alazyreader/nyc-bookstores
1
0
Fork 0
Code Issues 1 Pull Requests Releases Wiki Activity
03688d0f09
nyc-bookstores/node_modules/mapbox.js/dist/dev/mapbox.uncompressed.js
jllord 59d3d30afa all da files
2013-05-27 13:45:59 -07:00

9262 lines
296 KiB
JavaScript
Raw Blame History

/* mapbox.js 0.6.7 */
!function() {
var define; // Undefine define (require.js)
/*!
* bean.js - copyright Jacob Thornton 2011
* https://github.com/fat/bean
* MIT License
* special thanks to:
* dean edwards: http://dean.edwards.name/
* dperini: https://github.com/dperini/nwevents
* the entire mootools team: github.com/mootools/mootools-core
*/
!function (name, context, definition) {
if (typeof module !== 'undefined') module.exports = definition(name, context);
else if (typeof define === 'function' && typeof define.amd === 'object') define(definition);
else context[name] = definition(name, context);
}('bean', this, function (name, context) {
var win = window
, old = context[name]
, overOut = /over|out/
, namespaceRegex = /[^\.]*(?=\..*)\.|.*/
, nameRegex = /\..*/
, addEvent = 'addEventListener'
, attachEvent = 'attachEvent'
, removeEvent = 'removeEventListener'
, detachEvent = 'detachEvent'
, ownerDocument = 'ownerDocument'
, targetS = 'target'
, qSA = 'querySelectorAll'
, doc = document || {}
, root = doc.documentElement || {}
, W3C_MODEL = root[addEvent]
, eventSupport = W3C_MODEL ? addEvent : attachEvent
, slice = Array.prototype.slice
, mouseTypeRegex = /click|mouse(?!(.*wheel|scroll))|menu|drag|drop/i
, mouseWheelTypeRegex = /mouse.*(wheel|scroll)/i
, textTypeRegex = /^text/i
, touchTypeRegex = /^touch|^gesture/i
, ONE = {} // singleton for quick matching making add() do one()
, nativeEvents = (function (hash, events, i) {
for (i = 0; i < events.length; i++)
hash[events[i]] = 1
return hash
}({}, (
'click dblclick mouseup mousedown contextmenu ' + // mouse buttons
'mousewheel mousemultiwheel DOMMouseScroll ' + // mouse wheel
'mouseover mouseout mousemove selectstart selectend ' + // mouse movement
'keydown keypress keyup ' + // keyboard
'orientationchange ' + // mobile
'focus blur change reset select submit ' + // form elements
'load unload beforeunload resize move DOMContentLoaded '+ // window
'readystatechange message ' + // window
'error abort scroll ' + // misc
(W3C_MODEL ? // element.fireEvent('onXYZ'... is not forgiving if we try to fire an event
// that doesn't actually exist, so make sure we only do these on newer browsers
'show ' + // mouse buttons
'input invalid ' + // form elements
'touchstart touchmove touchend touchcancel ' + // touch
'gesturestart gesturechange gestureend ' + // gesture
'readystatechange pageshow pagehide popstate ' + // window
'hashchange offline online ' + // window
'afterprint beforeprint ' + // printing
'dragstart dragenter dragover dragleave drag drop dragend ' + // dnd
'loadstart progress suspend emptied stalled loadmetadata ' + // media
'loadeddata canplay canplaythrough playing waiting seeking ' + // media
'seeked ended durationchange timeupdate play pause ratechange ' + // media
'volumechange cuechange ' + // media
'checking noupdate downloading cached updateready obsolete ' + // appcache
'' : '')
).split(' ')
))
, customEvents = (function () {
var cdp = 'compareDocumentPosition'
, isAncestor = cdp in root
? function (element, container) {
return container[cdp] && (container[cdp](element) & 16) === 16
}
: 'contains' in root
? function (element, container) {
container = container.nodeType === 9 || container === window ? root : container
return container !== element && container.contains(element)
}
: function (element, container) {
while (element = element.parentNode) if (element === container) return 1
return 0
}
function check(event) {
var related = event.relatedTarget
return !related
? related === null
: (related !== this && related.prefix !== 'xul' && !/document/.test(this.toString()) && !isAncestor(related, this))
}
return {
mouseenter: { base: 'mouseover', condition: check }
, mouseleave: { base: 'mouseout', condition: check }
, mousewheel: { base: /Firefox/.test(navigator.userAgent) ? 'DOMMouseScroll' : 'mousewheel' }
}
}())
, fixEvent = (function () {
var commonProps = 'altKey attrChange attrName bubbles cancelable ctrlKey currentTarget detail eventPhase getModifierState isTrusted metaKey relatedNode relatedTarget shiftKey srcElement target timeStamp type view which'.split(' ')
, mouseProps = commonProps.concat('button buttons clientX clientY dataTransfer fromElement offsetX offsetY pageX pageY screenX screenY toElement'.split(' '))
, mouseWheelProps = mouseProps.concat('wheelDelta wheelDeltaX wheelDeltaY wheelDeltaZ axis'.split(' ')) // 'axis' is FF specific
, keyProps = commonProps.concat('char charCode key keyCode keyIdentifier keyLocation'.split(' '))
, textProps = commonProps.concat(['data'])
, touchProps = commonProps.concat('touches targetTouches changedTouches scale rotation'.split(' '))
, messageProps = commonProps.concat(['data', 'origin', 'source'])
, preventDefault = 'preventDefault'
, createPreventDefault = function (event) {
return function () {
if (event[preventDefault])
event[preventDefault]()
else
event.returnValue = false
}
}
, stopPropagation = 'stopPropagation'
, createStopPropagation = function (event) {
return function () {
if (event[stopPropagation])
event[stopPropagation]()
else
event.cancelBubble = true
}
}
, createStop = function (synEvent) {
return function () {
synEvent[preventDefault]()
synEvent[stopPropagation]()
synEvent.stopped = true
}
}
, copyProps = function (event, result, props) {
var i, p
for (i = props.length; i--;) {
p = props[i]
if (!(p in result) && p in event) result[p] = event[p]
}
}
return function (event, isNative) {
var result = { originalEvent: event, isNative: isNative }
if (!event)
return result
var props
, type = event.type
, target = event[targetS] || event.srcElement
result[preventDefault] = createPreventDefault(event)
result[stopPropagation] = createStopPropagation(event)
result.stop = createStop(result)
result[targetS] = target && target.nodeType === 3 ? target.parentNode : target
if (isNative) { // we only need basic augmentation on custom events, the rest is too expensive
if (type.indexOf('key') !== -1) {
props = keyProps
result.keyCode = event.keyCode || event.which
} else if (mouseTypeRegex.test(type)) {
props = mouseProps
result.rightClick = event.which === 3 || event.button === 2
result.pos = { x: 0, y: 0 }
if (event.pageX || event.pageY) {
result.clientX = event.pageX
result.clientY = event.pageY
} else if (event.clientX || event.clientY) {
result.clientX = event.clientX + doc.body.scrollLeft + root.scrollLeft
result.clientY = event.clientY + doc.body.scrollTop + root.scrollTop
}
if (overOut.test(type))
result.relatedTarget = event.relatedTarget || event[(type === 'mouseover' ? 'from' : 'to') + 'Element']
} else if (touchTypeRegex.test(type)) {
props = touchProps
} else if (mouseWheelTypeRegex.test(type)) {
props = mouseWheelProps
} else if (textTypeRegex.test(type)) {
props = textProps
} else if (type === 'message') {
props = messageProps
}
copyProps(event, result, props || commonProps)
}
return result
}
}())
// if we're in old IE we can't do onpropertychange on doc or win so we use doc.documentElement for both
, targetElement = function (element, isNative) {
return !W3C_MODEL && !isNative && (element === doc || element === win) ? root : element
}
// we use one of these per listener, of any type
, RegEntry = (function () {
function entry(element, type, handler, original, namespaces) {
var isNative = this.isNative = nativeEvents[type] && element[eventSupport]
this.element = element
this.type = type
this.handler = handler
this.original = original
this.namespaces = namespaces
this.custom = customEvents[type]
this.eventType = W3C_MODEL || isNative ? type : 'propertychange'
this.customType = !W3C_MODEL && !isNative && type
this[targetS] = targetElement(element, isNative)
this[eventSupport] = this[targetS][eventSupport]
}
entry.prototype = {
// given a list of namespaces, is our entry in any of them?
inNamespaces: function (checkNamespaces) {
var i, j
if (!checkNamespaces)
return true
if (!this.namespaces)
return false
for (i = checkNamespaces.length; i--;) {
for (j = this.namespaces.length; j--;) {
if (checkNamespaces[i] === this.namespaces[j])
return true
}
}
return false
}
// match by element, original fn (opt), handler fn (opt)
, matches: function (checkElement, checkOriginal, checkHandler) {
return this.element === checkElement &&
(!checkOriginal || this.original === checkOriginal) &&
(!checkHandler || this.handler === checkHandler)
}
}
return entry
}())
, registry = (function () {
// our map stores arrays by event type, just because it's better than storing
// everything in a single array. uses '$' as a prefix for the keys for safety
var map = {}
// generic functional search of our registry for matching listeners,
// `fn` returns false to break out of the loop
, forAll = function (element, type, original, handler, fn) {
if (!type || type === '*') {
// search the whole registry
for (var t in map) {
if (t.charAt(0) === '$')
forAll(element, t.substr(1), original, handler, fn)
}
} else {
var i = 0, l, list = map['$' + type], all = element === '*'
if (!list)
return
for (l = list.length; i < l; i++) {
if (all || list[i].matches(element, original, handler))
if (!fn(list[i], list, i, type))
return
}
}
}
, has = function (element, type, original) {
// we're not using forAll here simply because it's a bit slower and this
// needs to be fast
var i, list = map['$' + type]
if (list) {
for (i = list.length; i--;) {
if (list[i].matches(element, original, null))
return true
}
}
return false
}
, get = function (element, type, original) {
var entries = []
forAll(element, type, original, null, function (entry) { return entries.push(entry) })
return entries
}
, put = function (entry) {
(map['$' + entry.type] || (map['$' + entry.type] = [])).push(entry)
return entry
}
, del = function (entry) {
forAll(entry.element, entry.type, null, entry.handler, function (entry, list, i) {
list.splice(i, 1)
if (list.length === 0)
delete map['$' + entry.type]
return false
})
}
// dump all entries, used for onunload
, entries = function () {
var t, entries = []
for (t in map) {
if (t.charAt(0) === '$')
entries = entries.concat(map[t])
}
return entries
}
return { has: has, get: get, put: put, del: del, entries: entries }
}())
, selectorEngine = doc[qSA]
? function (s, r) {
return r[qSA](s)
}
: function () {
throw new Error('Bean: No selector engine installed') // eeek
}
, setSelectorEngine = function (e) {
selectorEngine = e
}
// add and remove listeners to DOM elements
, listener = W3C_MODEL ? function (element, type, fn, add) {
element[add ? addEvent : removeEvent](type, fn, false)
} : function (element, type, fn, add, custom) {
if (custom && add && element['_on' + custom] === null)
element['_on' + custom] = 0
element[add ? attachEvent : detachEvent]('on' + type, fn)
}
, nativeHandler = function (element, fn, args) {
var beanDel = fn.__beanDel
, handler = function (event) {
event = fixEvent(event || ((this[ownerDocument] || this.document || this).parentWindow || win).event, true)
if (beanDel) // delegated event, fix the fix
event.currentTarget = beanDel.ft(event[targetS], element)
return fn.apply(element, [event].concat(args))
}
handler.__beanDel = beanDel
return handler
}
, customHandler = function (element, fn, type, condition, args, isNative) {
var beanDel = fn.__beanDel
, handler = function (event) {
var target = beanDel ? beanDel.ft(event[targetS], element) : this // deleated event
if (condition ? condition.apply(target, arguments) : W3C_MODEL ? true : event && event.propertyName === '_on' + type || !event) {
if (event) {
event = fixEvent(event || ((this[ownerDocument] || this.document || this).parentWindow || win).event, isNative)
event.currentTarget = target
}
fn.apply(element, event && (!args || args.length === 0) ? arguments : slice.call(arguments, event ? 0 : 1).concat(args))
}
}
handler.__beanDel = beanDel
return handler
}
, once = function (rm, element, type, fn, originalFn) {
// wrap the handler in a handler that does a remove as well
return function () {
rm(element, type, originalFn)
fn.apply(this, arguments)
}
}
, removeListener = function (element, orgType, handler, namespaces) {
var i, l, entry
, type = (orgType && orgType.replace(nameRegex, ''))
, handlers = registry.get(element, type, handler)
for (i = 0, l = handlers.length; i < l; i++) {
if (handlers[i].inNamespaces(namespaces)) {
if ((entry = handlers[i])[eventSupport])
listener(entry[targetS], entry.eventType, entry.handler, false, entry.type)
// TODO: this is problematic, we have a registry.get() and registry.del() that
// both do registry searches so we waste cycles doing this. Needs to be rolled into
// a single registry.forAll(fn) that removes while finding, but the catch is that
// we'll be splicing the arrays that we're iterating over. Needs extra tests to
// make sure we don't screw it up. @rvagg
registry.del(entry)
}
}
}
, addListener = function (element, orgType, fn, originalFn, args) {
var entry
, type = orgType.replace(nameRegex, '')
, namespaces = orgType.replace(namespaceRegex, '').split('.')
if (registry.has(element, type, fn))
return element // no dupe
if (type === 'unload')
fn = once(removeListener, element, type, fn, originalFn) // self clean-up
if (customEvents[type]) {
if (customEvents[type].condition)
fn = customHandler(element, fn, type, customEvents[type].condition, args, true)
type = customEvents[type].base || type
}
entry = registry.put(new RegEntry(element, type, fn, originalFn, namespaces[0] && namespaces))
entry.handler = entry.isNative ?
nativeHandler(element, entry.handler, args) :
customHandler(element, entry.handler, type, false, args, false)
if (entry[eventSupport])
listener(entry[targetS], entry.eventType, entry.handler, true, entry.customType)
}
, del = function (selector, fn, $) {
//TODO: findTarget (therefore $) is called twice, once for match and once for
// setting e.currentTarget, fix this so it's only needed once
var findTarget = function (target, root) {
var i, array = typeof selector === 'string' ? $(selector, root) : selector
for (; target && target !== root; target = target.parentNode) {
for (i = array.length; i--;) {
if (array[i] === target)
return target
}
}
}
, handler = function (e) {
var match = findTarget(e[targetS], this)
match && fn.apply(match, arguments)
}
handler.__beanDel = {
ft: findTarget // attach it here for customEvents to use too
, selector: selector
, $: $
}
return handler
}
, remove = function (element, typeSpec, fn) {
var k, type, namespaces, i
, rm = removeListener
, isString = typeSpec && typeof typeSpec === 'string'
if (isString && typeSpec.indexOf(' ') > 0) {
// remove(el, 't1 t2 t3', fn) or remove(el, 't1 t2 t3')
typeSpec = typeSpec.split(' ')
for (i = typeSpec.length; i--;)
remove(element, typeSpec[i], fn)
return element
}
type = isString && typeSpec.replace(nameRegex, '')
if (type && customEvents[type])
type = customEvents[type].type
if (!typeSpec || isString) {
// remove(el) or remove(el, t1.ns) or remove(el, .ns) or remove(el, .ns1.ns2.ns3)
if (namespaces = isString && typeSpec.replace(namespaceRegex, ''))
namespaces = namespaces.split('.')
rm(element, type, fn, namespaces)
} else if (typeof typeSpec === 'function') {
// remove(el, fn)
rm(element, null, typeSpec)
} else {
// remove(el, { t1: fn1, t2, fn2 })
for (k in typeSpec) {
if (typeSpec.hasOwnProperty(k))
remove(element, k, typeSpec[k])
}
}
return element
}
// 5th argument, $=selector engine, is deprecated and will be removed
, add = function (element, events, fn, delfn, $) {
var type, types, i, args
, originalFn = fn
, isDel = fn && typeof fn === 'string'
if (events && !fn && typeof events === 'object') {
for (type in events) {
if (events.hasOwnProperty(type))
add.apply(this, [ element, type, events[type] ])
}
} else {
args = arguments.length > 3 ? slice.call(arguments, 3) : []
types = (isDel ? fn : events).split(' ')
isDel && (fn = del(events, (originalFn = delfn), $ || selectorEngine)) && (args = slice.call(args, 1))
// special case for one()
this === ONE && (fn = once(remove, element, events, fn, originalFn))
for (i = types.length; i--;) addListener(element, types[i], fn, originalFn, args)
}
return element
}
, one = function () {
return add.apply(ONE, arguments)
}
, fireListener = W3C_MODEL ? function (isNative, type, element) {
var evt = doc.createEvent(isNative ? 'HTMLEvents' : 'UIEvents')
evt[isNative ? 'initEvent' : 'initUIEvent'](type, true, true, win, 1)
element.dispatchEvent(evt)
} : function (isNative, type, element) {
element = targetElement(element, isNative)
// if not-native then we're using onpropertychange so we just increment a custom property
isNative ? element.fireEvent('on' + type, doc.createEventObject()) : element['_on' + type]++
}
, fire = function (element, type, args) {
var i, j, l, names, handlers
, types = type.split(' ')
for (i = types.length; i--;) {
type = types[i].replace(nameRegex, '')
if (names = types[i].replace(namespaceRegex, ''))
names = names.split('.')
if (!names && !args && element[eventSupport]) {
fireListener(nativeEvents[type], type, element)
} else {
// non-native event, either because of a namespace, arguments or a non DOM element
// iterate over all listeners and manually 'fire'
handlers = registry.get(element, type)
args = [false].concat(args)
for (j = 0, l = handlers.length; j < l; j++) {
if (handlers[j].inNamespaces(names))
handlers[j].handler.apply(element, args)
}
}
}
return element
}
, clone = function (element, from, type) {
var i = 0
, handlers = registry.get(from, type)
, l = handlers.length
, args, beanDel
for (;i < l; i++) {
if (handlers[i].original) {
beanDel = handlers[i].handler.__beanDel
if (beanDel) {
args = [ element, beanDel.selector, handlers[i].type, handlers[i].original, beanDel.$]
} else
args = [ element, handlers[i].type, handlers[i].original ]
add.apply(null, args)
}
}
return element
}
, bean = {
add: add
, one: one
, remove: remove
, clone: clone
, fire: fire
, setSelectorEngine: setSelectorEngine
, noConflict: function () {
context[name] = old
return this
}
}
if (win[attachEvent]) {
// for IE, clean up on unload to avoid leaks
var cleanup = function () {
var i, entries = registry.entries()
for (i in entries) {
if (entries[i].type && entries[i].type !== 'unload')
remove(entries[i].element, entries[i].type)
}
win[detachEvent]('onunload', cleanup)
win.CollectGarbage && win.CollectGarbage()
}
win[attachEvent]('onunload', cleanup)
}
return bean
})
/*!
* Reqwest! A general purpose XHR connection manager
* (c) Dustin Diaz 2012
* https://github.com/ded/reqwest
* license MIT
*/
!function (name, definition) {
if (typeof module != 'undefined') module.exports = definition()
else if (typeof define == 'function' && define.amd) define(definition)
else this[name] = definition()
}('reqwest', function () {
var win = window
, doc = document
, twoHundo = /^20\d$/
, byTag = 'getElementsByTagName'
, readyState = 'readyState'
, contentType = 'Content-Type'
, requestedWith = 'X-Requested-With'
, head = doc[byTag]('head')[0]
, uniqid = 0
, callbackPrefix = 'reqwest_' + (+new Date())
, lastValue // data stored by the most recent JSONP callback
, xmlHttpRequest = 'XMLHttpRequest'
var isArray = typeof Array.isArray == 'function' ? Array.isArray : function (a) {
return a instanceof Array
}
var defaultHeaders = {
contentType: 'application/x-www-form-urlencoded'
, requestedWith: xmlHttpRequest
, accept: {
'*': 'text/javascript, text/html, application/xml, text/xml, */*'
, xml: 'application/xml, text/xml'
, html: 'text/html'
, text: 'text/plain'
, json: 'application/json, text/javascript'
, js: 'application/javascript, text/javascript'
}
}
var xhr = win[xmlHttpRequest] ?
function () {
return new XMLHttpRequest()
} :
function () {
return new ActiveXObject('Microsoft.XMLHTTP')
}
function handleReadyState(o, success, error) {
return function () {
if (o && o[readyState] == 4) {
if (twoHundo.test(o.status)) {
success(o)
} else {
error(o)
}
}
}
}
function setHeaders(http, o) {
var headers = o.headers || {}, h
headers.Accept = headers.Accept || defaultHeaders.accept[o.type] || defaultHeaders.accept['*']
// breaks cross-origin requests with legacy browsers
if (!o.crossOrigin && !headers[requestedWith]) headers[requestedWith] = defaultHeaders.requestedWith
if (!headers[contentType]) headers[contentType] = o.contentType || defaultHeaders.contentType
for (h in headers) {
headers.hasOwnProperty(h) && http.setRequestHeader(h, headers[h])
}
}
function setCredentials(http, o) {
if (typeof o.withCredentials !== "undefined" && typeof http.withCredentials !== "undefined") {
http.withCredentials = !!o.withCredentials
}
}
function generalCallback(data) {
lastValue = data
}
function urlappend(url, s) {
return url + (/\?/.test(url) ? '&' : '?') + s
}
function handleJsonp(o, fn, err, url) {
var reqId = uniqid++
, cbkey = o.jsonpCallback || 'callback' // the 'callback' key
, cbval = o.jsonpCallbackName || reqwest.getcallbackPrefix(reqId)
// , cbval = o.jsonpCallbackName || ('reqwest_' + reqId) // the 'callback' value
, cbreg = new RegExp('((^|\\?|&)' + cbkey + ')=([^&]+)')
, match = url.match(cbreg)
, script = doc.createElement('script')
, loaded = 0
, isIE10 = navigator.userAgent.indexOf('MSIE 10.0') !== -1
if (match) {
if (match[3] === '?') {
url = url.replace(cbreg, '$1=' + cbval) // wildcard callback func name
} else {
cbval = match[3] // provided callback func name
}
} else {
url = urlappend(url, cbkey + '=' + cbval) // no callback details, add 'em
}
win[cbval] = generalCallback
script.type = 'text/javascript'
script.src = url
script.async = true
if (typeof script.onreadystatechange !== 'undefined' && !isIE10) {
// need this for IE due to out-of-order onreadystatechange(), binding script
// execution to an event listener gives us control over when the script
// is executed. See http://jaubourg.net/2010/07/loading-script-as-onclick-handler-of.html
//
// if this hack is used in IE10 jsonp callback are never called
script.event = 'onclick'
script.htmlFor = script.id = '_reqwest_' + reqId
}
script.onload = script.onreadystatechange = function () {
if ((script[readyState] && script[readyState] !== 'complete' && script[readyState] !== 'loaded') || loaded) {
return false;
}
script.onload = script.onreadystatechange = null
script.onclick && script.onclick()
// Call the user callback with the last value stored and clean up values and scripts.
o.success && o.success(lastValue)
lastValue = undefined
head.removeChild(script)
loaded = 1
}
// Add the script to the DOM head
head.appendChild(script)
}
function getRequest(o, fn, err) {
var method = (o.method || 'GET').toUpperCase()
, url = typeof o === 'string' ? o : o.url
// convert non-string objects to query-string form unless o.processData is false
, data = (o.processData !== false && o.data && typeof o.data !== 'string')
? reqwest.toQueryString(o.data)
: (o.data || null)
, http
// if we're working on a GET request and we have data then we should append
// query string to end of URL and not post data
if ((o.type == 'jsonp' || method == 'GET') && data) {
url = urlappend(url, data)
data = null
}
if (o.type == 'jsonp') return handleJsonp(o, fn, err, url)
http = xhr()
http.open(method, url, true)
setHeaders(http, o)
setCredentials(http, o)
http.onreadystatechange = handleReadyState(http, fn, err)
o.before && o.before(http)
http.send(data)
return http
}
function Reqwest(o, fn) {
this.o = o
this.fn = fn
init.apply(this, arguments)
}
function setType(url) {
var m = url.match(/\.(json|jsonp|html|xml)(\?|$)/)
return m ? m[1] : 'js'
}
function init(o, fn) {
this.url = typeof o == 'string' ? o : o.url
this.timeout = null
// whether request has been fulfilled for purpose
// of tracking the Promises
this._fulfilled = false
// success handlers
this._fulfillmentHandlers = []
// error handlers
this._errorHandlers = []
// complete (both success and fail) handlers
this._completeHandlers = []
this._erred = false
this._responseArgs = {}
var self = this
, type = o.type || setType(this.url)
fn = fn || function () {}
if (o.timeout) {
this.timeout = setTimeout(function () {
self.abort()
}, o.timeout)
}
if (o.success) {
this._fulfillmentHandlers.push(function () {
o.success.apply(o, arguments)
})
}
if (o.error) {
this._errorHandlers.push(function () {
o.error.apply(o, arguments)
})
}
if (o.complete) {
this._completeHandlers.push(function () {
o.complete.apply(o, arguments)
})
}
function complete(resp) {
o.timeout && clearTimeout(self.timeout)
self.timeout = null
while (self._completeHandlers.length > 0) {
self._completeHandlers.shift()(resp)
}
}
function success(resp) {
var r = resp.responseText
if (r) {
switch (type) {
case 'json':
try {
resp = win.JSON ? win.JSON.parse(r) : eval('(' + r + ')')
} catch (err) {
return error(resp, 'Could not parse JSON in response', err)
}
break;
case 'js':
resp = eval(r)
break;
case 'html':
resp = r
break;
case 'xml':
resp = resp.responseXML;
break;
}
}
self._responseArgs.resp = resp
self._fulfilled = true
fn(resp)
while (self._fulfillmentHandlers.length > 0) {
self._fulfillmentHandlers.shift()(resp)
}
complete(resp)
}
function error(resp, msg, t) {
self._responseArgs.resp = resp
self._responseArgs.msg = msg
self._responseArgs.t = t
self._erred = true
while (self._errorHandlers.length > 0) {
self._errorHandlers.shift()(resp, msg, t)
}
complete(resp)
}
this.request = getRequest(o, success, error)
}
Reqwest.prototype = {
abort: function () {
this.request.abort()
}
, retry: function () {
init.call(this, this.o, this.fn)
}
/**
* Small deviation from the Promises A CommonJs specification
* http://wiki.commonjs.org/wiki/Promises/A
*/
/**
* `then` will execute upon successful requests
*/
, then: function (success, fail) {
if (this._fulfilled) {
success(this._responseArgs.resp)
} else if (this._erred) {
fail(this._responseArgs.resp, this._responseArgs.msg, this._responseArgs.t)
} else {
this._fulfillmentHandlers.push(success)
this._errorHandlers.push(fail)
}
return this
}
/**
* `always` will execute whether the request succeeds or fails
*/
, always: function (fn) {
if (this._fulfilled || this._erred) {
fn(this._responseArgs.resp)
} else {
this._completeHandlers.push(fn)
}
return this
}
/**
* `fail` will execute when the request fails
*/
, fail: function (fn) {
if (this._erred) {
fn(this._responseArgs.resp, this._responseArgs.msg, this._responseArgs.t)
} else {
this._errorHandlers.push(fn)
}
return this
}
}
function reqwest(o, fn) {
return new Reqwest(o, fn)
}
// normalize newline variants according to spec -> CRLF
function normalize(s) {
return s ? s.replace(/\r?\n/g, '\r\n') : ''
}
function serial(el, cb) {
var n = el.name
, t = el.tagName.toLowerCase()
, optCb = function (o) {
// IE gives value="" even where there is no value attribute
// 'specified' ref: http://www.w3.org/TR/DOM-Level-3-Core/core.html#ID-862529273
if (o && !o.disabled)
cb(n, normalize(o.attributes.value && o.attributes.value.specified ? o.value : o.text))
}
// don't serialize elements that are disabled or without a name
if (el.disabled || !n) return;
switch (t) {
case 'input':
if (!/reset|button|image|file/i.test(el.type)) {
var ch = /checkbox/i.test(el.type)
, ra = /radio/i.test(el.type)
, val = el.value;
// WebKit gives us "" instead of "on" if a checkbox has no value, so correct it here
(!(ch || ra) || el.checked) && cb(n, normalize(ch && val === '' ? 'on' : val))
}
break;
case 'textarea':
cb(n, normalize(el.value))
break;
case 'select':
if (el.type.toLowerCase() === 'select-one') {
optCb(el.selectedIndex >= 0 ? el.options[el.selectedIndex] : null)
} else {
for (var i = 0; el.length && i < el.length; i++) {
el.options[i].selected && optCb(el.options[i])
}
}
break;
}
}
// collect up all form elements found from the passed argument elements all
// the way down to child elements; pass a '<form>' or form fields.
// called with 'this'=callback to use for serial() on each element
function eachFormElement() {
var cb = this
, e, i, j
, serializeSubtags = function (e, tags) {
for (var i = 0; i < tags.length; i++) {
var fa = e[byTag](tags[i])
for (j = 0; j < fa.length; j++) serial(fa[j], cb)
}
}
for (i = 0; i < arguments.length; i++) {
e = arguments[i]
if (/input|select|textarea/i.test(e.tagName)) serial(e, cb)
serializeSubtags(e, [ 'input', 'select', 'textarea' ])
}
}
// standard query string style serialization
function serializeQueryString() {
return reqwest.toQueryString(reqwest.serializeArray.apply(null, arguments))
}
// { 'name': 'value', ... } style serialization
function serializeHash() {
var hash = {}
eachFormElement.apply(function (name, value) {
if (name in hash) {
hash[name] && !isArray(hash[name]) && (hash[name] = [hash[name]])
hash[name].push(value)
} else hash[name] = value
}, arguments)
return hash
}
// [ { name: 'name', value: 'value' }, ... ] style serialization
reqwest.serializeArray = function () {
var arr = []
eachFormElement.apply(function (name, value) {
arr.push({name: name, value: value})
}, arguments)
return arr
}
reqwest.serialize = function () {
if (arguments.length === 0) return ''
var opt, fn
, args = Array.prototype.slice.call(arguments, 0)
opt = args.pop()
opt && opt.nodeType && args.push(opt) && (opt = null)
opt && (opt = opt.type)
if (opt == 'map') fn = serializeHash
else if (opt == 'array') fn = reqwest.serializeArray
else fn = serializeQueryString
return fn.apply(null, args)
}
reqwest.toQueryString = function (o) {
var qs = '', i
, enc = encodeURIComponent
, push = function (k, v) {
qs += enc(k) + '=' + enc(v) + '&'
}
if (isArray(o)) {
for (i = 0; o && i < o.length; i++) push(o[i].name, o[i].value)
} else {
for (var k in o) {
if (!Object.hasOwnProperty.call(o, k)) continue;
var v = o[k]
if (isArray(v)) {
for (i = 0; i < v.length; i++) push(k, v[i])
} else push(k, o[k])
}
}
// spaces should be + according to spec
return qs.replace(/&$/, '').replace(/%20/g, '+')
}
reqwest.getcallbackPrefix = function (reqId) {
return callbackPrefix
}
// jQuery and Zepto compatibility, differences can be remapped here so you can call
// .ajax.compat(options, callback)
reqwest.compat = function (o, fn) {
if (o) {
o.type && (o.method = o.type) && delete o.type
o.dataType && (o.type = o.dataType)
o.jsonpCallback && (o.jsonpCallbackName = o.jsonpCallback) && delete o.jsonpCallback
o.jsonp && (o.jsonpCallback = o.jsonp)
}
return new Reqwest(o, fn)
}
return reqwest
});
}()
/*
* CommonJS-compatible mustache.js module
*
* See http://github.com/janl/mustache.js for more info.
*/
/*
mustache.js — Logic-less templates in JavaScript
See http://mustache.github.com/ for more info.
*/
var Mustache = function () {
var _toString = Object.prototype.toString;
Array.isArray = Array.isArray || function (obj) {
return _toString.call(obj) == "[object Array]";
}
var _trim = String.prototype.trim, trim;
if (_trim) {
trim = function (text) {
return text == null ? "" : _trim.call(text);
}
} else {
var trimLeft, trimRight;
// IE doesn't match non-breaking spaces with \s.
if ((/\S/).test("\xA0")) {
trimLeft = /^[\s\xA0]+/;
trimRight = /[\s\xA0]+$/;
} else {
trimLeft = /^\s+/;
trimRight = /\s+$/;
}
trim = function (text) {
return text == null ? "" :
text.toString().replace(trimLeft, "").replace(trimRight, "");
}
}
var escapeMap = {
"&": "&amp;",
"<": "&lt;",
">": "&gt;",
'"': '&quot;',
"'": '&#39;'
};
function escapeHTML(string) {
return String(string).replace(/&(?!\w+;)|[<>"']/g, function (s) {
return escapeMap[s] || s;
});
}
var regexCache = {};
var Renderer = function () {};
Renderer.prototype = {
otag: "{{",
ctag: "}}",
pragmas: {},
buffer: [],
pragmas_implemented: {
"IMPLICIT-ITERATOR": true
},
context: {},
render: function (template, context, partials, in_recursion) {
// reset buffer & set context
if (!in_recursion) {
this.context = context;
this.buffer = []; // TODO: make this non-lazy
}
// fail fast
if (!this.includes("", template)) {
if (in_recursion) {
return template;
} else {
this.send(template);
return;
}
}
// get the pragmas together
template = this.render_pragmas(template);
// render the template
var html = this.render_section(template, context, partials);
// render_section did not find any sections, we still need to render the tags
if (html === false) {
html = this.render_tags(template, context, partials, in_recursion);
}
if (in_recursion) {
return html;
} else {
this.sendLines(html);
}
},
/*
Sends parsed lines
*/
send: function (line) {
if (line !== "") {
this.buffer.push(line);
}
},
sendLines: function (text) {
if (text) {
var lines = text.split("\n");
for (var i = 0; i < lines.length; i++) {
this.send(lines[i]);
}
}
},
/*
Looks for %PRAGMAS
*/
render_pragmas: function (template) {
// no pragmas
if (!this.includes("%", template)) {
return template;
}
var that = this;
var regex = this.getCachedRegex("render_pragmas", function (otag, ctag) {
return new RegExp(otag + "%([\\w-]+) ?([\\w]+=[\\w]+)?" + ctag, "g");
});
return template.replace(regex, function (match, pragma, options) {
if (!that.pragmas_implemented[pragma]) {
throw({message:
"This implementation of mustache doesn't understand the '" +
pragma + "' pragma"});
}
that.pragmas[pragma] = {};
if (options) {
var opts = options.split("=");
that.pragmas[pragma][opts[0]] = opts[1];
}
return "";
// ignore unknown pragmas silently
});
},
/*
Tries to find a partial in the curent scope and render it
*/
render_partial: function (name, context, partials) {
name = trim(name);
if (!partials || partials[name] === undefined) {
throw({message: "unknown_partial '" + name + "'"});
}
if (!context || typeof context[name] != "object") {
return this.render(partials[name], context, partials, true);
}
return this.render(partials[name], context[name], partials, true);
},
/*
Renders inverted (^) and normal (#) sections
*/
render_section: function (template, context, partials) {
if (!this.includes("#", template) && !this.includes("^", template)) {
// did not render anything, there were no sections
return false;
}
var that = this;
var regex = this.getCachedRegex("render_section", function (otag, ctag) {
// This regex matches _the first_ section ({{#foo}}{{/foo}}), and captures the remainder
return new RegExp(
"^([\\s\\S]*?)" + // all the crap at the beginning that is not {{*}} ($1)
otag + // {{
"(\\^|\\#)\\s*(.+)\\s*" + // #foo (# == $2, foo == $3)
ctag + // }}
"\n*([\\s\\S]*?)" + // between the tag ($2). leading newlines are dropped
otag + // {{
"\\/\\s*\\3\\s*" + // /foo (backreference to the opening tag).
ctag + // }}
"\\s*([\\s\\S]*)$", // everything else in the string ($4). leading whitespace is dropped.
"g");
});
// for each {{#foo}}{{/foo}} section do...
return template.replace(regex, function (match, before, type, name, content, after) {
// before contains only tags, no sections
var renderedBefore = before ? that.render_tags(before, context, partials, true) : "",
// after may contain both sections and tags, so use full rendering function
renderedAfter = after ? that.render(after, context, partials, true) : "",
// will be computed below
renderedContent,
value = that.find(name, context);
if (type === "^") { // inverted section
if (!value || Array.isArray(value) && value.length === 0) {
// false or empty list, render it
renderedContent = that.render(content, context, partials, true);
} else {
renderedContent = "";
}
} else if (type === "#") { // normal section
if (Array.isArray(value)) { // Enumerable, Let's loop!
renderedContent = that.map(value, function (row) {
return that.render(content, that.create_context(row), partials, true);
}).join("");
} else if (that.is_object(value)) { // Object, Use it as subcontext!
renderedContent = that.render(content, that.create_context(value),
partials, true);
} else if (typeof value == "function") {
// higher order section
renderedContent = value.call(context, content, function (text) {
return that.render(text, context, partials, true);
});
} else if (value) { // boolean section
renderedContent = that.render(content, context, partials, true);
} else {
renderedContent = "";
}
}
return renderedBefore + renderedContent + renderedAfter;
});
},
/*
Replace {{foo}} and friends with values from our view
*/
render_tags: function (template, context, partials, in_recursion) {
// tit for tat
var that = this;
var new_regex = function () {
return that.getCachedRegex("render_tags", function (otag, ctag) {
return new RegExp(otag + "(=|!|>|&|\\{|%)?([^#\\^]+?)\\1?" + ctag + "+", "g");
});
};
var regex = new_regex();
var tag_replace_callback = function (match, operator, name) {
switch(operator) {
case "!": // ignore comments
return "";
case "=": // set new delimiters, rebuild the replace regexp
that.set_delimiters(name);
regex = new_regex();
return "";
case ">": // render partial
return that.render_partial(name, context, partials);
case "{": // the triple mustache is unescaped
case "&": // & operator is an alternative unescape method
return that.find(name, context);
default: // escape the value
return escapeHTML(that.find(name, context));
}
};
var lines = template.split("\n");
for(var i = 0; i < lines.length; i++) {
lines[i] = lines[i].replace(regex, tag_replace_callback, this);
if (!in_recursion) {
this.send(lines[i]);
}
}
if (in_recursion) {
return lines.join("\n");
}
},
set_delimiters: function (delimiters) {
var dels = delimiters.split(" ");
this.otag = this.escape_regex(dels[0]);
this.ctag = this.escape_regex(dels[1]);
},
escape_regex: function (text) {
// thank you Simon Willison
if (!arguments.callee.sRE) {
var specials = [
'/', '.', '*', '+', '?', '|',
'(', ')', '[', ']', '{', '}', '\\'
];
arguments.callee.sRE = new RegExp(
'(\\' + specials.join('|\\') + ')', 'g'
);
}
return text.replace(arguments.callee.sRE, '\\$1');
},
/*
find `name` in current `context`. That is find me a value
from the view object
*/
find: function (name, context) {
name = trim(name);
// Checks whether a value is thruthy or false or 0
function is_kinda_truthy(bool) {
return bool === false || bool === 0 || bool;
}
var value;
// check for dot notation eg. foo.bar
if (name.match(/([a-z_]+)\./ig)) {
var childValue = this.walk_context(name, context);
if (is_kinda_truthy(childValue)) {
value = childValue;
}
} else {
if (is_kinda_truthy(context[name])) {
value = context[name];
} else if (is_kinda_truthy(this.context[name])) {
value = this.context[name];
}
}
if (typeof value == "function") {
return value.apply(context);
}
if (value !== undefined) {
return value;
}
// silently ignore unkown variables
return "";
},
walk_context: function (name, context) {
var path = name.split('.');
// if the var doesn't exist in current context, check the top level context
var value_context = (context[path[0]] != undefined) ? context : this.context;
var value = value_context[path.shift()];
while (value != undefined && path.length > 0) {
value_context = value;
value = value[path.shift()];
}
// if the value is a function, call it, binding the correct context
if (typeof value == "function") {
return value.apply(value_context);
}
return value;
},
// Utility methods
/* includes tag */
includes: function (needle, haystack) {
return haystack.indexOf(this.otag + needle) != -1;
},
// by @langalex, support for arrays of strings
create_context: function (_context) {
if (this.is_object(_context)) {
return _context;
} else {
var iterator = ".";
if (this.pragmas["IMPLICIT-ITERATOR"]) {
iterator = this.pragmas["IMPLICIT-ITERATOR"].iterator;
}
var ctx = {};
ctx[iterator] = _context;
return ctx;
}
},
is_object: function (a) {
return a && typeof a == "object";
},
/*
Why, why, why? Because IE. Cry, cry cry.
*/
map: function (array, fn) {
if (typeof array.map == "function") {
return array.map(fn);
} else {
var r = [];
var l = array.length;
for(var i = 0; i < l; i++) {
r.push(fn(array[i]));
}
return r;
}
},
getCachedRegex: function (name, generator) {
var byOtag = regexCache[this.otag];
if (!byOtag) {
byOtag = regexCache[this.otag] = {};
}
var byCtag = byOtag[this.ctag];
if (!byCtag) {
byCtag = byOtag[this.ctag] = {};
}
var regex = byCtag[name];
if (!regex) {
regex = byCtag[name] = generator(this.otag, this.ctag);
}
return regex;
}
};
return({
name: "mustache.js",
version: "0.4.0",
/*
Turns a template and view into HTML
*/
to_html: function (template, view, partials, send_fun) {
var renderer = new Renderer();
if (send_fun) {
renderer.send = send_fun;
}
renderer.render(template, view || {}, partials);
if (!send_fun) {
return renderer.buffer.join("\n");
}
}
});
}();
if (typeof module !== 'undefined' && module.exports) {
exports.name = Mustache.name;
exports.version = Mustache.version;
exports.to_html = function() {
return Mustache.to_html.apply(this, arguments);
};
}
/*!
* Modest Maps JS v3.3.5
* http://modestmaps.com/
*
* Copyright (c) 2011 Stamen Design, All Rights Reserved.
*
* Open source under the BSD License.
* http://creativecommons.org/licenses/BSD/
*
* Versioned using Semantic Versioning (v.major.minor.patch)
* See CHANGELOG and http://semver.org/ for more details.
*
*/
var previousMM = MM;
// namespacing for backwards-compatibility
if (!com) {
var com = {};
if (!com.modestmaps) com.modestmaps = {};
}
var MM = com.modestmaps = {
noConflict: function() {
MM = previousMM;
return this;
}
};
(function(MM) {
// Make inheritance bearable: clone one level of properties
MM.extend = function(child, parent) {
for (var property in parent.prototype) {
if (typeof child.prototype[property] == "undefined") {
child.prototype[property] = parent.prototype[property];
}
}
return child;
};
MM.getFrame = function () {
// native animation frames
// http://webstuff.nfshost.com/anim-timing/Overview.html
// http://dev.chromium.org/developers/design-documents/requestanimationframe-implementation
// http://paulirish.com/2011/requestanimationframe-for-smart-animating/
// can't apply these directly to MM because Chrome needs window
// to own webkitRequestAnimationFrame (for example)
// perhaps we should namespace an alias onto window instead?
// e.g. window.mmRequestAnimationFrame?
return function(callback) {
(window.requestAnimationFrame ||
window.webkitRequestAnimationFrame ||
window.mozRequestAnimationFrame ||
window.oRequestAnimationFrame ||
window.msRequestAnimationFrame ||
function (callback) {
window.setTimeout(function () {
callback(+new Date());
}, 10);
})(callback);
};
}();
// Inspired by LeafletJS
MM.transformProperty = (function(props) {
if (!this.document) return; // node.js safety
var style = document.documentElement.style;
for (var i = 0; i < props.length; i++) {
if (props[i] in style) {
return props[i];
}
}
return false;
})(['transform', 'WebkitTransform', 'OTransform', 'MozTransform', 'msTransform']);
MM.matrixString = function(point) {
// Make the result of point.scale * point.width a whole number.
if (point.scale * point.width % 1) {
point.scale += (1 - point.scale * point.width % 1) / point.width;
}
var scale = point.scale || 1;
if (MM._browser.webkit3d) {
return 'translate3d(' +
point.x.toFixed(0) + 'px,' + point.y.toFixed(0) + 'px, 0px)' +
'scale3d(' + scale + ',' + scale + ', 1)';
} else {
return 'translate(' +
point.x.toFixed(6) + 'px,' + point.y.toFixed(6) + 'px)' +
'scale(' + scale + ',' + scale + ')';
}
};
MM._browser = (function(window) {
return {
webkit: ('WebKitCSSMatrix' in window),
webkit3d: ('WebKitCSSMatrix' in window) && ('m11' in new WebKitCSSMatrix())
};
})(this); // use this for node.js global
MM.moveElement = function(el, point) {
if (MM.transformProperty) {
// Optimize for identity transforms, where you don't actually
// need to change this element's string. Browsers can optimize for
// the .style.left case but not for this CSS case.
if (!point.scale) point.scale = 1;
if (!point.width) point.width = 0;
if (!point.height) point.height = 0;
var ms = MM.matrixString(point);
if (el[MM.transformProperty] !== ms) {
el.style[MM.transformProperty] =
el[MM.transformProperty] = ms;
}
} else {
el.style.left = point.x + 'px';
el.style.top = point.y + 'px';
// Don't set width unless asked to: this is performance-intensive
// and not always necessary
if (point.width && point.height && point.scale) {
el.style.width = Math.ceil(point.width * point.scale) + 'px';
el.style.height = Math.ceil(point.height * point.scale) + 'px';
}
}
};
// Events
// Cancel an event: prevent it from bubbling
MM.cancelEvent = function(e) {
// there's more than one way to skin this cat
e.cancelBubble = true;
e.cancel = true;
e.returnValue = false;
if (e.stopPropagation) { e.stopPropagation(); }
if (e.preventDefault) { e.preventDefault(); }
return false;
};
MM.coerceLayer = function(layerish) {
if (typeof layerish == 'string') {
// Probably a template string
return new MM.Layer(new MM.TemplatedLayer(layerish));
} else if ('draw' in layerish && typeof layerish.draw == 'function') {
// good enough, though we should probably enforce .parent and .destroy() too
return layerish;
} else {
// probably a MapProvider
return new MM.Layer(layerish);
}
};
// see http://ejohn.org/apps/jselect/event.html for the originals
MM.addEvent = function(obj, type, fn) {
if (obj.addEventListener) {
obj.addEventListener(type, fn, false);
if (type == 'mousewheel') {
obj.addEventListener('DOMMouseScroll', fn, false);
}
} else if (obj.attachEvent) {
obj['e'+type+fn] = fn;
obj[type+fn] = function(){ obj['e'+type+fn](window.event); };
obj.attachEvent('on'+type, obj[type+fn]);
}
};
MM.removeEvent = function( obj, type, fn ) {
if (obj.removeEventListener) {
obj.removeEventListener(type, fn, false);
if (type == 'mousewheel') {
obj.removeEventListener('DOMMouseScroll', fn, false);
}
} else if (obj.detachEvent) {
obj.detachEvent('on'+type, obj[type+fn]);
obj[type+fn] = null;
}
};
// Cross-browser function to get current element style property
MM.getStyle = function(el,styleProp) {
if (el.currentStyle)
return el.currentStyle[styleProp];
else if (window.getComputedStyle)
return document.defaultView.getComputedStyle(el,null).getPropertyValue(styleProp);
};
// Point
MM.Point = function(x, y) {
this.x = parseFloat(x);
this.y = parseFloat(y);
};
MM.Point.prototype = {
x: 0,
y: 0,
toString: function() {
return "(" + this.x.toFixed(3) + ", " + this.y.toFixed(3) + ")";
},
copy: function() {
return new MM.Point(this.x, this.y);
}
};
// Get the euclidean distance between two points
MM.Point.distance = function(p1, p2) {
return Math.sqrt(
Math.pow(p2.x - p1.x, 2) +
Math.pow(p2.y - p1.y, 2));
};
// Get a point between two other points, biased by `t`.
MM.Point.interpolate = function(p1, p2, t) {
return new MM.Point(
p1.x + (p2.x - p1.x) * t,
p1.y + (p2.y - p1.y) * t);
};
// Coordinate
// ----------
// An object representing a tile position, at as specified zoom level.
// This is not necessarily a precise tile - `row`, `column`, and
// `zoom` can be floating-point numbers, and the `container()` function
// can be used to find the actual tile that contains the point.
MM.Coordinate = function(row, column, zoom) {
this.row = row;
this.column = column;
this.zoom = zoom;
};
MM.Coordinate.prototype = {
row: 0,
column: 0,
zoom: 0,
toString: function() {
return "(" + this.row.toFixed(3) +
", " + this.column.toFixed(3) +
" @" + this.zoom.toFixed(3) + ")";
},
// Quickly generate a string representation of this coordinate to
// index it in hashes.
toKey: function() {
// We've tried to use efficient hash functions here before but we took
// them out. Contributions welcome but watch out for collisions when the
// row or column are negative and check thoroughly (exhaustively) before
// committing.
return this.zoom + ',' + this.row + ',' + this.column;
},
// Clone this object.
copy: function() {
return new MM.Coordinate(this.row, this.column, this.zoom);
},
// Get the actual, rounded-number tile that contains this point.
container: function() {
// using floor here (not parseInt, ~~) because we want -0.56 --> -1
return new MM.Coordinate(Math.floor(this.row),
Math.floor(this.column),
Math.floor(this.zoom));
},
// Recalculate this Coordinate at a different zoom level and return the
// new object.
zoomTo: function(destination) {
var power = Math.pow(2, destination - this.zoom);
return new MM.Coordinate(this.row * power,
this.column * power,
destination);
},
// Recalculate this Coordinate at a different relative zoom level and return the
// new object.
zoomBy: function(distance) {
var power = Math.pow(2, distance);
return new MM.Coordinate(this.row * power,
this.column * power,
this.zoom + distance);
},
// Move this coordinate up by `dist` coordinates
up: function(dist) {
if (dist === undefined) dist = 1;
return new MM.Coordinate(this.row - dist, this.column, this.zoom);
},
// Move this coordinate right by `dist` coordinates
right: function(dist) {
if (dist === undefined) dist = 1;
return new MM.Coordinate(this.row, this.column + dist, this.zoom);
},
// Move this coordinate down by `dist` coordinates
down: function(dist) {
if (dist === undefined) dist = 1;
return new MM.Coordinate(this.row + dist, this.column, this.zoom);
},
// Move this coordinate left by `dist` coordinates
left: function(dist) {
if (dist === undefined) dist = 1;
return new MM.Coordinate(this.row, this.column - dist, this.zoom);
}
};
// Location
// --------
MM.Location = function(lat, lon) {
this.lat = parseFloat(lat);
this.lon = parseFloat(lon);
};
MM.Location.prototype = {
lat: 0,
lon: 0,
toString: function() {
return "(" + this.lat.toFixed(3) + ", " + this.lon.toFixed(3) + ")";
},
copy: function() {
return new MM.Location(this.lat, this.lon);
}
};
// returns approximate distance between start and end locations
//
// default unit is meters
//
// you can specify different units by optionally providing the
// earth's radius in the units you desire
//
// Default is 6,378,000 metres, suggested values are:
//
// * 3963.1 statute miles
// * 3443.9 nautical miles
// * 6378 km
//
// see [Formula and code for calculating distance based on two lat/lon locations](http://jan.ucc.nau.edu/~cvm/latlon_formula.html)
MM.Location.distance = function(l1, l2, r) {
if (!r) {
// default to meters
r = 6378000;
}
var deg2rad = Math.PI / 180.0,
a1 = l1.lat * deg2rad,
b1 = l1.lon * deg2rad,
a2 = l2.lat * deg2rad,
b2 = l2.lon * deg2rad,
c = Math.cos(a1) * Math.cos(b1) * Math.cos(a2) * Math.cos(b2),
d = Math.cos(a1) * Math.sin(b1) * Math.cos(a2) * Math.sin(b2),
e = Math.sin(a1) * Math.sin(a2);
return Math.acos(c + d + e) * r;
};
// Interpolates along a great circle, f between 0 and 1
//
// * FIXME: could be heavily optimized (lots of trig calls to cache)
// * FIXME: could be inmproved for calculating a full path
MM.Location.interpolate = function(l1, l2, f) {
if (l1.lat === l2.lat && l1.lon === l2.lon) {
return new MM.Location(l1.lat, l1.lon);
}
var deg2rad = Math.PI / 180.0,
lat1 = l1.lat * deg2rad,
lon1 = l1.lon * deg2rad,
lat2 = l2.lat * deg2rad,
lon2 = l2.lon * deg2rad;
var d = 2 * Math.asin(
Math.sqrt(
Math.pow(Math.sin((lat1 - lat2) / 2), 2) +
Math.cos(lat1) * Math.cos(lat2) *
Math.pow(Math.sin((lon1 - lon2) / 2), 2)));
var A = Math.sin((1-f)*d)/Math.sin(d);
var B = Math.sin(f*d)/Math.sin(d);
var x = A * Math.cos(lat1) * Math.cos(lon1) +
B * Math.cos(lat2) * Math.cos(lon2);
var y = A * Math.cos(lat1) * Math.sin(lon1) +
B * Math.cos(lat2) * Math.sin(lon2);
var z = A * Math.sin(lat1) + B * Math.sin(lat2);
var latN = Math.atan2(z, Math.sqrt(Math.pow(x, 2) + Math.pow(y, 2)));
var lonN = Math.atan2(y,x);
return new MM.Location(latN / deg2rad, lonN / deg2rad);
};
// Returns bearing from one point to another
//
// * FIXME: bearing is not constant along significant great circle arcs.
MM.Location.bearing = function(l1, l2) {
var deg2rad = Math.PI / 180.0,
lat1 = l1.lat * deg2rad,
lon1 = l1.lon * deg2rad,
lat2 = l2.lat * deg2rad,
lon2 = l2.lon * deg2rad;
var result = Math.atan2(
Math.sin(lon1 - lon2) *
Math.cos(lat2),
Math.cos(lat1) *
Math.sin(lat2) -
Math.sin(lat1) *
Math.cos(lat2) *
Math.cos(lon1 - lon2)
) / -(Math.PI / 180);
// map it into 0-360 range
return (result < 0) ? result + 360 : result;
};
// Extent
// ----------
// An object representing a map's rectangular extent, defined by its north,
// south, east and west bounds.
MM.Extent = function(north, west, south, east) {
if (north instanceof MM.Location &&
west instanceof MM.Location) {
var northwest = north,
southeast = west;
north = northwest.lat;
west = northwest.lon;
south = southeast.lat;
east = southeast.lon;
}
if (isNaN(south)) south = north;
if (isNaN(east)) east = west;
this.north = Math.max(north, south);
this.south = Math.min(north, south);
this.east = Math.max(east, west);
this.west = Math.min(east, west);
};
MM.Extent.prototype = {
// boundary attributes
north: 0,
south: 0,
east: 0,
west: 0,
copy: function() {
return new MM.Extent(this.north, this.west, this.south, this.east);
},
toString: function(precision) {
if (isNaN(precision)) precision = 3;
return [
this.north.toFixed(precision),
this.west.toFixed(precision),
this.south.toFixed(precision),
this.east.toFixed(precision)
].join(", ");
},
// getters for the corner locations
northWest: function() {
return new MM.Location(this.north, this.west);
},
southEast: function() {
return new MM.Location(this.south, this.east);
},
northEast: function() {
return new MM.Location(this.north, this.east);
},
southWest: function() {
return new MM.Location(this.south, this.west);
},
// getter for the center location
center: function() {
return new MM.Location(
this.south + (this.north - this.south) / 2,
this.east + (this.west - this.east) / 2
);
},
// extend the bounds to include a location's latitude and longitude
encloseLocation: function(loc) {
if (loc.lat > this.north) this.north = loc.lat;
if (loc.lat < this.south) this.south = loc.lat;
if (loc.lon > this.east) this.east = loc.lon;
if (loc.lon < this.west) this.west = loc.lon;
},
// extend the bounds to include multiple locations
encloseLocations: function(locations) {
var len = locations.length;
for (var i = 0; i < len; i++) {
this.encloseLocation(locations[i]);
}
},
// reset bounds from a list of locations
setFromLocations: function(locations) {
var len = locations.length,
first = locations[0];
this.north = this.south = first.lat;
this.east = this.west = first.lon;
for (var i = 1; i < len; i++) {
this.encloseLocation(locations[i]);
}
},
// extend the bounds to include another extent
encloseExtent: function(extent) {
if (extent.north > this.north) this.north = extent.north;
if (extent.south < this.south) this.south = extent.south;
if (extent.east > this.east) this.east = extent.east;
if (extent.west < this.west) this.west = extent.west;
},
// determine if a location is within this extent
containsLocation: function(loc) {
return loc.lat >= this.south &&
loc.lat <= this.north &&
loc.lon >= this.west &&
loc.lon <= this.east;
},
// turn an extent into an array of locations containing its northwest
// and southeast corners (used in MM.Map.setExtent())
toArray: function() {
return [this.northWest(), this.southEast()];
}
};
MM.Extent.fromString = function(str) {
var parts = str.split(/\s*,\s*/);
if (parts.length != 4) {
throw "Invalid extent string (expecting 4 comma-separated numbers)";
}
return new MM.Extent(
parseFloat(parts[0]),
parseFloat(parts[1]),
parseFloat(parts[2]),
parseFloat(parts[3])
);
};
MM.Extent.fromArray = function(locations) {
var extent = new MM.Extent();
extent.setFromLocations(locations);
return extent;
};
// Transformation
// --------------
MM.Transformation = function(ax, bx, cx, ay, by, cy) {
this.ax = ax;
this.bx = bx;
this.cx = cx;
this.ay = ay;
this.by = by;
this.cy = cy;
};
MM.Transformation.prototype = {
ax: 0,
bx: 0,
cx: 0,
ay: 0,
by: 0,
cy: 0,
transform: function(point) {
return new MM.Point(this.ax * point.x + this.bx * point.y + this.cx,
this.ay * point.x + this.by * point.y + this.cy);
},
untransform: function(point) {
return new MM.Point((point.x * this.by - point.y * this.bx -
this.cx * this.by + this.cy * this.bx) /
(this.ax * this.by - this.ay * this.bx),
(point.x * this.ay - point.y * this.ax -
this.cx * this.ay + this.cy * this.ax) /
(this.bx * this.ay - this.by * this.ax));
}
};
// Generates a transform based on three pairs of points,
// a1 -> a2, b1 -> b2, c1 -> c2.
MM.deriveTransformation = function(a1x, a1y, a2x, a2y,
b1x, b1y, b2x, b2y,
c1x, c1y, c2x, c2y) {
var x = MM.linearSolution(a1x, a1y, a2x,
b1x, b1y, b2x,
c1x, c1y, c2x);
var y = MM.linearSolution(a1x, a1y, a2y,
b1x, b1y, b2y,
c1x, c1y, c2y);
return new MM.Transformation(x[0], x[1], x[2], y[0], y[1], y[2]);
};
// Solves a system of linear equations.
//
// t1 = (a * r1) + (b + s1) + c
// t2 = (a * r2) + (b + s2) + c
// t3 = (a * r3) + (b + s3) + c
//
// r1 - t3 are the known values.
// a, b, c are the unknowns to be solved.
// returns the a, b, c coefficients.
MM.linearSolution = function(r1, s1, t1, r2, s2, t2, r3, s3, t3) {
// make them all floats
r1 = parseFloat(r1);
s1 = parseFloat(s1);
t1 = parseFloat(t1);
r2 = parseFloat(r2);
s2 = parseFloat(s2);
t2 = parseFloat(t2);
r3 = parseFloat(r3);
s3 = parseFloat(s3);
t3 = parseFloat(t3);
var a = (((t2 - t3) * (s1 - s2)) - ((t1 - t2) * (s2 - s3))) /
(((r2 - r3) * (s1 - s2)) - ((r1 - r2) * (s2 - s3)));
var b = (((t2 - t3) * (r1 - r2)) - ((t1 - t2) * (r2 - r3))) /
(((s2 - s3) * (r1 - r2)) - ((s1 - s2) * (r2 - r3)));
var c = t1 - (r1 * a) - (s1 * b);
return [ a, b, c ];
};
// Projection
// ----------
// An abstract class / interface for projections
MM.Projection = function(zoom, transformation) {
if (!transformation) {
transformation = new MM.Transformation(1, 0, 0, 0, 1, 0);
}
this.zoom = zoom;
this.transformation = transformation;
};
MM.Projection.prototype = {
zoom: 0,
transformation: null,
rawProject: function(point) {
throw "Abstract method not implemented by subclass.";
},
rawUnproject: function(point) {
throw "Abstract method not implemented by subclass.";
},
project: function(point) {
point = this.rawProject(point);
if(this.transformation) {
point = this.transformation.transform(point);
}
return point;
},
unproject: function(point) {
if(this.transformation) {
point = this.transformation.untransform(point);
}
point = this.rawUnproject(point);
return point;
},
locationCoordinate: function(location) {
var point = new MM.Point(Math.PI * location.lon / 180.0,
Math.PI * location.lat / 180.0);
point = this.project(point);
return new MM.Coordinate(point.y, point.x, this.zoom);
},
coordinateLocation: function(coordinate) {
coordinate = coordinate.zoomTo(this.zoom);
var point = new MM.Point(coordinate.column, coordinate.row);
point = this.unproject(point);
return new MM.Location(180.0 * point.y / Math.PI,
180.0 * point.x / Math.PI);
}
};
// A projection for equilateral maps, based on longitude and latitude
MM.LinearProjection = function(zoom, transformation) {
MM.Projection.call(this, zoom, transformation);
};
// The Linear projection doesn't reproject points
MM.LinearProjection.prototype = {
rawProject: function(point) {
return new MM.Point(point.x, point.y);
},
rawUnproject: function(point) {
return new MM.Point(point.x, point.y);
}
};
MM.extend(MM.LinearProjection, MM.Projection);
MM.MercatorProjection = function(zoom, transformation) {
// super!
MM.Projection.call(this, zoom, transformation);
};
// Project lon/lat points into meters required for Mercator
MM.MercatorProjection.prototype = {
rawProject: function(point) {
return new MM.Point(point.x,
Math.log(Math.tan(0.25 * Math.PI + 0.5 * point.y)));
},
rawUnproject: function(point) {
return new MM.Point(point.x,
2 * Math.atan(Math.pow(Math.E, point.y)) - 0.5 * Math.PI);
}
};
MM.extend(MM.MercatorProjection, MM.Projection);
// Providers
// ---------
// Providers provide tile URLs and possibly elements for layers.
//
// MapProvider ->
// Template
//
MM.MapProvider = function(getTile) {
if (getTile) {
this.getTile = getTile;
}
};
MM.MapProvider.prototype = {
// these are limits for available *tiles*
// panning limits will be different (since you can wrap around columns)
// but if you put Infinity in here it will screw up sourceCoordinate
tileLimits: [
new MM.Coordinate(0,0,0), // top left outer
new MM.Coordinate(1,1,0).zoomTo(18) // bottom right inner
],
getTileUrl: function(coordinate) {
throw "Abstract method not implemented by subclass.";
},
getTile: function(coordinate) {
throw "Abstract method not implemented by subclass.";
},
// releaseTile is not required
releaseTile: function(element) { },
// use this to tell MapProvider that tiles only exist between certain zoom levels.
// should be set separately on Map to restrict interactive zoom/pan ranges
setZoomRange: function(minZoom, maxZoom) {
this.tileLimits[0] = this.tileLimits[0].zoomTo(minZoom);
this.tileLimits[1] = this.tileLimits[1].zoomTo(maxZoom);
},
// wrap column around the world if necessary
// return null if wrapped coordinate is outside of the tile limits
sourceCoordinate: function(coord) {
var TL = this.tileLimits[0].zoomTo(coord.zoom).container(),
BR = this.tileLimits[1].zoomTo(coord.zoom),
columnSize = Math.pow(2, coord.zoom),
wrappedColumn;
BR = new MM.Coordinate(Math.ceil(BR.row), Math.ceil(BR.column), Math.floor(BR.zoom));
if (coord.column < 0) {
wrappedColumn = ((coord.column % columnSize) + columnSize) % columnSize;
} else {
wrappedColumn = coord.column % columnSize;
}
if (coord.row < TL.row || coord.row >= BR.row) {
return null;
} else if (wrappedColumn < TL.column || wrappedColumn >= BR.column) {
return null;
} else {
return new MM.Coordinate(coord.row, wrappedColumn, coord.zoom);
}
}
};
/**
* FIXME: need a better explanation here! This is a pretty crucial part of
* understanding how to use ModestMaps.
*
* TemplatedMapProvider is a tile provider that generates tile URLs from a
* template string by replacing the following bits for each tile
* coordinate:
*
* {Z}: the tile's zoom level (from 1 to ~20)
* {X}: the tile's X, or column (from 0 to a very large number at higher
* zooms)
* {Y}: the tile's Y, or row (from 0 to a very large number at higher
* zooms)
*
* E.g.:
*
* var osm = new MM.TemplatedMapProvider("http://tile.openstreetmap.org/{Z}/{X}/{Y}.png");
*
* Or:
*
* var placeholder = new MM.TemplatedMapProvider("http://placehold.it/256/f0f/fff.png&text={Z}/{X}/{Y}");
*
*/
MM.Template = function(template, subdomains) {
var isQuadKey = template.match(/{(Q|quadkey)}/);
// replace Microsoft style substitution strings
if (isQuadKey) template = template
.replace('{subdomains}', '{S}')
.replace('{zoom}', '{Z}')
.replace('{quadkey}', '{Q}');
var hasSubdomains = (subdomains &&
subdomains.length && template.indexOf("{S}") >= 0);
function quadKey (row, column, zoom) {
var key = '';
for (var i = 1; i <= zoom; i++) {
key += (((row >> zoom - i) & 1) << 1) | ((column >> zoom - i) & 1);
}
return key || '0';
}
var getTileUrl = function(coordinate) {
var coord = this.sourceCoordinate(coordinate);
if (!coord) {
return null;
}
var base = template;
if (hasSubdomains) {
var index = parseInt(coord.zoom + coord.row + coord.column, 10) %
subdomains.length;
base = base.replace('{S}', subdomains[index]);
}
if (isQuadKey) {
return base
.replace('{Z}', coord.zoom.toFixed(0))
.replace('{Q}', quadKey(coord.row,
coord.column,
coord.zoom));
} else {
return base
.replace('{Z}', coord.zoom.toFixed(0))
.replace('{X}', coord.column.toFixed(0))
.replace('{Y}', coord.row.toFixed(0));
}
};
MM.MapProvider.call(this, getTileUrl);
};
MM.Template.prototype = {
// quadKey generator
getTile: function(coord) {
return this.getTileUrl(coord);
}
};
MM.extend(MM.Template, MM.MapProvider);
MM.TemplatedLayer = function(template, subdomains, name) {
return new MM.Layer(new MM.Template(template, subdomains), null, name);
};
// Event Handlers
// --------------
// A utility function for finding the offset of the
// mouse from the top-left of the page
MM.getMousePoint = function(e, map) {
// start with just the mouse (x, y)
var point = new MM.Point(e.clientX, e.clientY);
// correct for scrolled document
point.x += document.body.scrollLeft + document.documentElement.scrollLeft;
point.y += document.body.scrollTop + document.documentElement.scrollTop;
// correct for nested offsets in DOM
for (var node = map.parent; node; node = node.offsetParent) {
point.x -= node.offsetLeft;
point.y -= node.offsetTop;
}
return point;
};
MM.MouseWheelHandler = function() {
var handler = {},
map,
_zoomDiv,
prevTime,
precise = false;
function mouseWheel(e) {
var delta = 0;
prevTime = prevTime || new Date().getTime();
try {
_zoomDiv.scrollTop = 1000;
_zoomDiv.dispatchEvent(e);
delta = 1000 - _zoomDiv.scrollTop;
} catch (error) {
delta = e.wheelDelta || (-e.detail * 5);
}
// limit mousewheeling to once every 200ms
var timeSince = new Date().getTime() - prevTime;
var point = MM.getMousePoint(e, map);
if (Math.abs(delta) > 0 && (timeSince > 200) && !precise) {
map.zoomByAbout(delta > 0 ? 1 : -1, point);
prevTime = new Date().getTime();
} else if (precise) {
map.zoomByAbout(delta * 0.001, point);
}
// Cancel the event so that the page doesn't scroll
return MM.cancelEvent(e);
}
handler.init = function(x) {
map = x;
_zoomDiv = document.body.appendChild(document.createElement('div'));
_zoomDiv.style.cssText = 'visibility:hidden;top:0;height:0;width:0;overflow-y:scroll';
var innerDiv = _zoomDiv.appendChild(document.createElement('div'));
innerDiv.style.height = '2000px';
MM.addEvent(map.parent, 'mousewheel', mouseWheel);
return handler;
};
handler.precise = function(x) {
if (!arguments.length) return precise;
precise = x;
return handler;
};
handler.remove = function() {
MM.removeEvent(map.parent, 'mousewheel', mouseWheel);
_zoomDiv.parentNode.removeChild(_zoomDiv);
};
return handler;
};
MM.DoubleClickHandler = function() {
var handler = {},
map;
function doubleClick(e) {
// Ensure that this handler is attached once.
// Get the point on the map that was double-clicked
var point = MM.getMousePoint(e, map);
// use shift-double-click to zoom out
map.zoomByAbout(e.shiftKey ? -1 : 1, point);
return MM.cancelEvent(e);
}
handler.init = function(x) {
map = x;
MM.addEvent(map.parent, 'dblclick', doubleClick);
return handler;
};
handler.remove = function() {
MM.removeEvent(map.parent, 'dblclick', doubleClick);
};
return handler;
};
// Handle the use of mouse dragging to pan the map.
MM.DragHandler = function() {
var handler = {},
prevMouse,
map;
function mouseDown(e) {
if (e.shiftKey || e.button == 2) return;
MM.addEvent(document, 'mouseup', mouseUp);
MM.addEvent(document, 'mousemove', mouseMove);
prevMouse = new MM.Point(e.clientX, e.clientY);
map.parent.style.cursor = 'move';
return MM.cancelEvent(e);
}
function mouseUp(e) {
MM.removeEvent(document, 'mouseup', mouseUp);
MM.removeEvent(document, 'mousemove', mouseMove);
prevMouse = null;
map.parent.style.cursor = '';
return MM.cancelEvent(e);
}
function mouseMove(e) {
if (prevMouse) {
map.panBy(
e.clientX - prevMouse.x,
e.clientY - prevMouse.y);
prevMouse.x = e.clientX;
prevMouse.y = e.clientY;
prevMouse.t = +new Date();
}
return MM.cancelEvent(e);
}
handler.init = function(x) {
map = x;
MM.addEvent(map.parent, 'mousedown', mouseDown);
return handler;
};
handler.remove = function() {
MM.removeEvent(map.parent, 'mousedown', mouseDown);
};
return handler;
};
MM.MouseHandler = function() {
var handler = {},
map,
handlers;
handler.init = function(x) {
map = x;
handlers = [
MM.DragHandler().init(map),
MM.DoubleClickHandler().init(map),
MM.MouseWheelHandler().init(map)
];
return handler;
};
handler.remove = function() {
for (var i = 0; i < handlers.length; i++) {
handlers[i].remove();
}
return handler;
};
return handler;
};
MM.TouchHandler = function() {
var handler = {},
map,
maxTapTime = 250,
maxTapDistance = 30,
maxDoubleTapDelay = 350,
locations = {},
taps = [],
snapToZoom = true,
wasPinching = false,
lastPinchCenter = null;
function isTouchable () {
var el = document.createElement('div');
el.setAttribute('ongesturestart', 'return;');
return (typeof el.ongesturestart === 'function');
}
function updateTouches(e) {
for (var i = 0; i < e.touches.length; i += 1) {
var t = e.touches[i];
if (t.identifier in locations) {
var l = locations[t.identifier];
l.x = t.clientX;
l.y = t.clientY;
l.scale = e.scale;
}
else {
locations[t.identifier] = {
scale: e.scale,
startPos: { x: t.clientX, y: t.clientY },
x: t.clientX,
y: t.clientY,
time: new Date().getTime()
};
}
}
}
// Test whether touches are from the same source -
// whether this is the same touchmove event.
function sameTouch (event, touch) {
return (event && event.touch) &&
(touch.identifier == event.touch.identifier);
}
function touchStart(e) {
updateTouches(e);
}
function touchMove(e) {
switch (e.touches.length) {
case 1:
onPanning(e.touches[0]);
break;
case 2:
onPinching(e);
break;
}
updateTouches(e);
return MM.cancelEvent(e);
}
function touchEnd(e) {
var now = new Date().getTime();
// round zoom if we're done pinching
if (e.touches.length === 0 && wasPinching) {
onPinched(lastPinchCenter);
}
// Look at each changed touch in turn.
for (var i = 0; i < e.changedTouches.length; i += 1) {
var t = e.changedTouches[i],
loc = locations[t.identifier];
// if we didn't see this one (bug?)
// or if it was consumed by pinching already
// just skip to the next one
if (!loc || loc.wasPinch) {
continue;
}
// we now know we have an event object and a
// matching touch that's just ended. Let's see
// what kind of event it is based on how long it
// lasted and how far it moved.
var pos = { x: t.clientX, y: t.clientY },
time = now - loc.time,
travel = MM.Point.distance(pos, loc.startPos);
if (travel > maxTapDistance) {
// we will to assume that the drag has been handled separately
} else if (time > maxTapTime) {
// close in space, but not in time: a hold
pos.end = now;
pos.duration = time;
onHold(pos);
} else {
// close in both time and space: a tap
pos.time = now;
onTap(pos);
}
}
// Weird, sometimes an end event doesn't get thrown
// for a touch that nevertheless has disappeared.
// Still, this will eventually catch those ids:
var validTouchIds = {};
for (var j = 0; j < e.touches.length; j++) {
validTouchIds[e.touches[j].identifier] = true;
}
for (var id in locations) {
if (!(id in validTouchIds)) {
delete validTouchIds[id];
}
}
return MM.cancelEvent(e);
}
function onHold (hold) {
// TODO
}
// Handle a tap event - mainly watch for a doubleTap
function onTap(tap) {
if (taps.length &&
(tap.time - taps[0].time) < maxDoubleTapDelay) {
onDoubleTap(tap);
taps = [];
return;
}
taps = [tap];
}
// Handle a double tap by zooming in a single zoom level to a
// round zoom.
function onDoubleTap(tap) {
var z = map.getZoom(), // current zoom
tz = Math.round(z) + 1, // target zoom
dz = tz - z; // desired delate
// zoom in to a round number
var p = new MM.Point(tap.x, tap.y);
map.zoomByAbout(dz, p);
}
// Re-transform the actual map parent's CSS transformation
function onPanning (touch) {
var pos = { x: touch.clientX, y: touch.clientY },
prev = locations[touch.identifier];
map.panBy(pos.x - prev.x, pos.y - prev.y);
}
function onPinching(e) {
// use the first two touches and their previous positions
var t0 = e.touches[0],
t1 = e.touches[1],
p0 = new MM.Point(t0.clientX, t0.clientY),
p1 = new MM.Point(t1.clientX, t1.clientY),
l0 = locations[t0.identifier],
l1 = locations[t1.identifier];
// mark these touches so they aren't used as taps/holds
l0.wasPinch = true;
l1.wasPinch = true;
// scale about the center of these touches
var center = MM.Point.interpolate(p0, p1, 0.5);
map.zoomByAbout(
Math.log(e.scale) / Math.LN2 -
Math.log(l0.scale) / Math.LN2,
center );
// pan from the previous center of these touches
var prevCenter = MM.Point.interpolate(l0, l1, 0.5);
map.panBy(center.x - prevCenter.x,
center.y - prevCenter.y);
wasPinching = true;
lastPinchCenter = center;
}
// When a pinch event ends, round the zoom of the map.
function onPinched(p) {
// TODO: easing
if (snapToZoom) {
var z = map.getZoom(), // current zoom
tz =Math.round(z); // target zoom
map.zoomByAbout(tz - z, p);
}
wasPinching = false;
}
handler.init = function(x) {
map = x;
// Fail early if this isn't a touch device.
if (!isTouchable()) return handler;
MM.addEvent(map.parent, 'touchstart', touchStart);
MM.addEvent(map.parent, 'touchmove', touchMove);
MM.addEvent(map.parent, 'touchend', touchEnd);
return handler;
};
handler.remove = function() {
// Fail early if this isn't a touch device.
if (!isTouchable()) return handler;
MM.removeEvent(map.parent, 'touchstart', touchStart);
MM.removeEvent(map.parent, 'touchmove', touchMove);
MM.removeEvent(map.parent, 'touchend', touchEnd);
return handler;
};
return handler;
};
// CallbackManager
// ---------------
// A general-purpose event binding manager used by `Map`
// and `RequestManager`
// Construct a new CallbackManager, with an list of
// supported events.
MM.CallbackManager = function(owner, events) {
this.owner = owner;
this.callbacks = {};
for (var i = 0; i < events.length; i++) {
this.callbacks[events[i]] = [];
}
};
// CallbackManager does simple event management for modestmaps
MM.CallbackManager.prototype = {
// The element on which callbacks will be triggered.
owner: null,
// An object of callbacks in the form
//
// { event: function }
callbacks: null,
// Add a callback to this object - where the `event` is a string of
// the event name and `callback` is a function.
addCallback: function(event, callback) {
if (typeof(callback) == 'function' && this.callbacks[event]) {
this.callbacks[event].push(callback);
}
},
// Remove a callback. The given function needs to be equal (`===`) to
// the callback added in `addCallback`, so named functions should be
// used as callbacks.
removeCallback: function(event, callback) {
if (typeof(callback) == 'function' && this.callbacks[event]) {
var cbs = this.callbacks[event],
len = cbs.length;
for (var i = 0; i < len; i++) {
if (cbs[i] === callback) {
cbs.splice(i,1);
break;
}
}
}
},
// Trigger a callback, passing it an object or string from the second
// argument.
dispatchCallback: function(event, message) {
if(this.callbacks[event]) {
for (var i = 0; i < this.callbacks[event].length; i += 1) {
try {
this.callbacks[event][i](this.owner, message);
} catch(e) {
//console.log(e);
// meh
}
}
}
}
};
// RequestManager
// --------------
// an image loading queue
MM.RequestManager = function() {
// The loading bay is a document fragment to optimize appending, since
// the elements within are invisible. See
// [this blog post](http://ejohn.org/blog/dom-documentfragments/).
this.loadingBay = document.createDocumentFragment();
this.requestsById = {};
this.openRequestCount = 0;
this.maxOpenRequests = 4;
this.requestQueue = [];
this.callbackManager = new MM.CallbackManager(this, [
'requestcomplete', 'requesterror']);
};
MM.RequestManager.prototype = {
// DOM element, hidden, for making sure images dispatch complete events
loadingBay: null,
// all known requests, by ID
requestsById: null,
// current pending requests
requestQueue: null,
// current open requests (children of loadingBay)
openRequestCount: null,
// the number of open requests permitted at one time, clamped down
// because of domain-connection limits.
maxOpenRequests: null,
// for dispatching 'requestcomplete'
callbackManager: null,
addCallback: function(event, callback) {
this.callbackManager.addCallback(event,callback);
},
removeCallback: function(event, callback) {
this.callbackManager.removeCallback(event,callback);
},
dispatchCallback: function(event, message) {
this.callbackManager.dispatchCallback(event,message);
},
// Clear everything in the queue by excluding nothing
clear: function() {
this.clearExcept({});
},
clearRequest: function(id) {
if(id in this.requestsById) {
delete this.requestsById[id];
}
for(var i = 0; i < this.requestQueue.length; i++) {
var request = this.requestQueue[i];
if(request && request.id == id) {
this.requestQueue[i] = null;
}
}
},
// Clear everything in the queue except for certain keys, specified
// by an object of the form
//
// { key: throwawayvalue }
clearExcept: function(validIds) {
// clear things from the queue first...
for (var i = 0; i < this.requestQueue.length; i++) {
var request = this.requestQueue[i];
if (request && !(request.id in validIds)) {
this.requestQueue[i] = null;
}
}
// then check the loadingBay...
var openRequests = this.loadingBay.childNodes;
for (var j = openRequests.length-1; j >= 0; j--) {
var img = openRequests[j];
if (!(img.id in validIds)) {
this.loadingBay.removeChild(img);
this.openRequestCount--;
/* console.log(this.openRequestCount + " open requests"); */
img.src = img.coord = img.onload = img.onerror = null;
}
}
// hasOwnProperty protects against prototype additions
// > "The standard describes an augmentable Object.prototype.
// Ignore standards at your own peril."
// -- http://www.yuiblog.com/blog/2006/09/26/for-in-intrigue/
for (var id in this.requestsById) {
if (!(id in validIds)) {
if (this.requestsById.hasOwnProperty(id)) {
var requestToRemove = this.requestsById[id];
// whether we've done the request or not...
delete this.requestsById[id];
if (requestToRemove !== null) {
requestToRemove =
requestToRemove.id =
requestToRemove.coord =
requestToRemove.url = null;
}
}
}
}
},
// Given a tile id, check whether the RequestManager is currently
// requesting it and waiting for the result.
hasRequest: function(id) {
return (id in this.requestsById);
},
// * TODO: remove dependency on coord (it's for sorting, maybe call it data?)
// * TODO: rename to requestImage once it's not tile specific
requestTile: function(id, coord, url) {
if (!(id in this.requestsById)) {
var request = { id: id, coord: coord.copy(), url: url };
// if there's no url just make sure we don't request this image again
this.requestsById[id] = request;
if (url) {
this.requestQueue.push(request);
/* console.log(this.requestQueue.length + ' pending requests'); */
}
}
},
getProcessQueue: function() {
// let's only create this closure once...
if (!this._processQueue) {
var theManager = this;
this._processQueue = function() {
theManager.processQueue();
};
}
return this._processQueue;
},
// Select images from the `requestQueue` and create image elements for
// them, attaching their load events to the function returned by
// `this.getLoadComplete()` so that they can be added to the map.
processQueue: function(sortFunc) {
// When the request queue fills up beyond 8, start sorting the
// requests so that spiral-loading or another pattern can be used.
if (sortFunc && this.requestQueue.length > 8) {
this.requestQueue.sort(sortFunc);
}
while (this.openRequestCount < this.maxOpenRequests && this.requestQueue.length > 0) {
var request = this.requestQueue.pop();
if (request) {
this.openRequestCount++;
/* console.log(this.openRequestCount + ' open requests'); */
// JSLitmus benchmark shows createElement is a little faster than
// new Image() in Firefox and roughly the same in Safari:
// http://tinyurl.com/y9wz2jj http://tinyurl.com/yes6rrt
var img = document.createElement('img');
// FIXME: id is technically not unique in document if there
// are two Maps but toKey is supposed to be fast so we're trying
// to avoid a prefix ... hence we can't use any calls to
// `document.getElementById()` to retrieve images
img.id = request.id;
img.style.position = 'absolute';
// * FIXME: store this elsewhere to avoid scary memory leaks?
// * FIXME: call this 'data' not 'coord' so that RequestManager is less Tile-centric?
img.coord = request.coord;
// add it to the DOM in a hidden layer, this is a bit of a hack, but it's
// so that the event we get in image.onload has srcElement assigned in IE6
this.loadingBay.appendChild(img);
// set these before img.src to avoid missing an img that's already cached
img.onload = img.onerror = this.getLoadComplete();
img.src = request.url;
// keep things tidy
request = request.id = request.coord = request.url = null;
}
}
},
_loadComplete: null,
// Get the singleton `_loadComplete` function that is called on image
// load events, either removing them from the queue and dispatching an
// event to add them to the map, or deleting them if the image failed
// to load.
getLoadComplete: function() {
// let's only create this closure once...
if (!this._loadComplete) {
var theManager = this;
this._loadComplete = function(e) {
// this is needed because we don't use MM.addEvent for images
e = e || window.event;
// srcElement for IE, target for FF, Safari etc.
var img = e.srcElement || e.target;
// unset these straight away so we don't call this twice
img.onload = img.onerror = null;
// pull it back out of the (hidden) DOM
// so that draw will add it correctly later
theManager.loadingBay.removeChild(img);
theManager.openRequestCount--;
delete theManager.requestsById[img.id];
/* console.log(theManager.openRequestCount + ' open requests'); */
// NB:- complete is also true onerror if we got a 404
if (e.type === 'load' && (img.complete ||
(img.readyState && img.readyState == 'complete'))) {
theManager.dispatchCallback('requestcomplete', img);
} else {
// if it didn't finish clear its src to make sure it
// really stops loading
// FIXME: we'll never retry because this id is still
// in requestsById - is that right?
theManager.dispatchCallback('requesterror', {
element: img,
url: ('' + img.src)
});
img.src = null;
}
// keep going in the same order
// use `setTimeout()` to avoid the IE recursion limit, see
// http://cappuccino.org/discuss/2010/03/01/internet-explorer-global-variables-and-stack-overflows/
// and https://github.com/stamen/modestmaps-js/issues/12
setTimeout(theManager.getProcessQueue(), 0);
};
}
return this._loadComplete;
}
};
// Layer
MM.Layer = function(provider, parent, name) {
this.parent = parent || document.createElement('div');
this.parent.style.cssText = 'position: absolute; top: 0px; left: 0px; width: 100%; height: 100%; margin: 0; padding: 0; z-index: 0';
this.name = name;
this.levels = {};
this.requestManager = new MM.RequestManager();
this.requestManager.addCallback('requestcomplete', this.getTileComplete());
this.requestManager.addCallback('requesterror', this.getTileError());
if (provider) this.setProvider(provider);
};
MM.Layer.prototype = {
map: null, // TODO: remove
parent: null,
name: null,
enabled: true,
tiles: null,
levels: null,
requestManager: null,
provider: null,
_tileComplete: null,
getTileComplete: function() {
if (!this._tileComplete) {
var theLayer = this;
this._tileComplete = function(manager, tile) {
theLayer.tiles[tile.id] = tile;
theLayer.positionTile(tile);
};
}
return this._tileComplete;
},
getTileError: function() {
if (!this._tileError) {
var theLayer = this;
this._tileError = function(manager, tile) {
tile.element.src = 'data:image/gif;base64,R0lGODlhAQABAIAAAAAAAP///yH5BAEAAAAALAAAAAABAAEAAAIBRAA7';
theLayer.tiles[tile.element.id] = tile.element;
theLayer.positionTile(tile.element);
};
}
return this._tileError;
},
draw: function() {
if (!this.enabled || !this.map) return;
// compares manhattan distance from center of
// requested tiles to current map center
// NB:- requested tiles are *popped* from queue, so we do a descending sort
var theCoord = this.map.coordinate.zoomTo(Math.round(this.map.coordinate.zoom));
function centerDistanceCompare(r1, r2) {
if (r1 && r2) {
var c1 = r1.coord;
var c2 = r2.coord;
if (c1.zoom == c2.zoom) {
var ds1 = Math.abs(theCoord.row - c1.row - 0.5) +
Math.abs(theCoord.column - c1.column - 0.5);
var ds2 = Math.abs(theCoord.row - c2.row - 0.5) +
Math.abs(theCoord.column - c2.column - 0.5);
return ds1 < ds2 ? 1 : ds1 > ds2 ? -1 : 0;
} else {
return c1.zoom < c2.zoom ? 1 : c1.zoom > c2.zoom ? -1 : 0;
}
}
return r1 ? 1 : r2 ? -1 : 0;
}
// if we're in between zoom levels, we need to choose the nearest:
var baseZoom = Math.round(this.map.coordinate.zoom);
// these are the top left and bottom right tile coordinates
// we'll be loading everything in between:
var startCoord = this.map.pointCoordinate(new MM.Point(0,0))
.zoomTo(baseZoom).container();
var endCoord = this.map.pointCoordinate(this.map.dimensions)
.zoomTo(baseZoom).container().right().down();
// tiles with invalid keys will be removed from visible levels
// requests for tiles with invalid keys will be canceled
// (this object maps from a tile key to a boolean)
var validTileKeys = { };
// make sure we have a container for tiles in the current level
var levelElement = this.createOrGetLevel(startCoord.zoom);
// use this coordinate for generating keys, parents and children:
var tileCoord = startCoord.copy();
for (tileCoord.column = startCoord.column;
tileCoord.column <= endCoord.column; tileCoord.column++) {
for (tileCoord.row = startCoord.row;
tileCoord.row <= endCoord.row; tileCoord.row++) {
var validKeys = this.inventoryVisibleTile(levelElement, tileCoord);
while (validKeys.length) {
validTileKeys[validKeys.pop()] = true;
}
}
}
// i from i to zoom-5 are levels that would be scaled too big,
// i from zoom + 2 to levels. length are levels that would be
// scaled too small (and tiles would be too numerous)
for (var name in this.levels) {
if (this.levels.hasOwnProperty(name)) {
var zoom = parseInt(name,10);
if (zoom >= startCoord.zoom - 5 && zoom < startCoord.zoom + 2) {
continue;
}
var level = this.levels[name];
level.style.display = 'none';
var visibleTiles = this.tileElementsInLevel(level);
while (visibleTiles.length) {
this.provider.releaseTile(visibleTiles[0].coord);
this.requestManager.clearRequest(visibleTiles[0].coord.toKey());
level.removeChild(visibleTiles[0]);
visibleTiles.shift();
}
}
}
// levels we want to see, if they have tiles in validTileKeys
var minLevel = startCoord.zoom - 5;
var maxLevel = startCoord.zoom + 2;
for (var z = minLevel; z < maxLevel; z++) {
this.adjustVisibleLevel(this.levels[z], z, validTileKeys);
}
// cancel requests that aren't visible:
this.requestManager.clearExcept(validTileKeys);
// get newly requested tiles, sort according to current view:
this.requestManager.processQueue(centerDistanceCompare);
},
// For a given tile coordinate in a given level element, ensure that it's
// correctly represented in the DOM including potentially-overlapping
// parent and child tiles for pyramid loading.
//
// Return a list of valid (i.e. loadable?) tile keys.
inventoryVisibleTile: function(layer_element, tile_coord) {
var tile_key = tile_coord.toKey(),
valid_tile_keys = [tile_key];
// Check that the needed tile already exists someplace - add it to the DOM if it does.
if (tile_key in this.tiles) {
var tile = this.tiles[tile_key];
// ensure it's in the DOM:
if (tile.parentNode != layer_element) {
layer_element.appendChild(tile);
// if the provider implements reAddTile(), call it
if ("reAddTile" in this.provider) {
this.provider.reAddTile(tile_key, tile_coord, tile);
}
}
return valid_tile_keys;
}
// Check that the needed tile has even been requested at all.
if (!this.requestManager.hasRequest(tile_key)) {
var tileToRequest = this.provider.getTile(tile_coord);
if (typeof tileToRequest == 'string') {
this.addTileImage(tile_key, tile_coord, tileToRequest);
// tile must be truish
} else if (tileToRequest) {
this.addTileElement(tile_key, tile_coord, tileToRequest);
}
}
// look for a parent tile in our image cache
var tileCovered = false;
var maxStepsOut = tile_coord.zoom;
for (var pz = 1; pz <= maxStepsOut; pz++) {
var parent_coord = tile_coord.zoomBy(-pz).container();
var parent_key = parent_coord.toKey();
// only mark it valid if we have it already
if (parent_key in this.tiles) {
valid_tile_keys.push(parent_key);
tileCovered = true;
break;
}
}
// if we didn't find a parent, look at the children:
if (!tileCovered) {
var child_coord = tile_coord.zoomBy(1);
// mark everything valid whether or not we have it:
valid_tile_keys.push(child_coord.toKey());
child_coord.column += 1;
valid_tile_keys.push(child_coord.toKey());
child_coord.row += 1;
valid_tile_keys.push(child_coord.toKey());
child_coord.column -= 1;
valid_tile_keys.push(child_coord.toKey());
}
return valid_tile_keys;
},
tileElementsInLevel: function(level) {
// this is somewhat future proof, we're looking for DOM elements
// not necessarily <img> elements
var tiles = [];
for (var tile = level.firstChild; tile; tile = tile.nextSibling) {
if (tile.nodeType == 1) {
tiles.push(tile);
}
}
return tiles;
},
/**
* For a given level, adjust visibility as a whole and discard individual
* tiles based on values in valid_tile_keys from inventoryVisibleTile().
*/
adjustVisibleLevel: function(level, zoom, valid_tile_keys) {
// no tiles for this level yet
if (!level) return;
var scale = 1;
var theCoord = this.map.coordinate.copy();
if (level.childNodes.length > 0) {
level.style.display = 'block';
scale = Math.pow(2, this.map.coordinate.zoom - zoom);
theCoord = theCoord.zoomTo(zoom);
} else {
level.style.display = 'none';
return false;
}
var tileWidth = this.map.tileSize.x * scale;
var tileHeight = this.map.tileSize.y * scale;
var center = new MM.Point(this.map.dimensions.x/2, this.map.dimensions.y/2);
var tiles = this.tileElementsInLevel(level);
while (tiles.length) {
var tile = tiles.pop();
if (!valid_tile_keys[tile.id]) {
this.provider.releaseTile(tile.coord);
this.requestManager.clearRequest(tile.coord.toKey());
level.removeChild(tile);
} else {
// position tiles
MM.moveElement(tile, {
x: Math.round(center.x +
(tile.coord.column - theCoord.column) * tileWidth),
y: Math.round(center.y +
(tile.coord.row - theCoord.row) * tileHeight),
scale: scale,
// TODO: pass only scale or only w/h
width: this.map.tileSize.x,
height: this.map.tileSize.y
});
}
}
},
createOrGetLevel: function(zoom) {
if (zoom in this.levels) {
return this.levels[zoom];
}
var level = document.createElement('div');
level.id = this.parent.id + '-zoom-' + zoom;
level.style.cssText = 'position: absolute; top: 0px; left: 0px; width: 100%; height: 100%; margin: 0; padding: 0;';
level.style.zIndex = zoom;
this.parent.appendChild(level);
this.levels[zoom] = level;
return level;
},
addTileImage: function(key, coord, url) {
this.requestManager.requestTile(key, coord, url);
},
addTileElement: function(key, coordinate, element) {
// Expected in draw()
element.id = key;
element.coord = coordinate.copy();
this.positionTile(element);
},
positionTile: function(tile) {
// position this tile (avoids a full draw() call):
var theCoord = this.map.coordinate.zoomTo(tile.coord.zoom);
// Start tile positioning and prevent drag for modern browsers
tile.style.cssText = 'position:absolute;-webkit-user-select:none;' +
'-webkit-user-drag:none;-moz-user-drag:none;-webkit-transform-origin:0 0;' +
'-moz-transform-origin:0 0;-o-transform-origin:0 0;-ms-transform-origin:0 0;' +
'width:' + this.map.tileSize.x + 'px; height: ' + this.map.tileSize.y + 'px;';
// Prevent drag for IE
tile.ondragstart = function() { return false; };
var scale = Math.pow(2, this.map.coordinate.zoom - tile.coord.zoom);
MM.moveElement(tile, {
x: Math.round((this.map.dimensions.x/2) +
(tile.coord.column - theCoord.column) * this.map.tileSize.x),
y: Math.round((this.map.dimensions.y/2) +
(tile.coord.row - theCoord.row) * this.map.tileSize.y),
scale: scale,
// TODO: pass only scale or only w/h
width: this.map.tileSize.x,
height: this.map.tileSize.y
});
// add tile to its level
var theLevel = this.levels[tile.coord.zoom];
theLevel.appendChild(tile);
// Support style transition if available.
tile.className = 'map-tile-loaded';
// ensure the level is visible if it's still the current level
if (Math.round(this.map.coordinate.zoom) == tile.coord.zoom) {
theLevel.style.display = 'block';
}
// request a lazy redraw of all levels
// this will remove tiles that were only visible
// to cover this tile while it loaded:
this.requestRedraw();
},
_redrawTimer: undefined,
requestRedraw: function() {
// we'll always draw within 1 second of this request,
// sometimes faster if there's already a pending redraw
// this is used when a new tile arrives so that we clear
// any parent/child tiles that were only being displayed
// until the tile loads at the right zoom level
if (!this._redrawTimer) {
this._redrawTimer = setTimeout(this.getRedraw(), 1000);
}
},
_redraw: null,
getRedraw: function() {
// let's only create this closure once...
if (!this._redraw) {
var theLayer = this;
this._redraw = function() {
theLayer.draw();
theLayer._redrawTimer = 0;
};
}
return this._redraw;
},
setProvider: function(newProvider) {
var firstProvider = (this.provider === null);
// if we already have a provider the we'll need to
// clear the DOM, cancel requests and redraw
if (!firstProvider) {
this.requestManager.clear();
for (var name in this.levels) {
if (this.levels.hasOwnProperty(name)) {
var level = this.levels[name];
while (level.firstChild) {
this.provider.releaseTile(level.firstChild.coord);
level.removeChild(level.firstChild);
}
}
}
}
// first provider or not we'll init/reset some values...
this.tiles = {};
// for later: check geometry of old provider and set a new coordinate center
// if needed (now? or when?)
this.provider = newProvider;
if (!firstProvider) {
this.draw();
}
},
// Enable a layer and show its dom element
enable: function() {
this.enabled = true;
this.parent.style.display = '';
this.draw();
},
// Disable a layer, don't display in DOM, clear all requests
disable: function() {
this.enabled = false;
this.requestManager.clear();
this.parent.style.display = 'none';
},
// Remove this layer from the DOM, cancel all of its requests
// and unbind any callbacks that are bound to it.
destroy: function() {
this.requestManager.clear();
this.requestManager.removeCallback('requestcomplete', this.getTileComplete());
this.requestManager.removeCallback('requesterror', this.getTileError());
// TODO: does requestManager need a destroy function too?
this.provider = null;
// If this layer was ever attached to the DOM, detach it.
if (this.parent.parentNode) {
this.parent.parentNode.removeChild(this.parent);
}
this.map = null;
}
};
// Map
// Instance of a map intended for drawing to a div.
//
// * `parent` (required DOM element)
// Can also be an ID of a DOM element
// * `layerOrLayers` (required MM.Layer or Array of MM.Layers)
// each one must implement draw(), destroy(), have a .parent DOM element and a .map property
// (an array of URL templates or MM.MapProviders is also acceptable)
// * `dimensions` (optional Point)
// Size of map to create
// * `eventHandlers` (optional Array)
// If empty or null MouseHandler will be used
// Otherwise, each handler will be called with init(map)
MM.Map = function(parent, layerOrLayers, dimensions, eventHandlers) {
if (typeof parent == 'string') {
parent = document.getElementById(parent);
if (!parent) {
throw 'The ID provided to modest maps could not be found.';
}
}
this.parent = parent;
// we're no longer adding width and height to parent.style but we still
// need to enforce padding, overflow and position otherwise everything screws up
// TODO: maybe console.warn if the current values are bad?
this.parent.style.padding = '0';
this.parent.style.overflow = 'hidden';
var position = MM.getStyle(this.parent, 'position');
if (position != 'relative' && position != 'absolute') {
this.parent.style.position = 'relative';
}
this.layers = [];
if (!layerOrLayers) {
layerOrLayers = [];
}
if (!(layerOrLayers instanceof Array)) {
layerOrLayers = [ layerOrLayers ];
}
for (var i = 0; i < layerOrLayers.length; i++) {
this.addLayer(layerOrLayers[i]);
}
// default to Google-y Mercator style maps
this.projection = new MM.MercatorProjection(0,
MM.deriveTransformation(-Math.PI, Math.PI, 0, 0,
Math.PI, Math.PI, 1, 0,
-Math.PI, -Math.PI, 0, 1));
this.tileSize = new MM.Point(256, 256);
// default 0-18 zoom level
// with infinite horizontal pan and clamped vertical pan
this.coordLimits = [
new MM.Coordinate(0,-Infinity,0), // top left outer
new MM.Coordinate(1,Infinity,0).zoomTo(18) // bottom right inner
];
// eyes towards null island
this.coordinate = new MM.Coordinate(0.5, 0.5, 0);
// if you don't specify dimensions we assume you want to fill the parent
// unless the parent has no w/h, in which case we'll still use a default
if (!dimensions) {
dimensions = new MM.Point(this.parent.offsetWidth,
this.parent.offsetHeight);
this.autoSize = true;
// use destroy to get rid of this handler from the DOM
MM.addEvent(window, 'resize', this.windowResize());
} else {
this.autoSize = false;
// don't call setSize here because it calls draw()
this.parent.style.width = Math.round(dimensions.x) + 'px';
this.parent.style.height = Math.round(dimensions.y) + 'px';
}
this.dimensions = dimensions;
this.callbackManager = new MM.CallbackManager(this, [
'zoomed',
'panned',
'centered',
'extentset',
'resized',
'drawn'
]);
// set up handlers last so that all required attributes/functions are in place if needed
if (eventHandlers === undefined) {
this.eventHandlers = [
MM.MouseHandler().init(this),
MM.TouchHandler().init(this)
];
} else {
this.eventHandlers = eventHandlers;
if (eventHandlers instanceof Array) {
for (var j = 0; j < eventHandlers.length; j++) {
eventHandlers[j].init(this);
}
}
}
};
MM.Map.prototype = {
parent: null, // DOM Element
dimensions: null, // MM.Point with x/y size of parent element
projection: null, // MM.Projection of first known layer
coordinate: null, // Center of map MM.Coordinate with row/column/zoom
tileSize: null, // MM.Point with x/y size of tiles
coordLimits: null, // Array of [ topLeftOuter, bottomLeftInner ] MM.Coordinates
layers: null, // Array of MM.Layer (interface = .draw(), .destroy(), .parent and .map)
callbackManager: null, // MM.CallbackManager, handles map events
eventHandlers: null, // Array of interaction handlers, just a MM.MouseHandler by default
autoSize: null, // Boolean, true if we have a window resize listener
toString: function() {
return 'Map(#' + this.parent.id + ')';
},
// callbacks...
addCallback: function(event, callback) {
this.callbackManager.addCallback(event, callback);
return this;
},
removeCallback: function(event, callback) {
this.callbackManager.removeCallback(event, callback);
return this;
},
dispatchCallback: function(event, message) {
this.callbackManager.dispatchCallback(event, message);
return this;
},
windowResize: function() {
if (!this._windowResize) {
var theMap = this;
this._windowResize = function(event) {
// don't call setSize here because it sets parent.style.width/height
// and setting the height breaks percentages and default styles
theMap.dimensions = new MM.Point(theMap.parent.offsetWidth, theMap.parent.offsetHeight);
theMap.draw();
theMap.dispatchCallback('resized', [theMap.dimensions]);
};
}
return this._windowResize;
},
// A convenience function to restrict interactive zoom ranges.
// (you should also adjust map provider to restrict which tiles get loaded,
// or modify map.coordLimits and provider.tileLimits for finer control)
setZoomRange: function(minZoom, maxZoom) {
this.coordLimits[0] = this.coordLimits[0].zoomTo(minZoom);
this.coordLimits[1] = this.coordLimits[1].zoomTo(maxZoom);
return this;
},
// zooming
zoomBy: function(zoomOffset) {
this.coordinate = this.enforceLimits(this.coordinate.zoomBy(zoomOffset));
MM.getFrame(this.getRedraw());
this.dispatchCallback('zoomed', zoomOffset);
return this;
},
zoomIn: function() { return this.zoomBy(1); },
zoomOut: function() { return this.zoomBy(-1); },
setZoom: function(z) { return this.zoomBy(z - this.coordinate.zoom); },
zoomByAbout: function(zoomOffset, point) {
var location = this.pointLocation(point);
this.coordinate = this.enforceLimits(this.coordinate.zoomBy(zoomOffset));
var newPoint = this.locationPoint(location);
this.dispatchCallback('zoomed', zoomOffset);
return this.panBy(point.x - newPoint.x, point.y - newPoint.y);
},
// panning
panBy: function(dx, dy) {
this.coordinate.column -= dx / this.tileSize.x;
this.coordinate.row -= dy / this.tileSize.y;
this.coordinate = this.enforceLimits(this.coordinate);
// Defer until the browser is ready to draw.
MM.getFrame(this.getRedraw());
this.dispatchCallback('panned', [dx, dy]);
return this;
},
panLeft: function() { return this.panBy(100, 0); },
panRight: function() { return this.panBy(-100, 0); },
panDown: function() { return this.panBy(0, -100); },
panUp: function() { return this.panBy(0, 100); },
// positioning
setCenter: function(location) {
return this.setCenterZoom(location, this.coordinate.zoom);
},
setCenterZoom: function(location, zoom) {
this.coordinate = this.projection.locationCoordinate(location).zoomTo(parseFloat(zoom) || 0);
MM.getFrame(this.getRedraw());
this.dispatchCallback('centered', [location, zoom]);
return this;
},
extentCoordinate: function(locations, precise) {
// coerce locations to an array if it's a Extent instance
if (locations instanceof MM.Extent) {
locations = locations.toArray();
}
var TL, BR;
for (var i = 0; i < locations.length; i++) {
var coordinate = this.projection.locationCoordinate(locations[i]);
if (TL) {
TL.row = Math.min(TL.row, coordinate.row);
TL.column = Math.min(TL.column, coordinate.column);
TL.zoom = Math.min(TL.zoom, coordinate.zoom);
BR.row = Math.max(BR.row, coordinate.row);
BR.column = Math.max(BR.column, coordinate.column);
BR.zoom = Math.max(BR.zoom, coordinate.zoom);
}
else {
TL = coordinate.copy();
BR = coordinate.copy();
}
}
var width = this.dimensions.x + 1;
var height = this.dimensions.y + 1;
// multiplication factor between horizontal span and map width
var hFactor = (BR.column - TL.column) / (width / this.tileSize.x);
// multiplication factor expressed as base-2 logarithm, for zoom difference
var hZoomDiff = Math.log(hFactor) / Math.log(2);
// possible horizontal zoom to fit geographical extent in map width
var hPossibleZoom = TL.zoom - (precise ? hZoomDiff : Math.ceil(hZoomDiff));
// multiplication factor between vertical span and map height
var vFactor = (BR.row - TL.row) / (height / this.tileSize.y);
// multiplication factor expressed as base-2 logarithm, for zoom difference
var vZoomDiff = Math.log(vFactor) / Math.log(2);
// possible vertical zoom to fit geographical extent in map height
var vPossibleZoom = TL.zoom - (precise ? vZoomDiff : Math.ceil(vZoomDiff));
// initial zoom to fit extent vertically and horizontally
var initZoom = Math.min(hPossibleZoom, vPossibleZoom);
// additionally, make sure it's not outside the boundaries set by map limits
initZoom = Math.min(initZoom, this.coordLimits[1].zoom);
initZoom = Math.max(initZoom, this.coordLimits[0].zoom);
// coordinate of extent center
var centerRow = (TL.row + BR.row) / 2;
var centerColumn = (TL.column + BR.column) / 2;
var centerZoom = TL.zoom;
return new MM.Coordinate(centerRow, centerColumn, centerZoom).zoomTo(initZoom);
},
setExtent: function(locations, precise) {
this.coordinate = this.extentCoordinate(locations, precise);
this.draw(); // draw calls enforceLimits
// (if you switch to getFrame, call enforceLimits first)
this.dispatchCallback('extentset', locations);
return this;
},
// Resize the map's container `<div>`, redrawing the map and triggering
// `resized` to make sure that the map's presentation is still correct.
setSize: function(dimensions) {
// Ensure that, whether a raw object or a Point object is passed,
// this.dimensions will be a Point.
this.dimensions = new MM.Point(dimensions.x, dimensions.y);
this.parent.style.width = Math.round(this.dimensions.x) + 'px';
this.parent.style.height = Math.round(this.dimensions.y) + 'px';
if (this.autoSize) {
MM.removeEvent(window, 'resize', this.windowResize());
this.autoSize = false;
}
this.draw(); // draw calls enforceLimits
// (if you switch to getFrame, call enforceLimits first)
this.dispatchCallback('resized', this.dimensions);
return this;
},
// projecting points on and off screen
coordinatePoint: function(coord) {
// Return an x, y point on the map image for a given coordinate.
if (coord.zoom != this.coordinate.zoom) {
coord = coord.zoomTo(this.coordinate.zoom);
}
// distance from the center of the map
var point = new MM.Point(this.dimensions.x / 2, this.dimensions.y / 2);
point.x += this.tileSize.x * (coord.column - this.coordinate.column);
point.y += this.tileSize.y * (coord.row - this.coordinate.row);
return point;
},
// Get a `MM.Coordinate` from an `MM.Point` - returns a new tile-like object
// from a screen point.
pointCoordinate: function(point) {
// new point coordinate reflecting distance from map center, in tile widths
var coord = this.coordinate.copy();
coord.column += (point.x - this.dimensions.x / 2) / this.tileSize.x;
coord.row += (point.y - this.dimensions.y / 2) / this.tileSize.y;
return coord;
},
// Return an MM.Coordinate (row,col,zoom) for an MM.Location (lat,lon).
locationCoordinate: function(location) {
return this.projection.locationCoordinate(location);
},
// Return an MM.Location (lat,lon) for an MM.Coordinate (row,col,zoom).
coordinateLocation: function(coordinate) {
return this.projection.coordinateLocation(coordinate);
},
// Return an x, y point on the map image for a given geographical location.
locationPoint: function(location) {
return this.coordinatePoint(this.locationCoordinate(location));
},
// Return a geographical location on the map image for a given x, y point.
pointLocation: function(point) {
return this.coordinateLocation(this.pointCoordinate(point));
},
// inspecting
getExtent: function() {
return new MM.Extent(
this.pointLocation(new MM.Point(0, 0)),
this.pointLocation(this.dimensions)
);
},
extent: function(locations, precise) {
if (locations) {
return this.setExtent(locations, precise);
} else {
return this.getExtent();
}
},
// Get the current centerpoint of the map, returning a `Location`
getCenter: function() {
return this.projection.coordinateLocation(this.coordinate);
},
center: function(location) {
if (location) {
return this.setCenter(location);
} else {
return this.getCenter();
}
},
// Get the current zoom level of the map, returning a number
getZoom: function() {
return this.coordinate.zoom;
},
zoom: function(zoom) {
if (zoom !== undefined) {
return this.setZoom(zoom);
} else {
return this.getZoom();
}
},
// return a copy of the layers array
getLayers: function() {
return this.layers.slice();
},
// return the first layer with given name
getLayer: function(name) {
for (var i = 0; i < this.layers.length; i++) {
if (name == this.layers[i].name)
return this.layers[i];
}
},
// return the layer at the given index
getLayerAt: function(index) {
return this.layers[index];
},
// put the given layer on top of all the others
// Since this is called for the first layer, which is by definition
// added before the map has a valid `coordinate`, we request
// a redraw only if the map has a center coordinate.
addLayer: function(layer) {
this.layers.push(layer);
this.parent.appendChild(layer.parent);
layer.map = this; // TODO: remove map property from MM.Layer?
if (this.coordinate) {
MM.getFrame(this.getRedraw());
}
return this;
},
// find the given layer and remove it
removeLayer: function(layer) {
for (var i = 0; i < this.layers.length; i++) {
if (layer == this.layers[i] || layer == this.layers[i].name) {
this.removeLayerAt(i);
break;
}
}
return this;
},
// replace the current layer at the given index with the given layer
setLayerAt: function(index, layer) {
if (index < 0 || index >= this.layers.length) {
throw new Error('invalid index in setLayerAt(): ' + index);
}
if (this.layers[index] != layer) {
// clear existing layer at this index
if (index < this.layers.length) {
var other = this.layers[index];
this.parent.insertBefore(layer.parent, other.parent);
other.destroy();
} else {
// Or if this will be the last layer, it can be simply appended
this.parent.appendChild(layer.parent);
}
this.layers[index] = layer;
layer.map = this; // TODO: remove map property from MM.Layer
MM.getFrame(this.getRedraw());
}
return this;
},
// put the given layer at the given index, moving others if necessary
insertLayerAt: function(index, layer) {
if (index < 0 || index > this.layers.length) {
throw new Error('invalid index in insertLayerAt(): ' + index);
}
if (index == this.layers.length) {
// it just gets tacked on to the end
this.layers.push(layer);
this.parent.appendChild(layer.parent);
} else {
// it needs to get slipped in amongst the others
var other = this.layers[index];
this.parent.insertBefore(layer.parent, other.parent);
this.layers.splice(index, 0, layer);
}
layer.map = this; // TODO: remove map property from MM.Layer
MM.getFrame(this.getRedraw());
return this;
},
// remove the layer at the given index, call .destroy() on the layer
removeLayerAt: function(index) {
if (index < 0 || index >= this.layers.length) {
throw new Error('invalid index in removeLayer(): ' + index);
}
// gone baby gone.
var old = this.layers[index];
this.layers.splice(index, 1);
old.destroy();
return this;
},
// switch the stacking order of two layers, by index
swapLayersAt: function(i, j) {
if (i < 0 || i >= this.layers.length || j < 0 || j >= this.layers.length) {
throw new Error('invalid index in swapLayersAt(): ' + index);
}
var layer1 = this.layers[i],
layer2 = this.layers[j],
dummy = document.createElement('div');
// kick layer2 out, replace it with the dummy.
this.parent.replaceChild(dummy, layer2.parent);
// put layer2 back in and kick layer1 out
this.parent.replaceChild(layer2.parent, layer1.parent);
// put layer1 back in and ditch the dummy
this.parent.replaceChild(layer1.parent, dummy);
// now do it to the layers array
this.layers[i] = layer2;
this.layers[j] = layer1;
return this;
},
// Enable and disable layers.
// Disabled layers are not displayed, are not drawn, and do not request
// tiles. They do maintain their layer index on the map.
enableLayer: function(name) {
var l = this.getLayer(name);
if (l) l.enable();
return this;
},
enableLayerAt: function(index) {
var l = this.getLayerAt(index);
if (l) l.enable();
return this;
},
disableLayer: function(name) {
var l = this.getLayer(name);
if (l) l.disable();
return this;
},
disableLayerAt: function(index) {
var l = this.getLayerAt(index);
if (l) l.disable();
return this;
},
// limits
enforceZoomLimits: function(coord) {
var limits = this.coordLimits;
if (limits) {
// clamp zoom level:
var minZoom = limits[0].zoom;
var maxZoom = limits[1].zoom;
if (coord.zoom < minZoom) {
coord = coord.zoomTo(minZoom);
}
else if (coord.zoom > maxZoom) {
coord = coord.zoomTo(maxZoom);
}
}
return coord;
},
enforcePanLimits: function(coord) {
if (this.coordLimits) {
coord = coord.copy();
// clamp pan:
var topLeftLimit = this.coordLimits[0].zoomTo(coord.zoom);
var bottomRightLimit = this.coordLimits[1].zoomTo(coord.zoom);
var currentTopLeft = this.pointCoordinate(new MM.Point(0, 0))
.zoomTo(coord.zoom);
var currentBottomRight = this.pointCoordinate(this.dimensions)
.zoomTo(coord.zoom);
// this handles infinite limits:
// (Infinity - Infinity) is Nan
// NaN is never less than anything
if (bottomRightLimit.row - topLeftLimit.row <
currentBottomRight.row - currentTopLeft.row) {
// if the limit is smaller than the current view center it
coord.row = (bottomRightLimit.row + topLeftLimit.row) / 2;
} else {
if (currentTopLeft.row < topLeftLimit.row) {
coord.row += topLeftLimit.row - currentTopLeft.row;
} else if (currentBottomRight.row > bottomRightLimit.row) {
coord.row -= currentBottomRight.row - bottomRightLimit.row;
}
}
if (bottomRightLimit.column - topLeftLimit.column <
currentBottomRight.column - currentTopLeft.column) {
// if the limit is smaller than the current view, center it
coord.column = (bottomRightLimit.column + topLeftLimit.column) / 2;
} else {
if (currentTopLeft.column < topLeftLimit.column) {
coord.column += topLeftLimit.column - currentTopLeft.column;
} else if (currentBottomRight.column > bottomRightLimit.column) {
coord.column -= currentBottomRight.column - bottomRightLimit.column;
}
}
}
return coord;
},
// Prevent accidentally navigating outside the `coordLimits` of the map.
enforceLimits: function(coord) {
return this.enforcePanLimits(this.enforceZoomLimits(coord));
},
// rendering
// Redraw the tiles on the map, reusing existing tiles.
draw: function() {
// make sure we're not too far in or out:
this.coordinate = this.enforceLimits(this.coordinate);
// if we don't have dimensions, check the parent size
if (this.dimensions.x <= 0 || this.dimensions.y <= 0) {
if (this.autoSize) {
// maybe the parent size has changed?
var w = this.parent.offsetWidth,
h = this.parent.offsetHeight;
this.dimensions = new MM.Point(w,h);
if (w <= 0 || h <= 0) {
return;
}
} else {
// the issue can only be corrected with setSize
return;
}
}
// draw layers one by one
for(var i = 0; i < this.layers.length; i++) {
this.layers[i].draw();
}
this.dispatchCallback('drawn');
},
_redrawTimer: undefined,
requestRedraw: function() {
// we'll always draw within 1 second of this request,
// sometimes faster if there's already a pending redraw
// this is used when a new tile arrives so that we clear
// any parent/child tiles that were only being displayed
// until the tile loads at the right zoom level
if (!this._redrawTimer) {
this._redrawTimer = setTimeout(this.getRedraw(), 1000);
}
},
_redraw: null,
getRedraw: function() {
// let's only create this closure once...
if (!this._redraw) {
var theMap = this;
this._redraw = function() {
theMap.draw();
theMap._redrawTimer = 0;
};
}
return this._redraw;
},
// Attempts to destroy all attachment a map has to a page
// and clear its memory usage.
destroy: function() {
for (var j = 0; j < this.layers.length; j++) {
this.layers[j].destroy();
}
this.layers = [];
this.projection = null;
for (var i = 0; i < this.eventHandlers.length; i++) {
this.eventHandlers[i].remove();
}
if (this.autoSize) {
MM.removeEvent(window, 'resize', this.windowResize());
}
}
};
// Instance of a map intended for drawing to a div.
//
// * `parent` (required DOM element)
// Can also be an ID of a DOM element
// * `provider` (required MM.MapProvider or URL template)
// * `location` (required MM.Location)
// Location for map to show
// * `zoom` (required number)
MM.mapByCenterZoom = function(parent, layerish, location, zoom) {
var layer = MM.coerceLayer(layerish),
map = new MM.Map(parent, layer, false);
map.setCenterZoom(location, zoom).draw();
return map;
};
// Instance of a map intended for drawing to a div.
//
// * `parent` (required DOM element)
// Can also be an ID of a DOM element
// * `provider` (required MM.MapProvider or URL template)
// * `locationA` (required MM.Location)
// Location of one map corner
// * `locationB` (required MM.Location)
// Location of other map corner
MM.mapByExtent = function(parent, layerish, locationA, locationB) {
var layer = MM.coerceLayer(layerish),
map = new MM.Map(parent, layer, false);
map.setExtent([locationA, locationB]).draw();
return map;
};
if (typeof module !== 'undefined' && module.exports) {
module.exports = {
Point: MM.Point,
Projection: MM.Projection,
MercatorProjection: MM.MercatorProjection,
LinearProjection: MM.LinearProjection,
Transformation: MM.Transformation,
Location: MM.Location,
MapProvider: MM.MapProvider,
Template: MM.Template,
Coordinate: MM.Coordinate,
deriveTransformation: MM.deriveTransformation
};
}
})(MM);
// Copyright Google Inc.
// Licensed under the Apache Licence Version 2.0
// Autogenerated at Tue Oct 11 13:36:46 EDT 2011
// @provides html4
var html4 = {};
html4.atype = {
NONE: 0,
URI: 1,
URI_FRAGMENT: 11,
SCRIPT: 2,
STYLE: 3,
ID: 4,
IDREF: 5,
IDREFS: 6,
GLOBAL_NAME: 7,
LOCAL_NAME: 8,
CLASSES: 9,
FRAME_TARGET: 10
};
html4.ATTRIBS = {
'*::class': 9,
'*::dir': 0,
'*::id': 4,
'*::lang': 0,
'*::onclick': 2,
'*::ondblclick': 2,
'*::onkeydown': 2,
'*::onkeypress': 2,
'*::onkeyup': 2,
'*::onload': 2,
'*::onmousedown': 2,
'*::onmousemove': 2,
'*::onmouseout': 2,
'*::onmouseover': 2,
'*::onmouseup': 2,
'*::style': 3,
'*::title': 0,
'a::accesskey': 0,
'a::coords': 0,
'a::href': 1,
'a::hreflang': 0,
'a::name': 7,
'a::onblur': 2,
'a::onfocus': 2,
'a::rel': 0,
'a::rev': 0,
'a::shape': 0,
'a::tabindex': 0,
'a::target': 10,
'a::type': 0,
'area::accesskey': 0,
'area::alt': 0,
'area::coords': 0,
'area::href': 1,
'area::nohref': 0,
'area::onblur': 2,
'area::onfocus': 2,
'area::shape': 0,
'area::tabindex': 0,
'area::target': 10,
'bdo::dir': 0,
'blockquote::cite': 1,
'br::clear': 0,
'button::accesskey': 0,
'button::disabled': 0,
'button::name': 8,
'button::onblur': 2,
'button::onfocus': 2,
'button::tabindex': 0,
'button::type': 0,
'button::value': 0,
'canvas::height': 0,
'canvas::width': 0,
'caption::align': 0,
'col::align': 0,
'col::char': 0,
'col::charoff': 0,
'col::span': 0,
'col::valign': 0,
'col::width': 0,
'colgroup::align': 0,
'colgroup::char': 0,
'colgroup::charoff': 0,
'colgroup::span': 0,
'colgroup::valign': 0,
'colgroup::width': 0,
'del::cite': 1,
'del::datetime': 0,
'dir::compact': 0,
'div::align': 0,
'dl::compact': 0,
'font::color': 0,
'font::face': 0,
'font::size': 0,
'form::accept': 0,
'form::action': 1,
'form::autocomplete': 0,
'form::enctype': 0,
'form::method': 0,
'form::name': 7,
'form::onreset': 2,
'form::onsubmit': 2,
'form::target': 10,
'h1::align': 0,
'h2::align': 0,
'h3::align': 0,
'h4::align': 0,
'h5::align': 0,
'h6::align': 0,
'hr::align': 0,
'hr::noshade': 0,
'hr::size': 0,
'hr::width': 0,
'iframe::align': 0,
'iframe::frameborder': 0,
'iframe::height': 0,
'iframe::marginheight': 0,
'iframe::marginwidth': 0,
'iframe::width': 0,
'img::align': 0,
'img::alt': 0,
'img::border': 0,
'img::height': 0,
'img::hspace': 0,
'img::ismap': 0,
'img::name': 7,
'img::src': 1,
'img::usemap': 11,
'img::vspace': 0,
'img::width': 0,
'input::accept': 0,
'input::accesskey': 0,
'input::align': 0,
'input::alt': 0,
'input::autocomplete': 0,
'input::checked': 0,
'input::disabled': 0,
'input::ismap': 0,
'input::maxlength': 0,
'input::name': 8,
'input::onblur': 2,
'input::onchange': 2,
'input::onfocus': 2,
'input::onselect': 2,
'input::readonly': 0,
'input::size': 0,
'input::src': 1,
'input::tabindex': 0,
'input::type': 0,
'input::usemap': 11,
'input::value': 0,
'ins::cite': 1,
'ins::datetime': 0,
'label::accesskey': 0,
'label::for': 5,
'label::onblur': 2,
'label::onfocus': 2,
'legend::accesskey': 0,
'legend::align': 0,
'li::type': 0,
'li::value': 0,
'map::name': 7,
'menu::compact': 0,
'ol::compact': 0,
'ol::start': 0,
'ol::type': 0,
'optgroup::disabled': 0,
'optgroup::label': 0,
'option::disabled': 0,
'option::label': 0,
'option::selected': 0,
'option::value': 0,
'p::align': 0,
'pre::width': 0,
'q::cite': 1,
'select::disabled': 0,
'select::multiple': 0,
'select::name': 8,
'select::onblur': 2,
'select::onchange': 2,
'select::onfocus': 2,
'select::size': 0,
'select::tabindex': 0,
'table::align': 0,
'table::bgcolor': 0,
'table::border': 0,
'table::cellpadding': 0,
'table::cellspacing': 0,
'table::frame': 0,
'table::rules': 0,
'table::summary': 0,
'table::width': 0,
'tbody::align': 0,
'tbody::char': 0,
'tbody::charoff': 0,
'tbody::valign': 0,
'td::abbr': 0,
'td::align': 0,
'td::axis': 0,
'td::bgcolor': 0,
'td::char': 0,
'td::charoff': 0,
'td::colspan': 0,
'td::headers': 6,
'td::height': 0,
'td::nowrap': 0,
'td::rowspan': 0,
'td::scope': 0,
'td::valign': 0,
'td::width': 0,
'textarea::accesskey': 0,
'textarea::cols': 0,
'textarea::disabled': 0,
'textarea::name': 8,
'textarea::onblur': 2,
'textarea::onchange': 2,
'textarea::onfocus': 2,
'textarea::onselect': 2,
'textarea::readonly': 0,
'textarea::rows': 0,
'textarea::tabindex': 0,
'tfoot::align': 0,
'tfoot::char': 0,
'tfoot::charoff': 0,
'tfoot::valign': 0,
'th::abbr': 0,
'th::align': 0,
'th::axis': 0,
'th::bgcolor': 0,
'th::char': 0,
'th::charoff': 0,
'th::colspan': 0,
'th::headers': 6,
'th::height': 0,
'th::nowrap': 0,
'th::rowspan': 0,
'th::scope': 0,
'th::valign': 0,
'th::width': 0,
'thead::align': 0,
'thead::char': 0,
'thead::charoff': 0,
'thead::valign': 0,
'tr::align': 0,
'tr::bgcolor': 0,
'tr::char': 0,
'tr::charoff': 0,
'tr::valign': 0,
'ul::compact': 0,
'ul::type': 0
};
html4.eflags = {
OPTIONAL_ENDTAG: 1,
EMPTY: 2,
CDATA: 4,
RCDATA: 8,
UNSAFE: 16,
FOLDABLE: 32,
SCRIPT: 64,
STYLE: 128
};
html4.ELEMENTS = {
'a': 0,
'abbr': 0,
'acronym': 0,
'address': 0,
'applet': 16,
'area': 2,
'b': 0,
'base': 18,
'basefont': 18,
'bdo': 0,
'big': 0,
'blockquote': 0,
'body': 49,
'br': 2,
'button': 0,
'canvas': 0,
'caption': 0,
'center': 0,
'cite': 0,
'code': 0,
'col': 2,
'colgroup': 1,
'dd': 1,
'del': 0,
'dfn': 0,
'dir': 0,
'div': 0,
'dl': 0,
'dt': 1,
'em': 0,
'fieldset': 0,
'font': 0,
'form': 0,
'frame': 18,
'frameset': 16,
'h1': 0,
'h2': 0,
'h3': 0,
'h4': 0,
'h5': 0,
'h6': 0,
'head': 49,
'hr': 2,
'html': 49,
'i': 0,
'iframe': 4,
'img': 2,
'input': 2,
'ins': 0,
'isindex': 18,
'kbd': 0,
'label': 0,
'legend': 0,
'li': 1,
'link': 18,
'map': 0,
'menu': 0,
'meta': 18,
'nobr': 0,
'noembed': 4,
'noframes': 20,
'noscript': 20,
'object': 16,
'ol': 0,
'optgroup': 0,
'option': 1,
'p': 1,
'param': 18,
'pre': 0,
'q': 0,
's': 0,
'samp': 0,
'script': 84,
'select': 0,
'small': 0,
'span': 0,
'strike': 0,
'strong': 0,
'style': 148,
'sub': 0,
'sup': 0,
'table': 0,
'tbody': 1,
'td': 1,
'textarea': 8,
'tfoot': 1,
'th': 1,
'thead': 1,
'title': 24,
'tr': 1,
'tt': 0,
'u': 0,
'ul': 0,
'var': 0
};
html4.ueffects = {
NOT_LOADED: 0,
SAME_DOCUMENT: 1,
NEW_DOCUMENT: 2
};
html4.URIEFFECTS = {
'a::href': 2,
'area::href': 2,
'blockquote::cite': 0,
'body::background': 1,
'del::cite': 0,
'form::action': 2,
'img::src': 1,
'input::src': 1,
'ins::cite': 0,
'q::cite': 0
};
html4.ltypes = {
UNSANDBOXED: 2,
SANDBOXED: 1,
DATA: 0
};
html4.LOADERTYPES = {
'a::href': 2,
'area::href': 2,
'blockquote::cite': 2,
'body::background': 1,
'del::cite': 2,
'form::action': 2,
'img::src': 1,
'input::src': 1,
'ins::cite': 2,
'q::cite': 2
};;
// Copyright (C) 2006 Google Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
/**
* @fileoverview
* An HTML sanitizer that can satisfy a variety of security policies.
*
* <p>
* The HTML sanitizer is built around a SAX parser and HTML element and
* attributes schemas.
*
* @author mikesamuel@gmail.com
* @requires html4
* @overrides window
* @provides html, html_sanitize
*/
/**
* @namespace
*/
var html = (function (html4) {
var lcase;
// The below may not be true on browsers in the Turkish locale.
if ('script' === 'SCRIPT'.toLowerCase()) {
lcase = function (s) { return s.toLowerCase(); };
} else {
/**
* {@updoc
* $ lcase('SCRIPT')
* # 'script'
* $ lcase('script')
* # 'script'
* }
*/
lcase = function (s) {
return s.replace(
/[A-Z]/g,
function (ch) {
return String.fromCharCode(ch.charCodeAt(0) | 32);
});
};
}
var ENTITIES = {
lt : '<',
gt : '>',
amp : '&',
nbsp : '\240',
quot : '"',
apos : '\''
};
// Schemes on which to defer to uripolicy. Urls with other schemes are denied
var WHITELISTED_SCHEMES = /^(?:https?|mailto|data)$/i;
var decimalEscapeRe = /^#(\d+)$/;
var hexEscapeRe = /^#x([0-9A-Fa-f]+)$/;
/**
* Decodes an HTML entity.
*
* {@updoc
* $ lookupEntity('lt')
* # '<'
* $ lookupEntity('GT')
* # '>'
* $ lookupEntity('amp')
* # '&'
* $ lookupEntity('nbsp')
* # '\xA0'
* $ lookupEntity('apos')
* # "'"
* $ lookupEntity('quot')
* # '"'
* $ lookupEntity('#xa')
* # '\n'
* $ lookupEntity('#10')
* # '\n'
* $ lookupEntity('#x0a')
* # '\n'
* $ lookupEntity('#010')
* # '\n'
* $ lookupEntity('#x00A')
* # '\n'
* $ lookupEntity('Pi') // Known failure
* # '\u03A0'
* $ lookupEntity('pi') // Known failure
* # '\u03C0'
* }
*
* @param name the content between the '&' and the ';'.
* @return a single unicode code-point as a string.
*/
function lookupEntity(name) {
name = lcase(name); // TODO: &pi; is different from &Pi;
if (ENTITIES.hasOwnProperty(name)) { return ENTITIES[name]; }
var m = name.match(decimalEscapeRe);
if (m) {
return String.fromCharCode(parseInt(m[1], 10));
} else if (!!(m = name.match(hexEscapeRe))) {
return String.fromCharCode(parseInt(m[1], 16));
}
return '';
}
function decodeOneEntity(_, name) {
return lookupEntity(name);
}
var nulRe = /\0/g;
function stripNULs(s) {
return s.replace(nulRe, '');
}
var entityRe = /&(#\d+|#x[0-9A-Fa-f]+|\w+);/g;
/**
* The plain text of a chunk of HTML CDATA which possibly containing.
*
* {@updoc
* $ unescapeEntities('')
* # ''
* $ unescapeEntities('hello World!')
* # 'hello World!'
* $ unescapeEntities('1 &lt; 2 &amp;&AMP; 4 &gt; 3&#10;')
* # '1 < 2 && 4 > 3\n'
* $ unescapeEntities('&lt;&lt <- unfinished entity&gt;')
* # '<&lt <- unfinished entity>'
* $ unescapeEntities('/foo?bar=baz&copy=true') // & often unescaped in URLS
* # '/foo?bar=baz&copy=true'
* $ unescapeEntities('pi=&pi;&#x3c0;, Pi=&Pi;\u03A0') // FIXME: known failure
* # 'pi=\u03C0\u03c0, Pi=\u03A0\u03A0'
* }
*
* @param s a chunk of HTML CDATA. It must not start or end inside an HTML
* entity.
*/
function unescapeEntities(s) {
return s.replace(entityRe, decodeOneEntity);
}
var ampRe = /&/g;
var looseAmpRe = /&([^a-z#]|#(?:[^0-9x]|x(?:[^0-9a-f]|$)|$)|$)/gi;
var ltRe = /</g;
var gtRe = />/g;
var quotRe = /\"/g;
var eqRe = /\=/g; // Backslash required on JScript.net
/**
* Escapes HTML special characters in attribute values as HTML entities.
*
* {@updoc
* $ escapeAttrib('')
* # ''
* $ escapeAttrib('"<<&==&>>"') // Do not just escape the first occurrence.
* # '&#34;&lt;&lt;&amp;&#61;&#61;&amp;&gt;&gt;&#34;'
* $ escapeAttrib('Hello <World>!')
* # 'Hello &lt;World&gt;!'
* }
*/
function escapeAttrib(s) {
// Escaping '=' defangs many UTF-7 and SGML short-tag attacks.
return s.replace(ampRe, '&amp;').replace(ltRe, '&lt;').replace(gtRe, '&gt;')
.replace(quotRe, '&#34;').replace(eqRe, '&#61;');
}
/**
* Escape entities in RCDATA that can be escaped without changing the meaning.
* {@updoc
* $ normalizeRCData('1 < 2 &&amp; 3 > 4 &amp;& 5 &lt; 7&8')
* # '1 &lt; 2 &amp;&amp; 3 &gt; 4 &amp;&amp; 5 &lt; 7&amp;8'
* }
*/
function normalizeRCData(rcdata) {
return rcdata
.replace(looseAmpRe, '&amp;$1')
.replace(ltRe, '&lt;')
.replace(gtRe, '&gt;');
}
// TODO(mikesamuel): validate sanitizer regexs against the HTML5 grammar at
// http://www.whatwg.org/specs/web-apps/current-work/multipage/syntax.html
// http://www.whatwg.org/specs/web-apps/current-work/multipage/parsing.html
// http://www.whatwg.org/specs/web-apps/current-work/multipage/tokenization.html
// http://www.whatwg.org/specs/web-apps/current-work/multipage/tree-construction.html
/** token definitions. */
var INSIDE_TAG_TOKEN = new RegExp(
// Don't capture space.
'^\\s*(?:'
// Capture an attribute name in group 1, and value in group 3.
// We capture the fact that there was an attribute in group 2, since
// interpreters are inconsistent in whether a group that matches nothing
// is null, undefined, or the empty string.
+ ('(?:'
+ '([a-z][a-z-]*)' // attribute name
+ ('(' // optionally followed
+ '\\s*=\\s*'
+ ('('
// A double quoted string.
+ '\"[^\"]*\"'
// A single quoted string.
+ '|\'[^\']*\''
// The positive lookahead is used to make sure that in
// <foo bar= baz=boo>, the value for bar is blank, not "baz=boo".
+ '|(?=[a-z][a-z-]*\\s*=)'
// An unquoted value that is not an attribute name.
// We know it is not an attribute name because the previous
// zero-width match would've eliminated that possibility.
+ '|[^>\"\'\\s]*'
+ ')'
)
+ ')'
) + '?'
+ ')'
)
// End of tag captured in group 3.
+ '|(\/?>)'
// Don't capture cruft
+ '|[\\s\\S][^a-z\\s>]*)',
'i');
var OUTSIDE_TAG_TOKEN = new RegExp(
'^(?:'
// Entity captured in group 1.
+ '&(\\#[0-9]+|\\#[x][0-9a-f]+|\\w+);'
// Comment, doctypes, and processing instructions not captured.
+ '|<\!--[\\s\\S]*?--\>|<!\\w[^>]*>|<\\?[^>*]*>'
// '/' captured in group 2 for close tags, and name captured in group 3.
+ '|<(\/)?([a-z][a-z0-9]*)'
// Text captured in group 4.
+ '|([^<&>]+)'
// Cruft captured in group 5.
+ '|([<&>]))',
'i');
/**
* Given a SAX-like event handler, produce a function that feeds those
* events and a parameter to the event handler.
*
* The event handler has the form:{@code
* {
* // Name is an upper-case HTML tag name. Attribs is an array of
* // alternating upper-case attribute names, and attribute values. The
* // attribs array is reused by the parser. Param is the value passed to
* // the saxParser.
* startTag: function (name, attribs, param) { ... },
* endTag: function (name, param) { ... },
* pcdata: function (text, param) { ... },
* rcdata: function (text, param) { ... },
* cdata: function (text, param) { ... },
* startDoc: function (param) { ... },
* endDoc: function (param) { ... }
* }}
*
* @param {Object} handler a record containing event handlers.
* @return {Function} that takes a chunk of html and a parameter.
* The parameter is passed on to the handler methods.
*/
function makeSaxParser(handler) {
return function parse(htmlText, param) {
htmlText = String(htmlText);
var htmlLower = null;
var inTag = false; // True iff we're currently processing a tag.
var attribs = []; // Accumulates attribute names and values.
var tagName = void 0; // The name of the tag currently being processed.
var eflags = void 0; // The element flags for the current tag.
var openTag = void 0; // True if the current tag is an open tag.
if (handler.startDoc) { handler.startDoc(param); }
while (htmlText) {
var m = htmlText.match(inTag ? INSIDE_TAG_TOKEN : OUTSIDE_TAG_TOKEN);
htmlText = htmlText.substring(m[0].length);
if (inTag) {
if (m[1]) { // attribute
// setAttribute with uppercase names doesn't work on IE6.
var attribName = lcase(m[1]);
var decodedValue;
if (m[2]) {
var encodedValue = m[3];
switch (encodedValue.charCodeAt(0)) { // Strip quotes
case 34: case 39:
encodedValue = encodedValue.substring(
1, encodedValue.length - 1);
break;
}
decodedValue = unescapeEntities(stripNULs(encodedValue));
} else {
// Use name as value for valueless attribs, so
// <input type=checkbox checked>
// gets attributes ['type', 'checkbox', 'checked', 'checked']
decodedValue = attribName;
}
attribs.push(attribName, decodedValue);
} else if (m[4]) {
if (eflags !== void 0) { // False if not in whitelist.
if (openTag) {
if (handler.startTag) {
handler.startTag(tagName, attribs, param);
}
} else {
if (handler.endTag) {
handler.endTag(tagName, param);
}
}
}
if (openTag
&& (eflags & (html4.eflags.CDATA | html4.eflags.RCDATA))) {
if (htmlLower === null) {
htmlLower = lcase(htmlText);
} else {
htmlLower = htmlLower.substring(
htmlLower.length - htmlText.length);
}
var dataEnd = htmlLower.indexOf('</' + tagName);
if (dataEnd < 0) { dataEnd = htmlText.length; }
if (dataEnd) {
if (eflags & html4.eflags.CDATA) {
if (handler.cdata) {
handler.cdata(htmlText.substring(0, dataEnd), param);
}
} else if (handler.rcdata) {
handler.rcdata(
normalizeRCData(htmlText.substring(0, dataEnd)), param);
}
htmlText = htmlText.substring(dataEnd);
}
}
tagName = eflags = openTag = void 0;
attribs.length = 0;
inTag = false;
}
} else {
if (m[1]) { // Entity
if (handler.pcdata) { handler.pcdata(m[0], param); }
} else if (m[3]) { // Tag
openTag = !m[2];
inTag = true;
tagName = lcase(m[3]);
eflags = html4.ELEMENTS.hasOwnProperty(tagName)
? html4.ELEMENTS[tagName] : void 0;
} else if (m[4]) { // Text
if (handler.pcdata) { handler.pcdata(m[4], param); }
} else if (m[5]) { // Cruft
if (handler.pcdata) {
var ch = m[5];
handler.pcdata(
ch === '<' ? '&lt;' : ch === '>' ? '&gt;' : '&amp;',
param);
}
}
}
}
if (handler.endDoc) { handler.endDoc(param); }
};
}
/**
* Returns a function that strips unsafe tags and attributes from html.
* @param {Function} sanitizeAttributes
* maps from (tagName, attribs[]) to null or a sanitized attribute array.
* The attribs array can be arbitrarily modified, but the same array
* instance is reused, so should not be held.
* @return {Function} from html to sanitized html
*/
function makeHtmlSanitizer(sanitizeAttributes) {
var stack;
var ignoring;
return makeSaxParser({
startDoc: function (_) {
stack = [];
ignoring = false;
},
startTag: function (tagName, attribs, out) {
if (ignoring) { return; }
if (!html4.ELEMENTS.hasOwnProperty(tagName)) { return; }
var eflags = html4.ELEMENTS[tagName];
if (eflags & html4.eflags.FOLDABLE) {
return;
} else if (eflags & html4.eflags.UNSAFE) {
ignoring = !(eflags & html4.eflags.EMPTY);
return;
}
attribs = sanitizeAttributes(tagName, attribs);
// TODO(mikesamuel): relying on sanitizeAttributes not to
// insert unsafe attribute names.
if (attribs) {
if (!(eflags & html4.eflags.EMPTY)) {
stack.push(tagName);
}
out.push('<', tagName);
for (var i = 0, n = attribs.length; i < n; i += 2) {
var attribName = attribs[i],
value = attribs[i + 1];
if (value !== null && value !== void 0) {
out.push(' ', attribName, '="', escapeAttrib(value), '"');
}
}
out.push('>');
}
},
endTag: function (tagName, out) {
if (ignoring) {
ignoring = false;
return;
}
if (!html4.ELEMENTS.hasOwnProperty(tagName)) { return; }
var eflags = html4.ELEMENTS[tagName];
if (!(eflags & (html4.eflags.UNSAFE | html4.eflags.EMPTY
| html4.eflags.FOLDABLE))) {
var index;
if (eflags & html4.eflags.OPTIONAL_ENDTAG) {
for (index = stack.length; --index >= 0;) {
var stackEl = stack[index];
if (stackEl === tagName) { break; }
if (!(html4.ELEMENTS[stackEl]
& html4.eflags.OPTIONAL_ENDTAG)) {
// Don't pop non optional end tags looking for a match.
return;
}
}
} else {
for (index = stack.length; --index >= 0;) {
if (stack[index] === tagName) { break; }
}
}
if (index < 0) { return; } // Not opened.
for (var i = stack.length; --i > index;) {
var stackEl = stack[i];
if (!(html4.ELEMENTS[stackEl]
& html4.eflags.OPTIONAL_ENDTAG)) {
out.push('</', stackEl, '>');
}
}
stack.length = index;
out.push('</', tagName, '>');
}
},
pcdata: function (text, out) {
if (!ignoring) { out.push(text); }
},
rcdata: function (text, out) {
if (!ignoring) { out.push(text); }
},
cdata: function (text, out) {
if (!ignoring) { out.push(text); }
},
endDoc: function (out) {
for (var i = stack.length; --i >= 0;) {
out.push('</', stack[i], '>');
}
stack.length = 0;
}
});
}
// From RFC3986
var URI_SCHEME_RE = new RegExp(
"^" +
"(?:" +
"([^:\/?#]+)" + // scheme
":)?"
);
/**
* Strips unsafe tags and attributes from html.
* @param {string} htmlText to sanitize
* @param {Function} opt_uriPolicy -- a transform to apply to uri/url
* attribute values. If no opt_uriPolicy is provided, no uris
* are allowed ie. the default uriPolicy rewrites all uris to null
* @param {Function} opt_nmTokenPolicy : string -> string? -- a transform to
* apply to names, ids, and classes. If no opt_nmTokenPolicy is provided,
* all names, ids and classes are passed through ie. the default
* nmTokenPolicy is an identity transform
* @return {string} html
*/
function sanitize(htmlText, opt_uriPolicy, opt_nmTokenPolicy) {
var out = [];
makeHtmlSanitizer(
function sanitizeAttribs(tagName, attribs) {
for (var i = 0; i < attribs.length; i += 2) {
var attribName = attribs[i];
var value = attribs[i + 1];
var atype = null, attribKey;
if ((attribKey = tagName + '::' + attribName,
html4.ATTRIBS.hasOwnProperty(attribKey))
|| (attribKey = '*::' + attribName,
html4.ATTRIBS.hasOwnProperty(attribKey))) {
atype = html4.ATTRIBS[attribKey];
}
if (atype !== null) {
switch (atype) {
case html4.atype.NONE: break;
case html4.atype.SCRIPT:
case html4.atype.STYLE:
value = null;
break;
case html4.atype.ID:
case html4.atype.IDREF:
case html4.atype.IDREFS:
case html4.atype.GLOBAL_NAME:
case html4.atype.LOCAL_NAME:
case html4.atype.CLASSES:
value = opt_nmTokenPolicy ? opt_nmTokenPolicy(value) : value;
break;
case html4.atype.URI:
var parsedUri = ('' + value).match(URI_SCHEME_RE);
if (!parsedUri) {
value = null;
} else if (!parsedUri[1] ||
WHITELISTED_SCHEMES.test(parsedUri[1])) {
value = opt_uriPolicy && opt_uriPolicy(value);
} else {
value = null;
}
break;
case html4.atype.URI_FRAGMENT:
if (value && '#' === value.charAt(0)) {
value = opt_nmTokenPolicy ? opt_nmTokenPolicy(value) : value;
if (value) { value = '#' + value; }
} else {
value = null;
}
break;
default:
value = null;
break;
}
} else {
value = null;
}
attribs[i + 1] = value;
}
return attribs;
})(htmlText, out);
return out.join('');
}
return {
escapeAttrib: escapeAttrib,
makeHtmlSanitizer: makeHtmlSanitizer,
makeSaxParser: makeSaxParser,
normalizeRCData: normalizeRCData,
sanitize: sanitize,
unescapeEntities: unescapeEntities
};
})(html4);
var html_sanitize = html.sanitize;
// Exports for closure compiler. Note this file is also cajoled
// for domado and run in an environment without 'window'
if (typeof window !== 'undefined') {
window['html'] = html;
window['html_sanitize'] = html_sanitize;
}
// Loosen restrictions of Caja's
// html-sanitizer to allow for styling
html4.ATTRIBS['*::style'] = 0;
html4.ELEMENTS['style'] = 0;
html4.ATTRIBS['a::target'] = 0;
html4.ELEMENTS['video'] = 0;
html4.ATTRIBS['video::src'] = 0;
html4.ATTRIBS['video::poster'] = 0;
html4.ATTRIBS['video::controls'] = 0;
html4.ELEMENTS['audio'] = 0;
html4.ATTRIBS['audio::src'] = 0;
html4.ATTRIBS['video::autoplay'] = 0;
html4.ATTRIBS['video::controls'] = 0;
;wax = wax || {};
// Attribution
// -----------
wax.attribution = function() {
var a = {};
var container = document.createElement('div');
container.className = 'map-attribution';
a.content = function(x) {
if (typeof x === 'undefined') return container.innerHTML;
container.innerHTML = wax.u.sanitize(x);
return this;
};
a.element = function() {
return container;
};
a.init = function() {
return this;
};
return a;
};
wax = wax || {};
// Attribution
// -----------
wax.bwdetect = function(options, callback) {
var detector = {},
threshold = options.threshold || 400,
// test image: 30.29KB
testImage = 'http://a.tiles.mapbox.com/mapbox/1.0.0/blue-marble-topo-bathy-jul/0/0/0.png?preventcache=' + (+new Date()),
// High-bandwidth assumed
// 1: high bandwidth (.png, .jpg)
// 0: low bandwidth (.png128, .jpg70)
bw = 1,
// Alternative versions
auto = options.auto === undefined ? true : options.auto;
function bwTest() {
wax.bw = -1;
var im = new Image();
im.src = testImage;
var first = true;
var timeout = setTimeout(function() {
if (first && wax.bw == -1) {
detector.bw(0);
first = false;
}
}, threshold);
im.onload = function() {
if (first && wax.bw == -1) {
clearTimeout(timeout);
detector.bw(1);
first = false;
}
};
}
detector.bw = function(x) {
if (!arguments.length) return bw;
var oldBw = bw;
if (wax.bwlisteners && wax.bwlisteners.length) (function () {
listeners = wax.bwlisteners;
wax.bwlisteners = [];
for (i = 0; i < listeners; i++) {
listeners[i](x);
}
})();
wax.bw = x;
if (bw != (bw = x)) callback(x);
};
detector.add = function() {
if (auto) bwTest();
return this;
};
if (wax.bw == -1) {
wax.bwlisteners = wax.bwlisteners || [];
wax.bwlisteners.push(detector.bw);
} else if (wax.bw !== undefined) {
detector.bw(wax.bw);
} else {
detector.add();
}
return detector;
};
// Formatter
// ---------
//
// This code is no longer the recommended code path for Wax -
// see `template.js`, a safe implementation of Mustache templates.
wax.formatter = function(x) {
var formatter = {},
f;
// Prevent against just any input being used.
if (x && typeof x === 'string') {
try {
// Ugly, dangerous use of eval.
eval('f = ' + x);
} catch (e) {
if (console) console.log(e);
}
} else if (x && typeof x === 'function') {
f = x;
} else {
f = function() {};
}
// Wrap the given formatter function in order to
// catch exceptions that it may throw.
formatter.format = function(options, data) {
try {
return wax.u.sanitize(f(options, data));
} catch (e) {
if (console) console.log(e);
}
};
return formatter;
};
// GridInstance
// ------------
// GridInstances are queryable, fully-formed
// objects for acquiring features from events.
//
// This code ignores format of 1.1-1.2
wax.gi = function(grid_tile, options) {
options = options || {};
// resolution is the grid-elements-per-pixel ratio of gridded data.
// The size of a tile element. For now we expect tiles to be squares.
var instance = {},
resolution = options.resolution || 4,
tileSize = options.tileSize || 256;
// Resolve the UTF-8 encoding stored in grids to simple
// number values.
// See the [utfgrid spec](https://github.com/mapbox/utfgrid-spec)
// for details.
function resolveCode(key) {
if (key >= 93) key--;
if (key >= 35) key--;
key -= 32;
return key;
}
instance.grid_tile = function() {
return grid_tile;
};
instance.getKey = function(x, y) {
if (!(grid_tile && grid_tile.grid)) return;
if ((y < 0) || (x < 0)) return;
if ((Math.floor(y) >= tileSize) ||
(Math.floor(x) >= tileSize)) return;
// Find the key in the grid. The above calls should ensure that
// the grid's array is large enough to make this work.
return resolveCode(grid_tile.grid[
Math.floor((y) / resolution)
].charCodeAt(
Math.floor((x) / resolution)
));
};
// Lower-level than tileFeature - has nothing to do
// with the DOM. Takes a px offset from 0, 0 of a grid.
instance.gridFeature = function(x, y) {
// Find the key in the grid. The above calls should ensure that
// the grid's array is large enough to make this work.
var key = this.getKey(x, y),
keys = grid_tile.keys;
if (keys &&
keys[key] &&
grid_tile.data[keys[key]]) {
return grid_tile.data[keys[key]];
}
};
// Get a feature:
// * `x` and `y`: the screen coordinates of an event
// * `tile_element`: a DOM element of a tile, from which we can get an offset.
instance.tileFeature = function(x, y, tile_element) {
if (!grid_tile) return;
// IE problem here - though recoverable, for whatever reason
var offset = wax.u.offset(tile_element);
feature = this.gridFeature(x - offset.left, y - offset.top);
return feature;
};
return instance;
};
// GridManager
// -----------
// Generally one GridManager will be used per map.
//
// It takes one options object, which current accepts a single option:
// `resolution` determines the number of pixels per grid element in the grid.
// The default is 4.
wax.gm = function() {
var resolution = 4,
grid_tiles = {},
manager = {},
tilejson,
formatter;
var gridUrl = function(url) {
if (url) {
return url.replace(/(\.png|\.jpg|\.jpeg)(\d*)/, '.grid.json');
}
};
function templatedGridUrl(template) {
if (typeof template === 'string') template = [template];
return function templatedGridFinder(url) {
if (!url) return;
var rx = new RegExp('/(\\d+)\\/(\\d+)\\/(\\d+)\\.[\\w\\._]+');
var xyz = rx.exec(url);
if (!xyz) return;
return template[parseInt(xyz[2], 10) % template.length]
.replace(/\{z\}/g, xyz[1])
.replace(/\{x\}/g, xyz[2])
.replace(/\{y\}/g, xyz[3]);
};
}
manager.formatter = function(x) {
if (!arguments.length) return formatter;
formatter = wax.formatter(x);
return manager;
};
manager.template = function(x) {
if (!arguments.length) return formatter;
formatter = wax.template(x);
return manager;
};
manager.gridUrl = function(x) {
// Getter-setter
if (!arguments.length) return gridUrl;
// Handle tilesets that don't support grids
if (!x) {
gridUrl = function() { return null; };
} else {
gridUrl = typeof x === 'function' ?
x : templatedGridUrl(x);
}
return manager;
};
manager.getGrid = function(url, callback) {
var gurl = gridUrl(url);
if (!formatter || !gurl) return callback(null, null);
wax.request.get(gurl, function(err, t) {
if (err) return callback(err, null);
callback(null, wax.gi(t, {
formatter: formatter,
resolution: resolution
}));
});
return manager;
};
manager.tilejson = function(x) {
if (!arguments.length) return tilejson;
// prefer templates over formatters
if (x.template) {
manager.template(x.template);
} else if (x.formatter) {
manager.formatter(x.formatter);
} else {
// In this case, we cannot support grids
formatter = undefined;
}
manager.gridUrl(x.grids);
if (x.resolution) resolution = x.resolution;
tilejson = x;
return manager;
};
return manager;
};
wax = wax || {};
// Hash
// ----
wax.hash = function(options) {
options = options || {};
var s0, // old hash
hash = {},
lat = 90 - 1e-8; // allowable latitude range
function getState() {
return location.hash.substring(1);
}
function pushState(state) {
var l = window.location;
l.replace(l.toString().replace((l.hash || /$/), '#' + state));
}
function parseHash(s) {
var args = s.split('/');
for (var i = 0; i < args.length; i++) {
args[i] = Number(args[i]);
if (isNaN(args[i])) return true;
}
if (args.length < 3) {
// replace bogus hash
return true;
} else if (args.length == 3) {
options.setCenterZoom(args);
}
}
function move() {
var s1 = options.getCenterZoom();
if (s0 !== s1) {
s0 = s1;
// don't recenter the map!
pushState(s0);
}
}
function stateChange(state) {
// ignore spurious hashchange events
if (state === s0) return;
if (parseHash(s0 = state)) {
// replace bogus hash
move();
}
}
var _move = wax.u.throttle(move, 500);
hash.add = function() {
stateChange(getState());
options.bindChange(_move);
return hash;
};
hash.remove = function() {
options.unbindChange(_move);
return hash;
};
return hash;
};
wax = wax || {};
wax.interaction = function() {
var gm = wax.gm(),
interaction = {},
_downLock = false,
_clickTimeout = null,
// Active feature
// Down event
_d,
// Touch tolerance
tol = 4,
grid,
attach,
detach,
parent,
map,
tileGrid;
var defaultEvents = {
mousemove: onMove,
touchstart: onDown,
mousedown: onDown
};
var touchEnds = {
touchend: onUp,
touchmove: onUp,
touchcancel: touchCancel
};
// Abstract getTile method. Depends on a tilegrid with
// grid[ [x, y, tile] ] structure.
function getTile(e) {
var g = grid();
for (var i = 0; i < g.length; i++) {
if ((g[i][0] < e.y) &&
((g[i][0] + 256) > e.y) &&
(g[i][1] < e.x) &&
((g[i][1] + 256) > e.x)) return g[i][2];
}
return false;
}
// Clear the double-click timeout to prevent double-clicks from
// triggering popups.
function killTimeout() {
if (_clickTimeout) {
window.clearTimeout(_clickTimeout);
_clickTimeout = null;
return true;
} else {
return false;
}
}
function onMove(e) {
// If the user is actually dragging the map, exit early
// to avoid performance hits.
if (_downLock) return;
var pos = wax.u.eventoffset(e);
interaction.screen_feature(pos, function(feature) {
if (feature) {
bean.fire(interaction, 'on', {
parent: parent(),
data: feature,
formatter: gm.formatter().format,
e: e
});
} else {
bean.fire(interaction, 'off');
}
});
}
function dragEnd() {
_downLock = false;
}
// A handler for 'down' events - which means `mousedown` and `touchstart`
function onDown(e) {
// Prevent interaction offset calculations happening while
// the user is dragging the map.
//
// Store this event so that we can compare it to the
// up event
_downLock = true;
_d = wax.u.eventoffset(e);
if (e.type === 'mousedown') {
bean.add(document.body, 'click', onUp);
// track mouse up to remove lockDown when the drags end
bean.add(document.body, 'mouseup', dragEnd);
// Only track single-touches. Double-touches will not affect this
// control
} else if (e.type === 'touchstart' && e.touches.length === 1) {
// Don't make the user click close if they hit another tooltip
bean.fire(interaction, 'off');
// Touch moves invalidate touches
bean.add(e.srcElement, touchEnds);
}
}
function touchCancel(e) {
bean.remove(e.srcElement, touchEnds);
_downLock = false;
}
function onUp(e) {
var evt = {},
pos = wax.u.eventoffset(e);
_downLock = false;
// TODO: refine
for (var key in e) {
evt[key] = e[key];
}
bean.remove(document.body, 'mouseup', onUp);
bean.remove(e.srcElement, touchEnds);
if (e.type === 'touchend') {
// If this was a touch and it survived, there's no need to avoid a double-tap
// but also wax.u.eventoffset will have failed, since this touch
// event doesn't have coordinates
interaction.click(e, _d);
} else if (Math.round(pos.y / tol) === Math.round(_d.y / tol) &&
Math.round(pos.x / tol) === Math.round(_d.x / tol)) {
// Contain the event data in a closure.
// Ignore double-clicks by ignoring clicks within 300ms of
// each other.
if(!_clickTimeout) {
_clickTimeout = window.setTimeout(function() {
_clickTimeout = null;
interaction.click(evt, pos);
}, 300);
} else {
killTimeout();
}
}
return onUp;
}
// Handle a click event. Takes a second
interaction.click = function(e, pos) {
interaction.screen_feature(pos, function(feature) {
if (feature) bean.fire(interaction, 'on', {
parent: parent(),
data: feature,
formatter: gm.formatter().format,
e: e
});
});
};
interaction.screen_feature = function(pos, callback) {
var tile = getTile(pos);
if (!tile) callback(null);
gm.getGrid(tile.src, function(err, g) {
if (err || !g) return callback(null);
var feature = g.tileFeature(pos.x, pos.y, tile);
callback(feature);
});
};
// set an attach function that should be
// called when maps are set
interaction.attach = function(x) {
if (!arguments.length) return attach;
attach = x;
return interaction;
};
interaction.detach = function(x) {
if (!arguments.length) return detach;
detach = x;
return interaction;
};
// Attach listeners to the map
interaction.map = function(x) {
if (!arguments.length) return map;
map = x;
if (attach) attach(map);
bean.add(parent(), defaultEvents);
bean.add(parent(), 'touchstart', onDown);
return interaction;
};
// set a grid getter for this control
interaction.grid = function(x) {
if (!arguments.length) return grid;
grid = x;
return interaction;
};
// detach this and its events from the map cleanly
interaction.remove = function(x) {
if (detach) detach(map);
bean.remove(parent(), defaultEvents);
bean.fire(interaction, 'remove');
return interaction;
};
// get or set a tilejson chunk of json
interaction.tilejson = function(x) {
if (!arguments.length) return gm.tilejson();
gm.tilejson(x);
return interaction;
};
// return the formatter, which has an exposed .format
// function
interaction.formatter = function() {
return gm.formatter();
};
// ev can be 'on', 'off', fn is the handler
interaction.on = function(ev, fn) {
bean.add(interaction, ev, fn);
return interaction;
};
// ev can be 'on', 'off', fn is the handler
interaction.off = function(ev, fn) {
bean.remove(interaction, ev, fn);
return interaction;
};
// Return or set the gridmanager implementation
interaction.gridmanager = function(x) {
if (!arguments.length) return gm;
gm = x;
return interaction;
};
// parent should be a function that returns
// the parent element of the map
interaction.parent = function(x) {
parent = x;
return interaction;
};
return interaction;
};
// Wax Legend
// ----------
// Wax header
var wax = wax || {};
wax.legend = function() {
var element,
legend = {},
container;
legend.element = function() {
return container;
};
legend.content = function(content) {
if (!arguments.length) return element.innerHTML;
element.innerHTML = wax.u.sanitize(content);
element.style.display = 'block';
if (element.innerHTML === '') {
element.style.display = 'none';
}
return legend;
};
legend.add = function() {
container = document.createElement('div');
container.className = 'map-legends wax-legends';
element = container.appendChild(document.createElement('div'));
element.className = 'map-legend wax-legend';
element.style.display = 'none';
return legend;
};
return legend.add();
};
var wax = wax || {};
wax.location = function() {
var t = {};
function on(o) {
if ((o.e.type === 'mousemove' || !o.e.type)) {
return;
} else {
var loc = o.formatter({ format: 'location' }, o.data);
if (loc) {
window.top.location.href = loc;
}
}
}
t.events = function() {
return {
on: on
};
};
return t;
};
var wax = wax || {};
wax.movetip = {};
wax.movetip = function() {
var popped = false,
t = {},
_tooltipOffset,
_contextOffset,
tooltip,
parent;
function moveTooltip(e) {
var eo = wax.u.eventoffset(e);
// faux-positioning
if ((_tooltipOffset.height + eo.y) >
(_contextOffset.top + _contextOffset.height) &&
(_contextOffset.height > _tooltipOffset.height)) {
eo.y -= _tooltipOffset.height;
tooltip.className += ' flip-y';
}
// faux-positioning
if ((_tooltipOffset.width + eo.x) >
(_contextOffset.left + _contextOffset.width)) {
eo.x -= _tooltipOffset.width;
tooltip.className += ' flip-x';
}
tooltip.style.left = eo.x + 'px';
tooltip.style.top = eo.y + 'px';
}
// Get the active tooltip for a layer or create a new one if no tooltip exists.
// Hide any tooltips on layers underneath this one.
function getTooltip(feature) {
var tooltip = document.createElement('div');
tooltip.className = 'map-tooltip map-tooltip-0';
tooltip.innerHTML = feature;
return tooltip;
}
// Hide a given tooltip.
function hide() {
if (tooltip) {
tooltip.parentNode.removeChild(tooltip);
tooltip = null;
}
}
function on(o) {
var content;
if (popped) return;
if ((o.e.type === 'mousemove' || !o.e.type)) {
content = o.formatter({ format: 'teaser' }, o.data);
if (!content) return;
hide();
parent.style.cursor = 'pointer';
tooltip = document.body.appendChild(getTooltip(content));
} else {
content = o.formatter({ format: 'teaser' }, o.data);
if (!content) return;
hide();
var tt = document.body.appendChild(getTooltip(content));
tt.className += ' map-popup';
var close = tt.appendChild(document.createElement('a'));
close.href = '#close';
close.className = 'close';
close.innerHTML = 'Close';
popped = true;
tooltip = tt;
_tooltipOffset = wax.u.offset(tooltip);
_contextOffset = wax.u.offset(parent);
moveTooltip(o.e);
bean.add(close, 'click touchend', function closeClick(e) {
e.stop();
hide();
popped = false;
});
}
if (tooltip) {
_tooltipOffset = wax.u.offset(tooltip);
_contextOffset = wax.u.offset(parent);
moveTooltip(o.e);
}
}
function off() {
parent.style.cursor = 'default';
if (!popped) hide();
}
t.parent = function(x) {
if (!arguments.length) return parent;
parent = x;
return t;
};
t.events = function() {
return {
on: on,
off: off
};
};
return t;
};
// Wax GridUtil
// ------------
// Wax header
var wax = wax || {};
// Request
// -------
// Request data cache. `callback(data)` where `data` is the response data.
wax.request = {
cache: {},
locks: {},
promises: {},
get: function(url, callback) {
// Cache hit.
if (this.cache[url]) {
return callback(this.cache[url][0], this.cache[url][1]);
// Cache miss.
} else {
this.promises[url] = this.promises[url] || [];
this.promises[url].push(callback);
// Lock hit.
if (this.locks[url]) return;
// Request.
var that = this;
this.locks[url] = true;
reqwest({
url: url + (~url.indexOf('?') ? '&' : '?') + 'callback=?',
type: 'jsonp',
success: function(data) {
that.locks[url] = false;
that.cache[url] = [null, data];
for (var i = 0; i < that.promises[url].length; i++) {
that.promises[url][i](that.cache[url][0], that.cache[url][1]);
}
},
error: function(err) {
that.locks[url] = false;
that.cache[url] = [err, null];
for (var i = 0; i < that.promises[url].length; i++) {
that.promises[url][i](that.cache[url][0], that.cache[url][1]);
}
}
});
}
}
};
// Templating
// ---------
wax.template = function(x) {
var template = {};
// Clone the data object such that the '__[format]__' key is only
// set for this instance of templating.
template.format = function(options, data) {
var clone = {};
for (var key in data) {
clone[key] = data[key];
}
if (options.format) {
clone['__' + options.format + '__'] = true;
}
return wax.u.sanitize(Mustache.to_html(x, clone));
};
return template;
};
if (!wax) var wax = {};
// A wrapper for reqwest jsonp to easily load TileJSON from a URL.
wax.tilejson = function(url, callback) {
reqwest({
url: url + (~url.indexOf('?') ? '&' : '?') + 'callback=?',
type: 'jsonp',
success: callback,
error: callback
});
};
var wax = wax || {};
wax.tooltip = {};
wax.tooltip = function() {
var popped = false,
animate = false,
t = {},
tooltips = [],
_currentContent,
transitionEvent,
parent;
if (document.body.style['-webkit-transition'] !== undefined) {
transitionEvent = 'webkitTransitionEnd';
} else if (document.body.style.MozTransition !== undefined) {
transitionEvent = 'transitionend';
}
// Get the active tooltip for a layer or create a new one if no tooltip exists.
// Hide any tooltips on layers underneath this one.
function getTooltip(feature) {
var tooltip = document.createElement('div');
tooltip.className = 'map-tooltip map-tooltip-0 wax-tooltip';
tooltip.innerHTML = feature;
return tooltip;
}
function remove() {
if (this.parentNode) this.parentNode.removeChild(this);
}
// Hide a given tooltip.
function hide() {
var _ct;
while (_ct = tooltips.pop()) {
if (animate && transitionEvent) {
// This code assumes that transform-supporting browsers
// also support proper events. IE9 does both.
bean.add(_ct, transitionEvent, remove);
_ct.className += ' map-fade';
} else {
if (_ct.parentNode) _ct.parentNode.removeChild(_ct);
}
}
}
function on(o) {
var content;
if (o.e.type === 'mousemove' || !o.e.type) {
if (!popped) {
content = o.content || o.formatter({ format: 'teaser' }, o.data);
if (!content || content == _currentContent) return;
hide();
parent.style.cursor = 'pointer';
tooltips.push(parent.appendChild(getTooltip(content)));
_currentContent = content;
}
} else {
content = o.content || o.formatter({ format: 'full' }, o.data);
if (!content) {
if (o.e.type && o.e.type.match(/touch/)) {
// fallback possible
content = o.content || o.formatter({ format: 'teaser' }, o.data);
}
// but if that fails, return just the same.
if (!content) return;
}
hide();
parent.style.cursor = 'pointer';
var tt = parent.appendChild(getTooltip(content));
tt.className += ' map-popup wax-popup';
var close = tt.appendChild(document.createElement('a'));
close.href = '#close';
close.className = 'close';
close.innerHTML = 'Close';
popped = true;
tooltips.push(tt);
bean.add(close, 'touchstart mousedown', function(e) {
e.stop();
});
bean.add(close, 'click touchend', function closeClick(e) {
e.stop();
hide();
popped = false;
});
}
}
function off() {
parent.style.cursor = 'default';
_currentContent = null;
if (!popped) hide();
}
t.parent = function(x) {
if (!arguments.length) return parent;
parent = x;
return t;
};
t.animate = function(x) {
if (!arguments.length) return animate;
animate = x;
return t;
};
t.events = function() {
return {
on: on,
off: off
};
};
return t;
};
var wax = wax || {};
// Utils are extracted from other libraries or
// written from scratch to plug holes in browser compatibility.
wax.u = {
// From Bonzo
offset: function(el) {
// TODO: window margins
//
// Okay, so fall back to styles if offsetWidth and height are botched
// by Firefox.
var width = el.offsetWidth || parseInt(el.style.width, 10),
height = el.offsetHeight || parseInt(el.style.height, 10),
doc_body = document.body,
top = 0,
left = 0;
var calculateOffset = function(el) {
if (el === doc_body || el === document.documentElement) return;
top += el.offsetTop;
left += el.offsetLeft;
var style = el.style.transform ||
el.style.WebkitTransform ||
el.style.OTransform ||
el.style.MozTransform ||
el.style.msTransform;
if (style) {
var match;
if (match = style.match(/translate\((.+)[px]?, (.+)[px]?\)/)) {
top += parseInt(match[2], 10);
left += parseInt(match[1], 10);
} else if (match = style.match(/translate3d\((.+)[px]?, (.+)[px]?, (.+)[px]?\)/)) {
top += parseInt(match[2], 10);
left += parseInt(match[1], 10);
} else if (match = style.match(/matrix3d\(([\-\d,\s]+)\)/)) {
var pts = match[1].split(',');
top += parseInt(pts[13], 10);
left += parseInt(pts[12], 10);
} else if (match = style.match(/matrix\(.+, .+, .+, .+, (.+), (.+)\)/)) {
top += parseInt(match[2], 10);
left += parseInt(match[1], 10);
}
}
};
// from jquery, offset.js
if ( typeof el.getBoundingClientRect !== "undefined" ) {
var body = document.body;
var doc = el.ownerDocument.documentElement;
var clientTop = document.clientTop || body.clientTop || 0;
var clientLeft = document.clientLeft || body.clientLeft || 0;
var scrollTop = window.pageYOffset || doc.scrollTop;
var scrollLeft = window.pageXOffset || doc.scrollLeft;
var box = el.getBoundingClientRect();
top = box.top + scrollTop - clientTop;
left = box.left + scrollLeft - clientLeft;
} else {
calculateOffset(el);
try {
while (el = el.offsetParent) { calculateOffset(el); }
} catch(e) {
// Hello, internet explorer.
}
}
// Offsets from the body
top += doc_body.offsetTop;
left += doc_body.offsetLeft;
// Offsets from the HTML element
top += doc_body.parentNode.offsetTop;
left += doc_body.parentNode.offsetLeft;
// Firefox and other weirdos. Similar technique to jQuery's
// `doesNotIncludeMarginInBodyOffset`.
var htmlComputed = document.defaultView ?
window.getComputedStyle(doc_body.parentNode, null) :
doc_body.parentNode.currentStyle;
if (doc_body.parentNode.offsetTop !==
parseInt(htmlComputed.marginTop, 10) &&
!isNaN(parseInt(htmlComputed.marginTop, 10))) {
top += parseInt(htmlComputed.marginTop, 10);
left += parseInt(htmlComputed.marginLeft, 10);
}
return {
top: top,
left: left,
height: height,
width: width
};
},
'$': function(x) {
return (typeof x === 'string') ?
document.getElementById(x) :
x;
},
// From quirksmode: normalize the offset of an event from the top-left
// of the page.
eventoffset: function(e) {
var posx = 0;
var posy = 0;
if (!e) { e = window.event; }
if (e.pageX || e.pageY) {
// Good browsers
return {
x: e.pageX,
y: e.pageY
};
} else if (e.clientX || e.clientY) {
// Internet Explorer
return {
x: e.clientX,
y: e.clientY
};
} else if (e.touches && e.touches.length === 1) {
// Touch browsers
return {
x: e.touches[0].pageX,
y: e.touches[0].pageY
};
}
},
// Ripped from underscore.js
// Internal function used to implement `_.throttle` and `_.debounce`.
limit: function(func, wait, debounce) {
var timeout;
return function() {
var context = this, args = arguments;
var throttler = function() {
timeout = null;
func.apply(context, args);
};
if (debounce) clearTimeout(timeout);
if (debounce || !timeout) timeout = setTimeout(throttler, wait);
};
},
// Returns a function, that, when invoked, will only be triggered at most once
// during a given window of time.
throttle: function(func, wait) {
return this.limit(func, wait, false);
},
sanitize: function(content) {
if (!content) return '';
function urlX(url) {
// Data URIs are subject to a bug in Firefox
// https://bugzilla.mozilla.org/show_bug.cgi?id=255107
// which let them be a vector. But WebKit does 'the right thing'
// or at least 'something' about this situation, so we'll tolerate
// them.
if (/^(https?:\/\/|data:image)/.test(url)) {
return url;
}
}
function idX(id) { return id; }
return html_sanitize(content, urlX, idX);
}
};
wax = wax || {};
wax.mm = wax.mm || {};
wax.mm.attribution = function() {
var map,
a = {},
container = document.createElement('div');
container.className = 'map-attribution map-mm';
a.content = function(x) {
if (typeof x === 'undefined') return container.innerHTML;
container.innerHTML = wax.u.sanitize(x);
return a;
};
a.element = function() {
return container;
};
a.map = function(x) {
if (!arguments.length) return map;
map = x;
return a;
};
a.add = function() {
if (!map) return false;
map.parent.appendChild(container);
return a;
};
a.remove = function() {
if (!map) return false;
if (container.parentNode) container.parentNode.removeChild(container);
return a;
};
a.appendTo = function(elem) {
wax.u.$(elem).appendChild(container);
return a;
};
return a;
};
wax = wax || {};
wax.mm = wax.mm || {};
wax.mm.boxselector = function() {
var corner,
nearCorner,
boxDiv,
style,
borderWidth = 0,
horizontal = false, // Whether the resize is horizontal
vertical = false,
edge = 5, // Distance from border sensitive to resizing
addEvent = MM.addEvent,
removeEvent = MM.removeEvent,
box,
boxselector = {},
map,
callbackManager = new MM.CallbackManager(boxselector, ['change']);
function getMousePoint(e) {
// start with just the mouse (x, y)
var point = new MM.Point(e.clientX, e.clientY);
// correct for scrolled document
point.x += document.body.scrollLeft +
document.documentElement.scrollLeft;
point.y += document.body.scrollTop +
document.documentElement.scrollTop;
// correct for nested offsets in DOM
for (var node = map.parent; node; node = node.offsetParent) {
point.x -= node.offsetLeft;
point.y -= node.offsetTop;
}
return point;
}
function mouseDown(e) {
if (!e.shiftKey) return;
corner = nearCorner = getMousePoint(e);
horizontal = vertical = true;
style.left = corner.x + 'px';
style.top = corner.y + 'px';
style.width = style.height = 0;
addEvent(document, 'mousemove', mouseMove);
addEvent(document, 'mouseup', mouseUp);
map.parent.style.cursor = 'crosshair';
return MM.cancelEvent(e);
}
// Resize existing box
function mouseDownResize(e) {
var point = getMousePoint(e),
TL = {
x: parseInt(boxDiv.offsetLeft, 10),
y: parseInt(boxDiv.offsetTop, 10)
},
BR = {
x: TL.x + parseInt(boxDiv.offsetWidth, 10),
y: TL.y + parseInt(boxDiv.offsetHeight, 10)
};
// Determine whether resize is horizontal, vertical or both
horizontal = point.x - TL.x <= edge || BR.x - point.x <= edge;
vertical = point.y - TL.y <= edge || BR.y - point.y <= edge;
if (vertical || horizontal) {
corner = {
x: (point.x - TL.x < BR.x - point.x) ? BR.x : TL.x,
y: (point.y - TL.y < BR.y - point.y) ? BR.y : TL.y
};
nearCorner = {
x: (point.x - TL.x < BR.x - point.x) ? TL.x : BR.x,
y: (point.y - TL.y < BR.y - point.y) ? TL.y : BR.y
};
addEvent(document, 'mousemove', mouseMove);
addEvent(document, 'mouseup', mouseUp);
return MM.cancelEvent(e);
}
}
function mouseMove(e) {
var point = getMousePoint(e);
style.display = 'block';
if (horizontal) {
style.left = (point.x < corner.x ? point.x : corner.x) + 'px';
style.width = Math.abs(point.x - corner.x) - 2 * borderWidth + 'px';
}
if (vertical) {
style.top = (point.y < corner.y ? point.y : corner.y) + 'px';
style.height = Math.abs(point.y - corner.y) - 2 * borderWidth + 'px';
}
changeCursor(point, map.parent);
return MM.cancelEvent(e);
}
function mouseUp(e) {
var point = getMousePoint(e),
l1 = map.pointLocation( new MM.Point(
horizontal ? point.x : nearCorner.x,
vertical? point.y : nearCorner.y
));
l2 = map.pointLocation(corner);
// Format coordinates like mm.map.getExtent().
boxselector.extent([
new MM.Location(
Math.max(l1.lat, l2.lat),
Math.min(l1.lon, l2.lon)),
new MM.Location(
Math.min(l1.lat, l2.lat),
Math.max(l1.lon, l2.lon))
]);
removeEvent(document, 'mousemove', mouseMove);
removeEvent(document, 'mouseup', mouseUp);
map.parent.style.cursor = 'auto';
}
function mouseMoveCursor(e) {
changeCursor(getMousePoint(e), boxDiv);
}
// Set resize cursor if mouse is on edge
function changeCursor(point, elem) {
var TL = {
x: parseInt(boxDiv.offsetLeft, 10),
y: parseInt(boxDiv.offsetTop, 10)
},
BR = {
x: TL.x + parseInt(boxDiv.offsetWidth, 10),
y: TL.y + parseInt(boxDiv.offsetHeight, 10)
};
// Build cursor style string
var prefix = '';
if (point.y - TL.y <= edge) prefix = 'n';
else if (BR.y - point.y <= edge) prefix = 's';
if (point.x - TL.x <= edge) prefix += 'w';
else if (BR.x - point.x <= edge) prefix += 'e';
if (prefix !== '') prefix += '-resize';
elem.style.cursor = prefix;
}
function drawbox(map, e) {
if (!boxDiv || !box) return;
var br = map.locationPoint(box[1]),
tl = map.locationPoint(box[0]),
style = boxDiv.style;
style.display = 'block';
style.height = 'auto';
style.width = 'auto';
style.left = Math.max(0, tl.x) + 'px';
style.top = Math.max(0, tl.y) + 'px';
style.right = Math.max(0, map.dimensions.x - br.x) + 'px';
style.bottom = Math.max(0, map.dimensions.y - br.y) + 'px';
}
boxselector.addCallback = function(event, callback) {
callbackManager.addCallback(event, callback);
return boxselector;
};
boxselector.removeCallback = function(event, callback) {
callbackManager.removeCallback(event, callback);
return boxselector;
};
boxselector.extent = function(x, silent) {
if (!x) return box;
box = [
new MM.Location(
Math.max(x[0].lat, x[1].lat),
Math.min(x[0].lon, x[1].lon)),
new MM.Location(
Math.min(x[0].lat, x[1].lat),
Math.max(x[0].lon, x[1].lon))
];
drawbox(map);
if (!silent) callbackManager.dispatchCallback('change', box);
};
boxDiv = document.createElement('div');
boxDiv.className = 'boxselector-box';
style = boxDiv.style;
boxselector.add = function() {
boxDiv.id = map.parent.id + '-boxselector-box';
map.parent.appendChild(boxDiv);
borderWidth = parseInt(window.getComputedStyle(boxDiv).borderWidth, 10);
addEvent(map.parent, 'mousedown', mouseDown);
addEvent(boxDiv, 'mousedown', mouseDownResize);
addEvent(map.parent, 'mousemove', mouseMoveCursor);
map.addCallback('drawn', drawbox);
return boxselector;
};
boxselector.map = function(x) {
if (!arguments.length) return map;
map = x;
return boxselector;
};
boxselector.remove = function() {
map.parent.removeChild(boxDiv);
removeEvent(map.parent, 'mousedown', mouseDown);
removeEvent(boxDiv, 'mousedown', mouseDownResize);
removeEvent(map.parent, 'mousemove', mouseMoveCursor);
map.removeCallback('drawn', drawbox);
return boxselector;
};
return boxselector;
};
wax = wax || {};
wax.mm = wax.mm || {};
wax._ = {};
wax.mm.bwdetect = function(map, options) {
options = options || {};
var lowpng = options.png || '.png128',
lowjpg = options.jpg || '.jpg70',
bw = false;
wax._.bw_png = lowpng;
wax._.bw_jpg = lowjpg;
return wax.bwdetect(options, function(x) {
wax._.bw = !x;
for (var i = 0; i < map.layers.length; i++) {
if (map.getLayerAt(i).provider instanceof wax.mm.connector) {
map.getLayerAt(i).setProvider(map.getLayerAt(i).provider);
}
}
});
};
wax = wax || {};
wax.mm = wax.mm || {};
// Add zoom links, which can be styled as buttons, to a `modestmaps.Map`
// control. This function can be used chaining-style with other
// chaining-style controls.
wax.mm.fullscreen = function() {
// true: fullscreen
// false: minimized
var fullscreened = false,
fullscreen = {},
a = document.createElement('a'),
map,
body = document.body,
dimensions;
a.className = 'map-fullscreen';
a.href = '#fullscreen';
// a.innerHTML = 'fullscreen';
function click(e) {
if (e) e.stop();
if (fullscreened) {
fullscreen.original();
} else {
fullscreen.full();
}
}
fullscreen.map = function(x) {
if (!arguments.length) return map;
map = x;
return fullscreen;
};
// Modest Maps demands an absolute height & width, and doesn't auto-correct
// for changes, so here we save the original size of the element and
// restore to that size on exit from fullscreen.
fullscreen.add = function() {
bean.add(a, 'click', click);
map.parent.appendChild(a);
return fullscreen;
};
fullscreen.remove = function() {
bean.remove(a, 'click', click);
if (a.parentNode) a.parentNode.removeChild(a);
return fullscreen;
};
fullscreen.full = function() {
if (fullscreened) { return; } else { fullscreened = true; }
dimensions = map.dimensions;
map.parent.className += ' map-fullscreen-map';
body.className += ' map-fullscreen-view';
map.dimensions = { x: map.parent.offsetWidth, y: map.parent.offsetHeight };
map.draw();
return fullscreen;
};
fullscreen.original = function() {
if (!fullscreened) { return; } else { fullscreened = false; }
map.parent.className = map.parent.className.replace(' map-fullscreen-map', '');
body.className = body.className.replace(' map-fullscreen-view', '');
map.dimensions = dimensions;
map.draw();
return fullscreen;
};
fullscreen.fullscreen = function(x) {
if (!arguments.length) {
return fullscreened;
} else {
if (x && !fullscreened) {
fullscreen.full();
} else if (!x && fullscreened) {
fullscreen.original();
}
return fullscreen;
}
};
fullscreen.element = function() {
return a;
};
fullscreen.appendTo = function(elem) {
wax.u.$(elem).appendChild(a);
return fullscreen;
};
return fullscreen;
};
wax = wax || {};
wax.mm = wax.mm || {};
wax.mm.hash = function() {
var map;
var hash = wax.hash({
getCenterZoom: function() {
var center = map.getCenter(),
zoom = map.getZoom(),
precision = Math.max(
0,
Math.ceil(Math.log(zoom) / Math.LN2));
return [zoom.toFixed(2),
center.lat.toFixed(precision),
center.lon.toFixed(precision)
].join('/');
},
setCenterZoom: function setCenterZoom(args) {
map.setCenterZoom(
new MM.Location(args[1], args[2]),
args[0]);
},
bindChange: function(fn) {
map.addCallback('drawn', fn);
},
unbindChange: function(fn) {
map.removeCallback('drawn', fn);
}
});
hash.map = function(x) {
if (!arguments.length) return map;
map = x;
return hash;
};
return hash;
};
wax = wax || {};
wax.mm = wax.mm || {};
wax.mm.interaction = function() {
var dirty = false,
_grid,
map,
clearingEvents = ['zoomed', 'panned', 'centered',
'extentset', 'resized', 'drawn'];
function grid() {
if (!dirty && _grid !== undefined && _grid.length) {
return _grid;
} else {
var tiles;
for (var i = 0; i < map.getLayers().length; i++) {
var levels = map.getLayerAt(i).levels;
var zoomLayer = levels && levels[Math.round(map.zoom())];
if (zoomLayer !== undefined) {
tiles = map.getLayerAt(i).tileElementsInLevel(zoomLayer);
if (tiles.length) break;
}
}
_grid = (function(t) {
var o = [];
for (var key in t) {
if (t[key].parentNode === zoomLayer) {
var offset = wax.u.offset(t[key]);
o.push([
offset.top,
offset.left,
t[key]
]);
}
}
return o;
})(tiles);
return _grid;
}
}
function setdirty() { dirty = true; }
function attach(x) {
if (!arguments.length) return map;
map = x;
for (var i = 0; i < clearingEvents.length; i++) {
map.addCallback(clearingEvents[i], setdirty);
}
}
function detach(x) {
for (var i = 0; i < clearingEvents.length; i++) {
map.removeCallback(clearingEvents[i], setdirty);
}
}
return wax.interaction()
.attach(attach)
.detach(detach)
.parent(function() {
return map.parent;
})
.grid(grid);
};
wax = wax || {};
wax.mm = wax.mm || {};
wax.mm.legend = function() {
var map,
l = {};
var container = document.createElement('div');
container.className = 'wax-legends map-legends';
var element = container.appendChild(document.createElement('div'));
element.className = 'wax-legend map-legend';
element.style.display = 'none';
l.content = function(x) {
if (!arguments.length) return element.innerHTML;
element.innerHTML = wax.u.sanitize(x);
element.style.display = 'block';
if (element.innerHTML === '') {
element.style.display = 'none';
}
return l;
};
l.element = function() {
return container;
};
l.map = function(x) {
if (!arguments.length) return map;
map = x;
return l;
};
l.add = function() {
if (!map) return false;
l.appendTo(map.parent);
return l;
};
l.remove = function() {
if (container.parentNode) {
container.parentNode.removeChild(container);
}
return l;
};
l.appendTo = function(elem) {
wax.u.$(elem).appendChild(container);
return l;
};
return l;
};
wax = wax || {};
wax.mm = wax.mm || {};
// This takes an object of options:
//
// * `callback`: a function called with an array of `com.modestmaps.Location`
// objects when the map is edited
//
// It also exposes a public API function: `addLocation`, which adds a point
// to the map as if added by the user.
wax.mm.pointselector = function() {
var map,
mouseDownPoint = null,
mouseUpPoint = null,
callback = null,
tolerance = 5,
overlayDiv,
pointselector = {},
callbackManager = new MM.CallbackManager(pointselector, ['change']),
locations = [];
// Create a `MM.Point` from a screen event, like a click.
function makePoint(e) {
var coords = wax.u.eventoffset(e);
var point = new MM.Point(coords.x, coords.y);
// correct for scrolled document
// and for the document
var body = {
x: parseFloat(MM.getStyle(document.documentElement, 'margin-left')),
y: parseFloat(MM.getStyle(document.documentElement, 'margin-top'))
};
if (!isNaN(body.x)) point.x -= body.x;
if (!isNaN(body.y)) point.y -= body.y;
// TODO: use wax.util.offset
// correct for nested offsets in DOM
for (var node = map.parent; node; node = node.offsetParent) {
point.x -= node.offsetLeft;
point.y -= node.offsetTop;
}
return point;
}
// Currently locations in this control contain circular references to elements.
// These can't be JSON encoded, so here's a utility to clean the data that's
// spit back.
function cleanLocations(locations) {
var o = [];
for (var i = 0; i < locations.length; i++) {
o.push(new MM.Location(locations[i].lat, locations[i].lon));
}
return o;
}
// Attach this control to a map by registering callbacks
// and adding the overlay
// Redraw the points when the map is moved, so that they stay in the
// correct geographic locations.
function drawPoints() {
var offset = new MM.Point(0, 0);
for (var i = 0; i < locations.length; i++) {
var point = map.locationPoint(locations[i]);
if (!locations[i].pointDiv) {
locations[i].pointDiv = document.createElement('div');
locations[i].pointDiv.className = 'map-point-div';
locations[i].pointDiv.style.position = 'absolute';
locations[i].pointDiv.style.display = 'block';
// TODO: avoid circular reference
locations[i].pointDiv.location = locations[i];
// Create this closure once per point
bean.add(locations[i].pointDiv, 'mouseup',
(function selectPointWrap(e) {
var l = locations[i];
return function(e) {
MM.removeEvent(map.parent, 'mouseup', mouseUp);
pointselector.deleteLocation(l, e);
};
})());
map.parent.appendChild(locations[i].pointDiv);
}
locations[i].pointDiv.style.left = point.x + 'px';
locations[i].pointDiv.style.top = point.y + 'px';
}
}
function mouseDown(e) {
mouseDownPoint = makePoint(e);
bean.add(map.parent, 'mouseup', mouseUp);
}
// Remove the awful circular reference from locations.
// TODO: This function should be made unnecessary by not having it.
function mouseUp(e) {
if (!mouseDownPoint) return;
mouseUpPoint = makePoint(e);
if (MM.Point.distance(mouseDownPoint, mouseUpPoint) < tolerance) {
pointselector.addLocation(map.pointLocation(mouseDownPoint));
callbackManager.dispatchCallback('change', cleanLocations(locations));
}
mouseDownPoint = null;
}
// API for programmatically adding points to the map - this
// calls the callback for ever point added, so it can be symmetrical.
// Useful for initializing the map when it's a part of a form.
pointselector.addLocation = function(location) {
locations.push(location);
drawPoints();
callbackManager.dispatchCallback('change', cleanLocations(locations));
return pointselector;
};
// TODO set locations
pointselector.locations = function() {
if (!arguments.length) return locations;
};
pointselector.addCallback = function(event, callback) {
callbackManager.addCallback(event, callback);
return pointselector;
};
pointselector.removeCallback = function(event, callback) {
callbackManager.removeCallback(event, callback);
return pointselector;
};
pointselector.map = function(x) {
if (!arguments.length) return map;
map = x;
return pointselector;
};
pointselector.add = function() {
bean.add(map.parent, 'mousedown', mouseDown);
map.addCallback('drawn', drawPoints);
return pointselector;
};
pointselector.remove = function() {
bean.remove(map.parent, 'mousedown', mouseDown);
map.removeCallback('drawn', drawPoints);
for (var i = locations.length - 1; i > -1; i--) {
pointselector.deleteLocation(locations[i]);
}
return pointselector;
};
pointselector.deleteLocation = function(location, e) {
if (!e || confirm('Delete this point?')) {
location.pointDiv.parentNode.removeChild(location.pointDiv);
for (var i = 0; i < locations.length; i++) {
if (locations[i] === location) {
locations.splice(i, 1);
break;
}
}
callbackManager.dispatchCallback('change', cleanLocations(locations));
}
};
return pointselector;
};
wax = wax || {};
wax.mm = wax.mm || {};
wax.mm.zoombox = function() {
// TODO: respond to resize
var zoombox = {},
map,
drawing = false,
box = document.createElement('div'),
mouseDownPoint = null;
function getMousePoint(e) {
// start with just the mouse (x, y)
var point = new MM.Point(e.clientX, e.clientY);
// correct for scrolled document
point.x += document.body.scrollLeft + document.documentElement.scrollLeft;
point.y += document.body.scrollTop + document.documentElement.scrollTop;
// correct for nested offsets in DOM
for (var node = map.parent; node; node = node.offsetParent) {
point.x -= node.offsetLeft;
point.y -= node.offsetTop;
}
return point;
}
function mouseUp(e) {
if (!drawing) return;
drawing = false;
var point = getMousePoint(e);
var l1 = map.pointLocation(point),
l2 = map.pointLocation(mouseDownPoint);
map.setExtent([l1, l2]);
box.style.display = 'none';
MM.removeEvent(map.parent, 'mousemove', mouseMove);
MM.removeEvent(map.parent, 'mouseup', mouseUp);
map.parent.style.cursor = 'auto';
}
function mouseDown(e) {
if (!(e.shiftKey && !this.drawing)) return;
drawing = true;
mouseDownPoint = getMousePoint(e);
box.style.left = mouseDownPoint.x + 'px';
box.style.top = mouseDownPoint.y + 'px';
MM.addEvent(map.parent, 'mousemove', mouseMove);
MM.addEvent(map.parent, 'mouseup', mouseUp);
map.parent.style.cursor = 'crosshair';
return MM.cancelEvent(e);
}
function mouseMove(e) {
if (!drawing) return;
var point = getMousePoint(e);
box.style.display = 'block';
if (point.x < mouseDownPoint.x) {
box.style.left = point.x + 'px';
} else {
box.style.left = mouseDownPoint.x + 'px';
}
box.style.width = Math.abs(point.x - mouseDownPoint.x) + 'px';
if (point.y < mouseDownPoint.y) {
box.style.top = point.y + 'px';
} else {
box.style.top = mouseDownPoint.y + 'px';
}
box.style.height = Math.abs(point.y - mouseDownPoint.y) + 'px';
return MM.cancelEvent(e);
}
zoombox.map = function(x) {
if (!arguments.length) return map;
map = x;
return zoombox;
};
zoombox.add = function() {
if (!map) return false;
// Use a flag to determine whether the zoombox is currently being
// drawn. Necessary only for IE because `mousedown` is triggered
// twice.
box.id = map.parent.id + '-zoombox-box';
box.className = 'zoombox-box';
map.parent.appendChild(box);
MM.addEvent(map.parent, 'mousedown', mouseDown);
return this;
};
zoombox.remove = function() {
if (!map) return false;
if (box.parentNode) box.parentNode.removeChild(box);
MM.removeEvent(map.parent, 'mousedown', mouseDown);
return zoombox;
};
return zoombox;
};
wax = wax || {};
wax.mm = wax.mm || {};
wax.mm.zoomer = function() {
var zoomer = {},
smooth = true,
map;
var zoomin = document.createElement('a'),
zoomout = document.createElement('a');
function stopEvents(e) {
e.stop();
}
function zIn(e) {
e.stop();
if (smooth && map.ease) {
map.ease.zoom(map.zoom() + 1).run(50);
} else {
map.zoomIn();
}
}
function zOut(e) {
e.stop();
if (smooth && map.ease) {
map.ease.zoom(map.zoom() - 1).run(50);
} else {
map.zoomOut();
}
}
zoomin.innerHTML = '+';
zoomin.href = '#';
zoomin.className = 'zoomer zoomin';
zoomout.innerHTML = '-';
zoomout.href = '#';
zoomout.className = 'zoomer zoomout';
function updateButtons(map, e) {
if (map.coordinate.zoom === map.coordLimits[0].zoom) {
zoomout.className = 'zoomer zoomout zoomdisabled';
} else if (map.coordinate.zoom === map.coordLimits[1].zoom) {
zoomin.className = 'zoomer zoomin zoomdisabled';
} else {
zoomin.className = 'zoomer zoomin';
zoomout.className = 'zoomer zoomout';
}
}
zoomer.map = function(x) {
if (!arguments.length) return map;
map = x;
return zoomer;
};
zoomer.add = function() {
if (!map) return false;
map.addCallback('drawn', updateButtons);
zoomer.appendTo(map.parent);
bean.add(zoomin, 'mousedown dblclick', stopEvents);
bean.add(zoomout, 'mousedown dblclick', stopEvents);
bean.add(zoomout, 'touchstart click', zOut);
bean.add(zoomin, 'touchstart click', zIn);
return zoomer;
};
zoomer.remove = function() {
if (!map) return false;
map.removeCallback('drawn', updateButtons);
if (zoomin.parentNode) zoomin.parentNode.removeChild(zoomin);
if (zoomout.parentNode) zoomout.parentNode.removeChild(zoomout);
bean.remove(zoomin, 'mousedown dblclick', stopEvents);
bean.remove(zoomout, 'mousedown dblclick', stopEvents);
bean.remove(zoomout, 'touchstart click', zOut);
bean.remove(zoomin, 'touchstart click', zIn);
return zoomer;
};
zoomer.appendTo = function(elem) {
wax.u.$(elem).appendChild(zoomin);
wax.u.$(elem).appendChild(zoomout);
return zoomer;
};
zoomer.smooth = function(x) {
if (!arguments.length) return smooth;
smooth = x;
return zoomer;
};
return zoomer;
};
var wax = wax || {};
wax.mm = wax.mm || {};
// A layer connector for Modest Maps conformant to TileJSON
// https://github.com/mapbox/tilejson
wax.mm._provider = function(options) {
this.options = {
tiles: options.tiles,
scheme: options.scheme || 'xyz',
minzoom: options.minzoom || 0,
maxzoom: options.maxzoom || 22,
bounds: options.bounds || [-180, -90, 180, 90]
};
};
wax.mm._provider.prototype = {
outerLimits: function() {
return [
this.locationCoordinate(
new MM.Location(
this.options.bounds[0],
this.options.bounds[1])).zoomTo(this.options.minzoom),
this.locationCoordinate(
new MM.Location(
this.options.bounds[2],
this.options.bounds[3])).zoomTo(this.options.maxzoom)
];
},
getTile: function(c) {
var coord;
if (!(coord = this.sourceCoordinate(c))) return null;
if (coord.zoom < this.options.minzoom || coord.zoom > this.options.maxzoom) return null;
coord.row = (this.options.scheme === 'tms') ?
Math.pow(2, coord.zoom) - coord.row - 1 :
coord.row;
var u = this.options.tiles[parseInt(Math.pow(2, coord.zoom) * coord.row + coord.column, 10) %
this.options.tiles.length]
.replace('{z}', coord.zoom.toFixed(0))
.replace('{x}', coord.column.toFixed(0))
.replace('{y}', coord.row.toFixed(0));
if (wax._ && wax._.bw) {
u = u.replace('.png', wax._.bw_png)
.replace('.jpg', wax._.bw_jpg);
}
return u;
}
};
if (MM) {
MM.extend(wax.mm._provider, MM.MapProvider);
}
wax.mm.connector = function(options) {
var x = new wax.mm._provider(options);
return new MM.Layer(x);
};
;(function(context, MM) {
var easey = function() {
var easey = {},
running = false,
abort = false, // killswitch for transitions
abortCallback; // callback called when aborted
var easings = {
easeIn: function(t) { return t * t; },
easeOut: function(t) { return Math.sin(t * Math.PI / 2); },
easeInOut: function(t) { return (1 - Math.cos(Math.PI * t)) / 2; },
linear: function(t) { return t; }
};
var easing = easings.easeOut;
// to is the singular coordinate that any transition is based off
// three dimensions:
//
// * to
// * time
// * path
var from, to, map;
easey.stop = function(callback) {
abort = true;
from = undefined;
abortCallback = callback;
};
easey.running = function() {
return running;
};
easey.point = function(x) {
to = map.pointCoordinate(x);
return easey;
};
easey.zoom = function(x) {
if (!to) to = map.coordinate.copy();
to = map.enforceZoomLimits(to.zoomTo(x));
return easey;
};
easey.location = function(x) {
to = map.locationCoordinate(x);
return easey;
};
easey.from = function(x) {
if (!arguments.length) return from ? from.copy() : from;
from = x.copy();
return easey;
};
easey.to = function(x) {
if (!arguments.length) return to.copy();
to = map.enforceZoomLimits(x.copy());
return easey;
};
easey.path = function(x) {
path = paths[x];
return easey;
};
easey.easing = function(x) {
easing = easings[x];
return easey;
};
easey.map = function(x) {
if (!arguments.length) return map;
map = x;
return easey;
};
function interp(a, b, p) {
if (p === 0) return a;
if (p === 1) return b;
return a + ((b - a) * p);
}
var paths = {},
static_coord = new MM.Coordinate(0, 0, 0);
// The screen path simply moves between
// coordinates in a non-geographical way
paths.screen = function(a, b, t, static_coord) {
var zoom_lerp = interp(a.zoom, b.zoom, t);
if (static_coord) {
static_coord.row = interp(
a.row,
b.row * Math.pow(2, a.zoom - b.zoom),
t) * Math.pow(2, zoom_lerp - a.zoom);
static_coord.column = interp(
a.column,
b.column * Math.pow(2, a.zoom - b.zoom),
t) * Math.pow(2, zoom_lerp - a.zoom);
static_coord.zoom = zoom_lerp;
} else {
return new MM.Coordinate(
interp(a.row,
b.row * Math.pow(2, a.zoom - b.zoom),
t) * Math.pow(2, zoom_lerp - a.zoom),
interp(a.column,
b.column * Math.pow(2, a.zoom - b.zoom),
t) * Math.pow(2, zoom_lerp - a.zoom),
zoom_lerp);
}
};
// The screen path means that the b
// coordinate should maintain its point on screen
// throughout the transition, but the map
// should move to its zoom level
paths.about = function(a, b, t, static_coord) {
var zoom_lerp = interp(a.zoom, b.zoom, t);
// center x, center y
var cx = map.dimensions.x / 2,
cy = map.dimensions.y / 2,
// tilesize
tx = map.tileSize.x,
ty = map.tileSize.y;
var startx = cx + tx * ((b.column * Math.pow(2, a.zoom - b.zoom)) - a.column);
var starty = cy + ty * ((b.row * Math.pow(2, a.zoom - b.zoom)) - a.row);
var endx = cx + tx * ((b.column * Math.pow(2, zoom_lerp - b.zoom)) -
(a.column * Math.pow(2, zoom_lerp - a.zoom)));
var endy = cy + ty * ((b.row * Math.pow(2, zoom_lerp - b.zoom)) - (a.row *
Math.pow(2, zoom_lerp - a.zoom)));
if (static_coord) {
static_coord.column = (a.column * Math.pow(2, zoom_lerp - a.zoom)) - ((startx - endx) / tx);
static_coord.row = (a.row * Math.pow(2, zoom_lerp - a.zoom)) - ((starty - endy) / ty);
static_coord.zoom = zoom_lerp;
} else {
return new MM.Coordinate(
(a.column * Math.pow(2, zoom_lerp - a.zoom)) - ((startx - endx) / tx),
(a.row * Math.pow(2, zoom_lerp - a.zoom)) - ((starty - endy) / ty),
zoom_lerp);
}
};
var path = paths.screen;
easey.t = function(t) {
path(from, to, easing(t), static_coord);
map.coordinate = static_coord;
map.draw();
return easey;
};
easey.future = function(parts) {
var futures = [];
for (var t = 0; t < parts; t++) {
futures.push(path(from, to, t / (parts - 1)));
}
return futures;
};
var start;
easey.resetRun = function () {
start = (+ new Date());
return easey;
};
easey.run = function(time, callback) {
if (running) return easey.stop(function() {
easey.run(time, callback);
});
if (!from) from = map.coordinate.copy();
if (!to) to = map.coordinate.copy();
time = time || 1000;
start = (+new Date());
running = true;
function tick() {
var delta = (+new Date()) - start;
if (abort) {
abort = running = false;
abortCallback();
return (abortCallback = undefined);
} else if (delta > time) {
if (to.zoom != from.zoom) map.dispatchCallback('zoomed', to.zoom - from.zoom);
running = false;
path(from, to, 1, static_coord);
map.coordinate = static_coord;
to = from = undefined;
map.draw();
if (callback) return callback(map);
} else {
path(from, to, easing(delta / time), static_coord);
map.coordinate = static_coord;
map.draw();
MM.getFrame(tick);
}
}
MM.getFrame(tick);
};
// Optimally smooth (constant perceived velocity) and
// efficient (minimal path distance) zooming and panning.
//
// Based on "Smooth and efficient zooming and panning"
// by Jarke J. van Wijk and Wim A.A. Nuij
//
// Model described in section 3, equations 1 through 5
// Derived equation (9) of optimal path implemented below
easey.optimal = function(V, rho, callback) {
if (running) return easey.stop(function() {
easey.optimal(V, rho, callback);
});
// Section 6 describes user testing of these tunable values
V = V || 0.9;
rho = rho || 1.42;
function sqr(n) { return n*n; }
function sinh(n) { return (Math.exp(n) - Math.exp(-n)) / 2; }
function cosh(n) { return (Math.exp(n) + Math.exp(-n)) / 2; }
function tanh(n) { return sinh(n) / cosh(n); }
if (from) map.coordinate = from; // For when `from` not current coordinate
else from = map.coordinate.copy();
// Width is measured in coordinate units at zoom 0
var TL = map.pointCoordinate(new MM.Point(0, 0)).zoomTo(0),
BR = map.pointCoordinate(map.dimensions).zoomTo(0),
w0 = Math.max(BR.column - TL.column, BR.row - TL.row),
w1 = w0 * Math.pow(2, from.zoom - to.zoom),
start = from.zoomTo(0),
end = to.zoomTo(0),
c0 = {x: start.column, y: start.row},
c1 = {x: end.column, y: end.row},
u0 = 0,
u1 = Math.sqrt(sqr(c1.x - c0.x) + sqr(c1.y - c0.y));
function b(i) {
var n = sqr(w1) - sqr(w0) + (i ? -1: 1) * Math.pow(rho, 4) * sqr(u1 - u0),
d = 2 * (i ? w1 : w0) * sqr(rho) * (u1 - u0);
return n/d;
}
function r(i) {
return Math.log(-b(i) + Math.sqrt(sqr(b(i)) + 1));
}
var r0 = r(0),
r1 = r(1),
S = (r1 - r0) / rho;
// Width
var w = function(s) {
return w0 * cosh(r0) / cosh (rho * s + r0);
};
// Zoom
var u = function(s) {
return (w0 / sqr(rho)) * cosh(r0) * tanh(rho * s + r0) - (w0 / sqr(rho)) * sinh(r0) + u0;
};
// Special case, when no panning necessary
if (Math.abs(u1) < 0.000001) {
if (Math.abs(w0 - w1) < 0.000001) return;
// Based on section 4
var k = w1 < w0 ? -1 : 1;
S = Math.abs(Math.log(w1/w0)) / rho;
u = function(s) {
return u0;
};
w = function(s) {
return w0 * Math.exp(k * rho * s);
};
}
var oldpath = path;
path = function (a, b, t, static_coord) {
if (t == 1) {
if (static_coord) {
static_coord.row = to.row;
static_coord.column = to.column;
static_coord.zoom = to.zoom;
}
return to;
}
var s = t * S,
us = u(s),
z = a.zoom + (Math.log(w0/w(s)) / Math.LN2),
x = interp(c0.x, c1.x, us/u1 || 1),
y = interp(c0.y, c1.y, us/u1 || 1);
var power = Math.pow(2, z);
if (static_coord) {
static_coord.row = y * power;
static_coord.column = x * power;
static_coord.zoom = z;
} else {
return new MM.Coordinate(y * power, x * power, z);
}
};
easey.run(S / V * 1000, function(m) {
path = oldpath;
if (callback) callback(m);
});
};
return easey;
};
this.easey = easey;
if (typeof this.mapbox == 'undefined') this.mapbox = {};
this.mapbox.ease = easey;
})(this, MM);
;(function(context, MM) {
var easey_handlers = {};
easey_handlers.TouchHandler = function() {
var handler = {},
map,
panner,
maxTapTime = 250,
maxTapDistance = 30,
maxDoubleTapDelay = 350,
locations = {},
taps = [],
wasPinching = false,
lastPinchCenter = null,
p0 = new MM.Point(0, 0),
p1 = new MM.Point(0, 0);
function focusMap(e) {
map.parent.focus();
}
function clearLocations() {
for (var loc in locations) {
if (locations.hasOwnProperty(loc)) {
delete locations[loc];
}
}
}
function updateTouches (e) {
for (var i = 0; i < e.touches.length; i += 1) {
var t = e.touches[i];
if (t.identifier in locations) {
var l = locations[t.identifier];
l.x = t.clientX;
l.y = t.clientY;
l.scale = e.scale;
} else {
locations[t.identifier] = {
scale: e.scale,
startPos: { x: t.clientX, y: t.screenY },
startZoom: map.zoom(),
x: t.clientX,
y: t.clientY,
time: new Date().getTime()
};
}
}
}
function touchStartMachine(e) {
if (!panner) panner = panning(map, 0.10);
MM.addEvent(e.touches[0].target, 'touchmove',
touchMoveMachine);
MM.addEvent(e.touches[0].target, 'touchend',
touchEndMachine);
if (e.touches[1]) {
MM.addEvent(e.touches[1].target, 'touchmove',
touchMoveMachine);
MM.addEvent(e.touches[1].target, 'touchend',
touchEndMachine);
}
updateTouches(e);
panner.down(e.touches[0]);
return MM.cancelEvent(e);
}
function touchMoveMachine(e) {
switch (e.touches.length) {
case 1:
panner.move(e.touches[0]);
break;
case 2:
onPinching(e);
break;
}
updateTouches(e);
return MM.cancelEvent(e);
}
// Handle a tap event - mainly watch for a doubleTap
function onTap(tap) {
if (taps.length &&
(tap.time - taps[0].time) < maxDoubleTapDelay) {
onDoubleTap(tap);
taps = [];
return;
}
taps = [tap];
}
// Handle a double tap by zooming in a single zoom level to a
// round zoom.
function onDoubleTap(tap) {
// zoom in to a round number
easey().map(map)
.to(map.pointCoordinate(tap).zoomTo(map.getZoom() + 1))
.path('about').run(200, function() {
map.dispatchCallback('zoomed');
clearLocations();
});
}
function onPinching(e) {
// use the first two touches and their previous positions
var t0 = e.touches[0],
t1 = e.touches[1];
p0.x = t0.clientX;
p0.y = t0.clientY;
p1.x = t1.clientX;
p1.y = t1.clientY;
l0 = locations[t0.identifier],
l1 = locations[t1.identifier];
// mark these touches so they aren't used as taps/holds
l0.wasPinch = true;
l1.wasPinch = true;
// scale about the center of these touches
var center = MM.Point.interpolate(p0, p1, 0.5);
map.zoomByAbout(
Math.log(e.scale) / Math.LN2 - Math.log(l0.scale) / Math.LN2,
center);
// pan from the previous center of these touches
prevX = l0.x + (l1.x - l0.x) * 0.5;
prevY = l0.y + (l1.y - l0.y) * 0.5;
map.panBy(center.x - prevX,
center.y - prevY);
wasPinching = true;
lastPinchCenter = center;
}
// When a pinch event ends, round the zoom of the map.
function onPinched(touch) {
var z = map.getZoom(), // current zoom
tz = locations[touch.identifier].startZoom > z ? Math.floor(z) : Math.ceil(z);
easey().map(map).point(lastPinchCenter).zoom(tz)
.path('about').run(300);
clearLocations();
wasPinching = false;
}
function touchEndMachine(e) {
MM.removeEvent(e.target, 'touchmove',
touchMoveMachine);
MM.removeEvent(e.target, 'touchend',
touchEndMachine);
var now = new Date().getTime();
// round zoom if we're done pinching
if (e.touches.length === 0 && wasPinching) {
onPinched(e.changedTouches[0]);
}
panner.up();
// Look at each changed touch in turn.
for (var i = 0; i < e.changedTouches.length; i += 1) {
var t = e.changedTouches[i],
loc = locations[t.identifier];
// if we didn't see this one (bug?)
// or if it was consumed by pinching already
// just skip to the next one
if (!loc || loc.wasPinch) {
continue;
}
// we now know we have an event object and a
// matching touch that's just ended. Let's see
// what kind of event it is based on how long it
// lasted and how far it moved.
var pos = { x: t.clientX, y: t.clientY },
time = now - loc.time,
travel = MM.Point.distance(pos, loc.startPos);
if (travel > maxTapDistance) {
// we will to assume that the drag has been handled separately
} else if (time > maxTapTime) {
// close in space, but not in time: a hold
pos.end = now;
pos.duration = time;
} else {
// close in both time and space: a tap
pos.time = now;
onTap(pos);
}
}
// Weird, sometimes an end event doesn't get thrown
// for a touch that nevertheless has disappeared.
// Still, this will eventually catch those ids:
var validTouchIds = {};
for (var j = 0; j < e.touches.length; j++) {
validTouchIds[e.touches[j].identifier] = true;
}
for (var id in locations) {
if (!(id in validTouchIds)) {
delete validTouchIds[id];
}
}
return MM.cancelEvent(e);
}
handler.init = function(x) {
map = x;
MM.addEvent(map.parent, 'touchstart',
touchStartMachine);
};
handler.remove = function() {
if (!panner) return;
MM.removeEvent(map.parent, 'touchstart',
touchStartMachine);
panner.remove();
};
return handler;
};
easey_handlers.DoubleClickHandler = function() {
var handler = {},
map;
function doubleClick(e) {
// Ensure that this handler is attached once.
// Get the point on the map that was double-clicked
var point = MM.getMousePoint(e, map);
z = map.getZoom() + (e.shiftKey ? -1 : 1);
// use shift-double-click to zoom out
easey().map(map)
.to(map.pointCoordinate(MM.getMousePoint(e, map)).zoomTo(z))
.path('about').run(100, function() {
map.dispatchCallback('zoomed');
});
return MM.cancelEvent(e);
}
handler.init = function(x) {
map = x;
MM.addEvent(map.parent, 'dblclick', doubleClick);
return handler;
};
handler.remove = function() {
MM.removeEvent(map.parent, 'dblclick', doubleClick);
};
return handler;
};
easey_handlers.MouseWheelHandler = function() {
var handler = {},
map,
_zoomDiv,
ea = easey(),
prevTime,
precise = false;
function mouseWheel(e) {
var delta = 0;
prevTime = prevTime || new Date().getTime();
try {
_zoomDiv.scrollTop = 1000;
_zoomDiv.dispatchEvent(e);
delta = 1000 - _zoomDiv.scrollTop;
} catch (error) {
delta = e.wheelDelta || (-e.detail * 5);
}
// limit mousewheeling to once every 200ms
var timeSince = new Date().getTime() - prevTime;
function dispatchZoomed() {
map.dispatchCallback('zoomed');
}
if (!ea.running()) {
var point = MM.getMousePoint(e, map),
z = map.getZoom();
ea.map(map)
.easing('easeOut')
.to(map.pointCoordinate(MM.getMousePoint(e, map)).zoomTo(z + (delta > 0 ? 1 : -1)))
.path('about').run(100, dispatchZoomed);
prevTime = new Date().getTime();
} else if (timeSince > 150){
ea.zoom(ea.to().zoom + (delta > 0 ? 1 : -1)).from(map.coordinate).resetRun();
prevTime = new Date().getTime();
}
// Cancel the event so that the page doesn't scroll
return MM.cancelEvent(e);
}
handler.init = function(x) {
map = x;
_zoomDiv = document.body.appendChild(document.createElement('div'));
_zoomDiv.style.cssText = 'visibility:hidden;top:0;height:0;width:0;overflow-y:scroll';
var innerDiv = _zoomDiv.appendChild(document.createElement('div'));
innerDiv.style.height = '2000px';
MM.addEvent(map.parent, 'mousewheel', mouseWheel);
return handler;
};
handler.precise = function(x) {
if (!arguments.length) return precise;
precise = x;
return handler;
};
handler.remove = function() {
MM.removeEvent(map.parent, 'mousewheel', mouseWheel);
_zoomDiv.parentNode.removeChild(_zoomDiv);
};
return handler;
};
easey_handlers.DragHandler = function() {
var handler = {},
map,
panner;
function focusMap(e) {
map.parent.focus();
}
function mouseDown(e) {
if (e.shiftKey || e.button == 2) return;
MM.addEvent(document, 'mousemove', mouseMove);
MM.addEvent(document, 'mouseup', mouseUp);
panner.down(e);
map.parent.style.cursor = 'move';
return MM.cancelEvent(e);
}
function mouseMove(e) {
panner.move(e);
return MM.cancelEvent(e);
}
function mouseUp(e) {
MM.removeEvent(document, 'mousemove', mouseMove);
MM.removeEvent(document, 'mouseup', mouseUp);
panner.up();
map.parent.style.cursor = '';
return MM.cancelEvent(e);
}
handler.init = function(x) {
map = x;
MM.addEvent(map.parent, 'click', focusMap);
MM.addEvent(map.parent, 'mousedown', mouseDown);
panner = panning(map);
};
handler.remove = function() {
MM.removeEvent(map.parent, 'click', focusMap);
MM.removeEvent(map.parent, 'mousedown', mouseDown);
panner.up();
panner.remove();
};
return handler;
};
function panning(map, drag) {
var p = {};
drag = drag || 0.15;
var speed = { x: 0, y: 0 },
dir = { x: 0, y: 0 },
removed = false,
nowPoint = null,
oldPoint = null,
moveTime = null,
prevMoveTime = null,
animatedLastPoint = true,
t,
prevT = new Date().getTime();
p.down = function(e) {
nowPoint = oldPoint = MM.getMousePoint(e, map);
moveTime = prevMoveTime = +new Date();
};
p.move = function(e) {
if (nowPoint) {
if (animatedLastPoint) {
oldPoint = nowPoint;
prevMoveTime = moveTime;
animatedLastPoint = false;
}
nowPoint = MM.getMousePoint(e, map);
moveTime = +new Date();
}
};
p.up = function() {
if (+new Date() - prevMoveTime < 50) {
dt = Math.max(1, moveTime - prevMoveTime);
dir.x = nowPoint.x - oldPoint.x;
dir.y = nowPoint.y - oldPoint.y;
speed.x = dir.x / dt;
speed.y = dir.y / dt;
} else {
speed.x = 0;
speed.y = 0;
}
nowPoint = oldPoint = null;
moveTime = null;
};
p.remove = function() {
removed = true;
};
function animate(t) {
var dt = Math.max(1, t - prevT);
if (nowPoint && oldPoint) {
if (!animatedLastPoint) {
dir.x = nowPoint.x - oldPoint.x;
dir.y = nowPoint.y - oldPoint.y;
map.panBy(dir.x, dir.y);
animatedLastPoint = true;
}
} else {
// Rough time based animation accuracy
// using a linear approximation approach
speed.x *= Math.pow(1 - drag, dt * 60 / 1000);
speed.y *= Math.pow(1 - drag, dt * 60 / 1000);
if (Math.abs(speed.x) < 0.001) {
speed.x = 0;
}
if (Math.abs(speed.y) < 0.001) {
speed.y = 0;
}
if (speed.x || speed.y) {
map.panBy(speed.x * dt, speed.y * dt);
}
}
prevT = t;
if (!removed) MM.getFrame(animate);
}
MM.getFrame(animate);
return p;
}
this.easey_handlers = easey_handlers;
})(this, MM);
if (typeof mapbox == 'undefined') mapbox = {};
if (typeof mapbox.markers == 'undefined') mapbox.markers = {};
mapbox.markers.layer = function() {
var m = {},
// external list of geojson features
features = [],
// internal list of markers
markers = [],
// internal list of callbacks
callbackManager = new MM.CallbackManager(m, ['drawn', 'markeradded']),
// the absolute position of the parent element
position = null,
// a factory function for creating DOM elements out of
// GeoJSON objects
factory = mapbox.markers.simplestyle_factory,
// a sorter function for sorting GeoJSON objects
// in the DOM
sorter = function(a, b) {
return b.geometry.coordinates[1] -
a.geometry.coordinates[1];
},
// a list of urls from which features can be loaded.
// these can be templated with {z}, {x}, and {y}
urls,
// map bounds
left = null,
right = null,
// a function that filters points
filter = function() {
return true;
},
_seq = 0,
keyfn = function() {
return ++_seq;
},
index = {};
// The parent DOM element
m.parent = document.createElement('div');
m.parent.style.cssText = 'position: absolute; top: 0px;' +
'left:0px; width:100%; height:100%; margin:0; padding:0; z-index:0;pointer-events:none;';
m.name = 'markers';
// reposition a single marker element
function reposition(marker) {
// remember the tile coordinate so we don't have to reproject every time
if (!marker.coord) marker.coord = m.map.locationCoordinate(marker.location);
var pos = m.map.coordinatePoint(marker.coord);
var pos_loc, new_pos;
// If this point has wound around the world, adjust its position
// to the new, onscreen location
if (pos.x < 0) {
pos_loc = new MM.Location(marker.location.lat, marker.location.lon);
pos_loc.lon += Math.ceil((left.lon - marker.location.lon) / 360) * 360;
new_pos = m.map.locationPoint(pos_loc);
if (new_pos.x < m.map.dimensions.x) {
pos = new_pos;
marker.coord = m.map.locationCoordinate(pos_loc);
}
} else if (pos.x > m.map.dimensions.x) {
pos_loc = new MM.Location(marker.location.lat, marker.location.lon);
pos_loc.lon -= Math.ceil((marker.location.lon - right.lon) / 360) * 360;
new_pos = m.map.locationPoint(pos_loc);
if (new_pos.x > 0) {
pos = new_pos;
marker.coord = m.map.locationCoordinate(pos_loc);
}
}
pos.scale = 1;
pos.width = pos.height = 0;
MM.moveElement(marker.element, pos);
}
// Adding and removing callbacks is mainly a way to enable mmg_interaction to operate.
// I think there are better ways to do this, by, for instance, having mmg be able to
// register 'binders' to markers, but this is backwards-compatible and equivalent
// externally.
m.addCallback = function(event, callback) {
callbackManager.addCallback(event, callback);
return m;
};
m.removeCallback = function(event, callback) {
callbackManager.removeCallback(event, callback);
return m;
};
// Draw this layer - reposition all markers on the div. This requires
// the markers library to be attached to a map, and will noop otherwise.
m.draw = function() {
if (!m.map) return;
left = m.map.pointLocation(new MM.Point(0, 0));
right = m.map.pointLocation(new MM.Point(m.map.dimensions.x, 0));
callbackManager.dispatchCallback('drawn', m);
for (var i = 0; i < markers.length; i++) {
reposition(markers[i]);
}
};
// Add a fully-formed marker to the layer. This fires a `markeradded` event.
// This does not require the map element t be attached.
m.add = function(marker) {
if (!marker || !marker.element) return null;
m.parent.appendChild(marker.element);
markers.push(marker);
callbackManager.dispatchCallback('markeradded', marker);
return marker;
};
// Remove a fully-formed marker - which must be the same exact marker
// object as in the markers array - from the layer.
m.remove = function(marker) {
if (!marker) return null;
m.parent.removeChild(marker.element);
for (var i = 0; i < markers.length; i++) {
if (markers[i] === marker) {
markers.splice(i, 1);
return marker;
}
}
return marker;
};
m.markers = function(x) {
if (!arguments.length) return markers;
};
// Add a GeoJSON feature to the markers layer.
m.add_feature = function(x) {
return m.features(m.features().concat([x]));
};
m.sort = function(x) {
if (!arguments.length) return sorter;
sorter = x;
return m;
};
// Public data interface
m.features = function(x) {
// Return features
if (!arguments.length) return features;
// Set features
if (!x) x = [];
features = x.slice();
features.sort(sorter);
for (var j = 0; j < markers.length; j++) {
markers[j].touch = false;
}
for (var i = 0; i < features.length; i++) {
if (filter(features[i])) {
var id = keyfn(features[i]);
if (index[id]) {
// marker is already on the map, needs to be moved or rebuilt
index[id].location = new MM.Location(
features[i].geometry.coordinates[1],
features[i].geometry.coordinates[0]);
index[id].coord = null;
reposition(index[id]);
} else {
// marker needs to be added to the map
index[id] = m.add({
element: factory(features[i]),
location: new MM.Location(
features[i].geometry.coordinates[1],
features[i].geometry.coordinates[0]),
data: features[i]
});
}
if (index[id]) index[id].touch = true;
}
}
for (var k = markers.length - 1; k >= 0; k--) {
if (markers[k].touch === false) {
m.remove(markers[k]);
}
}
if (m.map && m.map.coordinate) m.map.draw();
return m;
};
// Request features from a URL - either a local URL or a JSONP call.
// Expects GeoJSON-formatted features.
m.url = function(x, callback) {
if (!arguments.length) return urls;
if (typeof reqwest === 'undefined') throw 'reqwest is required for url loading';
if (typeof x === 'string') x = [x];
urls = x;
function add_features(err, x) {
if (err && callback) return callback(err);
var features = typeof x !== 'undefined' && x.features ? x.features : null;
if (features) m.features(features);
if (callback) callback(err, features, m);
}
reqwest((urls[0].match(/geojsonp$/)) ? {
url: urls[0] + (~urls[0].indexOf('?') ? '&' : '?') + 'callback=?',
type: 'jsonp',
success: function(resp) { add_features(null, resp); },
error: add_features
} : {
url: urls[0],
type: 'json',
success: function(resp) { add_features(null, resp); },
error: add_features
});
return m;
};
m.id = function(x, callback) {
return m.url('http://a.tiles.mapbox.com/v3/' + x + '/markers.geojsonp', callback);
};
m.csv = function(x) {
return m.features(mapbox.markers.csv_to_geojson(x));
};
m.extent = function() {
var ext = [{
lat: Infinity,
lon: Infinity
}, {
lat: -Infinity,
lon: -Infinity
}];
var ft = m.features();
for (var i = 0; i < ft.length; i++) {
var coords = ft[i].geometry.coordinates;
if (coords[0] < ext[0].lon) ext[0].lon = coords[0];
if (coords[1] < ext[0].lat) ext[0].lat = coords[1];
if (coords[0] > ext[1].lon) ext[1].lon = coords[0];
if (coords[1] > ext[1].lat) ext[1].lat = coords[1];
}
return ext;
};
m.key = function(x) {
if (!arguments.length) return keyfn;
if (x === null) {
keyfn = function() { return ++_seq; };
} else {
keyfn = x;
}
return m;
};
// Factory interface
m.factory = function(x) {
if (!arguments.length) return factory;
factory = x;
// re-render all features
m.features(m.features());
return m;
};
m.filter = function(x) {
if (!arguments.length) return filter;
filter = x;
// Setting a filter re-sets the features into a new array.
// This does _not_ change the actual output of .features()
m.features(m.features());
return m;
};
m.destroy = function() {
if (m.parent.parentNode) {
m.parent.parentNode.removeChild(m.parent);
}
};
// Get or set this layer's name
m.named = function(x) {
if (!arguments.length) return m.name;
m.name = x;
return m;
};
m.enabled = true;
m.enable = function() {
this.enabled = true;
this.parent.style.display = '';
return m;
};
m.disable = function() {
this.enabled = false;
this.parent.style.display = 'none';
return m;
};
return m;
};
mmg = mapbox.markers.layer; // Backwards compatibility
mapbox.markers.interaction = function(mmg) {
// Make markersLayer.interaction a singleton and this an accessor.
if (mmg && mmg.interaction) return mmg.interaction;
var mi = {},
tooltips = [],
exclusive = true,
hideOnMove = true,
showOnHover = true,
close_timer = null,
on = true,
formatter;
mi.formatter = function(x) {
if (!arguments.length) return formatter;
formatter = x;
return mi;
};
mi.formatter(function(feature) {
var o = '',
props = feature.properties;
// Tolerate markers without properties at all.
if (!props) return null;
if (props.title) {
o += '<div class="marker-title">' + props.title + '</div>';
}
if (props.description) {
o += '<div class="marker-description">' + props.description + '</div>';
}
if (typeof html_sanitize !== undefined) {
o = html_sanitize(o,
function(url) {
if (/^(https?:\/\/|data:image)/.test(url)) return url;
},
function(x) { return x; });
}
return o;
});
mi.hideOnMove = function(x) {
if (!arguments.length) return hideOnMove;
hideOnMove = x;
return mi;
};
mi.exclusive = function(x) {
if (!arguments.length) return exclusive;
exclusive = x;
return mi;
};
mi.showOnHover = function(x) {
if (!arguments.length) return showOnHover;
showOnHover = x;
return mi;
};
mi.hideTooltips = function() {
while (tooltips.length) mmg.remove(tooltips.pop());
for (var i = 0; i < markers.length; i++) {
delete markers[i].clicked;
}
};
mi.add = function() {
on = true;
return mi;
};
mi.remove = function() {
on = false;
return mi;
};
mi.bindMarker = function(marker) {
var delayed_close = function() {
if (showOnHover === false) return;
if (!marker.clicked) close_timer = window.setTimeout(function() {
mi.hideTooltips();
}, 200);
};
var show = function(e) {
if (e && e.type == 'mouseover' && showOnHover === false) return;
if (!on) return;
var content = formatter(marker.data);
// Don't show a popup if the formatter returns an
// empty string. This does not do any magic around DOM elements.
if (!content) return;
if (exclusive && tooltips.length > 0) {
mi.hideTooltips();
// We've hidden all of the tooltips, so let's not close
// the one that we're creating as soon as it is created.
if (close_timer) window.clearTimeout(close_timer);
}
var tooltip = document.createElement('div');
tooltip.className = 'marker-tooltip';
tooltip.style.width = '100%';
var wrapper = tooltip.appendChild(document.createElement('div'));
wrapper.style.cssText = 'position: absolute; pointer-events: none;';
var popup = wrapper.appendChild(document.createElement('div'));
popup.className = 'marker-popup';
popup.style.cssText = 'pointer-events: auto;';
if (typeof content == 'string') {
popup.innerHTML = content;
} else {
popup.appendChild(content);
}
// Align the bottom of the tooltip with the top of its marker
wrapper.style.bottom = marker.element.offsetHeight / 2 + 20 + 'px';
// Block mouse and touch events
function stopPropagation(e) {
e.cancelBubble = true;
if (e.stopPropagation) { e.stopPropagation(); }
return false;
}
MM.addEvent(popup, 'mousedown', stopPropagation);
MM.addEvent(popup, 'touchstart', stopPropagation);
if (showOnHover) {
tooltip.onmouseover = function() {
if (close_timer) window.clearTimeout(close_timer);
};
tooltip.onmouseout = delayed_close;
}
var t = {
element: tooltip,
data: {},
interactive: false,
location: marker.location.copy()
};
tooltips.push(t);
marker.tooltip = t;
mmg.add(t);
mmg.draw();
};
marker.showTooltip = show;
marker.element.onclick = marker.element.ontouchstart = function() {
show();
marker.clicked = true;
};
marker.element.onmouseover = show;
marker.element.onmouseout = delayed_close;
};
function bindPanned() {
mmg.map.addCallback('panned', function() {
if (hideOnMove) {
while (tooltips.length) {
mmg.remove(tooltips.pop());
}
}
});
}
if (mmg) {
// Remove tooltips on panning
mmg.addCallback('drawn', bindPanned);
// Bind present markers
var markers = mmg.markers();
for (var i = 0; i < markers.length; i++) {
mi.bindMarker(markers[i]);
}
// Bind future markers
mmg.addCallback('markeradded', function(_, marker) {
// Markers can choose to be not-interactive. The main example
// of this currently is marker bubbles, which should not recursively
// give marker bubbles.
if (marker.interactive !== false) mi.bindMarker(marker);
});
// Save reference to self on the markers instance.
mmg.interaction = mi;
}
return mi;
};
mmg_interaction = mapbox.markers.interaction;
mapbox.markers.csv_to_geojson = function(x) {
// Extracted from d3
function csv_parse(text) {
var header;
return csv_parseRows(text, function(row, i) {
if (i) {
var o = {}, j = -1, m = header.length;
while (++j < m) o[header[j]] = row[j];
return o;
} else {
header = row;
return null;
}
});
}
function csv_parseRows (text, f) {
var EOL = {}, // sentinel value for end-of-line
EOF = {}, // sentinel value for end-of-file
rows = [], // output rows
re = /\r\n|[,\r\n]/g, // field separator regex
n = 0, // the current line number
t, // the current token
eol; // is the current token followed by EOL?
re.lastIndex = 0; // work-around bug in FF 3.6
/** @private Returns the next token. */
function token() {
if (re.lastIndex >= text.length) return EOF; // special case: end of file
if (eol) { eol = false; return EOL; } // special case: end of line
// special case: quotes
var j = re.lastIndex;
if (text.charCodeAt(j) === 34) {
var i = j;
while (i++ < text.length) {
if (text.charCodeAt(i) === 34) {
if (text.charCodeAt(i + 1) !== 34) break;
i++;
}
}
re.lastIndex = i + 2;
var c = text.charCodeAt(i + 1);
if (c === 13) {
eol = true;
if (text.charCodeAt(i + 2) === 10) re.lastIndex++;
} else if (c === 10) {
eol = true;
}
return text.substring(j + 1, i).replace(/""/g, "\"");
}
// common case
var m = re.exec(text);
if (m) {
eol = m[0].charCodeAt(0) !== 44;
return text.substring(j, m.index);
}
re.lastIndex = text.length;
return text.substring(j);
}
while ((t = token()) !== EOF) {
var a = [];
while ((t !== EOL) && (t !== EOF)) {
a.push(t);
t = token();
}
if (f && !(a = f(a, n++))) continue;
rows.push(a);
}
return rows;
}
var features = [];
var parsed = csv_parse(x);
if (!parsed.length) return features;
var latfield = '',
lonfield = '';
for (var f in parsed[0]) {
if (f.match(/^Lat/i)) latfield = f;
if (f.match(/^Lon/i)) lonfield = f;
}
if (!latfield || !lonfield) {
throw 'CSV: Could not find latitude or longitude field';
}
for (var i = 0; i < parsed.length; i++) {
if (parsed[i][lonfield] !== undefined &&
parsed[i][lonfield] !== undefined) {
features.push({
type: 'Feature',
properties: parsed[i],
geometry: {
type: 'Point',
coordinates: [
parseFloat(parsed[i][lonfield]),
parseFloat(parsed[i][latfield])]
}
});
}
}
return features;
};
mapbox.markers.simplestyle_factory = function(feature) {
var sizes = {
small: [20, 50],
medium: [30, 70],
large: [35, 90]
};
var fp = feature.properties || {};
var size = fp['marker-size'] || 'medium';
var symbol = (fp['marker-symbol']) ? '-' + fp['marker-symbol'] : '';
var color = fp['marker-color'] || '7e7e7e';
color = color.replace('#', '');
var d = document.createElement('img');
d.width = sizes[size][0];
d.height = sizes[size][1];
d.className = 'simplestyle-marker';
d.alt = fp.title || '';
d.src = (mapbox.markers.marker_baseurl || 'http://a.tiles.mapbox.com/v3/marker/') +
'pin-' +
// Internet Explorer does not support the `size[0]` syntax.
size.charAt(0) + symbol + '+' + color +
((window.devicePixelRatio === 2) ? '@2x' : '') +
'.png';
// Support retina markers for 2x devices
var ds = d.style;
ds.position = 'absolute';
ds.clip = 'rect(auto auto ' + (sizes[size][1] * 0.75) + 'px auto)';
ds.marginTop = -((sizes[size][1]) / 2) + 'px';
ds.marginLeft = -(sizes[size][0] / 2) + 'px';
ds.cursor = 'pointer';
ds.pointerEvents = 'all';
return d;
};
if (typeof mapbox === 'undefined') mapbox = {};
mapbox.MAPBOX_URL = 'http://a.tiles.mapbox.com/v3/';
// a `mapbox.map` is a modestmaps object with the
// easey handlers as defaults
mapbox.map = function(el, layer, dimensions, eventhandlers) {
var m = new MM.Map(el, layer, dimensions,
eventhandlers || [
easey_handlers.TouchHandler(),
easey_handlers.DragHandler(),
easey_handlers.DoubleClickHandler(),
easey_handlers.MouseWheelHandler()
]);
// Set maxzoom to 17, highest zoom level supported by MapBox streets
m.setZoomRange(0, 17);
// Attach easey, ui, and interaction
m.ease = easey().map(m);
m.ui = mapbox.ui(m);
m.interaction = mapbox.interaction().map(m);
// Autoconfigure map with sensible defaults
m.auto = function() {
this.ui.zoomer.add();
this.ui.zoombox.add();
this.ui.legend.add();
this.ui.attribution.add();
this.ui.refresh();
this.interaction.auto();
for (var i = 0; i < this.layers.length; i++) {
if (this.layers[i].tilejson) {
var tj = this.layers[i].tilejson(),
center = tj.center || new MM.Location(0, 0),
zoom = tj.zoom || 0;
this.setCenterZoom(center, zoom);
break;
}
}
return this;
};
m.refresh = function() {
this.ui.refresh();
this.interaction.refresh();
return this;
};
var smooth_handlers = [
easey_handlers.TouchHandler,
easey_handlers.DragHandler,
easey_handlers.DoubleClickHandler,
easey_handlers.MouseWheelHandler
];
var default_handlers = [
MM.TouchHandler,
MM.DragHandler,
MM.DoubleClickHandler,
MM.MouseWheelHandler
];
MM.Map.prototype.smooth = function(_) {
while (this.eventHandlers.length) {
this.eventHandlers.pop().remove();
}
var handlers = _ ? smooth_handlers : default_handlers;
for (var j = 0; j < handlers.length; j++) {
var h = handlers[j]();
this.eventHandlers.push(h);
h.init(this);
}
return m;
};
m.setPanLimits = function(locations) {
if (!(locations instanceof MM.Extent)) {
locations = new MM.Extent(
new MM.Location(
locations[0].lat,
locations[0].lon),
new MM.Location(
locations[1].lat,
locations[1].lon));
}
locations = locations.toArray();
this.coordLimits = [
this.locationCoordinate(locations[0]).zoomTo(this.coordLimits[0].zoom),
this.locationCoordinate(locations[1]).zoomTo(this.coordLimits[1].zoom)
];
return m;
};
m.center = function(location, animate) {
if (location && animate) {
this.ease.location(location).zoom(this.zoom())
.optimal(null, null, animate.callback);
} else {
return MM.Map.prototype.center.call(this, location);
}
};
m.zoom = function(zoom, animate) {
if (zoom !== undefined && animate) {
this.ease.to(this.coordinate).zoom(zoom).run(600);
} else {
return MM.Map.prototype.zoom.call(this, zoom);
}
};
m.centerzoom = function(location, zoom, animate) {
if (location && zoom !== undefined && animate) {
this.ease.location(location).zoom(zoom).optimal(null, null, animate.callback);
} else if (location && zoom !== undefined) {
return this.setCenterZoom(location, zoom);
}
};
// Insert a tile layer below marker layers
m.addTileLayer = function(layer) {
for (var i = m.layers.length; i > 0; i--) {
if (!m.layers[i - 1].features) {
return this.insertLayerAt(i, layer);
}
}
return this.insertLayerAt(0, layer);
};
// We need to redraw after removing due to compositing
m.removeLayerAt = function(index) {
MM.Map.prototype.removeLayerAt.call(this, index);
MM.getFrame(this.getRedraw());
return this;
};
// We need to redraw after removing due to compositing
m.swapLayersAt = function(a, b) {
MM.Map.prototype.swapLayersAt.call(this, a, b);
MM.getFrame(this.getRedraw());
return this;
};
return m;
};
this.mapbox = mapbox;
if (typeof mapbox === 'undefined') mapbox = {};
// Simplest way to create a map. Just provide an element id and
// a tilejson url (or an array of many) and an optional callback
// that takes one argument, the map.
mapbox.auto = function(elem, url, callback) {
mapbox.load(url, function(tj) {
var opts = tj instanceof Array ? tj : [tj];
var tileLayers = [],
markerLayers = [];
for (var i = 0; i < opts.length; i++) {
if (opts[i].layer) tileLayers.push(opts[i].layer);
if (opts[i].markers) markerLayers.push(opts[i].markers);
}
var map = mapbox.map(elem, tileLayers.concat(markerLayers)).auto();
if (callback) callback(map, tj);
});
};
// mapbox.load pulls a [TileJSON](http://mapbox.com/wax/tilejson.html)
// object from a server and uses it to configure a map and various map-related
// objects
mapbox.load = function(url, callback) {
// Support multiple urls
if (url instanceof Array) {
return mapbox.util.asyncMap(url, mapbox.load, callback);
}
// Support bare IDs as well as fully-formed URLs
if (url.indexOf('http') !== 0) {
url = mapbox.MAPBOX_URL + url + '.jsonp';
}
wax.tilejson(url, function(tj) {
// Pull zoom level out of center
tj.zoom = tj.center[2];
// Instantiate center as a Modest Maps-compatible object
tj.center = {
lat: tj.center[1],
lon: tj.center[0]
};
tj.thumbnail = mapbox.MAPBOX_URL + tj.id + '/thumb.png';
// Instantiate tile layer
tj.layer = mapbox.layer().tilejson(tj);
// Instantiate markers layer
if (tj.data) {
tj.markers = mapbox.markers.layer();
tj.markers.url(tj.data, function() {
mapbox.markers.interaction(tj.markers);
callback(tj);
});
} else {
callback(tj);
}
});
};
if (typeof mapbox === 'undefined') mapbox = {};
mapbox.ui = function(map) {
var ui = {
zoomer: wax.mm.zoomer().map(map).smooth(true),
pointselector: wax.mm.pointselector().map(map),
hash: wax.mm.hash().map(map),
zoombox: wax.mm.zoombox().map(map),
fullscreen: wax.mm.fullscreen().map(map),
legend: wax.mm.legend().map(map),
attribution: wax.mm.attribution().map(map)
};
function unique(x) {
var u = {}, l = [];
for (var i = 0; i < x.length; i++) u[x[i]] = true;
for (var a in u) { if (a) l.push(a); }
return l;
}
ui.refresh = function() {
if (!map) return console && console.error('ui not attached to map');
var attributions = [], legends = [];
for (var i = 0; i < map.layers.length; i++) {
if (map.layers[i].enabled && map.layers[i].tilejson) {
var attribution = map.layers[i].tilejson().attribution;
if (attribution) attributions.push(attribution);
var legend = map.layers[i].tilejson().legend;
if (legend) legends.push(legend);
}
}
var unique_attributions = unique(attributions);
var unique_legends = unique(legends);
ui.attribution.content(unique_attributions.length ? unique_attributions.join('<br />') : '');
ui.legend.content(unique_legends.length ? unique_legends.join('<br />') : '');
ui.attribution.element().style.display = unique_attributions.length ? '' : 'none';
ui.legend.element().style.display = unique_legends.length ? '' : 'none';
};
return ui;
};
if (typeof mapbox === 'undefined') mapbox = {};
mapbox.util = {
// Asynchronous map that groups results maintaining order
asyncMap: function(values, func, callback) {
var remaining = values.length,
results = [];
function next(index) {
return function(result) {
results[index] = result;
remaining--;
if (!remaining) callback(results);
};
}
for (var i = 0; i < values.length; i++) {
func(values[i], next(i));
}
}
};
if (typeof mapbox === 'undefined') mapbox = {};
mapbox.interaction = function() {
var interaction = wax.mm.interaction(),
auto = false;
interaction.refresh = function() {
var map = interaction.map();
if (!auto || !map) return interaction;
for (var i = map.layers.length - 1; i >= 0; i --) {
if (map.layers[i].enabled) {
var tj = map.layers[i].tilejson && map.layers[i].tilejson();
if (tj && tj.template) return interaction.tilejson(tj);
}
}
return interaction.tilejson({});
};
interaction.auto = function() {
auto = true;
interaction.on(wax.tooltip()
.animate(true)
.parent(interaction.map().parent)
.events()).on(wax.location().events());
return interaction.refresh();
};
return interaction;
};
if (typeof mapbox === 'undefined') mapbox = {};
mapbox.layer = function() {
if (!(this instanceof mapbox.layer)) {
return new mapbox.layer();
}
// instance variables
this._tilejson = {};
this._url = '';
this._id = '';
this._composite = true;
this.name = '';
this.parent = document.createElement('div');
this.parent.style.cssText = 'position: absolute; top: 0px; left: 0px; width: 100%; height: 100%; margin: 0; padding: 0; z-index: 0';
this.levels = {};
this.requestManager = new MM.RequestManager();
this.requestManager.addCallback('requestcomplete', this.getTileComplete());
this.requestManager.addCallback('requesterror', this.getTileError());
this.setProvider(new wax.mm._provider({
tiles: ['data:image/gif;base64,R0lGODlhAQABAIAAAAAAAP///yH5BAEAAAAALAAAAAABAAEAAAIBRAA7']
}));
};
mapbox.layer.prototype.refresh = function(callback) {
var that = this;
// When the async request for a TileJSON blob comes back,
// this resets its own tilejson and calls setProvider on itself.
wax.tilejson(this._url, function(o) {
that.tilejson(o);
if (callback) callback(that);
});
return this;
};
mapbox.layer.prototype.url = function(x, callback) {
if (!arguments.length) return this._url;
this._mapboxhosting = x.indexOf(mapbox.MAPBOX_URL) == 0;
this._url = x;
return this.refresh(callback);
};
mapbox.layer.prototype.id = function(x, callback) {
if (!arguments.length) return this._id;
this.named(x);
this._id = x;
return this.url(mapbox.MAPBOX_URL + x + '.jsonp', callback);
};
mapbox.layer.prototype.named = function(x) {
if (!arguments.length) return this.name;
this.name = x;
return this;
};
mapbox.layer.prototype.tilejson = function(x) {
if (!arguments.length) return this._tilejson;
if (!this._composite || !this._mapboxhosting) this.setProvider(new wax.mm._provider(x));
this._tilejson = x;
this.name = this.name || x.id;
this._id = this._id || x.id;
if (x.bounds) {
var proj = new MM.MercatorProjection(0,
MM.deriveTransformation(
-Math.PI, Math.PI, 0, 0,
Math.PI, Math.PI, 1, 0,
-Math.PI, -Math.PI, 0, 1));
this.provider.tileLimits = [
proj.locationCoordinate(new MM.Location(x.bounds[3], x.bounds[0]))
.zoomTo(x.minzoom ? x.minzoom : 0),
proj.locationCoordinate(new MM.Location(x.bounds[1], x.bounds[2]))
.zoomTo(x.maxzoom ? x.maxzoom : 18)
];
}
return this;
};
mapbox.layer.prototype.draw = function() {
if (!this.enabled || !this.map) return;
if (this._composite && this._mapboxhosting) {
// Get index of current layer
var i = 0;
for (i; i < this.map.layers.length; i++) {
if (this.map.layers[i] == this) break;
}
// If layer is composited by layer below it, don't draw
for (var j = i - 1; j >= 0; j--) {
if (this.map.getLayerAt(j).enabled) {
if (this.map.getLayerAt(j)._composite) {
this.parent.style.display = 'none';
this.compositeLayer = false;
return this;
}
else break;
}
}
// Get map IDs for all consecutive composited layers
var ids = [];
for (var k = i; k < this.map.layers.length; k++) {
var l = this.map.getLayerAt(k);
if (l.enabled) {
if (l._composite && l._mapboxhosting) ids.push(l.id());
else break;
}
}
ids = ids.join(',');
if (this.compositeLayer !== ids) {
this.compositeLayer = ids;
var that = this;
wax.tilejson(mapbox.MAPBOX_URL + ids + '.jsonp', function(tiledata) {
that.setProvider(new wax.mm._provider(tiledata));
// setProvider calls .draw()
});
this.parent.style.display = '';
return this;
}
} else {
this.parent.style.display = '';
// Set back to regular provider
if (this.compositeLayer) {
this.compositeLayer = false;
this.setProvider(new wax.mm._provider(this.tilejson()));
// .draw() called by .tilejson()
}
}
return MM.Layer.prototype.draw.call(this);
};
mapbox.layer.prototype.composite = function(x) {
if (!arguments.length) return this._composite;
if (x) this._composite = true;
else this._composite = false;
return this;
};
// we need to redraw map due to compositing
mapbox.layer.prototype.enable = function(x) {
MM.Layer.prototype.enable.call(this, x);
if (this.map) this.map.draw();
return this;
};
// we need to redraw map due to compositing
mapbox.layer.prototype.disable = function(x) {
MM.Layer.prototype.disable.call(this, x);
if (this.map) this.map.draw();
return this;
};
MM.extend(mapbox.layer, MM.Layer);
Reference in New Issue View Git Blame Copy Permalink