( function ( ) {
var nv = {
version : '0.0.1a' ,
dev : true //set false when in production
} ;
window . nv = nv ;
nv . tooltip = { } ; // For the tooltip system
nv . utils = { } ; // Utility subsystem
nv . models = { } ; //stores all the possible models/components
nv . charts = { } ; //stores all the ready to use charts
nv . graphs = [ ] ; //stores all the graphs currently on the page
nv . logs = { } ; //stores some statistics and potential error messages
nv . dispatch = d3 . dispatch ( 'render_start' , 'render_end' ) ;
// ********************************************
// Public Core NV functions
nv . dispatch . on ( 'render_start' , function ( e ) {
nv . logs . startTime = + new Date ;
} ) ;
nv . dispatch . on ( 'render_end' , function ( e ) {
nv . logs . endTime = + new Date ;
nv . logs . totalTime = nv . logs . endTime - nv . logs . startTime ;
if ( nv . dev && console . log ) console . log ( 'total' , nv . logs . totalTime ) ; //used for development, to keep track of graph generation times
} ) ;
// ********************************************
// Public Core NV functions
// Logs all arguments, and returns the last so you can test things in place
nv . log = function ( ) {
if ( nv . dev && console . log ) console . log . apply ( console , arguments ) ;
return arguments [ arguments . length - 1 ] ;
}
nv . render = function render ( step ) {
step = step || 1 ; // number of graphs to generate in each timout loop
render . active = true ;
nv . dispatch . render _start ( ) ;
setTimeout ( function ( ) {
var chart ;
for ( var i = 0 ; i < step && ( graph = render . queue [ i ] ) ; i ++ ) {
chart = graph . generate ( ) ;
if ( typeof graph . callback === 'function' ) graph . callback ( chart ) ;
nv . graphs . push ( chart ) ;
}
render . queue . splice ( 0 , i ) ;
if ( render . queue . length ) setTimeout ( arguments . callee , 0 ) ;
else {
nv . render . active = false ;
nv . dispatch . render _end ( ) ;
}
} , 0 ) ;
} ;
nv . render . queue = [ ] ;
nv . addGraph = function ( obj ) {
if ( typeof arguments [ 0 ] === 'function' )
obj = { generate : arguments [ 0 ] , callback : arguments [ 1 ] } ;
nv . render . queue . push ( obj ) ;
if ( ! nv . render . active ) nv . render ( ) ;
} ;
nv . identity = function ( d ) { return d } ;
nv . strip = function ( s ) { return s . replace ( /(\s|&)/g , '' ) ; } ;
function daysInMonth ( month , year ) {
return ( new Date ( year , month + 1 , 0 ) ) . getDate ( ) ;
} ;
function d3 _time _range ( floor , step , number ) {
return function ( t0 , t1 , dt ) {
var time = floor ( t0 ) , times = [ ] ;
if ( time < t0 ) step ( time ) ;
if ( dt > 1 ) {
while ( time < t1 ) {
var date = new Date ( + time ) ;
if ( ! ( number ( date ) % dt ) ) times . push ( date ) ;
step ( time ) ;
}
} else {
while ( time < t1 ) times . push ( new Date ( + time ) ) , step ( time ) ;
}
return times ;
} ;
} ;
d3 . time . monthEnd = function ( date ) {
return new Date ( date . getFullYear ( ) , date . getMonth ( ) , 0 ) ;
} ;
d3 . time . monthEnds = d3 _time _range ( d3 . time . monthEnd , function ( date ) {
date . setUTCDate ( date . getUTCDate ( ) + 1 ) ;
date . setDate ( daysInMonth ( date . getMonth ( ) + 1 , date . getFullYear ( ) ) ) ;
} , function ( date ) {
return date . getMonth ( ) ;
}
) ;
/ * * * * *
* A no frills tooltip implementation .
* * * * * /
( function ( ) {
var nvtooltip = window . nv . tooltip = { } ;
nvtooltip . show = function ( pos , content , gravity , dist , parentContainer , classes ) {
var container = document . createElement ( 'div' ) ;
container . className = 'nvtooltip ' + ( classes ? classes : 'xy-tooltip' ) ;
gravity = gravity || 's' ;
dist = dist || 20 ;
var body = parentContainer ? parentContainer : document . getElementsByTagName ( 'body' ) [ 0 ] ;
container . innerHTML = content ;
container . style . left = 0 ;
container . style . top = 0 ;
container . style . opacity = 0 ;
body . appendChild ( container ) ;
var height = parseInt ( container . offsetHeight ) ,
width = parseInt ( container . offsetWidth ) ,
windowWidth = nv . utils . windowSize ( ) . width ,
windowHeight = nv . utils . windowSize ( ) . height ,
scrollTop = body . scrollTop ,
scrollLeft = body . scrollLeft ,
left , top ;
switch ( gravity ) {
case 'e' :
left = pos [ 0 ] - width - dist ;
top = pos [ 1 ] - ( height / 2 ) ;
if ( left < scrollLeft ) left = pos [ 0 ] + dist ;
if ( top < scrollTop ) top = scrollTop + 5 ;
if ( top + height > scrollTop + windowHeight ) top = scrollTop - height - 5 ;
break ;
case 'w' :
left = pos [ 0 ] + dist ;
top = pos [ 1 ] - ( height / 2 ) ;
if ( left + width > windowWidth ) left = pos [ 0 ] - width - dist ;
if ( top < scrollTop ) top = scrollTop + 5 ;
if ( top + height > scrollTop + windowHeight ) top = scrollTop - height - 5 ;
break ;
case 'n' :
left = pos [ 0 ] - ( width / 2 ) ;
top = pos [ 1 ] + dist ;
if ( left < scrollLeft ) left = scrollLeft + 5 ;
if ( left + width > windowWidth ) left = windowWidth - width - 5 ;
if ( top + height > scrollTop + windowHeight ) top = pos [ 1 ] - height - dist ;
break ;
case 's' :
left = pos [ 0 ] - ( width / 2 ) ;
top = pos [ 1 ] - height - dist ;
if ( left < scrollLeft ) left = scrollLeft + 5 ;
if ( left + width > windowWidth ) left = windowWidth - width - 5 ;
if ( scrollTop > top ) top = pos [ 1 ] + 20 ;
break ;
}
container . style . left = left + 'px' ;
container . style . top = top + 'px' ;
container . style . opacity = 1 ;
container . style . position = 'absolute' ; //fix scroll bar issue
container . style . pointerEvents = 'none' ; //fix scroll bar issue
return container ;
} ;
nvtooltip . cleanup = function ( ) {
// Find the tooltips, mark them for removal by this class (so others cleanups won't find it)
var tooltips = document . getElementsByClassName ( 'nvtooltip' ) ;
var purging = [ ] ;
while ( tooltips . length ) {
purging . push ( tooltips [ 0 ] ) ;
tooltips [ 0 ] . style . transitionDelay = '0 !important' ;
tooltips [ 0 ] . style . opacity = 0 ;
tooltips [ 0 ] . className = 'nvtooltip-pending-removal' ;
}
setTimeout ( function ( ) {
while ( purging . length ) {
var removeMe = purging . pop ( ) ;
removeMe . parentNode . removeChild ( removeMe ) ;
}
} , 500 ) ;
} ;
} ) ( ) ;
nv . utils . windowSize = function ( ) {
// Sane defaults
var size = { width : 640 , height : 480 } ;
// Earlier IE uses Doc.body
if ( document . body && document . body . offsetWidth ) {
size . width = document . body . offsetWidth ;
size . height = document . body . offsetHeight ;
}
// IE can use depending on mode it is in
if ( document . compatMode == 'CSS1Compat' &&
document . documentElement &&
document . documentElement . offsetWidth ) {
size . width = document . documentElement . offsetWidth ;
size . height = document . documentElement . offsetHeight ;
}
// Most recent browsers use
if ( window . innerWidth && window . innerHeight ) {
size . width = window . innerWidth ;
size . height = window . innerHeight ;
}
return ( size ) ;
} ;
// Easy way to bind multiple functions to window.onresize
// TODO: give a way to remove a function after its bound, other than removing alkl of them
nv . utils . windowResize = function ( fun ) {
var oldresize = window . onresize ;
window . onresize = function ( e ) {
if ( typeof oldresize == 'function' ) oldresize ( e ) ;
fun ( e ) ;
}
}
nv . models . axis = function ( ) {
//Default Settings
var width = 60 , //only used for tickLabel currently
height = 60 , //only used for tickLabel currently
scale = d3 . scale . linear ( ) ,
axisLabelText = null ,
showMaxMin = true , //TODO: showMaxMin should be disabled on all ordinal scaled axes
highlightZero = true ;
//TODO: considering adding margin
var axis = d3 . svg . axis ( )
. scale ( scale )
. orient ( 'bottom' )
. tickFormat ( function ( d ) { return d } ) , //TODO: decide if we want to keep this
scale0 ;
function chart ( selection ) {
selection . each ( function ( data ) {
var container = d3 . select ( this ) ;
var wrap = container . selectAll ( 'g.wrap.axis' ) . data ( [ data ] ) ;
var wrapEnter = wrap . enter ( ) . append ( 'g' ) . attr ( 'class' , 'wrap axis' ) ;
var gEnter = wrapEnter . append ( 'g' ) ;
var g = wrap . select ( 'g' )
if ( axis . orient ( ) == 'top' || axis . orient ( ) == 'bottom' )
axis . ticks ( Math . abs ( scale . range ( ) [ 1 ] - scale . range ( ) [ 0 ] ) / 100 ) ;
//TODO: consider calculating width/height based on whether or not label is added, for reference in charts using this component
d3 . transition ( g )
. call ( axis ) ;
scale0 = scale0 || axis . scale ( ) ;
var axisLabel = g . selectAll ( 'text.axislabel' )
. data ( [ axisLabelText || null ] ) ;
axisLabel . exit ( ) . remove ( ) ;
switch ( axis . orient ( ) ) {
case 'top' :
axisLabel . enter ( ) . append ( 'text' ) . attr ( 'class' , 'axislabel' )
. attr ( 'text-anchor' , 'middle' )
. attr ( 'y' , 0 ) ;
var w = ( scale . range ( ) . length == 2 ) ? scale . range ( ) [ 1 ] : ( scale . range ( ) [ scale . range ( ) . length - 1 ] + ( scale . range ( ) [ 1 ] - scale . range ( ) [ 0 ] ) ) ;
axisLabel
. attr ( 'x' , w / 2 ) ;
if ( showMaxMin ) {
var axisMaxMin = wrap . selectAll ( 'g.axisMaxMin' )
. data ( scale . domain ( ) ) ;
axisMaxMin . enter ( ) . append ( 'g' ) . attr ( 'class' , 'axisMaxMin' ) . append ( 'text' ) ;
axisMaxMin . exit ( ) . remove ( ) ;
axisMaxMin
. attr ( 'transform' , function ( d , i ) {
return 'translate(' + scale ( d ) + ',0)'
} )
. select ( 'text' )
. attr ( 'dy' , '0em' )
. attr ( 'y' , - axis . tickPadding ( ) )
. attr ( 'text-anchor' , 'middle' )
. text ( function ( d , i ) {
return ( '' + axis . tickFormat ( ) ( d ) ) . match ( 'NaN' ) ? '' : axis . tickFormat ( ) ( d )
} ) ;
d3 . transition ( axisMaxMin )
. attr ( 'transform' , function ( d , i ) {
return 'translate(' + scale . range ( ) [ i ] + ',0)'
} ) ;
}
break ;
case 'bottom' :
axisLabel . enter ( ) . append ( 'text' ) . attr ( 'class' , 'axislabel' )
. attr ( 'text-anchor' , 'middle' )
. attr ( 'y' , 30 ) ;
var w = ( scale . range ( ) . length == 2 ) ? scale . range ( ) [ 1 ] : ( scale . range ( ) [ scale . range ( ) . length - 1 ] + ( scale . range ( ) [ 1 ] - scale . range ( ) [ 0 ] ) ) ;
axisLabel
. attr ( 'x' , w / 2 ) ;
if ( showMaxMin ) {
var axisMaxMin = wrap . selectAll ( 'g.axisMaxMin' )
. data ( scale . domain ( ) ) ;
axisMaxMin . enter ( ) . append ( 'g' ) . attr ( 'class' , 'axisMaxMin' ) . append ( 'text' ) ;
axisMaxMin . exit ( ) . remove ( ) ;
axisMaxMin
. attr ( 'transform' , function ( d , i ) {
return 'translate(' + scale ( d ) + ',0)'
} )
. select ( 'text' )
. attr ( 'dy' , '.71em' )
. attr ( 'y' , axis . tickPadding ( ) )
. attr ( 'text-anchor' , 'middle' )
. text ( function ( d , i ) {
return ( '' + axis . tickFormat ( ) ( d ) ) . match ( 'NaN' ) ? '' : axis . tickFormat ( ) ( d )
} ) ;
d3 . transition ( axisMaxMin )
. attr ( 'transform' , function ( d , i ) {
return 'translate(' + scale . range ( ) [ i ] + ',0)'
} ) ;
}
break ;
case 'right' :
axisLabel . enter ( ) . append ( 'text' ) . attr ( 'class' , 'axislabel' )
. attr ( 'text-anchor' , 'middle' )
. attr ( 'transform' , 'rotate(90)' )
. attr ( 'y' , - width + 12 ) ; //TODO: consider calculating this based on largest tick width... OR at least expose this on chart
axisLabel
. attr ( 'x' , - scale . range ( ) [ 0 ] / 2 ) ;
if ( showMaxMin ) {
var axisMaxMin = wrap . selectAll ( 'g.axisMaxMin' )
. data ( scale . domain ( ) ) ;
axisMaxMin . enter ( ) . append ( 'g' ) . attr ( 'class' , 'axisMaxMin' ) . append ( 'text' )
. style ( 'opacity' , 0 ) ;
axisMaxMin . exit ( ) . remove ( ) ;
axisMaxMin
. attr ( 'transform' , function ( d , i ) {
return 'translate(0,' + scale ( d ) + ')'
} )
. select ( 'text' )
. attr ( 'dy' , '.32em' )
. attr ( 'y' , 0 )
. attr ( 'x' , axis . tickPadding ( ) )
. attr ( 'text-anchor' , 'start' )
. text ( function ( d , i ) {
return ( '' + axis . tickFormat ( ) ( d ) ) . match ( 'NaN' ) ? '' : axis . tickFormat ( ) ( d )
} ) ;
d3 . transition ( axisMaxMin )
. attr ( 'transform' , function ( d , i ) {
return 'translate(0,' + scale . range ( ) [ i ] + ')'
} )
. select ( 'text' )
. style ( 'opacity' , 1 ) ;
}
break ;
case 'left' :
axisLabel . enter ( ) . append ( 'text' ) . attr ( 'class' , 'axislabel' )
. attr ( 'text-anchor' , 'middle' )
. attr ( 'transform' , 'rotate(-90)' )
. attr ( 'y' , - width + 12 ) ; //TODO: consider calculating this based on largest tick width... OR at least expose this on chart
axisLabel
. attr ( 'x' , - scale . range ( ) [ 0 ] / 2 ) ;
if ( showMaxMin ) {
var axisMaxMin = wrap . selectAll ( 'g.axisMaxMin' )
. data ( scale . domain ( ) ) ;
axisMaxMin . enter ( ) . append ( 'g' ) . attr ( 'class' , 'axisMaxMin' ) . append ( 'text' )
. style ( 'opacity' , 0 ) ;
axisMaxMin . exit ( ) . remove ( ) ;
axisMaxMin
. attr ( 'transform' , function ( d , i ) {
return 'translate(0,' + scale0 ( d ) + ')'
} )
. select ( 'text' )
. attr ( 'dy' , '.32em' )
. attr ( 'y' , 0 )
. attr ( 'x' , - axis . tickPadding ( ) )
. attr ( 'text-anchor' , 'end' )
. text ( function ( d , i ) {
return ( '' + axis . tickFormat ( ) ( d ) ) . match ( 'NaN' ) ? '' : axis . tickFormat ( ) ( d )
} ) ;
d3 . transition ( axisMaxMin )
. attr ( 'transform' , function ( d , i ) {
return 'translate(0,' + scale . range ( ) [ i ] + ')'
} )
. select ( 'text' )
. style ( 'opacity' , 1 ) ;
}
break ;
}
axisLabel
. text ( function ( d ) { return d } ) ;
//check if max and min overlap other values, if so, hide the values that overlap
if ( showMaxMin && ( axis . orient ( ) === 'left' || axis . orient ( ) === 'right' ) ) {
g . selectAll ( 'g' ) // the g's wrapping each tick
. each ( function ( d , i ) {
if ( scale ( d ) < scale . range ( ) [ 1 ] + 10 || scale ( d ) > scale . range ( ) [ 0 ] - 10 ) { // 10 is assuming text height is 16... if d is 0, leave it!
if ( d > 1e-10 || d < - 1e-10 ) // accounts for minor floating point errors... though could be problematic if the scale is EXTREMELY SMALL
d3 . select ( this ) . remove ( ) ;
else
d3 . select ( this ) . select ( 'text' ) . remove ( ) ; // Don't remove the ZERO line!!
}
} ) ;
}
if ( showMaxMin && ( axis . orient ( ) === 'top' || axis . orient ( ) === 'bottom' ) ) {
var maxMinRange = [ ] ;
wrap . selectAll ( 'g.axisMaxMin' )
. each ( function ( d , i ) {
if ( i ) // i== 1, max position
maxMinRange . push ( scale ( d ) - this . getBBox ( ) . width - 4 ) //assuming the max and min labels are as wide as the next tick (with an extra 4 pixels just in case)
else // i==0, min position
maxMinRange . push ( scale ( d ) + this . getBBox ( ) . width + 4 )
} ) ;
g . selectAll ( 'g' ) // the g's wrapping each tick
. each ( function ( d , i ) {
if ( scale ( d ) < maxMinRange [ 0 ] || scale ( d ) > maxMinRange [ 1 ] ) {
if ( d > 1e-10 || d < - 1e-10 ) // accounts for minor floating point errors... though could be problematic if the scale is EXTREMELY SMALL
d3 . select ( this ) . remove ( ) ;
else
d3 . select ( this ) . select ( 'text' ) . remove ( ) ; // Don't remove the ZERO line!!
}
} ) ;
}
//highlight zero line ... Maybe should not be an option and should just be in CSS?
if ( highlightZero )
g . selectAll ( 'line.tick' )
. filter ( function ( d ) { return ! parseFloat ( Math . round ( d * 100000 ) / 1000000 ) } ) //this is because sometimes the 0 tick is a very small fraction, TODO: think of cleaner technique
. classed ( 'zero' , true ) ;
scale0 = scale . copy ( ) ;
} ) ;
return chart ;
}
d3 . rebind ( chart , axis , 'orient' , 'ticks' , 'tickValues' , 'tickSubdivide' , 'tickSize' , 'tickPadding' , 'tickFormat' ) ;
d3 . rebind ( chart , scale , 'domain' , 'range' , 'rangeBand' , 'rangeBands' ) ; //these are also accessible by chart.scale(), but added common ones directly for ease of use
chart . width = function ( _ ) {
if ( ! arguments . length ) return width ;
width = _ ;
return chart ;
} ;
chart . height = function ( _ ) {
if ( ! arguments . length ) return height ;
height = _ ;
return chart ;
} ;
chart . axisLabel = function ( _ ) {
if ( ! arguments . length ) return axisLabelText ;
axisLabelText = _ ;
return chart ;
}
chart . showMaxMin = function ( _ ) {
if ( ! arguments . length ) return showMaxMin ;
showMaxMin = _ ;
return chart ;
}
chart . highlightZero = function ( _ ) {
if ( ! arguments . length ) return highlightZero ;
highlightZero = _ ;
return chart ;
}
chart . scale = function ( _ ) {
if ( ! arguments . length ) return scale ;
scale = _ ;
axis . scale ( scale ) ;
d3 . rebind ( chart , scale , 'domain' , 'range' , 'rangeBand' , 'rangeBands' ) ;
return chart ;
}
return chart ;
}
//TODO: eitehr drastically clean up or deprecate this model
nv . models . historicalBar = function ( ) {
var margin = { top : 0 , right : 0 , bottom : 0 , left : 0 } ,
width = 960 ,
height = 500 ,
id = Math . floor ( Math . random ( ) * 10000 ) , //Create semi-unique ID in case user doesn't select one
getX = function ( d ) { return d . x } ,
getY = function ( d ) { return d . y } ,
forceX = [ ] ,
forceY = [ ] ,
clipEdge = true ,
color = d3 . scale . category20 ( ) . range ( ) ,
xDomain , yDomain ;
var x = d3 . scale . linear ( ) ,
y = d3 . scale . linear ( ) ,
xAxis = d3 . svg . axis ( ) . scale ( x ) . orient ( 'bottom' ) ,
yAxis = d3 . svg . axis ( ) . scale ( y ) . orient ( 'left' ) ,
dispatch = d3 . dispatch ( 'chartClick' , 'elementClick' , 'elementDblClick' , 'elementMouseover' , 'elementMouseout' ) ;
function chart ( selection ) {
selection . each ( function ( data ) {
var availableWidth = width - margin . left - margin . right ,
availableHeight = height - margin . top - margin . bottom ;
x . domain ( xDomain || d3 . extent ( data [ 0 ] . values . map ( getX ) . concat ( forceX ) ) )
. range ( [ 0 , availableWidth ] ) ;
y . domain ( yDomain || d3 . extent ( data [ 0 ] . values . map ( getY ) . concat ( forceY ) ) )
. range ( [ availableHeight , 0 ] ) ;
// If scale's domain don't have a range, slightly adjust to make one... so a chart can show a single data point
if ( x . domain ( ) [ 0 ] === x . domain ( ) [ 1 ] || y . domain ( ) [ 0 ] === y . domain ( ) [ 1 ] ) singlePoint = true ;
if ( x . domain ( ) [ 0 ] === x . domain ( ) [ 1 ] )
x . domain ( ) [ 0 ] ?
x . domain ( [ x . domain ( ) [ 0 ] - x . domain ( ) [ 0 ] * 0.01 , x . domain ( ) [ 1 ] + x . domain ( ) [ 1 ] * 0.01 ] )
: x . domain ( [ - 1 , 1 ] ) ;
if ( y . domain ( ) [ 0 ] === y . domain ( ) [ 1 ] )
y . domain ( ) [ 0 ] ?
y . domain ( [ y . domain ( ) [ 0 ] + y . domain ( ) [ 0 ] * 0.01 , y . domain ( ) [ 1 ] - y . domain ( ) [ 1 ] * 0.01 ] )
: y . domain ( [ - 1 , 1 ] ) ;
var parent = d3 . select ( this )
. on ( 'click' , function ( d , i ) {
dispatch . chartClick ( {
data : d ,
index : i ,
pos : d3 . event ,
id : id
} ) ;
} ) ;
var wrap = d3 . select ( this ) . selectAll ( 'g.wrap.bar' ) . data ( [ data [ 0 ] . values ] ) ;
var wrapEnter = wrap . enter ( ) . append ( 'g' ) . attr ( 'class' , 'wrap nvd3 bar' ) ;
var gEnter = wrapEnter . append ( 'g' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'bars' ) ;
wrap . attr ( 'width' , width )
. attr ( 'height' , height ) ;
var g = wrap . select ( 'g' )
. attr ( 'transform' , 'translate(' + margin . left + ',' + margin . top + ')' ) ;
wrapEnter . append ( 'defs' ) . append ( 'clipPath' )
. attr ( 'id' , 'chart-clip-path-' + id )
. append ( 'rect' ) ;
wrap . select ( '#chart-clip-path-' + id + ' rect' )
. attr ( 'width' , availableWidth )
. attr ( 'height' , availableHeight ) ;
gEnter
. attr ( 'clip-path' , clipEdge ? 'url(#chart-clip-path-' + id + ')' : '' ) ;
var shiftWrap = gEnter . append ( 'g' ) . attr ( 'class' , 'shiftWrap' ) ;
var bars = wrap . select ( '.bars' ) . selectAll ( '.bar' )
. data ( function ( d ) { return d } ) ;
bars . exit ( ) . remove ( ) ;
var barsEnter = bars . enter ( ) . append ( 'svg:rect' )
. attr ( 'class' , function ( d , i ) { return getY ( d , i ) < 0 ? 'bar negative' : 'bar positive' } )
. attr ( 'fill' , function ( d , i ) { return color [ 0 ] ; } )
. attr ( 'x' , 0 )
. attr ( 'y' , function ( d , i ) { return y ( Math . max ( 0 , getY ( d , i ) ) ) } )
. attr ( 'height' , function ( d , i ) { return Math . abs ( y ( getY ( d , i ) ) - y ( 0 ) ) } )
. on ( 'mouseover' , function ( d , i ) {
d3 . select ( this ) . classed ( 'hover' , true ) ;
dispatch . elementMouseover ( {
point : d ,
series : data [ 0 ] ,
pos : [ x ( getX ( d , i ) ) , y ( getY ( d , i ) ) ] , // TODO: Figure out why the value appears to be shifted
pointIndex : i ,
seriesIndex : 0 ,
e : d3 . event
} ) ;
} )
. on ( 'mouseout' , function ( d , i ) {
d3 . select ( this ) . classed ( 'hover' , false ) ;
dispatch . elementMouseout ( {
point : d ,
series : data [ 0 ] ,
pointIndex : i ,
seriesIndex : 0 ,
e : d3 . event
} ) ;
} )
. on ( 'click' , function ( d , i ) {
dispatch . elementClick ( {
//label: d[label],
value : getY ( d , i ) ,
data : d ,
index : i ,
pos : [ x ( getX ( d , i ) ) , y ( getY ( d , i ) ) ] ,
e : d3 . event ,
id : id
} ) ;
d3 . event . stopPropagation ( ) ;
} )
. on ( 'dblclick' , function ( d , i ) {
dispatch . elementDblClick ( {
//label: d[label],
value : getY ( d , i ) ,
data : d ,
index : i ,
pos : [ x ( getX ( d , i ) ) , y ( getY ( d , i ) ) ] ,
e : d3 . event ,
id : id
} ) ;
d3 . event . stopPropagation ( ) ;
} ) ;
bars
. attr ( 'class' , function ( d , i ) { return getY ( d , i ) < 0 ? 'bar negative' : 'bar positive' } )
. attr ( 'transform' , function ( d , i ) { return 'translate(' + ( x ( getX ( d , i ) ) - ( ( availableWidth / data [ 0 ] . values . length ) * . 5 ) ) + ',0)' ; } ) //TODO: better width calculations that don't assume always uniform data spacing;w
. attr ( 'width' , ( availableWidth / data [ 0 ] . values . length ) * . 9 )
d3 . transition ( bars )
. attr ( 'y' , function ( d , i ) { return y ( Math . max ( 0 , getY ( d , i ) ) ) } )
. attr ( 'height' , function ( d , i ) { return Math . abs ( y ( getY ( d , i ) ) - y ( 0 ) ) } ) ;
//.order(); // not sure if this makes any sense for this model
} ) ;
return chart ;
}
chart . dispatch = dispatch ;
chart . x = function ( _ ) {
if ( ! arguments . length ) return getX ;
getX = _ ;
return chart ;
} ;
chart . y = function ( _ ) {
if ( ! arguments . length ) return getY ;
getY = _ ;
return chart ;
} ;
chart . margin = function ( _ ) {
if ( ! arguments . length ) return margin ;
margin = _ ;
return chart ;
} ;
chart . width = function ( _ ) {
if ( ! arguments . length ) return width ;
width = _ ;
return chart ;
} ;
chart . height = function ( _ ) {
if ( ! arguments . length ) return height ;
height = _ ;
return chart ;
} ;
chart . xScale = function ( _ ) {
if ( ! arguments . length ) return x ;
x = _ ;
return chart ;
} ;
chart . yScale = function ( _ ) {
if ( ! arguments . length ) return y ;
y = _ ;
return chart ;
} ;
chart . xDomain = function ( _ ) {
if ( ! arguments . length ) return xDomain ;
xDomain = _ ;
return chart ;
} ;
chart . yDomain = function ( _ ) {
if ( ! arguments . length ) return yDomain ;
yDomain = _ ;
return chart ;
} ;
chart . forceX = function ( _ ) {
if ( ! arguments . length ) return forceX ;
forceX = _ ;
return chart ;
} ;
chart . forceY = function ( _ ) {
if ( ! arguments . length ) return forceY ;
forceY = _ ;
return chart ;
} ;
chart . clipEdge = function ( _ ) {
if ( ! arguments . length ) return clipEdge ;
clipEdge = _ ;
return chart ;
} ;
chart . color = function ( _ ) {
if ( ! arguments . length ) return color ;
color = _ ;
return chart ;
} ;
chart . id = function ( _ ) {
if ( ! arguments . length ) return id ;
id = _ ;
return chart ;
} ;
return chart ;
}
// Chart design based on the recommendations of Stephen Few. Implementation
// based on the work of Clint Ivy, Jamie Love, and Jason Davies.
// http://projects.instantcognition.com/protovis/bulletchart/
nv . models . bullet = function ( ) {
var orient = 'left' , // TODO top & bottom
reverse = false ,
margin = { top : 0 , right : 0 , bottom : 0 , left : 0 } ,
ranges = function ( d ) { return d . ranges } ,
markers = function ( d ) { return d . markers } ,
measures = function ( d ) { return d . measures } ,
width = 380 ,
height = 30 ,
tickFormat = null ;
var dispatch = d3 . dispatch ( 'elementMouseover' , 'elementMouseout' ) ;
// For each small multiple…
function chart ( g ) {
g . each ( function ( d , i ) {
var availableWidth = width - margin . left - margin . right ,
availableHeight = height - margin . top - margin . bottom ;
var rangez = ranges . call ( this , d , i ) . slice ( ) . sort ( d3 . descending ) ,
markerz = markers . call ( this , d , i ) . slice ( ) . sort ( d3 . descending ) ,
measurez = measures . call ( this , d , i ) . slice ( ) . sort ( d3 . descending ) ;
var wrap = d3 . select ( this ) . selectAll ( 'g.wrap.bullet' ) . data ( [ d ] ) ;
var wrapEnter = wrap . enter ( ) . append ( 'g' ) . attr ( 'class' , 'wrap nvd3 bullet' ) ;
var gEnter = wrapEnter . append ( 'g' ) ;
var g = wrap . select ( 'g' )
wrap . attr ( 'transform' , 'translate(' + margin . left + ',' + margin . top + ')' ) ;
// Compute the new x-scale.
var x1 = d3 . scale . linear ( )
. domain ( [ 0 , Math . max ( rangez [ 0 ] , markerz [ 0 ] , measurez [ 0 ] ) ] ) // TODO: need to allow forceX and forceY, and xDomain, yDomain
. range ( reverse ? [ availableWidth , 0 ] : [ 0 , availableWidth ] ) ;
// Retrieve the old x-scale, if this is an update.
var x0 = this . _ _chart _ _ || d3 . scale . linear ( )
. domain ( [ 0 , Infinity ] )
. range ( x1 . range ( ) ) ;
// Stash the new scale.
this . _ _chart _ _ = x1 ;
/ *
// Derive width-scales from the x-scales.
var w0 = bulletWidth ( x0 ) ,
w1 = bulletWidth ( x1 ) ;
function bulletWidth ( x ) {
var x0 = x ( 0 ) ;
return function ( d ) {
return Math . abs ( x ( d ) - x ( 0 ) ) ;
} ;
}
function bulletTranslate ( x ) {
return function ( d ) {
return 'translate(' + x ( d ) + ',0)' ;
} ;
}
* /
var w0 = function ( d ) { return Math . abs ( x0 ( d ) - x0 ( 0 ) ) } , // TODO: could optimize by precalculating x0(0) and x1(0)
w1 = function ( d ) { return Math . abs ( x1 ( d ) - x1 ( 0 ) ) } ;
// Update the range rects.
var range = g . selectAll ( 'rect.range' )
. data ( rangez ) ;
range . enter ( ) . append ( 'rect' )
. attr ( 'class' , function ( d , i ) { return 'range s' + i ; } )
. attr ( 'width' , w0 )
. attr ( 'height' , availableHeight )
. attr ( 'x' , reverse ? x0 : 0 )
. on ( 'mouseover' , function ( d , i ) {
dispatch . elementMouseover ( {
value : d ,
label : ( i <= 0 ) ? 'Maximum' : ( i > 1 ) ? 'Minimum' : 'Mean' , //TODO: make these labels a variable
pos : [ x1 ( d ) , availableHeight / 2 ]
} )
} )
. on ( 'mouseout' , function ( d , i ) {
dispatch . elementMouseout ( {
value : d ,
label : ( i <= 0 ) ? 'Minimum' : ( i >= 1 ) ? 'Maximum' : 'Mean' , //TODO: make these labels a variable
} )
} )
d3 . transition ( range )
. attr ( 'x' , reverse ? x1 : 0 )
. attr ( 'width' , w1 )
. attr ( 'height' , availableHeight ) ;
// Update the measure rects.
var measure = g . selectAll ( 'rect.measure' )
. data ( measurez ) ;
measure . enter ( ) . append ( 'rect' )
. attr ( 'class' , function ( d , i ) { return 'measure s' + i ; } )
. attr ( 'width' , w0 )
. attr ( 'height' , availableHeight / 3 )
. attr ( 'x' , reverse ? x0 : 0 )
. attr ( 'y' , availableHeight / 3 )
. on ( 'mouseover' , function ( d ) {
dispatch . elementMouseover ( {
value : d ,
label : 'Current' , //TODO: make these labels a variable
pos : [ x1 ( d ) , availableHeight / 2 ]
} )
} )
. on ( 'mouseout' , function ( d ) {
dispatch . elementMouseout ( {
value : d ,
label : 'Current' //TODO: make these labels a variable
} )
} )
d3 . transition ( measure )
. attr ( 'width' , w1 )
. attr ( 'height' , availableHeight / 3 )
. attr ( 'x' , reverse ? x1 : 0 )
. attr ( 'y' , availableHeight / 3 ) ;
// Update the marker lines.
var marker = g . selectAll ( 'path.markerTriangle' )
. data ( markerz ) ;
var h3 = availableHeight / 6 ;
marker . enter ( ) . append ( 'path' )
. attr ( 'class' , 'markerTriangle' )
. attr ( 'transform' , function ( d ) { return 'translate(' + x0 ( d ) + ',' + ( availableHeight / 2 ) + ')' } )
. attr ( 'd' , 'M0,' + h3 + 'L' + h3 + ',' + ( - h3 ) + ' ' + ( - h3 ) + ',' + ( - h3 ) + 'Z' )
. on ( 'mouseover' , function ( d , i ) {
dispatch . elementMouseover ( {
value : d ,
label : 'Previous' ,
pos : [ x1 ( d ) , availableHeight / 2 ]
} )
} )
. on ( 'mouseout' , function ( d , i ) {
dispatch . elementMouseout ( {
value : d ,
label : 'Previous'
} )
} ) ;
d3 . transition ( marker )
. attr ( 'transform' , function ( d ) { return 'translate(' + x1 ( d ) + ',' + ( availableHeight / 2 ) + ')' } ) ;
marker . exit ( ) . remove ( ) ;
} ) ;
d3 . timer . flush ( ) ;
}
chart . dispatch = dispatch ;
// left, right, top, bottom
chart . orient = function ( _ ) {
if ( ! arguments . length ) return orient ;
orient = _ ;
reverse = orient == 'right' || orient == 'bottom' ;
return chart ;
} ;
// ranges (bad, satisfactory, good)
chart . ranges = function ( _ ) {
if ( ! arguments . length ) return ranges ;
ranges = _ ;
return chart ;
} ;
// markers (previous, goal)
chart . markers = function ( _ ) {
if ( ! arguments . length ) return markers ;
markers = _ ;
return chart ;
} ;
// measures (actual, forecast)
chart . measures = function ( _ ) {
if ( ! arguments . length ) return measures ;
measures = _ ;
return chart ;
} ;
chart . width = function ( _ ) {
if ( ! arguments . length ) return width ;
width = _ ;
return chart ;
} ;
chart . height = function ( _ ) {
if ( ! arguments . length ) return height ;
height = _ ;
return chart ;
} ;
chart . margin = function ( _ ) {
if ( ! arguments . length ) return margin ;
margin = _ ;
return chart ;
} ;
chart . tickFormat = function ( _ ) {
if ( ! arguments . length ) return tickFormat ;
tickFormat = _ ;
return chart ;
} ;
return chart ;
} ;
// Chart design based on the recommendations of Stephen Few. Implementation
// based on the work of Clint Ivy, Jamie Love, and Jason Davies.
// http://projects.instantcognition.com/protovis/bulletchart/
nv . models . bulletChart = function ( ) {
var orient = 'left' , // TODO top & bottom
reverse = false ,
margin = { top : 5 , right : 40 , bottom : 20 , left : 120 } ,
ranges = function ( d ) { return d . ranges } ,
markers = function ( d ) { return d . markers } ,
measures = function ( d ) { return d . measures } ,
width = null ,
height = 55 ,
tickFormat = null ,
tooltips = true ,
tooltip = function ( key , x , y , e , graph ) {
return '<h3>' + e . label + '</h3>' +
'<p>' + e . value + '</p>'
} ;
var dispatch = d3 . dispatch ( 'tooltipShow' , 'tooltipHide' ) ,
bullet = nv . models . bullet ( ) ;
var showTooltip = function ( e , offsetElement ) {
var offsetElement = document . getElementById ( "chart" ) ,
left = e . pos [ 0 ] + offsetElement . offsetLeft + margin . left ,
top = e . pos [ 1 ] + offsetElement . offsetTop + margin . top ;
var content = '<h3>' + e . label + '</h3>' +
'<p>' + e . value + '</p>' ;
nv . tooltip . show ( [ left , top ] , content , e . value < 0 ? 'e' : 'w' ) ;
} ;
// For each small multiple…
function chart ( g ) {
g . each ( function ( d , i ) {
var container = d3 . select ( this ) ;
var availableWidth = ( width || parseInt ( container . style ( 'width' ) ) || 960 )
- margin . left - margin . right ,
availableHeight = height - margin . top - margin . bottom ,
that = this ;
var rangez = ranges . call ( this , d , i ) . slice ( ) . sort ( d3 . descending ) ,
markerz = markers . call ( this , d , i ) . slice ( ) . sort ( d3 . descending ) ,
measurez = measures . call ( this , d , i ) . slice ( ) . sort ( d3 . descending ) ;
var wrap = container . selectAll ( 'g.wrap.bulletChart' ) . data ( [ d ] ) ;
var wrapEnter = wrap . enter ( ) . append ( 'g' ) . attr ( 'class' , 'wrap nvd3 bulletChart' ) ;
var gEnter = wrapEnter . append ( 'g' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'bulletWrap' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'titles' ) ;
var g = wrap . select ( 'g' )
wrap . attr ( 'transform' , 'translate(' + margin . left + ',' + margin . top + ')' ) ;
// Compute the new x-scale.
var x1 = d3 . scale . linear ( )
. domain ( [ 0 , Math . max ( rangez [ 0 ] , markerz [ 0 ] , measurez [ 0 ] ) ] ) // TODO: need to allow forceX and forceY, and xDomain, yDomain
. range ( reverse ? [ availableWidth , 0 ] : [ 0 , availableWidth ] ) ;
// Retrieve the old x-scale, if this is an update.
var x0 = this . _ _chart _ _ || d3 . scale . linear ( )
. domain ( [ 0 , Infinity ] )
. range ( x1 . range ( ) ) ;
// Stash the new scale.
this . _ _chart _ _ = x1 ;
/ *
// Derive width-scales from the x-scales.
var w0 = bulletWidth ( x0 ) ,
w1 = bulletWidth ( x1 ) ;
function bulletWidth ( x ) {
var x0 = x ( 0 ) ;
return function ( d ) {
return Math . abs ( x ( d ) - x ( 0 ) ) ;
} ;
}
function bulletTranslate ( x ) {
return function ( d ) {
return 'translate(' + x ( d ) + ',0)' ;
} ;
}
* /
var w0 = function ( d ) { return Math . abs ( x0 ( d ) - x0 ( 0 ) ) } , // TODO: could optimize by precalculating x0(0) and x1(0)
w1 = function ( d ) { return Math . abs ( x1 ( d ) - x1 ( 0 ) ) } ;
var title = g . select ( '.titles' ) . append ( "g" )
. attr ( "text-anchor" , "end" )
. attr ( "transform" , "translate(-6," + ( height - margin . top - margin . bottom ) / 2 + ")" ) ;
title . append ( "text" )
. attr ( "class" , "title" )
. text ( function ( d ) { return d . title ; } ) ;
title . append ( "text" )
. attr ( "class" , "subtitle" )
. attr ( "dy" , "1em" )
. text ( function ( d ) { return d . subtitle ; } ) ;
bullet
. width ( availableWidth )
. height ( availableHeight )
var bulletWrap = g . select ( '.bulletWrap' )
//.datum(data);
d3 . transition ( bulletWrap ) . call ( bullet ) ;
// Compute the tick format.
var format = tickFormat || x1 . tickFormat ( 8 ) ;
// Update the tick groups.
var tick = g . selectAll ( 'g.tick' )
. data ( x1 . ticks ( 8 ) , function ( d ) {
return this . textContent || format ( d ) ;
} ) ;
// Initialize the ticks with the old scale, x0.
var tickEnter = tick . enter ( ) . append ( 'g' )
. attr ( 'class' , 'tick' )
. attr ( 'transform' , function ( d ) { return 'translate(' + x0 ( d ) + ',0)' } )
. style ( 'opacity' , 1e-6 ) ;
tickEnter . append ( 'line' )
. attr ( 'y1' , availableHeight )
. attr ( 'y2' , availableHeight * 7 / 6 ) ;
tickEnter . append ( 'text' )
. attr ( 'text-anchor' , 'middle' )
. attr ( 'dy' , '1em' )
. attr ( 'y' , availableHeight * 7 / 6 )
. text ( format ) ;
// Transition the entering ticks to the new scale, x1.
d3 . transition ( tickEnter )
. attr ( 'transform' , function ( d ) { return 'translate(' + x1 ( d ) + ',0)' } )
. style ( 'opacity' , 1 ) ;
// Transition the updating ticks to the new scale, x1.
var tickUpdate = d3 . transition ( tick )
. attr ( 'transform' , function ( d ) { return 'translate(' + x1 ( d ) + ',0)' } )
. style ( 'opacity' , 1 ) ;
tickUpdate . select ( 'line' )
. attr ( 'y1' , availableHeight )
. attr ( 'y2' , availableHeight * 7 / 6 ) ;
tickUpdate . select ( 'text' )
. attr ( 'y' , availableHeight * 7 / 6 ) ;
// Transition the exiting ticks to the new scale, x1.
d3 . transition ( tick . exit ( ) )
. attr ( 'transform' , function ( d ) { return 'translate(' + x1 ( d ) + ',0)' } )
. style ( 'opacity' , 1e-6 )
. remove ( ) ;
/ *
bullet . dispatch . on ( 'elementMouseover' , function ( e ) {
var offsetElement = document . getElementById ( "chart" ) ,
left = e . pos [ 0 ] + offsetElement . offsetLeft + margin . left ,
top = e . pos [ 1 ] + offsetElement . offsetTop + margin . top ;
var content = '<h3>' + e . label + '</h3>' +
'<p>' +
e . value +
'</p>' ;
nv . tooltip . show ( [ left , top ] , content , e . value < 0 ? 'e' : 'w' ) ;
} ) ;
bullet . dispatch . on ( 'elementMouseout' , function ( e ) {
nv . tooltip . cleanup ( ) ;
} ) ;
* /
bullet . dispatch . on ( 'elementMouseover.tooltip' , function ( e ) {
//e.pos = [e.pos[0] + margin.left, e.pos[1] + margin.top];
dispatch . tooltipShow ( e ) ;
} ) ;
if ( tooltips ) dispatch . on ( 'tooltipShow' , function ( e ) { showTooltip ( e , that . parentNode ) } ) ; // TODO: maybe merge with above?
bullet . dispatch . on ( 'elementMouseout.tooltip' , function ( e ) {
dispatch . tooltipHide ( e ) ;
} ) ;
if ( tooltips ) dispatch . on ( 'tooltipHide' , nv . tooltip . cleanup ) ;
} ) ;
d3 . timer . flush ( ) ;
}
chart . dispatch = dispatch ;
chart . bullet = bullet ;
// left, right, top, bottom
chart . orient = function ( x ) {
if ( ! arguments . length ) return orient ;
orient = x ;
reverse = orient == 'right' || orient == 'bottom' ;
return chart ;
} ;
// ranges (bad, satisfactory, good)
chart . ranges = function ( x ) {
if ( ! arguments . length ) return ranges ;
ranges = x ;
return chart ;
} ;
// markers (previous, goal)
chart . markers = function ( x ) {
if ( ! arguments . length ) return markers ;
markers = x ;
return chart ;
} ;
// measures (actual, forecast)
chart . measures = function ( x ) {
if ( ! arguments . length ) return measures ;
measures = x ;
return chart ;
} ;
chart . width = function ( x ) {
if ( ! arguments . length ) return width ;
width = x ;
return chart ;
} ;
chart . height = function ( x ) {
if ( ! arguments . length ) return height ;
height = x ;
return chart ;
} ;
chart . margin = function ( _ ) {
if ( ! arguments . length ) return margin ;
margin = _ ;
return chart ;
} ;
chart . tickFormat = function ( x ) {
if ( ! arguments . length ) return tickFormat ;
tickFormat = x ;
return chart ;
} ;
chart . tooltips = function ( _ ) {
if ( ! arguments . length ) return tooltips ;
tooltips = _ ;
return chart ;
} ;
chart . tooltipContent = function ( _ ) {
if ( ! arguments . length ) return tooltip ;
tooltip = _ ;
return chart ;
} ;
return chart ;
} ;
nv . models . cumulativeLineChart = function ( ) {
//============================================================
// Public Variables with Default Settings
//------------------------------------------------------------
var margin = { top : 30 , right : 20 , bottom : 50 , left : 60 } ,
color = d3 . scale . category20 ( ) . range ( ) ,
width = null ,
height = null ,
showLegend = true ,
tooltips = true ,
showRescaleToggle = false , //TODO: get rescale y functionality back (need to calculate exten of y for ALL possible re-zero points
rescaleY = true ,
tooltip = function ( key , x , y , e , graph ) {
return '<h3>' + key + '</h3>' +
'<p>' + y + ' at ' + x + '</p>'
} ,
x , y ; //can be accessed via chart.lines.[x/y]Scale()
//============================================================
// Private Variables
//------------------------------------------------------------
var lines = nv . models . line ( ) ,
dx = d3 . scale . linear ( ) ,
id = lines . id ( ) ,
xAxis = nv . models . axis ( ) . orient ( 'bottom' ) . tickPadding ( 5 ) ,
yAxis = nv . models . axis ( ) . orient ( 'left' ) ,
legend = nv . models . legend ( ) . height ( 30 ) ,
controls = nv . models . legend ( ) . height ( 30 ) ,
dispatch = d3 . dispatch ( 'tooltipShow' , 'tooltipHide' ) ,
index = { i : 0 , x : 0 } ;
//TODO: let user select default
var controlsData = [
{ key : 'Re-scale y-axis' }
] ;
var showTooltip = function ( e , offsetElement ) {
var left = e . pos [ 0 ] + ( offsetElement . offsetLeft || 0 ) ,
top = e . pos [ 1 ] + ( offsetElement . offsetTop || 0 ) ,
x = xAxis . tickFormat ( ) ( lines . x ( ) ( e . point , e . pointIndex ) ) ,
y = yAxis . tickFormat ( ) ( lines . y ( ) ( e . point , e . pointIndex ) ) ,
content = tooltip ( e . series . key , x , y , e , chart ) ;
nv . tooltip . show ( [ left , top ] , content ) ;
} ;
var indexDrag = d3 . behavior . drag ( )
. on ( 'dragstart' , dragStart )
. on ( 'drag' , dragMove )
. on ( 'dragend' , dragEnd ) ;
function dragStart ( d , i ) { }
function dragMove ( d , i ) {
d . x += d3 . event . dx ;
d . i = Math . round ( dx . invert ( d . x ) ) ;
//d3.transition(d3.select('.chart-' + id)).call(chart);
d3 . select ( this ) . attr ( 'transform' , 'translate(' + dx ( d . i ) + ',0)' ) ;
}
function dragEnd ( d , i ) {
//d3.transition(d3.select('.chart-' + id)).call(chart);
chart . update ( ) ;
}
function chart ( selection ) {
selection . each ( function ( data ) {
var container = d3 . select ( this ) . classed ( 'chart-' + id , true ) ,
that = this ;
var availableWidth = ( width || parseInt ( container . style ( 'width' ) ) || 960 )
- margin . left - margin . right ,
availableHeight = ( height || parseInt ( container . style ( 'height' ) ) || 400 )
- margin . top - margin . bottom ;
x = lines . xScale ( ) ;
y = lines . yScale ( ) ;
dx . domain ( [ 0 , data [ 0 ] . values . length - 1 ] ) //Assumes all series have same length
. range ( [ 0 , availableWidth ] )
. clamp ( true ) ;
var data = indexify ( index . i , data ) ;
var wrap = container . selectAll ( 'g.wrap.cumulativeLine' ) . data ( [ data ] ) ;
var gEnter = wrap . enter ( ) . append ( 'g' ) . attr ( 'class' , 'wrap nvd3 cumulativeLine' ) . append ( 'g' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'x axis' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'y axis' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'linesWrap' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'legendWrap' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'controlsWrap' ) ;
var g = wrap . select ( 'g' ) ;
if ( showLegend ) {
legend . width ( availableWidth ) ;
g . select ( '.legendWrap' )
. datum ( data )
. call ( legend ) ;
if ( margin . top != legend . height ( ) ) {
margin . top = legend . height ( ) ;
availableHeight = ( height || parseInt ( container . style ( 'height' ) ) || 400 )
- margin . top - margin . bottom ;
}
g . select ( '.legendWrap' )
. attr ( 'transform' , 'translate(0,' + ( - margin . top ) + ')' )
}
if ( showRescaleToggle ) {
controls . width ( 140 ) . color ( [ '#444' , '#444' , '#444' ] ) ;
g . select ( '.controlsWrap' )
. datum ( controlsData )
. attr ( 'transform' , 'translate(0,' + ( - margin . top ) + ')' )
. call ( controls ) ;
}
lines
//.x(function(d) { return d.x })
. y ( function ( d ) { return d . display . y } )
. width ( availableWidth )
. height ( availableHeight )
. color ( data . map ( function ( d , i ) {
return d . color || color [ i % color . length ] ;
} ) . filter ( function ( d , i ) { return ! data [ i ] . disabled } ) ) ;
g . attr ( 'transform' , 'translate(' + margin . left + ',' + margin . top + ')' ) ;
var linesWrap = g . select ( '.linesWrap' )
. datum ( data . filter ( function ( d ) { return ! d . disabled } ) )
d3 . transition ( linesWrap ) . call ( lines ) ;
var indexLine = linesWrap . selectAll ( '.indexLine' )
. data ( [ index ] ) ;
indexLine . enter ( ) . append ( 'rect' ) . attr ( 'class' , 'indexLine' )
. attr ( 'width' , 3 )
. attr ( 'x' , - 2 )
. attr ( 'fill' , 'red' )
. attr ( 'fill-opacity' , . 5 )
. call ( indexDrag )
indexLine
. attr ( 'transform' , function ( d ) { return 'translate(' + dx ( d . i ) + ',0)' } )
. attr ( 'height' , availableHeight )
xAxis
. scale ( x )
. ticks ( availableWidth / 100 )
. tickSize ( - availableHeight , 0 ) ;
g . select ( '.x.axis' )
. attr ( 'transform' , 'translate(0,' + y . range ( ) [ 0 ] + ')' ) ;
d3 . transition ( g . select ( '.x.axis' ) )
. call ( xAxis ) ;
yAxis
. scale ( y )
. ticks ( availableHeight / 36 )
. tickSize ( - availableWidth , 0 ) ;
d3 . transition ( g . select ( '.y.axis' ) )
. call ( yAxis ) ;
//============================================================
// Event Handling/Dispatching (in chart's scope)
//------------------------------------------------------------
controls . dispatch . on ( 'legendClick' , function ( d , i ) {
d . disabled = ! d . disabled ;
rescaleY = ! d . disabled ;
//console.log(d,i,arguments);
selection . transition ( ) . call ( chart ) ;
} ) ;
legend . dispatch . on ( 'legendClick' , function ( d , i ) {
d . disabled = ! d . disabled ;
if ( ! data . filter ( function ( d ) { return ! d . disabled } ) . length ) {
data . map ( function ( d ) {
d . disabled = false ;
wrap . selectAll ( '.series' ) . classed ( 'disabled' , false ) ;
return d ;
} ) ;
}
selection . transition ( ) . call ( chart ) ;
} ) ;
/ *
//
legend . dispatch . on ( 'legendMouseover' , function ( d , i ) {
d . hover = true ;
selection . transition ( ) . call ( chart )
} ) ;
legend . dispatch . on ( 'legendMouseout' , function ( d , i ) {
d . hover = false ;
selection . transition ( ) . call ( chart )
} ) ;
* /
dispatch . on ( 'tooltipShow' , function ( e ) {
if ( tooltips ) showTooltip ( e , that . parentNode ) ;
} ) ;
} ) ;
//TODO: decide if this is a good idea, and if it should be in all models
chart . update = function ( ) { chart ( selection ) } ;
chart . container = this ; // I need a reference to the container in order to have outside code check if the chart is visible or not
return chart ;
}
//============================================================
// Event Handling/Dispatching (out of chart's scope)
//------------------------------------------------------------
lines . dispatch . on ( 'elementMouseover.tooltip' , function ( e ) {
e . pos = [ e . pos [ 0 ] + margin . left , e . pos [ 1 ] + margin . top ] ;
dispatch . tooltipShow ( e ) ;
} ) ;
lines . dispatch . on ( 'elementMouseout.tooltip' , function ( e ) {
dispatch . tooltipHide ( e ) ;
} ) ;
dispatch . on ( 'tooltipHide' , function ( ) {
if ( tooltips ) nv . tooltip . cleanup ( ) ;
} ) ;
//============================================================
// Global getters and setters
//------------------------------------------------------------
chart . dispatch = dispatch ;
chart . legend = legend ;
chart . xAxis = xAxis ;
chart . yAxis = yAxis ;
d3 . rebind ( chart , lines , 'defined' , 'isArea' , 'x' , 'y' , 'size' , 'xDomain' , 'yDomain' , 'forceX' , 'forceY' , 'interactive' , 'clipEdge' , 'clipVoronoi' , 'id' ) ;
chart . margin = function ( _ ) {
if ( ! arguments . length ) return margin ;
margin = _ ;
return chart ;
} ;
chart . width = function ( _ ) {
if ( ! arguments . length ) return width ;
width = _ ;
return chart ;
} ;
chart . height = function ( _ ) {
if ( ! arguments . length ) return height ;
height = _ ;
return chart ;
} ;
chart . color = function ( _ ) {
if ( ! arguments . length ) return color ;
color = _ ;
legend . color ( _ ) ;
return chart ;
} ;
chart . showLegend = function ( _ ) {
if ( ! arguments . length ) return showLegend ;
showLegend = _ ;
return chart ;
} ;
chart . tooltips = function ( _ ) {
if ( ! arguments . length ) return tooltips ;
tooltips = _ ;
return chart ;
} ;
chart . tooltipContent = function ( _ ) {
if ( ! arguments . length ) return tooltip ;
tooltip = _ ;
return chart ;
} ;
//============================================================
// Functions
//------------------------------------------------------------
/* Normalize the data according to an index point. */
function indexify ( idx , data ) {
return data . map ( function ( line , i ) {
var v = lines . y ( ) ( line . values [ idx ] , idx ) ;
line . values = line . values . map ( function ( point , pointIndex ) {
point . display = { 'y' : ( lines . y ( ) ( point , pointIndex ) - v ) / ( 1 + v ) } ;
return point ;
} )
/ *
if ( v < - . 9 ) {
//if a series loses more than 100%, calculations fail.. anything close can cause major distortion (but is mathematically currect till it hits 100)
}
* /
return line ;
} )
}
return chart ;
}
nv . models . discreteBar = function ( ) {
//============================================================
// Public Variables with Default Settings
//------------------------------------------------------------
var margin = { top : 0 , right : 0 , bottom : 0 , left : 0 } ,
width = 960 ,
height = 500 ,
id = Math . floor ( Math . random ( ) * 10000 ) , //Create semi-unique ID in case user doesn't select one
x = d3 . scale . ordinal ( ) ,
y = d3 . scale . linear ( ) ,
getX = function ( d ) { return d . x } ,
getY = function ( d ) { return d . y } ,
forceY = [ 0 ] , // 0 is forced by default.. this makes sense for the majority of bar graphs... user can always do chart.forceY([]) to remove
color = d3 . scale . category20 ( ) . range ( ) ,
showValues = false ,
valueFormat = d3 . format ( ',.2f' ) ,
xDomain , yDomain ;
//============================================================
// Private Variables
//------------------------------------------------------------
var dispatch = d3 . dispatch ( 'chartClick' , 'elementClick' , 'elementDblClick' , 'elementMouseover' , 'elementMouseout' ) ,
x0 , y0 ;
function chart ( selection ) {
selection . each ( function ( data ) {
var availableWidth = width - margin . left - margin . right ,
availableHeight = height - margin . top - margin . bottom ;
//add series index to each data point for reference
data = data . map ( function ( series , i ) {
series . values = series . values . map ( function ( point ) {
point . series = i ;
return point ;
} ) ;
return series ;
} ) ;
var seriesData = ( xDomain && yDomain ) ? [ ] : // if we know xDomain and yDomain, no need to calculate
data . map ( function ( d ) {
return d . values . map ( function ( d , i ) {
return { x : getX ( d , i ) , y : getY ( d , i ) , y0 : d . y0 }
} )
} ) ;
x . domain ( xDomain || d3 . merge ( seriesData ) . map ( function ( d ) { return d . x } ) )
. rangeBands ( [ 0 , availableWidth ] , . 1 ) ;
y . domain ( yDomain || d3 . extent ( d3 . merge ( seriesData ) . map ( function ( d ) { return d . y } ) . concat ( forceY ) ) ) ;
// If showValues, pad the Y axis range to account for label height
if ( showValues ) y . range ( [ availableHeight - ( y . domain ( ) [ 0 ] < 0 ? 12 : 0 ) , y . domain ( ) [ 1 ] > 0 ? 12 : 0 ] ) ;
else y . range ( [ availableHeight , 0 ] ) ;
//store old scales if they exist
x0 = x0 || x ;
y0 = y0 || y . copy ( ) . range ( [ y ( 0 ) , y ( 0 ) ] ) ;
var wrap = d3 . select ( this ) . selectAll ( 'g.wrap.discretebar' ) . data ( [ data ] ) ;
var wrapEnter = wrap . enter ( ) . append ( 'g' ) . attr ( 'class' , 'wrap nvd3 discretebar' ) ;
var gEnter = wrapEnter . append ( 'g' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'groups' ) ;
var g = wrap . select ( 'g' )
wrap . attr ( 'transform' , 'translate(' + margin . left + ',' + margin . top + ')' ) ;
//TODO: by definition, the discrete bar should not have multiple groups, will modify/remove later
var groups = wrap . select ( '.groups' ) . selectAll ( '.group' )
. data ( function ( d ) { return d } , function ( d ) { return d . key } ) ;
groups . enter ( ) . append ( 'g' )
. style ( 'stroke-opacity' , 1e-6 )
. style ( 'fill-opacity' , 1e-6 ) ;
d3 . transition ( groups . exit ( ) )
. style ( 'stroke-opacity' , 1e-6 )
. style ( 'fill-opacity' , 1e-6 )
. remove ( ) ;
groups
. attr ( 'class' , function ( d , i ) { return 'group series-' + i } )
. classed ( 'hover' , function ( d ) { return d . hover } ) ;
d3 . transition ( groups )
. style ( 'stroke-opacity' , 1 )
. style ( 'fill-opacity' , . 75 ) ;
var bars = groups . selectAll ( 'g.bar' )
. data ( function ( d ) { return d . values } ) ;
bars . exit ( ) . remove ( ) ;
var barsEnter = bars . enter ( ) . append ( 'g' )
. attr ( 'transform' , function ( d , i , j ) {
return 'translate(' + x ( getX ( d , i ) ) + ', ' + y ( 0 ) + ')'
} )
. on ( 'mouseover' , function ( d , i ) { //TODO: figure out why j works above, but not here
d3 . select ( this ) . classed ( 'hover' , true ) ;
dispatch . elementMouseover ( {
value : getY ( d , i ) ,
point : d ,
series : data [ d . series ] ,
pos : [ x ( getX ( d , i ) ) + ( x . rangeBand ( ) * ( d . series + . 5 ) / data . length ) , y ( getY ( d , i ) ) ] , // TODO: Figure out why the value appears to be shifted
pointIndex : i ,
seriesIndex : d . series ,
e : d3 . event
} ) ;
} )
. on ( 'mouseout' , function ( d , i ) {
d3 . select ( this ) . classed ( 'hover' , false ) ;
dispatch . elementMouseout ( {
value : getY ( d , i ) ,
point : d ,
series : data [ d . series ] ,
pointIndex : i ,
seriesIndex : d . series ,
e : d3 . event
} ) ;
} )
. on ( 'click' , function ( d , i ) {
dispatch . elementClick ( {
value : getY ( d , i ) ,
point : d ,
series : data [ d . series ] ,
pos : [ x ( getX ( d , i ) ) + ( x . rangeBand ( ) * ( d . series + . 5 ) / data . length ) , y ( getY ( d , i ) ) ] , // TODO: Figure out why the value appears to be shifted
pointIndex : i ,
seriesIndex : d . series ,
e : d3 . event
} ) ;
d3 . event . stopPropagation ( ) ;
} )
. on ( 'dblclick' , function ( d , i ) {
dispatch . elementDblClick ( {
value : getY ( d , i ) ,
point : d ,
series : data [ d . series ] ,
pos : [ x ( getX ( d , i ) ) + ( x . rangeBand ( ) * ( d . series + . 5 ) / data . length ) , y ( getY ( d , i ) ) ] , // TODO: Figure out why the value appears to be shifted
pointIndex : i ,
seriesIndex : d . series ,
e : d3 . event
} ) ;
d3 . event . stopPropagation ( ) ;
} ) ;
barsEnter . append ( 'rect' )
. attr ( 'height' , 0 )
. attr ( 'width' , x . rangeBand ( ) / data . length )
. style ( 'fill' , function ( d , i ) { return d . color || color [ i % color . length ] } ) //this is a 'hack' to allow multiple colors in a single series... will need to rethink this methodology
. style ( 'stroke' , function ( d , i ) { return d . color || color [ i % color . length ] } ) ;
if ( showValues ) {
barsEnter . append ( 'text' )
. attr ( 'text-anchor' , 'middle' )
bars . selectAll ( 'text' )
. attr ( 'x' , x . rangeBand ( ) / 2 )
. attr ( 'y' , function ( d , i ) { return getY ( d , i ) < 0 ? y ( getY ( d , i ) ) - y ( 0 ) + 12 : - 4 } )
. text ( function ( d , i ) { return valueFormat ( getY ( d , i ) ) } ) ;
} else {
bars . selectAll ( 'text' ) . remove ( ) ;
}
bars
. attr ( 'class' , function ( d , i ) { return getY ( d , i ) < 0 ? 'bar negative' : 'bar positive' } )
//.attr('transform', function(d,i) { return 'translate(' + x(getX(d,i)) + ',0)'; })
. attr ( 'transform' , function ( d , i ) {
return 'translate(' + x ( getX ( d , i ) ) + ', ' + ( getY ( d , i ) < 0 ? y0 ( 0 ) : y0 ( getY ( d , i ) ) ) + ')'
} )
. selectAll ( 'rect' )
. attr ( 'width' , x . rangeBand ( ) / data . length ) ;
d3 . transition ( bars )
//.delay(function(d,i) { return i * 1200 / data[0].values.length })
. attr ( 'transform' , function ( d , i ) {
return 'translate(' + x ( getX ( d , i ) ) + ', ' + ( getY ( d , i ) < 0 ? y ( 0 ) : y ( getY ( d , i ) ) ) + ')'
} )
. selectAll ( 'rect' )
. attr ( 'height' , function ( d , i ) {
return Math . abs ( y ( getY ( d , i ) ) - y ( 0 ) )
} ) ;
//TODO: decide if this makes sense to add into all the models for ease of updating (updating without needing the selection)
chart . update = function ( ) { chart ( selection ) } ;
//store old scales for use in transitions on update, to animate from old to new positions, and sizes
x0 = x . copy ( ) ;
y0 = y . copy ( ) ;
} ) ;
return chart ;
}
chart . dispatch = dispatch ;
chart . x = function ( _ ) {
if ( ! arguments . length ) return getX ;
getX = _ ;
return chart ;
} ;
chart . y = function ( _ ) {
if ( ! arguments . length ) return getY ;
getY = _ ;
return chart ;
} ;
chart . margin = function ( _ ) {
if ( ! arguments . length ) return margin ;
margin = _ ;
return chart ;
} ;
chart . width = function ( _ ) {
if ( ! arguments . length ) return width ;
width = _ ;
return chart ;
} ;
chart . height = function ( _ ) {
if ( ! arguments . length ) return height ;
height = _ ;
return chart ;
} ;
chart . xScale = function ( _ ) {
if ( ! arguments . length ) return x ;
x = _ ;
return chart ;
} ;
chart . yScale = function ( _ ) {
if ( ! arguments . length ) return y ;
y = _ ;
return chart ;
} ;
chart . xDomain = function ( _ ) {
if ( ! arguments . length ) return xDomain ;
xDomain = _ ;
return chart ;
} ;
chart . yDomain = function ( _ ) {
if ( ! arguments . length ) return yDomain ;
yDomain = _ ;
return chart ;
} ;
chart . forceY = function ( _ ) {
if ( ! arguments . length ) return forceY ;
forceY = _ ;
return chart ;
} ;
chart . color = function ( _ ) {
if ( ! arguments . length ) return color ;
color = _ ;
return chart ;
} ;
chart . id = function ( _ ) {
if ( ! arguments . length ) return id ;
id = _ ;
return chart ;
} ;
chart . showValues = function ( _ ) {
if ( ! arguments . length ) return showValues ;
showValues = _ ;
return chart ;
} ;
chart . valueFormat = function ( _ ) {
if ( ! arguments . length ) return valueFormat ;
valueFormat = _ ;
return chart ;
} ;
return chart ;
}
nv . models . discreteBarChart = function ( ) {
var margin = { top : 10 , right : 10 , bottom : 50 , left : 60 } ,
width = null ,
height = null ,
color = d3 . scale . category20 ( ) . range ( ) ,
staggerLabels = false ,
rotateLabels = 0 ,
tooltips = true ,
tooltip = function ( key , x , y , e , graph ) {
return '<h3>' + x + '</h3>' +
'<p>' + y + '</p>'
} ;
var discretebar = nv . models . discreteBar ( ) ,
x = discretebar . xScale ( ) ,
y = discretebar . yScale ( ) ,
xAxis = nv . models . axis ( ) . scale ( x ) . orient ( 'bottom' ) . highlightZero ( false ) . showMaxMin ( false ) ,
yAxis = nv . models . axis ( ) . scale ( y ) . orient ( 'left' ) ,
dispatch = d3 . dispatch ( 'tooltipShow' , 'tooltipHide' ) ;
xAxis . tickFormat ( function ( d ) { return d } ) ;
yAxis . tickFormat ( d3 . format ( ',.1f' ) ) ;
var showTooltip = function ( e , offsetElement ) {
var left = e . pos [ 0 ] + ( offsetElement . offsetLeft || 0 ) ,
top = e . pos [ 1 ] + ( offsetElement . offsetTop || 0 ) ,
x = xAxis . tickFormat ( ) ( discretebar . x ( ) ( e . point , e . pointIndex ) ) ,
y = yAxis . tickFormat ( ) ( discretebar . y ( ) ( e . point , e . pointIndex ) ) ,
content = tooltip ( e . series . key , x , y , e , chart ) ;
nv . tooltip . show ( [ left , top ] , content , e . value < 0 ? 'n' : 's' ) ;
} ;
//TODO: let user select default
var controlsData = [
{ key : 'Grouped' } ,
{ key : 'Stacked' , disabled : true }
] ;
function chart ( selection ) {
selection . each ( function ( data ) {
var container = d3 . select ( this ) ,
that = this ;
var availableWidth = ( width || parseInt ( container . style ( 'width' ) ) || 960 )
- margin . left - margin . right ,
availableHeight = ( height || parseInt ( container . style ( 'height' ) ) || 400 )
- margin . top - margin . bottom ;
discretebar
. width ( availableWidth )
. height ( availableHeight ) ;
var wrap = container . selectAll ( 'g.wrap.discreteBarWithAxes' ) . data ( [ data ] ) ;
var gEnter = wrap . enter ( ) . append ( 'g' ) . attr ( 'class' , 'wrap nvd3 discreteBarWithAxes' ) . append ( 'g' ) ;
var defsEnter = gEnter . append ( 'defs' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'x axis' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'y axis' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'barsWrap' ) ;
var g = wrap . select ( 'g' ) ;
g . attr ( 'transform' , 'translate(' + margin . left + ',' + margin . top + ')' ) ;
var barsWrap = g . select ( '.barsWrap' )
. datum ( data . filter ( function ( d ) { return ! d . disabled } ) )
d3 . transition ( barsWrap ) . call ( discretebar ) ;
defsEnter . append ( 'clipPath' )
. attr ( 'id' , 'x-label-clip-' + discretebar . id ( ) )
. append ( 'rect' )
g . select ( '#x-label-clip-' + discretebar . id ( ) + ' rect' )
. attr ( 'width' , x . rangeBand ( ) * ( staggerLabels ? 2 : 1 ) )
. attr ( 'height' , 16 )
. attr ( 'x' , - x . rangeBand ( ) / ( staggerLabels ? 1 : 2 ) ) ;
xAxis
. ticks ( availableWidth / 100 )
. tickSize ( - availableHeight , 0 ) ;
g . select ( '.x.axis' )
. attr ( 'transform' , 'translate(0,' + ( y . range ( ) [ 0 ] + ( ( discretebar . showValues ( ) && y . domain ( ) [ 0 ] < 0 ) ? 16 : 0 ) ) + ')' )
//d3.transition(g.select('.x.axis'))
g . select ( '.x.axis' ) . transition ( ) . duration ( 0 )
. call ( xAxis ) ;
var xTicks = g . select ( '.x.axis' ) . selectAll ( 'g' ) ;
if ( staggerLabels )
xTicks
. selectAll ( 'text' )
. attr ( 'transform' , function ( d , i , j ) { return 'translate(0,' + ( j % 2 == 0 ? '0' : '12' ) + ')' } )
if ( rotateLabels )
xTicks
. selectAll ( 'text' )
. attr ( 'transform' , function ( d , i , j ) { return 'rotate(' + rotateLabels + ' 0,0)' } )
. attr ( 'text-anchor' , rotateLabels > 0 ? 'start' : 'end' )
xTicks
. selectAll ( 'text' )
. attr ( 'clip-path' , function ( d , i , j ) { return rotateLabels ? '' : 'url(#x-label-clip-' + discretebar . id ( ) + ')' } ) ;
yAxis
. ticks ( availableHeight / 36 )
. tickSize ( - availableWidth , 0 ) ;
d3 . transition ( g . select ( '.y.axis' ) )
. call ( yAxis ) ;
discretebar . dispatch . on ( 'elementMouseover.tooltip' , function ( e ) {
e . pos = [ e . pos [ 0 ] + margin . left , e . pos [ 1 ] + margin . top ] ;
dispatch . tooltipShow ( e ) ;
} ) ;
if ( tooltips ) dispatch . on ( 'tooltipShow' , function ( e ) { showTooltip ( e , that . parentNode ) } ) ; // TODO: maybe merge with above?
discretebar . dispatch . on ( 'elementMouseout.tooltip' , function ( e ) {
dispatch . tooltipHide ( e ) ;
} ) ;
if ( tooltips ) dispatch . on ( 'tooltipHide' , nv . tooltip . cleanup ) ;
//TODO: decide if this makes sense to add into all the models for ease of updating (updating without needing the selection)
chart . update = function ( ) { selection . transition ( ) . call ( chart ) ; } ;
chart . container = this ; // I need a reference to the container in order to have outside code check if the chart is visible or not
} ) ;
return chart ;
}
chart . dispatch = dispatch ;
chart . discretebar = discretebar ; // really just makign the accessible for discretebar.dispatch, may rethink slightly
chart . xAxis = xAxis ;
chart . yAxis = yAxis ;
d3 . rebind ( chart , discretebar , 'x' , 'y' , 'xDomain' , 'yDomain' , 'forceX' , 'forceY' , 'id' , 'showValues' , 'valueFormat' ) ;
chart . margin = function ( _ ) {
if ( ! arguments . length ) return margin ;
margin = _ ;
return chart ;
} ;
chart . width = function ( _ ) {
if ( ! arguments . length ) return width ;
width = _ ;
return chart ;
} ;
chart . height = function ( _ ) {
if ( ! arguments . length ) return height ;
height = _ ;
return chart ;
} ;
chart . color = function ( _ ) {
if ( ! arguments . length ) return color ;
color = _ ;
discretebar . color ( _ ) ;
return chart ;
} ;
chart . staggerLabels = function ( _ ) {
if ( ! arguments . length ) return staggerLabels ;
staggerLabels = _ ;
return chart ;
} ;
chart . rotateLabels = function ( _ ) {
if ( ! arguments . length ) return rotateLabels ;
rotateLabels = _ ;
return chart ;
} ;
chart . tooltips = function ( _ ) {
if ( ! arguments . length ) return tooltips ;
tooltips = _ ;
return chart ;
} ;
chart . tooltipContent = function ( _ ) {
if ( ! arguments . length ) return tooltip ;
tooltip = _ ;
return chart ;
} ;
return chart ;
}
nv . models . distribution = function ( ) {
var margin = { top : 0 , right : 0 , bottom : 0 , left : 0 } ,
width = 400 , //technically width or height depending on x or y....
size = 8 ,
axis = 'x' , // 'x' or 'y'... horizontal or vertical
getData = function ( d ) { return d [ axis ] } , // defaults d.x or d.y
color = d3 . scale . category20 ( ) . range ( ) ,
domain ;
var scale = d3 . scale . linear ( ) ,
scale0 ;
function chart ( selection ) {
selection . each ( function ( data ) {
var availableLength = width - ( axis === 'x' ? margin . left + margin . right : margin . top + margin . bottom ) ,
naxis = axis == 'x' ? 'y' : 'x' ;
//store old scales if they exist
scale0 = scale0 || scale ;
/ *
scale
. domain ( domain || d3 . extent ( data , getData ) )
. range ( axis == 'x' ? [ 0 , availableLength ] : [ availableLength , 0 ] ) ;
* /
var wrap = d3 . select ( this ) . selectAll ( 'g.distribution' ) . data ( [ data ] ) ;
var wrapEnter = wrap . enter ( ) . append ( 'g' ) . attr ( 'class' , 'nvd3 distribution' ) ;
var gEnter = wrapEnter . append ( 'g' ) ;
var g = wrap . select ( 'g' ) ;
wrap . attr ( 'transform' , 'translate(' + margin . left + ',' + margin . top + ')' )
var distWrap = g . selectAll ( 'g.dist' )
. data ( function ( d ) { return d } , function ( d ) { return d . key } ) ;
distWrap . enter ( ) . append ( 'g' )
distWrap
. attr ( 'class' , function ( d , i ) { return 'dist series-' + i } )
. style ( 'stroke' , function ( d , i ) { return color [ i % color . length ] } ) ;
//.style('stroke', function(d,i) { return color.filter(function(d,i) { return data[i] && !data[i].disabled })[i % color.length] });
var dist = distWrap . selectAll ( 'line.dist' + axis )
. data ( function ( d ) { return d . values } )
dist . enter ( ) . append ( 'line' )
. attr ( axis + '1' , function ( d , i ) { return scale0 ( getData ( d , i ) ) } )
. attr ( axis + '2' , function ( d , i ) { return scale0 ( getData ( d , i ) ) } )
d3 . transition ( distWrap . exit ( ) . selectAll ( 'line.dist' + axis ) )
. attr ( axis + '1' , function ( d , i ) { return scale ( getData ( d , i ) ) } )
. attr ( axis + '2' , function ( d , i ) { return scale ( getData ( d , i ) ) } )
. style ( 'stroke-opacity' , 0 )
. remove ( ) ;
dist
//distWrap.selectAll('line.dist' + axis)
. attr ( 'class' , function ( d , i ) { return 'dist' + axis + ' dist' + axis + '-' + i } )
. attr ( naxis + '1' , 0 )
. attr ( naxis + '2' , size ) ;
d3 . transition ( dist )
//d3.transition(distWrap.selectAll('line.dist' + axis))
. attr ( axis + '1' , function ( d , i ) { return scale ( getData ( d , i ) ) } )
. attr ( axis + '2' , function ( d , i ) { return scale ( getData ( d , i ) ) } )
scale0 = scale . copy ( ) ;
} ) ;
return chart ;
}
chart . margin = function ( _ ) {
if ( ! arguments . length ) return margin ;
margin = _ ;
return chart ;
} ;
chart . width = function ( _ ) {
if ( ! arguments . length ) return width ;
width = _ ;
return chart ;
} ;
chart . axis = function ( _ ) {
if ( ! arguments . length ) return axis ;
axis = _ ;
return chart ;
} ;
chart . size = function ( _ ) {
if ( ! arguments . length ) return size ;
size = _ ;
return chart ;
} ;
chart . getData = function ( _ ) {
if ( ! arguments . length ) return getData ;
getData = d3 . functor ( _ ) ;
return chart ;
} ;
chart . scale = function ( _ ) {
if ( ! arguments . length ) return scale ;
scale = _ ;
return chart ;
} ;
chart . color = function ( _ ) {
if ( ! arguments . length ) return color ;
color = _ ;
return chart ;
} ;
return chart ;
}
//TODO: Finish merging this chart into the NVD3 style!
nv . models . indentedTree = function ( ) {
//Default Settings
var margin = { top : 0 , right : 0 , bottom : 0 , left : 0 } , //TODO: implement, maybe as margin on the containing div
width = 960 ,
height = 500 ,
color = d3 . scale . category20 ( ) . range ( ) ,
id = Math . floor ( Math . random ( ) * 10000 ) ,
header = true ,
noResultsText = 'No Results found.'
childIndent = 20 ,
columns = [ { key : 'key' , label : 'Name' , type : 'text' } ] , //TODO: consider functions like chart.addColumn, chart.removeColumn, instead of a block like this
tableClass = null ,
iconOpen = 'images/grey-plus.png' , //TODO: consider removing this and replacing with a '+' or '-' unless user defines images
iconClose = 'images/grey-minus.png' ;
var dispatch = d3 . dispatch ( 'elementClick' , 'elementDblclick' , 'elementMouseover' , 'elementMouseout' ) ;
function chart ( selection ) {
selection . each ( function ( data ) {
var availableWidth = width - margin . left - margin . right , //TODO: decide if there is any use for these
availableHeight = height - margin . top - margin . bottom ;
chart . update = function ( ) { selection . transition ( ) . call ( chart ) } ;
var i = 0 ,
depth = 1 ;
var tree = d3 . layout . tree ( )
. children ( function ( d ) { return d . values } )
. size ( [ height , childIndent ] ) ; //Not sure if this is needed now that the result is HTML
if ( ! data [ 0 ] . key ) data [ 0 ] . key = noResultsText ;
var nodes = tree . nodes ( data [ 0 ] ) ;
var wrap = d3 . select ( this ) . selectAll ( 'div' ) . data ( [ [ nodes ] ] ) ;
var wrapEnter = wrap . enter ( ) . append ( 'div' ) . attr ( 'class' , 'wrap nvd3 indentedtree' ) ;
var tableEnter = wrapEnter . append ( 'table' ) ;
var table = wrap . select ( 'table' ) . attr ( 'width' , '100%' ) . attr ( 'class' , tableClass ) ;
if ( header ) {
var thead = tableEnter . append ( 'thead' ) ;
var theadRow1 = thead . append ( 'tr' ) ;
columns . forEach ( function ( column ) {
theadRow1
. append ( 'th' )
. attr ( 'width' , column . width ? column . width : '10%' )
. style ( 'text-align' , column . type == 'numeric' ? 'right' : 'left' )
. append ( 'span' )
. text ( column . label ) ;
} ) ;
}
var tbody = table . selectAll ( 'tbody' )
. data ( function ( d ) { return d } ) ;
tbody . enter ( ) . append ( 'tbody' ) ;
//compute max generations
depth = d3 . max ( nodes , function ( node ) { return node . depth } ) ;
tree . size ( [ height , depth * childIndent ] ) ; //TODO: see if this is necessary at all
// Update the nodes…
var node = tbody . selectAll ( 'tr' )
. data ( function ( d ) { return d } , function ( d ) { return d . id || ( d . id == ++ i ) } ) ;
//.style('display', 'table-row'); //TODO: see if this does anything
node . exit ( ) . remove ( ) ;
node . select ( 'img.treeicon' )
. attr ( 'src' , icon )
. classed ( 'folded' , folded ) ;
var nodeEnter = node . enter ( ) . append ( 'tr' ) ;
columns . forEach ( function ( column , index ) {
var nodeName = nodeEnter . append ( 'td' )
. style ( 'padding-left' , function ( d ) { return ( index ? 0 : d . depth * childIndent + 12 + ( icon ( d ) ? 0 : 16 ) ) + 'px' } , 'important' ) //TODO: check why I did the ternary here
. style ( 'text-align' , column . type == 'numeric' ? 'right' : 'left' ) ;
if ( index == 0 ) {
nodeName . append ( 'img' )
. classed ( 'treeicon' , true )
. classed ( 'folded' , folded )
. attr ( 'src' , icon )
. style ( 'width' , '14px' )
. style ( 'height' , '14px' )
. style ( 'padding' , '0 1px' )
. style ( 'display' , function ( d ) { return icon ( d ) ? 'inline-block' : 'none' ; } )
. on ( 'click' , click ) ;
}
nodeName . append ( 'span' )
. attr ( 'class' , d3 . functor ( column . classes ) )
. text ( function ( d ) { return column . format ? column . format ( d ) :
( d [ column . key ] || '-' ) } ) ;
if ( column . showCount )
nodeName . append ( 'span' )
. attr ( 'class' , 'childrenCount' )
. text ( function ( d ) {
return ( ( d . values && d . values . length ) || ( d . _values && d . _values . length ) ) ?
'(' + ( ( d . values && d . values . length ) || ( d . _values && d . _values . length ) ) + ')'
: ''
} ) ;
if ( column . click )
nodeName . select ( 'span' ) . on ( 'click' , column . click ) ;
} ) ;
node
. order ( )
. on ( 'click' , function ( d ) {
dispatch . elementClick ( {
row : this , //TODO: decide whether or not this should be consistent with scatter/line events
data : d ,
pos : [ d . x , d . y ]
} ) ;
} )
. on ( 'dblclick' , function ( d ) {
dispatch . elementDblclick ( {
row : this ,
data : d ,
pos : [ d . x , d . y ]
} ) ;
} )
. on ( 'mouseover' , function ( d ) {
dispatch . elementMouseover ( {
row : this ,
data : d ,
pos : [ d . x , d . y ]
} ) ;
} )
. on ( 'mouseout' , function ( d ) {
dispatch . elementMouseout ( {
row : this ,
data : d ,
pos : [ d . x , d . y ]
} ) ;
} ) ;
// Toggle children on click.
function click ( d , _ , unshift ) {
d3 . event . stopPropagation ( ) ;
if ( d3 . event . shiftKey && ! unshift ) {
//If you shift-click, it'll toggle fold all the children, instead of itself
d3 . event . shiftKey = false ;
d . values && d . values . forEach ( function ( node ) {
if ( node . values || node . _values ) {
click ( node , 0 , true ) ;
}
} ) ;
return true ;
}
if ( ! hasChildren ( d ) ) {
//download file
//window.location.href = d.url;
return true ;
}
if ( d . values ) {
d . _values = d . values ;
d . values = null ;
} else {
d . values = d . _values ;
d . _values = null ;
}
chart . update ( ) ;
}
function icon ( d ) {
return ( d . _values && d . _values . length ) ? iconOpen : ( d . values && d . values . length ) ? iconClose : '' ;
}
function folded ( d ) {
return ( d . _values && d . _values . length ) ;
}
function hasChildren ( d ) {
var values = d . values || d . _values ;
return ( values && values . length ) ;
}
} ) ;
return chart ;
}
chart . margin = function ( _ ) {
if ( ! arguments . length ) return margin ;
margin = _ ;
return chart ;
} ;
chart . width = function ( _ ) {
if ( ! arguments . length ) return width ;
width = _ ;
return chart ;
} ;
chart . height = function ( _ ) {
if ( ! arguments . length ) return height ;
height = _ ;
return chart ;
} ;
chart . color = function ( _ ) {
if ( ! arguments . length ) return color ;
color = _ ;
scatter . color ( _ ) ;
return chart ;
} ;
chart . id = function ( _ ) {
if ( ! arguments . length ) return id ;
id = _ ;
return chart ;
} ;
chart . header = function ( _ ) {
if ( ! arguments . length ) return header ;
header = _ ;
return chart ;
} ;
chart . noResultsText = function ( _ ) {
if ( ! arguments . length ) return noResultsText ;
noResultsText = _ ;
return chart ;
} ;
chart . columns = function ( _ ) {
if ( ! arguments . length ) return columns ;
columns = _ ;
return chart ;
} ;
chart . tableClass = function ( _ ) {
if ( ! arguments . length ) return tableClass ;
tableClass = _ ;
return chart ;
} ;
chart . iconOpen = function ( _ ) {
if ( ! arguments . length ) return iconOpen ;
iconOpen = _ ;
return chart ;
}
chart . iconClose = function ( _ ) {
if ( ! arguments . length ) return iconClose ;
iconClose = _ ;
return chart ;
}
return chart ;
}
nv . models . legend = function ( ) {
var margin = { top : 5 , right : 0 , bottom : 5 , left : 0 } ,
width = 400 ,
height = 20 ,
getKey = function ( d ) { return d . key } ,
color = d3 . scale . category20 ( ) . range ( ) ,
align = true ;
var dispatch = d3 . dispatch ( 'legendClick' , 'legendDblclick' , 'legendMouseover' , 'legendMouseout' ) ; //TODO: theres are really element or series events, there are currently no 'LEGEND' events (as in entire legend)... decide if they are needed
function chart ( selection ) {
selection . each ( function ( data ) {
var availableWidth = width - margin . left - margin . right ;
var wrap = d3 . select ( this ) . selectAll ( 'g.legend' ) . data ( [ data ] ) ;
var gEnter = wrap . enter ( ) . append ( 'g' ) . attr ( 'class' , 'nvd3 legend' ) . append ( 'g' ) ;
var g = wrap . select ( 'g' )
. attr ( 'transform' , 'translate(' + margin . left + ',' + margin . top + ')' ) ;
var series = g . selectAll ( '.series' )
. data ( function ( d ) { return d } ) ;
var seriesEnter = series . enter ( ) . append ( 'g' ) . attr ( 'class' , 'series' )
. on ( 'mouseover' , function ( d , i ) {
dispatch . legendMouseover ( d , i ) ; //TODO: Make consistent with other event objects
} )
. on ( 'mouseout' , function ( d , i ) {
dispatch . legendMouseout ( d , i ) ;
} )
. on ( 'click' , function ( d , i ) {
dispatch . legendClick ( d , i ) ;
} )
. on ( 'dblclick' , function ( d , i ) {
dispatch . legendDblclick ( d , i ) ;
} ) ;
seriesEnter . append ( 'circle' )
. style ( 'fill' , function ( d , i ) { return d . color || color [ i % color . length ] } )
. style ( 'stroke' , function ( d , i ) { return d . color || color [ i % color . length ] } )
. style ( 'stroke-width' , 2 )
. attr ( 'r' , 5 ) ;
seriesEnter . append ( 'text' )
. text ( getKey )
. attr ( 'text-anchor' , 'start' )
. attr ( 'dy' , '.32em' )
. attr ( 'dx' , '8' ) ;
series . classed ( 'disabled' , function ( d ) { return d . disabled } ) ;
series . exit ( ) . remove ( ) ;
//TODO: implement fixed-width and max-width options (max-width is especially useful with the align option)
// NEW ALIGNING CODE, TODO: drastically clean up ... this is just the ugly initial code to make sure the math is right
if ( align ) {
var seriesWidths = [ ] ;
series . each ( function ( d , i ) {
seriesWidths . push ( d3 . select ( this ) . select ( 'text' ) . node ( ) . getComputedTextLength ( ) + 28 ) ; // 28 is ~ the width of the circle plus some padding
} ) ;
//console.log('Series Widths: ', JSON.stringify(seriesWidths));
var seriesPerRow = 0 ;
var legendWidth = 0 ;
var columnWidths = [ ] ;
while ( legendWidth < availableWidth && seriesPerRow < seriesWidths . length ) {
columnWidths [ seriesPerRow ] = seriesWidths [ seriesPerRow ] ;
legendWidth += seriesWidths [ seriesPerRow ++ ] ;
}
while ( legendWidth > availableWidth && seriesPerRow > 1 ) {
columnWidths = [ ] ;
seriesPerRow -- ;
for ( k = 0 ; k < seriesWidths . length ; k ++ ) {
if ( seriesWidths [ k ] > ( columnWidths [ k % seriesPerRow ] || 0 ) )
columnWidths [ k % seriesPerRow ] = seriesWidths [ k ] ;
}
legendWidth = columnWidths . reduce ( function ( prev , cur , index , array ) {
return prev + cur ;
} ) ;
}
//console.log(columnWidths, legendWidth, seriesPerRow);
var xPositions = [ ] ;
for ( var i = 0 , curX = 0 ; i < seriesPerRow ; i ++ ) {
xPositions [ i ] = curX ;
curX += columnWidths [ i ] ;
}
series
. attr ( 'transform' , function ( d , i ) {
return 'translate(' + xPositions [ i % seriesPerRow ] + ',' + ( 5 + Math . floor ( i / seriesPerRow ) * 20 ) + ')' ;
} ) ;
//position legend as far right as possible within the total width
g . attr ( 'transform' , 'translate(' + ( width - margin . right - legendWidth ) + ',' + margin . top + ')' ) ;
height = margin . top + margin . bottom + ( Math . ceil ( seriesWidths . length / seriesPerRow ) * 20 ) ;
} else {
var ypos = 5 ,
newxpos = 5 ,
maxwidth = 0 ,
xpos ;
series
. attr ( 'transform' , function ( d , i ) {
var length = d3 . select ( this ) . select ( 'text' ) . node ( ) . getComputedTextLength ( ) + 28 ;
xpos = newxpos ;
if ( width < margin . left + margin . right + xpos + length ) {
newxpos = xpos = 5 ;
ypos += 20 ;
}
newxpos += length ;
if ( newxpos > maxwidth ) maxwidth = newxpos ;
return 'translate(' + xpos + ',' + ypos + ')' ;
} ) ;
//position legend as far right as possible within the total width
g . attr ( 'transform' , 'translate(' + ( width - margin . right - maxwidth ) + ',' + margin . top + ')' ) ;
height = margin . top + margin . bottom + ypos + 15 ;
}
} ) ;
return chart ;
}
chart . dispatch = dispatch ;
chart . margin = function ( _ ) {
if ( ! arguments . length ) return margin ;
margin = _ ;
return chart ;
} ;
chart . width = function ( _ ) {
if ( ! arguments . length ) return width ;
width = _ ;
return chart ;
} ;
chart . height = function ( _ ) {
if ( ! arguments . length ) return height ;
height = _ ;
return chart ;
} ;
chart . key = function ( _ ) {
if ( ! arguments . length ) return getKey ;
getKey = _ ;
return chart ;
} ;
chart . color = function ( _ ) {
if ( ! arguments . length ) return color ;
color = _ ;
return chart ;
} ;
chart . align = function ( _ ) {
if ( ! arguments . length ) return align ;
align = _ ;
return chart ;
} ;
return chart ;
}
nv . models . line = function ( ) {
//============================================================
// Public Variables with Default Settings
//------------------------------------------------------------
var margin = { top : 0 , right : 0 , bottom : 0 , left : 0 } ,
width = 960 ,
height = 500 ,
color = d3 . scale . category20 ( ) . range ( ) , // array of colors to be used in order
id = Math . floor ( Math . random ( ) * 10000 ) , //Create semi-unique ID incase user doesn't select one
getX = function ( d ) { return d . x } , // accessor to get the x value from a data point
getY = function ( d ) { return d . y } , // accessor to get the y value from a data point
defined = function ( d , i ) { return ! isNaN ( getY ( d , i ) ) && getY ( d , i ) !== null } , // allows a line to be not continous when it is not defined
isArea = function ( d ) { return d . area } , // decides if a line is an area or just a line
clipEdge = false , // if true, masks lines within x and y scale
x , y , //can be accessed via chart.scatter.[x/y]Scale()
interpolate = "linear" ; // controls the line interpolation
//============================================================
// Private Variables
//------------------------------------------------------------
var scatter = nv . models . scatter ( )
. id ( id )
. size ( 16 ) // default size
. sizeDomain ( [ 16 , 256 ] ) , //set to speed up calculation, needs to be unset if there is a cstom size accessor
x0 , y0 ,
timeoutID ;
function chart ( selection ) {
selection . each ( function ( data ) {
var availableWidth = width - margin . left - margin . right ,
availableHeight = height - margin . top - margin . bottom ,
container = d3 . select ( this ) ;
x = scatter . xScale ( ) ;
y = scatter . yScale ( ) ;
x0 = x0 || x ;
y0 = y0 || y ;
var wrap = container . selectAll ( 'g.wrap.line' ) . data ( [ data ] ) ;
var wrapEnter = wrap . enter ( ) . append ( 'g' ) . attr ( 'class' , 'wrap nvd3 line' ) ;
var defsEnter = wrapEnter . append ( 'defs' ) ;
var gEnter = wrapEnter . append ( 'g' ) ;
var g = wrap . select ( 'g' )
gEnter . append ( 'g' ) . attr ( 'class' , 'groups' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'scatterWrap' ) ;
var scatterWrap = wrap . select ( '.scatterWrap' ) ; //.datum(data);
scatter
. width ( availableWidth )
. height ( availableHeight )
d3 . transition ( scatterWrap ) . call ( scatter ) ;
wrap . attr ( 'transform' , 'translate(' + margin . left + ',' + margin . top + ')' ) ;
defsEnter . append ( 'clipPath' )
. attr ( 'id' , 'edge-clip-' + id )
. append ( 'rect' ) ;
wrap . select ( '#edge-clip-' + id + ' rect' )
. attr ( 'width' , availableWidth )
. attr ( 'height' , availableHeight ) ;
g . attr ( 'clip-path' , clipEdge ? 'url(#edge-clip-' + id + ')' : '' ) ;
scatterWrap
. attr ( 'clip-path' , clipEdge ? 'url(#edge-clip-' + id + ')' : '' ) ;
var groups = wrap . select ( '.groups' ) . selectAll ( '.group' )
. data ( function ( d ) { return d } , function ( d ) { return d . key } ) ;
groups . enter ( ) . append ( 'g' )
. style ( 'stroke-opacity' , 1e-6 )
. style ( 'fill-opacity' , 1e-6 ) ;
d3 . transition ( groups . exit ( ) )
. style ( 'stroke-opacity' , 1e-6 )
. style ( 'fill-opacity' , 1e-6 )
. remove ( ) ;
groups
. attr ( 'class' , function ( d , i ) { return 'group series-' + i } )
. classed ( 'hover' , function ( d ) { return d . hover } )
. style ( 'fill' , function ( d , i ) { return color [ i % color . length ] } )
. style ( 'stroke' , function ( d , i ) { return color [ i % color . length ] } ) ;
d3 . transition ( groups )
. style ( 'stroke-opacity' , 1 )
. style ( 'fill-opacity' , . 5 ) ;
var areaPaths = groups . selectAll ( 'path.area' )
. data ( function ( d ) { return [ d ] } ) ; // this is done differently than lines because I need to check if series is an area
areaPaths . enter ( ) . append ( 'path' )
. filter ( isArea )
. attr ( 'class' , 'area' )
. attr ( 'd' , function ( d ) {
return d3 . svg . area ( )
. interpolate ( interpolate )
. defined ( defined )
. x ( function ( d , i ) { return x0 ( getX ( d , i ) ) } )
. y0 ( function ( d , i ) { return y0 ( getY ( d , i ) ) } )
. y1 ( function ( d , i ) { return y0 ( y . domain ( ) [ 0 ] <= 0 ? y . domain ( ) [ 1 ] >= 0 ? 0 : y . domain ( ) [ 1 ] : y . domain ( ) [ 0 ] ) } )
//.y1(function(d,i) { return y0(0) }) //assuming 0 is within y domain.. may need to tweak this
. apply ( this , [ d . values ] )
} ) ;
d3 . transition ( groups . exit ( ) . selectAll ( 'path.area' ) )
. attr ( 'd' , function ( d ) {
return d3 . svg . area ( )
. interpolate ( interpolate )
. defined ( defined )
. x ( function ( d , i ) { return x0 ( getX ( d , i ) ) } )
. y0 ( function ( d , i ) { return y0 ( getY ( d , i ) ) } )
. y1 ( function ( d , i ) { return y0 ( y . domain ( ) [ 0 ] <= 0 ? y . domain ( ) [ 1 ] >= 0 ? 0 : y . domain ( ) [ 1 ] : y . domain ( ) [ 0 ] ) } )
//.y1(function(d,i) { return y0(0) }) //assuming 0 is within y domain.. may need to tweak this
. apply ( this , [ d . values ] )
} ) ;
d3 . transition ( areaPaths . filter ( isArea ) )
. attr ( 'd' , function ( d ) {
return d3 . svg . area ( )
. interpolate ( interpolate )
. defined ( defined )
. x ( function ( d , i ) { return x0 ( getX ( d , i ) ) } )
. y0 ( function ( d , i ) { return y0 ( getY ( d , i ) ) } )
. y1 ( function ( d , i ) { return y0 ( y . domain ( ) [ 0 ] <= 0 ? y . domain ( ) [ 1 ] >= 0 ? 0 : y . domain ( ) [ 1 ] : y . domain ( ) [ 0 ] ) } )
//.y1(function(d,i) { return y0(0) }) //assuming 0 is within y domain.. may need to tweak this
. apply ( this , [ d . values ] )
} ) ;
var linePaths = groups . selectAll ( 'path.line' )
. data ( function ( d ) { return [ d . values ] } ) ;
linePaths . enter ( ) . append ( 'path' )
. attr ( 'class' , function ( d ) { return 'line' } )
. attr ( 'd' ,
d3 . svg . line ( )
. interpolate ( interpolate )
. defined ( defined )
. x ( function ( d , i ) { return x0 ( getX ( d , i ) ) } )
. y ( function ( d , i ) { return y0 ( getY ( d , i ) ) } )
) ;
d3 . transition ( groups . exit ( ) . selectAll ( 'path.line' ) )
. attr ( 'd' ,
d3 . svg . line ( )
. interpolate ( interpolate )
. defined ( defined )
. x ( function ( d , i ) { return x ( getX ( d , i ) ) } )
. y ( function ( d , i ) { return y ( getY ( d , i ) ) } )
) ;
d3 . transition ( linePaths )
. attr ( 'd' ,
d3 . svg . line ( )
. interpolate ( interpolate )
. defined ( defined )
. x ( function ( d , i ) { return x ( getX ( d , i ) ) } )
. y ( function ( d , i ) { return y ( getY ( d , i ) ) } )
) ;
//store old scales for use in transitions on update
x0 = x . copy ( ) ;
y0 = y . copy ( ) ;
} ) ;
return chart ;
}
//============================================================
// Global getters and setters
//------------------------------------------------------------
chart . dispatch = scatter . dispatch ;
d3 . rebind ( chart , scatter , 'interactive' , 'size' , 'xScale' , 'yScale' , 'zScale' , 'xDomain' , 'yDomain' , 'sizeDomain' , 'forceX' , 'forceY' , 'forceSize' , 'clipVoronoi' , 'clipRadius' ) ;
chart . margin = function ( _ ) {
if ( ! arguments . length ) return margin ;
margin = _ ;
return chart ;
} ;
chart . width = function ( _ ) {
if ( ! arguments . length ) return width ;
width = _ ;
return chart ;
} ;
chart . height = function ( _ ) {
if ( ! arguments . length ) return height ;
height = _ ;
return chart ;
} ;
chart . x = function ( _ ) {
if ( ! arguments . length ) return getX ;
getX = _ ;
scatter . x ( _ ) ;
return chart ;
} ;
chart . y = function ( _ ) {
if ( ! arguments . length ) return getY ;
getY = _ ;
scatter . y ( _ ) ;
return chart ;
} ;
chart . clipEdge = function ( _ ) {
if ( ! arguments . length ) return clipEdge ;
clipEdge = _ ;
return chart ;
} ;
chart . color = function ( _ ) {
if ( ! arguments . length ) return color ;
color = _ ;
scatter . color ( _ ) ;
return chart ;
} ;
chart . id = function ( _ ) {
if ( ! arguments . length ) return id ;
id = _ ;
return chart ;
} ;
chart . interpolate = function ( _ ) {
if ( ! arguments . length ) return interpolate ;
interpolate = _ ;
return chart ;
} ;
chart . defined = function ( _ ) {
if ( ! arguments . length ) return defined ;
defined = _ ;
return chart ;
} ;
chart . isArea = function ( _ ) {
if ( ! arguments . length ) return isArea ;
isArea = d3 . functor ( _ ) ;
return chart ;
} ;
return chart ;
}
nv . models . lineChart = function ( ) {
//============================================================
// Public Variables with Default Settings
//------------------------------------------------------------
var margin = { top : 30 , right : 20 , bottom : 50 , left : 60 } ,
color = d3 . scale . category20 ( ) . range ( ) ,
width = null ,
height = null ,
showLegend = true ,
tooltips = true ,
tooltip = function ( key , x , y , e , graph ) {
return '<h3>' + key + '</h3>' +
'<p>' + y + ' at ' + x + '</p>'
} ,
x , y ; //can be accessed via chart.lines.[x/y]Scale()
//============================================================
// Private Variables
//------------------------------------------------------------
var lines = nv . models . line ( ) ,
xAxis = nv . models . axis ( ) . orient ( 'bottom' ) . tickPadding ( 5 ) ,
yAxis = nv . models . axis ( ) . orient ( 'left' ) ,
legend = nv . models . legend ( ) . height ( 30 ) ,
dispatch = d3 . dispatch ( 'tooltipShow' , 'tooltipHide' ) ;
var showTooltip = function ( e , offsetElement ) {
// New addition to calculate position if SVG is scaled with viewBox, may move
if ( offsetElement ) {
var svg = d3 . select ( offsetElement ) . select ( 'svg' ) ;
var viewBox = svg . attr ( 'viewBox' ) ;
if ( viewBox ) {
viewBox = viewBox . split ( ' ' ) ;
var ratio = parseInt ( svg . style ( 'width' ) ) / viewBox [ 2 ] ;
e . pos [ 0 ] = e . pos [ 0 ] * ratio ;
e . pos [ 1 ] = e . pos [ 1 ] * ratio ;
}
}
var left = e . pos [ 0 ] + ( offsetElement . offsetLeft || 0 ) ,
top = e . pos [ 1 ] + ( offsetElement . offsetTop || 0 ) ,
x = xAxis . tickFormat ( ) ( lines . x ( ) ( e . point , e . pointIndex ) ) ,
y = yAxis . tickFormat ( ) ( lines . y ( ) ( e . point , e . pointIndex ) ) ,
content = tooltip ( e . series . key , x , y , e , chart ) ;
nv . tooltip . show ( [ left , top ] , content ) ;
} ;
function chart ( selection ) {
selection . each ( function ( data ) {
var container = d3 . select ( this ) ,
that = this ;
var availableWidth = ( width || parseInt ( container . style ( 'width' ) ) || 960 )
- margin . left - margin . right ,
availableHeight = ( height || parseInt ( container . style ( 'height' ) ) || 400 )
- margin . top - margin . bottom ;
x = lines . xScale ( ) ;
y = lines . yScale ( ) ;
var wrap = container . selectAll ( 'g.wrap.lineChart' ) . data ( [ data ] ) ;
var gEnter = wrap . enter ( ) . append ( 'g' ) . attr ( 'class' , 'wrap nvd3 lineChart' ) . append ( 'g' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'x axis' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'y axis' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'linesWrap' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'legendWrap' ) ;
var g = wrap . select ( 'g' ) ;
if ( showLegend ) {
legend . width ( availableWidth ) ;
g . select ( '.legendWrap' )
. datum ( data )
. call ( legend ) ;
if ( margin . top != legend . height ( ) ) {
margin . top = legend . height ( ) ;
availableHeight = ( height || parseInt ( container . style ( 'height' ) ) || 400 )
- margin . top - margin . bottom ;
}
g . select ( '.legendWrap' )
. attr ( 'transform' , 'translate(0,' + ( - margin . top ) + ')' )
}
lines
. width ( availableWidth )
. height ( availableHeight )
. color ( data . map ( function ( d , i ) {
return d . color || color [ i % color . length ] ;
} ) . filter ( function ( d , i ) { return ! data [ i ] . disabled } ) ) ;
g . attr ( 'transform' , 'translate(' + margin . left + ',' + margin . top + ')' ) ;
var linesWrap = g . select ( '.linesWrap' )
. datum ( data . filter ( function ( d ) { return ! d . disabled } ) )
d3 . transition ( linesWrap ) . call ( lines ) ;
xAxis
. scale ( x )
. ticks ( availableWidth / 100 )
. tickSize ( - availableHeight , 0 ) ;
g . select ( '.x.axis' )
. attr ( 'transform' , 'translate(0,' + y . range ( ) [ 0 ] + ')' ) ;
d3 . transition ( g . select ( '.x.axis' ) )
. call ( xAxis ) ;
yAxis
. scale ( y )
. ticks ( availableHeight / 36 )
. tickSize ( - availableWidth , 0 ) ;
d3 . transition ( g . select ( '.y.axis' ) )
. call ( yAxis ) ;
//============================================================
// Event Handling/Dispatching (in chart's scope)
//------------------------------------------------------------
legend . dispatch . on ( 'legendClick' , function ( d , i ) {
d . disabled = ! d . disabled ;
if ( ! data . filter ( function ( d ) { return ! d . disabled } ) . length ) {
data . map ( function ( d ) {
d . disabled = false ;
wrap . selectAll ( '.series' ) . classed ( 'disabled' , false ) ;
return d ;
} ) ;
}
selection . transition ( ) . call ( chart ) ;
} ) ;
/ *
legend . dispatch . on ( 'legendMouseover' , function ( d , i ) {
d . hover = true ;
selection . transition ( ) . call ( chart )
} ) ;
legend . dispatch . on ( 'legendMouseout' , function ( d , i ) {
d . hover = false ;
selection . transition ( ) . call ( chart )
} ) ;
* /
dispatch . on ( 'tooltipShow' , function ( e ) {
if ( tooltips ) showTooltip ( e , that . parentNode ) ;
} ) ;
} ) ;
//TODO: decide if this is a good idea, and if it should be in all models
chart . update = function ( ) { chart ( selection ) } ;
chart . container = this ; // I need a reference to the container in order to have outside code check if the chart is visible or not
return chart ;
}
//============================================================
// Event Handling/Dispatching (out of chart's scope)
//------------------------------------------------------------
lines . dispatch . on ( 'elementMouseover.tooltip' , function ( e ) {
e . pos = [ e . pos [ 0 ] + margin . left , e . pos [ 1 ] + margin . top ] ;
dispatch . tooltipShow ( e ) ;
} ) ;
lines . dispatch . on ( 'elementMouseout.tooltip' , function ( e ) {
dispatch . tooltipHide ( e ) ;
} ) ;
dispatch . on ( 'tooltipHide' , function ( ) {
if ( tooltips ) nv . tooltip . cleanup ( ) ;
} ) ;
//============================================================
// Global getters and setters
//------------------------------------------------------------
chart . dispatch = dispatch ;
chart . legend = legend ;
chart . xAxis = xAxis ;
chart . yAxis = yAxis ;
d3 . rebind ( chart , lines , 'defined' , 'isArea' , 'x' , 'y' , 'size' , 'xScale' , 'yScale' , 'xDomain' , 'yDomain' , 'forceX' , 'forceY' , 'interactive' , 'clipEdge' , 'clipVoronoi' , 'id' , 'interpolate' ) ;
chart . margin = function ( _ ) {
if ( ! arguments . length ) return margin ;
margin = _ ;
return chart ;
} ;
chart . width = function ( _ ) {
if ( ! arguments . length ) return width ;
width = _ ;
return chart ;
} ;
chart . height = function ( _ ) {
if ( ! arguments . length ) return height ;
height = _ ;
return chart ;
} ;
chart . color = function ( _ ) {
if ( ! arguments . length ) return color ;
color = _ ;
legend . color ( _ ) ;
return chart ;
} ;
chart . showLegend = function ( _ ) {
if ( ! arguments . length ) return showLegend ;
showLegend = _ ;
return chart ;
} ;
chart . tooltips = function ( _ ) {
if ( ! arguments . length ) return tooltips ;
tooltips = _ ;
return chart ;
} ;
chart . tooltipContent = function ( _ ) {
if ( ! arguments . length ) return tooltip ;
tooltip = _ ;
return chart ;
} ;
return chart ;
}
nv . models . linePlusBarChart = function ( ) {
var margin = { top : 30 , right : 60 , bottom : 50 , left : 60 } ,
width = null ,
height = null ,
getX = function ( d ) { return d . x } ,
getY = function ( d ) { return d . y } ,
color = d3 . scale . category20 ( ) . range ( ) ,
showLegend = true ,
tooltips = true ,
tooltip = function ( key , x , y , e , graph ) {
return '<h3>' + key + '</h3>' +
'<p>' + y + ' at ' + x + '</p>'
} ;
var lines = nv . models . line ( ) ,
bars = nv . models . historicalBar ( ) ,
x = d3 . scale . linear ( ) , // needs to be both line and historicalBar x Axis
y1 = bars . yScale ( ) ,
y2 = lines . yScale ( ) ,
xAxis = nv . models . axis ( ) . scale ( x ) . orient ( 'bottom' ) . tickPadding ( 5 ) ,
yAxis1 = nv . models . axis ( ) . scale ( y1 ) . orient ( 'left' ) ,
yAxis2 = nv . models . axis ( ) . scale ( y2 ) . orient ( 'right' ) ,
legend = nv . models . legend ( ) . height ( 30 ) ,
dispatch = d3 . dispatch ( 'tooltipShow' , 'tooltipHide' ) ;
var showTooltip = function ( e , offsetElement ) {
var left = e . pos [ 0 ] + ( offsetElement . offsetLeft || 0 ) ,
top = e . pos [ 1 ] + ( offsetElement . offsetTop || 0 ) ,
x = xAxis . tickFormat ( ) ( lines . x ( ) ( e . point , e . pointIndex ) ) ,
y = ( e . series . bar ? yAxis1 : yAxis2 ) . tickFormat ( ) ( lines . y ( ) ( e . point , e . pointIndex ) ) ,
content = tooltip ( e . series . key , x , y , e , chart ) ;
nv . tooltip . show ( [ left , top ] , content , e . value < 0 ? 'n' : 's' ) ;
} ;
function chart ( selection ) {
selection . each ( function ( data ) {
var container = d3 . select ( this ) ,
that = this ;
var availableWidth = ( width || parseInt ( container . style ( 'width' ) ) || 960 )
- margin . left - margin . right ,
availableHeight = ( height || parseInt ( container . style ( 'height' ) ) || 400 )
- margin . top - margin . bottom ;
var dataBars = data . filter ( function ( d ) { return ! d . disabled && d . bar } ) ;
var dataLines = data . filter ( function ( d ) { return ! d . disabled && ! d . bar } ) ;
//TODO: try to remove x scale computation from this layer
var series1 = data . filter ( function ( d ) { return ! d . disabled && d . bar } )
. map ( function ( d ) {
return d . values . map ( function ( d , i ) {
return { x : getX ( d , i ) , y : getY ( d , i ) }
} )
} ) ;
var series2 = data . filter ( function ( d ) { return ! d . disabled && ! d . bar } )
. map ( function ( d ) {
return d . values . map ( function ( d , i ) {
return { x : getX ( d , i ) , y : getY ( d , i ) }
} )
} ) ;
x . domain ( d3 . extent ( d3 . merge ( series1 . concat ( series2 ) ) , function ( d ) { return d . x } ) )
. range ( [ 0 , availableWidth ] ) ;
/ *
x . domain ( d3 . extent ( d3 . merge ( data . map ( function ( d ) { return d . values } ) ) , getX ) )
. range ( [ 0 , availableWidth ] ) ;
y1 . domain ( d3 . extent ( d3 . merge ( dataBars ) , function ( d ) { return d . y } ) )
. range ( [ availableHeight , 0 ] ) ;
y2 . domain ( d3 . extent ( d3 . merge ( dataLines ) , function ( d ) { return d . y } ) )
. range ( [ availableHeight , 0 ] ) ;
* /
var wrap = d3 . select ( this ) . selectAll ( 'g.wrap.linePlusBar' ) . data ( [ data ] ) ;
var gEnter = wrap . enter ( ) . append ( 'g' ) . attr ( 'class' , 'wrap nvd3 linePlusBar' ) . append ( 'g' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'x axis' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'y1 axis' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'y2 axis' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'barsWrap' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'linesWrap' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'legendWrap' ) ;
var g = wrap . select ( 'g' ) ;
if ( showLegend ) {
legend . width ( availableWidth / 2 ) ;
g . select ( '.legendWrap' )
. datum ( data . map ( function ( series ) {
series . originalKey = series . originalKey === undefined ? series . key : series . originalKey ;
series . key = series . originalKey + ( series . bar ? ' (left axis)' : ' (right axis)' ) ;
return series ;
} ) )
. call ( legend ) ;
if ( margin . top != legend . height ( ) ) {
margin . top = legend . height ( ) ;
availableHeight = ( height || parseInt ( container . style ( 'height' ) ) || 400 )
- margin . top - margin . bottom ;
}
g . select ( '.legendWrap' )
. attr ( 'transform' , 'translate(' + ( availableWidth / 2 ) + ',' + ( - margin . top ) + ')' ) ;
}
lines
. width ( availableWidth )
. height ( availableHeight )
. color ( data . map ( function ( d , i ) {
return d . color || color [ i % color . length ] ;
} ) . filter ( function ( d , i ) { return ! data [ i ] . disabled && ! data [ i ] . bar } ) )
bars
. width ( availableWidth )
. height ( availableHeight )
. color ( data . map ( function ( d , i ) {
return d . color || color [ i % color . length ] ;
} ) . filter ( function ( d , i ) { return ! data [ i ] . disabled && data [ i ] . bar } ) )
var barsWrap = g . select ( '.barsWrap' )
. datum ( dataBars . length ? dataBars : [ { values : [ ] } ] )
var linesWrap = g . select ( '.linesWrap' )
. datum ( dataLines . length ? dataLines : [ { values : [ ] } ] )
d3 . transition ( barsWrap ) . call ( bars ) ;
d3 . transition ( linesWrap ) . call ( lines ) ;
g . attr ( 'transform' , 'translate(' + margin . left + ',' + margin . top + ')' ) ;
xAxis
. ticks ( availableWidth / 100 )
. tickSize ( - availableHeight , 0 ) ;
g . select ( '.x.axis' )
. attr ( 'transform' , 'translate(0,' + y1 . range ( ) [ 0 ] + ')' ) ;
d3 . transition ( g . select ( '.x.axis' ) )
. call ( xAxis ) ;
yAxis1
. ticks ( availableHeight / 36 )
. tickSize ( - availableWidth , 0 ) ;
d3 . transition ( g . select ( '.y1.axis' ) )
. style ( 'opacity' , dataBars . length ? 1 : 0 )
. call ( yAxis1 ) ;
yAxis2
. ticks ( availableHeight / 36 )
. tickSize ( dataBars . length ? 0 : - availableWidth , 0 ) ; // Show the y2 rules only if y1 has none
g . select ( '.y2.axis' )
. style ( 'opacity' , dataLines . length ? 1 : 0 )
. attr ( 'transform' , 'translate(' + x . range ( ) [ 1 ] + ',0)' ) ;
d3 . transition ( g . select ( '.y2.axis' ) )
. call ( yAxis2 ) ;
legend . dispatch . on ( 'legendClick' , function ( d , i ) {
d . disabled = ! d . disabled ;
if ( ! data . filter ( function ( d ) { return ! d . disabled } ) . length ) {
data . map ( function ( d ) {
d . disabled = false ;
wrap . selectAll ( '.series' ) . classed ( 'disabled' , false ) ;
return d ;
} ) ;
}
selection . transition ( ) . call ( chart ) ;
} ) ;
lines . dispatch . on ( 'elementMouseover.tooltip' , function ( e ) {
e . pos = [ e . pos [ 0 ] + margin . left , e . pos [ 1 ] + margin . top ] ;
dispatch . tooltipShow ( e ) ;
} ) ;
if ( tooltips ) dispatch . on ( 'tooltipShow' , function ( e ) { showTooltip ( e , that . parentNode ) } ) ; // TODO: maybe merge with above?
lines . dispatch . on ( 'elementMouseout.tooltip' , function ( e ) {
dispatch . tooltipHide ( e ) ;
} ) ;
if ( tooltips ) dispatch . on ( 'tooltipHide' , nv . tooltip . cleanup ) ;
bars . dispatch . on ( 'elementMouseover.tooltip' , function ( e ) {
e . pos = [ e . pos [ 0 ] + margin . left , e . pos [ 1 ] + margin . top ] ;
dispatch . tooltipShow ( e ) ;
} ) ;
if ( tooltips ) dispatch . on ( 'tooltipShow' , function ( e ) { showTooltip ( e , that . parentNode ) } ) ; // TODO: maybe merge with above?
bars . dispatch . on ( 'elementMouseout.tooltip' , function ( e ) {
dispatch . tooltipHide ( e ) ;
} ) ;
if ( tooltips ) dispatch . on ( 'tooltipHide' , nv . tooltip . cleanup ) ;
chart . update = function ( ) { selection . transition ( ) . call ( chart ) } ;
chart . container = this ; // I need a reference to the container in order to have outside code check if the chart is visible or not
} ) ;
return chart ;
}
chart . dispatch = dispatch ;
chart . legend = legend ;
chart . lines = lines ;
chart . bars = bars ;
chart . xAxis = xAxis ;
chart . yAxis1 = yAxis1 ;
chart . yAxis2 = yAxis2 ;
d3 . rebind ( chart , lines , 'defined' , 'size' , 'clipVoronoi' , 'interpolate' ) ;
//TODO: consider rebinding x, y and some other stuff, and simply do soemthign lile bars.x(lines.x()), etc.
//d3.rebind(chart, lines, 'x', 'y', 'size', 'xDomain', 'yDomain', 'forceX', 'forceY', 'interactive', 'clipEdge', 'clipVoronoi', 'id');
//d3.rebind(chart, lines, 'interactive');
//consider rebinding x and y as well
chart . x = function ( _ ) {
if ( ! arguments . length ) return getX ;
getX = _ ;
lines . x ( _ ) ;
bars . x ( _ ) ;
return chart ;
} ;
chart . y = function ( _ ) {
if ( ! arguments . length ) return getY ;
getY = _ ;
lines . y ( _ ) ;
bars . y ( _ ) ;
return chart ;
} ;
chart . margin = function ( _ ) {
if ( ! arguments . length ) return margin ;
margin = _ ;
return chart ;
} ;
chart . width = function ( _ ) {
if ( ! arguments . length ) return width ;
width = _ ;
return chart ;
} ;
chart . height = function ( _ ) {
if ( ! arguments . length ) return height ;
height = _ ;
return chart ;
} ;
chart . color = function ( _ ) {
if ( ! arguments . length ) return color ;
color = _ ;
legend . color ( _ ) ;
return chart ;
} ;
chart . showLegend = function ( _ ) {
if ( ! arguments . length ) return showLegend ;
showLegend = _ ;
return chart ;
} ;
chart . tooltips = function ( _ ) {
if ( ! arguments . length ) return tooltips ;
tooltips = _ ;
return chart ;
} ;
chart . tooltipContent = function ( _ ) {
if ( ! arguments . length ) return tooltip ;
tooltip = _ ;
return chart ;
} ;
return chart ;
}
nv . models . lineWithFocusChart = function ( ) {
var margin = { top : 30 , right : 20 , bottom : 50 , left : 60 } ,
margin2 = { top : 0 , right : 20 , bottom : 20 , left : 60 } ,
color = d3 . scale . category20 ( ) . range ( ) ,
width = null ,
height = null ,
height2 = 100 ,
showLegend = true ,
tooltips = true ,
tooltip = function ( key , x , y , e , graph ) {
return '<h3>' + key + '</h3>' +
'<p>' + y + ' at ' + x + '</p>'
} ;
var lines = nv . models . line ( ) . clipEdge ( true ) ,
lines2 = nv . models . line ( ) . interactive ( false ) ,
x = lines . xScale ( ) ,
y = lines . yScale ( ) ,
x2 = lines2 . xScale ( ) ,
y2 = lines2 . yScale ( ) ,
xAxis = nv . models . axis ( ) . scale ( x ) . orient ( 'bottom' ) . tickPadding ( 5 ) ,
yAxis = nv . models . axis ( ) . scale ( y ) . orient ( 'left' ) ,
x2Axis = nv . models . axis ( ) . scale ( x ) . orient ( 'bottom' ) . tickPadding ( 5 ) ,
y2Axis = nv . models . axis ( ) . scale ( y2 ) . orient ( 'left' ) ,
legend = nv . models . legend ( ) . height ( 30 ) ,
dispatch = d3 . dispatch ( 'tooltipShow' , 'tooltipHide' ) ,
brush = d3 . svg . brush ( ) . x ( x2 ) ;
var showTooltip = function ( e , offsetElement ) {
var left = e . pos [ 0 ] + ( offsetElement . offsetLeft || 0 ) ,
top = e . pos [ 1 ] + ( offsetElement . offsetTop || 0 ) ,
x = xAxis . tickFormat ( ) ( lines . x ( ) ( e . point , e . pointIndex ) ) ,
y = yAxis . tickFormat ( ) ( lines . y ( ) ( e . point , e . pointIndex ) ) ,
content = tooltip ( e . series . key , x , y , e , chart ) ;
nv . tooltip . show ( [ left , top ] , content ) ;
} ;
function chart ( selection ) {
selection . each ( function ( data ) {
var container = d3 . select ( this ) ,
that = this ;
var availableWidth = ( width || parseInt ( container . style ( 'width' ) ) || 960 )
- margin . left - margin . right ,
availableHeight = ( height || parseInt ( container . style ( 'height' ) ) || 400 )
- margin . top - margin . bottom - height2 ,
availableHeight2 = height2 - margin2 . top - margin2 . bottom ;
brush . on ( 'brush' , onBrush ) ;
var wrap = container . selectAll ( 'g.wrap.lineWithFocusChart' ) . data ( [ data ] ) ;
var gEnter = wrap . enter ( ) . append ( 'g' ) . attr ( 'class' , 'wrap nvd3 lineWithFocusChart' ) . append ( 'g' ) ;
var focusEnter = gEnter . append ( 'g' ) . attr ( 'class' , 'focus' ) ;
focusEnter . append ( 'g' ) . attr ( 'class' , 'x axis' ) ;
focusEnter . append ( 'g' ) . attr ( 'class' , 'y axis' ) ;
focusEnter . append ( 'g' ) . attr ( 'class' , 'linesWrap' ) ;
var contextEnter = gEnter . append ( 'g' ) . attr ( 'class' , 'context' ) ;
contextEnter . append ( 'g' ) . attr ( 'class' , 'x axis' ) ;
contextEnter . append ( 'g' ) . attr ( 'class' , 'y axis' ) ;
contextEnter . append ( 'g' ) . attr ( 'class' , 'linesWrap' ) ;
contextEnter . append ( 'g' ) . attr ( 'class' , 'x brush' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'legendWrap' ) ;
var g = wrap . select ( 'g' ) ;
if ( showLegend ) {
legend . width ( availableWidth ) ;
g . select ( '.legendWrap' )
. datum ( data )
. call ( legend ) ;
if ( margin . top != legend . height ( ) ) {
margin . top = legend . height ( ) ;
availableHeight = ( height || parseInt ( container . style ( 'height' ) ) || 400 )
- margin . top - margin . bottom ;
}
g . select ( '.legendWrap' )
. attr ( 'transform' , 'translate(0,' + ( - margin . top ) + ')' )
}
lines
. width ( availableWidth )
. height ( availableHeight )
. color ( data . map ( function ( d , i ) {
return d . color || color [ i % color . length ] ;
} ) . filter ( function ( d , i ) { return ! data [ i ] . disabled } ) ) ;
lines2
. defined ( lines . defined ( ) )
. width ( availableWidth )
. height ( availableHeight2 )
. x ( lines . x ( ) )
. y ( lines . y ( ) )
. color ( data . map ( function ( d , i ) {
return d . color || color [ i % color . length ] ;
} ) . filter ( function ( d , i ) { return ! data [ i ] . disabled } ) ) ;
g . attr ( 'transform' , 'translate(' + margin . left + ',' + margin . top + ')' ) ;
var focusLinesWrap = g . select ( '.focus .linesWrap' )
. datum ( data . filter ( function ( d ) { return ! d . disabled } ) )
d3 . transition ( focusLinesWrap ) . call ( lines ) ;
xAxis
. ticks ( availableWidth / 100 )
. tickSize ( - availableHeight , 0 ) ;
g . select ( '.focus .x.axis' )
. attr ( 'transform' , 'translate(0,' + y . range ( ) [ 0 ] + ')' ) ;
d3 . transition ( g . select ( '.focus .x.axis' ) )
. call ( xAxis ) ;
yAxis
. ticks ( availableHeight / 36 )
. tickSize ( - availableWidth , 0 ) ;
d3 . transition ( g . select ( '.focus .y.axis' ) )
. call ( yAxis ) ;
g . select ( '.context' )
. attr ( 'transform' , 'translate(0,' + ( availableHeight + margin . bottom + margin2 . top ) + ')' )
var contextLinesWrap = g . select ( '.context .linesWrap' )
. datum ( data . filter ( function ( d ) { return ! d . disabled } ) )
d3 . transition ( contextLinesWrap ) . call ( lines2 ) ;
gBrush = g . select ( '.x.brush' )
. call ( brush ) ;
gBrush . selectAll ( 'rect' )
//.attr('y', -5)
. attr ( 'height' , availableHeight2 ) ;
gBrush . selectAll ( ".resize" ) . append ( "path" ) . attr ( "d" , resizePath ) ;
x2Axis
//.tickFormat(xAxis.tickFormat()) //exposing x2Axis so user can set differently
. ticks ( availableWidth / 100 )
. tickSize ( - availableHeight2 , 0 ) ;
g . select ( '.context .x.axis' )
. attr ( 'transform' , 'translate(0,' + y2 . range ( ) [ 0 ] + ')' ) ;
d3 . transition ( g . select ( '.context .x.axis' ) )
. call ( x2Axis ) ;
y2Axis
//.tickFormat(yAxis.tickFormat()) //exposing y2Axis so user can set differently
. ticks ( availableHeight2 / 36 )
. tickSize ( - availableWidth , 0 ) ;
d3 . transition ( g . select ( '.context .y.axis' ) )
. call ( y2Axis ) ;
updateFocus ( ) ;
legend . dispatch . on ( 'legendClick' , function ( d , i ) {
d . disabled = ! d . disabled ;
if ( ! data . filter ( function ( d ) { return ! d . disabled } ) . length ) {
data . map ( function ( d ) {
d . disabled = false ;
wrap . selectAll ( '.series' ) . classed ( 'disabled' , false ) ;
return d ;
} ) ;
}
selection . transition ( ) . call ( chart ) ;
} ) ;
/ *
//
legend . dispatch . on ( 'legendMouseover' , function ( d , i ) {
d . hover = true ;
selection . transition ( ) . call ( chart )
} ) ;
legend . dispatch . on ( 'legendMouseout' , function ( d , i ) {
d . hover = false ;
selection . transition ( ) . call ( chart )
} ) ;
* /
lines . dispatch . on ( 'elementMouseover.tooltip' , function ( e ) {
e . pos = [ e . pos [ 0 ] + margin . left , e . pos [ 1 ] + margin . top ] ;
dispatch . tooltipShow ( e ) ;
} ) ;
if ( tooltips ) dispatch . on ( 'tooltipShow' , function ( e ) { showTooltip ( e , that . parentNode ) } ) ; // TODO: maybe merge with above?
lines . dispatch . on ( 'elementMouseout.tooltip' , function ( e ) {
dispatch . tooltipHide ( e ) ;
} ) ;
if ( tooltips ) dispatch . on ( 'tooltipHide' , nv . tooltip . cleanup ) ;
// Taken from crossfilter (http://square.github.com/crossfilter/)
function resizePath ( d ) {
var e = + ( d == "e" ) ,
x = e ? 1 : - 1 ,
y = availableHeight2 / 3 ;
return "M" + ( . 5 * x ) + "," + y
+ "A6,6 0 0 " + e + " " + ( 6.5 * x ) + "," + ( y + 6 )
+ "V" + ( 2 * y - 6 )
+ "A6,6 0 0 " + e + " " + ( . 5 * x ) + "," + ( 2 * y )
+ "Z"
+ "M" + ( 2.5 * x ) + "," + ( y + 8 )
+ "V" + ( 2 * y - 8 )
+ "M" + ( 4.5 * x ) + "," + ( y + 8 )
+ "V" + ( 2 * y - 8 ) ;
}
function onBrush ( ) {
updateFocus ( ) ;
focusLinesWrap . call ( lines )
//var focusLinesWrap = g.select('.focus .linesWrap')
g . select ( '.focus .x.axis' ) . call ( xAxis ) ;
g . select ( '.focus .y.axis' ) . call ( yAxis ) ;
}
function updateFocus ( ) {
var yDomain = brush . empty ( ) ? y2 . domain ( ) : d3 . extent ( d3 . merge ( data . filter ( function ( d ) { return ! d . disabled } ) . map ( function ( d ) { return d . values } ) ) . filter ( function ( d ) {
return lines . x ( ) ( d ) >= brush . extent ( ) [ 0 ] && lines . x ( ) ( d ) <= brush . extent ( ) [ 1 ] ;
} ) , lines . y ( ) ) ; //This doesn't account for the 1 point before and the 1 point after the domain. Would fix, but likely need to change entire methodology here
if ( typeof yDomain [ 0 ] == 'undefined' ) yDomain = y2 . domain ( ) ; //incase the brush doesn't cover a single point
x . domain ( brush . empty ( ) ? x2 . domain ( ) : brush . extent ( ) ) ;
y . domain ( yDomain ) ;
//TODO: Rethink this... performance is horrible, likely need to cut off focus data to within the range
// If I limit the data for focusLines would want to include 1 point before and after the extent,
// Need to figure out an optimized way to accomplish this.
// ***One concern is to try not to make the assumption that all lines are of the same length, and
// points with the same index have the same x value (while this is true in our test cases, may
// not always be)
lines . xDomain ( x . domain ( ) ) ;
lines . yDomain ( y . domain ( ) ) ;
}
} ) ;
//TODO: decide if this is a good idea, and if it should be in all models
chart . update = function ( ) { chart ( selection ) } ;
chart . container = this ; // I need a reference to the container in order to have outside code check if the chart is visible or not
return chart ;
}
chart . dispatch = dispatch ;
chart . legend = legend ;
chart . xAxis = xAxis ;
chart . yAxis = yAxis ;
chart . x2Axis = x2Axis ;
chart . y2Axis = y2Axis ;
d3 . rebind ( chart , lines , 'defined' , 'isArea' , 'x' , 'y' , 'size' , 'xDomain' , 'yDomain' , 'forceX' , 'forceY' , 'interactive' , 'clipEdge' , 'clipVoronoi' , 'id' ) ;
chart . margin = function ( _ ) {
if ( ! arguments . length ) return margin ;
margin = _ ;
return chart ;
} ;
chart . width = function ( _ ) {
if ( ! arguments . length ) return width ;
width = _ ;
return chart ;
} ;
chart . height = function ( _ ) {
if ( ! arguments . length ) return height ;
height = _ ;
return chart ;
} ;
chart . color = function ( _ ) {
if ( ! arguments . length ) return color ;
color = _ ;
legend . color ( _ ) ;
return chart ;
} ;
chart . showLegend = function ( _ ) {
if ( ! arguments . length ) return showLegend ;
showLegend = _ ;
return chart ;
} ;
chart . tooltips = function ( _ ) {
if ( ! arguments . length ) return tooltips ;
tooltips = _ ;
return chart ;
} ;
chart . tooltipContent = function ( _ ) {
if ( ! arguments . length ) return tooltip ;
tooltip = _ ;
return chart ;
} ;
chart . interpolate = function ( _ ) {
if ( ! arguments . length ) return lines . interpolate ( ) ;
lines . interpolate ( _ ) ;
lines2 . interpolate ( _ ) ;
return chart ;
} ;
return chart ;
}
nv . models . multiBar = function ( ) {
//============================================================
// Public Variables with Default Settings
//------------------------------------------------------------
var margin = { top : 0 , right : 0 , bottom : 0 , left : 0 } ,
width = 960 ,
height = 500 ,
x = d3 . scale . ordinal ( ) ,
y = d3 . scale . linear ( ) ,
id = Math . floor ( Math . random ( ) * 10000 ) , //Create semi-unique ID in case user doesn't select one
getX = function ( d ) { return d . x } ,
getY = function ( d ) { return d . y } ,
forceY = [ 0 ] , // 0 is forced by default.. this makes sense for the majority of bar graphs... user can always do chart.forceY([]) to remove
clipEdge = true ,
stacked = false ,
color = d3 . scale . category20 ( ) . range ( ) ,
delay = 1200 ,
xDomain , yDomain ;
//============================================================
// Private Variables
//------------------------------------------------------------
//var x = d3.scale.linear(),
var dispatch = d3 . dispatch ( 'chartClick' , 'elementClick' , 'elementDblClick' , 'elementMouseover' , 'elementMouseout' ) ,
x0 , y0 ;
function chart ( selection ) {
selection . each ( function ( data ) {
var availableWidth = width - margin . left - margin . right ,
availableHeight = height - margin . top - margin . bottom ;
if ( stacked ) {
//var stackedData = d3.layout.stack()
data = d3 . layout . stack ( )
. offset ( 'zero' )
. values ( function ( d ) { return d . values } )
. y ( getY )
( data ) ;
}
//add series index to each data point for reference
data = data . map ( function ( series , i ) {
series . values = series . values . map ( function ( point ) {
point . series = i ;
return point ;
} ) ;
return series ;
} ) ;
var seriesData = ( xDomain && yDomain ) ? [ ] : // if we know xDomain and yDomain, no need to calculate
data . map ( function ( d ) {
return d . values . map ( function ( d , i ) {
return { x : getX ( d , i ) , y : getY ( d , i ) , y0 : d . y0 }
} )
} ) ;
x . domain ( d3 . merge ( seriesData ) . map ( function ( d ) { return d . x } ) )
. rangeBands ( [ 0 , availableWidth ] , . 1 ) ;
y . domain ( yDomain || d3 . extent ( d3 . merge ( seriesData ) . map ( function ( d ) { return d . y + ( stacked ? d . y0 : 0 ) } ) . concat ( forceY ) ) )
. range ( [ availableHeight , 0 ] ) ;
// If scale's domain don't have a range, slightly adjust to make one... so a chart can show a single data point
if ( x . domain ( ) [ 0 ] === x . domain ( ) [ 1 ] || y . domain ( ) [ 0 ] === y . domain ( ) [ 1 ] ) singlePoint = true ;
if ( x . domain ( ) [ 0 ] === x . domain ( ) [ 1 ] )
x . domain ( ) [ 0 ] ?
x . domain ( [ x . domain ( ) [ 0 ] - x . domain ( ) [ 0 ] * 0.01 , x . domain ( ) [ 1 ] + x . domain ( ) [ 1 ] * 0.01 ] )
: x . domain ( [ - 1 , 1 ] ) ;
nv . log ( y . domain ( ) ) ;
if ( y . domain ( ) [ 0 ] === y . domain ( ) [ 1 ] )
y . domain ( ) [ 0 ] ?
y . domain ( [ y . domain ( ) [ 0 ] + y . domain ( ) [ 0 ] * 0.01 , y . domain ( ) [ 1 ] - y . domain ( ) [ 1 ] * 0.01 ] )
: y . domain ( [ - 1 , 1 ] ) ;
//store old scales if they exist
x0 = x0 || x ;
y0 = y0 || y ;
var wrap = d3 . select ( this ) . selectAll ( 'g.wrap.multibar' ) . data ( [ data ] ) ;
var wrapEnter = wrap . enter ( ) . append ( 'g' ) . attr ( 'class' , 'wrap nvd3 multibar' ) ;
var defsEnter = wrapEnter . append ( 'defs' ) ;
var gEnter = wrapEnter . append ( 'g' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'groups' ) ;
var g = wrap . select ( 'g' )
wrap . attr ( 'transform' , 'translate(' + margin . left + ',' + margin . top + ')' ) ;
defsEnter . append ( 'clipPath' )
. attr ( 'id' , 'edge-clip-' + id )
. append ( 'rect' ) ;
wrap . select ( '#edge-clip-' + id + ' rect' )
. attr ( 'width' , availableWidth )
. attr ( 'height' , availableHeight ) ;
g . attr ( 'clip-path' , clipEdge ? 'url(#edge-clip-' + id + ')' : '' ) ;
var groups = wrap . select ( '.groups' ) . selectAll ( '.group' )
. data ( function ( d ) { return d } , function ( d ) { return d . key } ) ;
groups . enter ( ) . append ( 'g' )
. style ( 'stroke-opacity' , 1e-6 )
. style ( 'fill-opacity' , 1e-6 ) ;
d3 . transition ( groups . exit ( ) )
//.style('stroke-opacity', 1e-6)
//.style('fill-opacity', 1e-6)
. selectAll ( 'rect.bar' )
. delay ( function ( d , i ) { return i * delay / data [ 0 ] . values . length } )
. attr ( 'y' , function ( d ) { return stacked ? y0 ( d . y0 ) : y0 ( 0 ) } )
. attr ( 'height' , 0 )
. remove ( ) ;
groups
. attr ( 'class' , function ( d , i ) { return 'group series-' + i } )
. classed ( 'hover' , function ( d ) { return d . hover } )
. style ( 'fill' , function ( d , i ) { return color [ i % color . length ] } )
. style ( 'stroke' , function ( d , i ) { return color [ i % color . length ] } ) ;
d3 . transition ( groups )
. style ( 'stroke-opacity' , 1 )
. style ( 'fill-opacity' , . 75 ) ;
var bars = groups . selectAll ( 'rect.bar' )
. data ( function ( d ) { return d . values } ) ;
bars . exit ( ) . remove ( ) ;
var barsEnter = bars . enter ( ) . append ( 'rect' )
. attr ( 'class' , function ( d , i ) { return getY ( d , i ) < 0 ? 'bar negative' : 'bar positive' } )
. attr ( 'x' , function ( d , i , j ) {
return stacked ? 0 : ( j * x . rangeBand ( ) / data . length )
} )
. attr ( 'y' , function ( d ) { return y0 ( stacked ? d . y0 : 0 ) } )
. attr ( 'height' , 0 )
. attr ( 'width' , x . rangeBand ( ) / ( stacked ? 1 : data . length ) ) ;
bars
. on ( 'mouseover' , function ( d , i ) { //TODO: figure out why j works above, but not here
d3 . select ( this ) . classed ( 'hover' , true ) ;
dispatch . elementMouseover ( {
value : getY ( d , i ) ,
point : d ,
series : data [ d . series ] ,
pos : [ x ( getX ( d , i ) ) + ( x . rangeBand ( ) * ( stacked ? data . length / 2 : d . series + . 5 ) / data . length ) , y ( getY ( d , i ) + ( stacked ? d . y0 : 0 ) ) ] , // TODO: Figure out why the value appears to be shifted
pointIndex : i ,
seriesIndex : d . series ,
e : d3 . event
} ) ;
} )
. on ( 'mouseout' , function ( d , i ) {
d3 . select ( this ) . classed ( 'hover' , false ) ;
dispatch . elementMouseout ( {
value : getY ( d , i ) ,
point : d ,
series : data [ d . series ] ,
pointIndex : i ,
seriesIndex : d . series ,
e : d3 . event
} ) ;
} )
. on ( 'click' , function ( d , i ) {
dispatch . elementClick ( {
value : getY ( d , i ) ,
point : d ,
series : data [ d . series ] ,
pos : [ x ( getX ( d , i ) ) + ( x . rangeBand ( ) * ( stacked ? data . length / 2 : d . series + . 5 ) / data . length ) , y ( getY ( d , i ) + ( stacked ? d . y0 : 0 ) ) ] , // TODO: Figure out why the value appears to be shifted
pointIndex : i ,
seriesIndex : d . series ,
e : d3 . event
} ) ;
d3 . event . stopPropagation ( ) ;
} )
. on ( 'dblclick' , function ( d , i ) {
dispatch . elementDblClick ( {
value : getY ( d , i ) ,
point : d ,
series : data [ d . series ] ,
pos : [ x ( getX ( d , i ) ) + ( x . rangeBand ( ) * ( stacked ? data . length / 2 : d . series + . 5 ) / data . length ) , y ( getY ( d , i ) + ( stacked ? d . y0 : 0 ) ) ] , // TODO: Figure out why the value appears to be shifted
pointIndex : i ,
seriesIndex : d . series ,
e : d3 . event
} ) ;
d3 . event . stopPropagation ( ) ;
} ) ;
bars
. attr ( 'class' , function ( d , i ) { return getY ( d , i ) < 0 ? 'bar negative' : 'bar positive' } )
. attr ( 'transform' , function ( d , i ) { return 'translate(' + x ( getX ( d , i ) ) + ',0)' ; } )
if ( stacked )
d3 . transition ( bars )
. delay ( function ( d , i ) { return i * delay / data [ 0 ] . values . length } )
. attr ( 'y' , function ( d , i ) {
return y ( getY ( d , i ) + ( stacked ? d . y0 : 0 ) ) ;
} )
. attr ( 'height' , function ( d , i ) {
return Math . abs ( y ( d . y + ( stacked ? d . y0 : 0 ) ) - y ( ( stacked ? d . y0 : 0 ) ) )
} )
. each ( 'end' , function ( ) {
d3 . transition ( d3 . select ( this ) )
. attr ( 'x' , function ( d , i ) {
return stacked ? 0 : ( d . series * x . rangeBand ( ) / data . length )
} )
. attr ( 'width' , x . rangeBand ( ) / ( stacked ? 1 : data . length ) ) ;
} )
else
d3 . transition ( bars )
. delay ( function ( d , i ) { return i * delay / data [ 0 ] . values . length } )
. attr ( 'x' , function ( d , i ) {
return d . series * x . rangeBand ( ) / data . length
} )
. attr ( 'width' , x . rangeBand ( ) / data . length )
. each ( 'end' , function ( ) {
d3 . transition ( d3 . select ( this ) )
. attr ( 'y' , function ( d , i ) {
return getY ( d , i ) < 0 ?
y ( 0 ) :
y ( getY ( d , i ) )
} )
. attr ( 'height' , function ( d , i ) {
return Math . abs ( y ( getY ( d , i ) ) - y ( 0 ) )
} ) ;
} )
//TODO: decide if this makes sense to add into all the models for ease of updating (updating without needing the selection)
chart . update = function ( ) { chart ( selection ) } ;
//store old scales for use in transitions on update
x0 = x . copy ( ) ;
y0 = y . copy ( ) ;
} ) ;
return chart ;
}
//============================================================
// Global getters and setters
//------------------------------------------------------------
chart . dispatch = dispatch ;
chart . x = function ( _ ) {
if ( ! arguments . length ) return getX ;
getX = _ ;
return chart ;
} ;
chart . y = function ( _ ) {
if ( ! arguments . length ) return getY ;
getY = _ ;
return chart ;
} ;
chart . margin = function ( _ ) {
if ( ! arguments . length ) return margin ;
margin = _ ;
return chart ;
} ;
chart . width = function ( _ ) {
if ( ! arguments . length ) return width ;
width = _ ;
return chart ;
} ;
chart . height = function ( _ ) {
if ( ! arguments . length ) return height ;
height = _ ;
return chart ;
} ;
chart . xScale = function ( _ ) {
if ( ! arguments . length ) return x ;
x = _ ;
return chart ;
} ;
chart . yScale = function ( _ ) {
if ( ! arguments . length ) return y ;
y = _ ;
return chart ;
} ;
chart . xDomain = function ( _ ) {
if ( ! arguments . length ) return xDomain ;
xDomain = _ ;
return chart ;
} ;
chart . yDomain = function ( _ ) {
if ( ! arguments . length ) return yDomain ;
yDomain = _ ;
return chart ;
} ;
chart . forceY = function ( _ ) {
if ( ! arguments . length ) return forceY ;
forceY = _ ;
return chart ;
} ;
chart . stacked = function ( _ ) {
if ( ! arguments . length ) return stacked ;
stacked = _ ;
return chart ;
} ;
chart . clipEdge = function ( _ ) {
if ( ! arguments . length ) return clipEdge ;
clipEdge = _ ;
return chart ;
} ;
chart . color = function ( _ ) {
if ( ! arguments . length ) return color ;
color = _ ;
return chart ;
} ;
chart . id = function ( _ ) {
if ( ! arguments . length ) return id ;
id = _ ;
return chart ;
} ;
chart . delay = function ( _ ) {
if ( ! arguments . length ) return delay ;
delay = _ ;
return chart ;
} ;
return chart ;
}
nv . models . multiBarChart = function ( ) {
//============================================================
// Public Variables with Default Settings
//------------------------------------------------------------
var margin = { top : 30 , right : 20 , bottom : 50 , left : 60 } ,
width = null ,
height = null ,
color = d3 . scale . category20 ( ) . range ( ) ,
showControls = true ,
showLegend = true ,
reduceXTicks = true , // if false a tick will show for every data point
tooltips = true ,
tooltip = function ( key , x , y , e , graph ) {
return '<h3>' + key + '</h3>' +
'<p>' + y + ' on ' + x + '</p>'
} ,
x , y ; //can be accessed via chart.multibar.[x/y]Scale()
//============================================================
// Private Variables
//------------------------------------------------------------
var multibar = nv . models . multiBar ( ) . stacked ( false ) ,
xAxis = nv . models . axis ( ) . orient ( 'bottom' ) . highlightZero ( false ) . showMaxMin ( false ) , //TODO: see why showMaxMin(false) causes no ticks to be shown on x axis
yAxis = nv . models . axis ( ) . orient ( 'left' ) ,
legend = nv . models . legend ( ) . height ( 30 ) ,
controls = nv . models . legend ( ) . height ( 30 ) ,
dispatch = d3 . dispatch ( 'tooltipShow' , 'tooltipHide' ) ;
xAxis . tickFormat ( function ( d ) { return d } ) ;
yAxis . tickFormat ( d3 . format ( ',.1f' ) ) ;
var showTooltip = function ( e , offsetElement ) {
var left = e . pos [ 0 ] + ( offsetElement . offsetLeft || 0 ) ,
top = e . pos [ 1 ] + ( offsetElement . offsetTop || 0 ) ,
x = xAxis . tickFormat ( ) ( multibar . x ( ) ( e . point , e . pointIndex ) ) ,
y = yAxis . tickFormat ( ) ( multibar . y ( ) ( e . point , e . pointIndex ) ) ,
content = tooltip ( e . series . key , x , y , e , chart ) ;
nv . tooltip . show ( [ left , top ] , content , e . value < 0 ? 'n' : 's' ) ;
} ;
function chart ( selection ) {
selection . each ( function ( data ) {
var container = d3 . select ( this ) ,
that = this ;
var availableWidth = ( width || parseInt ( container . style ( 'width' ) ) || 960 )
- margin . left - margin . right ,
availableHeight = ( height || parseInt ( container . style ( 'height' ) ) || 400 )
- margin . top - margin . bottom ;
x = multibar . xScale ( ) ;
y = multibar . yScale ( ) ;
var wrap = container . selectAll ( 'g.wrap.multiBarWithLegend' ) . data ( [ data ] ) ;
var gEnter = wrap . enter ( ) . append ( 'g' ) . attr ( 'class' , 'wrap nvd3 multiBarWithLegend' ) . append ( 'g' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'x axis' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'y axis' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'barsWrap' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'legendWrap' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'controlsWrap' ) ;
var g = wrap . select ( 'g' ) ;
if ( showLegend ) {
legend . width ( availableWidth / 2 ) ;
g . select ( '.legendWrap' )
. datum ( data )
. call ( legend ) ;
if ( margin . top != legend . height ( ) ) {
margin . top = legend . height ( ) ;
availableHeight = ( height || parseInt ( container . style ( 'height' ) ) || 400 )
- margin . top - margin . bottom ;
}
g . select ( '.legendWrap' )
. attr ( 'transform' , 'translate(' + ( availableWidth / 2 ) + ',' + ( - margin . top ) + ')' ) ;
}
multibar
. width ( availableWidth )
. height ( availableHeight )
. color ( data . map ( function ( d , i ) {
return d . color || color [ i % color . length ] ;
} ) . filter ( function ( d , i ) { return ! data [ i ] . disabled } ) )
if ( showControls ) {
var controlsData = [
{ key : 'Grouped' , disabled : multibar . stacked ( ) } ,
{ key : 'Stacked' , disabled : ! multibar . stacked ( ) }
] ;
controls . width ( 180 ) . color ( [ '#444' , '#444' , '#444' ] ) ;
g . select ( '.controlsWrap' )
. datum ( controlsData )
. attr ( 'transform' , 'translate(0,' + ( - margin . top ) + ')' )
. call ( controls ) ;
}
g . attr ( 'transform' , 'translate(' + margin . left + ',' + margin . top + ')' ) ;
var barsWrap = g . select ( '.barsWrap' )
. datum ( data . filter ( function ( d ) { return ! d . disabled } ) )
d3 . transition ( barsWrap ) . call ( multibar ) ;
xAxis
. scale ( x )
. ticks ( availableWidth / 100 )
. tickSize ( - availableHeight , 0 ) ;
g . select ( '.x.axis' )
. attr ( 'transform' , 'translate(0,' + y . range ( ) [ 0 ] + ')' ) ;
d3 . transition ( g . select ( '.x.axis' ) )
. call ( xAxis ) ;
var xTicks = g . select ( '.x.axis > g' ) . selectAll ( 'g' ) ;
xTicks
. selectAll ( 'line, text' )
. style ( 'opacity' , 1 )
if ( reduceXTicks )
xTicks
. filter ( function ( d , i ) {
return i % Math . ceil ( data [ 0 ] . values . length / ( availableWidth / 100 ) ) !== 0 ;
} )
. selectAll ( 'text, line' )
. style ( 'opacity' , 0 ) ;
yAxis
. scale ( y )
. ticks ( availableHeight / 36 )
. tickSize ( - availableWidth , 0 ) ;
d3 . transition ( g . select ( '.y.axis' ) )
. call ( yAxis ) ;
//============================================================
// Event Handling/Dispatching (in chart's scope)
//------------------------------------------------------------
legend . dispatch . on ( 'legendClick' , function ( d , i ) {
d . disabled = ! d . disabled ;
if ( ! data . filter ( function ( d ) { return ! d . disabled } ) . length ) {
data . map ( function ( d ) {
d . disabled = false ;
wrap . selectAll ( '.series' ) . classed ( 'disabled' , false ) ;
return d ;
} ) ;
}
selection . transition ( ) . call ( chart ) ;
} ) ;
controls . dispatch . on ( 'legendClick' , function ( d , i ) {
if ( ! d . disabled ) return ;
controlsData = controlsData . map ( function ( s ) {
s . disabled = true ;
return s ;
} ) ;
d . disabled = false ;
switch ( d . key ) {
case 'Grouped' :
multibar . stacked ( false ) ;
break ;
case 'Stacked' :
multibar . stacked ( true ) ;
break ;
}
selection . transition ( ) . call ( chart ) ;
} ) ;
dispatch . on ( 'tooltipShow' , function ( e ) {
if ( tooltips ) showTooltip ( e , that . parentNode )
} ) ;
chart . update = function ( ) { selection . transition ( ) . call ( chart ) } ;
chart . container = this ; // I need a reference to the container in order to have outside code check if the chart is visible or not
} ) ;
return chart ;
}
//============================================================
// Event Handling/Dispatching (out of chart's scope)
//------------------------------------------------------------
multibar . dispatch . on ( 'elementMouseover.tooltip2' , function ( e ) {
e . pos = [ e . pos [ 0 ] + margin . left , e . pos [ 1 ] + margin . top ] ;
dispatch . tooltipShow ( e ) ;
} ) ;
multibar . dispatch . on ( 'elementMouseout.tooltip' , function ( e ) {
dispatch . tooltipHide ( e ) ;
} ) ;
dispatch . on ( 'tooltipHide' , function ( ) {
if ( tooltips ) nv . tooltip . cleanup ( ) ;
} ) ;
//============================================================
// Global getters and setters
//------------------------------------------------------------
chart . dispatch = dispatch ;
chart . legend = legend ;
chart . xAxis = xAxis ;
chart . yAxis = yAxis ;
d3 . rebind ( chart , multibar , 'x' , 'y' , 'xDomain' , 'yDomain' , 'forceX' , 'forceY' , 'clipEdge' , 'id' , 'stacked' , 'delay' ) ;
chart . margin = function ( _ ) {
if ( ! arguments . length ) return margin ;
margin = _ ;
return chart ;
} ;
chart . width = function ( _ ) {
if ( ! arguments . length ) return width ;
width = _ ;
return chart ;
} ;
chart . height = function ( _ ) {
if ( ! arguments . length ) return height ;
height = _ ;
return chart ;
} ;
chart . color = function ( _ ) {
if ( ! arguments . length ) return color ;
color = _ ;
legend . color ( _ ) ;
return chart ;
} ;
chart . showControls = function ( _ ) {
if ( ! arguments . length ) return showControls ;
showControls = _ ;
return chart ;
} ;
chart . showLegend = function ( _ ) {
if ( ! arguments . length ) return showLegend ;
showLegend = _ ;
return chart ;
} ;
chart . reduceXTicks = function ( _ ) {
if ( ! arguments . length ) return reduceXTicks ;
reduceXTicks = _ ;
return chart ;
} ;
chart . tooltips = function ( _ ) {
if ( ! arguments . length ) return tooltips ;
tooltips = _ ;
return chart ;
} ;
chart . tooltipContent = function ( _ ) {
if ( ! arguments . length ) return tooltip ;
tooltip = _ ;
return chart ;
} ;
return chart ;
}
nv . models . multiBarHorizontal = function ( ) {
var margin = { top : 0 , right : 0 , bottom : 0 , left : 0 } ,
width = 960 ,
height = 500 ,
id = Math . floor ( Math . random ( ) * 10000 ) , //Create semi-unique ID in case user doesn't select one
x = d3 . scale . ordinal ( ) ,
y = d3 . scale . linear ( ) ,
getX = function ( d ) { return d . x } ,
getY = function ( d ) { return d . y } ,
forceY = [ 0 ] , // 0 is forced by default.. this makes sense for the majority of bar graphs... user can always do chart.forceY([]) to remove
color = d3 . scale . category20 ( ) . range ( ) ,
stacked = false ,
showValues = false ,
valuePadding = 60 ,
valueFormat = d3 . format ( ',.2f' ) ,
delay = 1200 ,
xDomain , yDomain ,
x0 , y0 ;
var dispatch = d3 . dispatch ( 'chartClick' , 'elementClick' , 'elementDblClick' , 'elementMouseover' , 'elementMouseout' ) ;
function chart ( selection ) {
selection . each ( function ( data ) {
var availableWidth = width - margin . left - margin . right ,
availableHeight = height - margin . top - margin . bottom ;
if ( stacked )
data = d3 . layout . stack ( )
. offset ( 'zero' )
. values ( function ( d ) { return d . values } )
. y ( getY )
( data ) ;
//add series index to each data point for reference
data = data . map ( function ( series , i ) {
series . values = series . values . map ( function ( point ) {
point . series = i ;
return point ;
} ) ;
return series ;
} ) ;
var seriesData = ( xDomain && yDomain ) ? [ ] : // if we know xDomain and yDomain, no need to calculate
data . map ( function ( d ) {
return d . values . map ( function ( d , i ) {
return { x : getX ( d , i ) , y : getY ( d , i ) , y0 : d . y0 }
} )
} ) ;
x . domain ( xDomain || d3 . merge ( seriesData ) . map ( function ( d ) { return d . x } ) )
. rangeBands ( [ 0 , availableHeight ] , . 1 ) ;
y . domain ( yDomain || d3 . extent ( d3 . merge ( seriesData ) . map ( function ( d ) { return d . y + ( stacked ? d . y0 : 0 ) } ) . concat ( forceY ) ) )
//.range([0, availableWidth]);
if ( showValues && ! stacked ) y . range ( [ ( y . domain ( ) [ 0 ] < 0 ? valuePadding : 0 ) , availableWidth - ( y . domain ( ) [ 1 ] > 0 ? valuePadding : 0 ) ] ) ;
else y . range ( [ 0 , availableWidth ] ) ;
//store old scales if they exist
x0 = x0 || x ;
//y0 = y0 || y;
y0 = y0 || d3 . scale . linear ( ) . domain ( y . domain ( ) ) . range ( [ y ( 0 ) , y ( 0 ) ] ) ;
var wrap = d3 . select ( this ) . selectAll ( 'g.wrap.multibarHorizontal' ) . data ( [ data ] ) ;
var wrapEnter = wrap . enter ( ) . append ( 'g' ) . attr ( 'class' , 'wrap nvd3 multibarHorizontal' ) ;
var defsEnter = wrapEnter . append ( 'defs' ) ;
var gEnter = wrapEnter . append ( 'g' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'groups' ) ;
var g = wrap . select ( 'g' )
wrap . attr ( 'transform' , 'translate(' + margin . left + ',' + margin . top + ')' ) ;
var groups = wrap . select ( '.groups' ) . selectAll ( '.group' )
. data ( function ( d ) { return d } , function ( d ) { return d . key } ) ;
groups . enter ( ) . append ( 'g' )
. style ( 'stroke-opacity' , 1e-6 )
. style ( 'fill-opacity' , 1e-6 ) ;
d3 . transition ( groups . exit ( ) )
. style ( 'stroke-opacity' , 1e-6 )
. style ( 'fill-opacity' , 1e-6 )
. remove ( ) ;
groups
. attr ( 'class' , function ( d , i ) { return 'group series-' + i } )
. classed ( 'hover' , function ( d ) { return d . hover } )
. style ( 'fill' , function ( d , i ) { return color [ i % color . length ] } )
. style ( 'stroke' , function ( d , i ) { return color [ i % color . length ] } ) ;
d3 . transition ( groups )
. style ( 'stroke-opacity' , 1 )
. style ( 'fill-opacity' , . 75 ) ;
var bars = groups . selectAll ( 'g.bar' )
. data ( function ( d ) { return d . values } ) ;
bars . exit ( ) . remove ( ) ;
var barsEnter = bars . enter ( ) . append ( 'g' )
. attr ( 'transform' , function ( d , i , j ) {
return 'translate(' + y0 ( stacked ? d . y0 : 0 ) + ',' + ( stacked ? 0 : ( j * x . rangeBand ( ) / data . length ) + x ( getX ( d , i ) ) ) + ')'
} ) ;
barsEnter . append ( 'rect' )
. attr ( 'width' , 0 )
. attr ( 'height' , x . rangeBand ( ) / ( stacked ? 1 : data . length ) )
bars
. on ( 'mouseover' , function ( d , i ) { //TODO: figure out why j works above, but not here
d3 . select ( this ) . classed ( 'hover' , true ) ;
dispatch . elementMouseover ( {
value : getY ( d , i ) ,
point : d ,
series : data [ d . series ] ,
pos : [ y ( getY ( d , i ) + ( stacked ? d . y0 : 0 ) ) , x ( getX ( d , i ) ) + ( x . rangeBand ( ) * ( stacked ? data . length / 2 : d . series + . 5 ) / data . length ) ] ,
pointIndex : i ,
seriesIndex : d . series ,
e : d3 . event
} ) ;
} )
. on ( 'mouseout' , function ( d , i ) {
d3 . select ( this ) . classed ( 'hover' , false ) ;
dispatch . elementMouseout ( {
value : getY ( d , i ) ,
point : d ,
series : data [ d . series ] ,
pointIndex : i ,
seriesIndex : d . series ,
e : d3 . event
} ) ;
} )
. on ( 'click' , function ( d , i ) {
dispatch . elementClick ( {
value : getY ( d , i ) ,
point : d ,
series : data [ d . series ] ,
pos : [ x ( getX ( d , i ) ) + ( x . rangeBand ( ) * ( stacked ? data . length / 2 : d . series + . 5 ) / data . length ) , y ( getY ( d , i ) + ( stacked ? d . y0 : 0 ) ) ] , // TODO: Figure out why the value appears to be shifted
pointIndex : i ,
seriesIndex : d . series ,
e : d3 . event
} ) ;
d3 . event . stopPropagation ( ) ;
} )
. on ( 'dblclick' , function ( d , i ) {
dispatch . elementDblClick ( {
value : getY ( d , i ) ,
point : d ,
series : data [ d . series ] ,
pos : [ x ( getX ( d , i ) ) + ( x . rangeBand ( ) * ( stacked ? data . length / 2 : d . series + . 5 ) / data . length ) , y ( getY ( d , i ) + ( stacked ? d . y0 : 0 ) ) ] , // TODO: Figure out why the value appears to be shifted
pointIndex : i ,
seriesIndex : d . series ,
e : d3 . event
} ) ;
d3 . event . stopPropagation ( ) ;
} ) ;
if ( showValues && ! stacked ) {
barsEnter . append ( 'text' )
. attr ( 'text-anchor' , function ( d , i ) { return getY ( d , i ) < 0 ? 'end' : 'start' } )
bars . select ( 'text' )
. attr ( 'y' , x . rangeBand ( ) / 2 )
. attr ( 'dy' , '-.32em' )
. text ( function ( d , i ) { return valueFormat ( getY ( d , i ) ) } )
d3 . transition ( bars )
//.delay(function(d,i) { return i * delay / data[0].values.length })
. select ( 'text' )
. attr ( 'x' , function ( d , i ) { return getY ( d , i ) < 0 ? - 4 : y ( getY ( d , i ) ) - y ( 0 ) + 4 } )
} else {
bars . selectAll ( 'text' ) . remove ( ) ;
}
bars
. attr ( 'class' , function ( d , i ) { return getY ( d , i ) < 0 ? 'bar negative' : 'bar positive' } )
//.attr('transform', function(d,i,j) {
//return 'translate(' + y0(stacked ? d.y0 : 0) + ',' + x(getX(d,i)) + ')'
//})
if ( stacked )
d3 . transition ( bars )
//.delay(function(d,i) { return i * delay / data[0].values.length })
. attr ( 'transform' , function ( d , i ) {
//return 'translate(' + y(d.y0) + ',0)'
return 'translate(' + y ( d . y0 ) + ',' + ( stacked ? 0 : ( j * x . rangeBand ( ) / data . length ) ) + ')'
} )
. select ( 'rect' )
. attr ( 'width' , function ( d , i ) {
return Math . abs ( y ( getY ( d , i ) + d . y0 ) - y ( d . y0 ) )
} )
. attr ( 'height' , x . rangeBand ( ) ) ;
else
d3 . transition ( bars )
//.delay(function(d,i) { return i * delay / data[0].values.length })
. attr ( 'transform' , function ( d , i ) {
//TODO: stacked must be all positive or all negative, not both?
return 'translate(' +
( getY ( d , i ) < 0 ? y ( getY ( d , i ) ) : y ( 0 ) )
+ ',' +
( d . series * x . rangeBand ( ) / data . length
+
x ( getX ( d , i ) ) )
+ ')'
} )
. select ( 'rect' )
. attr ( 'height' , x . rangeBand ( ) / data . length )
. attr ( 'width' , function ( d , i ) {
return Math . abs ( y ( getY ( d , i ) ) - y ( 0 ) )
} ) ;
/ *
if ( stacked )
d3 . transition ( bars )
. delay ( function ( d , i ) { return i * 1000 / data [ 0 ] . values . length } )
. attr ( 'x' , function ( d , i ) {
return y ( d . y0 ) ;
} )
. attr ( 'width' , function ( d , i ) {
return Math . abs ( y ( getY ( d , i ) + d . y0 ) - y ( d . y0 ) )
} )
. each ( 'end' , function ( ) {
d3 . transition ( d3 . select ( this ) )
. attr ( 'y' , function ( d , i ) {
return 0
} )
. attr ( 'height' , x . rangeBand ( ) ) ;
} )
else
d3 . transition ( bars )
. delay ( function ( d , i ) { return i * 1200 / data [ 0 ] . values . length } )
. attr ( 'y' , function ( d , i ) {
return d . series * x . rangeBand ( ) / data . length
} )
. attr ( 'height' , x . rangeBand ( ) / data . length )
. each ( 'end' , function ( ) {
d3 . transition ( d3 . select ( this ) )
. attr ( 'x' , function ( d , i ) {
return getY ( d , i ) < 0 ? //TODO: stacked must be all positive or all negative, not both?
y ( getY ( d , i ) ) :
y ( 0 )
} )
. attr ( 'width' , function ( d , i ) {
return Math . abs ( y ( getY ( d , i ) ) - y ( 0 ) )
} ) ;
} )
* /
//TODO: decide if this makes sense to add into all the models for ease of updating (updating without needing the selection)
chart . update = function ( ) {
selection . transition ( ) . call ( chart ) ;
}
//store old scales for use in transitions on update, to animate from old to new positions, and sizes
x0 = x . copy ( ) ;
y0 = y . copy ( ) ;
} ) ;
return chart ;
}
chart . dispatch = dispatch ;
chart . x = function ( _ ) {
if ( ! arguments . length ) return getX ;
getX = _ ;
return chart ;
} ;
chart . y = function ( _ ) {
if ( ! arguments . length ) return getY ;
getY = _ ;
return chart ;
} ;
chart . margin = function ( _ ) {
if ( ! arguments . length ) return margin ;
margin = _ ;
return chart ;
} ;
chart . width = function ( _ ) {
if ( ! arguments . length ) return width ;
width = _ ;
return chart ;
} ;
chart . height = function ( _ ) {
if ( ! arguments . length ) return height ;
height = _ ;
return chart ;
} ;
chart . xScale = function ( _ ) {
if ( ! arguments . length ) return x ;
x = _ ;
return chart ;
} ;
chart . yScale = function ( _ ) {
if ( ! arguments . length ) return y ;
y = _ ;
return chart ;
} ;
chart . xDomain = function ( _ ) {
if ( ! arguments . length ) return xDomain ;
xDomain = _ ;
return chart ;
} ;
chart . yDomain = function ( _ ) {
if ( ! arguments . length ) return yDomain ;
yDomain = _ ;
return chart ;
} ;
chart . forceY = function ( _ ) {
if ( ! arguments . length ) return forceY ;
forceY = _ ;
return chart ;
} ;
chart . stacked = function ( _ ) {
if ( ! arguments . length ) return stacked ;
stacked = _ ;
return chart ;
} ;
chart . color = function ( _ ) {
if ( ! arguments . length ) return color ;
color = _ ;
return chart ;
} ;
chart . id = function ( _ ) {
if ( ! arguments . length ) return id ;
id = _ ;
return chart ;
} ;
chart . delay = function ( _ ) {
if ( ! arguments . length ) return delay ;
delay = _ ;
return chart ;
} ;
chart . showValues = function ( _ ) {
if ( ! arguments . length ) return showValues ;
showValues = _ ;
return chart ;
} ;
chart . valueFormat = function ( _ ) {
if ( ! arguments . length ) return valueFormat ;
valueFormat = _ ;
return chart ;
} ;
chart . valuePadding = function ( _ ) {
if ( ! arguments . length ) return valuePadding ;
valuePadding = _ ;
return chart ;
} ;
return chart ;
}
nv . models . multiBarHorizontalChart = function ( ) {
var margin = { top : 30 , right : 20 , bottom : 50 , left : 60 } ,
width = null ,
height = null ,
color = d3 . scale . category20 ( ) . range ( ) ,
showControls = true ,
showLegend = true ,
tooltips = true ,
tooltip = function ( key , x , y , e , graph ) {
return '<h3>' + key + " - " + x + '</h3>' +
'<p>' + y + '</p>'
} ;
var multibar = nv . models . multiBarHorizontal ( ) . stacked ( false ) ,
x = multibar . xScale ( ) ,
y = multibar . yScale ( ) ,
xAxis = nv . models . axis ( ) . scale ( x ) . orient ( 'left' ) . highlightZero ( false ) . showMaxMin ( false ) ,
yAxis = nv . models . axis ( ) . scale ( y ) . orient ( 'bottom' ) ,
legend = nv . models . legend ( ) . height ( 30 ) ,
controls = nv . models . legend ( ) . height ( 30 ) ,
dispatch = d3 . dispatch ( 'tooltipShow' , 'tooltipHide' ) ;
xAxis . tickFormat ( function ( d ) { return d } ) ;
yAxis . tickFormat ( d3 . format ( ',.1f' ) ) ;
var showTooltip = function ( e , offsetElement ) {
var left = e . pos [ 0 ] + ( offsetElement . offsetLeft || 0 ) ,
top = e . pos [ 1 ] + ( offsetElement . offsetTop || 0 ) ,
x = xAxis . tickFormat ( ) ( multibar . x ( ) ( e . point , e . pointIndex ) ) ,
y = yAxis . tickFormat ( ) ( multibar . y ( ) ( e . point , e . pointIndex ) ) ,
content = tooltip ( e . series . key , x , y , e , chart ) ;
nv . tooltip . show ( [ left , top ] , content , e . value < 0 ? 'e' : 'w' ) ;
} ;
//TODO: let user select default
var controlsData = [
{ key : 'Grouped' } ,
{ key : 'Stacked' , disabled : true } ,
] ;
function chart ( selection ) {
selection . each ( function ( data ) {
var container = d3 . select ( this ) ,
that = this ;
var availableWidth = ( width || parseInt ( container . style ( 'width' ) ) || 960 )
- margin . left - margin . right ,
availableHeight = ( height || parseInt ( container . style ( 'height' ) ) || 400 )
- margin . top - margin . bottom ;
var wrap = container . selectAll ( 'g.wrap.multiBarHorizontalChart' ) . data ( [ data ] ) ;
var gEnter = wrap . enter ( ) . append ( 'g' ) . attr ( 'class' , 'wrap nvd3 multiBarHorizontalChart' ) . append ( 'g' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'x axis' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'y axis' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'barsWrap' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'legendWrap' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'controlsWrap' ) ;
//TODO: margins should be adjusted based on what components are used: axes, axis labels, legend
margin . top = legend . height ( ) ;
var g = wrap . select ( 'g' ) ;
if ( showLegend ) {
legend . width ( availableWidth / 2 ) ;
g . select ( '.legendWrap' )
. datum ( data )
. call ( legend ) ;
if ( margin . top != legend . height ( ) ) {
margin . top = legend . height ( ) ;
availableHeight = ( height || parseInt ( container . style ( 'height' ) ) || 400 )
- margin . top - margin . bottom ;
}
g . select ( '.legendWrap' )
. attr ( 'transform' , 'translate(' + ( availableWidth / 2 ) + ',' + ( - margin . top ) + ')' )
}
multibar
. width ( availableWidth )
. height ( availableHeight )
. color ( data . map ( function ( d , i ) {
return d . color || color [ i % color . length ] ;
} ) . filter ( function ( d , i ) { return ! data [ i ] . disabled } ) )
if ( showControls ) {
controls . width ( 180 ) . color ( [ '#444' , '#444' , '#444' ] ) ;
g . select ( '.controlsWrap' )
. datum ( controlsData )
. attr ( 'transform' , 'translate(0,' + ( - margin . top ) + ')' )
. call ( controls ) ;
}
g . attr ( 'transform' , 'translate(' + margin . left + ',' + margin . top + ')' ) ;
var barsWrap = g . select ( '.barsWrap' )
. datum ( data . filter ( function ( d ) { return ! d . disabled } ) )
d3 . transition ( barsWrap ) . call ( multibar ) ;
xAxis
. ticks ( availableHeight / 24 )
. tickSize ( - availableWidth , 0 ) ;
//d3.transition(g.select('.x.axis'))
g . select ( '.x.axis' ) . transition ( ) . duration ( 0 )
. call ( xAxis ) ;
var xTicks = g . select ( '.x.axis' ) . selectAll ( 'g' ) ;
xTicks
. selectAll ( 'line, text' )
. style ( 'opacity' , 1 )
/ *
//I think this was just leaft over from the multiBar chart this was built from.. commented to maek sure
xTicks . filter ( function ( d , i ) {
return i % Math . ceil ( data [ 0 ] . values . length / ( availableWidth / 100 ) ) !== 0 ;
} )
. selectAll ( 'line, text' )
. style ( 'opacity' , 0 )
* /
yAxis
. ticks ( availableWidth / 100 )
. tickSize ( - availableHeight , 0 ) ;
g . select ( '.y.axis' )
. attr ( 'transform' , 'translate(0,' + availableHeight + ')' ) ;
d3 . transition ( g . select ( '.y.axis' ) )
//g.select('.y.axis').transition().duration(0)
. call ( yAxis ) ;
legend . dispatch . on ( 'legendClick' , function ( d , i ) {
d . disabled = ! d . disabled ;
if ( ! data . filter ( function ( d ) { return ! d . disabled } ) . length ) {
data . map ( function ( d ) {
d . disabled = false ;
wrap . selectAll ( '.series' ) . classed ( 'disabled' , false ) ;
return d ;
} ) ;
}
selection . transition ( ) . call ( chart ) ;
} ) ;
controls . dispatch . on ( 'legendClick' , function ( d , i ) {
if ( ! d . disabled ) return ;
controlsData = controlsData . map ( function ( s ) {
s . disabled = true ;
return s ;
} ) ;
d . disabled = false ;
switch ( d . key ) {
case 'Grouped' :
multibar . stacked ( false ) ;
break ;
case 'Stacked' :
multibar . stacked ( true ) ;
break ;
}
selection . transition ( ) . call ( chart ) ;
} ) ;
multibar . dispatch . on ( 'elementMouseover.tooltip' , function ( e ) {
e . pos = [ e . pos [ 0 ] + margin . left , e . pos [ 1 ] + margin . top ] ;
dispatch . tooltipShow ( e ) ;
} ) ;
if ( tooltips ) dispatch . on ( 'tooltipShow' , function ( e ) { showTooltip ( e , that . parentNode ) } ) ; // TODO: maybe merge with above?
multibar . dispatch . on ( 'elementMouseout.tooltip' , function ( e ) {
dispatch . tooltipHide ( e ) ;
} ) ;
if ( tooltips ) dispatch . on ( 'tooltipHide' , nv . tooltip . cleanup ) ;
//TODO: decide if this makes sense to add into all the models for ease of updating (updating without needing the selection)
chart . update = function ( ) { selection . transition ( ) . call ( chart ) } ;
chart . container = this ; // I need a reference to the container in order to have outside code check if the chart is visible or not
} ) ;
return chart ;
}
chart . dispatch = dispatch ;
chart . multibar = multibar ; // really just makign the accessible for multibar.dispatch, may rethink slightly
chart . legend = legend ;
chart . xAxis = xAxis ;
chart . yAxis = yAxis ;
d3 . rebind ( chart , multibar , 'x' , 'y' , 'xDomain' , 'yDomain' , 'forceX' , 'forceY' , 'clipEdge' , 'id' , 'delay' , 'showValues' , 'valueFormat' ) ;
chart . margin = function ( _ ) {
if ( ! arguments . length ) return margin ;
margin = _ ;
return chart ;
} ;
chart . width = function ( _ ) {
if ( ! arguments . length ) return width ;
width = _ ;
return chart ;
} ;
chart . height = function ( _ ) {
if ( ! arguments . length ) return height ;
height = _ ;
return chart ;
} ;
chart . color = function ( _ ) {
if ( ! arguments . length ) return color ;
color = _ ;
legend . color ( _ ) ;
return chart ;
} ;
chart . showControls = function ( _ ) {
if ( ! arguments . length ) return showControls ;
showControls = _ ;
return chart ;
} ;
chart . showLegend = function ( _ ) {
if ( ! arguments . length ) return showLegend ;
showLegend = _ ;
return chart ;
} ;
chart . tooltips = function ( _ ) {
if ( ! arguments . length ) return tooltips ;
tooltips = _ ;
return chart ;
} ;
chart . tooltipContent = function ( _ ) {
if ( ! arguments . length ) return tooltip ;
tooltip = _ ;
return chart ;
} ;
return chart ;
}
//TODO: eitehr drastically clean up or deprecate this model
nv . models . ohlcBar = function ( ) {
var margin = { top : 0 , right : 0 , bottom : 0 , left : 0 } ,
width = 960 ,
height = 500 ,
id = Math . floor ( Math . random ( ) * 10000 ) , //Create semi-unique ID in case user doesn't select one
getX = function ( d ) { return d . x } ,
getY = function ( d ) { return d . y } ,
getOpen = function ( d ) { return d . open } ,
getClose = function ( d ) { return d . close } ,
getHigh = function ( d ) { return d . high } ,
getLow = function ( d ) { return d . low } ,
forceX = [ ] ,
forceY = [ ] ,
clipEdge = true ,
color = d3 . scale . category20 ( ) . range ( ) ,
xDomain , yDomain ;
var x = d3 . scale . linear ( ) ,
y = d3 . scale . linear ( ) ,
xAxis = d3 . svg . axis ( ) . scale ( x ) . orient ( 'bottom' ) ,
yAxis = d3 . svg . axis ( ) . scale ( y ) . orient ( 'left' ) ,
dispatch = d3 . dispatch ( 'chartClick' , 'elementClick' , 'elementDblClick' , 'elementMouseover' , 'elementMouseout' ) ;
function chart ( selection ) {
selection . each ( function ( data ) {
var availableWidth = width - margin . left - margin . right ,
availableHeight = height - margin . top - margin . bottom ;
x . domain ( xDomain || d3 . extent ( data [ 0 ] . values . map ( getX ) . concat ( forceX ) ) )
. range ( [ 0 , availableWidth ] ) ;
//y .domain(yDomain || d3.extent(data[0].values.map(getY).concat(forceY) ))
y . domain ( yDomain || [
d3 . min ( data [ 0 ] . values . map ( getLow ) . concat ( forceY ) ) ,
d3 . max ( data [ 0 ] . values . map ( getHigh ) . concat ( forceY ) )
] )
. range ( [ availableHeight , 0 ] ) ;
// If scale's domain don't have a range, slightly adjust to make one... so a chart can show a single data point
if ( x . domain ( ) [ 0 ] === x . domain ( ) [ 1 ] || y . domain ( ) [ 0 ] === y . domain ( ) [ 1 ] ) singlePoint = true ;
if ( x . domain ( ) [ 0 ] === x . domain ( ) [ 1 ] )
x . domain ( ) [ 0 ] ?
x . domain ( [ x . domain ( ) [ 0 ] - x . domain ( ) [ 0 ] * 0.01 , x . domain ( ) [ 1 ] + x . domain ( ) [ 1 ] * 0.01 ] )
: x . domain ( [ - 1 , 1 ] ) ;
if ( y . domain ( ) [ 0 ] === y . domain ( ) [ 1 ] )
y . domain ( ) [ 0 ] ?
y . domain ( [ y . domain ( ) [ 0 ] + y . domain ( ) [ 0 ] * 0.01 , y . domain ( ) [ 1 ] - y . domain ( ) [ 1 ] * 0.01 ] )
: y . domain ( [ - 1 , 1 ] ) ;
var parent = d3 . select ( this )
. on ( 'click' , function ( d , i ) {
dispatch . chartClick ( {
data : d ,
index : i ,
pos : d3 . event ,
id : id
} ) ;
} ) ;
var wrap = d3 . select ( this ) . selectAll ( 'g.wrap.historicalStock' ) . data ( [ data [ 0 ] . values ] ) ;
var wrapEnter = wrap . enter ( ) . append ( 'g' ) . attr ( 'class' , 'wrap nvd3 historicalStock' ) ;
var gEnter = wrapEnter . append ( 'g' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'ticks' ) ;
wrap . attr ( 'width' , width )
. attr ( 'height' , height ) ;
var g = wrap . select ( 'g' )
. attr ( 'transform' , 'translate(' + margin . left + ',' + margin . top + ')' ) ;
wrapEnter . append ( 'defs' ) . append ( 'clipPath' )
. attr ( 'id' , 'chart-clip-path-' + id )
. append ( 'rect' ) ;
wrap . select ( '#chart-clip-path-' + id + ' rect' )
. attr ( 'width' , availableWidth )
. attr ( 'height' , availableHeight ) ;
gEnter
. attr ( 'clip-path' , clipEdge ? 'url(#chart-clip-path-' + id + ')' : '' ) ;
var shiftWrap = gEnter . append ( 'g' ) . attr ( 'class' , 'shiftWrap' ) ;
var ticks = wrap . select ( '.ticks' ) . selectAll ( '.tick' )
. data ( function ( d ) { return d } ) ;
ticks . exit ( ) . remove ( ) ;
var ticksEnter = ticks . enter ( ) . append ( 'path' )
. attr ( 'class' , function ( d , i ) { return getOpen ( d , i ) > getClose ( d , i ) ? 'tick negative' : 'tick positive' } )
//.attr('fill', function(d,i) { return color[0]; })
//.attr('stroke', function(d,i) { return color[0]; })
//.attr('x', 0 )
//.attr('y', function(d,i) { return y(Math.max(0, getY(d,i))) })
//.attr('height', function(d,i) { return Math.abs(y(getY(d,i)) - y(0)) })
. on ( 'mouseover' , function ( d , i ) {
d3 . select ( this ) . classed ( 'hover' , true ) ;
dispatch . elementMouseover ( {
point : d ,
series : data [ 0 ] ,
pos : [ x ( getX ( d , i ) ) , y ( getY ( d , i ) ) ] , // TODO: Figure out why the value appears to be shifted
pointIndex : i ,
seriesIndex : 0 ,
e : d3 . event
} ) ;
} )
. on ( 'mouseout' , function ( d , i ) {
d3 . select ( this ) . classed ( 'hover' , false ) ;
dispatch . elementMouseout ( {
point : d ,
series : data [ 0 ] ,
pointIndex : i ,
seriesIndex : 0 ,
e : d3 . event
} ) ;
} )
. on ( 'click' , function ( d , i ) {
dispatch . elementClick ( {
//label: d[label],
value : getY ( d , i ) ,
data : d ,
index : i ,
pos : [ x ( getX ( d , i ) ) , y ( getY ( d , i ) ) ] ,
e : d3 . event ,
id : id
} ) ;
d3 . event . stopPropagation ( ) ;
} )
. on ( 'dblclick' , function ( d , i ) {
dispatch . elementDblClick ( {
//label: d[label],
value : getY ( d , i ) ,
data : d ,
index : i ,
pos : [ x ( getX ( d , i ) ) , y ( getY ( d , i ) ) ] ,
e : d3 . event ,
id : id
} ) ;
d3 . event . stopPropagation ( ) ;
} ) ;
ticks
. attr ( 'class' , function ( d , i ) { return getOpen ( d , i ) > getClose ( d , i ) ? 'tick negative' : 'tick positive' } )
. attr ( 'transform' , function ( d , i ) { return 'translate(' + x ( getX ( d , i ) ) + ',' + y ( getHigh ( d , i ) ) + ')' ; } )
. attr ( 'd' , function ( d , i ) {
var w = ( availableWidth / data [ 0 ] . values . length ) * . 9 ;
//nv.log(this, getOpen(d,i), getClose(d,i), y(getOpen(d,i)), y(getClose(d,i)));
return 'm0,0l0,' + ( y ( getOpen ( d , i ) ) - y ( getHigh ( d , i ) ) ) + 'l' + ( - w / 2 ) + ',0l' + ( w / 2 ) + ',0l0,' + ( y ( getLow ( d , i ) ) - y ( getOpen ( d , i ) ) ) + 'l0,' + ( y ( getClose ( d , i ) ) - y ( getLow ( d , i ) ) ) + 'l' + ( w / 2 ) + ',0l' + ( - w / 2 ) + ',0z' ;
} )
//.attr('width', (availableWidth / data[0].values.length) * .9 )
//d3.transition(ticks)
//.attr('y', function(d,i) { return y(Math.max(0, getY(d,i))) })
//.attr('height', function(d,i) { return Math.abs(y(getY(d,i)) - y(0)) });
//.order(); // not sure if this makes any sense for this model
} ) ;
return chart ;
}
chart . dispatch = dispatch ;
chart . x = function ( _ ) {
if ( ! arguments . length ) return getX ;
getX = _ ;
return chart ;
} ;
chart . y = function ( _ ) {
if ( ! arguments . length ) return getY ;
getY = _ ;
return chart ;
} ;
chart . open = function ( _ ) {
if ( ! arguments . length ) return getOpen ;
getOpen = _ ;
return chart ;
} ;
chart . close = function ( _ ) {
if ( ! arguments . length ) return getClose ;
getClose = _ ;
return chart ;
} ;
chart . high = function ( _ ) {
if ( ! arguments . length ) return getHigh ;
getHigh = _ ;
return chart ;
} ;
chart . low = function ( _ ) {
if ( ! arguments . length ) return getLow ;
getLow = _ ;
return chart ;
} ;
chart . margin = function ( _ ) {
if ( ! arguments . length ) return margin ;
margin = _ ;
return chart ;
} ;
chart . width = function ( _ ) {
if ( ! arguments . length ) return width ;
width = _ ;
return chart ;
} ;
chart . height = function ( _ ) {
if ( ! arguments . length ) return height ;
height = _ ;
return chart ;
} ;
chart . xScale = function ( _ ) {
if ( ! arguments . length ) return x ;
x = _ ;
return chart ;
} ;
chart . yScale = function ( _ ) {
if ( ! arguments . length ) return y ;
y = _ ;
return chart ;
} ;
chart . xDomain = function ( _ ) {
if ( ! arguments . length ) return xDomain ;
xDomain = _ ;
return chart ;
} ;
chart . yDomain = function ( _ ) {
if ( ! arguments . length ) return yDomain ;
yDomain = _ ;
return chart ;
} ;
chart . forceX = function ( _ ) {
if ( ! arguments . length ) return forceX ;
forceX = _ ;
return chart ;
} ;
chart . forceY = function ( _ ) {
if ( ! arguments . length ) return forceY ;
forceY = _ ;
return chart ;
} ;
chart . clipEdge = function ( _ ) {
if ( ! arguments . length ) return clipEdge ;
clipEdge = _ ;
return chart ;
} ;
chart . color = function ( _ ) {
if ( ! arguments . length ) return color ;
color = _ ;
return chart ;
} ;
chart . id = function ( _ ) {
if ( ! arguments . length ) return id ;
id = _ ;
return chart ;
} ;
return chart ;
}
nv . models . pie = function ( ) {
var margin = { top : 0 , right : 0 , bottom : 0 , left : 0 } ,
width = 500 ,
height = 500 ,
getValues = function ( d ) { return d . values } ,
getX = function ( d ) { return d . x } ,
getY = function ( d ) { return d . y } ,
id = Math . floor ( Math . random ( ) * 10000 ) , //Create semi-unique ID in case user doesn't select one
color = d3 . scale . category20 ( ) . range ( ) ,
valueFormat = d3 . format ( ',.2f' ) ,
showLabels = true ,
labelThreshold = . 02 , //if slice percentage is under this, don't show label
donut = false ;
var dispatch = d3 . dispatch ( 'chartClick' , 'elementClick' , 'elementDblClick' , 'elementMouseover' , 'elementMouseout' ) ;
function chart ( selection ) {
selection . each ( function ( data ) {
var availableWidth = width - margin . left - margin . right ,
availableHeight = height - margin . top - margin . bottom ,
radius = Math . min ( availableWidth , availableHeight ) / 2 ;
var container = d3 . select ( this )
. on ( 'click' , function ( d , i ) {
dispatch . chartClick ( {
data : d ,
index : i ,
pos : d3 . event ,
id : id
} ) ;
} ) ;
var wrap = container . selectAll ( '.wrap.pie' ) . data ( [ getValues ( data [ 0 ] ) ] ) ;
var wrapEnter = wrap . enter ( ) . append ( 'g' ) . attr ( 'class' , 'wrap nvd3 pie chart-' + id ) ;
var gEnter = wrapEnter . append ( 'g' ) ;
var g = wrap . select ( 'g' )
gEnter . append ( 'g' ) . attr ( 'class' , 'pie' ) ;
wrap . attr ( 'transform' , 'translate(' + margin . left + ',' + margin . top + ')' ) ;
g . select ( '.pie' ) . attr ( 'transform' , 'translate(' + availableWidth / 2 + ',' + availableHeight / 2 + ')' ) ;
var arc = d3 . svg . arc ( )
. outerRadius ( ( radius - ( radius / 5 ) ) ) ;
if ( donut ) arc . innerRadius ( radius / 2 ) ;
// Setup the Pie chart and choose the data element
var pie = d3 . layout . pie ( )
. sort ( null )
. value ( function ( d ) { return d . disabled ? 0 : getY ( d ) } ) ;
var slices = wrap . select ( '.pie' ) . selectAll ( '.slice' )
. data ( pie ) ;
slices . exit ( ) . remove ( ) ;
var ae = slices . enter ( ) . append ( 'svg:g' )
. attr ( 'class' , 'slice' )
. on ( 'mouseover' , function ( d , i ) {
d3 . select ( this ) . classed ( 'hover' , true ) ;
dispatch . elementMouseover ( {
label : getX ( d . data ) ,
value : getY ( d . data ) ,
point : d . data ,
pointIndex : i ,
pos : [ d3 . event . pageX , d3 . event . pageY ] ,
id : id
} ) ;
} )
. on ( 'mouseout' , function ( d , i ) {
d3 . select ( this ) . classed ( 'hover' , false ) ;
dispatch . elementMouseout ( {
label : getX ( d . data ) ,
value : getY ( d . data ) ,
point : d . data ,
index : i ,
id : id
} ) ;
} )
. on ( 'click' , function ( d , i ) {
dispatch . elementClick ( {
label : getX ( d . data ) ,
value : getY ( d . data ) ,
point : d . data ,
index : i ,
pos : d3 . event ,
id : id
} ) ;
d3 . event . stopPropagation ( ) ;
} )
. on ( 'dblclick' , function ( d , i ) {
dispatch . elementDblClick ( {
label : getX ( d . data ) ,
value : getY ( d . data ) ,
point : d . data ,
index : i ,
pos : d3 . event ,
id : id
} ) ;
d3 . event . stopPropagation ( ) ;
} ) ;
slices
. attr ( 'fill' , function ( d , i ) { return color [ i ] ; } )
. attr ( 'stroke' , function ( d , i ) { return color [ i ] ; } ) ;
var paths = ae . append ( 'svg:path' )
. each ( function ( d ) { this . _current = d ; } ) ;
//.attr('d', arc);
d3 . transition ( slices . select ( 'path' ) )
. attr ( 'd' , arc )
//.ease('bounce')
. attrTween ( 'd' , arcTween ) ;
//.attrTween('d', tweenPie);
if ( showLabels ) {
// This does the normal label
ae . append ( 'text' )
. attr ( 'transform' , function ( d ) {
d . outerRadius = radius + 10 ; // Set Outer Coordinate
d . innerRadius = radius + 15 ; // Set Inner Coordinate
return 'translate(' + arc . centroid ( d ) + ')' ;
} )
. style ( 'text-anchor' , 'middle' ) //center the text on it's origin
. style ( 'fill' , '#000' ) ;
d3 . transition ( slices . select ( 'text' ) )
//.ease('bounce')
. attr ( 'transform' , function ( d ) {
d . outerRadius = radius + 10 ; // Set Outer Coordinate
d . innerRadius = radius + 15 ; // Set Inner Coordinate
return 'translate(' + arc . centroid ( d ) + ')' ;
} )
//.style('font', 'bold 12px Arial') // font style's should be set in css!
. text ( function ( d , i ) {
var percent = ( d . endAngle - d . startAngle ) / ( 2 * Math . PI ) ;
return ( d . value && percent > labelThreshold ) ? getX ( d . data ) : '' ;
} ) ;
}
// Computes the angle of an arc, converting from radians to degrees.
function angle ( d ) {
var a = ( d . startAngle + d . endAngle ) * 90 / Math . PI - 90 ;
return a > 90 ? a - 180 : a ;
}
function arcTween ( a ) {
if ( ! donut ) a . innerRadius = 0 ;
var i = d3 . interpolate ( this . _current , a ) ;
this . _current = i ( 0 ) ;
return function ( t ) {
return arc ( i ( t ) ) ;
} ;
}
function tweenPie ( b ) {
b . innerRadius = 0 ;
var i = d3 . interpolate ( { startAngle : 0 , endAngle : 0 } , b ) ;
return function ( t ) {
return arc ( i ( t ) ) ;
} ;
}
} ) ;
return chart ;
}
chart . dispatch = dispatch ;
chart . margin = function ( _ ) {
if ( ! arguments . length ) return margin ;
margin = _ ;
return chart ;
} ;
chart . width = function ( _ ) {
if ( ! arguments . length ) return width ;
width = _ ;
return chart ;
} ;
chart . height = function ( _ ) {
if ( ! arguments . length ) return height ;
height = _ ;
return chart ;
} ;
chart . values = function ( _ ) {
if ( ! arguments . length ) return getValues ;
getValues = _ ;
return chart ;
} ;
chart . x = function ( _ ) {
if ( ! arguments . length ) return getX ;
getX = _ ;
return chart ;
} ;
chart . y = function ( _ ) {
if ( ! arguments . length ) return getY ;
getY = d3 . functor ( _ ) ;
return chart ;
} ;
chart . showLabels = function ( _ ) {
if ( ! arguments . length ) return showLabels ;
showLabels = _ ;
return chart ;
} ;
chart . donut = function ( _ ) {
if ( ! arguments . length ) return donut ;
donut = _ ;
return chart ;
} ;
chart . id = function ( _ ) {
if ( ! arguments . length ) return id ;
id = _ ;
return chart ;
} ;
chart . color = function ( _ ) {
if ( ! arguments . length ) return color ;
color = _ ;
return chart ;
} ;
chart . valueFormat = function ( _ ) {
if ( ! arguments . length ) return valueFormat ;
valueFormat = _ ;
return chart ;
} ;
chart . labelThreshold = function ( _ ) {
if ( ! arguments . length ) return labelThreshold ;
labelThreshold = _ ;
return chart ;
} ;
return chart ;
}
nv . models . pieChart = function ( ) {
var margin = { top : 30 , right : 20 , bottom : 20 , left : 20 } ,
width = null ,
height = null ,
showLegend = true ,
color = d3 . scale . category20 ( ) . range ( ) ,
tooltips = true ,
tooltip = function ( key , y , e , graph ) {
return '<h3>' + key + '</h3>' +
'<p>' + y + '</p>'
} ;
var pie = nv . models . pie ( ) ,
legend = nv . models . legend ( ) . height ( 30 ) ,
dispatch = d3 . dispatch ( 'tooltipShow' , 'tooltipHide' ) ;
var showTooltip = function ( e , offsetElement ) {
var left = e . pos [ 0 ] + ( ( offsetElement && offsetElement . offsetLeft ) || 0 ) ,
top = e . pos [ 1 ] + ( ( offsetElement && offsetElement . offsetTop ) || 0 ) ,
y = pie . valueFormat ( ) ( pie . y ( ) ( e . point ) ) ,
content = tooltip ( pie . x ( ) ( e . point ) , y , e , chart ) ;
nv . tooltip . show ( [ left , top ] , content , e . value < 0 ? 'n' : 's' ) ;
} ;
function chart ( selection ) {
selection . each ( function ( data ) {
var container = d3 . select ( this ) ,
that = this ;
var availableWidth = ( width || parseInt ( container . style ( 'width' ) ) || 960 )
- margin . left - margin . right ,
availableHeight = ( height || parseInt ( container . style ( 'height' ) ) || 400 )
- margin . top - margin . bottom ;
var wrap = container . selectAll ( 'g.wrap.pieChart' ) . data ( [ data ] ) ;
var gEnter = wrap . enter ( ) . append ( 'g' ) . attr ( 'class' , 'wrap nvd3 pieChart' ) . append ( 'g' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'pieWrap' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'legendWrap' ) ;
var g = wrap . select ( 'g' ) ;
if ( showLegend ) {
legend
. width ( availableWidth )
. key ( pie . x ( ) ) ;
wrap . select ( '.legendWrap' )
. datum ( pie . values ( ) ( data [ 0 ] ) )
. call ( legend ) ;
if ( margin . top != legend . height ( ) ) {
margin . top = legend . height ( ) ;
availableHeight = ( height || parseInt ( container . style ( 'height' ) ) || 400 )
- margin . top - margin . bottom ;
}
wrap . select ( '.legendWrap' )
. attr ( 'transform' , 'translate(0,' + ( - margin . top ) + ')' ) ;
}
pie
. width ( availableWidth )
. height ( availableHeight )
//.color(data.map(function(d,i) {
//return d.color || color[i % color.length];
//}).filter(function(d,i) { return !data[i].disabled }))
g . attr ( 'transform' , 'translate(' + margin . left + ',' + margin . top + ')' ) ;
var pieWrap = g . select ( '.pieWrap' )
. datum ( data )
//.datum(data.filter(function(d) { return !d.disabled }))
d3 . transition ( pieWrap ) . call ( pie ) ;
legend . dispatch . on ( 'legendClick' , function ( d , i , that ) {
d . disabled = ! d . disabled ;
if ( ! pie . values ( ) ( data [ 0 ] ) . filter ( function ( d ) { return ! d . disabled } ) . length ) {
pie . values ( ) ( data [ 0 ] ) . map ( function ( d ) {
d . disabled = false ;
wrap . selectAll ( '.series' ) . classed ( 'disabled' , false ) ;
return d ;
} ) ;
}
selection . transition ( ) . call ( chart )
} ) ;
pie . dispatch . on ( 'elementMouseover.tooltip' , function ( e ) {
e . pos = [ e . pos [ 0 ] + margin . left , e . pos [ 1 ] + margin . top ] ;
dispatch . tooltipShow ( e ) ;
} ) ;
if ( tooltips ) dispatch . on ( 'tooltipShow' , function ( e ) { showTooltip ( e ) } ) ; // TODO: maybe merge with above?
pie . dispatch . on ( 'elementMouseout.tooltip' , function ( e ) {
dispatch . tooltipHide ( e ) ;
} ) ;
if ( tooltips ) dispatch . on ( 'tooltipHide' , nv . tooltip . cleanup ) ;
//TODO: decide if this makes sense to add into all the models for ease of updating (updating without needing the selection)
chart . update = function ( ) { selection . transition ( ) . call ( chart ) ; } ;
chart . container = this ; // I need a reference to the container in order to have outside code check if the chart is visible or not
} ) ;
return chart ;
}
chart . dispatch = dispatch ;
chart . pie = pie ; // really just makign the accessible for discretebar.dispatch, may rethink slightly
d3 . rebind ( chart , pie , 'values' , 'x' , 'y' , 'id' , 'showLabels' , 'donut' , 'labelThreshold' ) ;
chart . margin = function ( _ ) {
if ( ! arguments . length ) return margin ;
margin = _ ;
return chart ;
} ;
chart . width = function ( _ ) {
if ( ! arguments . length ) return width ;
width = _ ;
return chart ;
} ;
chart . height = function ( _ ) {
if ( ! arguments . length ) return height ;
height = _ ;
return chart ;
} ;
chart . color = function ( _ ) {
if ( ! arguments . length ) return color ;
color = _ ;
legend . color ( _ ) ;
pie . color ( _ ) ;
return chart ;
} ;
chart . showLegend = function ( _ ) {
if ( ! arguments . length ) return showLegend ;
showLegend = _ ;
return chart ;
} ;
chart . tooltips = function ( _ ) {
if ( ! arguments . length ) return tooltips ;
tooltips = _ ;
return chart ;
} ;
chart . tooltipContent = function ( _ ) {
if ( ! arguments . length ) return tooltip ;
tooltip = _ ;
return chart ;
} ;
return chart ;
}
nv . models . scatter = function ( ) {
//============================================================
// Public Variables with Default Settings
//------------------------------------------------------------
var margin = { top : 0 , right : 0 , bottom : 0 , left : 0 }
, width = 960
, height = 500
, color = d3 . scale . category20 ( ) . range ( ) // array of colors to be used in order
, id = Math . floor ( Math . random ( ) * 100000 ) //Create semi-unique ID incase user doesn't selet one
, x = d3 . scale . linear ( )
, y = d3 . scale . linear ( )
, z = d3 . scale . linear ( ) //linear because d3.svg.shape.size is treated as area
, getX = function ( d ) { return d . x } // accessor to get the x value
, getY = function ( d ) { return d . y } // accessor to get the y value
, getSize = function ( d ) { return d . size } // accessor to get the point size
, getShape = function ( d ) { return d . shape || 'circle' } // accessor to get point shape
, forceX = [ ] // List of numbers to Force into the X scale (ie. 0, or a max / min, etc.)
, forceY = [ ] // List of numbers to Force into the Y scale
, forceSize = [ ] // List of numbers to Force into the Size scale
, interactive = true // If true, plots a voronoi overlay for advanced point interection
, pointActive = function ( d ) { return ! d . notActive } // any points that return false will be filtered out
, clipEdge = false // if true, masks points within x and y scale
, clipVoronoi = true // if true, masks each point with a circle... can turn off to slightly increase performance
, clipRadius = function ( ) { return 25 } // function to get the radius for voronoi point clips
, xDomain = null // Override x domain (skips the calculation from data)
, yDomain = null // Override y domain
, sizeDomain = null // Override point size domain
, singlePoint = false
, dispatch = d3 . dispatch ( 'elementClick' , 'elementMouseover' , 'elementMouseout' )
;
//============================================================
//============================================================
// Private Variables
//------------------------------------------------------------
var x0 , y0 , z0 // used to store previous scales
, timeoutID
;
//============================================================
function chart ( selection ) {
selection . each ( function ( data ) {
var availableWidth = width - margin . left - margin . right ,
availableHeight = height - margin . top - margin . bottom ,
container = d3 . select ( this ) ;
//add series index to each data point for reference
data = data . map ( function ( series , i ) {
series . values = series . values . map ( function ( point ) {
point . series = i ;
return point ;
} ) ;
return series ;
} ) ;
//------------------------------------------------------------
// Setup Scales
// remap and flatten the data for use in calculating the scales' domains
var seriesData = ( xDomain && yDomain && sizeDomain ) ? [ ] : // if we know xDomain and yDomain and sizeDomain, no need to calculate.... if Size is constant remember to set sizeDomain to speed up performance
d3 . merge (
data . map ( function ( d ) {
return d . values . map ( function ( d , i ) {
return { x : getX ( d , i ) , y : getY ( d , i ) , size : getSize ( d , i ) }
} )
} )
) ;
x . domain ( xDomain || d3 . extent ( seriesData . map ( function ( d ) { return d . x } ) . concat ( forceX ) ) )
. range ( [ 0 , availableWidth ] ) ;
y . domain ( yDomain || d3 . extent ( seriesData . map ( function ( d ) { return d . y } ) . concat ( forceY ) ) )
. range ( [ availableHeight , 0 ] ) ;
z . domain ( sizeDomain || d3 . extent ( seriesData . map ( function ( d ) { return d . size } ) . concat ( forceSize ) ) )
. range ( [ 16 , 256 ] ) ;
// If scale's domain don't have a range, slightly adjust to make one... so a chart can show a single data point
if ( x . domain ( ) [ 0 ] === x . domain ( ) [ 1 ] || y . domain ( ) [ 0 ] === y . domain ( ) [ 1 ] ) singlePoint = true ;
if ( x . domain ( ) [ 0 ] === x . domain ( ) [ 1 ] )
x . domain ( ) [ 0 ] ?
x . domain ( [ x . domain ( ) [ 0 ] - x . domain ( ) [ 0 ] * 0.01 , x . domain ( ) [ 1 ] + x . domain ( ) [ 1 ] * 0.01 ] )
: x . domain ( [ - 1 , 1 ] ) ;
if ( y . domain ( ) [ 0 ] === y . domain ( ) [ 1 ] )
y . domain ( ) [ 0 ] ?
y . domain ( [ y . domain ( ) [ 0 ] + y . domain ( ) [ 0 ] * 0.01 , y . domain ( ) [ 1 ] - y . domain ( ) [ 1 ] * 0.01 ] )
: y . domain ( [ - 1 , 1 ] ) ;
x0 = x0 || x ;
y0 = y0 || y ;
z0 = z0 || z ;
//------------------------------------------------------------
//------------------------------------------------------------
// Setup containers and skeleton of chart
var wrap = container . selectAll ( 'g.wrap.scatter' ) . data ( [ data ] ) ;
var wrapEnter = wrap . enter ( ) . append ( 'g' ) . attr ( 'class' , 'wrap nvd3 scatter chart-' + id + ( singlePoint ? ' single-point' : '' ) ) ;
var defsEnter = wrapEnter . append ( 'defs' ) ;
var gEnter = wrapEnter . append ( 'g' ) ;
var g = wrap . select ( 'g' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'groups' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'point-paths' ) ;
wrap . attr ( 'transform' , 'translate(' + margin . left + ',' + margin . top + ')' ) ;
//------------------------------------------------------------
defsEnter . append ( 'clipPath' )
. attr ( 'id' , 'edge-clip-' + id )
. append ( 'rect' ) ;
wrap . select ( '#edge-clip-' + id + ' rect' )
. attr ( 'width' , availableWidth )
. attr ( 'height' , availableHeight ) ;
g . attr ( 'clip-path' , clipEdge ? 'url(#edge-clip-' + id + ')' : '' ) ;
function updateInteractiveLayer ( ) {
if ( ! interactive ) return false ;
var vertices = d3 . merge ( data . map ( function ( group , groupIndex ) {
return group . values
. filter ( pointActive ) // remove non-interactive points
. map ( function ( point , pointIndex ) {
// *Adding noise to make duplicates very unlikely
// **Injecting series and point index for reference
return [ x ( getX ( point , pointIndex ) ) * ( Math . random ( ) / 1e12 + 1 ) , y ( getY ( point , pointIndex ) ) * ( Math . random ( ) / 1e12 + 1 ) , groupIndex , pointIndex ] ; //temp hack to add noise untill I think of a better way so there are no duplicates
} )
} )
) ;
if ( clipVoronoi ) {
defsEnter . append ( 'clipPath' ) . attr ( 'id' , 'points-clip-' + id ) ;
var pointClips = wrap . select ( '#points-clip-' + id ) . selectAll ( 'circle' )
. data ( vertices ) ;
pointClips . enter ( ) . append ( 'circle' )
. attr ( 'r' , clipRadius ) ;
pointClips . exit ( ) . remove ( ) ;
pointClips
. attr ( 'cx' , function ( d ) { return d [ 0 ] } )
. attr ( 'cy' , function ( d ) { return d [ 1 ] } ) ;
wrap . select ( '.point-paths' )
. attr ( 'clip-path' , 'url(#points-clip-' + id + ')' ) ;
}
//inject series and point index for reference into voronoi
var voronoi = d3 . geom . voronoi ( vertices ) . map ( function ( d , i ) {
return {
'data' : d ,
'series' : vertices [ i ] [ 2 ] ,
'point' : vertices [ i ] [ 3 ]
}
} ) ;
var pointPaths = wrap . select ( '.point-paths' ) . selectAll ( 'path' )
. data ( voronoi ) ;
pointPaths . enter ( ) . append ( 'path' )
. attr ( 'class' , function ( d , i ) { return 'path-' + i ; } ) ;
pointPaths . exit ( ) . remove ( ) ;
pointPaths
. attr ( 'd' , function ( d ) { return 'M' + d . data . join ( ',' ) + 'Z' ; } )
. on ( 'click' , function ( d ) {
var series = data [ d . series ] ,
point = series . values [ d . point ] ;
dispatch . elementClick ( {
point : point ,
series : series ,
pos : [ x ( getX ( point , d . point ) ) + margin . left , y ( getY ( point , d . point ) ) + margin . top ] ,
seriesIndex : d . series ,
pointIndex : d . point
} ) ;
} )
. on ( 'mouseover' , function ( d ) {
var series = data [ d . series ] ,
point = series . values [ d . point ] ;
dispatch . elementMouseover ( {
point : point ,
series : series ,
pos : [ x ( getX ( point , d . point ) ) + margin . left , y ( getY ( point , d . point ) ) + margin . top ] ,
seriesIndex : d . series ,
pointIndex : d . point
} ) ;
} )
. on ( 'mouseout' , function ( d , i ) {
var series = data [ d . series ] ,
point = series . values [ d . point ] ;
dispatch . elementMouseout ( {
point : point ,
series : series ,
seriesIndex : d . series ,
pointIndex : d . point
} ) ;
} ) ;
}
var groups = wrap . select ( '.groups' ) . selectAll ( '.group' )
. data ( function ( d ) { return d } , function ( d ) { return d . key } ) ;
groups . enter ( ) . append ( 'g' )
. style ( 'stroke-opacity' , 1e-6 )
. style ( 'fill-opacity' , 1e-6 ) ;
d3 . transition ( groups . exit ( ) )
. style ( 'stroke-opacity' , 1e-6 )
. style ( 'fill-opacity' , 1e-6 )
. remove ( ) ;
groups
. attr ( 'class' , function ( d , i ) { return 'group series-' + i } )
. classed ( 'hover' , function ( d ) { return d . hover } ) ;
d3 . transition ( groups )
. style ( 'fill' , function ( d , i ) { return color [ i % color . length ] } )
. style ( 'stroke' , function ( d , i ) { return color [ i % color . length ] } )
. style ( 'stroke-opacity' , 1 )
. style ( 'fill-opacity' , . 5 ) ;
var points = groups . selectAll ( 'path.point' )
. data ( function ( d ) { return d . values } ) ;
points . enter ( ) . append ( 'path' )
. attr ( 'transform' , function ( d , i ) {
return 'translate(' + x0 ( getX ( d , i ) ) + ',' + y0 ( getY ( d , i ) ) + ')'
} )
. attr ( 'd' ,
d3 . svg . symbol ( )
. type ( getShape )
. size ( function ( d , i ) { return z ( getSize ( d , i ) ) } )
) ;
d3 . transition ( groups . exit ( ) . selectAll ( 'path.point' ) )
. attr ( 'transform' , function ( d , i ) {
return 'translate(' + x ( getX ( d , i ) ) + ',' + y ( getY ( d , i ) ) + ')'
} )
. remove ( ) ;
points . attr ( 'class' , function ( d , i ) { return 'point point-' + i } ) ;
d3 . transition ( points )
. attr ( 'transform' , function ( d , i ) {
return 'translate(' + x ( getX ( d , i ) ) + ',' + y ( getY ( d , i ) ) + ')'
} )
. attr ( 'd' ,
d3 . svg . symbol ( )
. type ( getShape )
. size ( function ( d , i ) { return z ( getSize ( d , i ) ) } )
) ;
// Delay updating the invisible interactive layer for smoother animation
clearTimeout ( timeoutID ) ; // stop repeat calls to updateInteractiveLayer
timeoutID = setTimeout ( updateInteractiveLayer , 1000 ) ;
//store old scales for use in transitions on update
x0 = x . copy ( ) ;
y0 = y . copy ( ) ;
z0 = z . copy ( ) ;
} ) ;
return chart ;
}
//============================================================
// Event Handling/Dispatching (out of chart's scope)
//------------------------------------------------------------
dispatch . on ( 'elementMouseover.point' , function ( d ) {
if ( interactive )
d3 . select ( '.chart-' + id + ' .series-' + d . seriesIndex + ' .point-' + d . pointIndex )
. classed ( 'hover' , true ) ;
} ) ;
dispatch . on ( 'elementMouseout.point' , function ( d ) {
if ( interactive )
d3 . select ( '.chart-' + id + ' .series-' + d . seriesIndex + ' .point-' + d . pointIndex )
. classed ( 'hover' , false ) ;
} ) ;
//============================================================
//============================================================
// Expose Public Variables
//------------------------------------------------------------
chart . dispatch = dispatch ;
chart . x = function ( _ ) {
if ( ! arguments . length ) return getX ;
getX = d3 . functor ( _ ) ;
return chart ;
} ;
chart . y = function ( _ ) {
if ( ! arguments . length ) return getY ;
getY = d3 . functor ( _ ) ;
return chart ;
} ;
chart . size = function ( _ ) {
if ( ! arguments . length ) return getSize ;
getSize = d3 . functor ( _ ) ;
return chart ;
} ;
chart . margin = function ( _ ) {
if ( ! arguments . length ) return margin ;
margin = _ ;
return chart ;
} ;
chart . width = function ( _ ) {
if ( ! arguments . length ) return width ;
width = _ ;
return chart ;
} ;
chart . height = function ( _ ) {
if ( ! arguments . length ) return height ;
height = _ ;
return chart ;
} ;
chart . xScale = function ( _ ) {
if ( ! arguments . length ) return x ;
x = _ ;
return chart ;
} ;
chart . yScale = function ( _ ) {
if ( ! arguments . length ) return y ;
y = _ ;
return chart ;
} ;
chart . zScale = function ( _ ) {
if ( ! arguments . length ) return z ;
z = _ ;
return chart ;
} ;
chart . xDomain = function ( _ ) {
if ( ! arguments . length ) return xDomain ;
xDomain = _ ;
return chart ;
} ;
chart . yDomain = function ( _ ) {
if ( ! arguments . length ) return yDomain ;
yDomain = _ ;
return chart ;
} ;
chart . sizeDomain = function ( _ ) {
if ( ! arguments . length ) return sizeDomain ;
sizeDomain = _ ;
return chart ;
} ;
chart . forceX = function ( _ ) {
if ( ! arguments . length ) return forceX ;
forceX = _ ;
return chart ;
} ;
chart . forceY = function ( _ ) {
if ( ! arguments . length ) return forceY ;
forceY = _ ;
return chart ;
} ;
chart . forceSize = function ( _ ) {
if ( ! arguments . length ) return forceSize ;
forceSize = _ ;
return chart ;
} ;
chart . interactive = function ( _ ) {
if ( ! arguments . length ) return interactive ;
interactive = _ ;
return chart ;
} ;
chart . pointActive = function ( _ ) {
if ( ! arguments . length ) return pointActive ;
pointActive = _ ;
return chart ;
} ;
chart . clipEdge = function ( _ ) {
if ( ! arguments . length ) return clipEdge ;
clipEdge = _ ;
return chart ;
} ;
chart . clipVoronoi = function ( _ ) {
if ( ! arguments . length ) return clipVoronoi ;
clipVoronoi = _ ;
return chart ;
} ;
chart . clipRadius = function ( _ ) {
if ( ! arguments . length ) return clipRadius ;
clipRadius = _ ;
return chart ;
} ;
chart . color = function ( _ ) {
if ( ! arguments . length ) return color ;
color = _ ;
return chart ;
} ;
chart . shape = function ( _ ) {
if ( ! arguments . length ) return getShape ;
getShape = _ ;
return chart ;
} ;
chart . id = function ( _ ) {
if ( ! arguments . length ) return id ;
id = _ ;
return chart ;
} ;
chart . singlePoint = function ( _ ) {
if ( ! arguments . length ) return singlePoint ;
singlePoint = _ ;
return chart ;
} ;
//============================================================
return chart ;
}
nv . models . scatterChart = function ( ) {
//============================================================
// Public Variables with Default Settings
//------------------------------------------------------------
var margin = { top : 30 , right : 20 , bottom : 50 , left : 60 }
, width = null
, height = null
, color = d3 . scale . category20 ( ) . range ( )
//x = scatter.xScale(),
, x = d3 . fisheye . scale ( d3 . scale . linear ) . distortion ( 0 )
//y = scatter.yScale(),
, y = d3 . fisheye . scale ( d3 . scale . linear ) . distortion ( 0 )
, showDistX = false
, showDistY = false
, showLegend = true
, showControls = true
, fisheye = 0
, pauseFisheye = false
, tooltips = true
, tooltipX = function ( key , x , y ) { return '<strong>' + x + '</strong>' }
, tooltipY = function ( key , x , y ) { return '<strong>' + y + '</strong>' }
//, tooltip = function(key, x, y) { return '<h3>' + key + '</h3>' }
, tooltip = null
, scatter = nv . models . scatter ( ) . xScale ( x ) . yScale ( y )
, xAxis = nv . models . axis ( ) . orient ( 'bottom' ) . tickPadding ( 10 )
, yAxis = nv . models . axis ( ) . orient ( 'left' ) . tickPadding ( 10 )
, legend = nv . models . legend ( ) . height ( 30 )
, controls = nv . models . legend ( ) . height ( 30 )
, distX = nv . models . distribution ( ) . axis ( 'x' )
, distY = nv . models . distribution ( ) . axis ( 'y' )
, dispatch = d3 . dispatch ( 'tooltipShow' , 'tooltipHide' )
;
//============================================================
//============================================================
// Private Variables
//------------------------------------------------------------
var x0 , y0 ;
var showTooltip = function ( e , offsetElement ) {
//TODO: make tooltip style an option between single or dual on axes (maybe on all charts with axes?)
var left = e . pos [ 0 ] + ( offsetElement . offsetLeft || 0 ) ,
top = e . pos [ 1 ] + ( offsetElement . offsetTop || 0 ) ,
leftX = e . pos [ 0 ] + ( offsetElement . offsetLeft || 0 ) ,
topX = y . range ( ) [ 0 ] + margin . top + ( offsetElement . offsetTop || 0 ) ,
leftY = x . range ( ) [ 0 ] + margin . left + ( offsetElement . offsetLeft || 0 ) ,
topY = e . pos [ 1 ] + ( offsetElement . offsetTop || 0 ) ,
xVal = xAxis . tickFormat ( ) ( scatter . x ( ) ( e . point , e . pointIndex ) ) ,
yVal = yAxis . tickFormat ( ) ( scatter . y ( ) ( e . point , e . pointIndex ) ) ;
if ( tooltipX != null )
nv . tooltip . show ( [ leftX , topX ] , tooltipX ( e . series . key , xVal , yVal , e , chart ) , 'n' , 1 , null , 'x-nvtooltip' ) ;
if ( tooltipY != null )
nv . tooltip . show ( [ leftY , topY ] , tooltipY ( e . series . key , xVal , yVal , e , chart ) , 'e' , 1 , null , 'y-nvtooltip' ) ;
if ( tooltip != null )
nv . tooltip . show ( [ left , top ] , tooltip ( e . series . key , xVal , yVal , e , chart ) , e . value < 0 ? 'n' : 's' ) ;
} ;
var controlsData = [
{ key : 'Magnify' , disabled : true }
] ;
//============================================================
function chart ( selection ) {
selection . each ( function ( data ) {
var container = d3 . select ( this ) ,
that = this ;
var availableWidth = ( width || parseInt ( container . style ( 'width' ) ) || 960 )
- margin . left - margin . right ,
availableHeight = ( height || parseInt ( container . style ( 'height' ) ) || 400 )
- margin . top - margin . bottom ;
//------------------------------------------------------------
// Setup Scales
x = scatter . xScale ( ) ;
y = scatter . yScale ( ) ;
x0 = x0 || x ;
y0 = y0 || y ;
//------------------------------------------------------------
//------------------------------------------------------------
// Setup containers and skeleton of chart
var wrap = container . selectAll ( 'g.wrap.scatterChart' ) . data ( [ data ] ) ;
var wrapEnter = wrap . enter ( ) . append ( 'g' ) . attr ( 'class' , 'wrap nvd3 scatterChart chart-' + scatter . id ( ) ) ;
var gEnter = wrapEnter . append ( 'g' ) ;
var g = wrap . select ( 'g' )
// background for pointer events
gEnter . append ( 'rect' ) . attr ( 'class' , 'nvd3 background' )
gEnter . append ( 'g' ) . attr ( 'class' , 'x axis' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'y axis' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'scatterWrap' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'distWrap' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'legendWrap' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'controlsWrap' ) ;
wrap . attr ( 'transform' , 'translate(' + margin . left + ',' + margin . top + ')' ) ;
//------------------------------------------------------------
if ( showLegend ) {
legend . width ( availableWidth / 2 ) ;
wrap . select ( '.legendWrap' )
. datum ( data )
. call ( legend ) ;
if ( margin . top != legend . height ( ) ) {
margin . top = legend . height ( ) ;
availableHeight = ( height || parseInt ( container . style ( 'height' ) ) || 400 )
- margin . top - margin . bottom ;
}
wrap . select ( '.legendWrap' )
. attr ( 'transform' , 'translate(' + ( availableWidth / 2 ) + ',' + ( - margin . top ) + ')' ) ;
}
if ( showControls ) {
controls . width ( 180 ) . color ( [ '#444' ] ) ;
g . select ( '.controlsWrap' )
. datum ( controlsData )
. attr ( 'transform' , 'translate(0,' + ( - margin . top ) + ')' )
. call ( controls ) ;
}
g . select ( '.background' )
. attr ( 'width' , availableWidth )
. attr ( 'height' , availableHeight ) ;
scatter
. width ( availableWidth )
. height ( availableHeight )
. color ( data . map ( function ( d , i ) {
return d . color || color [ i % color . length ] ;
} ) . filter ( function ( d , i ) { return ! data [ i ] . disabled } ) )
wrap . select ( '.scatterWrap' )
. datum ( data . filter ( function ( d ) { return ! d . disabled } ) )
. call ( scatter ) ;
xAxis
. scale ( x )
. ticks ( availableWidth / 100 )
. tickSize ( - availableHeight , 0 ) ;
g . select ( '.x.axis' )
. attr ( 'transform' , 'translate(0,' + y . range ( ) [ 0 ] + ')' )
. call ( xAxis ) ;
yAxis
. scale ( y )
. ticks ( availableHeight / 36 )
. tickSize ( - availableWidth , 0 ) ;
g . select ( '.y.axis' )
. call ( yAxis ) ;
distX
. scale ( x )
. width ( availableWidth )
. color ( data . map ( function ( d , i ) {
return d . color || color [ i % color . length ] ;
} ) . filter ( function ( d , i ) { return ! data [ i ] . disabled } ) ) ;
gEnter . select ( '.distWrap' ) . append ( 'g' )
. attr ( 'class' , 'distributionX' )
. attr ( 'transform' , 'translate(0,' + y . range ( ) [ 0 ] + ')' ) ;
g . select ( '.distributionX' )
. datum ( data . filter ( function ( d ) { return ! d . disabled } ) )
. call ( distX ) ;
distY
. scale ( y )
. width ( availableHeight )
. color ( data . map ( function ( d , i ) {
return d . color || color [ i % color . length ] ;
} ) . filter ( function ( d , i ) { return ! data [ i ] . disabled } ) ) ;
gEnter . select ( '.distWrap' ) . append ( 'g' )
. attr ( 'class' , 'distributionY' )
. attr ( 'transform' , 'translate(-' + distY . size ( ) + ',0)' ) ;
g . select ( '.distributionY' )
. datum ( data . filter ( function ( d ) { return ! d . disabled } ) )
. call ( distY ) ;
g . select ( '.background' ) . on ( 'mousemove' , updateFisheye ) ;
g . select ( '.background' ) . on ( 'click' , function ( ) { pauseFisheye = ! pauseFisheye ; } ) ;
scatter . dispatch . on ( 'elementClick.freezeFisheye' , function ( ) {
pauseFisheye = ! pauseFisheye ;
} ) ;
function updateFisheye ( ) {
if ( pauseFisheye ) {
g . select ( '.point-paths' ) . style ( 'pointer-events' , 'all' ) ;
return false ;
}
g . select ( '.point-paths' ) . style ( 'pointer-events' , 'none' ) ;
var mouse = d3 . mouse ( this ) ;
x . distortion ( fisheye ) . focus ( mouse [ 0 ] ) ;
y . distortion ( fisheye ) . focus ( mouse [ 1 ] ) ;
g . select ( '.scatterWrap' )
. datum ( data . filter ( function ( d ) { return ! d . disabled } ) )
. call ( scatter ) ;
g . select ( '.x.axis' ) . call ( xAxis ) ;
g . select ( '.y.axis' ) . call ( yAxis ) ;
g . select ( '.distributionX' )
. datum ( data . filter ( function ( d ) { return ! d . disabled } ) )
. call ( distX ) ;
g . select ( '.distributionY' )
. datum ( data . filter ( function ( d ) { return ! d . disabled } ) )
. call ( distY ) ;
}
//============================================================
// Event Handling/Dispatching (in chart's scope)
//------------------------------------------------------------
controls . dispatch . on ( 'legendClick' , function ( d , i ) {
d . disabled = ! d . disabled ;
fisheye = d . disabled ? 0 : 2.5 ;
g . select ( '.background' ) . style ( 'pointer-events' , d . disabled ? 'none' : 'all' ) ;
g . select ( '.point-paths' ) . style ( 'pointer-events' , d . disabled ? 'all' : 'none' ) ;
if ( d . disabled ) {
x . distortion ( fisheye ) . focus ( 0 ) ;
y . distortion ( fisheye ) . focus ( 0 ) ;
g . select ( '.scatterWrap' ) . call ( scatter ) ;
g . select ( '.x.axis' ) . call ( xAxis ) ;
g . select ( '.y.axis' ) . call ( yAxis ) ;
} else {
pauseFisheye = false ;
}
chart ( selection ) ;
} ) ;
legend . dispatch . on ( 'legendClick' , function ( d , i , that ) {
d . disabled = ! d . disabled ;
if ( ! data . filter ( function ( d ) { return ! d . disabled } ) . length ) {
data . map ( function ( d ) {
d . disabled = false ;
wrap . selectAll ( '.series' ) . classed ( 'disabled' , false ) ;
return d ;
} ) ;
}
chart ( selection ) ;
} ) ;
/ *
legend . dispatch . on ( 'legendMouseover' , function ( d , i ) {
d . hover = true ;
chart ( selection ) ;
} ) ;
legend . dispatch . on ( 'legendMouseout' , function ( d , i ) {
d . hover = false ;
chart ( selection ) ;
} ) ;
* /
scatter . dispatch . on ( 'elementMouseover.tooltip' , function ( e ) {
d3 . select ( '.chart-' + scatter . id ( ) + ' .series-' + e . seriesIndex + ' .distx-' + e . pointIndex )
. attr ( 'y1' , e . pos [ 1 ] - availableHeight ) ;
d3 . select ( '.chart-' + scatter . id ( ) + ' .series-' + e . seriesIndex + ' .disty-' + e . pointIndex )
. attr ( 'x2' , e . pos [ 0 ] + distX . size ( ) ) ;
e . pos = [ e . pos [ 0 ] + margin . left , e . pos [ 1 ] + margin . top ] ;
dispatch . tooltipShow ( e ) ;
} ) ;
dispatch . on ( 'tooltipShow' , function ( e ) {
if ( tooltips ) showTooltip ( e , that . parentNode ) ;
} ) ;
//store old scales for use in transitions on update
x0 = x . copy ( ) ;
y0 = y . copy ( ) ;
chart . update = function ( ) { chart ( selection ) } ;
chart . container = this ;
} ) ;
return chart ;
}
//============================================================
// Event Handling/Dispatching (out of chart's scope)
//------------------------------------------------------------
scatter . dispatch . on ( 'elementMouseout.tooltip' , function ( e ) {
dispatch . tooltipHide ( e ) ;
d3 . select ( '.chart-' + scatter . id ( ) + ' .series-' + e . seriesIndex + ' .distx-' + e . pointIndex )
. attr ( 'y1' , 0 ) ;
d3 . select ( '.chart-' + scatter . id ( ) + ' .series-' + e . seriesIndex + ' .disty-' + e . pointIndex )
. attr ( 'x2' , distY . size ( ) ) ;
} ) ;
dispatch . on ( 'tooltipHide' , function ( ) {
if ( tooltips ) nv . tooltip . cleanup ( ) ;
} ) ;
//============================================================
// Expose Public Variables
//------------------------------------------------------------
chart . dispatch = dispatch ;
chart . legend = legend ;
chart . controls = legend ;
chart . xAxis = xAxis ;
chart . yAxis = yAxis ;
chart . distX = distX ;
chart . distY = distY ;
d3 . rebind ( chart , scatter , 'id' , 'interactive' , 'pointActive' , 'shape' , 'size' , 'xScale' , 'yScale' , 'zScale' , 'xDomain' , 'yDomain' , 'sizeDomain' , 'forceX' , 'forceY' , 'forceSize' , 'clipVoronoi' , 'clipRadius' ) ;
chart . margin = function ( _ ) {
if ( ! arguments . length ) return margin ;
margin = _ ;
return chart ;
} ;
chart . width = function ( _ ) {
if ( ! arguments . length ) return width ;
width = _ ;
return chart ;
} ;
chart . height = function ( _ ) {
if ( ! arguments . length ) return height ;
height = _ ;
return chart ;
} ;
chart . color = function ( _ ) {
if ( ! arguments . length ) return color ;
color = _ ;
legend . color ( _ ) ;
distX . color ( _ ) ;
distY . color ( _ ) ;
return chart ;
} ;
chart . showDistX = function ( _ ) {
if ( ! arguments . length ) return showDistX ;
showDistX = _ ;
return chart ;
} ;
chart . showDistY = function ( _ ) {
if ( ! arguments . length ) return showDistY ;
showDistY = _ ;
return chart ;
} ;
chart . showControls = function ( _ ) {
if ( ! arguments . length ) return showControls ;
showControls = _ ;
return chart ;
} ;
chart . showLegend = function ( _ ) {
if ( ! arguments . length ) return showLegend ;
showLegend = _ ;
return chart ;
} ;
chart . fisheye = function ( _ ) {
if ( ! arguments . length ) return fisheye ;
fisheye = _ ;
return chart ;
} ;
chart . tooltips = function ( _ ) {
if ( ! arguments . length ) return tooltips ;
tooltips = _ ;
return chart ;
} ;
chart . tooltipContent = function ( _ ) {
if ( ! arguments . length ) return tooltip ;
tooltip = _ ;
return chart ;
} ;
chart . tooltipXContent = function ( _ ) {
if ( ! arguments . length ) return tooltipX ;
tooltipX = _ ;
return chart ;
} ;
chart . tooltipYContent = function ( _ ) {
if ( ! arguments . length ) return tooltipY ;
tooltipY = _ ;
return chart ;
} ;
//============================================================
return chart ;
}
nv . models . sparkline = function ( ) {
var margin = { top : 0 , right : 0 , bottom : 0 , left : 0 } ,
width = 400 ,
height = 32 ,
animate = true ,
getX = function ( d ) { return d . x } ,
getY = function ( d ) { return d . y } ,
color = d3 . scale . category20 ( ) . range ( ) ,
xDomain , yDomain ;
var x = d3 . scale . linear ( ) ,
y = d3 . scale . linear ( ) ;
function chart ( selection ) {
selection . each ( function ( data ) {
var availableWidth = width - margin . left - margin . right ,
availableHeight = height - margin . top - margin . bottom ;
x . domain ( xDomain || d3 . extent ( data , getX ) )
. range ( [ 0 , availableWidth ] ) ;
y . domain ( yDomain || d3 . extent ( data , getY ) )
. range ( [ availableHeight , 0 ] ) ;
var wrap = d3 . select ( this ) . selectAll ( 'g.sparkline' ) . data ( [ data ] ) ;
var gEnter = wrap . enter ( ) . append ( 'g' ) . attr ( 'class' , 'nvd3 sparkline' ) ;
//var gEnter = svg.enter().append('svg').append('g');
//gEnter.append('g').attr('class', 'sparkline')
gEnter
. attr ( 'transform' , 'translate(' + margin . left + ',' + margin . top + ')' )
. style ( 'stroke' , function ( d , i ) { return d . color || color [ i * color . length ] } ) ;
/ *
d3 . select ( this )
. attr ( 'width' , width )
. attr ( 'height' , height ) ;
* /
//var paths = gEnter.select('.sparkline').selectAll('path')
var paths = gEnter . selectAll ( 'path' )
. data ( function ( d ) { return [ d ] } ) ;
paths . enter ( ) . append ( 'path' ) ;
paths . exit ( ) . remove ( ) ;
paths
. attr ( 'd' , d3 . svg . line ( )
. x ( function ( d , i ) { return x ( getX ( d , i ) ) } )
. y ( function ( d , i ) { return y ( getY ( d , i ) ) } )
) ;
// TODO: Add CURRENT data point (Need Min, Mac, Current / Most recent)
var points = gEnter . selectAll ( 'circle.point' )
. data ( function ( d ) { return d . filter ( function ( p , i ) { return y . domain ( ) . indexOf ( getY ( p , i ) ) != - 1 || getX ( p , i ) == x . domain ( ) [ 1 ] } ) } ) ;
points . enter ( ) . append ( 'circle' ) . attr ( 'class' , 'point' ) ;
points . exit ( ) . remove ( ) ;
points
. attr ( 'cx' , function ( d , i ) { return x ( getX ( d , i ) ) } )
. attr ( 'cy' , function ( d , i ) { return y ( getY ( d , i ) ) } )
. attr ( 'r' , 2 )
. style ( 'stroke' , function ( d , i ) { return d . x == x . domain ( ) [ 1 ] ? '#444' : d . y == y . domain ( ) [ 0 ] ? '#d62728' : '#2ca02c' } )
. style ( 'fill' , function ( d , i ) { return d . x == x . domain ( ) [ 1 ] ? '#444' : d . y == y . domain ( ) [ 0 ] ? '#d62728' : '#2ca02c' } ) ;
} ) ;
return chart ;
}
chart . margin = function ( _ ) {
if ( ! arguments . length ) return margin ;
margin = _ ;
return chart ;
} ;
chart . width = function ( _ ) {
if ( ! arguments . length ) return width ;
width = _ ;
return chart ;
} ;
chart . height = function ( _ ) {
if ( ! arguments . length ) return height ;
height = _ ;
return chart ;
} ;
chart . x = function ( _ ) {
if ( ! arguments . length ) return getX ;
getX = d3 . functor ( _ ) ;
return chart ;
} ;
chart . y = function ( _ ) {
if ( ! arguments . length ) return getY ;
getY = d3 . functor ( _ ) ;
return chart ;
} ;
chart . xDomain = function ( _ ) {
if ( ! arguments . length ) return xDomain ;
xDomain = _ ;
return chart ;
} ;
chart . yDomain = function ( _ ) {
if ( ! arguments . length ) return yDomain ;
yDomain = _ ;
return chart ;
} ;
chart . animate = function ( _ ) {
if ( ! arguments . length ) return animate ;
animate = _ ;
return chart ;
} ;
return chart ;
}
nv . models . sparklinePlus = function ( ) {
var margin = { top : 15 , right : 40 , bottom : 3 , left : 40 } ,
width = 400 ,
height = 50 ,
animate = true ,
getX = function ( d ) { return d . x } ,
getY = function ( d ) { return d . y } ,
color = d3 . scale . category20 ( ) . range ( ) ,
id = Math . floor ( Math . random ( ) * 100000 ) , //Create semi-unique ID incase user doesn't selet one
xTickFormat = d3 . format ( ',r' ) ,
yTickFormat = d3 . format ( ',.2f' ) ;
var x = d3 . scale . linear ( ) ,
y = d3 . scale . linear ( ) ,
sparkline = nv . models . sparkline ( ) ;
function chart ( selection ) {
selection . each ( function ( data ) {
var availableWidth = width - margin . left - margin . right ,
availableHeight = height - margin . top - margin . bottom ;
x . domain ( d3 . extent ( data , getX ) )
. range ( [ 0 , availableWidth ] ) ;
y . domain ( d3 . extent ( data , getY ) )
. range ( [ availableHeight , 0 ] ) ;
var wrap = d3 . select ( this ) . selectAll ( 'g.sparklineplus' ) . data ( [ data ] ) ;
var gEnter = wrap . enter ( ) . append ( 'g' )
//var gEnter = svg.enter().append('svg').append('g');
var sparklineWrap = gEnter . append ( 'g' ) . attr ( 'class' , 'nvd3 sparklineplus' )
. attr ( 'transform' , 'translate(' + margin . left + ',' + margin . top + ')' )
. style ( 'stroke' , function ( d , i ) { return d . color || color [ i % color . length ] } ) ;
sparkline
. xDomain ( x . domain ( ) )
. yDomain ( y . domain ( ) ) ;
sparklineWrap
//.attr('width', width)
//.attr('height', height)
. call ( sparkline ) ;
var hoverValue = sparklineWrap . append ( 'g' ) . attr ( 'class' , 'hoverValue' ) ;
var hoverArea = sparklineWrap . append ( 'g' ) . attr ( 'class' , 'hoverArea' ) ;
hoverValue . attr ( 'transform' , function ( d ) { return 'translate(' + x ( d ) + ',0)' } ) ;
var hoverLine = hoverValue . append ( 'line' )
. attr ( 'x1' , x . range ( ) [ 1 ] )
. attr ( 'y1' , - margin . top )
. attr ( 'x2' , x . range ( ) [ 1 ] )
. attr ( 'y2' , height )
var hoverX = hoverValue . append ( 'text' ) . attr ( 'class' , 'xValue' )
. attr ( 'text-anchor' , 'end' )
. attr ( 'dy' , '.9em' )
var hoverY = hoverValue . append ( 'text' ) . attr ( 'class' , 'yValue' )
//.attr('transform', function(d) { return 'translate(' + x(d) + ',0)' })
. attr ( 'text-anchor' , 'start' )
. attr ( 'dy' , '.9em' )
hoverArea . append ( 'rect' )
. attr ( 'width' , availableWidth )
. attr ( 'height' , availableHeight )
. on ( 'mousemove' , sparklineHover ) ;
function sparklineHover ( ) {
var pos = d3 . event . offsetX - margin . left ;
hoverLine
. attr ( 'x1' , pos )
. attr ( 'x2' , pos ) ;
hoverX
. attr ( 'transform' , function ( d ) { return 'translate(' + ( pos - 6 ) + ',' + ( - margin . top ) + ')' } )
//.text(xTickFormat(pos));
. text ( xTickFormat ( Math . round ( x . invert ( pos ) ) ) ) ; //TODO: refactor this line
hoverY
. attr ( 'transform' , function ( d ) { return 'translate(' + ( pos + 6 ) + ',' + ( - margin . top ) + ')' } )
//.text(data[pos] && yTickFormat(data[pos].y));
. text ( yTickFormat ( getY ( data [ Math . round ( x . invert ( pos ) ) ] ) ) ) ; //TODO: refactor this line
}
} ) ;
return chart ;
}
chart . margin = function ( _ ) {
if ( ! arguments . length ) return margin ;
margin = _ ;
return chart ;
} ;
chart . width = function ( _ ) {
if ( ! arguments . length ) return width ;
width = _ ;
sparkline . width ( _ - margin . left - margin . right ) ;
return chart ;
} ;
chart . height = function ( _ ) {
if ( ! arguments . length ) return height ;
height = _ ;
sparkline . height ( _ - margin . top - margin . bottom ) ;
return chart ;
} ;
chart . x = function ( _ ) {
if ( ! arguments . length ) return getX ;
getX = d3 . functor ( _ ) ;
sparkline . x ( _ ) ;
return chart ;
} ;
chart . y = function ( _ ) {
if ( ! arguments . length ) return getY ;
getY = d3 . functor ( _ ) ;
sparkline . y ( _ ) ;
return chart ;
} ;
chart . id = function ( _ ) {
if ( ! arguments . length ) return id ;
id = _ ;
return chart ;
} ;
chart . animate = function ( _ ) {
if ( ! arguments . length ) return animate ;
animate = _ ;
return chart ;
} ;
return chart ;
}
nv . models . stackedArea = function ( ) {
//============================================================
// Public Variables with Default Settings
//------------------------------------------------------------
var margin = { top : 0 , right : 0 , bottom : 0 , left : 0 } ,
width = 960 ,
height = 500 ,
color = d3 . scale . category20 ( ) . range ( ) , // array of colors to be used in order
id = Math . floor ( Math . random ( ) * 100000 ) , //Create semi-unique ID incase user doesn't selet one
getX = function ( d ) { return d . x } , // accessor to get the x value from a data point
getY = function ( d ) { return d . y } , // accessor to get the y value from a data point
style = 'stack' ,
offset = 'zero' ,
order = 'default' ,
clipEdge = false , // if true, masks lines within x and y scale
x , y ; //can be accessed via chart.scatter.[x/y]Scale()
/ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* offset :
* 'wiggle' ( stream )
* 'zero' ( stacked )
* 'expand' ( normalize to 100 % )
* 'silhouette' ( simple centered )
*
* order :
* 'inside-out' ( stream )
* 'default' ( input order )
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * /
//============================================================
// Private Variables
//------------------------------------------------------------
var stacked = d3 . layout . stack ( )
//.offset('zero')
. values ( function ( d ) { return d . values } ) //TODO: make values customizeable in EVERY model in this fashion
. x ( getX )
. y ( function ( d ) { return d . stackedY } )
. out ( function ( d , y0 , y ) {
d . display = {
y : y ,
y0 : y0
} ;
} ) ,
scatter = nv . models . scatter ( )
. size ( 2.2 ) // default size
. sizeDomain ( [ 2.5 ] ) ,
dispatch = d3 . dispatch ( 'tooltipShow' , 'tooltipHide' , 'areaClick' , 'areaMouseover' , 'areaMouseout' ) ;
function chart ( selection ) {
selection . each ( function ( data ) {
var availableWidth = width - margin . left - margin . right ,
availableHeight = height - margin . top - margin . bottom ;
x = scatter . xScale ( ) ;
y = scatter . yScale ( ) ;
// Injecting point index into each point because d3.layout.stack().out does not give index
// ***Also storing getY(d,i) as yStacked so that it can be set to 0 if series is disabled
// TODO: see if theres a way to deal with disabled series more consistent with the other models
data = data . map ( function ( aseries , i ) {
aseries . values = aseries . values . map ( function ( d , j ) {
d . index = j ;
d . stackedY = aseries . disabled ? 0 : getY ( d , j ) ;
return d ;
} )
return aseries ;
} ) ;
/ *
//TODO: Figure out why stream mode is broken with this
data = stacked
. order ( order )
. offset ( offset )
( data ) ;
* /
data = d3 . layout . stack ( )
. order ( order )
. offset ( offset )
. values ( function ( d ) { return d . values } ) //TODO: make values customizeable in EVERY model in this fashion
. x ( getX )
. y ( function ( d ) { return d . stackedY } )
. out ( function ( d , y0 , y ) {
d . display = {
y : y ,
y0 : y0
} ;
} )
( data ) ;
var wrap = d3 . select ( this ) . selectAll ( 'g.wrap.stackedarea' ) . data ( [ data ] ) ;
var wrapEnter = wrap . enter ( ) . append ( 'g' ) . attr ( 'class' , 'wrap nvd3 stackedarea' ) ;
var defsEnter = wrapEnter . append ( 'defs' ) ;
var gEnter = wrapEnter . append ( 'g' ) ;
var g = wrap . select ( 'g' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'areaWrap' ) ;
scatter
. width ( availableWidth )
. height ( availableHeight )
. x ( getX )
. y ( function ( d ) { return d . display . y + d . display . y0 } )
. forceY ( [ 0 ] )
. color ( data . map ( function ( d , i ) {
return d . color || color [ i % color . length ] ;
} ) . filter ( function ( d , i ) { return ! data [ i ] . disabled } ) ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'scatterWrap' ) ;
var scatterWrap = g . select ( '.scatterWrap' )
. datum ( data . filter ( function ( d ) { return ! d . disabled } ) )
d3 . transition ( scatterWrap ) . call ( scatter ) ;
wrap . attr ( 'transform' , 'translate(' + margin . left + ',' + margin . top + ')' ) ;
defsEnter . append ( 'clipPath' )
. attr ( 'id' , 'edge-clip-' + id )
. append ( 'rect' ) ;
wrap . select ( '#edge-clip-' + id + ' rect' )
. attr ( 'width' , availableWidth )
. attr ( 'height' , availableHeight ) ;
g . attr ( 'clip-path' , clipEdge ? 'url(#edge-clip-' + id + ')' : '' ) ;
var area = d3 . svg . area ( )
. x ( function ( d , i ) { return x ( getX ( d , i ) ) } )
. y0 ( function ( d ) { return y ( d . display . y0 ) } )
. y1 ( function ( d ) { return y ( d . display . y + d . display . y0 ) } ) ;
var zeroArea = d3 . svg . area ( )
. x ( function ( d , i ) { return x ( getX ( d , i ) ) } )
. y0 ( function ( d ) { return y ( d . display . y0 ) } )
. y1 ( function ( d ) { return y ( d . display . y0 ) } ) ;
var path = g . select ( '.areaWrap' ) . selectAll ( 'path.area' )
. data ( function ( d ) { return d } ) ;
//.data(function(d) { return d }, function(d) { return d.key });
path . enter ( ) . append ( 'path' ) . attr ( 'class' , function ( d , i ) { return 'area area-' + i } )
. on ( 'mouseover' , function ( d , i ) {
d3 . select ( this ) . classed ( 'hover' , true ) ;
dispatch . areaMouseover ( {
point : d ,
series : d . key ,
pos : [ d3 . event . pageX , d3 . event . pageY ] ,
seriesIndex : i
} ) ;
} )
. on ( 'mouseout' , function ( d , i ) {
d3 . select ( this ) . classed ( 'hover' , false ) ;
dispatch . areaMouseout ( {
point : d ,
series : d . key ,
pos : [ d3 . event . pageX , d3 . event . pageY ] ,
seriesIndex : i
} ) ;
} )
. on ( 'click' , function ( d , i ) {
d3 . select ( this ) . classed ( 'hover' , false ) ;
dispatch . areaClick ( {
point : d ,
series : d . key ,
pos : [ d3 . event . pageX , d3 . event . pageY ] ,
seriesIndex : i
} ) ;
} )
d3 . transition ( path . exit ( ) )
. attr ( 'd' , function ( d , i ) { return zeroArea ( d . values , i ) } )
. remove ( ) ;
path
. style ( 'fill' , function ( d , i ) { return d . color || color [ i % color . length ] } )
. style ( 'stroke' , function ( d , i ) { return d . color || color [ i % color . length ] } ) ;
d3 . transition ( path )
. attr ( 'd' , function ( d , i ) { return area ( d . values , i ) } )
//============================================================
// Event Handling/Dispatching (in chart's scope)
//------------------------------------------------------------
scatter . dispatch . on ( 'elementMouseover.area' , function ( e ) {
g . select ( '.chart-' + id + ' .area-' + e . seriesIndex ) . classed ( 'hover' , true ) ;
} ) ;
scatter . dispatch . on ( 'elementMouseout.area' , function ( e ) {
g . select ( '.chart-' + id + ' .area-' + e . seriesIndex ) . classed ( 'hover' , false ) ;
} ) ;
} ) ;
return chart ;
}
//============================================================
// Event Handling/Dispatching (out of chart's scope)
//------------------------------------------------------------
scatter . dispatch . on ( 'elementClick.area' , function ( e ) {
dispatch . areaClick ( e ) ;
} )
scatter . dispatch . on ( 'elementMouseover.tooltip' , function ( e ) {
e . pos = [ e . pos [ 0 ] + margin . left , e . pos [ 1 ] + margin . top ] ,
dispatch . tooltipShow ( e ) ;
} ) ;
scatter . dispatch . on ( 'elementMouseout.tooltip' , function ( e ) {
dispatch . tooltipHide ( e ) ;
} ) ;
//============================================================
// Global getters and setters
//------------------------------------------------------------
chart . dispatch = dispatch ;
chart . scatter = scatter ;
d3 . rebind ( chart , scatter , 'interactive' , 'size' , 'xScale' , 'yScale' , 'zScale' , 'xDomain' , 'yDomain' , 'sizeDomain' , 'forceX' , 'forceY' , 'forceSize' , 'clipVoronoi' , 'clipRadius' ) ;
chart . x = function ( _ ) {
if ( ! arguments . length ) return getX ;
getX = d3 . functor ( _ ) ;
return chart ;
} ;
chart . y = function ( _ ) {
if ( ! arguments . length ) return getY ;
getY = d3 . functor ( _ ) ;
return chart ;
}
chart . margin = function ( _ ) {
if ( ! arguments . length ) return margin ;
margin = _ ;
return chart ;
} ;
chart . width = function ( _ ) {
if ( ! arguments . length ) return width ;
width = _ ;
return chart ;
} ;
chart . height = function ( _ ) {
if ( ! arguments . length ) return height ;
height = _ ;
return chart ;
} ;
chart . clipEdge = function ( _ ) {
if ( ! arguments . length ) return clipEdge ;
clipEdge = _ ;
return chart ;
} ;
chart . color = function ( _ ) {
if ( ! arguments . length ) return color ;
color = _ ;
return chart ;
} ;
chart . offset = function ( _ ) {
if ( ! arguments . length ) return offset ;
offset = _ ;
return chart ;
} ;
chart . order = function ( _ ) {
if ( ! arguments . length ) return order ;
order = _ ;
return chart ;
} ;
//shortcut for offset + order
chart . style = function ( _ ) {
if ( ! arguments . length ) return style ;
style = _ ;
switch ( style ) {
case 'stack' :
chart . offset ( 'zero' ) ;
chart . order ( 'default' ) ;
break ;
case 'stream' :
chart . offset ( 'wiggle' ) ;
chart . order ( 'inside-out' ) ;
break ;
case 'expand' :
chart . offset ( 'expand' ) ;
chart . order ( 'default' ) ;
break ;
}
return chart ;
} ;
return chart ;
}
nv . models . stackedAreaChart = function ( ) {
//============================================================
// Public Variables with Default Settings
//------------------------------------------------------------
var margin = { top : 30 , right : 25 , bottom : 50 , left : 60 } ,
width = null ,
height = null ,
color = d3 . scale . category20 ( ) . range ( ) ,
showControls = true ,
showLegend = true ,
tooltips = true ,
tooltip = function ( key , x , y , e , graph ) {
return '<h3>' + key + '</h3>' +
'<p>' + y + ' on ' + x + '</p>'
} ,
x , y ; //can be accessed via chart.stacked.[x/y]Scale()
//============================================================
// Private Variables
//------------------------------------------------------------
var stacked = nv . models . stackedArea ( ) ,
xAxis = nv . models . axis ( ) . orient ( 'bottom' ) . tickPadding ( 5 ) ,
yAxis = nv . models . axis ( ) . orient ( 'left' ) ,
legend = nv . models . legend ( ) . height ( 30 ) ,
controls = nv . models . legend ( ) . height ( 30 ) ,
dispatch = d3 . dispatch ( 'tooltipShow' , 'tooltipHide' ) ;
//TODO: let user select default
var controlsData = [
{ key : 'Stacked' } ,
{ key : 'Stream' , disabled : true } ,
{ key : 'Expanded' , disabled : true }
] ;
var showTooltip = function ( e , offsetElement ) {
var left = e . pos [ 0 ] + ( offsetElement . offsetLeft || 0 ) ,
top = e . pos [ 1 ] + ( offsetElement . offsetTop || 0 ) ,
x = xAxis . tickFormat ( ) ( stacked . x ( ) ( e . point , e . pointIndex ) ) ,
y = yAxis . tickFormat ( ) ( stacked . y ( ) ( e . point , e . pointIndex ) ) ,
content = tooltip ( e . series . key , x , y , e , chart ) ;
nv . tooltip . show ( [ left , top ] , content , e . value < 0 ? 'n' : 's' ) ;
} ;
function chart ( selection ) {
selection . each ( function ( data ) {
var container = d3 . select ( this ) ,
that = this ;
var availableWidth = ( width || parseInt ( container . style ( 'width' ) ) || 960 )
- margin . left - margin . right ,
availableHeight = ( height || parseInt ( container . style ( 'height' ) ) || 400 )
- margin . top - margin . bottom ;
x = stacked . xScale ( ) ;
y = stacked . yScale ( ) ;
var wrap = container . selectAll ( 'g.wrap.stackedAreaChart' ) . data ( [ data ] ) ;
var gEnter = wrap . enter ( ) . append ( 'g' ) . attr ( 'class' , 'wrap nvd3 stackedAreaChart' ) . append ( 'g' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'x axis' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'y axis' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'stackedWrap' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'legendWrap' ) ;
gEnter . append ( 'g' ) . attr ( 'class' , 'controlsWrap' ) ;
var g = wrap . select ( 'g' ) ;
if ( showLegend ) {
legend
. width ( availableWidth / 2 ) ;
g . select ( '.legendWrap' )
. datum ( data )
. call ( legend ) ;
if ( margin . top != legend . height ( ) ) {
margin . top = legend . height ( ) ;
availableHeight = ( height || parseInt ( container . style ( 'height' ) ) || 400 )
- margin . top - margin . bottom ;
}
g . select ( '.legendWrap' )
. attr ( 'transform' , 'translate(' + ( availableWidth / 2 ) + ',' + ( - margin . top ) + ')' ) ;
}
stacked
. width ( availableWidth )
. height ( availableHeight )
if ( showControls ) {
controls . width ( 280 ) . color ( [ '#444' , '#444' , '#444' ] ) ;
g . select ( '.controlsWrap' )
. datum ( controlsData )
. attr ( 'transform' , 'translate(0,' + ( - margin . top ) + ')' )
. call ( controls ) ;
}
g . attr ( 'transform' , 'translate(' + margin . left + ',' + margin . top + ')' ) ;
var stackedWrap = g . select ( '.stackedWrap' )
. datum ( data ) ;
d3 . transition ( stackedWrap ) . call ( stacked ) ;
xAxis
. scale ( x )
. ticks ( availableWidth / 100 )
. tickSize ( - availableHeight , 0 ) ;
g . select ( '.x.axis' )
. attr ( 'transform' , 'translate(0,' + availableHeight + ')' ) ;
d3 . transition ( g . select ( '.x.axis' ) )
. call ( xAxis ) ;
yAxis
. scale ( y )
. ticks ( stacked . offset ( ) == 'wiggle' ? 0 : availableHeight / 36 )
. tickSize ( - availableWidth , 0 )
. tickFormat ( stacked . offset ( ) == 'expand' ? d3 . format ( '%' ) : d3 . format ( ',.2f' ) ) ; //TODO: stacked format should be set by caller
d3 . transition ( g . select ( '.y.axis' ) )
. call ( yAxis ) ;
//============================================================
// Event Handling/Dispatching (in chart's scope)
//------------------------------------------------------------
stacked . dispatch . on ( 'areaClick.toggle' , function ( e ) {
if ( data . filter ( function ( d ) { return ! d . disabled } ) . length === 1 )
data = data . map ( function ( d ) {
d . disabled = false ;
return d
} ) ;
else
data = data . map ( function ( d , i ) {
d . disabled = ( i != e . seriesIndex ) ;
return d
} ) ;
selection . transition ( ) . call ( chart ) ;
} ) ;
legend . dispatch . on ( 'legendClick' , function ( d , i ) {
d . disabled = ! d . disabled ;
if ( ! data . filter ( function ( d ) { return ! d . disabled } ) . length ) {
data . map ( function ( d ) {
d . disabled = false ;
return d ;
} ) ;
}
selection . transition ( ) . call ( chart ) ;
} ) ;
controls . dispatch . on ( 'legendClick' , function ( d , i ) {
if ( ! d . disabled ) return ;
controlsData = controlsData . map ( function ( s ) {
s . disabled = true ;
return s ;
} ) ;
d . disabled = false ;
switch ( d . key ) {
case 'Stacked' :
stacked . style ( 'stack' ) ;
break ;
case 'Stream' :
stacked . style ( 'stream' ) ;
break ;
case 'Expanded' :
stacked . style ( 'expand' ) ;
break ;
}
selection . transition ( ) . call ( chart ) ;
} ) ;
dispatch . on ( 'tooltipShow' , function ( e ) {
if ( tooltips ) showTooltip ( e , that . parentNode ) ;
} ) ;
} ) ;
//TODO: decide if this makes sense to add into all the models for ease of updating (updating without needing the selection)
chart . update = function ( ) { selection . transition ( ) . call ( chart ) } ;
chart . container = this ; // I need a reference to the container in order to have outside code check if the chart is visible or not
return chart ;
}
//============================================================
// Event Handling/Dispatching (out of chart's scope)
//------------------------------------------------------------
stacked . dispatch . on ( 'tooltipShow' , function ( e ) {
//disable tooltips when value ~= 0
//// TODO: consider removing points from voronoi that have 0 value instead of this hack
if ( ! Math . round ( stacked . y ( ) ( e . point ) * 100 ) ) { // 100 will not be good for very small numbers... will have to think about making this valu dynamic, based on data range
setTimeout ( function ( ) { d3 . selectAll ( '.point.hover' ) . classed ( 'hover' , false ) } , 0 ) ;
return false ;
}
e . pos = [ e . pos [ 0 ] + margin . left , e . pos [ 1 ] + margin . top ] ,
dispatch . tooltipShow ( e ) ;
} ) ;
stacked . dispatch . on ( 'tooltipHide' , function ( e ) {
dispatch . tooltipHide ( e ) ;
} ) ;
dispatch . on ( 'tooltipHide' , function ( ) {
if ( tooltips ) nv . tooltip . cleanup ( ) ;
} ) ;
//============================================================
// Global getters and setters
//------------------------------------------------------------
chart . dispatch = dispatch ;
chart . stacked = stacked ;
chart . xAxis = xAxis ;
chart . yAxis = yAxis ;
d3 . rebind ( chart , stacked , 'x' , 'y' , 'size' , 'xScale' , 'yScale' , 'xDomain' , 'yDomain' , 'sizeDomain' , 'interactive' , 'offset' , 'order' , 'style' , 'clipEdge' , 'forceX' , 'forceY' , 'forceSize' ) ;
chart . margin = function ( _ ) {
if ( ! arguments . length ) return margin ;
margin = _ ;
return chart ;
} ;
chart . width = function ( _ ) {
if ( ! arguments . length ) return getWidth ;
width = _ ;
return chart ;
} ;
chart . height = function ( _ ) {
if ( ! arguments . length ) return getHeight ;
height = _ ;
return chart ;
} ;
chart . color = function ( _ ) {
if ( ! arguments . length ) return color ;
color = _ ;
legend . color ( _ ) ;
return chart ;
} ;
chart . showControls = function ( _ ) {
if ( ! arguments . length ) return showControls ;
showControls = _ ;
return chart ;
} ;
chart . showLegend = function ( _ ) {
if ( ! arguments . length ) return showLegend ;
showLegend = _ ;
return chart ;
} ;
chart . tooltips = function ( _ ) {
if ( ! arguments . length ) return tooltips ;
tooltips = _ ;
return chart ;
} ;
chart . tooltipContent = function ( _ ) {
if ( ! arguments . length ) return tooltip ;
tooltip = _ ;
return chart ;
} ;
return chart ;
}
} ) ( ) ;
