/**
* @license Highcharts JS v5.0.11 (2017-05-04)
* Highstock as a plugin for Highcharts
*
* (c) 2017 Torstein Honsi
*
* License: www.highcharts.com/license
*/
'use strict';
(function(factory) {
if (typeof module === 'object' && module.exports) {
module.exports = factory;
} else {
factory(Highcharts);
}
}(function(Highcharts) {
(function(H) {
/**
* (c) 2010-2017 Torstein Honsi
*
* License: www.highcharts.com/license
*/
var addEvent = H.addEvent,
Axis = H.Axis,
Chart = H.Chart,
css = H.css,
dateFormat = H.dateFormat,
defined = H.defined,
each = H.each,
extend = H.extend,
noop = H.noop,
Series = H.Series,
timeUnits = H.timeUnits,
wrap = H.wrap;
/* ****************************************************************************
* Start ordinal axis logic *
*****************************************************************************/
wrap(Series.prototype, 'init', function(proceed) {
var series = this,
xAxis;
// call the original function
proceed.apply(this, Array.prototype.slice.call(arguments, 1));
xAxis = series.xAxis;
// Destroy the extended ordinal index on updated data
if (xAxis && xAxis.options.ordinal) {
addEvent(series, 'updatedData', function() {
delete xAxis.ordinalIndex;
});
}
});
/**
* In an ordinal axis, there might be areas with dense consentrations of points, then large
* gaps between some. Creating equally distributed ticks over this entire range
* may lead to a huge number of ticks that will later be removed. So instead, break the
* positions up in segments, find the tick positions for each segment then concatenize them.
* This method is used from both data grouping logic and X axis tick position logic.
*/
wrap(Axis.prototype, 'getTimeTicks', function(proceed, normalizedInterval, min, max, startOfWeek, positions, closestDistance, findHigherRanks) {
var start = 0,
end,
segmentPositions,
higherRanks = {},
hasCrossedHigherRank,
info,
posLength,
outsideMax,
groupPositions = [],
lastGroupPosition = -Number.MAX_VALUE,
tickPixelIntervalOption = this.options.tickPixelInterval;
// The positions are not always defined, for example for ordinal positions when data
// has regular interval (#1557, #2090)
if ((!this.options.ordinal && !this.options.breaks) || !positions || positions.length < 3 || min === undefined) {
return proceed.call(this, normalizedInterval, min, max, startOfWeek);
}
// Analyze the positions array to split it into segments on gaps larger than 5 times
// the closest distance. The closest distance is already found at this point, so
// we reuse that instead of computing it again.
posLength = positions.length;
for (end = 0; end < posLength; end++) {
outsideMax = end && positions[end - 1] > max;
if (positions[end] < min) { // Set the last position before min
start = end;
}
if (end === posLength - 1 || positions[end + 1] - positions[end] > closestDistance * 5 || outsideMax) {
// For each segment, calculate the tick positions from the getTimeTicks utility
// function. The interval will be the same regardless of how long the segment is.
if (positions[end] > lastGroupPosition) { // #1475
segmentPositions = proceed.call(this, normalizedInterval, positions[start], positions[end], startOfWeek);
// Prevent duplicate groups, for example for multiple segments within one larger time frame (#1475)
while (segmentPositions.length && segmentPositions[0] <= lastGroupPosition) {
segmentPositions.shift();
}
if (segmentPositions.length) {
lastGroupPosition = segmentPositions[segmentPositions.length - 1];
}
groupPositions = groupPositions.concat(segmentPositions);
}
// Set start of next segment
start = end + 1;
}
if (outsideMax) {
break;
}
}
// Get the grouping info from the last of the segments. The info is the same for
// all segments.
info = segmentPositions.info;
// Optionally identify ticks with higher rank, for example when the ticks
// have crossed midnight.
if (findHigherRanks && info.unitRange <= timeUnits.hour) {
end = groupPositions.length - 1;
// Compare points two by two
for (start = 1; start < end; start++) {
if (dateFormat('%d', groupPositions[start]) !== dateFormat('%d', groupPositions[start - 1])) {
higherRanks[groupPositions[start]] = 'day';
hasCrossedHigherRank = true;
}
}
// If the complete array has crossed midnight, we want to mark the first
// positions also as higher rank
if (hasCrossedHigherRank) {
higherRanks[groupPositions[0]] = 'day';
}
info.higherRanks = higherRanks;
}
// Save the info
groupPositions.info = info;
// Don't show ticks within a gap in the ordinal axis, where the space between
// two points is greater than a portion of the tick pixel interval
if (findHigherRanks && defined(tickPixelIntervalOption)) { // check for squashed ticks
var length = groupPositions.length,
i = length,
itemToRemove,
translated,
translatedArr = [],
lastTranslated,
medianDistance,
distance,
distances = [];
// Find median pixel distance in order to keep a reasonably even distance between
// ticks (#748)
while (i--) {
translated = this.translate(groupPositions[i]);
if (lastTranslated) {
distances[i] = lastTranslated - translated;
}
translatedArr[i] = lastTranslated = translated;
}
distances.sort();
medianDistance = distances[Math.floor(distances.length / 2)];
if (medianDistance < tickPixelIntervalOption * 0.6) {
medianDistance = null;
}
// Now loop over again and remove ticks where needed
i = groupPositions[length - 1] > max ? length - 1 : length; // #817
lastTranslated = undefined;
while (i--) {
translated = translatedArr[i];
distance = Math.abs(lastTranslated - translated);
// #4175 - when axis is reversed, the distance, is negative but
// tickPixelIntervalOption positive, so we need to compare the same values
// Remove ticks that are closer than 0.6 times the pixel interval from the one to the right,
// but not if it is close to the median distance (#748).
if (lastTranslated && distance < tickPixelIntervalOption * 0.8 &&
(medianDistance === null || distance < medianDistance * 0.8)) {
// Is this a higher ranked position with a normal position to the right?
if (higherRanks[groupPositions[i]] && !higherRanks[groupPositions[i + 1]]) {
// Yes: remove the lower ranked neighbour to the right
itemToRemove = i + 1;
lastTranslated = translated; // #709
} else {
// No: remove this one
itemToRemove = i;
}
groupPositions.splice(itemToRemove, 1);
} else {
lastTranslated = translated;
}
}
}
return groupPositions;
});
// Extend the Axis prototype
extend(Axis.prototype, /** @lends Axis.prototype */ {
/**
* Calculate the ordinal positions before tick positions are calculated.
*/
beforeSetTickPositions: function() {
var axis = this,
len,
ordinalPositions = [],
useOrdinal = false,
dist,
extremes = axis.getExtremes(),
min = extremes.min,
max = extremes.max,
minIndex,
maxIndex,
slope,
hasBreaks = axis.isXAxis && !!axis.options.breaks,
isOrdinal = axis.options.ordinal,
ignoreHiddenSeries = axis.chart.options.chart.ignoreHiddenSeries,
i;
// apply the ordinal logic
if (isOrdinal || hasBreaks) { // #4167 YAxis is never ordinal ?
each(axis.series, function(series, i) {
if ((!ignoreHiddenSeries || series.visible !== false) && (series.takeOrdinalPosition !== false || hasBreaks)) {
// concatenate the processed X data into the existing positions, or the empty array
ordinalPositions = ordinalPositions.concat(series.processedXData);
len = ordinalPositions.length;
// remove duplicates (#1588)
ordinalPositions.sort(function(a, b) {
return a - b; // without a custom function it is sorted as strings
});
if (len) {
i = len - 1;
while (i--) {
if (ordinalPositions[i] === ordinalPositions[i + 1]) {
ordinalPositions.splice(i, 1);
}
}
}
}
});
// cache the length
len = ordinalPositions.length;
// Check if we really need the overhead of mapping axis data against the ordinal positions.
// If the series consist of evenly spaced data any way, we don't need any ordinal logic.
if (len > 2) { // two points have equal distance by default
dist = ordinalPositions[1] - ordinalPositions[0];
i = len - 1;
while (i-- && !useOrdinal) {
if (ordinalPositions[i + 1] - ordinalPositions[i] !== dist) {
useOrdinal = true;
}
}
// When zooming in on a week, prevent axis padding for weekends even though the data within
// the week is evenly spaced.
if (!axis.options.keepOrdinalPadding && (ordinalPositions[0] - min > dist || max - ordinalPositions[ordinalPositions.length - 1] > dist)) {
useOrdinal = true;
}
}
// Record the slope and offset to compute the linear values from the array index.
// Since the ordinal positions may exceed the current range, get the start and
// end positions within it (#719, #665b)
if (useOrdinal) {
// Register
axis.ordinalPositions = ordinalPositions;
// This relies on the ordinalPositions being set. Use Math.max
// and Math.min to prevent padding on either sides of the data.
minIndex = axis.ordinal2lin( // #5979
Math.max(
min,
ordinalPositions[0]
),
true
);
maxIndex = Math.max(axis.ordinal2lin(
Math.min(
max,
ordinalPositions[ordinalPositions.length - 1]
),
true
), 1); // #3339
// Set the slope and offset of the values compared to the indices in the ordinal positions
axis.ordinalSlope = slope = (max - min) / (maxIndex - minIndex);
axis.ordinalOffset = min - (minIndex * slope);
} else {
axis.ordinalPositions = axis.ordinalSlope = axis.ordinalOffset = undefined;
}
}
axis.isOrdinal = isOrdinal && useOrdinal; // #3818, #4196, #4926
axis.groupIntervalFactor = null; // reset for next run
},
/**
* Translate from a linear axis value to the corresponding ordinal axis position. If there
* are no gaps in the ordinal axis this will be the same. The translated value is the value
* that the point would have if the axis were linear, using the same min and max.
*
* @param Number val The axis value
* @param Boolean toIndex Whether to return the index in the ordinalPositions or the new value
*/
val2lin: function(val, toIndex) {
var axis = this,
ordinalPositions = axis.ordinalPositions,
ret;
if (!ordinalPositions) {
ret = val;
} else {
var ordinalLength = ordinalPositions.length,
i,
distance,
ordinalIndex;
// first look for an exact match in the ordinalpositions array
i = ordinalLength;
while (i--) {
if (ordinalPositions[i] === val) {
ordinalIndex = i;
break;
}
}
// if that failed, find the intermediate position between the two nearest values
i = ordinalLength - 1;
while (i--) {
if (val > ordinalPositions[i] || i === 0) { // interpolate
distance = (val - ordinalPositions[i]) / (ordinalPositions[i + 1] - ordinalPositions[i]); // something between 0 and 1
ordinalIndex = i + distance;
break;
}
}
ret = toIndex ?
ordinalIndex :
axis.ordinalSlope * (ordinalIndex || 0) + axis.ordinalOffset;
}
return ret;
},
/**
* Translate from linear (internal) to axis value
*
* @param Number val The linear abstracted value
* @param Boolean fromIndex Translate from an index in the ordinal positions rather than a value
*/
lin2val: function(val, fromIndex) {
var axis = this,
ordinalPositions = axis.ordinalPositions,
ret;
if (!ordinalPositions) { // the visible range contains only equally spaced values
ret = val;
} else {
var ordinalSlope = axis.ordinalSlope,
ordinalOffset = axis.ordinalOffset,
i = ordinalPositions.length - 1,
linearEquivalentLeft,
linearEquivalentRight,
distance;
// Handle the case where we translate from the index directly, used only
// when panning an ordinal axis
if (fromIndex) {
if (val < 0) { // out of range, in effect panning to the left
val = ordinalPositions[0];
} else if (val > i) { // out of range, panning to the right
val = ordinalPositions[i];
} else { // split it up
i = Math.floor(val);
distance = val - i; // the decimal
}
// Loop down along the ordinal positions. When the linear equivalent of i matches
// an ordinal position, interpolate between the left and right values.
} else {
while (i--) {
linearEquivalentLeft = (ordinalSlope * i) + ordinalOffset;
if (val >= linearEquivalentLeft) {
linearEquivalentRight = (ordinalSlope * (i + 1)) + ordinalOffset;
distance = (val - linearEquivalentLeft) / (linearEquivalentRight - linearEquivalentLeft); // something between 0 and 1
break;
}
}
}
// If the index is within the range of the ordinal positions, return the associated
// or interpolated value. If not, just return the value
return distance !== undefined && ordinalPositions[i] !== undefined ?
ordinalPositions[i] + (distance ? distance * (ordinalPositions[i + 1] - ordinalPositions[i]) : 0) :
val;
}
return ret;
},
/**
* Get the ordinal positions for the entire data set. This is necessary in chart panning
* because we need to find out what points or data groups are available outside the
* visible range. When a panning operation starts, if an index for the given grouping
* does not exists, it is created and cached. This index is deleted on updated data, so
* it will be regenerated the next time a panning operation starts.
*/
getExtendedPositions: function() {
var axis = this,
chart = axis.chart,
grouping = axis.series[0].currentDataGrouping,
ordinalIndex = axis.ordinalIndex,
key = grouping ? grouping.count + grouping.unitName : 'raw',
extremes = axis.getExtremes(),
fakeAxis,
fakeSeries;
// If this is the first time, or the ordinal index is deleted by updatedData,
// create it.
if (!ordinalIndex) {
ordinalIndex = axis.ordinalIndex = {};
}
if (!ordinalIndex[key]) {
// Create a fake axis object where the extended ordinal positions are emulated
fakeAxis = {
series: [],
chart: chart,
getExtremes: function() {
return {
min: extremes.dataMin,
max: extremes.dataMax
};
},
options: {
ordinal: true
},
val2lin: Axis.prototype.val2lin, // #2590
ordinal2lin: Axis.prototype.ordinal2lin // #6276
};
// Add the fake series to hold the full data, then apply processData to it
each(axis.series, function(series) {
fakeSeries = {
xAxis: fakeAxis,
xData: series.xData,
chart: chart,
destroyGroupedData: noop
};
fakeSeries.options = {
dataGrouping: grouping ? {
enabled: true,
forced: true,
approximation: 'open', // doesn't matter which, use the fastest
units: [
[grouping.unitName, [grouping.count]]
]
} : {
enabled: false
}
};
series.processData.apply(fakeSeries);
fakeAxis.series.push(fakeSeries);
});
// Run beforeSetTickPositions to compute the ordinalPositions
axis.beforeSetTickPositions.apply(fakeAxis);
// Cache it
ordinalIndex[key] = fakeAxis.ordinalPositions;
}
return ordinalIndex[key];
},
/**
* Find the factor to estimate how wide the plot area would have been if ordinal
* gaps were included. This value is used to compute an imagined plot width in order
* to establish the data grouping interval.
*
* A real world case is the intraday-candlestick
* example. Without this logic, it would show the correct data grouping when viewing
* a range within each day, but once moving the range to include the gap between two
* days, the interval would include the cut-away night hours and the data grouping
* would be wrong. So the below method tries to compensate by identifying the most
* common point interval, in this case days.
*
* An opposite case is presented in issue #718. We have a long array of daily data,
* then one point is appended one hour after the last point. We expect the data grouping
* not to change.
*
* In the future, if we find cases where this estimation doesn't work optimally, we
* might need to add a second pass to the data grouping logic, where we do another run
* with a greater interval if the number of data groups is more than a certain fraction
* of the desired group count.
*/
getGroupIntervalFactor: function(xMin, xMax, series) {
var i,
processedXData = series.processedXData,
len = processedXData.length,
distances = [],
median,
groupIntervalFactor = this.groupIntervalFactor;
// Only do this computation for the first series, let the other inherit it (#2416)
if (!groupIntervalFactor) {
// Register all the distances in an array
for (i = 0; i < len - 1; i++) {
distances[i] = processedXData[i + 1] - processedXData[i];
}
// Sort them and find the median
distances.sort(function(a, b) {
return a - b;
});
median = distances[Math.floor(len / 2)];
// Compensate for series that don't extend through the entire axis extent. #1675.
xMin = Math.max(xMin, processedXData[0]);
xMax = Math.min(xMax, processedXData[len - 1]);
this.groupIntervalFactor = groupIntervalFactor = (len * median) / (xMax - xMin);
}
// Return the factor needed for data grouping
return groupIntervalFactor;
},
/**
* Make the tick intervals closer because the ordinal gaps make the ticks spread out or cluster
*/
postProcessTickInterval: function(tickInterval) {
// Problem: http://jsfiddle.net/highcharts/FQm4E/1/
// This is a case where this algorithm doesn't work optimally. In this case, the
// tick labels are spread out per week, but all the gaps reside within weeks. So
// we have a situation where the labels are courser than the ordinal gaps, and
// thus the tick interval should not be altered
var ordinalSlope = this.ordinalSlope,
ret;
if (ordinalSlope) {
if (!this.options.breaks) {
ret = tickInterval / (ordinalSlope / this.closestPointRange);
} else {
ret = this.closestPointRange;
}
} else {
ret = tickInterval;
}
return ret;
}
});
// Record this to prevent overwriting by broken-axis module (#5979)
Axis.prototype.ordinal2lin = Axis.prototype.val2lin;
// Extending the Chart.pan method for ordinal axes
wrap(Chart.prototype, 'pan', function(proceed, e) {
var chart = this,
xAxis = chart.xAxis[0],
chartX = e.chartX,
runBase = false;
if (xAxis.options.ordinal && xAxis.series.length) {
var mouseDownX = chart.mouseDownX,
extremes = xAxis.getExtremes(),
dataMax = extremes.dataMax,
min = extremes.min,
max = extremes.max,
trimmedRange,
hoverPoints = chart.hoverPoints,
closestPointRange = xAxis.closestPointRange,
pointPixelWidth = xAxis.translationSlope * (xAxis.ordinalSlope || closestPointRange),
movedUnits = (mouseDownX - chartX) / pointPixelWidth, // how many ordinal units did we move?
extendedAxis = {
ordinalPositions: xAxis.getExtendedPositions()
}, // get index of all the chart's points
ordinalPositions,
searchAxisLeft,
lin2val = xAxis.lin2val,
val2lin = xAxis.val2lin,
searchAxisRight;
if (!extendedAxis.ordinalPositions) { // we have an ordinal axis, but the data is equally spaced
runBase = true;
} else if (Math.abs(movedUnits) > 1) {
// Remove active points for shared tooltip
if (hoverPoints) {
each(hoverPoints, function(point) {
point.setState();
});
}
if (movedUnits < 0) {
searchAxisLeft = extendedAxis;
searchAxisRight = xAxis.ordinalPositions ? xAxis : extendedAxis;
} else {
searchAxisLeft = xAxis.ordinalPositions ? xAxis : extendedAxis;
searchAxisRight = extendedAxis;
}
// In grouped data series, the last ordinal position represents the grouped data, which is
// to the left of the real data max. If we don't compensate for this, we will be allowed
// to pan grouped data series passed the right of the plot area.
ordinalPositions = searchAxisRight.ordinalPositions;
if (dataMax > ordinalPositions[ordinalPositions.length - 1]) {
ordinalPositions.push(dataMax);
}
// Get the new min and max values by getting the ordinal index for the current extreme,
// then add the moved units and translate back to values. This happens on the
// extended ordinal positions if the new position is out of range, else it happens
// on the current x axis which is smaller and faster.
chart.fixedRange = max - min;
trimmedRange = xAxis.toFixedRange(null, null,
lin2val.apply(searchAxisLeft, [
val2lin.apply(searchAxisLeft, [min, true]) + movedUnits, // the new index
true // translate from index
]),
lin2val.apply(searchAxisRight, [
val2lin.apply(searchAxisRight, [max, true]) + movedUnits, // the new index
true // translate from index
])
);
// Apply it if it is within the available data range
if (trimmedRange.min >= Math.min(extremes.dataMin, min) && trimmedRange.max <= Math.max(dataMax, max)) {
xAxis.setExtremes(trimmedRange.min, trimmedRange.max, true, false, {
trigger: 'pan'
});
}
chart.mouseDownX = chartX; // set new reference for next run
css(chart.container, {
cursor: 'move'
});
}
} else {
runBase = true;
}
// revert to the linear chart.pan version
if (runBase) {
// call the original function
proceed.apply(this, Array.prototype.slice.call(arguments, 1));
}
});
/* ****************************************************************************
* End ordinal axis logic *
*****************************************************************************/
}(Highcharts));
(function(H) {
/**
* (c) 2009-2017 Torstein Honsi
*
* License: www.highcharts.com/license
*/
var pick = H.pick,
wrap = H.wrap,
each = H.each,
extend = H.extend,
isArray = H.isArray,
fireEvent = H.fireEvent,
Axis = H.Axis,
Series = H.Series;
function stripArguments() {
return Array.prototype.slice.call(arguments, 1);
}
extend(Axis.prototype, {
isInBreak: function(brk, val) {
var ret,
repeat = brk.repeat || Infinity,
from = brk.from,
length = brk.to - brk.from,
test = (val >= from ? (val - from) % repeat : repeat - ((from - val) % repeat));
if (!brk.inclusive) {
ret = test < length && test !== 0;
} else {
ret = test <= length;
}
return ret;
},
isInAnyBreak: function(val, testKeep) {
var breaks = this.options.breaks,
i = breaks && breaks.length,
inbrk,
keep,
ret;
if (i) {
while (i--) {
if (this.isInBreak(breaks[i], val)) {
inbrk = true;
if (!keep) {
keep = pick(breaks[i].showPoints, this.isXAxis ? false : true);
}
}
}
if (inbrk && testKeep) {
ret = inbrk && !keep;
} else {
ret = inbrk;
}
}
return ret;
}
});
wrap(Axis.prototype, 'setTickPositions', function(proceed) {
proceed.apply(this, Array.prototype.slice.call(arguments, 1));
if (this.options.breaks) {
var axis = this,
tickPositions = this.tickPositions,
info = this.tickPositions.info,
newPositions = [],
i;
for (i = 0; i < tickPositions.length; i++) {
if (!axis.isInAnyBreak(tickPositions[i])) {
newPositions.push(tickPositions[i]);
}
}
this.tickPositions = newPositions;
this.tickPositions.info = info;
}
});
wrap(Axis.prototype, 'init', function(proceed, chart, userOptions) {
var axis = this,
breaks;
// Force Axis to be not-ordinal when breaks are defined
if (userOptions.breaks && userOptions.breaks.length) {
userOptions.ordinal = false;
}
proceed.call(this, chart, userOptions);
breaks = this.options.breaks;
axis.isBroken = (isArray(breaks) && !!breaks.length);
if (axis.isBroken) {
axis.val2lin = function(val) {
var nval = val,
brk,
i;
for (i = 0; i < axis.breakArray.length; i++) {
brk = axis.breakArray[i];
if (brk.to <= val) {
nval -= brk.len;
} else if (brk.from >= val) {
break;
} else if (axis.isInBreak(brk, val)) {
nval -= (val - brk.from);
break;
}
}
return nval;
};
axis.lin2val = function(val) {
var nval = val,
brk,
i;
for (i = 0; i < axis.breakArray.length; i++) {
brk = axis.breakArray[i];
if (brk.from >= nval) {
break;
} else if (brk.to < nval) {
nval += brk.len;
} else if (axis.isInBreak(brk, nval)) {
nval += brk.len;
}
}
return nval;
};
axis.setExtremes = function(newMin, newMax, redraw, animation, eventArguments) {
// If trying to set extremes inside a break, extend it to before and after the break ( #3857 )
while (this.isInAnyBreak(newMin)) {
newMin -= this.closestPointRange;
}
while (this.isInAnyBreak(newMax)) {
newMax -= this.closestPointRange;
}
Axis.prototype.setExtremes.call(this, newMin, newMax, redraw, animation, eventArguments);
};
axis.setAxisTranslation = function(saveOld) {
Axis.prototype.setAxisTranslation.call(this, saveOld);
var breaks = axis.options.breaks,
breakArrayT = [], // Temporary one
breakArray = [],
length = 0,
inBrk,
repeat,
min = axis.userMin || axis.min,
max = axis.userMax || axis.max,
pointRangePadding = pick(axis.pointRangePadding, 0),
start,
i;
// Min & max check (#4247)
each(breaks, function(brk) {
repeat = brk.repeat || Infinity;
if (axis.isInBreak(brk, min)) {
min += (brk.to % repeat) - (min % repeat);
}
if (axis.isInBreak(brk, max)) {
max -= (max % repeat) - (brk.from % repeat);
}
});
// Construct an array holding all breaks in the axis
each(breaks, function(brk) {
start = brk.from;
repeat = brk.repeat || Infinity;
while (start - repeat > min) {
start -= repeat;
}
while (start < min) {
start += repeat;
}
for (i = start; i < max; i += repeat) {
breakArrayT.push({
value: i,
move: 'in'
});
breakArrayT.push({
value: i + (brk.to - brk.from),
move: 'out',
size: brk.breakSize
});
}
});
breakArrayT.sort(function(a, b) {
var ret;
if (a.value === b.value) {
ret = (a.move === 'in' ? 0 : 1) - (b.move === 'in' ? 0 : 1);
} else {
ret = a.value - b.value;
}
return ret;
});
// Simplify the breaks
inBrk = 0;
start = min;
each(breakArrayT, function(brk) {
inBrk += (brk.move === 'in' ? 1 : -1);
if (inBrk === 1 && brk.move === 'in') {
start = brk.value;
}
if (inBrk === 0) {
breakArray.push({
from: start,
to: brk.value,
len: brk.value - start - (brk.size || 0)
});
length += brk.value - start - (brk.size || 0);
}
});
axis.breakArray = breakArray;
// Used with staticScale, and below, the actual axis length when
// breaks are substracted.
axis.unitLength = max - min - length + pointRangePadding;
fireEvent(axis, 'afterBreaks');
if (axis.options.staticScale) {
axis.transA = axis.options.staticScale;
} else if (axis.unitLength) {
axis.transA *= (max - axis.min + pointRangePadding) /
axis.unitLength;
}
if (pointRangePadding) {
axis.minPixelPadding = axis.transA * axis.minPointOffset;
}
axis.min = min;
axis.max = max;
};
}
});
wrap(Series.prototype, 'generatePoints', function(proceed) {
proceed.apply(this, stripArguments(arguments));
var series = this,
xAxis = series.xAxis,
yAxis = series.yAxis,
points = series.points,
point,
i = points.length,
connectNulls = series.options.connectNulls,
nullGap;
if (xAxis && yAxis && (xAxis.options.breaks || yAxis.options.breaks)) {
while (i--) {
point = points[i];
nullGap = point.y === null && connectNulls === false; // respect nulls inside the break (#4275)
if (!nullGap && (xAxis.isInAnyBreak(point.x, true) || yAxis.isInAnyBreak(point.y, true))) {
points.splice(i, 1);
if (this.data[i]) {
this.data[i].destroyElements(); // removes the graphics for this point if they exist
}
}
}
}
});
function drawPointsWrapped(proceed) {
proceed.apply(this);
this.drawBreaks(this.xAxis, ['x']);
this.drawBreaks(this.yAxis, pick(this.pointArrayMap, ['y']));
}
H.Series.prototype.drawBreaks = function(axis, keys) {
var series = this,
points = series.points,
breaks,
threshold,
eventName,
y;
if (!axis) {
return; // #5950
}
each(keys, function(key) {
breaks = axis.breakArray || [];
threshold = axis.isXAxis ? axis.min : pick(series.options.threshold, axis.min);
each(points, function(point) {
y = pick(point['stack' + key.toUpperCase()], point[key]);
each(breaks, function(brk) {
eventName = false;
if ((threshold < brk.from && y > brk.to) || (threshold > brk.from && y < brk.from)) {
eventName = 'pointBreak';
} else if ((threshold < brk.from && y > brk.from && y < brk.to) || (threshold > brk.from && y > brk.to && y < brk.from)) { // point falls inside the break
eventName = 'pointInBreak';
}
if (eventName) {
fireEvent(axis, eventName, {
point: point,
brk: brk
});
}
});
});
});
};
/**
* Extend getGraphPath by identifying gaps in the data so that we can draw a gap
* in the line or area. This was moved from ordinal axis module to broken axis
* module as of #5045.
*/
H.Series.prototype.gappedPath = function() {
var gapSize = this.options.gapSize,
points = this.points.slice(),
i = points.length - 1;
if (gapSize && i > 0) { // #5008
// extension for ordinal breaks
while (i--) {
if (points[i + 1].x - points[i].x > this.closestPointRange * gapSize) {
points.splice( // insert after this one
i + 1,
0, {
isNull: true
}
);
}
}
}
// Call base method
return this.getGraphPath(points);
};
wrap(H.seriesTypes.column.prototype, 'drawPoints', drawPointsWrapped);
wrap(H.Series.prototype, 'drawPoints', drawPointsWrapped);
}(Highcharts));
(function() {
}());
(function(H) {
/**
* (c) 2010-2017 Torstein Honsi
*
* License: www.highcharts.com/license
*/
var arrayMax = H.arrayMax,
arrayMin = H.arrayMin,
Axis = H.Axis,
defaultPlotOptions = H.defaultPlotOptions,
defined = H.defined,
each = H.each,
extend = H.extend,
format = H.format,
isNumber = H.isNumber,
merge = H.merge,
pick = H.pick,
Point = H.Point,
Series = H.Series,
Tooltip = H.Tooltip,
wrap = H.wrap;
/* ****************************************************************************
* Start data grouping module *
******************************************************************************/
var seriesProto = Series.prototype,
baseProcessData = seriesProto.processData,
baseGeneratePoints = seriesProto.generatePoints,
baseDestroy = seriesProto.destroy,
commonOptions = {
approximation: 'average', // average, open, high, low, close, sum
//enabled: null, // (true for stock charts, false for basic),
//forced: undefined,
groupPixelWidth: 2,
// the first one is the point or start value, the second is the start value if we're dealing with range,
// the third one is the end value if dealing with a range
dateTimeLabelFormats: {
millisecond: ['%A, %b %e, %H:%M:%S.%L', '%A, %b %e, %H:%M:%S.%L', '-%H:%M:%S.%L'],
second: ['%A, %b %e, %H:%M:%S', '%A, %b %e, %H:%M:%S', '-%H:%M:%S'],
minute: ['%A, %b %e, %H:%M', '%A, %b %e, %H:%M', '-%H:%M'],
hour: ['%A, %b %e, %H:%M', '%A, %b %e, %H:%M', '-%H:%M'],
day: ['%A, %b %e, %Y', '%A, %b %e', '-%A, %b %e, %Y'],
week: ['Week from %A, %b %e, %Y', '%A, %b %e', '-%A, %b %e, %Y'],
month: ['%B %Y', '%B', '-%B %Y'],
year: ['%Y', '%Y', '-%Y']
}
// smoothed = false, // enable this for navigator series only
},
specificOptions = { // extends common options
line: {},
spline: {},
area: {},
areaspline: {},
column: {
approximation: 'sum',
groupPixelWidth: 10
},
arearange: {
approximation: 'range'
},
areasplinerange: {
approximation: 'range'
},
columnrange: {
approximation: 'range',
groupPixelWidth: 10
},
candlestick: {
approximation: 'ohlc',
groupPixelWidth: 10
},
ohlc: {
approximation: 'ohlc',
groupPixelWidth: 5
}
},
// units are defined in a separate array to allow complete overriding in case of a user option
defaultDataGroupingUnits = H.defaultDataGroupingUnits = [
[
'millisecond', // unit name
[1, 2, 5, 10, 20, 25, 50, 100, 200, 500] // allowed multiples
],
[
'second', [1, 2, 5, 10, 15, 30]
],
[
'minute', [1, 2, 5, 10, 15, 30]
],
[
'hour', [1, 2, 3, 4, 6, 8, 12]
],
[
'day', [1]
],
[
'week', [1]
],
[
'month', [1, 3, 6]
],
[
'year',
null
]
],
/**
* Define the available approximation types. The data grouping
* approximations takes an array or numbers as the first parameter. In case
* of ohlc, four arrays are sent in as four parameters. Each array consists
* only of numbers. In case null values belong to the group, the property
* .hasNulls will be set to true on the array.
*/
approximations = {
sum: function(arr) {
var len = arr.length,
ret;
// 1. it consists of nulls exclusively
if (!len && arr.hasNulls) {
ret = null;
// 2. it has a length and real values
} else if (len) {
ret = 0;
while (len--) {
ret += arr[len];
}
}
// 3. it has zero length, so just return undefined
// => doNothing()
return ret;
},
average: function(arr) {
var len = arr.length,
ret = approximations.sum(arr);
// If we have a number, return it divided by the length. If not,
// return null or undefined based on what the sum method finds.
if (isNumber(ret) && len) {
ret = ret / len;
}
return ret;
},
// The same as average, but for series with multiple values, like area
// ranges.
averages: function() { // #5479
var ret = [];
each(arguments, function(arr) {
ret.push(approximations.average(arr));
});
return ret;
},
open: function(arr) {
return arr.length ? arr[0] : (arr.hasNulls ? null : undefined);
},
high: function(arr) {
return arr.length ? arrayMax(arr) : (arr.hasNulls ? null : undefined);
},
low: function(arr) {
return arr.length ? arrayMin(arr) : (arr.hasNulls ? null : undefined);
},
close: function(arr) {
return arr.length ? arr[arr.length - 1] : (arr.hasNulls ? null : undefined);
},
// ohlc and range are special cases where a multidimensional array is input and an array is output
ohlc: function(open, high, low, close) {
open = approximations.open(open);
high = approximations.high(high);
low = approximations.low(low);
close = approximations.close(close);
if (isNumber(open) || isNumber(high) || isNumber(low) || isNumber(close)) {
return [open, high, low, close];
}
// else, return is undefined
},
range: function(low, high) {
low = approximations.low(low);
high = approximations.high(high);
if (isNumber(low) || isNumber(high)) {
return [low, high];
}
// else, return is undefined
}
};
/**
* Takes parallel arrays of x and y data and groups the data into intervals
* defined by groupPositions, a collection of starting x values for each group.
*/
seriesProto.groupData = function(xData, yData, groupPositions, approximation) {
var series = this,
data = series.data,
dataOptions = series.options.data,
groupedXData = [],
groupedYData = [],
groupMap = [],
dataLength = xData.length,
pointX,
pointY,
groupedY,
// when grouping the fake extended axis for panning,
// we don't need to consider y
handleYData = !!yData,
values = [],
approximationFn = typeof approximation === 'function' ?
approximation :
approximations[approximation] ||
// if the approximation is not found use default series type
// approximation (#2914)
(
specificOptions[series.type] &&
approximations[specificOptions[series.type].approximation]
) || approximations[commonOptions.approximation],
pointArrayMap = series.pointArrayMap,
pointArrayMapLength = pointArrayMap && pointArrayMap.length,
pos = 0,
start = 0,
valuesLen,
i, j;
// Calculate values array size from pointArrayMap length
if (pointArrayMapLength) {
each(pointArrayMap, function() {
values.push([]);
});
} else {
values.push([]);
}
valuesLen = pointArrayMapLength || 1;
// Start with the first point within the X axis range (#2696)
for (i = 0; i <= dataLength; i++) {
if (xData[i] >= groupPositions[0]) {
break;
}
}
for (i; i <= dataLength; i++) {
// when a new group is entered, summarize and initiate
// the previous group
while ((
groupPositions[pos + 1] !== undefined &&
xData[i] >= groupPositions[pos + 1]
) || i === dataLength) { // get the last group
// get group x and y
pointX = groupPositions[pos];
series.dataGroupInfo = {
start: start,
length: values[0].length
};
groupedY = approximationFn.apply(series, values);
// push the grouped data
if (groupedY !== undefined) {
groupedXData.push(pointX);
groupedYData.push(groupedY);
groupMap.push(series.dataGroupInfo);
}
// reset the aggregate arrays
start = i;
for (j = 0; j < valuesLen; j++) {
values[j].length = 0; // faster than values[j] = []
values[j].hasNulls = false;
}
// Advance on the group positions
pos += 1;
// don't loop beyond the last group
if (i === dataLength) {
break;
}
}
// break out
if (i === dataLength) {
break;
}
// for each raw data point, push it to an array that contains all values
// for this specific group
if (pointArrayMap) {
var index = series.cropStart + i,
point = (data && data[index]) ||
series.pointClass.prototype.applyOptions.apply({
series: series
}, [dataOptions[index]]),
val;
for (j = 0; j < pointArrayMapLength; j++) {
val = point[pointArrayMap[j]];
if (isNumber(val)) {
values[j].push(val);
} else if (val === null) {
values[j].hasNulls = true;
}
}
} else {
pointY = handleYData ? yData[i] : null;
if (isNumber(pointY)) {
values[0].push(pointY);
} else if (pointY === null) {
values[0].hasNulls = true;
}
}
}
return [groupedXData, groupedYData, groupMap];
};
/**
* Extend the basic processData method, that crops the data to the current zoom
* range, with data grouping logic.
*/
seriesProto.processData = function() {
var series = this,
chart = series.chart,
options = series.options,
dataGroupingOptions = options.dataGrouping,
groupingEnabled = series.allowDG !== false && dataGroupingOptions &&
pick(dataGroupingOptions.enabled, chart.options.isStock),
visible = series.visible || !chart.options.chart.ignoreHiddenSeries,
hasGroupedData,
skip;
// run base method
series.forceCrop = groupingEnabled; // #334
series.groupPixelWidth = null; // #2110
series.hasProcessed = true; // #2692
// skip if processData returns false or if grouping is disabled (in that order)
skip = baseProcessData.apply(series, arguments) === false || !groupingEnabled;
if (!skip) {
series.destroyGroupedData();
var i,
processedXData = series.processedXData,
processedYData = series.processedYData,
plotSizeX = chart.plotSizeX,
xAxis = series.xAxis,
ordinal = xAxis.options.ordinal,
groupPixelWidth = series.groupPixelWidth = xAxis.getGroupPixelWidth && xAxis.getGroupPixelWidth();
// Execute grouping if the amount of points is greater than the limit defined in groupPixelWidth
if (groupPixelWidth) {
hasGroupedData = true;
series.isDirty = true; // force recreation of point instances in series.translate, #5699
var extremes = xAxis.getExtremes(),
xMin = extremes.min,
xMax = extremes.max,
groupIntervalFactor = (ordinal && xAxis.getGroupIntervalFactor(xMin, xMax, series)) || 1,
interval = (groupPixelWidth * (xMax - xMin) / plotSizeX) * groupIntervalFactor,
groupPositions = xAxis.getTimeTicks(
xAxis.normalizeTimeTickInterval(interval, dataGroupingOptions.units || defaultDataGroupingUnits),
Math.min(xMin, processedXData[0]), // Processed data may extend beyond axis (#4907)
Math.max(xMax, processedXData[processedXData.length - 1]),
xAxis.options.startOfWeek,
processedXData,
series.closestPointRange
),
groupedData = seriesProto.groupData.apply(series, [processedXData, processedYData, groupPositions, dataGroupingOptions.approximation]),
groupedXData = groupedData[0],
groupedYData = groupedData[1];
// prevent the smoothed data to spill out left and right, and make
// sure data is not shifted to the left
if (dataGroupingOptions.smoothed) {
i = groupedXData.length - 1;
groupedXData[i] = Math.min(groupedXData[i], xMax);
while (i-- && i > 0) {
groupedXData[i] += interval / 2;
}
groupedXData[0] = Math.max(groupedXData[0], xMin);
}
// record what data grouping values were used
series.currentDataGrouping = groupPositions.info;
series.closestPointRange = groupPositions.info.totalRange;
series.groupMap = groupedData[2];
// Make sure the X axis extends to show the first group (#2533)
// But only for visible series (#5493, #6393)
if (defined(groupedXData[0]) && groupedXData[0] < xAxis.dataMin && visible) {
if (xAxis.min === xAxis.dataMin) {
xAxis.min = groupedXData[0];
}
xAxis.dataMin = groupedXData[0];
}
// set series props
series.processedXData = groupedXData;
series.processedYData = groupedYData;
} else {
series.currentDataGrouping = series.groupMap = null;
}
series.hasGroupedData = hasGroupedData;
}
};
/**
* Destroy the grouped data points. #622, #740
*/
seriesProto.destroyGroupedData = function() {
var groupedData = this.groupedData;
// clear previous groups
each(groupedData || [], function(point, i) {
if (point) {
groupedData[i] = point.destroy ? point.destroy() : null;
}
});
this.groupedData = null;
};
/**
* Override the generatePoints method by adding a reference to grouped data
*/
seriesProto.generatePoints = function() {
baseGeneratePoints.apply(this);
// record grouped data in order to let it be destroyed the next time processData runs
this.destroyGroupedData(); // #622
this.groupedData = this.hasGroupedData ? this.points : null;
};
/**
* Override point prototype to throw a warning when trying to update grouped points
*/
wrap(Point.prototype, 'update', function(proceed) {
if (this.dataGroup) {
H.error(24);
} else {
proceed.apply(this, [].slice.call(arguments, 1));
}
});
/**
* Extend the original method, make the tooltip's header reflect the grouped range
*/
wrap(Tooltip.prototype, 'tooltipFooterHeaderFormatter', function(proceed, labelConfig, isFooter) {
var tooltip = this,
series = labelConfig.series,
options = series.options,
tooltipOptions = series.tooltipOptions,
dataGroupingOptions = options.dataGrouping,
xDateFormat = tooltipOptions.xDateFormat,
xDateFormatEnd,
xAxis = series.xAxis,
dateFormat = H.dateFormat,
currentDataGrouping,
dateTimeLabelFormats,
labelFormats,
formattedKey;
// apply only to grouped series
if (xAxis && xAxis.options.type === 'datetime' && dataGroupingOptions && isNumber(labelConfig.key)) {
// set variables
currentDataGrouping = series.currentDataGrouping;
dateTimeLabelFormats = dataGroupingOptions.dateTimeLabelFormats;
// if we have grouped data, use the grouping information to get the right format
if (currentDataGrouping) {
labelFormats = dateTimeLabelFormats[currentDataGrouping.unitName];
if (currentDataGrouping.count === 1) {
xDateFormat = labelFormats[0];
} else {
xDateFormat = labelFormats[1];
xDateFormatEnd = labelFormats[2];
}
// if not grouped, and we don't have set the xDateFormat option, get the best fit,
// so if the least distance between points is one minute, show it, but if the
// least distance is one day, skip hours and minutes etc.
} else if (!xDateFormat && dateTimeLabelFormats) {
xDateFormat = tooltip.getXDateFormat(labelConfig, tooltipOptions, xAxis);
}
// now format the key
formattedKey = dateFormat(xDateFormat, labelConfig.key);
if (xDateFormatEnd) {
formattedKey += dateFormat(xDateFormatEnd, labelConfig.key + currentDataGrouping.totalRange - 1);
}
// return the replaced format
return format(tooltipOptions[(isFooter ? 'footer' : 'header') + 'Format'], {
point: extend(labelConfig.point, {
key: formattedKey
}),
series: series
});
}
// else, fall back to the regular formatter
return proceed.call(tooltip, labelConfig, isFooter);
});
/**
* Extend the series destroyer
*/
seriesProto.destroy = function() {
var series = this,
groupedData = series.groupedData || [],
i = groupedData.length;
while (i--) {
if (groupedData[i]) {
groupedData[i].destroy();
}
}
baseDestroy.apply(series);
};
// Handle default options for data grouping. This must be set at runtime because some series types are
// defined after this.
wrap(seriesProto, 'setOptions', function(proceed, itemOptions) {
var options = proceed.call(this, itemOptions),
type = this.type,
plotOptions = this.chart.options.plotOptions,
defaultOptions = defaultPlotOptions[type].dataGrouping;
if (specificOptions[type]) { // #1284
if (!defaultOptions) {
defaultOptions = merge(commonOptions, specificOptions[type]);
}
options.dataGrouping = merge(
defaultOptions,
plotOptions.series && plotOptions.series.dataGrouping, // #1228
plotOptions[type].dataGrouping, // Set by the StockChart constructor
itemOptions.dataGrouping
);
}
if (this.chart.options.isStock) {
this.requireSorting = true;
}
return options;
});
/**
* When resetting the scale reset the hasProccessed flag to avoid taking previous data grouping
* of neighbour series into accound when determining group pixel width (#2692).
*/
wrap(Axis.prototype, 'setScale', function(proceed) {
proceed.call(this);
each(this.series, function(series) {
series.hasProcessed = false;
});
});
/**
* Get the data grouping pixel width based on the greatest defined individual width
* of the axis' series, and if whether one of the axes need grouping.
*/
Axis.prototype.getGroupPixelWidth = function() {
var series = this.series,
len = series.length,
i,
groupPixelWidth = 0,
doGrouping = false,
dataLength,
dgOptions;
// If multiple series are compared on the same x axis, give them the same
// group pixel width (#334)
i = len;
while (i--) {
dgOptions = series[i].options.dataGrouping;
if (dgOptions) {
groupPixelWidth = Math.max(groupPixelWidth, dgOptions.groupPixelWidth);
}
}
// If one of the series needs grouping, apply it to all (#1634)
i = len;
while (i--) {
dgOptions = series[i].options.dataGrouping;
if (dgOptions && series[i].hasProcessed) { // #2692
dataLength = (series[i].processedXData || series[i].data).length;
// Execute grouping if the amount of points is greater than the limit defined in groupPixelWidth
if (series[i].groupPixelWidth || dataLength > (this.chart.plotSizeX / groupPixelWidth) || (dataLength && dgOptions.forced)) {
doGrouping = true;
}
}
}
return doGrouping ? groupPixelWidth : 0;
};
/**
* Force data grouping on all the axis' series.
*/
Axis.prototype.setDataGrouping = function(dataGrouping, redraw) {
var i;
redraw = pick(redraw, true);
if (!dataGrouping) {
dataGrouping = {
forced: false,
units: null
};
}
// Axis is instantiated, update all series
if (this instanceof Axis) {
i = this.series.length;
while (i--) {
this.series[i].update({
dataGrouping: dataGrouping
}, false);
}
// Axis not yet instanciated, alter series options
} else {
each(this.chart.options.series, function(seriesOptions) {
seriesOptions.dataGrouping = dataGrouping;
}, false);
}
if (redraw) {
this.chart.redraw();
}
};
/* ****************************************************************************
* End data grouping module *
******************************************************************************/
}(Highcharts));
(function(H) {
/**
* (c) 2010-2017 Torstein Honsi
*
* License: www.highcharts.com/license
*/
var each = H.each,
Point = H.Point,
seriesType = H.seriesType,
seriesTypes = H.seriesTypes;
/**
* The ohlc series type.
*
* @constructor seriesTypes.ohlc
* @augments seriesTypes.column
*/
seriesType('ohlc', 'column', {
lineWidth: 1,
tooltip: {
pointFormat: '\u25CF {series.name}
' +
'Open: {point.open}
' +
'High: {point.high}
' +
'Low: {point.low}
' +
'Close: {point.close}
'
},
threshold: null,
states: {
hover: {
lineWidth: 3
}
},
stickyTracking: true
//upColor: undefined
}, /** @lends seriesTypes.ohlc */ {
directTouch: false,
pointArrayMap: ['open', 'high', 'low', 'close'], // array point configs are mapped to this
toYData: function(point) { // return a plain array for speedy calculation
return [point.open, point.high, point.low, point.close];
},
pointValKey: 'close',
pointAttrToOptions: {
'stroke': 'color',
'stroke-width': 'lineWidth'
},
/**
* Postprocess mapping between options and SVG attributes
*/
pointAttribs: function(point, state) {
var attribs = seriesTypes.column.prototype.pointAttribs.call(
this,
point,
state
),
options = this.options;
delete attribs.fill;
if (!point.options.color &&
options.upColor &&
point.open < point.close
) {
attribs.stroke = options.upColor;
}
return attribs;
},
/**
* Translate data points from raw values x and y to plotX and plotY
*/
translate: function() {
var series = this,
yAxis = series.yAxis,
hasModifyValue = !!series.modifyValue,
translated = ['plotOpen', 'plotHigh', 'plotLow', 'plotClose', 'yBottom']; // translate OHLC for
seriesTypes.column.prototype.translate.apply(series);
// Do the translation
each(series.points, function(point) {
each([point.open, point.high, point.low, point.close, point.low], function(value, i) {
if (value !== null) {
if (hasModifyValue) {
value = series.modifyValue(value);
}
point[translated[i]] = yAxis.toPixels(value, true);
}
});
// Align the tooltip to the high value to avoid covering the point
point.tooltipPos[1] =
point.plotHigh + yAxis.pos - series.chart.plotTop;
});
},
/**
* Draw the data points
*/
drawPoints: function() {
var series = this,
points = series.points,
chart = series.chart;
each(points, function(point) {
var plotOpen,
plotClose,
crispCorr,
halfWidth,
path,
graphic = point.graphic,
crispX,
isNew = !graphic;
if (point.plotY !== undefined) {
// Create and/or update the graphic
if (!graphic) {
point.graphic = graphic = chart.renderer.path()
.add(series.group);
}
graphic.attr(series.pointAttribs(point, point.selected && 'select')); // #3897
// crisp vector coordinates
crispCorr = (graphic.strokeWidth() % 2) / 2;
crispX = Math.round(point.plotX) - crispCorr; // #2596
halfWidth = Math.round(point.shapeArgs.width / 2);
// the vertical stem
path = [
'M',
crispX, Math.round(point.yBottom),
'L',
crispX, Math.round(point.plotHigh)
];
// open
if (point.open !== null) {
plotOpen = Math.round(point.plotOpen) + crispCorr;
path.push(
'M',
crispX,
plotOpen,
'L',
crispX - halfWidth,
plotOpen
);
}
// close
if (point.close !== null) {
plotClose = Math.round(point.plotClose) + crispCorr;
path.push(
'M',
crispX,
plotClose,
'L',
crispX + halfWidth,
plotClose
);
}
graphic[isNew ? 'attr' : 'animate']({
d: path
})
.addClass(point.getClassName(), true);
}
});
},
animate: null // Disable animation
/**
* @constructor seriesTypes.ohlc.prototype.pointClass
* @extends {Point}
*/
}, /** @lends seriesTypes.ohlc.prototype.pointClass.prototype */ {
/**
* Extend the parent method by adding up or down to the class name.
*/
getClassName: function() {
return Point.prototype.getClassName.call(this) +
(this.open < this.close ? ' highcharts-point-up' : ' highcharts-point-down');
}
});
/* ****************************************************************************
* End OHLC series code *
*****************************************************************************/
}(Highcharts));
(function(H) {
/**
* (c) 2010-2017 Torstein Honsi
*
* License: www.highcharts.com/license
*/
var defaultPlotOptions = H.defaultPlotOptions,
each = H.each,
merge = H.merge,
seriesType = H.seriesType,
seriesTypes = H.seriesTypes;
/**
* The candlestick series type.
*
* @constructor seriesTypes.candlestick
* @augments seriesTypes.ohlc
*/
seriesType('candlestick', 'ohlc', merge(defaultPlotOptions.column, {
states: {
hover: {
lineWidth: 2
}
},
tooltip: defaultPlotOptions.ohlc.tooltip,
threshold: null,
lineColor: '#000000',
lineWidth: 1,
upColor: '#ffffff',
stickyTracking: true
// upLineColor: null
}), /** @lends seriesTypes.candlestick */ {
/**
* Postprocess mapping between options and SVG attributes
*/
pointAttribs: function(point, state) {
var attribs = seriesTypes.column.prototype.pointAttribs.call(this, point, state),
options = this.options,
isUp = point.open < point.close,
stroke = options.lineColor || this.color,
stateOptions;
attribs['stroke-width'] = options.lineWidth;
attribs.fill = point.options.color || (isUp ? (options.upColor || this.color) : this.color);
attribs.stroke = point.lineColor || (isUp ? (options.upLineColor || stroke) : stroke);
// Select or hover states
if (state) {
stateOptions = options.states[state];
attribs.fill = stateOptions.color || attribs.fill;
attribs.stroke = stateOptions.lineColor || attribs.stroke;
attribs['stroke-width'] =
stateOptions.lineWidth || attribs['stroke-width'];
}
return attribs;
},
/**
* Draw the data points
*/
drawPoints: function() {
var series = this, //state = series.state,
points = series.points,
chart = series.chart;
each(points, function(point) {
var graphic = point.graphic,
plotOpen,
plotClose,
topBox,
bottomBox,
hasTopWhisker,
hasBottomWhisker,
crispCorr,
crispX,
path,
halfWidth,
isNew = !graphic;
if (point.plotY !== undefined) {
if (!graphic) {
point.graphic = graphic = chart.renderer.path()
.add(series.group);
}
graphic
.attr(series.pointAttribs(point, point.selected && 'select')) // #3897
.shadow(series.options.shadow);
// Crisp vector coordinates
crispCorr = (graphic.strokeWidth() % 2) / 2;
crispX = Math.round(point.plotX) - crispCorr; // #2596
plotOpen = point.plotOpen;
plotClose = point.plotClose;
topBox = Math.min(plotOpen, plotClose);
bottomBox = Math.max(plotOpen, plotClose);
halfWidth = Math.round(point.shapeArgs.width / 2);
hasTopWhisker = Math.round(topBox) !== Math.round(point.plotHigh);
hasBottomWhisker = bottomBox !== point.yBottom;
topBox = Math.round(topBox) + crispCorr;
bottomBox = Math.round(bottomBox) + crispCorr;
// Create the path. Due to a bug in Chrome 49, the path is first instanciated
// with no values, then the values pushed. For unknown reasons, instanciated
// the path array with all the values would lead to a crash when updating
// frequently (#5193).
path = [];
path.push(
'M',
crispX - halfWidth, bottomBox,
'L',
crispX - halfWidth, topBox,
'L',
crispX + halfWidth, topBox,
'L',
crispX + halfWidth, bottomBox,
'Z', // Use a close statement to ensure a nice rectangle #2602
'M',
crispX, topBox,
'L',
crispX, hasTopWhisker ? Math.round(point.plotHigh) : topBox, // #460, #2094
'M',
crispX, bottomBox,
'L',
crispX, hasBottomWhisker ? Math.round(point.yBottom) : bottomBox // #460, #2094
);
graphic[isNew ? 'attr' : 'animate']({
d: path
})
.addClass(point.getClassName(), true);
}
});
}
});
/* ****************************************************************************
* End Candlestick series code *
*****************************************************************************/
}(Highcharts));
(function(H) {
/**
* (c) 2010-2017 Torstein Honsi
*
* License: www.highcharts.com/license
*/
var addEvent = H.addEvent,
each = H.each,
merge = H.merge,
noop = H.noop,
Renderer = H.Renderer,
Series = H.Series,
seriesType = H.seriesType,
seriesTypes = H.seriesTypes,
SVGRenderer = H.SVGRenderer,
TrackerMixin = H.TrackerMixin,
VMLRenderer = H.VMLRenderer,
symbols = SVGRenderer.prototype.symbols,
stableSort = H.stableSort;
/**
* The flags series type.
*
* @constructor seriesTypes.flags
* @augments seriesTypes.column
*/
seriesType('flags', 'column', {
pointRange: 0, // #673
//radius: 2,
shape: 'flag',
stackDistance: 12,
textAlign: 'center',
tooltip: {
pointFormat: '{point.text}
'
},
threshold: null,
y: -30,
fillColor: '#ffffff',
// lineColor: color,
lineWidth: 1,
states: {
hover: {
lineColor: '#000000',
fillColor: '#ccd6eb'
}
},
style: {
fontSize: '11px',
fontWeight: 'bold'
}
}, /** @lends seriesTypes.flags.prototype */ {
sorted: false,
noSharedTooltip: true,
allowDG: false,
takeOrdinalPosition: false, // #1074
trackerGroups: ['markerGroup'],
forceCrop: true,
/**
* Inherit the initialization from base Series.
*/
init: Series.prototype.init,
/**
* Get presentational attributes
*/
pointAttribs: function(point, state) {
var options = this.options,
color = (point && point.color) || this.color,
lineColor = options.lineColor,
lineWidth = (point && point.lineWidth),
fill = (point && point.fillColor) || options.fillColor;
if (state) {
fill = options.states[state].fillColor;
lineColor = options.states[state].lineColor;
lineWidth = options.states[state].lineWidth;
}
return {
'fill': fill || color,
'stroke': lineColor || color,
'stroke-width': lineWidth || options.lineWidth || 0
};
},
/**
* Extend the translate method by placing the point on the related series
*/
translate: function() {
seriesTypes.column.prototype.translate.apply(this);
var series = this,
options = series.options,
chart = series.chart,
points = series.points,
cursor = points.length - 1,
point,
lastPoint,
optionsOnSeries = options.onSeries,
onSeries = optionsOnSeries && chart.get(optionsOnSeries),
onKey = options.onKey || 'y',
step = onSeries && onSeries.options.step,
onData = onSeries && onSeries.points,
i = onData && onData.length,
xAxis = series.xAxis,
yAxis = series.yAxis,
xAxisExt = xAxis.getExtremes(),
xOffset = 0,
leftPoint,
lastX,
rightPoint,
currentDataGrouping;
// relate to a master series
if (onSeries && onSeries.visible && i) {
xOffset = (onSeries.pointXOffset || 0) + (onSeries.barW || 0) / 2;
currentDataGrouping = onSeries.currentDataGrouping;
lastX = onData[i - 1].x + (currentDataGrouping ? currentDataGrouping.totalRange : 0); // #2374
// sort the data points
stableSort(points, function(a, b) {
return (a.x - b.x);
});
onKey = 'plot' + onKey[0].toUpperCase() + onKey.substr(1);
while (i-- && points[cursor]) {
point = points[cursor];
leftPoint = onData[i];
if (leftPoint.x <= point.x && leftPoint[onKey] !== undefined) {
if (point.x <= lastX) { // #803
point.plotY = leftPoint[onKey];
// interpolate between points, #666
if (leftPoint.x < point.x && !step) {
rightPoint = onData[i + 1];
if (rightPoint && rightPoint[onKey] !== undefined) {
point.plotY +=
((point.x - leftPoint.x) / (rightPoint.x - leftPoint.x)) * // the distance ratio, between 0 and 1
(rightPoint[onKey] - leftPoint[onKey]); // the y distance
}
}
}
cursor--;
i++; // check again for points in the same x position
if (cursor < 0) {
break;
}
}
}
}
// Add plotY position and handle stacking
each(points, function(point, i) {
var stackIndex;
// Undefined plotY means the point is either on axis, outside series
// range or hidden series. If the series is outside the range of the
// x axis it should fall through with an undefined plotY, but then
// we must remove the shapeArgs (#847).
if (point.plotY === undefined) {
if (point.x >= xAxisExt.min && point.x <= xAxisExt.max) {
// we're inside xAxis range
point.plotY = chart.chartHeight - xAxis.bottom -
(xAxis.opposite ? xAxis.height : 0) +
xAxis.offset - yAxis.top; // #3517
} else {
point.shapeArgs = {}; // 847
}
}
point.plotX += xOffset; // #2049
// if multiple flags appear at the same x, order them into a stack
lastPoint = points[i - 1];
if (lastPoint && lastPoint.plotX === point.plotX) {
if (lastPoint.stackIndex === undefined) {
lastPoint.stackIndex = 0;
}
stackIndex = lastPoint.stackIndex + 1;
}
point.stackIndex = stackIndex; // #3639
});
},
/**
* Draw the markers
*/
drawPoints: function() {
var series = this,
points = series.points,
chart = series.chart,
renderer = chart.renderer,
plotX,
plotY,
options = series.options,
optionsY = options.y,
shape,
i,
point,
graphic,
stackIndex,
anchorX,
anchorY,
outsideRight,
yAxis = series.yAxis;
i = points.length;
while (i--) {
point = points[i];
outsideRight = point.plotX > series.xAxis.len;
plotX = point.plotX;
stackIndex = point.stackIndex;
shape = point.options.shape || options.shape;
plotY = point.plotY;
if (plotY !== undefined) {
plotY = point.plotY + optionsY - (stackIndex !== undefined && stackIndex * options.stackDistance);
}
anchorX = stackIndex ? undefined : point.plotX; // skip connectors for higher level stacked points
anchorY = stackIndex ? undefined : point.plotY;
graphic = point.graphic;
// Only draw the point if y is defined and the flag is within the visible area
if (plotY !== undefined && plotX >= 0 && !outsideRight) {
// Create the flag
if (!graphic) {
graphic = point.graphic = renderer.label(
'',
null,
null,
shape,
null,
null,
options.useHTML
)
.attr(series.pointAttribs(point))
.css(merge(options.style, point.style))
.attr({
align: shape === 'flag' ? 'left' : 'center',
width: options.width,
height: options.height,
'text-align': options.textAlign
})
.addClass('highcharts-point')
.add(series.markerGroup);
// Add reference to the point for tracker (#6303)
if (point.graphic.div) {
point.graphic.div.point = point;
}
graphic.shadow(options.shadow);
}
if (plotX > 0) { // #3119
plotX -= graphic.strokeWidth() % 2; // #4285
}
// Plant the flag
graphic.attr({
text: point.options.title || options.title || 'A',
x: plotX,
y: plotY,
anchorX: anchorX,
anchorY: anchorY
});
// Set the tooltip anchor position
point.tooltipPos = chart.inverted ? [yAxis.len + yAxis.pos - chart.plotLeft - plotY, series.xAxis.len - plotX] : [plotX, plotY + yAxis.pos - chart.plotTop]; // #6327
} else if (graphic) {
point.graphic = graphic.destroy();
}
}
// Might be a mix of SVG and HTML and we need events for both (#6303)
if (options.useHTML) {
H.wrap(series.markerGroup, 'on', function(proceed) {
return H.SVGElement.prototype.on.apply(
proceed.apply(this, [].slice.call(arguments, 1)), // for HTML
[].slice.call(arguments, 1)); // and for SVG
});
}
},
/**
* Extend the column trackers with listeners to expand and contract stacks
*/
drawTracker: function() {
var series = this,
points = series.points;
TrackerMixin.drawTrackerPoint.apply(this);
// Bring each stacked flag up on mouse over, this allows readability of vertically
// stacked elements as well as tight points on the x axis. #1924.
each(points, function(point) {
var graphic = point.graphic;
if (graphic) {
addEvent(graphic.element, 'mouseover', function() {
// Raise this point
if (point.stackIndex > 0 && !point.raised) {
point._y = graphic.y;
graphic.attr({
y: point._y - 8
});
point.raised = true;
}
// Revert other raised points
each(points, function(otherPoint) {
if (otherPoint !== point && otherPoint.raised && otherPoint.graphic) {
otherPoint.graphic.attr({
y: otherPoint._y
});
otherPoint.raised = false;
}
});
});
}
});
},
animate: noop, // Disable animation
buildKDTree: noop,
setClip: noop
});
// create the flag icon with anchor
symbols.flag = function(x, y, w, h, options) {
var anchorX = (options && options.anchorX) || x,
anchorY = (options && options.anchorY) || y;
return [
'M', anchorX, anchorY,
'L', x, y + h,
x, y,
x + w, y,
x + w, y + h,
x, y + h,
'Z'
];
};
// create the circlepin and squarepin icons with anchor
each(['circle', 'square'], function(shape) {
symbols[shape + 'pin'] = function(x, y, w, h, options) {
var anchorX = options && options.anchorX,
anchorY = options && options.anchorY,
path,
labelTopOrBottomY;
// For single-letter flags, make sure circular flags are not taller than their width
if (shape === 'circle' && h > w) {
x -= Math.round((h - w) / 2);
w = h;
}
path = symbols[shape](x, y, w, h);
if (anchorX && anchorY) {
// if the label is below the anchor, draw the connecting line from the top edge of the label
// otherwise start drawing from the bottom edge
labelTopOrBottomY = (y > anchorY) ? y : y + h;
path.push('M', anchorX, labelTopOrBottomY, 'L', anchorX, anchorY);
}
return path;
};
});
// The symbol callbacks are generated on the SVGRenderer object in all browsers. Even
// VML browsers need this in order to generate shapes in export. Now share
// them with the VMLRenderer.
if (Renderer === VMLRenderer) {
each(['flag', 'circlepin', 'squarepin'], function(shape) {
VMLRenderer.prototype.symbols[shape] = symbols[shape];
});
}
/* ****************************************************************************
* End Flags series code *
*****************************************************************************/
}(Highcharts));
(function(H) {
/**
* (c) 2010-2017 Torstein Honsi
*
* License: www.highcharts.com/license
*/
var addEvent = H.addEvent,
Axis = H.Axis,
correctFloat = H.correctFloat,
defaultOptions = H.defaultOptions,
defined = H.defined,
destroyObjectProperties = H.destroyObjectProperties,
doc = H.doc,
each = H.each,
fireEvent = H.fireEvent,
hasTouch = H.hasTouch,
isTouchDevice = H.isTouchDevice,
merge = H.merge,
pick = H.pick,
removeEvent = H.removeEvent,
svg = H.svg,
wrap = H.wrap,
swapXY;
var defaultScrollbarOptions = {
//enabled: true
height: isTouchDevice ? 20 : 14,
// trackBorderRadius: 0
barBorderRadius: 0,
buttonBorderRadius: 0,
liveRedraw: svg && !isTouchDevice,
margin: 10,
minWidth: 6,
//showFull: true,
//size: null,
step: 0.2,
zIndex: 3,
barBackgroundColor: '#cccccc',
barBorderWidth: 1,
barBorderColor: '#cccccc',
buttonArrowColor: '#333333',
buttonBackgroundColor: '#e6e6e6',
buttonBorderColor: '#cccccc',
buttonBorderWidth: 1,
rifleColor: '#333333',
trackBackgroundColor: '#f2f2f2',
trackBorderColor: '#f2f2f2',
trackBorderWidth: 1
};
defaultOptions.scrollbar = merge(true, defaultScrollbarOptions, defaultOptions.scrollbar);
/**
* When we have vertical scrollbar, rifles and arrow in buttons should be rotated.
* The same method is used in Navigator's handles, to rotate them.
* @param {Array} path - path to be rotated
* @param {Boolean} vertical - if vertical scrollbar, swap x-y values
*/
H.swapXY = swapXY = function(path, vertical) {
var i,
len = path.length,
temp;
if (vertical) {
for (i = 0; i < len; i += 3) {
temp = path[i + 1];
path[i + 1] = path[i + 2];
path[i + 2] = temp;
}
}
return path;
};
/**
* A reusable scrollbar, internally used in Highstock's navigator and optionally
* on individual axes.
*
* @class
* @param {Object} renderer
* @param {Object} options
* @param {Object} chart
*/
function Scrollbar(renderer, options, chart) { // docs
this.init(renderer, options, chart);
}
Scrollbar.prototype = {
init: function(renderer, options, chart) {
this.scrollbarButtons = [];
this.renderer = renderer;
this.userOptions = options;
this.options = merge(defaultScrollbarOptions, options);
this.chart = chart;
this.size = pick(this.options.size, this.options.height); // backward compatibility
// Init
if (options.enabled) {
this.render();
this.initEvents();
this.addEvents();
}
},
/**
* Render scrollbar with all required items.
*/
render: function() {
var scroller = this,
renderer = scroller.renderer,
options = scroller.options,
size = scroller.size,
group;
// Draw the scrollbar group
scroller.group = group = renderer.g('scrollbar').attr({
zIndex: options.zIndex,
translateY: -99999
}).add();
// Draw the scrollbar track:
scroller.track = renderer.rect()
.addClass('highcharts-scrollbar-track')
.attr({
x: 0,
r: options.trackBorderRadius || 0,
height: size,
width: size
}).add(group);
scroller.track.attr({
fill: options.trackBackgroundColor,
stroke: options.trackBorderColor,
'stroke-width': options.trackBorderWidth
});
this.trackBorderWidth = scroller.track.strokeWidth();
scroller.track.attr({
y: -this.trackBorderWidth % 2 / 2
});
// Draw the scrollbar itself
scroller.scrollbarGroup = renderer.g().add(group);
scroller.scrollbar = renderer.rect()
.addClass('highcharts-scrollbar-thumb')
.attr({
height: size,
width: size,
r: options.barBorderRadius || 0
}).add(scroller.scrollbarGroup);
scroller.scrollbarRifles = renderer.path(
swapXY([
'M', -3, size / 4,
'L', -3, 2 * size / 3,
'M',
0, size / 4,
'L',
0, 2 * size / 3,
'M',
3, size / 4,
'L',
3, 2 * size / 3
], options.vertical))
.addClass('highcharts-scrollbar-rifles')
.add(scroller.scrollbarGroup);
scroller.scrollbar.attr({
fill: options.barBackgroundColor,
stroke: options.barBorderColor,
'stroke-width': options.barBorderWidth
});
scroller.scrollbarRifles.attr({
stroke: options.rifleColor,
'stroke-width': 1
});
scroller.scrollbarStrokeWidth = scroller.scrollbar.strokeWidth();
scroller.scrollbarGroup.translate(-scroller.scrollbarStrokeWidth % 2 / 2, -scroller.scrollbarStrokeWidth % 2 / 2);
// Draw the buttons:
scroller.drawScrollbarButton(0);
scroller.drawScrollbarButton(1);
},
/**
* Position the scrollbar, method called from a parent with defined dimensions
* @param {Number} x - x-position on the chart
* @param {Number} y - y-position on the chart
* @param {Number} width - width of the scrollbar
* @param {Number} height - height of the scorllbar
*/
position: function(x, y, width, height) {
var scroller = this,
options = scroller.options,
vertical = options.vertical,
xOffset = height,
yOffset = 0,
method = scroller.rendered ? 'animate' : 'attr';
scroller.x = x;
scroller.y = y + this.trackBorderWidth;
scroller.width = width; // width with buttons
scroller.height = height;
scroller.xOffset = xOffset;
scroller.yOffset = yOffset;
// If Scrollbar is a vertical type, swap options:
if (vertical) {
scroller.width = scroller.yOffset = width = yOffset = scroller.size;
scroller.xOffset = xOffset = 0;
scroller.barWidth = height - width * 2; // width without buttons
scroller.x = x = x + scroller.options.margin;
} else {
scroller.height = scroller.xOffset = height = xOffset = scroller.size;
scroller.barWidth = width - height * 2; // width without buttons
scroller.y = scroller.y + scroller.options.margin;
}
// Set general position for a group:
scroller.group[method]({
translateX: x,
translateY: scroller.y
});
// Resize background/track:
scroller.track[method]({
width: width,
height: height
});
// Move right/bottom button ot it's place:
scroller.scrollbarButtons[1][method]({
translateX: vertical ? 0 : width - xOffset,
translateY: vertical ? height - yOffset : 0
});
},
/**
* Draw the scrollbar buttons with arrows
* @param {Number} index 0 is left, 1 is right
*/
drawScrollbarButton: function(index) {
var scroller = this,
renderer = scroller.renderer,
scrollbarButtons = scroller.scrollbarButtons,
options = scroller.options,
size = scroller.size,
group,
tempElem;
group = renderer.g().add(scroller.group);
scrollbarButtons.push(group);
// Create a rectangle for the scrollbar button
tempElem = renderer.rect()
.addClass('highcharts-scrollbar-button')
.add(group);
// Presentational attributes
tempElem.attr({
stroke: options.buttonBorderColor,
'stroke-width': options.buttonBorderWidth,
fill: options.buttonBackgroundColor
});
// Place the rectangle based on the rendered stroke width
tempElem.attr(tempElem.crisp({
x: -0.5,
y: -0.5,
width: size + 1, // +1 to compensate for crispifying in rect method
height: size + 1,
r: options.buttonBorderRadius
}, tempElem.strokeWidth()));
// Button arrow
tempElem = renderer
.path(swapXY([
'M',
size / 2 + (index ? -1 : 1),
size / 2 - 3,
'L',
size / 2 + (index ? -1 : 1),
size / 2 + 3,
'L',
size / 2 + (index ? 2 : -2),
size / 2
], options.vertical))
.addClass('highcharts-scrollbar-arrow')
.add(scrollbarButtons[index]);
tempElem.attr({
fill: options.buttonArrowColor
});
},
/**
* Set scrollbar size, with a given scale.
* @param {Number} from - scale (0-1) where bar should start
* @param {Number} to - scale (0-1) where bar should end
*/
setRange: function(from, to) {
var scroller = this,
options = scroller.options,
vertical = options.vertical,
minWidth = options.minWidth,
fullWidth = scroller.barWidth,
fromPX,
toPX,
newPos,
newSize,
newRiflesPos,
method = this.rendered && !this.hasDragged ? 'animate' : 'attr';
if (!defined(fullWidth)) {
return;
}
from = Math.max(from, 0);
fromPX = Math.ceil(fullWidth * from);
toPX = fullWidth * Math.min(to, 1);
scroller.calculatedWidth = newSize = correctFloat(toPX - fromPX);
// We need to recalculate position, if minWidth is used
if (newSize < minWidth) {
fromPX = (fullWidth - minWidth + newSize) * from;
newSize = minWidth;
}
newPos = Math.floor(fromPX + scroller.xOffset + scroller.yOffset);
newRiflesPos = newSize / 2 - 0.5; // -0.5 -> rifle line width / 2
// Store current position:
scroller.from = from;
scroller.to = to;
if (!vertical) {
scroller.scrollbarGroup[method]({
translateX: newPos
});
scroller.scrollbar[method]({
width: newSize
});
scroller.scrollbarRifles[method]({
translateX: newRiflesPos
});
scroller.scrollbarLeft = newPos;
scroller.scrollbarTop = 0;
} else {
scroller.scrollbarGroup[method]({
translateY: newPos
});
scroller.scrollbar[method]({
height: newSize
});
scroller.scrollbarRifles[method]({
translateY: newRiflesPos
});
scroller.scrollbarTop = newPos;
scroller.scrollbarLeft = 0;
}
if (newSize <= 12) {
scroller.scrollbarRifles.hide();
} else {
scroller.scrollbarRifles.show(true);
}
// Show or hide the scrollbar based on the showFull setting
if (options.showFull === false) {
if (from <= 0 && to >= 1) {
scroller.group.hide();
} else {
scroller.group.show();
}
}
scroller.rendered = true;
},
/**
* Init events methods, so we have an access to the Scrollbar itself
*/
initEvents: function() {
var scroller = this;
/**
* Event handler for the mouse move event.
*/
scroller.mouseMoveHandler = function(e) {
var normalizedEvent = scroller.chart.pointer.normalize(e),
options = scroller.options,
direction = options.vertical ? 'chartY' : 'chartX',
initPositions = scroller.initPositions,
scrollPosition,
chartPosition,
change;
// In iOS, a mousemove event with e.pageX === 0 is fired when holding the finger
// down in the center of the scrollbar. This should be ignored.
if (scroller.grabbedCenter && (!e.touches || e.touches[0][direction] !== 0)) { // #4696, scrollbar failed on Android
chartPosition = scroller.cursorToScrollbarPosition(normalizedEvent)[direction];
scrollPosition = scroller[direction];
change = chartPosition - scrollPosition;
scroller.hasDragged = true;
scroller.updatePosition(initPositions[0] + change, initPositions[1] + change);
if (scroller.hasDragged) {
fireEvent(scroller, 'changed', {
from: scroller.from,
to: scroller.to,
trigger: 'scrollbar',
DOMType: e.type,
DOMEvent: e
});
}
}
};
/**
* Event handler for the mouse up event.
*/
scroller.mouseUpHandler = function(e) {
if (scroller.hasDragged) {
fireEvent(scroller, 'changed', {
from: scroller.from,
to: scroller.to,
trigger: 'scrollbar',
DOMType: e.type,
DOMEvent: e
});
}
scroller.grabbedCenter = scroller.hasDragged = scroller.chartX = scroller.chartY = null;
};
scroller.mouseDownHandler = function(e) {
var normalizedEvent = scroller.chart.pointer.normalize(e),
mousePosition = scroller.cursorToScrollbarPosition(normalizedEvent);
scroller.chartX = mousePosition.chartX;
scroller.chartY = mousePosition.chartY;
scroller.initPositions = [scroller.from, scroller.to];
scroller.grabbedCenter = true;
};
scroller.buttonToMinClick = function(e) {
var range = correctFloat(scroller.to - scroller.from) * scroller.options.step;
scroller.updatePosition(correctFloat(scroller.from - range), correctFloat(scroller.to - range));
fireEvent(scroller, 'changed', {
from: scroller.from,
to: scroller.to,
trigger: 'scrollbar',
DOMEvent: e
});
};
scroller.buttonToMaxClick = function(e) {
var range = (scroller.to - scroller.from) * scroller.options.step;
scroller.updatePosition(scroller.from + range, scroller.to + range);
fireEvent(scroller, 'changed', {
from: scroller.from,
to: scroller.to,
trigger: 'scrollbar',
DOMEvent: e
});
};
scroller.trackClick = function(e) {
var normalizedEvent = scroller.chart.pointer.normalize(e),
range = scroller.to - scroller.from,
top = scroller.y + scroller.scrollbarTop,
left = scroller.x + scroller.scrollbarLeft;
if ((scroller.options.vertical && normalizedEvent.chartY > top) ||
(!scroller.options.vertical && normalizedEvent.chartX > left)) {
// On the top or on the left side of the track:
scroller.updatePosition(scroller.from + range, scroller.to + range);
} else {
// On the bottom or the right side of the track:
scroller.updatePosition(scroller.from - range, scroller.to - range);
}
fireEvent(scroller, 'changed', {
from: scroller.from,
to: scroller.to,
trigger: 'scrollbar',
DOMEvent: e
});
};
},
/**
* Get normalized (0-1) cursor position over the scrollbar
* @param {Event} normalizedEvent - normalized event, with chartX and chartY values
* @return {Object} Local position {chartX, chartY}
*/
cursorToScrollbarPosition: function(normalizedEvent) {
var scroller = this,
options = scroller.options,
minWidthDifference = options.minWidth > scroller.calculatedWidth ? options.minWidth : 0; // minWidth distorts translation
return {
chartX: (normalizedEvent.chartX - scroller.x - scroller.xOffset) / (scroller.barWidth - minWidthDifference),
chartY: (normalizedEvent.chartY - scroller.y - scroller.yOffset) / (scroller.barWidth - minWidthDifference)
};
},
/**
* Update position option in the Scrollbar, with normalized 0-1 scale
*/
updatePosition: function(from, to) {
if (to > 1) {
from = correctFloat(1 - correctFloat(to - from));
to = 1;
}
if (from < 0) {
to = correctFloat(to - from);
from = 0;
}
this.from = from;
this.to = to;
},
/**
* Update the scrollbar with new options
*/
update: function(options) {
this.destroy();
this.init(this.chart.renderer, merge(true, this.options, options), this.chart);
},
/**
* Set up the mouse and touch events for the Scrollbar
*/
addEvents: function() {
var buttonsOrder = this.options.inverted ? [1, 0] : [0, 1],
buttons = this.scrollbarButtons,
bar = this.scrollbarGroup.element,
track = this.track.element,
mouseDownHandler = this.mouseDownHandler,
mouseMoveHandler = this.mouseMoveHandler,
mouseUpHandler = this.mouseUpHandler,
_events;
// Mouse events
_events = [
[buttons[buttonsOrder[0]].element, 'click', this.buttonToMinClick],
[buttons[buttonsOrder[1]].element, 'click', this.buttonToMaxClick],
[track, 'click', this.trackClick],
[bar, 'mousedown', mouseDownHandler],
[doc, 'mousemove', mouseMoveHandler],
[doc, 'mouseup', mouseUpHandler]
];
// Touch events
if (hasTouch) {
_events.push(
[bar, 'touchstart', mouseDownHandler], [doc, 'touchmove', mouseMoveHandler], [doc, 'touchend', mouseUpHandler]
);
}
// Add them all
each(_events, function(args) {
addEvent.apply(null, args);
});
this._events = _events;
},
/**
* Removes the event handlers attached previously with addEvents.
*/
removeEvents: function() {
each(this._events, function(args) {
removeEvent.apply(null, args);
});
this._events.length = 0;
},
/**
* Destroys allocated elements.
*/
destroy: function() {
var scroller = this.chart.scroller;
// Disconnect events added in addEvents
this.removeEvents();
// Destroy properties
each(['track', 'scrollbarRifles', 'scrollbar', 'scrollbarGroup', 'group'], function(prop) {
if (this[prop] && this[prop].destroy) {
this[prop] = this[prop].destroy();
}
}, this);
if (scroller && this === scroller.scrollbar) { // #6421, chart may have more scrollbars
scroller.scrollbar = null;
// Destroy elements in collection
destroyObjectProperties(scroller.scrollbarButtons);
}
}
};
/**
* Wrap axis initialization and create scrollbar if enabled:
*/
wrap(Axis.prototype, 'init', function(proceed) {
var axis = this;
proceed.apply(axis, Array.prototype.slice.call(arguments, 1));
if (axis.options.scrollbar && axis.options.scrollbar.enabled) {
// Predefined options:
axis.options.scrollbar.vertical = !axis.horiz;
axis.options.startOnTick = axis.options.endOnTick = false;
axis.scrollbar = new Scrollbar(axis.chart.renderer, axis.options.scrollbar, axis.chart);
addEvent(axis.scrollbar, 'changed', function(e) {
var unitedMin = Math.min(pick(axis.options.min, axis.min), axis.min, axis.dataMin),
unitedMax = Math.max(pick(axis.options.max, axis.max), axis.max, axis.dataMax),
range = unitedMax - unitedMin,
to,
from;
if ((axis.horiz && !axis.reversed) || (!axis.horiz && axis.reversed)) {
to = unitedMin + range * this.to;
from = unitedMin + range * this.from;
} else {
// y-values in browser are reversed, but this also applies for reversed horizontal axis:
to = unitedMin + range * (1 - this.from);
from = unitedMin + range * (1 - this.to);
}
axis.setExtremes(from, to, true, false, e);
});
}
});
/**
* Wrap rendering axis, and update scrollbar if one is created:
*/
wrap(Axis.prototype, 'render', function(proceed) {
var axis = this,
scrollMin = Math.min(pick(axis.options.min, axis.min), axis.min, axis.dataMin),
scrollMax = Math.max(pick(axis.options.max, axis.max), axis.max, axis.dataMax),
scrollbar = axis.scrollbar,
titleOffset = axis.titleOffset || 0,
offsetsIndex,
from,
to;
proceed.apply(axis, Array.prototype.slice.call(arguments, 1));
if (scrollbar) {
if (axis.horiz) {
scrollbar.position(
axis.left,
axis.top + axis.height + 2 + axis.chart.scrollbarsOffsets[1] +
(axis.opposite ?
0 :
titleOffset + axis.axisTitleMargin + axis.offset
),
axis.width,
axis.height
);
offsetsIndex = 1;
} else {
scrollbar.position(
axis.left + axis.width + 2 + axis.chart.scrollbarsOffsets[0] +
(axis.opposite ?
titleOffset + axis.axisTitleMargin + axis.offset :
0
),
axis.top,
axis.width,
axis.height
);
offsetsIndex = 0;
}
if ((!axis.opposite && !axis.horiz) || (axis.opposite && axis.horiz)) {
axis.chart.scrollbarsOffsets[offsetsIndex] +=
axis.scrollbar.size + axis.scrollbar.options.margin;
}
if (isNaN(scrollMin) || isNaN(scrollMax) || !defined(axis.min) || !defined(axis.max)) {
scrollbar.setRange(0, 0); // default action: when there is not extremes on the axis, but scrollbar exists, make it full size
} else {
from = (axis.min - scrollMin) / (scrollMax - scrollMin);
to = (axis.max - scrollMin) / (scrollMax - scrollMin);
if ((axis.horiz && !axis.reversed) || (!axis.horiz && axis.reversed)) {
scrollbar.setRange(from, to);
} else {
scrollbar.setRange(1 - to, 1 - from); // inverse vertical axis
}
}
}
});
/**
* Make space for a scrollbar
*/
wrap(Axis.prototype, 'getOffset', function(proceed) {
var axis = this,
index = axis.horiz ? 2 : 1,
scrollbar = axis.scrollbar;
proceed.apply(axis, Array.prototype.slice.call(arguments, 1));
if (scrollbar) {
axis.chart.scrollbarsOffsets = [0, 0]; // reset scrollbars offsets
axis.chart.axisOffset[index] += scrollbar.size + scrollbar.options.margin;
}
});
/**
* Destroy scrollbar when connected to the specific axis
*/
wrap(Axis.prototype, 'destroy', function(proceed) {
if (this.scrollbar) {
this.scrollbar = this.scrollbar.destroy();
}
proceed.apply(this, Array.prototype.slice.call(arguments, 1));
});
H.Scrollbar = Scrollbar;
}(Highcharts));
(function(H) {
/**
* (c) 2010-2017 Torstein Honsi
*
* License: www.highcharts.com/license
*/
/* ****************************************************************************
* Start Navigator code *
*****************************************************************************/
var addEvent = H.addEvent,
Axis = H.Axis,
Chart = H.Chart,
color = H.color,
defaultDataGroupingUnits = H.defaultDataGroupingUnits,
defaultOptions = H.defaultOptions,
defined = H.defined,
destroyObjectProperties = H.destroyObjectProperties,
doc = H.doc,
each = H.each,
erase = H.erase,
error = H.error,
extend = H.extend,
grep = H.grep,
hasTouch = H.hasTouch,
isNumber = H.isNumber,
isObject = H.isObject,
merge = H.merge,
pick = H.pick,
removeEvent = H.removeEvent,
Scrollbar = H.Scrollbar,
Series = H.Series,
seriesTypes = H.seriesTypes,
wrap = H.wrap,
swapXY = H.swapXY,
units = [].concat(defaultDataGroupingUnits), // copy
defaultSeriesType,
// Finding the min or max of a set of variables where we don't know if they are defined,
// is a pattern that is repeated several places in Highcharts. Consider making this
// a global utility method.
numExt = function(extreme) {
var numbers = grep(arguments, isNumber);
if (numbers.length) {
return Math[extreme].apply(0, numbers);
}
};
// add more resolution to units
units[4] = ['day', [1, 2, 3, 4]]; // allow more days
units[5] = ['week', [1, 2, 3]]; // allow more weeks
defaultSeriesType = seriesTypes.areaspline === undefined ? 'line' : 'areaspline';
extend(defaultOptions, {
navigator: {
//enabled: true,
height: 40,
margin: 25,
maskInside: true,
handles: {
backgroundColor: '#f2f2f2',
borderColor: '#999999'
},
maskFill: color('#6685c2').setOpacity(0.3).get(),
outlineColor: '#cccccc',
outlineWidth: 1,
series: {
type: defaultSeriesType,
color: '#335cad',
fillOpacity: 0.05,
lineWidth: 1,
compare: null,
dataGrouping: {
approximation: 'average',
enabled: true,
groupPixelWidth: 2,
smoothed: true,
units: units
},
dataLabels: {
enabled: false,
zIndex: 2 // #1839
},
id: 'highcharts-navigator-series',
className: 'highcharts-navigator-series',
lineColor: null, // Allow color setting while disallowing default candlestick setting (#4602)
marker: {
enabled: false
},
pointRange: 0,
shadow: false,
threshold: null
},
//top: undefined,
//opposite: undefined,
xAxis: {
className: 'highcharts-navigator-xaxis',
tickLength: 0,
lineWidth: 0,
gridLineColor: '#e6e6e6',
gridLineWidth: 1,
tickPixelInterval: 200,
labels: {
align: 'left',
style: {
color: '#999999'
},
x: 3,
y: -4
},
crosshair: false
},
yAxis: {
className: 'highcharts-navigator-yaxis',
gridLineWidth: 0,
startOnTick: false,
endOnTick: false,
minPadding: 0.1,
maxPadding: 0.1,
labels: {
enabled: false
},
crosshair: false,
title: {
text: null
},
tickLength: 0,
tickWidth: 0
}
}
});
/**
* The Navigator class
* @param {Object} chart - Chart object
* @class
*/
function Navigator(chart) {
this.init(chart);
}
Navigator.prototype = {
/**
* Draw one of the handles on the side of the zoomed range in the navigator
* @param {Number} x The x center for the handle
* @param {Number} index 0 for left and 1 for right
* @param {Boolean} inverted flag for chart.inverted
* @param {String} verb use 'animate' or 'attr'
*/
drawHandle: function(x, index, inverted, verb) {
var navigator = this;
// Place it
navigator.handles[index][verb](inverted ? {
translateX: Math.round(navigator.left + navigator.height / 2 - 8),
translateY: Math.round(navigator.top + parseInt(x, 10) + 0.5)
} : {
translateX: Math.round(navigator.left + parseInt(x, 10)),
translateY: Math.round(navigator.top + navigator.height / 2 - 8)
});
},
/**
* Draw one of the handles on the side of the zoomed range in the navigator
* @param {Boolean} inverted flag for chart.inverted
* @returns {Array} Path to be used in a handle
*/
getHandlePath: function(inverted) {
return swapXY([
'M', -4.5, 0.5,
'L',
3.5, 0.5,
'L',
3.5, 15.5,
'L', -4.5, 15.5,
'L', -4.5, 0.5,
'M', -1.5, 4,
'L', -1.5, 12,
'M',
0.5, 4,
'L',
0.5, 12
], inverted);
},
/**
* Render outline around the zoomed range
* @param {Number} zoomedMin in pixels position where zoomed range starts
* @param {Number} zoomedMax in pixels position where zoomed range ends
* @param {Boolean} inverted flag if chart is inverted
* @param {String} verb use 'animate' or 'attr'
*/
drawOutline: function(zoomedMin, zoomedMax, inverted, verb) {
var navigator = this,
maskInside = navigator.navigatorOptions.maskInside,
outlineWidth = navigator.outline.strokeWidth(),
halfOutline = outlineWidth / 2,
outlineCorrection = (outlineWidth % 2) / 2, // #5800
outlineHeight = navigator.outlineHeight,
scrollbarHeight = navigator.scrollbarHeight,
navigatorSize = navigator.size,
left = navigator.left - scrollbarHeight,
navigatorTop = navigator.top,
verticalMin,
path;
if (inverted) {
left -= halfOutline;
verticalMin = navigatorTop + zoomedMax + outlineCorrection;
zoomedMax = navigatorTop + zoomedMin + outlineCorrection;
path = [
'M',
left + outlineHeight,
navigatorTop - scrollbarHeight - outlineCorrection, // top edge
'L',
left + outlineHeight,
verticalMin, // top right of zoomed range
'L',
left,
verticalMin, // top left of z.r.
'L',
left,
zoomedMax, // bottom left of z.r.
'L',
left + outlineHeight,
zoomedMax, // bottom right of z.r.
'L',
left + outlineHeight,
navigatorTop + navigatorSize + scrollbarHeight // bottom edge
].concat(maskInside ? [
'M',
left + outlineHeight,
verticalMin - halfOutline, // upper left of zoomed range
'L',
left + outlineHeight,
zoomedMax + halfOutline // upper right of z.r.
] : []);
} else {
zoomedMin += left + scrollbarHeight - outlineCorrection;
zoomedMax += left + scrollbarHeight - outlineCorrection;
navigatorTop += halfOutline;
path = [
'M',
left,
navigatorTop, // left
'L',
zoomedMin,
navigatorTop, // upper left of zoomed range
'L',
zoomedMin,
navigatorTop + outlineHeight, // lower left of z.r.
'L',
zoomedMax,
navigatorTop + outlineHeight, // lower right of z.r.
'L',
zoomedMax,
navigatorTop, // upper right of z.r.
'L',
left + navigatorSize + scrollbarHeight * 2,
navigatorTop // right
].concat(maskInside ? [
'M',
zoomedMin - halfOutline,
navigatorTop, // upper left of zoomed range
'L',
zoomedMax + halfOutline,
navigatorTop // upper right of z.r.
] : []);
}
navigator.outline[verb]({
d: path
});
},
/**
* Render outline around the zoomed range
* @param {Number} zoomedMin in pixels position where zoomed range starts
* @param {Number} zoomedMax in pixels position where zoomed range ends
* @param {Boolean} inverted flag if chart is inverted
* @param {String} verb use 'animate' or 'attr'
*/
drawMasks: function(zoomedMin, zoomedMax, inverted, verb) {
var navigator = this,
left = navigator.left,
top = navigator.top,
navigatorHeight = navigator.height,
height,
width,
x,
y;
// Determine rectangle position & size
// According to (non)inverted position:
if (inverted) {
x = [left, left, left];
y = [top, top + zoomedMin, top + zoomedMax];
width = [navigatorHeight, navigatorHeight, navigatorHeight];
height = [
zoomedMin,
zoomedMax - zoomedMin,
navigator.size - zoomedMax
];
} else {
x = [left, left + zoomedMin, left + zoomedMax];
y = [top, top, top];
width = [
zoomedMin,
zoomedMax - zoomedMin,
navigator.size - zoomedMax
];
height = [navigatorHeight, navigatorHeight, navigatorHeight];
}
each(navigator.shades, function(shade, i) {
shade[verb]({
x: x[i],
y: y[i],
width: width[i],
height: height[i]
});
});
},
/**
* Generate DOM elements for a navigator:
* - main navigator group
* - all shades
* - outline
* - handles
*/
renderElements: function() {
var navigator = this,
navigatorOptions = navigator.navigatorOptions,
maskInside = navigatorOptions.maskInside,
chart = navigator.chart,
inverted = chart.inverted,
renderer = chart.renderer,
navigatorGroup;
// Create the main navigator group
navigator.navigatorGroup = navigatorGroup = renderer.g('navigator')
.attr({
zIndex: 8,
visibility: 'hidden'
})
.add();
var mouseCursor = {
cursor: inverted ? 'ns-resize' : 'ew-resize'
};
// Create masks, each mask will get events and fill:
each([!maskInside, maskInside, !maskInside], function(hasMask, index) {
navigator.shades[index] = renderer.rect()
.addClass('highcharts-navigator-mask' +
(index === 1 ? '-inside' : '-outside'))
.attr({
fill: hasMask ? navigatorOptions.maskFill : 'transparent'
})
.css(index === 1 && mouseCursor)
.add(navigatorGroup);
});
// Create the outline:
navigator.outline = renderer.path()
.addClass('highcharts-navigator-outline')
.attr({
'stroke-width': navigatorOptions.outlineWidth,
stroke: navigatorOptions.outlineColor
})
.add(navigatorGroup);
// Create the handlers:
each([0, 1], function(index) {
navigator.handles[index] = renderer
.path(navigator.getHandlePath(inverted))
// zIndex = 6 for right handle, 7 for left.
// Can't be 10, because of the tooltip in inverted chart #2908
.attr({
zIndex: 7 - index
})
.addClass(
'highcharts-navigator-handle highcharts-navigator-handle-' + ['left', 'right'][index]
).add(navigatorGroup);
var handlesOptions = navigatorOptions.handles;
navigator.handles[index]
.attr({
fill: handlesOptions.backgroundColor,
stroke: handlesOptions.borderColor,
'stroke-width': 1
})
.css(mouseCursor);
});
},
/**
* Update navigator
* @param {Object} options Options to merge in when updating navigator
*/
update: function(options) {
this.destroy();
var chartOptions = this.chart.options;
merge(true, chartOptions.navigator, this.options, options);
this.init(this.chart);
},
/**
* Render the navigator
* @param {Number} min X axis value minimum
* @param {Number} max X axis value maximum
* @param {Number} pxMin Pixel value minimum
* @param {Number} pxMax Pixel value maximum
*/
render: function(min, max, pxMin, pxMax) {
var navigator = this,
chart = navigator.chart,
navigatorWidth,
scrollbarLeft,
scrollbarTop,
scrollbarHeight = navigator.scrollbarHeight,
navigatorSize,
xAxis = navigator.xAxis,
scrollbarXAxis = xAxis.fake ? chart.xAxis[0] : xAxis,
navigatorEnabled = navigator.navigatorEnabled,
zoomedMin,
zoomedMax,
rendered = navigator.rendered,
inverted = chart.inverted,
verb,
newMin,
newMax,
minRange = chart.xAxis[0].minRange;
// Don't redraw while moving the handles (#4703).
if (this.hasDragged && !defined(pxMin)) {
return;
}
// Don't render the navigator until we have data (#486, #4202, #5172).
if (!isNumber(min) || !isNumber(max)) {
// However, if navigator was already rendered, we may need to resize
// it. For example hidden series, but visible navigator (#6022).
if (rendered) {
pxMin = 0;
pxMax = xAxis.width;
} else {
return;
}
}
navigator.left = pick(
xAxis.left,
// in case of scrollbar only, without navigator
chart.plotLeft + scrollbarHeight + (inverted ? chart.plotWidth : 0)
);
navigator.size = zoomedMax = navigatorSize = pick(
xAxis.len,
(inverted ? chart.plotHeight : chart.plotWidth) - 2 * scrollbarHeight
);
if (inverted) {
navigatorWidth = scrollbarHeight;
} else {
navigatorWidth = navigatorSize + 2 * scrollbarHeight;
}
// Get the pixel position of the handles
pxMin = pick(pxMin, xAxis.toPixels(min, true));
pxMax = pick(pxMax, xAxis.toPixels(max, true));
if (!isNumber(pxMin) || Math.abs(pxMin) === Infinity) { // Verify (#1851, #2238)
pxMin = 0;
pxMax = navigatorWidth;
}
// Are we below the minRange? (#2618, #6191)
newMin = xAxis.toValue(pxMin, true);
newMax = xAxis.toValue(pxMax, true);
if (Math.abs(newMax - newMin) < minRange) {
if (this.grabbedLeft) {
pxMin = xAxis.toPixels(newMax - minRange, true);
} else if (this.grabbedRight) {
pxMax = xAxis.toPixels(newMin + minRange, true);
} else {
return;
}
}
// Handles are allowed to cross, but never exceed the plot area
navigator.zoomedMax = Math.min(Math.max(pxMin, pxMax, 0), zoomedMax);
navigator.zoomedMin = Math.min(
Math.max(
navigator.fixedWidth ?
navigator.zoomedMax - navigator.fixedWidth :
Math.min(pxMin, pxMax),
0
),
zoomedMax
);
navigator.range = navigator.zoomedMax - navigator.zoomedMin;
zoomedMax = Math.round(navigator.zoomedMax);
zoomedMin = Math.round(navigator.zoomedMin);
if (navigatorEnabled) {
navigator.navigatorGroup.attr({
visibility: 'visible'
});
// Place elements
verb = rendered && !navigator.hasDragged ? 'animate' : 'attr';
navigator.drawMasks(zoomedMin, zoomedMax, inverted, verb);
navigator.drawOutline(zoomedMin, zoomedMax, inverted, verb);
navigator.drawHandle(zoomedMin, 0, inverted, verb);
navigator.drawHandle(zoomedMax, 1, inverted, verb);
}
if (navigator.scrollbar) {
if (inverted) {
scrollbarTop = navigator.top - scrollbarHeight;
scrollbarLeft = navigator.left - scrollbarHeight +
(navigatorEnabled ? 0 : (scrollbarXAxis.titleOffset || 0) +
scrollbarXAxis.axisTitleMargin
);
scrollbarHeight = navigatorSize + 2 * scrollbarHeight;
} else {
scrollbarTop = navigator.top +
(navigatorEnabled ? navigator.height : -scrollbarHeight);
scrollbarLeft = navigator.left - scrollbarHeight;
}
// Reposition scrollbar
navigator.scrollbar.position(
scrollbarLeft,
scrollbarTop,
navigatorWidth,
scrollbarHeight
);
// Keep scale 0-1
navigator.scrollbar.setRange(
// Use real value, not rounded because range can be very small (#1716)
navigator.zoomedMin / navigatorSize,
navigator.zoomedMax / navigatorSize
);
}
navigator.rendered = true;
},
/**
* Set up the mouse and touch events for the navigator
*/
addMouseEvents: function() {
var navigator = this,
chart = navigator.chart,
container = chart.container,
eventsToUnbind = [],
mouseMoveHandler,
mouseUpHandler;
/**
* Create mouse events' handlers.
* Make them as separate functions to enable wrapping them:
*/
navigator.mouseMoveHandler = mouseMoveHandler = function(e) {
navigator.onMouseMove(e);
};
navigator.mouseUpHandler = mouseUpHandler = function(e) {
navigator.onMouseUp(e);
};
// Add shades and handles mousedown events
eventsToUnbind = navigator.getPartsEvents('mousedown');
// Add mouse move and mouseup events. These are bind to doc/container,
// because Navigator.grabbedSomething flags are stored in mousedown events:
eventsToUnbind.push(
addEvent(container, 'mousemove', mouseMoveHandler),
addEvent(doc, 'mouseup', mouseUpHandler)
);
// Touch events
if (hasTouch) {
eventsToUnbind.push(
addEvent(container, 'touchmove', mouseMoveHandler),
addEvent(doc, 'touchend', mouseUpHandler)
);
eventsToUnbind.concat(navigator.getPartsEvents('touchstart'));
}
navigator.eventsToUnbind = eventsToUnbind;
// Data events
if (navigator.series && navigator.series[0]) {
eventsToUnbind.push(
addEvent(navigator.series[0].xAxis, 'foundExtremes', function() {
chart.navigator.modifyNavigatorAxisExtremes();
})
);
}
},
/**
* Generate events for handles and masks
* @param {String} eventName Event name handler, 'mousedown' or 'touchstart'
* @returns {Array} An array of arrays: [DOMElement, eventName, callback].
*/
getPartsEvents: function(eventName) {
var navigator = this,
events = [];
each(['shades', 'handles'], function(name) {
each(navigator[name], function(navigatorItem, index) {
events.push(
addEvent(
navigatorItem.element,
eventName,
function(e) {
navigator[name + 'Mousedown'](e, index);
}
)
);
});
});
return events;
},
/**
* Mousedown on a shaded mask, either:
* - will be stored for future drag&drop
* - will directly shift to a new range
*
* @param {Object} e Mouse event
* @param {Number} index Index of a mask in Navigator.shades array
*/
shadesMousedown: function(e, index) {
e = this.chart.pointer.normalize(e);
var navigator = this,
chart = navigator.chart,
xAxis = navigator.xAxis,
zoomedMin = navigator.zoomedMin,
navigatorPosition = navigator.left,
navigatorSize = navigator.size,
range = navigator.range,
chartX = e.chartX,
fixedMax,
ext,
left;
// For inverted chart, swap some options:
if (chart.inverted) {
chartX = e.chartY;
navigatorPosition = navigator.top;
}
if (index === 1) {
// Store information for drag&drop
navigator.grabbedCenter = chartX;
navigator.fixedWidth = range;
navigator.dragOffset = chartX - zoomedMin;
} else {
// Shift the range by clicking on shaded areas
left = chartX - navigatorPosition - range / 2;
if (index === 0) {
left = Math.max(0, left);
} else if (index === 2 && left + range >= navigatorSize) {
left = navigatorSize - range;
fixedMax = navigator.getUnionExtremes().dataMax; // #2293, #3543
}
if (left !== zoomedMin) { // it has actually moved
navigator.fixedWidth = range; // #1370
ext = xAxis.toFixedRange(left, left + range, null, fixedMax);
chart.xAxis[0].setExtremes(
Math.min(ext.min, ext.max),
Math.max(ext.min, ext.max),
true,
null, // auto animation
{
trigger: 'navigator'
}
);
}
}
},
/**
* Mousedown on a handle mask.
* Will store necessary information for drag&drop.
*
* @param {Object} e Mouse event
* @param {Number} index Index of a handle in Navigator.handles array
*/
handlesMousedown: function(e, index) {
e = this.chart.pointer.normalize(e);
var navigator = this,
chart = navigator.chart,
baseXAxis = chart.xAxis[0],
// For reversed axes, min and max are chagned,
// so the other extreme should be stored
reverse = (chart.inverted && !baseXAxis.reversed) ||
(!chart.inverted && baseXAxis.reversed);
if (index === 0) {
// Grab the left handle
navigator.grabbedLeft = true;
navigator.otherHandlePos = navigator.zoomedMax;
navigator.fixedExtreme = reverse ? baseXAxis.min : baseXAxis.max;
} else {
// Grab the right handle
navigator.grabbedRight = true;
navigator.otherHandlePos = navigator.zoomedMin;
navigator.fixedExtreme = reverse ? baseXAxis.max : baseXAxis.min;
}
chart.fixedRange = null;
},
/**
* Mouse move event based on x/y mouse position.
* @param {Object} e Mouse event
*/
onMouseMove: function(e) {
var navigator = this,
chart = navigator.chart,
left = navigator.left,
navigatorSize = navigator.navigatorSize,
range = navigator.range,
dragOffset = navigator.dragOffset,
inverted = chart.inverted,
chartX;
// In iOS, a mousemove event with e.pageX === 0 is fired when holding the finger
// down in the center of the scrollbar. This should be ignored.
if (!e.touches || e.touches[0].pageX !== 0) { // #4696, scrollbar failed on Android
e = chart.pointer.normalize(e);
chartX = e.chartX;
// Swap some options for inverted chart
if (inverted) {
left = navigator.top;
chartX = e.chartY;
}
// Drag left handle or top handle
if (navigator.grabbedLeft) {
navigator.hasDragged = true;
navigator.render(
0,
0,
chartX - left,
navigator.otherHandlePos
);
// Drag right handle or bottom handle
} else if (navigator.grabbedRight) {
navigator.hasDragged = true;
navigator.render(
0,
0,
navigator.otherHandlePos,
chartX - left
);
// Drag scrollbar or open area in navigator
} else if (navigator.grabbedCenter) {
navigator.hasDragged = true;
if (chartX < dragOffset) { // outside left
chartX = dragOffset;
} else if (chartX > navigatorSize + dragOffset - range) { // outside right
chartX = navigatorSize + dragOffset - range;
}
navigator.render(
0,
0,
chartX - dragOffset,
chartX - dragOffset + range
);
}
if (navigator.hasDragged && navigator.scrollbar && navigator.scrollbar.options.liveRedraw) {
e.DOMType = e.type; // DOMType is for IE8 because it can't read type async
setTimeout(function() {
navigator.onMouseUp(e);
}, 0);
}
}
},
/**
* Mouse up event based on x/y mouse position.
* @param {Object} e Mouse event
*/
onMouseUp: function(e) {
var navigator = this,
chart = navigator.chart,
xAxis = navigator.xAxis,
scrollbar = navigator.scrollbar,
fixedMin,
fixedMax,
ext,
DOMEvent = e.DOMEvent || e;
if (
// MouseUp is called for both, navigator and scrollbar (that order),
// which causes calling afterSetExtremes twice. Prevent first call
// by checking if scrollbar is going to set new extremes (#6334)
(navigator.hasDragged && (!scrollbar || !scrollbar.hasDragged)) ||
e.trigger === 'scrollbar'
) {
// When dragging one handle, make sure the other one doesn't change
if (navigator.zoomedMin === navigator.otherHandlePos) {
fixedMin = navigator.fixedExtreme;
} else if (navigator.zoomedMax === navigator.otherHandlePos) {
fixedMax = navigator.fixedExtreme;
}
// Snap to right edge (#4076)
if (navigator.zoomedMax === navigator.size) {
fixedMax = navigator.getUnionExtremes().dataMax;
}
ext = xAxis.toFixedRange(
navigator.zoomedMin,
navigator.zoomedMax,
fixedMin,
fixedMax
);
if (defined(ext.min)) {
chart.xAxis[0].setExtremes(
Math.min(ext.min, ext.max),
Math.max(ext.min, ext.max),
true,
navigator.hasDragged ? false : null, // Run animation when clicking buttons, scrollbar track etc, but not when dragging handles or scrollbar
{
trigger: 'navigator',
triggerOp: 'navigator-drag',
DOMEvent: DOMEvent // #1838
}
);
}
}
if (e.DOMType !== 'mousemove') {
navigator.grabbedLeft = navigator.grabbedRight =
navigator.grabbedCenter = navigator.fixedWidth =
navigator.fixedExtreme = navigator.otherHandlePos =
navigator.hasDragged = navigator.dragOffset = null;
}
},
/**
* Removes the event handlers attached previously with addEvents.
*/
removeEvents: function() {
if (this.eventsToUnbind) {
each(this.eventsToUnbind, function(unbind) {
unbind();
});
this.eventsToUnbind = undefined;
}
this.removeBaseSeriesEvents();
},
/**
* Remove data events.
*/
removeBaseSeriesEvents: function() {
var baseSeries = this.baseSeries || [];
if (this.navigatorEnabled && baseSeries[0] && this.navigatorOptions.adaptToUpdatedData !== false) {
each(baseSeries, function(series) {
removeEvent(series, 'updatedData', this.updatedDataHandler);
}, this);
// We only listen for extremes-events on the first baseSeries
if (baseSeries[0].xAxis) {
removeEvent(baseSeries[0].xAxis, 'foundExtremes', this.modifyBaseAxisExtremes);
}
}
},
/**
* Initiate the Navigator object
*/
init: function(chart) {
var chartOptions = chart.options,
navigatorOptions = chartOptions.navigator,
navigatorEnabled = navigatorOptions.enabled,
scrollbarOptions = chartOptions.scrollbar,
scrollbarEnabled = scrollbarOptions.enabled,
height = navigatorEnabled ? navigatorOptions.height : 0,
scrollbarHeight = scrollbarEnabled ? scrollbarOptions.height : 0;
this.handles = [];
this.shades = [];
this.chart = chart;
this.setBaseSeries();
this.height = height;
this.scrollbarHeight = scrollbarHeight;
this.scrollbarEnabled = scrollbarEnabled;
this.navigatorEnabled = navigatorEnabled;
this.navigatorOptions = navigatorOptions;
this.scrollbarOptions = scrollbarOptions;
this.outlineHeight = height + scrollbarHeight;
this.opposite = pick(navigatorOptions.opposite, !navigatorEnabled && chart.inverted); // #6262
var navigator = this,
baseSeries = navigator.baseSeries,
xAxisIndex = chart.xAxis.length,
yAxisIndex = chart.yAxis.length,
baseXaxis = baseSeries && baseSeries[0] && baseSeries[0].xAxis || chart.xAxis[0];
// Make room for the navigator, can be placed around the chart:
chart.extraMargin = {
type: navigator.opposite ? 'plotTop' : 'marginBottom',
value: (navigatorEnabled || !chart.inverted ? navigator.outlineHeight : 0) + navigatorOptions.margin
};
if (chart.inverted) {
chart.extraMargin.type = navigator.opposite ? 'marginRight' : 'plotLeft';
}
chart.isDirtyBox = true;
if (navigator.navigatorEnabled) {
// an x axis is required for scrollbar also
navigator.xAxis = new Axis(chart, merge({
// inherit base xAxis' break and ordinal options
breaks: baseXaxis.options.breaks,
ordinal: baseXaxis.options.ordinal
}, navigatorOptions.xAxis, {
id: 'navigator-x-axis',
yAxis: 'navigator-y-axis',
isX: true,
type: 'datetime',
index: xAxisIndex,
offset: 0,
keepOrdinalPadding: true, // #2436
startOnTick: false,
endOnTick: false,
minPadding: 0,
maxPadding: 0,
zoomEnabled: false
}, chart.inverted ? {
offsets: [scrollbarHeight, 0, -scrollbarHeight, 0],
width: height
} : {
offsets: [0, -scrollbarHeight, 0, scrollbarHeight],
height: height
}));
navigator.yAxis = new Axis(chart, merge(navigatorOptions.yAxis, {
id: 'navigator-y-axis',
alignTicks: false,
offset: 0,
index: yAxisIndex,
zoomEnabled: false
}, chart.inverted ? {
width: height
} : {
height: height
}));
// If we have a base series, initialize the navigator series
if (baseSeries || navigatorOptions.series.data) {
navigator.addBaseSeries();
// If not, set up an event to listen for added series
} else if (chart.series.length === 0) {
wrap(chart, 'redraw', function(proceed, animation) {
// We've got one, now add it as base and reset chart.redraw
if (chart.series.length > 0 && !navigator.series) {
navigator.setBaseSeries();
chart.redraw = proceed; // reset
}
proceed.call(chart, animation);
});
}
// Render items, so we can bind events to them:
navigator.renderElements();
// Add mouse events
navigator.addMouseEvents();
// in case of scrollbar only, fake an x axis to get translation
} else {
navigator.xAxis = {
translate: function(value, reverse) {
var axis = chart.xAxis[0],
ext = axis.getExtremes(),
scrollTrackWidth = axis.len - 2 * scrollbarHeight,
min = numExt('min', axis.options.min, ext.dataMin),
valueRange = numExt('max', axis.options.max, ext.dataMax) - min;
return reverse ?
// from pixel to value
(value * valueRange / scrollTrackWidth) + min :
// from value to pixel
scrollTrackWidth * (value - min) / valueRange;
},
toPixels: function(value) {
return this.translate(value);
},
toValue: function(value) {
return this.translate(value, true);
},
toFixedRange: Axis.prototype.toFixedRange,
fake: true
};
}
// Initialize the scrollbar
if (chart.options.scrollbar.enabled) {
chart.scrollbar = navigator.scrollbar = new Scrollbar(
chart.renderer,
merge(chart.options.scrollbar, {
margin: navigator.navigatorEnabled ? 0 : 10,
vertical: chart.inverted
}),
chart
);
addEvent(navigator.scrollbar, 'changed', function(e) {
var range = navigator.size,
to = range * this.to,
from = range * this.from;
navigator.hasDragged = navigator.scrollbar.hasDragged;
navigator.render(0, 0, from, to);
if (chart.options.scrollbar.liveRedraw || e.DOMType !== 'mousemove') {
setTimeout(function() {
navigator.onMouseUp(e);
});
}
});
}
// Add data events
navigator.addBaseSeriesEvents();
// Add redraw events
navigator.addChartEvents();
},
/**
* Get the union data extremes of the chart - the outer data extremes of the base
* X axis and the navigator axis.
* @param {boolean} returnFalseOnNoBaseSeries - as the param says.
*/
getUnionExtremes: function(returnFalseOnNoBaseSeries) {
var baseAxis = this.chart.xAxis[0],
navAxis = this.xAxis,
navAxisOptions = navAxis.options,
baseAxisOptions = baseAxis.options,
ret;
if (!returnFalseOnNoBaseSeries || baseAxis.dataMin !== null) {
ret = {
dataMin: pick( // #4053
navAxisOptions && navAxisOptions.min,
numExt(
'min',
baseAxisOptions.min,
baseAxis.dataMin,
navAxis.dataMin,
navAxis.min
)
),
dataMax: pick(
navAxisOptions && navAxisOptions.max,
numExt(
'max',
baseAxisOptions.max,
baseAxis.dataMax,
navAxis.dataMax,
navAxis.max
)
)
};
}
return ret;
},
/**
* Set the base series. With a bit of modification we should be able to make
* this an API method to be called from the outside
* @param {Object} baseSeriesOptions - series options for a navigator
*/
setBaseSeries: function(baseSeriesOptions) {
var chart = this.chart,
baseSeries;
baseSeriesOptions = baseSeriesOptions || chart.options && chart.options.navigator.baseSeries || 0;
// If we're resetting, remove the existing series
if (this.series) {
this.removeBaseSeriesEvents();
each(this.series, function(s) {
s.destroy();
});
}
baseSeries = this.baseSeries = [];
// Iterate through series and add the ones that should be shown in navigator
each(chart.series || [], function(series, i) {
if (series.options.showInNavigator || (i === baseSeriesOptions || series.options.id === baseSeriesOptions) &&
series.options.showInNavigator !== false) {
baseSeries.push(series);
}
});
// When run after render, this.xAxis already exists
if (this.xAxis && !this.xAxis.fake) {
this.addBaseSeries();
}
},
/*
* Add base series to the navigator.
*/
addBaseSeries: function() {
var navigator = this,
chart = navigator.chart,
navigatorSeries = navigator.series = [],
baseSeries = navigator.baseSeries,
baseOptions,
mergedNavSeriesOptions,
chartNavigatorOptions = navigator.navigatorOptions.series,
baseNavigatorOptions,
navSeriesMixin = {
enableMouseTracking: false,
index: null, // #6162
group: 'nav', // for columns
padXAxis: false,
xAxis: 'navigator-x-axis',
yAxis: 'navigator-y-axis',
showInLegend: false,
stacking: false, // #4823
isInternal: true,
visible: true
};
// Go through each base series and merge the options to create new series
if (baseSeries) {
each(baseSeries, function(base, i) {
navSeriesMixin.name = 'Navigator ' + (i + 1);
baseOptions = base.options || {};
baseNavigatorOptions = baseOptions.navigatorOptions || {};
mergedNavSeriesOptions = merge(baseOptions, navSeriesMixin, chartNavigatorOptions, baseNavigatorOptions);
// Merge data separately. Do a slice to avoid mutating the navigator options from base series (#4923).
var navigatorSeriesData = baseNavigatorOptions.data || chartNavigatorOptions.data;
navigator.hasNavigatorData = navigator.hasNavigatorData || !!navigatorSeriesData;
mergedNavSeriesOptions.data = navigatorSeriesData || baseOptions.data && baseOptions.data.slice(0);
// Add the series
base.navigatorSeries = chart.initSeries(mergedNavSeriesOptions);
navigatorSeries.push(base.navigatorSeries);
});
} else {
// No base series, build from mixin and chart wide options
mergedNavSeriesOptions = merge(chartNavigatorOptions, navSeriesMixin);
mergedNavSeriesOptions.data = chartNavigatorOptions.data;
navigator.hasNavigatorData = !!mergedNavSeriesOptions.data;
navigatorSeries.push(chart.initSeries(mergedNavSeriesOptions));
}
this.addBaseSeriesEvents();
},
/**
* Add data events.
* For example when main series is updated we need to recalculate extremes
*/
addBaseSeriesEvents: function() {
var navigator = this,
baseSeries = navigator.baseSeries || [];
// Bind modified extremes event to first base's xAxis only. In event of > 1 base-xAxes, the navigator will ignore those.
if (baseSeries[0] && baseSeries[0].xAxis) {
addEvent(baseSeries[0].xAxis, 'foundExtremes', this.modifyBaseAxisExtremes);
}
if (this.navigatorOptions.adaptToUpdatedData !== false) {
// Respond to updated data in the base series.
// Abort if lazy-loading data from the server.
each(baseSeries, function(base) {
if (base.xAxis) {
addEvent(base, 'updatedData', this.updatedDataHandler);
}
// Handle series removal
addEvent(base, 'remove', function() {
if (this.navigatorSeries) {
erase(navigator.series, this.navigatorSeries);
this.navigatorSeries.remove(false);
delete this.navigatorSeries;
}
});
}, this);
}
},
/**
* Set the navigator x axis extremes to reflect the total. The navigator extremes
* should always be the extremes of the union of all series in the chart as
* well as the navigator series.
*/
modifyNavigatorAxisExtremes: function() {
var xAxis = this.xAxis,
unionExtremes;
if (xAxis.getExtremes) {
unionExtremes = this.getUnionExtremes(true);
if (unionExtremes && (unionExtremes.dataMin !== xAxis.min || unionExtremes.dataMax !== xAxis.max)) {
xAxis.min = unionExtremes.dataMin;
xAxis.max = unionExtremes.dataMax;
}
}
},
/**
* Hook to modify the base axis extremes with information from the Navigator
*/
modifyBaseAxisExtremes: function() {
var baseXAxis = this,
navigator = baseXAxis.chart.navigator,
baseExtremes = baseXAxis.getExtremes(),
baseMin = baseExtremes.min,
baseMax = baseExtremes.max,
baseDataMin = baseExtremes.dataMin,
baseDataMax = baseExtremes.dataMax,
range = baseMax - baseMin,
stickToMin = navigator.stickToMin,
stickToMax = navigator.stickToMax,
newMax,
newMin,
navigatorSeries = navigator.series && navigator.series[0],
hasSetExtremes = !!baseXAxis.setExtremes,
// When the extremes have been set by range selector button, don't stick to min or max.
// The range selector buttons will handle the extremes. (#5489)
unmutable = baseXAxis.eventArgs && baseXAxis.eventArgs.trigger === 'rangeSelectorButton';
if (!unmutable) {
// If the zoomed range is already at the min, move it to the right as new data
// comes in
if (stickToMin) {
newMin = baseDataMin;
newMax = newMin + range;
}
// If the zoomed range is already at the max, move it to the right as new data
// comes in
if (stickToMax) {
newMax = baseDataMax;
if (!stickToMin) { // if stickToMin is true, the new min value is set above
newMin = Math.max(
newMax - range,
navigatorSeries && navigatorSeries.xData ?
navigatorSeries.xData[0] : -Number.MAX_VALUE
);
}
}
// Update the extremes
if (hasSetExtremes && (stickToMin || stickToMax)) {
if (isNumber(newMin)) {
baseXAxis.min = baseXAxis.userMin = newMin;
baseXAxis.max = baseXAxis.userMax = newMax;
}
}
}
// Reset
navigator.stickToMin = navigator.stickToMax = null;
},
/**
* Handler for updated data on the base series. When data is modified, the navigator series
* must reflect it. This is called from the Chart.redraw function before axis and series
* extremes are computed.
*/
updatedDataHandler: function() {
var navigator = this.chart.navigator,
baseSeries = this,
navigatorSeries = this.navigatorSeries;
// Detect whether the zoomed area should stick to the minimum or maximum. If the current
// axis minimum falls outside the new updated dataset, we must adjust.
navigator.stickToMin = isNumber(baseSeries.xAxis.min) && (baseSeries.xAxis.min <= baseSeries.xData[0]);
// If the scrollbar is scrolled all the way to the right, keep right as new data
// comes in.
navigator.stickToMax = Math.round(navigator.zoomedMax) >= Math.round(navigator.size);
// Set the navigator series data to the new data of the base series
if (navigatorSeries && !navigator.hasNavigatorData) {
navigatorSeries.options.pointStart = baseSeries.xData[0];
navigatorSeries.setData(baseSeries.options.data, false, null, false); // #5414
}
},
/**
* Add chart events, like redrawing navigator, when chart requires that.
*/
addChartEvents: function() {
addEvent(this.chart, 'redraw', function() {
// Move the scrollbar after redraw, like after data updata even if axes don't redraw
var navigator = this.navigator,
xAxis = navigator && (
navigator.baseSeries &&
navigator.baseSeries[0] &&
navigator.baseSeries[0].xAxis ||
navigator.scrollbar && this.xAxis[0]
); // #5709
if (xAxis) {
navigator.render(xAxis.min, xAxis.max);
}
});
},
/**
* Destroys allocated elements.
*/
destroy: function() {
// Disconnect events added in addEvents
this.removeEvents();
if (this.xAxis) {
erase(this.chart.xAxis, this.xAxis);
erase(this.chart.axes, this.xAxis);
}
if (this.yAxis) {
erase(this.chart.yAxis, this.yAxis);
erase(this.chart.axes, this.yAxis);
}
// Destroy series
each(this.series || [], function(s) {
if (s.destroy) {
s.destroy();
}
});
// Destroy properties
each([
'series', 'xAxis', 'yAxis', 'shades', 'outline', 'scrollbarTrack',
'scrollbarRifles', 'scrollbarGroup', 'scrollbar', 'navigatorGroup',
'rendered'
], function(prop) {
if (this[prop] && this[prop].destroy) {
this[prop].destroy();
}
this[prop] = null;
}, this);
// Destroy elements in collection
each([this.handles], function(coll) {
destroyObjectProperties(coll);
}, this);
}
};
H.Navigator = Navigator;
/**
* For Stock charts, override selection zooming with some special features because
* X axis zooming is already allowed by the Navigator and Range selector.
*/
wrap(Axis.prototype, 'zoom', function(proceed, newMin, newMax) {
var chart = this.chart,
chartOptions = chart.options,
zoomType = chartOptions.chart.zoomType,
previousZoom,
navigator = chartOptions.navigator,
rangeSelector = chartOptions.rangeSelector,
ret;
if (this.isXAxis && ((navigator && navigator.enabled) ||
(rangeSelector && rangeSelector.enabled))) {
// For x only zooming, fool the chart.zoom method not to create the zoom button
// because the property already exists
if (zoomType === 'x') {
chart.resetZoomButton = 'blocked';
// For y only zooming, ignore the X axis completely
} else if (zoomType === 'y') {
ret = false;
// For xy zooming, record the state of the zoom before zoom selection, then when
// the reset button is pressed, revert to this state
} else if (zoomType === 'xy') {
previousZoom = this.previousZoom;
if (defined(newMin)) {
this.previousZoom = [this.min, this.max];
} else if (previousZoom) {
newMin = previousZoom[0];
newMax = previousZoom[1];
delete this.previousZoom;
}
}
}
return ret !== undefined ? ret : proceed.call(this, newMin, newMax);
});
// Initialize navigator for stock charts
wrap(Chart.prototype, 'init', function(proceed, options, callback) {
addEvent(this, 'beforeRender', function() {
var options = this.options;
if (options.navigator.enabled || options.scrollbar.enabled) {
this.scroller = this.navigator = new Navigator(this);
}
});
proceed.call(this, options, callback);
});
/**
* For stock charts, extend the Chart.setChartSize method so that we can set the final top position
* of the navigator once the height of the chart, including the legend, is determined. #367.
* We can't use Chart.getMargins, because labels offsets are not calculated yet.
*/
wrap(Chart.prototype, 'setChartSize', function(proceed) {
var legend = this.legend,
navigator = this.navigator,
scrollbarHeight,
legendOptions,
xAxis,
yAxis;
proceed.apply(this, [].slice.call(arguments, 1));
if (navigator) {
legendOptions = legend.options;
xAxis = navigator.xAxis;
yAxis = navigator.yAxis;
scrollbarHeight = navigator.scrollbarHeight;
// Compute the top position
if (this.inverted) {
navigator.left = navigator.opposite ?
this.chartWidth - scrollbarHeight - navigator.height :
this.spacing[3] + scrollbarHeight;
navigator.top = this.plotTop + scrollbarHeight;
} else {
navigator.left = this.plotLeft + scrollbarHeight;
navigator.top = navigator.navigatorOptions.top ||
this.chartHeight - navigator.height - scrollbarHeight - this.spacing[2] -
(legendOptions.verticalAlign === 'bottom' && legendOptions.enabled && !legendOptions.floating ?
legend.legendHeight + pick(legendOptions.margin, 10) : 0);
}
if (xAxis && yAxis) { // false if navigator is disabled (#904)
if (this.inverted) {
xAxis.options.left = yAxis.options.left = navigator.left;
} else {
xAxis.options.top = yAxis.options.top = navigator.top;
}
xAxis.setAxisSize();
yAxis.setAxisSize();
}
}
});
// Pick up badly formatted point options to addPoint
wrap(Series.prototype, 'addPoint', function(proceed, options, redraw, shift, animation) {
var turboThreshold = this.options.turboThreshold;
if (turboThreshold && this.xData.length > turboThreshold && isObject(options, true) && this.chart.navigator) {
error(20, true);
}
proceed.call(this, options, redraw, shift, animation);
});
// Handle adding new series
wrap(Chart.prototype, 'addSeries', function(proceed, options, redraw, animation) {
var series = proceed.call(this, options, false, animation);
if (this.navigator) {
this.navigator.setBaseSeries(); // Recompute which series should be shown in navigator, and add them
}
if (pick(redraw, true)) {
this.redraw();
}
return series;
});
// Handle updating series
wrap(Series.prototype, 'update', function(proceed, newOptions, redraw) {
proceed.call(this, newOptions, false);
if (this.chart.navigator) {
this.chart.navigator.setBaseSeries();
}
if (pick(redraw, true)) {
this.chart.redraw();
}
});
Chart.prototype.callbacks.push(function(chart) {
var extremes,
navigator = chart.navigator;
// Initiate the navigator
if (navigator) {
extremes = chart.xAxis[0].getExtremes();
navigator.render(extremes.min, extremes.max);
}
});
/* ****************************************************************************
* End Navigator code *
*****************************************************************************/
}(Highcharts));
(function(H) {
/**
* (c) 2010-2017 Torstein Honsi
*
* License: www.highcharts.com/license
*/
var addEvent = H.addEvent,
Axis = H.Axis,
Chart = H.Chart,
css = H.css,
createElement = H.createElement,
dateFormat = H.dateFormat,
defaultOptions = H.defaultOptions,
useUTC = defaultOptions.global.useUTC,
defined = H.defined,
destroyObjectProperties = H.destroyObjectProperties,
discardElement = H.discardElement,
each = H.each,
extend = H.extend,
fireEvent = H.fireEvent,
HCDate = H.Date,
isNumber = H.isNumber,
merge = H.merge,
pick = H.pick,
pInt = H.pInt,
splat = H.splat,
wrap = H.wrap;
/* ****************************************************************************
* Start Range Selector code *
*****************************************************************************/
extend(defaultOptions, {
rangeSelector: {
// allButtonsEnabled: false,
// enabled: true,
// buttons: {Object}
// buttonSpacing: 0,
buttonTheme: {
'stroke-width': 0,
width: 28,
height: 18,
padding: 2,
zIndex: 7 // #484, #852
},
height: 35, // reserved space for buttons and input
inputPosition: {
align: 'right'
},
// inputDateFormat: '%b %e, %Y',
// inputEditDateFormat: '%Y-%m-%d',
// inputEnabled: true,
// selected: undefined,
// inputStyle: {},
labelStyle: {
color: '#666666'
}
}
});
defaultOptions.lang = merge(defaultOptions.lang, {
rangeSelectorZoom: 'Zoom',
rangeSelectorFrom: 'From',
rangeSelectorTo: 'To'
});
/**
* The range selector.
* @class
* @param {Object} chart
*/
function RangeSelector(chart) {
// Run RangeSelector
this.init(chart);
}
RangeSelector.prototype = {
/**
* The method to run when one of the buttons in the range selectors is clicked
* @param {Number} i The index of the button
* @param {Object} rangeOptions
* @param {Boolean} redraw
*/
clickButton: function(i, redraw) {
var rangeSelector = this,
chart = rangeSelector.chart,
rangeOptions = rangeSelector.buttonOptions[i],
baseAxis = chart.xAxis[0],
unionExtremes = (chart.scroller && chart.scroller.getUnionExtremes()) || baseAxis || {},
dataMin = unionExtremes.dataMin,
dataMax = unionExtremes.dataMax,
newMin,
newMax = baseAxis && Math.round(Math.min(baseAxis.max, pick(dataMax, baseAxis.max))), // #1568
type = rangeOptions.type,
baseXAxisOptions,
range = rangeOptions._range,
rangeMin,
minSetting,
rangeSetting,
ctx,
ytdExtremes,
dataGrouping = rangeOptions.dataGrouping;
if (dataMin === null || dataMax === null) { // chart has no data, base series is removed
return;
}
// Set the fixed range before range is altered
chart.fixedRange = range;
// Apply dataGrouping associated to button
if (dataGrouping) {
this.forcedDataGrouping = true;
Axis.prototype.setDataGrouping.call(baseAxis || {
chart: this.chart
}, dataGrouping, false);
}
// Apply range
if (type === 'month' || type === 'year') {
if (!baseAxis) {
// This is set to the user options and picked up later when the axis is instantiated
// so that we know the min and max.
range = rangeOptions;
} else {
ctx = {
range: rangeOptions,
max: newMax,
dataMin: dataMin,
dataMax: dataMax
};
newMin = baseAxis.minFromRange.call(ctx);
if (isNumber(ctx.newMax)) {
newMax = ctx.newMax;
}
}
// Fixed times like minutes, hours, days
} else if (range) {
newMin = Math.max(newMax - range, dataMin);
newMax = Math.min(newMin + range, dataMax);
} else if (type === 'ytd') {
// On user clicks on the buttons, or a delayed action running from the beforeRender
// event (below), the baseAxis is defined.
if (baseAxis) {
// When "ytd" is the pre-selected button for the initial view, its calculation
// is delayed and rerun in the beforeRender event (below). When the series
// are initialized, but before the chart is rendered, we have access to the xData
// array (#942).
if (dataMax === undefined) {
dataMin = Number.MAX_VALUE;
dataMax = Number.MIN_VALUE;
each(chart.series, function(series) {
var xData = series.xData; // reassign it to the last item
dataMin = Math.min(xData[0], dataMin);
dataMax = Math.max(xData[xData.length - 1], dataMax);
});
redraw = false;
}
ytdExtremes = rangeSelector.getYTDExtremes(dataMax, dataMin, useUTC);
newMin = rangeMin = ytdExtremes.min;
newMax = ytdExtremes.max;
// "ytd" is pre-selected. We don't yet have access to processed point and extremes data
// (things like pointStart and pointInterval are missing), so we delay the process (#942)
} else {
addEvent(chart, 'beforeRender', function() {
rangeSelector.clickButton(i);
});
return;
}
} else if (type === 'all' && baseAxis) {
newMin = dataMin;
newMax = dataMax;
}
rangeSelector.setSelected(i);
// Update the chart
if (!baseAxis) {
// Axis not yet instanciated. Temporarily set min and range
// options and remove them on chart load (#4317).
baseXAxisOptions = splat(chart.options.xAxis)[0];
rangeSetting = baseXAxisOptions.range;
baseXAxisOptions.range = range;
minSetting = baseXAxisOptions.min;
baseXAxisOptions.min = rangeMin;
addEvent(chart, 'load', function resetMinAndRange() {
baseXAxisOptions.range = rangeSetting;
baseXAxisOptions.min = minSetting;
});
} else {
// Existing axis object. Set extremes after render time.
baseAxis.setExtremes(
newMin,
newMax,
pick(redraw, 1),
null, // auto animation
{
trigger: 'rangeSelectorButton',
rangeSelectorButton: rangeOptions
}
);
}
},
/**
* Set the selected option. This method only sets the internal flag, it doesn't
* update the buttons or the actual zoomed range.
*/
setSelected: function(selected) {
this.selected = this.options.selected = selected;
},
/**
* The default buttons for pre-selecting time frames
*/
defaultButtons: [{
type: 'month',
count: 1,
text: '1m'
}, {
type: 'month',
count: 3,
text: '3m'
}, {
type: 'month',
count: 6,
text: '6m'
}, {
type: 'ytd',
text: 'YTD'
}, {
type: 'year',
count: 1,
text: '1y'
}, {
type: 'all',
text: 'All'
}],
/**
* Initialize the range selector
*/
init: function(chart) {
var rangeSelector = this,
options = chart.options.rangeSelector,
buttonOptions = options.buttons || [].concat(rangeSelector.defaultButtons),
selectedOption = options.selected,
blurInputs = function() {
var minInput = rangeSelector.minInput,
maxInput = rangeSelector.maxInput;
if (minInput && minInput.blur) { //#3274 in some case blur is not defined
fireEvent(minInput, 'blur'); //#3274
}
if (maxInput && maxInput.blur) { //#3274 in some case blur is not defined
fireEvent(maxInput, 'blur'); //#3274
}
};
rangeSelector.chart = chart;
rangeSelector.options = options;
rangeSelector.buttons = [];
chart.extraTopMargin = options.height;
rangeSelector.buttonOptions = buttonOptions;
this.unMouseDown = addEvent(chart.container, 'mousedown', blurInputs);
this.unResize = addEvent(chart, 'resize', blurInputs);
// Extend the buttonOptions with actual range
each(buttonOptions, rangeSelector.computeButtonRange);
// zoomed range based on a pre-selected button index
if (selectedOption !== undefined && buttonOptions[selectedOption]) {
this.clickButton(selectedOption, false);
}
addEvent(chart, 'load', function() {
// If a data grouping is applied to the current button, release it when extremes change
addEvent(chart.xAxis[0], 'setExtremes', function(e) {
if (this.max - this.min !== chart.fixedRange && e.trigger !== 'rangeSelectorButton' &&
e.trigger !== 'updatedData' && rangeSelector.forcedDataGrouping) {
this.setDataGrouping(false, false);
}
});
});
},
/**
* Dynamically update the range selector buttons after a new range has been set
*/
updateButtonStates: function() {
var rangeSelector = this,
chart = this.chart,
baseAxis = chart.xAxis[0],
actualRange = Math.round(baseAxis.max - baseAxis.min),
hasNoData = !baseAxis.hasVisibleSeries,
day = 24 * 36e5, // A single day in milliseconds
unionExtremes = (chart.scroller && chart.scroller.getUnionExtremes()) || baseAxis,
dataMin = unionExtremes.dataMin,
dataMax = unionExtremes.dataMax,
ytdExtremes = rangeSelector.getYTDExtremes(dataMax, dataMin, useUTC),
ytdMin = ytdExtremes.min,
ytdMax = ytdExtremes.max,
selected = rangeSelector.selected,
selectedExists = isNumber(selected),
allButtonsEnabled = rangeSelector.options.allButtonsEnabled,
buttons = rangeSelector.buttons;
each(rangeSelector.buttonOptions, function(rangeOptions, i) {
var range = rangeOptions._range,
type = rangeOptions.type,
count = rangeOptions.count || 1,
button = buttons[i],
state = 0,
disable,
select,
isSelected = i === selected,
// Disable buttons where the range exceeds what is allowed in the current view
isTooGreatRange = range > dataMax - dataMin,
// Disable buttons where the range is smaller than the minimum range
isTooSmallRange = range < baseAxis.minRange,
// Do not select the YTD button if not explicitly told so
isYTDButNotSelected = false,
// Disable the All button if we're already showing all
isAllButAlreadyShowingAll = false,
isSameRange = range === actualRange;
// Months and years have a variable range so we check the extremes
if (
(type === 'month' || type === 'year') &&
(actualRange >= {
month: 28,
year: 365
}[type] * day * count) &&
(actualRange <= {
month: 31,
year: 366
}[type] * day * count)
) {
isSameRange = true;
} else if (type === 'ytd') {
isSameRange = (ytdMax - ytdMin) === actualRange;
isYTDButNotSelected = !isSelected;
} else if (type === 'all') {
isSameRange = baseAxis.max - baseAxis.min >= dataMax - dataMin;
isAllButAlreadyShowingAll = !isSelected && selectedExists && isSameRange;
}
// The new zoom area happens to match the range for a button - mark it selected.
// This happens when scrolling across an ordinal gap. It can be seen in the intraday
// demos when selecting 1h and scroll across the night gap.
disable = (!allButtonsEnabled &&
(
isTooGreatRange ||
isTooSmallRange ||
isAllButAlreadyShowingAll ||
hasNoData
)
);
select = (
(isSelected && isSameRange) ||
(isSameRange && !selectedExists && !isYTDButNotSelected)
);
if (disable) {
state = 3;
} else if (select) {
selectedExists = true; // Only one button can be selected
state = 2;
}
// If state has changed, update the button
if (button.state !== state) {
button.setState(state);
}
});
},
/**
* Compute and cache the range for an individual button
*/
computeButtonRange: function(rangeOptions) {
var type = rangeOptions.type,
count = rangeOptions.count || 1,
// these time intervals have a fixed number of milliseconds, as opposed
// to month, ytd and year
fixedTimes = {
millisecond: 1,
second: 1000,
minute: 60 * 1000,
hour: 3600 * 1000,
day: 24 * 3600 * 1000,
week: 7 * 24 * 3600 * 1000
};
// Store the range on the button object
if (fixedTimes[type]) {
rangeOptions._range = fixedTimes[type] * count;
} else if (type === 'month' || type === 'year') {
rangeOptions._range = {
month: 30,
year: 365
}[type] * 24 * 36e5 * count;
}
},
/**
* Set the internal and displayed value of a HTML input for the dates
* @param {String} name
* @param {Number} time
*/
setInputValue: function(name, time) {
var options = this.chart.options.rangeSelector,
input = this[name + 'Input'];
if (defined(time)) {
input.previousValue = input.HCTime;
input.HCTime = time;
}
input.value = dateFormat(
options.inputEditDateFormat || '%Y-%m-%d',
input.HCTime
);
this[name + 'DateBox'].attr({
text: dateFormat(options.inputDateFormat || '%b %e, %Y', input.HCTime)
});
},
showInput: function(name) {
var inputGroup = this.inputGroup,
dateBox = this[name + 'DateBox'];
css(this[name + 'Input'], {
left: (inputGroup.translateX + dateBox.x) + 'px',
top: inputGroup.translateY + 'px',
width: (dateBox.width - 2) + 'px',
height: (dateBox.height - 2) + 'px',
border: '2px solid silver'
});
},
hideInput: function(name) {
css(this[name + 'Input'], {
border: 0,
width: '1px',
height: '1px'
});
this.setInputValue(name);
},
/**
* Draw either the 'from' or the 'to' HTML input box of the range selector
* @param {Object} name
*/
drawInput: function(name) {
var rangeSelector = this,
chart = rangeSelector.chart,
chartStyle = chart.renderer.style || {},
renderer = chart.renderer,
options = chart.options.rangeSelector,
lang = defaultOptions.lang,
div = rangeSelector.div,
isMin = name === 'min',
input,
label,
dateBox,
inputGroup = this.inputGroup;
function updateExtremes() {
var inputValue = input.value,
value = (options.inputDateParser || Date.parse)(inputValue),
chartAxis = chart.xAxis[0],
dataAxis = chart.scroller && chart.scroller.xAxis ? chart.scroller.xAxis : chartAxis,
dataMin = dataAxis.dataMin,
dataMax = dataAxis.dataMax;
if (value !== input.previousValue) {
input.previousValue = value;
// If the value isn't parsed directly to a value by the browser's Date.parse method,
// like YYYY-MM-DD in IE, try parsing it a different way
if (!isNumber(value)) {
value = inputValue.split('-');
value = Date.UTC(pInt(value[0]), pInt(value[1]) - 1, pInt(value[2]));
}
if (isNumber(value)) {
// Correct for timezone offset (#433)
if (!useUTC) {
value = value + new Date().getTimezoneOffset() * 60 * 1000;
}
// Validate the extremes. If it goes beyound the data min or max, use the
// actual data extreme (#2438).
if (isMin) {
if (value > rangeSelector.maxInput.HCTime) {
value = undefined;
} else if (value < dataMin) {
value = dataMin;
}
} else {
if (value < rangeSelector.minInput.HCTime) {
value = undefined;
} else if (value > dataMax) {
value = dataMax;
}
}
// Set the extremes
if (value !== undefined) {
chartAxis.setExtremes(
isMin ? value : chartAxis.min,
isMin ? chartAxis.max : value,
undefined,
undefined, {
trigger: 'rangeSelectorInput'
}
);
}
}
}
}
// Create the text label
this[name + 'Label'] = label = renderer.label(lang[isMin ? 'rangeSelectorFrom' : 'rangeSelectorTo'], this.inputGroup.offset)
.addClass('highcharts-range-label')
.attr({
padding: 2
})
.add(inputGroup);
inputGroup.offset += label.width + 5;
// Create an SVG label that shows updated date ranges and and records click events that
// bring in the HTML input.
this[name + 'DateBox'] = dateBox = renderer.label('', inputGroup.offset)
.addClass('highcharts-range-input')
.attr({
padding: 2,
width: options.inputBoxWidth || 90,
height: options.inputBoxHeight || 17,
stroke: options.inputBoxBorderColor || '#cccccc',
'stroke-width': 1,
'text-align': 'center'
})
.on('click', function() {
rangeSelector.showInput(name); // If it is already focused, the onfocus event doesn't fire (#3713)
rangeSelector[name + 'Input'].focus();
})
.add(inputGroup);
inputGroup.offset += dateBox.width + (isMin ? 10 : 0);
// Create the HTML input element. This is rendered as 1x1 pixel then set to the right size
// when focused.
this[name + 'Input'] = input = createElement('input', {
name: name,
className: 'highcharts-range-selector',
type: 'text'
}, {
top: chart.plotTop + 'px' // prevent jump on focus in Firefox
}, div);
// Styles
label.css(merge(chartStyle, options.labelStyle));
dateBox.css(merge({
color: '#333333'
}, chartStyle, options.inputStyle));
css(input, extend({
position: 'absolute',
border: 0,
width: '1px', // Chrome needs a pixel to see it
height: '1px',
padding: 0,
textAlign: 'center',
fontSize: chartStyle.fontSize,
fontFamily: chartStyle.fontFamily,
left: '-9em' // #4798
}, options.inputStyle));
// Blow up the input box
input.onfocus = function() {
rangeSelector.showInput(name);
};
// Hide away the input box
input.onblur = function() {
rangeSelector.hideInput(name);
};
// handle changes in the input boxes
input.onchange = updateExtremes;
input.onkeypress = function(event) {
// IE does not fire onchange on enter
if (event.keyCode === 13) {
updateExtremes();
}
};
},
/**
* Get the position of the range selector buttons and inputs. This can be overridden from outside for custom positioning.
*/
getPosition: function() {
var chart = this.chart,
options = chart.options.rangeSelector,
buttonTop = pick((options.buttonPosition || {}).y, chart.plotTop - chart.axisOffset[0] - options.height);
return {
buttonTop: buttonTop,
inputTop: buttonTop - 10
};
},
/**
* Get the extremes of YTD.
* Will choose dataMax if its value is lower than the current timestamp.
* Will choose dataMin if its value is higher than the timestamp for
* the start of current year.
* @param {number} dataMax
* @param {number} dataMin
* @return {object} Returns min and max for the YTD
*/
getYTDExtremes: function(dataMax, dataMin, useUTC) {
var min,
now = new HCDate(dataMax),
year = now[HCDate.hcGetFullYear](),
startOfYear = useUTC ? HCDate.UTC(year, 0, 1) : +new HCDate(year, 0, 1); // eslint-disable-line new-cap
min = Math.max(dataMin || 0, startOfYear);
now = now.getTime();
return {
max: Math.min(dataMax || now, now),
min: min
};
},
/**
* Render the range selector including the buttons and the inputs. The first time render
* is called, the elements are created and positioned. On subsequent calls, they are
* moved and updated.
* @param {Number} min X axis minimum
* @param {Number} max X axis maximum
*/
render: function(min, max) {
var rangeSelector = this,
chart = rangeSelector.chart,
renderer = chart.renderer,
container = chart.container,
chartOptions = chart.options,
navButtonOptions = chartOptions.exporting && chartOptions.exporting.enabled !== false &&
chartOptions.navigation && chartOptions.navigation.buttonOptions,
options = chartOptions.rangeSelector,
buttons = rangeSelector.buttons,
lang = defaultOptions.lang,
div = rangeSelector.div,
inputGroup = rangeSelector.inputGroup,
buttonTheme = options.buttonTheme,
buttonPosition = options.buttonPosition || {},
inputEnabled = options.inputEnabled,
states = buttonTheme && buttonTheme.states,
plotLeft = chart.plotLeft,
buttonLeft,
pos = this.getPosition(),
buttonGroup = rangeSelector.group,
buttonBBox,
rendered = rangeSelector.rendered;
if (options.enabled === false) {
return;
}
// create the elements
if (!rendered) {
rangeSelector.group = buttonGroup = renderer.g('range-selector-buttons').add();
rangeSelector.zoomText = renderer.text(lang.rangeSelectorZoom, pick(buttonPosition.x, plotLeft), 15)
.css(options.labelStyle)
.add(buttonGroup);
// button starting position
buttonLeft = pick(buttonPosition.x, plotLeft) + rangeSelector.zoomText.getBBox().width + 5;
each(rangeSelector.buttonOptions, function(rangeOptions, i) {
buttons[i] = renderer.button(
rangeOptions.text,
buttonLeft,
0,
function() {
rangeSelector.clickButton(i);
rangeSelector.isActive = true;
},
buttonTheme,
states && states.hover,
states && states.select,
states && states.disabled
)
.attr({
'text-align': 'center'
})
.add(buttonGroup);
// increase button position for the next button
buttonLeft += buttons[i].width + pick(options.buttonSpacing, 5);
});
// first create a wrapper outside the container in order to make
// the inputs work and make export correct
if (inputEnabled !== false) {
rangeSelector.div = div = createElement('div', null, {
position: 'relative',
height: 0,
zIndex: 1 // above container
});
container.parentNode.insertBefore(div, container);
// Create the group to keep the inputs
rangeSelector.inputGroup = inputGroup = renderer.g('input-group')
.add();
inputGroup.offset = 0;
rangeSelector.drawInput('min');
rangeSelector.drawInput('max');
}
}
rangeSelector.updateButtonStates();
// Set or update the group position
buttonGroup[rendered ? 'animate' : 'attr']({
translateY: pos.buttonTop
});
if (inputEnabled !== false) {
// Update the alignment to the updated spacing box
inputGroup.align(extend({
y: pos.inputTop,
width: inputGroup.offset,
// Detect collision with the exporting buttons
x: navButtonOptions && (pos.inputTop < (navButtonOptions.y || 0) + navButtonOptions.height - chart.spacing[0]) ?
-40 : 0
}, options.inputPosition), true, chart.spacingBox);
// Hide if overlapping - inputEnabled is null or undefined
if (!defined(inputEnabled)) {
buttonBBox = buttonGroup.getBBox();
inputGroup[inputGroup.alignAttr.translateX < buttonBBox.x + buttonBBox.width + 10 ? 'hide' : 'show']();
}
// Set or reset the input values
rangeSelector.setInputValue('min', min);
rangeSelector.setInputValue('max', max);
}
rangeSelector.rendered = true;
},
/**
* Update the range selector with new options
*/
update: function(options) {
var chart = this.chart;
merge(true, chart.options.rangeSelector, options);
this.destroy();
this.init(chart);
},
/**
* Destroys allocated elements.
*/
destroy: function() {
var rSelector = this,
minInput = rSelector.minInput,
maxInput = rSelector.maxInput;
rSelector.unMouseDown();
rSelector.unResize();
// Destroy elements in collections
destroyObjectProperties(rSelector.buttons);
// Clear input element events
if (minInput) {
minInput.onfocus = minInput.onblur = minInput.onchange = null;
}
if (maxInput) {
maxInput.onfocus = maxInput.onblur = maxInput.onchange = null;
}
// Destroy HTML and SVG elements
H.objectEach(rSelector, function(val, key) {
if (val && key !== 'chart') {
if (val.destroy) { // SVGElement
val.destroy();
} else if (val.nodeType) { // HTML element
discardElement(this[key]);
}
}
if (val !== RangeSelector.prototype[key]) {
rSelector[key] = null;
}
}, this);
}
};
/**
* Add logic to normalize the zoomed range in order to preserve the pressed state of range selector buttons
*/
Axis.prototype.toFixedRange = function(pxMin, pxMax, fixedMin, fixedMax) {
var fixedRange = this.chart && this.chart.fixedRange,
newMin = pick(fixedMin, this.translate(pxMin, true, !this.horiz)),
newMax = pick(fixedMax, this.translate(pxMax, true, !this.horiz)),
changeRatio = fixedRange && (newMax - newMin) / fixedRange;
// If the difference between the fixed range and the actual requested range is
// too great, the user is dragging across an ordinal gap, and we need to release
// the range selector button.
if (changeRatio > 0.7 && changeRatio < 1.3) {
if (fixedMax) {
newMin = newMax - fixedRange;
} else {
newMax = newMin + fixedRange;
}
}
if (!isNumber(newMin)) { // #1195
newMin = newMax = undefined;
}
return {
min: newMin,
max: newMax
};
};
/**
* Get the axis min value based on the range option and the current max. For
* stock charts this is extended via the {@link RangeSelector} so that if the
* selected range is a multiple of months or years, it is compensated for
* various month lengths.
*
* @return {number} The new minimum value.
*/
Axis.prototype.minFromRange = function() {
var rangeOptions = this.range,
type = rangeOptions.type,
timeName = {
month: 'Month',
year: 'FullYear'
}[type],
min,
max = this.max,
dataMin,
range,
// Get the true range from a start date
getTrueRange = function(base, count) {
var date = new Date(base),
basePeriod = date['get' + timeName]();
date['set' + timeName](basePeriod + count);
if (basePeriod === date['get' + timeName]()) {
date.setDate(0); // #6537
}
return date.getTime() - base;
};
if (isNumber(rangeOptions)) {
min = max - rangeOptions;
range = rangeOptions;
} else {
min = max + getTrueRange(max, -rangeOptions.count);
// Let the fixedRange reflect initial settings (#5930)
if (this.chart) {
this.chart.fixedRange = max - min;
}
}
dataMin = pick(this.dataMin, Number.MIN_VALUE);
if (!isNumber(min)) {
min = dataMin;
}
if (min <= dataMin) {
min = dataMin;
if (range === undefined) { // #4501
range = getTrueRange(min, rangeOptions.count);
}
this.newMax = Math.min(min + range, this.dataMax);
}
if (!isNumber(max)) {
min = undefined;
}
return min;
};
// Initialize scroller for stock charts
wrap(Chart.prototype, 'init', function(proceed, options, callback) {
addEvent(this, 'init', function() {
if (this.options.rangeSelector.enabled) {
this.rangeSelector = new RangeSelector(this);
}
});
proceed.call(this, options, callback);
});
Chart.prototype.callbacks.push(function(chart) {
var extremes,
rangeSelector = chart.rangeSelector,
unbindRender,
unbindSetExtremes;
function renderRangeSelector() {
extremes = chart.xAxis[0].getExtremes();
if (isNumber(extremes.min)) {
rangeSelector.render(extremes.min, extremes.max);
}
}
if (rangeSelector) {
// redraw the scroller on setExtremes
unbindSetExtremes = addEvent(
chart.xAxis[0],
'afterSetExtremes',
function(e) {
rangeSelector.render(e.min, e.max);
}
);
// redraw the scroller chart resize
unbindRender = addEvent(chart, 'redraw', renderRangeSelector);
// do it now
renderRangeSelector();
}
// Remove resize/afterSetExtremes at chart destroy
addEvent(chart, 'destroy', function destroyEvents() {
if (rangeSelector) {
unbindRender();
unbindSetExtremes();
}
});
});
H.RangeSelector = RangeSelector;
/* ****************************************************************************
* End Range Selector code *
*****************************************************************************/
}(Highcharts));
(function(H) {
/**
* (c) 2010-2017 Torstein Honsi
*
* License: www.highcharts.com/license
*/
var arrayMax = H.arrayMax,
arrayMin = H.arrayMin,
Axis = H.Axis,
Chart = H.Chart,
defined = H.defined,
each = H.each,
extend = H.extend,
format = H.format,
grep = H.grep,
inArray = H.inArray,
isNumber = H.isNumber,
isString = H.isString,
map = H.map,
merge = H.merge,
pick = H.pick,
Point = H.Point,
Renderer = H.Renderer,
Series = H.Series,
splat = H.splat,
SVGRenderer = H.SVGRenderer,
VMLRenderer = H.VMLRenderer,
wrap = H.wrap,
seriesProto = Series.prototype,
seriesInit = seriesProto.init,
seriesProcessData = seriesProto.processData,
pointTooltipFormatter = Point.prototype.tooltipFormatter;
/**
* A wrapper for Chart with all the default values for a Stock chart
*/
H.StockChart = H.stockChart = function(a, b, c) {
var hasRenderToArg = isString(a) || a.nodeName,
options = arguments[hasRenderToArg ? 1 : 0],
seriesOptions = options.series, // to increase performance, don't merge the data
defaultOptions = H.getOptions(),
opposite,
// Always disable startOnTick:true on the main axis when the navigator
// is enabled (#1090)
navigatorEnabled = pick(
options.navigator && options.navigator.enabled,
defaultOptions.navigator.enabled,
true
),
disableStartOnTick = navigatorEnabled ? {
startOnTick: false,
endOnTick: false
} : null,
lineOptions = {
marker: {
enabled: false,
radius: 2
}
// gapSize: 0
},
columnOptions = {
shadow: false,
borderWidth: 0
};
// apply X axis options to both single and multi y axes
options.xAxis = map(splat(options.xAxis || {}), function(xAxisOptions) {
return merge({ // defaults
minPadding: 0,
maxPadding: 0,
ordinal: true,
title: {
text: null
},
labels: {
overflow: 'justify'
},
showLastLabel: true
},
defaultOptions.xAxis, // #3802
xAxisOptions, // user options
{ // forced options
type: 'datetime',
categories: null
},
disableStartOnTick
);
});
// apply Y axis options to both single and multi y axes
options.yAxis = map(splat(options.yAxis || {}), function(yAxisOptions) {
opposite = pick(yAxisOptions.opposite, true);
return merge({ // defaults
labels: {
y: -2
},
opposite: opposite,
showLastLabel: false,
title: {
text: null
}
},
defaultOptions.yAxis, // #3802
yAxisOptions // user options
);
});
options.series = null;
options = merge({
chart: {
panning: true,
pinchType: 'x'
},
navigator: {
enabled: navigatorEnabled
},
scrollbar: {
// #4988 - check if setOptions was called
enabled: pick(defaultOptions.scrollbar.enabled, true)
},
rangeSelector: {
// #4988 - check if setOptions was called
enabled: pick(defaultOptions.rangeSelector.enabled, true)
},
title: {
text: null
},
tooltip: {
shared: true,
crosshairs: true
},
legend: {
enabled: false
},
plotOptions: {
line: lineOptions,
spline: lineOptions,
area: lineOptions,
areaspline: lineOptions,
arearange: lineOptions,
areasplinerange: lineOptions,
column: columnOptions,
columnrange: columnOptions,
candlestick: columnOptions,
ohlc: columnOptions
}
},
options, // user's options
{ // forced options
isStock: true // internal flag
}
);
options.series = seriesOptions;
return hasRenderToArg ?
new Chart(a, options, c) :
new Chart(options, b);
};
// Override the automatic label alignment so that the first Y axis' labels
// are drawn on top of the grid line, and subsequent axes are drawn outside
wrap(Axis.prototype, 'autoLabelAlign', function(proceed) {
var chart = this.chart,
options = this.options,
panes = chart._labelPanes = chart._labelPanes || {},
key,
labelOptions = this.options.labels;
if (this.chart.options.isStock && this.coll === 'yAxis') {
key = options.top + ',' + options.height;
if (!panes[key] && labelOptions.enabled) { // do it only for the first Y axis of each pane
if (labelOptions.x === 15) { // default
labelOptions.x = 0;
}
if (labelOptions.align === undefined) {
labelOptions.align = 'right';
}
panes[key] = this;
return 'right';
}
}
return proceed.call(this, [].slice.call(arguments, 1));
});
// Clear axis from label panes (#6071)
wrap(Axis.prototype, 'destroy', function(proceed) {
var chart = this.chart,
key = this.options && (this.options.top + ',' + this.options.height);
if (key && chart._labelPanes && chart._labelPanes[key] === this) {
delete chart._labelPanes[key];
}
return proceed.call(this, Array.prototype.slice.call(arguments, 1));
});
// Override getPlotLinePath to allow for multipane charts
wrap(Axis.prototype, 'getPlotLinePath', function(proceed, value, lineWidth, old, force, translatedValue) {
var axis = this,
series = (this.isLinked && !this.series ? this.linkedParent.series : this.series),
chart = axis.chart,
renderer = chart.renderer,
axisLeft = axis.left,
axisTop = axis.top,
x1,
y1,
x2,
y2,
result = [],
axes = [], //#3416 need a default array
axes2,
uniqueAxes,
transVal;
/**
* Return the other axis based on either the axis option or on related series.
*/
function getAxis(coll) {
var otherColl = coll === 'xAxis' ? 'yAxis' : 'xAxis',
opt = axis.options[otherColl];
// Other axis indexed by number
if (isNumber(opt)) {
return [chart[otherColl][opt]];
}
// Other axis indexed by id (like navigator)
if (isString(opt)) {
return [chart.get(opt)];
}
// Auto detect based on existing series
return map(series, function(s) {
return s[otherColl];
});
}
// Ignore in case of color Axis. #3360, #3524
if (axis.coll === 'colorAxis') {
return proceed.apply(this, [].slice.call(arguments, 1));
}
// Get the related axes based on series
axes = getAxis(axis.coll);
// Get the related axes based options.*Axis setting #2810
axes2 = (axis.isXAxis ? chart.yAxis : chart.xAxis);
each(axes2, function(A) {
if (defined(A.options.id) ? A.options.id.indexOf('navigator') === -1 : true) {
var a = (A.isXAxis ? 'yAxis' : 'xAxis'),
rax = (defined(A.options[a]) ? chart[a][A.options[a]] : chart[a][0]);
if (axis === rax) {
axes.push(A);
}
}
});
// Remove duplicates in the axes array. If there are no axes in the axes array,
// we are adding an axis without data, so we need to populate this with grid
// lines (#2796).
uniqueAxes = axes.length ? [] : [axis.isXAxis ? chart.yAxis[0] : chart.xAxis[0]]; //#3742
each(axes, function(axis2) {
if (
inArray(axis2, uniqueAxes) === -1 &&
// Do not draw on axis which overlap completely. #5424
!H.find(uniqueAxes, function(unique) {
return unique.pos === axis2.pos && unique.len && axis2.len;
})
) {
uniqueAxes.push(axis2);
}
});
transVal = pick(translatedValue, axis.translate(value, null, null, old));
if (isNumber(transVal)) {
if (axis.horiz) {
each(uniqueAxes, function(axis2) {
var skip;
y1 = axis2.pos;
y2 = y1 + axis2.len;
x1 = x2 = Math.round(transVal + axis.transB);
if (x1 < axisLeft || x1 > axisLeft + axis.width) { // outside plot area
if (force) {
x1 = x2 = Math.min(Math.max(axisLeft, x1), axisLeft + axis.width);
} else {
skip = true;
}
}
if (!skip) {
result.push('M', x1, y1, 'L', x2, y2);
}
});
} else {
each(uniqueAxes, function(axis2) {
var skip;
x1 = axis2.pos;
x2 = x1 + axis2.len;
y1 = y2 = Math.round(axisTop + axis.height - transVal);
if (y1 < axisTop || y1 > axisTop + axis.height) { // outside plot area
if (force) {
y1 = y2 = Math.min(Math.max(axisTop, y1), axis.top + axis.height);
} else {
skip = true;
}
}
if (!skip) {
result.push('M', x1, y1, 'L', x2, y2);
}
});
}
}
return result.length > 0 ?
renderer.crispPolyLine(result, lineWidth || 1) :
null; //#3557 getPlotLinePath in regular Highcharts also returns null
});
// Override getPlotBandPath to allow for multipane charts
Axis.prototype.getPlotBandPath = function(from, to) {
var toPath = this.getPlotLinePath(to, null, null, true),
path = this.getPlotLinePath(from, null, null, true),
result = [],
i;
if (path && toPath) {
if (path.toString() === toPath.toString()) {
// #6166
result = path;
result.flat = true;
} else {
// Go over each subpath
for (i = 0; i < path.length; i += 6) {
result.push(
'M', path[i + 1], path[i + 2],
'L', path[i + 4], path[i + 5],
toPath[i + 4], toPath[i + 5],
toPath[i + 1], toPath[i + 2],
'z'
);
}
}
} else { // outside the axis area
result = null;
}
return result;
};
// Function to crisp a line with multiple segments
SVGRenderer.prototype.crispPolyLine = function(points, width) {
// points format: ['M', 0, 0, 'L', 100, 0]
// normalize to a crisp line
var i;
for (i = 0; i < points.length; i = i + 6) {
if (points[i + 1] === points[i + 4]) {
// Substract due to #1129. Now bottom and left axis gridlines behave the same.
points[i + 1] = points[i + 4] = Math.round(points[i + 1]) - (width % 2 / 2);
}
if (points[i + 2] === points[i + 5]) {
points[i + 2] = points[i + 5] = Math.round(points[i + 2]) + (width % 2 / 2);
}
}
return points;
};
if (Renderer === VMLRenderer) {
VMLRenderer.prototype.crispPolyLine = SVGRenderer.prototype.crispPolyLine;
}
// Wrapper to hide the label
wrap(Axis.prototype, 'hideCrosshair', function(proceed, i) {
proceed.call(this, i);
if (this.crossLabel) {
this.crossLabel = this.crossLabel.hide();
}
});
// Wrapper to draw the label
wrap(Axis.prototype, 'drawCrosshair', function(proceed, e, point) {
// Draw the crosshair
proceed.call(this, e, point);
// Check if the label has to be drawn
if (!defined(this.crosshair.label) || !this.crosshair.label.enabled || !this.cross) {
return;
}
var chart = this.chart,
options = this.options.crosshair.label, // the label's options
horiz = this.horiz, // axis orientation
opposite = this.opposite, // axis position
left = this.left, // left position
top = this.top, // top position
crossLabel = this.crossLabel, // reference to the svgElement
posx,
posy,
crossBox,
formatOption = options.format,
formatFormat = '',
limit,
align,
tickInside = this.options.tickPosition === 'inside',
snap = this.crosshair.snap !== false,
value,
offset = 0;
// Use last available event (#5287)
if (!e) {
e = this.cross && this.cross.e;
}
align = (horiz ? 'center' : opposite ?
(this.labelAlign === 'right' ? 'right' : 'left') :
(this.labelAlign === 'left' ? 'left' : 'center'));
// If the label does not exist yet, create it.
if (!crossLabel) {
crossLabel = this.crossLabel = chart.renderer.label(null, null, null, options.shape || 'callout')
.addClass('highcharts-crosshair-label' +
(this.series[0] && ' highcharts-color-' + this.series[0].colorIndex))
.attr({
align: options.align || align,
padding: pick(options.padding, 8),
r: pick(options.borderRadius, 3),
zIndex: 2
})
.add(this.labelGroup);
// Presentational
crossLabel
.attr({
fill: options.backgroundColor ||
(this.series[0] && this.series[0].color) || '#666666',
stroke: options.borderColor || '',
'stroke-width': options.borderWidth || 0
})
.css(extend({
color: '#ffffff',
fontWeight: 'normal',
fontSize: '11px',
textAlign: 'center'
}, options.style));
}
if (horiz) {
posx = snap ? point.plotX + left : e.chartX;
posy = top + (opposite ? 0 : this.height);
} else {
posx = opposite ? this.width + left : 0;
posy = snap ? point.plotY + top : e.chartY;
}
if (!formatOption && !options.formatter) {
if (this.isDatetimeAxis) {
formatFormat = '%b %d, %Y';
}
formatOption = '{value' + (formatFormat ? ':' + formatFormat : '') + '}';
}
// Show the label
value = snap ? point[this.isXAxis ? 'x' : 'y'] : this.toValue(horiz ? e.chartX : e.chartY);
crossLabel.attr({
text: formatOption ? format(formatOption, {
value: value
}) : options.formatter.call(this, value),
x: posx,
y: posy,
visibility: 'visible'
});
crossBox = crossLabel.getBBox();
// now it is placed we can correct its position
if (horiz) {
if ((tickInside && !opposite) || (!tickInside && opposite)) {
posy = crossLabel.y - crossBox.height;
}
} else {
posy = crossLabel.y - (crossBox.height / 2);
}
// check the edges
if (horiz) {
limit = {
left: left - crossBox.x,
right: left + this.width - crossBox.x
};
} else {
limit = {
left: this.labelAlign === 'left' ? left : 0,
right: this.labelAlign === 'right' ? left + this.width : chart.chartWidth
};
}
// left edge
if (crossLabel.translateX < limit.left) {
offset = limit.left - crossLabel.translateX;
}
// right edge
if (crossLabel.translateX + crossBox.width >= limit.right) {
offset = -(crossLabel.translateX + crossBox.width - limit.right);
}
// show the crosslabel
crossLabel.attr({
x: posx + offset,
y: posy,
// First set x and y, then anchorX and anchorY, when box is actually calculated, #5702
anchorX: horiz ? posx : (this.opposite ? 0 : chart.chartWidth),
anchorY: horiz ? (this.opposite ? chart.chartHeight : 0) : posy + crossBox.height / 2
});
});
/* ****************************************************************************
* Start value compare logic *
*****************************************************************************/
/**
* Extend series.init by adding a method to modify the y value used for plotting
* on the y axis. This method is called both from the axis when finding dataMin
* and dataMax, and from the series.translate method.
*/
seriesProto.init = function() {
// Call base method
seriesInit.apply(this, arguments);
// Set comparison mode
this.setCompare(this.options.compare);
};
/**
* The setCompare method can be called also from the outside after render time
*/
seriesProto.setCompare = function(compare) {
// Set or unset the modifyValue method
this.modifyValue = (compare === 'value' || compare === 'percent') ? function(value, point) {
var compareValue = this.compareValue;
if (value !== undefined && compareValue !== undefined) { // #2601, #5814
// Get the modified value
if (compare === 'value') {
value -= compareValue;
// Compare percent
} else {
value = 100 * (value / compareValue) -
(this.options.compareBase === 100 ? 0 : 100);
}
// record for tooltip etc.
if (point) {
point.change = value;
}
return value;
}
} : null;
// Survive to export, #5485
this.userOptions.compare = compare;
// Mark dirty
if (this.chart.hasRendered) {
this.isDirty = true;
}
};
/**
* Extend series.processData by finding the first y value in the plot area,
* used for comparing the following values
*/
seriesProto.processData = function() {
var series = this,
i,
keyIndex = -1,
processedXData,
processedYData,
length,
compareValue;
// call base method
seriesProcessData.apply(this, arguments);
if (series.xAxis && series.processedYData) { // not pies
// local variables
processedXData = series.processedXData;
processedYData = series.processedYData;
length = processedYData.length;
// For series with more than one value (range, OHLC etc), compare against
// close or the pointValKey (#4922, #3112)
if (series.pointArrayMap) {
// Use close if present (#3112)
keyIndex = inArray('close', series.pointArrayMap);
if (keyIndex === -1) {
keyIndex = inArray(series.pointValKey || 'y', series.pointArrayMap);
}
}
// find the first value for comparison
for (i = 0; i < length - 1; i++) {
compareValue = processedYData[i] && keyIndex > -1 ?
processedYData[i][keyIndex] :
processedYData[i];
if (isNumber(compareValue) && processedXData[i + 1] >= series.xAxis.min && compareValue !== 0) {
series.compareValue = compareValue;
break;
}
}
}
};
/**
* Modify series extremes
*/
wrap(seriesProto, 'getExtremes', function(proceed) {
var extremes;
proceed.apply(this, [].slice.call(arguments, 1));
if (this.modifyValue) {
extremes = [this.modifyValue(this.dataMin), this.modifyValue(this.dataMax)];
this.dataMin = arrayMin(extremes);
this.dataMax = arrayMax(extremes);
}
});
/**
* Add a utility method, setCompare, to the Y axis
*/
Axis.prototype.setCompare = function(compare, redraw) {
if (!this.isXAxis) {
each(this.series, function(series) {
series.setCompare(compare);
});
if (pick(redraw, true)) {
this.chart.redraw();
}
}
};
/**
* Extend the tooltip formatter by adding support for the point.change variable
* as well as the changeDecimals option
*/
Point.prototype.tooltipFormatter = function(pointFormat) {
var point = this;
pointFormat = pointFormat.replace(
'{point.change}',
(point.change > 0 ? '+' : '') +
H.numberFormat(point.change, pick(point.series.tooltipOptions.changeDecimals, 2))
);
return pointTooltipFormatter.apply(this, [pointFormat]);
};
/* ****************************************************************************
* End value compare logic *
*****************************************************************************/
/**
* Extend the Series prototype to create a separate series clip box. This is
* related to using multiple panes, and a future pane logic should incorporate
* this feature (#2754).
*/
wrap(Series.prototype, 'render', function(proceed) {
// Only do this on not 3d (#2939, #5904) nor polar (#6057) charts, and only
// if the series type handles clipping in the animate method (#2975).
if (!(this.chart.is3d && this.chart.is3d()) &&
!this.chart.polar &&
this.xAxis &&
!this.xAxis.isRadial // Gauge, #6192
) {
// First render, initial clip box
if (!this.clipBox && this.animate) {
this.clipBox = merge(this.chart.clipBox);
this.clipBox.width = this.xAxis.len;
this.clipBox.height = this.yAxis.len;
// On redrawing, resizing etc, update the clip rectangle
} else if (this.chart[this.sharedClipKey]) {
this.chart[this.sharedClipKey].attr({
width: this.xAxis.len,
height: this.yAxis.len
});
// #3111
} else if (this.clipBox) {
this.clipBox.width = this.xAxis.len;
this.clipBox.height = this.yAxis.len;
}
}
proceed.call(this);
});
wrap(Chart.prototype, 'getSelectedPoints', function(proceed) {
var points = proceed.call(this);
each(this.series, function(serie) {
// series.points - for grouped points (#6445)
if (serie.hasGroupedData) {
points = points.concat(grep(serie.points || [], function(point) {
return point.selected;
}));
}
});
return points;
});
wrap(Chart.prototype, 'update', function(proceed, options) {
// Use case: enabling scrollbar from a disabled state.
// Scrollbar needs to be initialized from a controller, Navigator in this
// case (#6615)
if ('scrollbar' in options && this.navigator) {
merge(true, this.options.scrollbar, options.scrollbar);
this.navigator.update({}, false);
delete options.scrollbar;
}
return proceed.apply(this, Array.prototype.slice.call(arguments, 1));
});
}(Highcharts));
}));