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/ * !
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FullCalendar Time Grid Plugin v4 . 4.2
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Docs & License : https : //fullcalendar.io/
( c ) 2019 Adam Shaw
* /
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( function ( global , factory ) {
typeof exports === 'object' && typeof module !== 'undefined' ? factory ( exports , require ( '@fullcalendar/core' ) , require ( '@fullcalendar/daygrid' ) ) :
typeof define === 'function' && define . amd ? define ( [ 'exports' , '@fullcalendar/core' , '@fullcalendar/daygrid' ] , factory ) :
( global = global || self , factory ( global . FullCalendarTimeGrid = { } , global . FullCalendar , global . FullCalendarDayGrid ) ) ;
} ( this , function ( exports , core , daygrid ) { 'use strict' ;
/ * ! * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
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Copyright ( c ) Microsoft Corporation .
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Permission to use , copy , modify , and / or distribute this software for any
purpose with or without fee is hereby granted .
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THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH
REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY
AND FITNESS . IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL , DIRECT ,
INDIRECT , OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM
LOSS OF USE , DATA OR PROFITS , WHETHER IN AN ACTION OF CONTRACT , NEGLIGENCE OR
OTHER TORTIOUS ACTION , ARISING OUT OF OR IN CONNECTION WITH THE USE OR
PERFORMANCE OF THIS SOFTWARE .
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* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * /
/* global Reflect, Promise */
var extendStatics = function ( d , b ) {
extendStatics = Object . setPrototypeOf ||
( { _ _proto _ _ : [ ] } instanceof Array && function ( d , b ) { d . _ _proto _ _ = b ; } ) ||
function ( d , b ) { for ( var p in b ) if ( b . hasOwnProperty ( p ) ) d [ p ] = b [ p ] ; } ;
return extendStatics ( d , b ) ;
} ;
function _ _extends ( d , b ) {
extendStatics ( d , b ) ;
function _ _ ( ) { this . constructor = d ; }
d . prototype = b === null ? Object . create ( b ) : ( _ _ . prototype = b . prototype , new _ _ ( ) ) ;
}
var _ _assign = function ( ) {
_ _assign = Object . assign || function _ _assign ( t ) {
for ( var s , i = 1 , n = arguments . length ; i < n ; i ++ ) {
s = arguments [ i ] ;
for ( var p in s ) if ( Object . prototype . hasOwnProperty . call ( s , p ) ) t [ p ] = s [ p ] ;
}
return t ;
} ;
return _ _assign . apply ( this , arguments ) ;
} ;
/ *
Only handles foreground segs .
Does not own rendering . Use for low - level util methods by TimeGrid .
* /
var TimeGridEventRenderer = /** @class */ ( function ( _super ) {
_ _extends ( TimeGridEventRenderer , _super ) ;
function TimeGridEventRenderer ( timeGrid ) {
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var _this = _super . call ( this ) || this ;
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_this . timeGrid = timeGrid ;
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return _this ;
}
TimeGridEventRenderer . prototype . renderSegs = function ( context , segs , mirrorInfo ) {
_super . prototype . renderSegs . call ( this , context , segs , mirrorInfo ) ;
// TODO: dont do every time. memoize
this . fullTimeFormat = core . createFormatter ( {
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hour : 'numeric' ,
minute : '2-digit' ,
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separator : this . context . options . defaultRangeSeparator
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} ) ;
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} ;
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// Given an array of foreground segments, render a DOM element for each, computes position,
// and attaches to the column inner-container elements.
TimeGridEventRenderer . prototype . attachSegs = function ( segs , mirrorInfo ) {
var segsByCol = this . timeGrid . groupSegsByCol ( segs ) ;
// order the segs within each column
// TODO: have groupSegsByCol do this?
for ( var col = 0 ; col < segsByCol . length ; col ++ ) {
segsByCol [ col ] = this . sortEventSegs ( segsByCol [ col ] ) ;
}
this . segsByCol = segsByCol ;
this . timeGrid . attachSegsByCol ( segsByCol , this . timeGrid . fgContainerEls ) ;
} ;
TimeGridEventRenderer . prototype . detachSegs = function ( segs ) {
segs . forEach ( function ( seg ) {
core . removeElement ( seg . el ) ;
} ) ;
this . segsByCol = null ;
} ;
TimeGridEventRenderer . prototype . computeSegSizes = function ( allSegs ) {
var _a = this , timeGrid = _a . timeGrid , segsByCol = _a . segsByCol ;
var colCnt = timeGrid . colCnt ;
timeGrid . computeSegVerticals ( allSegs ) ; // horizontals relies on this
if ( segsByCol ) {
for ( var col = 0 ; col < colCnt ; col ++ ) {
this . computeSegHorizontals ( segsByCol [ col ] ) ; // compute horizontal coordinates, z-index's, and reorder the array
}
}
} ;
TimeGridEventRenderer . prototype . assignSegSizes = function ( allSegs ) {
var _a = this , timeGrid = _a . timeGrid , segsByCol = _a . segsByCol ;
var colCnt = timeGrid . colCnt ;
timeGrid . assignSegVerticals ( allSegs ) ; // horizontals relies on this
if ( segsByCol ) {
for ( var col = 0 ; col < colCnt ; col ++ ) {
this . assignSegCss ( segsByCol [ col ] ) ;
}
}
} ;
// Computes a default event time formatting string if `eventTimeFormat` is not explicitly defined
TimeGridEventRenderer . prototype . computeEventTimeFormat = function ( ) {
return {
hour : 'numeric' ,
minute : '2-digit' ,
meridiem : false
} ;
} ;
// Computes a default `displayEventEnd` value if one is not expliclty defined
TimeGridEventRenderer . prototype . computeDisplayEventEnd = function ( ) {
return true ;
} ;
// Renders the HTML for a single event segment's default rendering
TimeGridEventRenderer . prototype . renderSegHtml = function ( seg , mirrorInfo ) {
var eventRange = seg . eventRange ;
var eventDef = eventRange . def ;
var eventUi = eventRange . ui ;
var allDay = eventDef . allDay ;
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var isDraggable = core . computeEventDraggable ( this . context , eventDef , eventUi ) ;
var isResizableFromStart = seg . isStart && core . computeEventStartResizable ( this . context , eventDef , eventUi ) ;
var isResizableFromEnd = seg . isEnd && core . computeEventEndResizable ( this . context , eventDef , eventUi ) ;
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var classes = this . getSegClasses ( seg , isDraggable , isResizableFromStart || isResizableFromEnd , mirrorInfo ) ;
var skinCss = core . cssToStr ( this . getSkinCss ( eventUi ) ) ;
var timeText ;
var fullTimeText ; // more verbose time text. for the print stylesheet
var startTimeText ; // just the start time text
classes . unshift ( 'fc-time-grid-event' ) ;
// if the event appears to span more than one day...
if ( core . isMultiDayRange ( eventRange . range ) ) {
// Don't display time text on segments that run entirely through a day.
// That would appear as midnight-midnight and would look dumb.
// Otherwise, display the time text for the *segment's* times (like 6pm-midnight or midnight-10am)
if ( seg . isStart || seg . isEnd ) {
var unzonedStart = seg . start ;
var unzonedEnd = seg . end ;
timeText = this . _getTimeText ( unzonedStart , unzonedEnd , allDay ) ; // TODO: give the timezones
fullTimeText = this . _getTimeText ( unzonedStart , unzonedEnd , allDay , this . fullTimeFormat ) ;
startTimeText = this . _getTimeText ( unzonedStart , unzonedEnd , allDay , null , false ) ; // displayEnd=false
}
}
else {
// Display the normal time text for the *event's* times
timeText = this . getTimeText ( eventRange ) ;
fullTimeText = this . getTimeText ( eventRange , this . fullTimeFormat ) ;
startTimeText = this . getTimeText ( eventRange , null , false ) ; // displayEnd=false
}
return '<a class="' + classes . join ( ' ' ) + '"' +
( eventDef . url ?
' href="' + core . htmlEscape ( eventDef . url ) + '"' :
'' ) +
( skinCss ?
' style="' + skinCss + '"' :
'' ) +
'>' +
'<div class="fc-content">' +
( timeText ?
'<div class="fc-time"' +
' data-start="' + core . htmlEscape ( startTimeText ) + '"' +
' data-full="' + core . htmlEscape ( fullTimeText ) + '"' +
'>' +
'<span>' + core . htmlEscape ( timeText ) + '</span>' +
'</div>' :
'' ) +
( eventDef . title ?
'<div class="fc-title">' +
core . htmlEscape ( eventDef . title ) +
'</div>' :
'' ) +
'</div>' +
/ * T O D O : w r i t e C S S f o r t h i s
( isResizableFromStart ?
'<div class="fc-resizer fc-start-resizer"></div>' :
''
) +
* /
( isResizableFromEnd ?
'<div class="fc-resizer fc-end-resizer"></div>' :
'' ) +
'</a>' ;
} ;
// Given an array of segments that are all in the same column, sets the backwardCoord and forwardCoord on each.
// Assumed the segs are already ordered.
// NOTE: Also reorders the given array by date!
TimeGridEventRenderer . prototype . computeSegHorizontals = function ( segs ) {
var levels ;
var level0 ;
var i ;
levels = buildSlotSegLevels ( segs ) ;
computeForwardSlotSegs ( levels ) ;
if ( ( level0 = levels [ 0 ] ) ) {
for ( i = 0 ; i < level0 . length ; i ++ ) {
computeSlotSegPressures ( level0 [ i ] ) ;
}
for ( i = 0 ; i < level0 . length ; i ++ ) {
this . computeSegForwardBack ( level0 [ i ] , 0 , 0 ) ;
}
}
} ;
// Calculate seg.forwardCoord and seg.backwardCoord for the segment, where both values range
// from 0 to 1. If the calendar is left-to-right, the seg.backwardCoord maps to "left" and
// seg.forwardCoord maps to "right" (via percentage). Vice-versa if the calendar is right-to-left.
//
// The segment might be part of a "series", which means consecutive segments with the same pressure
// who's width is unknown until an edge has been hit. `seriesBackwardPressure` is the number of
// segments behind this one in the current series, and `seriesBackwardCoord` is the starting
// coordinate of the first segment in the series.
TimeGridEventRenderer . prototype . computeSegForwardBack = function ( seg , seriesBackwardPressure , seriesBackwardCoord ) {
var forwardSegs = seg . forwardSegs ;
var i ;
if ( seg . forwardCoord === undefined ) { // not already computed
if ( ! forwardSegs . length ) {
// if there are no forward segments, this segment should butt up against the edge
seg . forwardCoord = 1 ;
}
else {
// sort highest pressure first
this . sortForwardSegs ( forwardSegs ) ;
// this segment's forwardCoord will be calculated from the backwardCoord of the
// highest-pressure forward segment.
this . computeSegForwardBack ( forwardSegs [ 0 ] , seriesBackwardPressure + 1 , seriesBackwardCoord ) ;
seg . forwardCoord = forwardSegs [ 0 ] . backwardCoord ;
}
// calculate the backwardCoord from the forwardCoord. consider the series
seg . backwardCoord = seg . forwardCoord -
( seg . forwardCoord - seriesBackwardCoord ) / // available width for series
( seriesBackwardPressure + 1 ) ; // # of segments in the series
// use this segment's coordinates to computed the coordinates of the less-pressurized
// forward segments
for ( i = 0 ; i < forwardSegs . length ; i ++ ) {
this . computeSegForwardBack ( forwardSegs [ i ] , 0 , seg . forwardCoord ) ;
}
}
} ;
TimeGridEventRenderer . prototype . sortForwardSegs = function ( forwardSegs ) {
var objs = forwardSegs . map ( buildTimeGridSegCompareObj ) ;
var specs = [
// put higher-pressure first
{ field : 'forwardPressure' , order : - 1 } ,
// put segments that are closer to initial edge first (and favor ones with no coords yet)
{ field : 'backwardCoord' , order : 1 }
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] . concat ( this . context . eventOrderSpecs ) ;
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objs . sort ( function ( obj0 , obj1 ) {
return core . compareByFieldSpecs ( obj0 , obj1 , specs ) ;
} ) ;
return objs . map ( function ( c ) {
return c . _seg ;
} ) ;
} ;
// Given foreground event segments that have already had their position coordinates computed,
// assigns position-related CSS values to their elements.
TimeGridEventRenderer . prototype . assignSegCss = function ( segs ) {
for ( var _i = 0 , segs _1 = segs ; _i < segs _1 . length ; _i ++ ) {
var seg = segs _1 [ _i ] ;
core . applyStyle ( seg . el , this . generateSegCss ( seg ) ) ;
if ( seg . level > 0 ) {
seg . el . classList . add ( 'fc-time-grid-event-inset' ) ;
}
// if the event is short that the title will be cut off,
// attach a className that condenses the title into the time area.
if ( seg . eventRange . def . title && seg . bottom - seg . top < 30 ) {
seg . el . classList . add ( 'fc-short' ) ; // TODO: "condensed" is a better name
}
}
} ;
// Generates an object with CSS properties/values that should be applied to an event segment element.
// Contains important positioning-related properties that should be applied to any event element, customized or not.
TimeGridEventRenderer . prototype . generateSegCss = function ( seg ) {
var shouldOverlap = this . context . options . slotEventOverlap ;
var backwardCoord = seg . backwardCoord ; // the left side if LTR. the right side if RTL. floating-point
var forwardCoord = seg . forwardCoord ; // the right side if LTR. the left side if RTL. floating-point
var props = this . timeGrid . generateSegVerticalCss ( seg ) ; // get top/bottom first
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var isRtl = this . context . isRtl ;
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var left ; // amount of space from left edge, a fraction of the total width
var right ; // amount of space from right edge, a fraction of the total width
if ( shouldOverlap ) {
// double the width, but don't go beyond the maximum forward coordinate (1.0)
forwardCoord = Math . min ( 1 , backwardCoord + ( forwardCoord - backwardCoord ) * 2 ) ;
}
if ( isRtl ) {
left = 1 - forwardCoord ;
right = backwardCoord ;
}
else {
left = backwardCoord ;
right = 1 - forwardCoord ;
}
props . zIndex = seg . level + 1 ; // convert from 0-base to 1-based
props . left = left * 100 + '%' ;
props . right = right * 100 + '%' ;
if ( shouldOverlap && seg . forwardPressure ) {
// add padding to the edge so that forward stacked events don't cover the resizer's icon
props [ isRtl ? 'marginLeft' : 'marginRight' ] = 10 * 2 ; // 10 is a guesstimate of the icon's width
}
return props ;
} ;
return TimeGridEventRenderer ;
} ( core . FgEventRenderer ) ) ;
// Builds an array of segments "levels". The first level will be the leftmost tier of segments if the calendar is
// left-to-right, or the rightmost if the calendar is right-to-left. Assumes the segments are already ordered by date.
function buildSlotSegLevels ( segs ) {
var levels = [ ] ;
var i ;
var seg ;
var j ;
for ( i = 0 ; i < segs . length ; i ++ ) {
seg = segs [ i ] ;
// go through all the levels and stop on the first level where there are no collisions
for ( j = 0 ; j < levels . length ; j ++ ) {
if ( ! computeSlotSegCollisions ( seg , levels [ j ] ) . length ) {
break ;
}
}
seg . level = j ;
( levels [ j ] || ( levels [ j ] = [ ] ) ) . push ( seg ) ;
}
return levels ;
}
// For every segment, figure out the other segments that are in subsequent
// levels that also occupy the same vertical space. Accumulate in seg.forwardSegs
function computeForwardSlotSegs ( levels ) {
var i ;
var level ;
var j ;
var seg ;
var k ;
for ( i = 0 ; i < levels . length ; i ++ ) {
level = levels [ i ] ;
for ( j = 0 ; j < level . length ; j ++ ) {
seg = level [ j ] ;
seg . forwardSegs = [ ] ;
for ( k = i + 1 ; k < levels . length ; k ++ ) {
computeSlotSegCollisions ( seg , levels [ k ] , seg . forwardSegs ) ;
}
}
}
}
// Figure out which path forward (via seg.forwardSegs) results in the longest path until
// the furthest edge is reached. The number of segments in this path will be seg.forwardPressure
function computeSlotSegPressures ( seg ) {
var forwardSegs = seg . forwardSegs ;
var forwardPressure = 0 ;
var i ;
var forwardSeg ;
if ( seg . forwardPressure === undefined ) { // not already computed
for ( i = 0 ; i < forwardSegs . length ; i ++ ) {
forwardSeg = forwardSegs [ i ] ;
// figure out the child's maximum forward path
computeSlotSegPressures ( forwardSeg ) ;
// either use the existing maximum, or use the child's forward pressure
// plus one (for the forwardSeg itself)
forwardPressure = Math . max ( forwardPressure , 1 + forwardSeg . forwardPressure ) ;
}
seg . forwardPressure = forwardPressure ;
}
}
// Find all the segments in `otherSegs` that vertically collide with `seg`.
// Append into an optionally-supplied `results` array and return.
function computeSlotSegCollisions ( seg , otherSegs , results ) {
if ( results === void 0 ) { results = [ ] ; }
for ( var i = 0 ; i < otherSegs . length ; i ++ ) {
if ( isSlotSegCollision ( seg , otherSegs [ i ] ) ) {
results . push ( otherSegs [ i ] ) ;
}
}
return results ;
}
// Do these segments occupy the same vertical space?
function isSlotSegCollision ( seg1 , seg2 ) {
return seg1 . bottom > seg2 . top && seg1 . top < seg2 . bottom ;
}
function buildTimeGridSegCompareObj ( seg ) {
var obj = core . buildSegCompareObj ( seg ) ;
obj . forwardPressure = seg . forwardPressure ;
obj . backwardCoord = seg . backwardCoord ;
return obj ;
}
var TimeGridMirrorRenderer = /** @class */ ( function ( _super ) {
_ _extends ( TimeGridMirrorRenderer , _super ) ;
function TimeGridMirrorRenderer ( ) {
return _super !== null && _super . apply ( this , arguments ) || this ;
}
TimeGridMirrorRenderer . prototype . attachSegs = function ( segs , mirrorInfo ) {
this . segsByCol = this . timeGrid . groupSegsByCol ( segs ) ;
this . timeGrid . attachSegsByCol ( this . segsByCol , this . timeGrid . mirrorContainerEls ) ;
this . sourceSeg = mirrorInfo . sourceSeg ;
} ;
TimeGridMirrorRenderer . prototype . generateSegCss = function ( seg ) {
var props = _super . prototype . generateSegCss . call ( this , seg ) ;
var sourceSeg = this . sourceSeg ;
if ( sourceSeg && sourceSeg . col === seg . col ) {
var sourceSegProps = _super . prototype . generateSegCss . call ( this , sourceSeg ) ;
props . left = sourceSegProps . left ;
props . right = sourceSegProps . right ;
props . marginLeft = sourceSegProps . marginLeft ;
props . marginRight = sourceSegProps . marginRight ;
}
return props ;
} ;
return TimeGridMirrorRenderer ;
} ( TimeGridEventRenderer ) ) ;
var TimeGridFillRenderer = /** @class */ ( function ( _super ) {
_ _extends ( TimeGridFillRenderer , _super ) ;
function TimeGridFillRenderer ( timeGrid ) {
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var _this = _super . call ( this ) || this ;
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_this . timeGrid = timeGrid ;
return _this ;
}
TimeGridFillRenderer . prototype . attachSegs = function ( type , segs ) {
var timeGrid = this . timeGrid ;
var containerEls ;
// TODO: more efficient lookup
if ( type === 'bgEvent' ) {
containerEls = timeGrid . bgContainerEls ;
}
else if ( type === 'businessHours' ) {
containerEls = timeGrid . businessContainerEls ;
}
else if ( type === 'highlight' ) {
containerEls = timeGrid . highlightContainerEls ;
}
timeGrid . attachSegsByCol ( timeGrid . groupSegsByCol ( segs ) , containerEls ) ;
return segs . map ( function ( seg ) {
return seg . el ;
} ) ;
} ;
TimeGridFillRenderer . prototype . computeSegSizes = function ( segs ) {
this . timeGrid . computeSegVerticals ( segs ) ;
} ;
TimeGridFillRenderer . prototype . assignSegSizes = function ( segs ) {
this . timeGrid . assignSegVerticals ( segs ) ;
} ;
return TimeGridFillRenderer ;
} ( core . FillRenderer ) ) ;
/ * A c o m p o n e n t t h a t r e n d e r s o n e o r m o r e c o l u m n s o f v e r t i c a l t i m e s l o t s
-- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- * /
// potential nice values for the slot-duration and interval-duration
// from largest to smallest
var AGENDA _STOCK _SUB _DURATIONS = [
{ hours : 1 } ,
{ minutes : 30 } ,
{ minutes : 15 } ,
{ seconds : 30 } ,
{ seconds : 15 }
] ;
var TimeGrid = /** @class */ ( function ( _super ) {
_ _extends ( TimeGrid , _super ) ;
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function TimeGrid ( el , renderProps ) {
var _this = _super . call ( this , el ) || this ;
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_this . isSlatSizesDirty = false ;
_this . isColSizesDirty = false ;
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_this . processOptions = core . memoize ( _this . _processOptions ) ;
_this . renderSkeleton = core . memoizeRendering ( _this . _renderSkeleton ) ;
_this . renderSlats = core . memoizeRendering ( _this . _renderSlats , null , [ _this . renderSkeleton ] ) ;
_this . renderColumns = core . memoizeRendering ( _this . _renderColumns , _this . _unrenderColumns , [ _this . renderSkeleton ] ) ;
_this . renderProps = renderProps ;
var renderColumns = _this . renderColumns ;
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var eventRenderer = _this . eventRenderer = new TimeGridEventRenderer ( _this ) ;
var fillRenderer = _this . fillRenderer = new TimeGridFillRenderer ( _this ) ;
_this . mirrorRenderer = new TimeGridMirrorRenderer ( _this ) ;
_this . renderBusinessHours = core . memoizeRendering ( fillRenderer . renderSegs . bind ( fillRenderer , 'businessHours' ) , fillRenderer . unrender . bind ( fillRenderer , 'businessHours' ) , [ renderColumns ] ) ;
_this . renderDateSelection = core . memoizeRendering ( _this . _renderDateSelection , _this . _unrenderDateSelection , [ renderColumns ] ) ;
_this . renderFgEvents = core . memoizeRendering ( eventRenderer . renderSegs . bind ( eventRenderer ) , eventRenderer . unrender . bind ( eventRenderer ) , [ renderColumns ] ) ;
_this . renderBgEvents = core . memoizeRendering ( fillRenderer . renderSegs . bind ( fillRenderer , 'bgEvent' ) , fillRenderer . unrender . bind ( fillRenderer , 'bgEvent' ) , [ renderColumns ] ) ;
_this . renderEventSelection = core . memoizeRendering ( eventRenderer . selectByInstanceId . bind ( eventRenderer ) , eventRenderer . unselectByInstanceId . bind ( eventRenderer ) , [ _this . renderFgEvents ] ) ;
_this . renderEventDrag = core . memoizeRendering ( _this . _renderEventDrag , _this . _unrenderEventDrag , [ renderColumns ] ) ;
_this . renderEventResize = core . memoizeRendering ( _this . _renderEventResize , _this . _unrenderEventResize , [ renderColumns ] ) ;
return _this ;
}
/ * O p t i o n s
-- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- * /
// Parses various options into properties of this object
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// MUST have context already set
TimeGrid . prototype . _processOptions = function ( options ) {
var slotDuration = options . slotDuration , snapDuration = options . snapDuration ;
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var snapsPerSlot ;
var input ;
slotDuration = core . createDuration ( slotDuration ) ;
snapDuration = snapDuration ? core . createDuration ( snapDuration ) : slotDuration ;
snapsPerSlot = core . wholeDivideDurations ( slotDuration , snapDuration ) ;
if ( snapsPerSlot === null ) {
snapDuration = slotDuration ;
snapsPerSlot = 1 ;
// TODO: say warning?
}
this . slotDuration = slotDuration ;
this . snapDuration = snapDuration ;
this . snapsPerSlot = snapsPerSlot ;
// might be an array value (for TimelineView).
// if so, getting the most granular entry (the last one probably).
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input = options . slotLabelFormat ;
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if ( Array . isArray ( input ) ) {
input = input [ input . length - 1 ] ;
}
this . labelFormat = core . createFormatter ( input || {
hour : 'numeric' ,
minute : '2-digit' ,
omitZeroMinute : true ,
meridiem : 'short'
} ) ;
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input = options . slotLabelInterval ;
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this . labelInterval = input ?
core . createDuration ( input ) :
this . computeLabelInterval ( slotDuration ) ;
} ;
// Computes an automatic value for slotLabelInterval
TimeGrid . prototype . computeLabelInterval = function ( slotDuration ) {
var i ;
var labelInterval ;
var slotsPerLabel ;
// find the smallest stock label interval that results in more than one slots-per-label
for ( i = AGENDA _STOCK _SUB _DURATIONS . length - 1 ; i >= 0 ; i -- ) {
labelInterval = core . createDuration ( AGENDA _STOCK _SUB _DURATIONS [ i ] ) ;
slotsPerLabel = core . wholeDivideDurations ( labelInterval , slotDuration ) ;
if ( slotsPerLabel !== null && slotsPerLabel > 1 ) {
return labelInterval ;
}
}
return slotDuration ; // fall back
} ;
/ * R e n d e r i n g
-- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- * /
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TimeGrid . prototype . render = function ( props , context ) {
this . processOptions ( context . options ) ;
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var cells = props . cells ;
this . colCnt = cells . length ;
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this . renderSkeleton ( context . theme ) ;
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this . renderSlats ( props . dateProfile ) ;
this . renderColumns ( props . cells , props . dateProfile ) ;
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this . renderBusinessHours ( context , props . businessHourSegs ) ;
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this . renderDateSelection ( props . dateSelectionSegs ) ;
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this . renderFgEvents ( context , props . fgEventSegs ) ;
this . renderBgEvents ( context , props . bgEventSegs ) ;
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this . renderEventSelection ( props . eventSelection ) ;
this . renderEventDrag ( props . eventDrag ) ;
this . renderEventResize ( props . eventResize ) ;
} ;
TimeGrid . prototype . destroy = function ( ) {
_super . prototype . destroy . call ( this ) ;
// should unrender everything else too
this . renderSlats . unrender ( ) ;
this . renderColumns . unrender ( ) ;
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this . renderSkeleton . unrender ( ) ;
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} ;
TimeGrid . prototype . updateSize = function ( isResize ) {
var _a = this , fillRenderer = _a . fillRenderer , eventRenderer = _a . eventRenderer , mirrorRenderer = _a . mirrorRenderer ;
if ( isResize || this . isSlatSizesDirty ) {
this . buildSlatPositions ( ) ;
this . isSlatSizesDirty = false ;
}
if ( isResize || this . isColSizesDirty ) {
this . buildColPositions ( ) ;
this . isColSizesDirty = false ;
}
fillRenderer . computeSizes ( isResize ) ;
eventRenderer . computeSizes ( isResize ) ;
mirrorRenderer . computeSizes ( isResize ) ;
fillRenderer . assignSizes ( isResize ) ;
eventRenderer . assignSizes ( isResize ) ;
mirrorRenderer . assignSizes ( isResize ) ;
} ;
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TimeGrid . prototype . _renderSkeleton = function ( theme ) {
var el = this . el ;
el . innerHTML =
'<div class="fc-bg"></div>' +
'<div class="fc-slats"></div>' +
'<hr class="fc-divider ' + theme . getClass ( 'widgetHeader' ) + '" style="display:none" />' ;
this . rootBgContainerEl = el . querySelector ( '.fc-bg' ) ;
this . slatContainerEl = el . querySelector ( '.fc-slats' ) ;
this . bottomRuleEl = el . querySelector ( '.fc-divider' ) ;
} ;
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TimeGrid . prototype . _renderSlats = function ( dateProfile ) {
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var theme = this . context . theme ;
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this . slatContainerEl . innerHTML =
'<table class="' + theme . getClass ( 'tableGrid' ) + '">' +
this . renderSlatRowHtml ( dateProfile ) +
'</table>' ;
this . slatEls = core . findElements ( this . slatContainerEl , 'tr' ) ;
this . slatPositions = new core . PositionCache ( this . el , this . slatEls , false , true // vertical
) ;
this . isSlatSizesDirty = true ;
} ;
// Generates the HTML for the horizontal "slats" that run width-wise. Has a time axis on a side. Depends on RTL.
TimeGrid . prototype . renderSlatRowHtml = function ( dateProfile ) {
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var _a = this . context , dateEnv = _a . dateEnv , theme = _a . theme , isRtl = _a . isRtl ;
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var html = '' ;
var dayStart = core . startOfDay ( dateProfile . renderRange . start ) ;
var slotTime = dateProfile . minTime ;
var slotIterator = core . createDuration ( 0 ) ;
var slotDate ; // will be on the view's first day, but we only care about its time
var isLabeled ;
var axisHtml ;
// Calculate the time for each slot
while ( core . asRoughMs ( slotTime ) < core . asRoughMs ( dateProfile . maxTime ) ) {
slotDate = dateEnv . add ( dayStart , slotTime ) ;
isLabeled = core . wholeDivideDurations ( slotIterator , this . labelInterval ) !== null ;
axisHtml =
'<td class="fc-axis fc-time ' + theme . getClass ( 'widgetContent' ) + '">' +
( isLabeled ?
'<span>' + // for matchCellWidths
core . htmlEscape ( dateEnv . format ( slotDate , this . labelFormat ) ) +
'</span>' :
'' ) +
'</td>' ;
html +=
'<tr data-time="' + core . formatIsoTimeString ( slotDate ) + '"' +
( isLabeled ? '' : ' class="fc-minor"' ) +
'>' +
( ! isRtl ? axisHtml : '' ) +
'<td class="' + theme . getClass ( 'widgetContent' ) + '"></td>' +
( isRtl ? axisHtml : '' ) +
'</tr>' ;
slotTime = core . addDurations ( slotTime , this . slotDuration ) ;
slotIterator = core . addDurations ( slotIterator , this . slotDuration ) ;
}
return html ;
} ;
TimeGrid . prototype . _renderColumns = function ( cells , dateProfile ) {
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var _a = this . context , calendar = _a . calendar , view = _a . view , isRtl = _a . isRtl , theme = _a . theme , dateEnv = _a . dateEnv ;
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var bgRow = new daygrid . DayBgRow ( this . context ) ;
this . rootBgContainerEl . innerHTML =
'<table class="' + theme . getClass ( 'tableGrid' ) + '">' +
bgRow . renderHtml ( {
cells : cells ,
dateProfile : dateProfile ,
renderIntroHtml : this . renderProps . renderBgIntroHtml
} ) +
'</table>' ;
this . colEls = core . findElements ( this . el , '.fc-day, .fc-disabled-day' ) ;
for ( var col = 0 ; col < this . colCnt ; col ++ ) {
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calendar . publiclyTrigger ( 'dayRender' , [
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{
date : dateEnv . toDate ( cells [ col ] . date ) ,
el : this . colEls [ col ] ,
view : view
}
] ) ;
}
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if ( isRtl ) {
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this . colEls . reverse ( ) ;
}
this . colPositions = new core . PositionCache ( this . el , this . colEls , true , // horizontal
false ) ;
this . renderContentSkeleton ( ) ;
this . isColSizesDirty = true ;
} ;
TimeGrid . prototype . _unrenderColumns = function ( ) {
this . unrenderContentSkeleton ( ) ;
} ;
/ * C o n t e n t S k e l e t o n
-- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- * /
// Renders the DOM that the view's content will live in
TimeGrid . prototype . renderContentSkeleton = function ( ) {
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var isRtl = this . context . isRtl ;
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var parts = [ ] ;
var skeletonEl ;
parts . push ( this . renderProps . renderIntroHtml ( ) ) ;
for ( var i = 0 ; i < this . colCnt ; i ++ ) {
parts . push ( '<td>' +
'<div class="fc-content-col">' +
'<div class="fc-event-container fc-mirror-container"></div>' +
'<div class="fc-event-container"></div>' +
'<div class="fc-highlight-container"></div>' +
'<div class="fc-bgevent-container"></div>' +
'<div class="fc-business-container"></div>' +
'</div>' +
'</td>' ) ;
}
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if ( isRtl ) {
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parts . reverse ( ) ;
}
skeletonEl = this . contentSkeletonEl = core . htmlToElement ( '<div class="fc-content-skeleton">' +
'<table>' +
'<tr>' + parts . join ( '' ) + '</tr>' +
'</table>' +
'</div>' ) ;
this . colContainerEls = core . findElements ( skeletonEl , '.fc-content-col' ) ;
this . mirrorContainerEls = core . findElements ( skeletonEl , '.fc-mirror-container' ) ;
this . fgContainerEls = core . findElements ( skeletonEl , '.fc-event-container:not(.fc-mirror-container)' ) ;
this . bgContainerEls = core . findElements ( skeletonEl , '.fc-bgevent-container' ) ;
this . highlightContainerEls = core . findElements ( skeletonEl , '.fc-highlight-container' ) ;
this . businessContainerEls = core . findElements ( skeletonEl , '.fc-business-container' ) ;
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if ( isRtl ) {
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this . colContainerEls . reverse ( ) ;
this . mirrorContainerEls . reverse ( ) ;
this . fgContainerEls . reverse ( ) ;
this . bgContainerEls . reverse ( ) ;
this . highlightContainerEls . reverse ( ) ;
this . businessContainerEls . reverse ( ) ;
}
this . el . appendChild ( skeletonEl ) ;
} ;
TimeGrid . prototype . unrenderContentSkeleton = function ( ) {
core . removeElement ( this . contentSkeletonEl ) ;
} ;
// Given a flat array of segments, return an array of sub-arrays, grouped by each segment's col
TimeGrid . prototype . groupSegsByCol = function ( segs ) {
var segsByCol = [ ] ;
var i ;
for ( i = 0 ; i < this . colCnt ; i ++ ) {
segsByCol . push ( [ ] ) ;
}
for ( i = 0 ; i < segs . length ; i ++ ) {
segsByCol [ segs [ i ] . col ] . push ( segs [ i ] ) ;
}
return segsByCol ;
} ;
// Given segments grouped by column, insert the segments' elements into a parallel array of container
// elements, each living within a column.
TimeGrid . prototype . attachSegsByCol = function ( segsByCol , containerEls ) {
var col ;
var segs ;
var i ;
for ( col = 0 ; col < this . colCnt ; col ++ ) { // iterate each column grouping
segs = segsByCol [ col ] ;
for ( i = 0 ; i < segs . length ; i ++ ) {
containerEls [ col ] . appendChild ( segs [ i ] . el ) ;
}
}
} ;
/ * N o w I n d i c a t o r
-- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- * /
TimeGrid . prototype . getNowIndicatorUnit = function ( ) {
return 'minute' ; // will refresh on the minute
} ;
TimeGrid . prototype . renderNowIndicator = function ( segs , date ) {
// HACK: if date columns not ready for some reason (scheduler)
if ( ! this . colContainerEls ) {
return ;
}
var top = this . computeDateTop ( date ) ;
var nodes = [ ] ;
var i ;
// render lines within the columns
for ( i = 0 ; i < segs . length ; i ++ ) {
var lineEl = core . createElement ( 'div' , { className : 'fc-now-indicator fc-now-indicator-line' } ) ;
lineEl . style . top = top + 'px' ;
this . colContainerEls [ segs [ i ] . col ] . appendChild ( lineEl ) ;
nodes . push ( lineEl ) ;
}
// render an arrow over the axis
if ( segs . length > 0 ) { // is the current time in view?
var arrowEl = core . createElement ( 'div' , { className : 'fc-now-indicator fc-now-indicator-arrow' } ) ;
arrowEl . style . top = top + 'px' ;
this . contentSkeletonEl . appendChild ( arrowEl ) ;
nodes . push ( arrowEl ) ;
}
this . nowIndicatorEls = nodes ;
} ;
TimeGrid . prototype . unrenderNowIndicator = function ( ) {
if ( this . nowIndicatorEls ) {
this . nowIndicatorEls . forEach ( core . removeElement ) ;
this . nowIndicatorEls = null ;
}
} ;
/ * C o o r d i n a t e s
-- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- * /
TimeGrid . prototype . getTotalSlatHeight = function ( ) {
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return this . slatContainerEl . getBoundingClientRect ( ) . height ;
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} ;
// Computes the top coordinate, relative to the bounds of the grid, of the given date.
// A `startOfDayDate` must be given for avoiding ambiguity over how to treat midnight.
TimeGrid . prototype . computeDateTop = function ( when , startOfDayDate ) {
if ( ! startOfDayDate ) {
startOfDayDate = core . startOfDay ( when ) ;
}
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return this . computeTimeTop ( core . createDuration ( when . valueOf ( ) - startOfDayDate . valueOf ( ) ) ) ;
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} ;
// Computes the top coordinate, relative to the bounds of the grid, of the given time (a Duration).
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TimeGrid . prototype . computeTimeTop = function ( duration ) {
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var len = this . slatEls . length ;
var dateProfile = this . props . dateProfile ;
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var slatCoverage = ( duration . milliseconds - core . asRoughMs ( dateProfile . minTime ) ) / core . asRoughMs ( this . slotDuration ) ; // floating-point value of # of slots covered
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var slatIndex ;
var slatRemainder ;
// compute a floating-point number for how many slats should be progressed through.
// from 0 to number of slats (inclusive)
// constrained because minTime/maxTime might be customized.
slatCoverage = Math . max ( 0 , slatCoverage ) ;
slatCoverage = Math . min ( len , slatCoverage ) ;
// an integer index of the furthest whole slat
// from 0 to number slats (*exclusive*, so len-1)
slatIndex = Math . floor ( slatCoverage ) ;
slatIndex = Math . min ( slatIndex , len - 1 ) ;
// how much further through the slatIndex slat (from 0.0-1.0) must be covered in addition.
// could be 1.0 if slatCoverage is covering *all* the slots
slatRemainder = slatCoverage - slatIndex ;
return this . slatPositions . tops [ slatIndex ] +
this . slatPositions . getHeight ( slatIndex ) * slatRemainder ;
} ;
// For each segment in an array, computes and assigns its top and bottom properties
TimeGrid . prototype . computeSegVerticals = function ( segs ) {
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var options = this . context . options ;
var eventMinHeight = options . timeGridEventMinHeight ;
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var i ;
var seg ;
var dayDate ;
for ( i = 0 ; i < segs . length ; i ++ ) {
seg = segs [ i ] ;
dayDate = this . props . cells [ seg . col ] . date ;
seg . top = this . computeDateTop ( seg . start , dayDate ) ;
seg . bottom = Math . max ( seg . top + eventMinHeight , this . computeDateTop ( seg . end , dayDate ) ) ;
}
} ;
// Given segments that already have their top/bottom properties computed, applies those values to
// the segments' elements.
TimeGrid . prototype . assignSegVerticals = function ( segs ) {
var i ;
var seg ;
for ( i = 0 ; i < segs . length ; i ++ ) {
seg = segs [ i ] ;
core . applyStyle ( seg . el , this . generateSegVerticalCss ( seg ) ) ;
}
} ;
// Generates an object with CSS properties for the top/bottom coordinates of a segment element
TimeGrid . prototype . generateSegVerticalCss = function ( seg ) {
return {
top : seg . top ,
bottom : - seg . bottom // flipped because needs to be space beyond bottom edge of event container
} ;
} ;
/ * S i z i n g
-- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- * /
TimeGrid . prototype . buildPositionCaches = function ( ) {
this . buildColPositions ( ) ;
this . buildSlatPositions ( ) ;
} ;
TimeGrid . prototype . buildColPositions = function ( ) {
this . colPositions . build ( ) ;
} ;
TimeGrid . prototype . buildSlatPositions = function ( ) {
this . slatPositions . build ( ) ;
} ;
/ * H i t S y s t e m
-- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- * /
TimeGrid . prototype . positionToHit = function ( positionLeft , positionTop ) {
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var dateEnv = this . context . dateEnv ;
var _a = this , snapsPerSlot = _a . snapsPerSlot , slatPositions = _a . slatPositions , colPositions = _a . colPositions ;
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var colIndex = colPositions . leftToIndex ( positionLeft ) ;
var slatIndex = slatPositions . topToIndex ( positionTop ) ;
if ( colIndex != null && slatIndex != null ) {
var slatTop = slatPositions . tops [ slatIndex ] ;
var slatHeight = slatPositions . getHeight ( slatIndex ) ;
var partial = ( positionTop - slatTop ) / slatHeight ; // floating point number between 0 and 1
var localSnapIndex = Math . floor ( partial * snapsPerSlot ) ; // the snap # relative to start of slat
var snapIndex = slatIndex * snapsPerSlot + localSnapIndex ;
var dayDate = this . props . cells [ colIndex ] . date ;
var time = core . addDurations ( this . props . dateProfile . minTime , core . multiplyDuration ( this . snapDuration , snapIndex ) ) ;
var start = dateEnv . add ( dayDate , time ) ;
var end = dateEnv . add ( start , this . snapDuration ) ;
return {
col : colIndex ,
dateSpan : {
range : { start : start , end : end } ,
allDay : false
} ,
dayEl : this . colEls [ colIndex ] ,
relativeRect : {
left : colPositions . lefts [ colIndex ] ,
right : colPositions . rights [ colIndex ] ,
top : slatTop ,
bottom : slatTop + slatHeight
}
} ;
}
} ;
/ * E v e n t D r a g V i s u a l i z a t i o n
-- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- * /
TimeGrid . prototype . _renderEventDrag = function ( state ) {
if ( state ) {
this . eventRenderer . hideByHash ( state . affectedInstances ) ;
if ( state . isEvent ) {
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this . mirrorRenderer . renderSegs ( this . context , state . segs , { isDragging : true , sourceSeg : state . sourceSeg } ) ;
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}
else {
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this . fillRenderer . renderSegs ( 'highlight' , this . context , state . segs ) ;
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}
}
} ;
TimeGrid . prototype . _unrenderEventDrag = function ( state ) {
if ( state ) {
this . eventRenderer . showByHash ( state . affectedInstances ) ;
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if ( state . isEvent ) {
this . mirrorRenderer . unrender ( this . context , state . segs , { isDragging : true , sourceSeg : state . sourceSeg } ) ;
}
else {
this . fillRenderer . unrender ( 'highlight' , this . context ) ;
}
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}
} ;
/ * E v e n t R e s i z e V i s u a l i z a t i o n
-- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- * /
TimeGrid . prototype . _renderEventResize = function ( state ) {
if ( state ) {
this . eventRenderer . hideByHash ( state . affectedInstances ) ;
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this . mirrorRenderer . renderSegs ( this . context , state . segs , { isResizing : true , sourceSeg : state . sourceSeg } ) ;
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}
} ;
TimeGrid . prototype . _unrenderEventResize = function ( state ) {
if ( state ) {
this . eventRenderer . showByHash ( state . affectedInstances ) ;
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this . mirrorRenderer . unrender ( this . context , state . segs , { isResizing : true , sourceSeg : state . sourceSeg } ) ;
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}
} ;
/ * S e l e c t i o n
-- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- * /
// Renders a visual indication of a selection. Overrides the default, which was to simply render a highlight.
TimeGrid . prototype . _renderDateSelection = function ( segs ) {
if ( segs ) {
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if ( this . context . options . selectMirror ) {
this . mirrorRenderer . renderSegs ( this . context , segs , { isSelecting : true } ) ;
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}
else {
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this . fillRenderer . renderSegs ( 'highlight' , this . context , segs ) ;
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}
}
} ;
TimeGrid . prototype . _unrenderDateSelection = function ( segs ) {
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if ( segs ) {
if ( this . context . options . selectMirror ) {
this . mirrorRenderer . unrender ( this . context , segs , { isSelecting : true } ) ;
}
else {
this . fillRenderer . unrender ( 'highlight' , this . context ) ;
}
}
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} ;
return TimeGrid ;
} ( core . DateComponent ) ) ;
var AllDaySplitter = /** @class */ ( function ( _super ) {
_ _extends ( AllDaySplitter , _super ) ;
function AllDaySplitter ( ) {
return _super !== null && _super . apply ( this , arguments ) || this ;
}
AllDaySplitter . prototype . getKeyInfo = function ( ) {
return {
allDay : { } ,
timed : { }
} ;
} ;
AllDaySplitter . prototype . getKeysForDateSpan = function ( dateSpan ) {
if ( dateSpan . allDay ) {
return [ 'allDay' ] ;
}
else {
return [ 'timed' ] ;
}
} ;
AllDaySplitter . prototype . getKeysForEventDef = function ( eventDef ) {
if ( ! eventDef . allDay ) {
return [ 'timed' ] ;
}
else if ( core . hasBgRendering ( eventDef ) ) {
return [ 'timed' , 'allDay' ] ;
}
else {
return [ 'allDay' ] ;
}
} ;
return AllDaySplitter ;
} ( core . Splitter ) ) ;
var TIMEGRID _ALL _DAY _EVENT _LIMIT = 5 ;
var WEEK _HEADER _FORMAT = core . createFormatter ( { week : 'short' } ) ;
/ * A n a b s t r a c t c l a s s f o r a l l t i m e g r i d - r e l a t e d v i e w s . D i s p l a y s o n e m o r e c o l u m n s w i t h t i m e s l o t s r u n n i n g v e r t i c a l l y .
-- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- * /
// Is a manager for the TimeGrid subcomponent and possibly the DayGrid subcomponent (if allDaySlot is on).
// Responsible for managing width/height.
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var AbstractTimeGridView = /** @class */ ( function ( _super ) {
_ _extends ( AbstractTimeGridView , _super ) ;
function AbstractTimeGridView ( ) {
var _this = _super !== null && _super . apply ( this , arguments ) || this ;
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_this . splitter = new AllDaySplitter ( ) ;
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_this . renderSkeleton = core . memoizeRendering ( _this . _renderSkeleton , _this . _unrenderSkeleton ) ;
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/ * H e a d e r R e n d e r M e t h o d s
-- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- * /
// Generates the HTML that will go before the day-of week header cells
_this . renderHeadIntroHtml = function ( ) {
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var _a = _this . context , theme = _a . theme , dateEnv = _a . dateEnv , options = _a . options ;
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var range = _this . props . dateProfile . renderRange ;
var dayCnt = core . diffDays ( range . start , range . end ) ;
var weekText ;
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if ( options . weekNumbers ) {
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weekText = dateEnv . format ( range . start , WEEK _HEADER _FORMAT ) ;
return '' +
'<th class="fc-axis fc-week-number ' + theme . getClass ( 'widgetHeader' ) + '" ' + _this . axisStyleAttr ( ) + '>' +
core . buildGotoAnchorHtml ( // aside from link, important for matchCellWidths
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options , dateEnv , { date : range . start , type : 'week' , forceOff : dayCnt > 1 } , core . htmlEscape ( weekText ) // inner HTML
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) +
'</th>' ;
}
else {
return '<th class="fc-axis ' + theme . getClass ( 'widgetHeader' ) + '" ' + _this . axisStyleAttr ( ) + '></th>' ;
}
} ;
/ * T i m e G r i d R e n d e r M e t h o d s
-- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- * /
// Generates the HTML that goes before the bg of the TimeGrid slot area. Long vertical column.
_this . renderTimeGridBgIntroHtml = function ( ) {
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var theme = _this . context . theme ;
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return '<td class="fc-axis ' + theme . getClass ( 'widgetContent' ) + '" ' + _this . axisStyleAttr ( ) + '></td>' ;
} ;
// Generates the HTML that goes before all other types of cells.
// Affects content-skeleton, mirror-skeleton, highlight-skeleton for both the time-grid and day-grid.
_this . renderTimeGridIntroHtml = function ( ) {
return '<td class="fc-axis" ' + _this . axisStyleAttr ( ) + '></td>' ;
} ;
/ * D a y G r i d R e n d e r M e t h o d s
-- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- * /
// Generates the HTML that goes before the all-day cells
_this . renderDayGridBgIntroHtml = function ( ) {
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var _a = _this . context , theme = _a . theme , options = _a . options ;
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return '' +
'<td class="fc-axis ' + theme . getClass ( 'widgetContent' ) + '" ' + _this . axisStyleAttr ( ) + '>' +
'<span>' + // needed for matchCellWidths
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core . getAllDayHtml ( options ) +
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'</span>' +
'</td>' ;
} ;
// Generates the HTML that goes before all other types of cells.
// Affects content-skeleton, mirror-skeleton, highlight-skeleton for both the time-grid and day-grid.
_this . renderDayGridIntroHtml = function ( ) {
return '<td class="fc-axis" ' + _this . axisStyleAttr ( ) + '></td>' ;
} ;
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return _this ;
}
AbstractTimeGridView . prototype . render = function ( props , context ) {
_super . prototype . render . call ( this , props , context ) ;
this . renderSkeleton ( context ) ;
} ;
AbstractTimeGridView . prototype . destroy = function ( ) {
_super . prototype . destroy . call ( this ) ;
this . renderSkeleton . unrender ( ) ;
} ;
AbstractTimeGridView . prototype . _renderSkeleton = function ( context ) {
this . el . classList . add ( 'fc-timeGrid-view' ) ;
this . el . innerHTML = this . renderSkeletonHtml ( ) ;
this . scroller = new core . ScrollComponent ( 'hidden' , // overflow x
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'auto' // overflow y
) ;
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var timeGridWrapEl = this . scroller . el ;
this . el . querySelector ( '.fc-body > tr > td' ) . appendChild ( timeGridWrapEl ) ;
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timeGridWrapEl . classList . add ( 'fc-time-grid-container' ) ;
var timeGridEl = core . createElement ( 'div' , { className : 'fc-time-grid' } ) ;
timeGridWrapEl . appendChild ( timeGridEl ) ;
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this . timeGrid = new TimeGrid ( timeGridEl , {
renderBgIntroHtml : this . renderTimeGridBgIntroHtml ,
renderIntroHtml : this . renderTimeGridIntroHtml
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} ) ;
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if ( context . options . allDaySlot ) { // should we display the "all-day" area?
this . dayGrid = new daygrid . DayGrid ( // the all-day subcomponent of this view
this . el . querySelector ( '.fc-day-grid' ) , {
renderNumberIntroHtml : this . renderDayGridIntroHtml ,
renderBgIntroHtml : this . renderDayGridBgIntroHtml ,
renderIntroHtml : this . renderDayGridIntroHtml ,
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colWeekNumbersVisible : false ,
cellWeekNumbersVisible : false
} ) ;
// have the day-grid extend it's coordinate area over the <hr> dividing the two grids
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var dividerEl = this . el . querySelector ( '.fc-divider' ) ;
this . dayGrid . bottomCoordPadding = dividerEl . getBoundingClientRect ( ) . height ;
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}
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} ;
AbstractTimeGridView . prototype . _unrenderSkeleton = function ( ) {
this . el . classList . remove ( 'fc-timeGrid-view' ) ;
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this . timeGrid . destroy ( ) ;
if ( this . dayGrid ) {
this . dayGrid . destroy ( ) ;
}
this . scroller . destroy ( ) ;
} ;
/ * R e n d e r i n g
-- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- * /
// Builds the HTML skeleton for the view.
// The day-grid and time-grid components will render inside containers defined by this HTML.
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AbstractTimeGridView . prototype . renderSkeletonHtml = function ( ) {
var _a = this . context , theme = _a . theme , options = _a . options ;
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return '' +
'<table class="' + theme . getClass ( 'tableGrid' ) + '">' +
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( options . columnHeader ?
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'<thead class="fc-head">' +
'<tr>' +
'<td class="fc-head-container ' + theme . getClass ( 'widgetHeader' ) + '"> </td>' +
'</tr>' +
'</thead>' :
'' ) +
'<tbody class="fc-body">' +
'<tr>' +
'<td class="' + theme . getClass ( 'widgetContent' ) + '">' +
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( options . allDaySlot ?
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'<div class="fc-day-grid"></div>' +
'<hr class="fc-divider ' + theme . getClass ( 'widgetHeader' ) + '" />' :
'' ) +
'</td>' +
'</tr>' +
'</tbody>' +
'</table>' ;
} ;
/ * N o w I n d i c a t o r
-- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- * /
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AbstractTimeGridView . prototype . getNowIndicatorUnit = function ( ) {
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return this . timeGrid . getNowIndicatorUnit ( ) ;
} ;
// subclasses should implement
// renderNowIndicator(date: DateMarker) {
// }
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AbstractTimeGridView . prototype . unrenderNowIndicator = function ( ) {
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this . timeGrid . unrenderNowIndicator ( ) ;
} ;
/ * D i m e n s i o n s
-- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- * /
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AbstractTimeGridView . prototype . updateSize = function ( isResize , viewHeight , isAuto ) {
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_super . prototype . updateSize . call ( this , isResize , viewHeight , isAuto ) ; // will call updateBaseSize. important that executes first
this . timeGrid . updateSize ( isResize ) ;
if ( this . dayGrid ) {
this . dayGrid . updateSize ( isResize ) ;
}
} ;
// Adjusts the vertical dimensions of the view to the specified values
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AbstractTimeGridView . prototype . updateBaseSize = function ( isResize , viewHeight , isAuto ) {
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var _this = this ;
var eventLimit ;
var scrollerHeight ;
var scrollbarWidths ;
// make all axis cells line up
this . axisWidth = core . matchCellWidths ( core . findElements ( this . el , '.fc-axis' ) ) ;
// hack to give the view some height prior to timeGrid's columns being rendered
// TODO: separate setting height from scroller VS timeGrid.
if ( ! this . timeGrid . colEls ) {
if ( ! isAuto ) {
scrollerHeight = this . computeScrollerHeight ( viewHeight ) ;
this . scroller . setHeight ( scrollerHeight ) ;
}
return ;
}
// set of fake row elements that must compensate when scroller has scrollbars
var noScrollRowEls = core . findElements ( this . el , '.fc-row' ) . filter ( function ( node ) {
return ! _this . scroller . el . contains ( node ) ;
} ) ;
// reset all dimensions back to the original state
this . timeGrid . bottomRuleEl . style . display = 'none' ; // will be shown later if this <hr> is necessary
this . scroller . clear ( ) ; // sets height to 'auto' and clears overflow
noScrollRowEls . forEach ( core . uncompensateScroll ) ;
// limit number of events in the all-day area
if ( this . dayGrid ) {
this . dayGrid . removeSegPopover ( ) ; // kill the "more" popover if displayed
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eventLimit = this . context . options . eventLimit ;
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if ( eventLimit && typeof eventLimit !== 'number' ) {
eventLimit = TIMEGRID _ALL _DAY _EVENT _LIMIT ; // make sure "auto" goes to a real number
}
if ( eventLimit ) {
this . dayGrid . limitRows ( eventLimit ) ;
}
}
if ( ! isAuto ) { // should we force dimensions of the scroll container?
scrollerHeight = this . computeScrollerHeight ( viewHeight ) ;
this . scroller . setHeight ( scrollerHeight ) ;
scrollbarWidths = this . scroller . getScrollbarWidths ( ) ;
if ( scrollbarWidths . left || scrollbarWidths . right ) { // using scrollbars?
// make the all-day and header rows lines up
noScrollRowEls . forEach ( function ( rowEl ) {
core . compensateScroll ( rowEl , scrollbarWidths ) ;
} ) ;
// the scrollbar compensation might have changed text flow, which might affect height, so recalculate
// and reapply the desired height to the scroller.
scrollerHeight = this . computeScrollerHeight ( viewHeight ) ;
this . scroller . setHeight ( scrollerHeight ) ;
}
// guarantees the same scrollbar widths
this . scroller . lockOverflow ( scrollbarWidths ) ;
// if there's any space below the slats, show the horizontal rule.
// this won't cause any new overflow, because lockOverflow already called.
if ( this . timeGrid . getTotalSlatHeight ( ) < scrollerHeight ) {
this . timeGrid . bottomRuleEl . style . display = '' ;
}
}
} ;
// given a desired total height of the view, returns what the height of the scroller should be
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AbstractTimeGridView . prototype . computeScrollerHeight = function ( viewHeight ) {
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return viewHeight -
core . subtractInnerElHeight ( this . el , this . scroller . el ) ; // everything that's NOT the scroller
} ;
/ * S c r o l l
-- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- * /
// Computes the initial pre-configured scroll state prior to allowing the user to change it
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AbstractTimeGridView . prototype . computeDateScroll = function ( duration ) {
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var top = this . timeGrid . computeTimeTop ( duration ) ;
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// zoom can give weird floating-point values. rather scroll a little bit further
top = Math . ceil ( top ) ;
if ( top ) {
top ++ ; // to overcome top border that slots beyond the first have. looks better
}
return { top : top } ;
} ;
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AbstractTimeGridView . prototype . queryDateScroll = function ( ) {
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return { top : this . scroller . getScrollTop ( ) } ;
} ;
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AbstractTimeGridView . prototype . applyDateScroll = function ( scroll ) {
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if ( scroll . top !== undefined ) {
this . scroller . setScrollTop ( scroll . top ) ;
}
} ;
// Generates an HTML attribute string for setting the width of the axis, if it is known
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AbstractTimeGridView . prototype . axisStyleAttr = function ( ) {
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if ( this . axisWidth != null ) {
return 'style="width:' + this . axisWidth + 'px"' ;
}
return '' ;
} ;
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return AbstractTimeGridView ;
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} ( core . View ) ) ;
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AbstractTimeGridView . prototype . usesMinMaxTime = true ; // indicates that minTime/maxTime affects rendering
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var SimpleTimeGrid = /** @class */ ( function ( _super ) {
_ _extends ( SimpleTimeGrid , _super ) ;
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function SimpleTimeGrid ( timeGrid ) {
var _this = _super . call ( this , timeGrid . el ) || this ;
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_this . buildDayRanges = core . memoize ( buildDayRanges ) ;
_this . slicer = new TimeGridSlicer ( ) ;
_this . timeGrid = timeGrid ;
return _this ;
}
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SimpleTimeGrid . prototype . firstContext = function ( context ) {
context . calendar . registerInteractiveComponent ( this , {
el : this . timeGrid . el
} ) ;
} ;
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SimpleTimeGrid . prototype . destroy = function ( ) {
_super . prototype . destroy . call ( this ) ;
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this . context . calendar . unregisterInteractiveComponent ( this ) ;
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} ;
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SimpleTimeGrid . prototype . render = function ( props , context ) {
var dateEnv = this . context . dateEnv ;
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var dateProfile = props . dateProfile , dayTable = props . dayTable ;
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var dayRanges = this . dayRanges = this . buildDayRanges ( dayTable , dateProfile , dateEnv ) ;
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var timeGrid = this . timeGrid ;
timeGrid . receiveContext ( context ) ; // hack because context is used in sliceProps
timeGrid . receiveProps ( _ _assign ( { } , this . slicer . sliceProps ( props , dateProfile , null , context . calendar , timeGrid , dayRanges ) , { dateProfile : dateProfile , cells : dayTable . cells [ 0 ] } ) , context ) ;
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} ;
SimpleTimeGrid . prototype . renderNowIndicator = function ( date ) {
this . timeGrid . renderNowIndicator ( this . slicer . sliceNowDate ( date , this . timeGrid , this . dayRanges ) , date ) ;
} ;
SimpleTimeGrid . prototype . buildPositionCaches = function ( ) {
this . timeGrid . buildPositionCaches ( ) ;
} ;
SimpleTimeGrid . prototype . queryHit = function ( positionLeft , positionTop ) {
var rawHit = this . timeGrid . positionToHit ( positionLeft , positionTop ) ;
if ( rawHit ) {
return {
component : this . timeGrid ,
dateSpan : rawHit . dateSpan ,
dayEl : rawHit . dayEl ,
rect : {
left : rawHit . relativeRect . left ,
right : rawHit . relativeRect . right ,
top : rawHit . relativeRect . top ,
bottom : rawHit . relativeRect . bottom
} ,
layer : 0
} ;
}
} ;
return SimpleTimeGrid ;
} ( core . DateComponent ) ) ;
function buildDayRanges ( dayTable , dateProfile , dateEnv ) {
var ranges = [ ] ;
for ( var _i = 0 , _a = dayTable . headerDates ; _i < _a . length ; _i ++ ) {
var date = _a [ _i ] ;
ranges . push ( {
start : dateEnv . add ( date , dateProfile . minTime ) ,
end : dateEnv . add ( date , dateProfile . maxTime )
} ) ;
}
return ranges ;
}
var TimeGridSlicer = /** @class */ ( function ( _super ) {
_ _extends ( TimeGridSlicer , _super ) ;
function TimeGridSlicer ( ) {
return _super !== null && _super . apply ( this , arguments ) || this ;
}
TimeGridSlicer . prototype . sliceRange = function ( range , dayRanges ) {
var segs = [ ] ;
for ( var col = 0 ; col < dayRanges . length ; col ++ ) {
var segRange = core . intersectRanges ( range , dayRanges [ col ] ) ;
if ( segRange ) {
segs . push ( {
start : segRange . start ,
end : segRange . end ,
isStart : segRange . start . valueOf ( ) === range . start . valueOf ( ) ,
isEnd : segRange . end . valueOf ( ) === range . end . valueOf ( ) ,
col : col
} ) ;
}
}
return segs ;
} ;
return TimeGridSlicer ;
} ( core . Slicer ) ) ;
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var TimeGridView = /** @class */ ( function ( _super ) {
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_ _extends ( TimeGridView , _super ) ;
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function TimeGridView ( ) {
var _this = _super !== null && _super . apply ( this , arguments ) || this ;
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_this . buildDayTable = core . memoize ( buildDayTable ) ;
return _this ;
}
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TimeGridView . prototype . render = function ( props , context ) {
_super . prototype . render . call ( this , props , context ) ; // for flags for updateSize. also _renderSkeleton/_unrenderSkeleton
var _a = this . props , dateProfile = _a . dateProfile , dateProfileGenerator = _a . dateProfileGenerator ;
var nextDayThreshold = context . nextDayThreshold ;
var dayTable = this . buildDayTable ( dateProfile , dateProfileGenerator ) ;
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var splitProps = this . splitter . splitProps ( props ) ;
if ( this . header ) {
this . header . receiveProps ( {
dateProfile : dateProfile ,
dates : dayTable . headerDates ,
datesRepDistinctDays : true ,
renderIntroHtml : this . renderHeadIntroHtml
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} , context ) ;
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}
this . simpleTimeGrid . receiveProps ( _ _assign ( { } , splitProps [ 'timed' ] , { dateProfile : dateProfile ,
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dayTable : dayTable } ) , context ) ;
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if ( this . simpleDayGrid ) {
this . simpleDayGrid . receiveProps ( _ _assign ( { } , splitProps [ 'allDay' ] , { dateProfile : dateProfile ,
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dayTable : dayTable ,
nextDayThreshold : nextDayThreshold , isRigid : false } ) , context ) ;
}
this . startNowIndicator ( dateProfile , dateProfileGenerator ) ;
} ;
TimeGridView . prototype . _renderSkeleton = function ( context ) {
_super . prototype . _renderSkeleton . call ( this , context ) ;
if ( context . options . columnHeader ) {
this . header = new core . DayHeader ( this . el . querySelector ( '.fc-head-container' ) ) ;
}
this . simpleTimeGrid = new SimpleTimeGrid ( this . timeGrid ) ;
if ( this . dayGrid ) {
this . simpleDayGrid = new daygrid . SimpleDayGrid ( this . dayGrid ) ;
}
} ;
TimeGridView . prototype . _unrenderSkeleton = function ( ) {
_super . prototype . _unrenderSkeleton . call ( this ) ;
if ( this . header ) {
this . header . destroy ( ) ;
}
this . simpleTimeGrid . destroy ( ) ;
if ( this . simpleDayGrid ) {
this . simpleDayGrid . destroy ( ) ;
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}
} ;
TimeGridView . prototype . renderNowIndicator = function ( date ) {
this . simpleTimeGrid . renderNowIndicator ( date ) ;
} ;
return TimeGridView ;
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} ( AbstractTimeGridView ) ) ;
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function buildDayTable ( dateProfile , dateProfileGenerator ) {
var daySeries = new core . DaySeries ( dateProfile . renderRange , dateProfileGenerator ) ;
return new core . DayTable ( daySeries , false ) ;
}
var main = core . createPlugin ( {
defaultView : 'timeGridWeek' ,
views : {
timeGrid : {
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class : TimeGridView ,
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allDaySlot : true ,
slotDuration : '00:30:00' ,
slotEventOverlap : true // a bad name. confused with overlap/constraint system
} ,
timeGridDay : {
type : 'timeGrid' ,
duration : { days : 1 }
} ,
timeGridWeek : {
type : 'timeGrid' ,
duration : { weeks : 1 }
}
}
} ) ;
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exports . AbstractTimeGridView = AbstractTimeGridView ;
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exports . TimeGrid = TimeGrid ;
exports . TimeGridSlicer = TimeGridSlicer ;
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exports . TimeGridView = TimeGridView ;
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exports . buildDayRanges = buildDayRanges ;
exports . buildDayTable = buildDayTable ;
exports . default = main ;
Object . defineProperty ( exports , '__esModule' , { value : true } ) ;
} ) ) ;