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<!DOCTYPE html>
<!-- python -m SimpleHTTPServer 8888 & -->
<html lang="en">
<head>
<meta charset="utf-8">
<title>D3 Test</title>
<script src="http://d3js.org/d3.v3.js" charset="utf-8"></script>
<script src="http://labratrevenge.com/d3-tip/javascripts/d3.tip.v0.6.3.js"></script>
</head>
<style>
.bar {
fill: steelblue;
}
.bar:hover {
fill: brown;
}
.axis {
font: 10px sans-serif;
}
.axis path,
.axis line {
fill: none;
stroke: #000;
shape-rendering: crispEdges;
}
.x.axis path {
display: none;
}
.d3-tip {
line-height: 1;
font-weight: bold;
padding: 12px;
background: rgba(0, 0, 0, 0.8);
color: #fff;
border-radius: 2px;
}
/* Creates a small triangle extender for the tooltip */
.d3-tip:after {
box-sizing: border-box;
display: inline;
font-size: 10px;
width: 100%;
line-height: 1;
color: rgba(0, 0, 0, 0.8);
content: "\25BC";
position: absolute;
text-align: center;
}
svg text,
body {
font-size: 10pt;
font-family: sans;
}
</style>
<body>
<div>
<label for="headwayA">Headway of bus A</label>
<input type="range" id="headwayA" min="1" max="60" value="30" class="control" />
<label for="ttimeA">Travel time of bus A</label>
<input type="range" id="ttimeA" min="1" max="60" value="30" class="control" />
</div>
<div>
<label for="headwayB">Headway of bus B</label>
<input type="range" id="headwayB" min="1" max="60" value="40" class="control" />
<label for="ttimeB">Travel time of bus B</label>
<input type="range" id="ttimeB" min="1" max="60" value="20" class="control" />
</div>
<div>
<label for="headwayC">Headway of bus C</label>
<input type="range" id="headwayC" min="1" max="60" value="50" class="control" />
<label for="ttimeC">Travel time of bus C</label>
<input type="range" id="ttimeC" min="1" max="60" value="25" class="control" />
</div>
<script type="text/javascript">
// create a context for the purpose of namespacing and applying strict syntax
(function() {
'use strict';
var N = 60; // number of bins in each histogram
function emptyDistribution() {
var ret = new Array(N);
for (var i = 0; i < N; i++) {
ret[i] = 0;
}
return ret;
}
function constantDistribution(width) {
var ret = emptyDistribution();
for (var i = 0; i < width; i++) {
ret[i] = 1 / width;
}
return ret;
}
function cumulative(densities) {
var ret = new Array(densities.length);
var accumulated = 0;
for (var i = 0; i < densities.length; i++) {
// definition of discrete cumulative probability is P(X<=x)
// so add before setting. But this will either over or
// underestimate (combining discrete & continuous problem)
accumulated += densities[i];
ret[i] = accumulated;
}
return ret;
}
function complement(distribution) {
var ret = new Array(N);
for (var i = 0; i < N; i++) {
ret[i] = 1 - distribution[i];
}
return ret;
}
function or(p1, p2) {
return p1 + p2 - p1 * p2;
}
function either(p1, p2) {
var ret = new Array(N);
for (var i = 0; i < N; i++) {
ret[i] = or(p1[i], p2[i]);
}
return ret;
}
function product(p1, p2) {
var ret = new Array(N);
for (var i = 0; i < N; i++) {
ret[i] = p1[i] * p2[i];
}
return ret;
}
function add(p1, p2) {
var ret = new Array(N);
for (var i = 0; i < N; i++) ret[i] = p1[i] + p2[i];
return ret;
}
function subtract(p1, p2) {
var ret = new Array(N);
for (var i = 0; i < N; i++) ret[i] = p1[i] - p2[i];
return ret;
}
function trimRight (array) {
var i = array.length - 1
for (; i > 0; i--) {
if (Math.abs(array[i]) > 1e-10)
break;
}
return array.slice(0, i + 1);
}
/** offset an array by a fixed amount (e.g. a travel time) */
function offset (array, distance) {
var left = [];
for (var i = 0; i < distance; i++) {
left[i] = 0;
}
return left.concat(array);
}
/** make an elpased time distribution */
function elapsed(boardedA, ttimeA, boardedB, ttimeB, boardedC, ttimeC) {
var elapsedTime = [];
for (var i = 0; i < N + Math.max(ttimeA, ttimeB, ttimeC); i++) {
elapsedTime[i] = 0;
}
for (var i = 0; i < N; i++) {
elapsedTime[i + ttimeA] += boardedA[i];
elapsedTime[i + ttimeB] += boardedB[i];
elapsedTime[i + ttimeC] += boardedC[i];
}
return trimRight(elapsedTime);
}
/** P(A arrives | A has not been boarded) = P(A arrives | A has not arrived) * P(A has not arrived | A has not been boarded) */
function pArr(headway, minutes, cBoard) {
if (minutes >= headway)
return 0;
var pArr = 1 / (headway - minutes);
var pHasCome = minutes / headway;
var discount = (1 - pHasCome) / (1 - cBoard);
return pArr * discount;
}
/* Add a new SVG graph to the DOM displaying the given data. */
function makeGraph(data, label, max) {
var margin = {
top: 20,
right: 20,
bottom: 30,
left: 40
},
width = 600 - margin.left - margin.right,
height = 150 - margin.top - margin.bottom;
// Map graph values to SVG (x,y) coordinates and colors
var x = d3.scale.ordinal()
.domain(d3.range(data.length))
.rangeRoundBands([0, width]);
var y = d3.scale.linear()
.domain([0, max !== undefined ? max : Math.max.apply(null, data)])
.range([height, 0]);
//var c = d3.scale.category10.domain(d3.range(3));
// Create a new SVG element in the DOM, which will hold the graph
var svg = d3.select("body").append("svg")
.attr("width", width + margin.left + margin.right)
.attr("height", height + margin.top + margin.bottom)
.append("g") // group element
.attr("transform", "translate(" + margin.left + "," + margin.top + ")");
// Create X axis and add it to a group within the SVG
var xAxis = d3.svg.axis()
.scale(x)
.orient("bottom");
svg.append("g")
.attr("class", "x axis")
.attr("transform", "translate(0," + height + ")")
.call(xAxis)
.selectAll("text")
.style("text-anchor", "end")
.attr("dx", "-.8em")
.attr("dy", "-.55em")
.attr("transform", "rotate(-90)");
// Create Y axis and add it to a group within the SVG
var yAxis = d3.svg.axis()
.scale(y)
.orient("left")
.ticks(2);
svg.append("g")
.attr("class", "y axis")
.call(yAxis)
.append("text")
.attr("transform", "rotate(-90)")
.attr("y", 6)
.attr("dy", ".71em")
.style("text-anchor", "end");
// Popup "tooltip" to show the value of any given bar
var tip = d3.tip()
.attr('class', 'd3-tip')
.offset([-10, 0])
.html(function(d, i) {
return 't=' + i + ' p=' + d.toFixed(3);
});
// What does this do?
svg.call(tip);
// Bind the data, creating or updating one bar for each data point in the array
svg.selectAll(".bar")
.data(data)
.enter().append("rect")
.attr("class", "bar")
.attr("x", function(d, i) {
return x(i);
})
.attr("width", x.rangeBand())
.attr("y", function(d, i) {
return y(d);
})
.attr("height", function(d) {
return height - y(d);
})
.on('mouseover', tip.show)
.on('mouseout', tip.hide);
// add label
svg.append('text').text(label).attr('transform', 'translate(30, 10)');
}
function drawGraphs() {
d3.selectAll('svg').remove();
var headwayA = parseInt(document.getElementById('headwayA').value);
var ttimeA = parseInt(document.getElementById('ttimeA').value);
var headwayB = parseInt(document.getElementById('headwayB').value);
var ttimeB = parseInt(document.getElementById('ttimeB').value);
var headwayC = parseInt(document.getElementById('headwayC').value);
var ttimeC = parseInt(document.getElementById('ttimeC').value);
var busA = constantDistribution(headwayA);
var busB = constantDistribution(headwayB);
var busC = constantDistribution(headwayC);
var cBusA = cumulative(busA);
var cBusB = cumulative(busB);
var cBusC = cumulative(busC);
// P(A or B or C) = P((A or B) or C)
// P(A or B) = P(A) + P(B) - (P(A) * P(B))
var anyBusArrived = either(either(cBusA, cBusB), cBusC);
var noBusArrived = complement(anyBusArrived);
// Leave out the bus being examined from the cumulative part
// cumulative versus density, any way to re-express this?
var boardedA = product(busA, complement(either(cBusB, cBusC)));
var boardedB = product(busB, complement(either(cBusA, cBusC)));
var boardedC = product(busC, complement(either(cBusA, cBusB)));
var cBoardedA = cumulative(boardedA);
var cBoardedB = cumulative(boardedB);
var cBoardedC = cumulative(boardedC);
var cBoardedAny = add(add(cBoardedA, cBoardedB), cBoardedC);
// Warning, cumulative(either()) != either(cumulative())
// we want prob that (A already happened) OR (B already happened)
// not prob that (A OR B) already happened... but what does this mean?
makeGraph(anyBusArrived, 'Any bus arrived', 1);
makeGraph(noBusArrived, 'No bus arrived', 1);
makeGraph(cBusA, 'Bus A arrived', 1);
makeGraph(cBoardedA, 'Boarded bus A', 1);
makeGraph(cBusB, 'Bus B arrived', 1);
makeGraph(cBoardedB, 'Boarded bus B', 1);
makeGraph(cBusC, 'Bus C arrived', 1);
makeGraph(cBoardedC, 'Boarded bus C', 1);
makeGraph(cBoardedAny, 'Boarded any bus', 1);
// compute the elapsed time distribution
var elapsedTime = elapsed(boardedA, ttimeA, boardedB, ttimeB, boardedC, ttimeC);
makeGraph(elapsedTime, 'Elapsed time distribution');
// the simple case of the clever traveler
var destA = offset(busA, ttimeA);
var destB = offset(busB, ttimeB);
var destC = offset(busC, ttimeC);
var cDestA = cumulative(destA);
var cDestB = cumulative(destB);
var cDestC = cumulative(destC);
var tookA = product(destA, complement(either(cDestB, cDestC)));
var tookB = product(destB, complement(either(cDestC, cDestA)));
var tookC = product(destC, complement(either(cDestB, cDestA)));
var bDestA = tookA.slice(ttimeA);
var bDestB = tookB.slice(ttimeB);
var bDestC = tookC.slice(ttimeC);
var cbDestA = cumulative(bDestA);
var cbDestB = cumulative(bDestB);
var cbDestC = cumulative(bDestC);
makeGraph(cbDestA, "Clever passenger with perfect information boarded bus A, simple algorithm", 1);
makeGraph(cbDestB, "Clever passenger with perfect information boarded bus B, simple algorithm", 1);
makeGraph(cbDestC, "Clever passenger with perfect information boarded bus C, simple algorithm", 1);
var cbAny = add(add(cbDestA, cbDestB), cbDestC);
makeGraph(cbAny, "Clever passenger with perfect information boarded any bus, simple algorithm", 1);
var destElapsed = elapsed(bDestA, ttimeA, bDestB, ttimeB, bDestC, ttimeC);
makeGraph(destElapsed, "Elapsed time distribution for the clever traveler with perfect information, simple algorithm");
// now the case of the minimum upper bound
var acBoardedA = 0;
var acBoardedB = 0;
var acBoardedC = 0;
var mBoardedA = [];
var mBoardedB = [];
var mBoardedC = [];
for (var x = 0; x < N; x++) {
var BBetterA = (Math.max(headwayB - x, 0) + ttimeB < ttimeA) * Math.max(1 - x / headwayB, 0) / (1 - acBoardedB);
var CBetterA = (Math.max(headwayC - x, 0) + ttimeC < ttimeA) * Math.max(1 - x / headwayC, 0) / (1 - acBoardedC);
var anyBetterA = BBetterA + CBetterA - BBetterA * CBetterA;
mBoardedA[x] = pArr(headwayA, x, acBoardedA) * (1 - anyBetterA) * (1 - (acBoardedA + acBoardedB + acBoardedC));
var ABetterB = (Math.max(headwayA - x, 0) + ttimeA < ttimeB) * Math.max(1 - x / headwayA, 0) / (1 - acBoardedA);
var CBetterB = (Math.max(headwayC - x, 0) + ttimeC < ttimeB) * Math.max(1 - x / headwayC, 0) / (1 - acBoardedC);
var anyBetterB = ABetterB + CBetterB - ABetterB * CBetterB;
mBoardedB[x] = pArr(headwayB, x, acBoardedB) * (1 - anyBetterB) * (1 - (acBoardedA + acBoardedB + acBoardedC));
var ABetterC = (Math.max(headwayA - x, 0) + ttimeA < ttimeC) * Math.max(1 - x / headwayA, 0) / (1 - acBoardedA);
var BBetterC = (Math.max(headwayB - x, 0) + ttimeB < ttimeC) * Math.max(1 - x / headwayB, 0) / (1 - acBoardedB);
var anyBetterC = ABetterC + BBetterC - ABetterC * BBetterC;
mBoardedC[x] = pArr(headwayC, x, acBoardedC) * (1 - anyBetterC) * (1 - (acBoardedA + acBoardedB + acBoardedC));
acBoardedA += mBoardedA[x];
acBoardedB += mBoardedB[x];
acBoardedC += mBoardedC[x];
console.log(x, anyBetterA, anyBetterB, anyBetterC);
console.log(acBoardedA + acBoardedB + acBoardedC)
if (anyBetterA > 1 || anyBetterB > 1 || anyBetterC > 1 ||
anyBetterA < 0 || anyBetterB < 0 || anyBetterC < 0 ||
(acBoardedA + acBoardedB + acBoardedC) > 1)
console.log("invalid probability");
}
var mBoardedAny = add(mBoardedA, add(mBoardedB, mBoardedC));
makeGraph(cumulative(mBoardedA), 'Probability that risk-averse traveler boarded A', 1);
makeGraph(cumulative(mBoardedB), 'Probability that risk-averse traveler boarded B', 1);
makeGraph(cumulative(mBoardedC), 'Probability that risk-averse traveler boarded C', 1);
makeGraph(cumulative(mBoardedAny), 'Probability that risk-averse traveler boarded any', 1);
var mElapsed = elapsed(mBoardedA, ttimeA, mBoardedB, ttimeB, mBoardedC, ttimeC);
makeGraph(mElapsed, 'Elapsed time distribution for risk averse traveler');
}
d3.selectAll('.control').on('change', drawGraphs);
drawGraphs();
}()); // close namespace and call to execute.
</script>
</body>
</html>