectAll('.foreground path')
	.filter(function(d) { return d.Name === name_best; })
	.call(highlight);

	}

	function render_ranking (scores) {

	d3.select("div#ranking").selectAll("ol").remove();

	d3.select("div#ranking")
	.append("ol")
	.selectAll("li")
	.data(scores)
	.enter()
	.append("li")
	.sort(obj_descending)
	.text(function(d) {return d3.keys(d)+": "+ d3.values(d).map(d3.format(".4f"));})


	}

	function print_debug(names, weight, row_scores, row_costs){

	var score_div = d3.select("div.debug");

	score_div.html(null);

	score_div.append('h2').text('Weights: ');
	score_div.append('p').text(weight.map(d3.format("%")));


	score_div.append('h2').text('row_scores: ');
	score_div.append("div")
	.selectAll("p")
	.data(row_scores)
	.enter()
	.append("p")
	.text(function(d,i) { return names[i]+ ': '+ d.map(d3.format(".3f")).join(' , '); });


	score_div.append('h2').text('row_costs: ');
	score_div.append("div")
	.selectAll("p")
	.data(row_costs)
	.enter()
	.append("p")
	.text(function(d,i) { return names[i]+ ': '+ d.map(d3.format(".3f")).join(' , '); });
	console.log(weight);
	console.log('row_costs: ', row_costs);
	console.log('row_scores: ', row_scores);

	}





	function score(dataset, n) {
	// n: problem size
	var values = get_slider_values(),
	slider_sum = d3.sum(values),
	weight = values.map(function(x) { return x/slider_sum;});

	//calc cost for each row
	var row_costs = dataset.map(function(d) {return row_cost(d, n);} );

	var row_scores = row_costs.map(function(cost) { return row_score(weight, cost)});

	var scores = row_scores.map(function(rs) {return d3.sum(rs);});

	var names = dataset.map(function(d){ return d.Name;});
	// print_debug(names, weight, row_scores, row_costs);


	var scores_obj = [];
	for (i in names) {
	tmp = {};
	tmp[names[i]] = scores[i];
	scores_obj.push(tmp);
	};

	return scores_obj;
	}

	// calculate score for given cost and weight vectors
	function row_score(weight, cost){
	// weight: vector of weights (length = # dimensions)
	// cost: vector of cost calculated from equations (length = # dimensions)
	var score = [];

	for (i in cost){
	score[i] = weight[i] * (1/cost[i]);
	};

	return score;
	};

	// calculate cost vector for a single row
	function row_cost(d, n) {
	// d: object representing one row of data
	// n: problem size

	var d = d3.map(d);
	d.remove('Name');

	var dimensions = d.keys();
	var cost = [];

	var cost = dimensions.map(function(dim) {
	return equations[d.get(dim)](n);
	});


	return cost;
	};

	var equations=
	{
	'O(n!)': function(x) {
	var rval=1;
	for (var i = 2; i <= x; i++) {
	rval = rval * i;
	}
	return rval;
	},

	'O(n^2)': function(x) {
	return x * x;
	},

	'O(n log(n))': function(x) {
	return x * Math.log(x);
	},

	'O(log(n))': function(x) {
	return Math.log(x);
	},

	'O(n)': function(x) {
	return x;
	},

	'O(m+n)': function(x) {
	return x;
	},

	'O(1)': function(x) {
	return 1;
	},

	'Undefined': function(x) {
	// return 1e15;
	return Infinity;
	}

	};

	function get_size(){
	return +d3.select("div#size input").property('value');
	}


	function get_slider_values() {
	var slider_values =
	d3.selectAll('div#sliders input')[0]
	.map(function(slider) {return +slider.value;});

	return slider_values;
	};


	// dynamically create sliders for each input dimension
	function create_sliders(dimensions) {

	d3.select('#sliders')
	.selectAll('div')
	.remove();

	d3.select('#sliders')
	.selectAll('div')
	.data(dimensions)
	.enter()
	.append('div')
	.attr('id', function(d,i) { return 'slider'+i; })
	.append('label')
	.text(function(d) { return d; })
	.append('input')
	.property({'type':'range', 'min':0, 'max':100, 'step':25});


	}



	function draw(dataset, dimensions) {

	x.domain(dimensions);

	// create an array of scales. one for each column
	dimensions.forEach(function(d){
	y[d] = d3.scale.ordinal()
	.domain(d3.set(dataset.map(function(row) { return row[d];})).values().sort()) // extract column
	.rangePoints([0,height-20])
	});

	var foreground = svg.append('g')
	.attr('class', 'foreground')
	.selectAll('path')
	.data(dataset)
	.enter()
	.append('path')
	.attr('d', function(d) { return path(d,dimensions); } );

	// Add a group element for each dimension.
	var g = svg.selectAll(".dimension")
	.data(dimensions)
	.enter().append("g")
	.attr("class", "dimension")
	.attr("transform", function(d) { return "translate(" + x(d) + ")"; });

	g.append("g")
	.attr("class", "axis")
	.each(function(d) { d3.select(this).call(axis.scale(y[d])); });

	var labels = g.append("text")
	.style("text-anchor", "middle")
	.attr("y", -15)
	.attr('class', 'label')
	.text(function(d) { return d; });

	// highlight the first path
	d3.select('.foreground path').call(highlight);

	// hover effect
	foreground
	.on('mouseover', function(d) {

	d3.select(this).call(highlight);
	});


	}


	// Returns the path for a given data point.
	function path(d, dimensions) {
	return line(dimensions.map(function(p) { return [x(p), y[p](d[p])]; }));
	}

	function tbl_row(obj) {
	var obj = d3.map(obj);
	obj.remove('Name');
	var header = obj.keys().map(function(v) { return '<th>'+v+'</th>'});
	var row = obj.values().map(function(v) { return '<td>'+v+'</td>'});
	return '<tr>' + header.join('') + '</tr>' + '<tr>'+row.join('')+'</tr>';
	}

	function highlight(selected_path) {
	d3.selectAll('.foreground path').style({'stroke': '#ddd', 'stroke-width': '1px'})
	selected_path.style({'stroke': 'gold', 'stroke-width': '3px'});
	d3.select('#btn-title').text(selected_path.datum().Name).style('display', 'block');
	d3.select('#tbl_output').html(tbl_row(selected_path.datum()));
	}
Name	Heapify	Find Max	Extract Max	Increase Key	Insert	Delete	Merge
Linked List (sorted)	Undefined	O(1)	O(1)	O(n)	O(n)	O(1)	O(m+n)
Linked List (unsorted)	Undefined	O(n)	O(n)	O(1)	O(1)	O(1)	O(1)
Binary Heap	O(n)	O(1)	O(log(n))	O(log(n))	O(log(n))	O(log(n))	O(m+n)
Binomial Heap	Undefined	O(log(n))	O(log(n))	O(log(n))	O(log(n))	O(log(n))	O(log(n))
Fibonacci Heap	Undefined	O(1)	O(log(n))	O(1)	O(1)	O(log(n))	O(1)
	<!DOCTYPE html>
	<meta charset="utf-8">
	<style>

	#container {
	width: 1050px;
	margin: auto;
	margin-top: 20px;
	margin-bottom: 20px;
	padding: 10px;
	border:1px solid black;
	/background-color: ghostwhite;/

	}

	svg {
	font: 10px sans-serif;
	}

	.foreground path {
	fill: none;
	stroke: #ddd;
	}

	.axis line,
	.axis path {
	fill: none;
	stroke: #000;
	stroke-dasharray: 5,5;
	shape-rendering: crispEdges;
	}

	.axis text {
	text-shadow: 0 1px 0 #fff, 1px 0 0 #fff, 0 -1px 0 #fff, -1px 0 0 #fff;
	}

	text.label {
	font: 12px Verdana;
	fill: darkgray;
	}

	.label:hover {
	fill: gold;
	}


	.chart {
	margin: auto;
	/float: left;/
	}
	.output {
	width: 70%;
	margin: auto;
	font: 12px Verdana;
	/float: left;/
	}

	#btn-title {
	display: none;
	}

	fieldset.controls {
	padding: 5px;
	font-weight: normal;
	width: 300px;
	}


	fieldset.controls label {
	font-weight: normal;
	width: 280px;
	}

	fieldset.controls input {
	display: inline-block;
	width: 150px;
	vertical-align: middle;
	float: right;
	}

	div#size {
	margin-bottom: 5px;
	}

	div#ranking {
	margin-top: 20px;
	margin-right: 30px;
	/background-color: ghostwhite;/
	float: right;
	padding: 10px;
	}


	</style>
	<head>
	<link href="//maxcdn.bootstrapcdn.com/bootstrap/3.3.1/css/bootstrap.min.css" rel="stylesheet">
	</head>
	<body>
	<div id='container'>
	<label>Pick one:
	<select name="source_select" id="source_select">
	<option value="ds.csv" selected>Data Structure</option>
	<option value="heap.csv">Heap</option>
	</select>
	</label> <br>

	<div class="chart"></div>
	<div class="output">

	<div>
	<button type="button" class="btn btn-danger" id="btn-title" disabled></button> <br>
	</div>

	<table class='table table-bordered table-striped' id='tbl_output'></table>
	</div>

	<div id="ranking"><p>Ranking:</p></div>

	<fieldset class='controls'>
	<legend>Problem Specification</legend>
	<div id="size">
	<label>Problem Size<input type="number" min="0" step="1000" value="10000"></label>
	</div>
	<div id="sliders"></div>
	</fieldset>

	<div class="debug">

	</div>

	</div>


	<script src="http://d3js.org/d3.v3.min.js"></script>
	<script src="ds.js"></script>
	</body>