/*!
FullCalendar Time Grid Plugin v6.1.11
Docs & License: https://fullcalendar.io/docs/timegrid-view
(c) 2023 Adam Shaw
*/
FullCalendar.TimeGrid = (function (exports, core, internal$1, preact, internal$2) {
'use strict';
class AllDaySplitter extends internal$1.Splitter {
getKeyInfo() {
return {
allDay: {},
timed: {},
};
}
getKeysForDateSpan(dateSpan) {
if (dateSpan.allDay) {
return ['allDay'];
}
return ['timed'];
}
getKeysForEventDef(eventDef) {
if (!eventDef.allDay) {
return ['timed'];
}
if (internal$1.hasBgRendering(eventDef)) {
return ['timed', 'allDay'];
}
return ['allDay'];
}
}
const DEFAULT_SLAT_LABEL_FORMAT = internal$1.createFormatter({
hour: 'numeric',
minute: '2-digit',
omitZeroMinute: true,
meridiem: 'short',
});
function TimeColsAxisCell(props) {
let classNames = [
'fc-timegrid-slot',
'fc-timegrid-slot-label',
props.isLabeled ? 'fc-scrollgrid-shrink' : 'fc-timegrid-slot-minor',
];
return (preact.createElement(internal$1.ViewContextType.Consumer, null, (context) => {
if (!props.isLabeled) {
return (preact.createElement("td", { className: classNames.join(' '), "data-time": props.isoTimeStr }));
}
let { dateEnv, options, viewApi } = context;
let labelFormat = // TODO: fully pre-parse
options.slotLabelFormat == null ? DEFAULT_SLAT_LABEL_FORMAT :
Array.isArray(options.slotLabelFormat) ? internal$1.createFormatter(options.slotLabelFormat[0]) :
internal$1.createFormatter(options.slotLabelFormat);
let renderProps = {
level: 0,
time: props.time,
date: dateEnv.toDate(props.date),
view: viewApi,
text: dateEnv.format(props.date, labelFormat),
};
return (preact.createElement(internal$1.ContentContainer, { elTag: "td", elClasses: classNames, elAttrs: {
'data-time': props.isoTimeStr,
}, renderProps: renderProps, generatorName: "slotLabelContent", customGenerator: options.slotLabelContent, defaultGenerator: renderInnerContent, classNameGenerator: options.slotLabelClassNames, didMount: options.slotLabelDidMount, willUnmount: options.slotLabelWillUnmount }, (InnerContent) => (preact.createElement("div", { className: "fc-timegrid-slot-label-frame fc-scrollgrid-shrink-frame" },
preact.createElement(InnerContent, { elTag: "div", elClasses: [
'fc-timegrid-slot-label-cushion',
'fc-scrollgrid-shrink-cushion',
] })))));
}));
}
function renderInnerContent(props) {
return props.text;
}
class TimeBodyAxis extends internal$1.BaseComponent {
render() {
return this.props.slatMetas.map((slatMeta) => (preact.createElement("tr", { key: slatMeta.key },
preact.createElement(TimeColsAxisCell, Object.assign({}, slatMeta)))));
}
}
const DEFAULT_WEEK_NUM_FORMAT = internal$1.createFormatter({ week: 'short' });
const AUTO_ALL_DAY_MAX_EVENT_ROWS = 5;
class TimeColsView extends internal$1.DateComponent {
constructor() {
super(...arguments);
this.allDaySplitter = new AllDaySplitter(); // for use by subclasses
this.headerElRef = preact.createRef();
this.rootElRef = preact.createRef();
this.scrollerElRef = preact.createRef();
this.state = {
slatCoords: null,
};
this.handleScrollTopRequest = (scrollTop) => {
let scrollerEl = this.scrollerElRef.current;
if (scrollerEl) { // TODO: not sure how this could ever be null. weirdness with the reducer
scrollerEl.scrollTop = scrollTop;
}
};
/* Header Render Methods
------------------------------------------------------------------------------------------------------------------*/
this.renderHeadAxis = (rowKey, frameHeight = '') => {
let { options } = this.context;
let { dateProfile } = this.props;
let range = dateProfile.renderRange;
let dayCnt = internal$1.diffDays(range.start, range.end);
// only do in day views (to avoid doing in week views that dont need it)
let navLinkAttrs = (dayCnt === 1)
? internal$1.buildNavLinkAttrs(this.context, range.start, 'week')
: {};
if (options.weekNumbers && rowKey === 'day') {
return (preact.createElement(internal$1.WeekNumberContainer, { elTag: "th", elClasses: [
'fc-timegrid-axis',
'fc-scrollgrid-shrink',
], elAttrs: {
'aria-hidden': true,
}, date: range.start, defaultFormat: DEFAULT_WEEK_NUM_FORMAT }, (InnerContent) => (preact.createElement("div", { className: [
'fc-timegrid-axis-frame',
'fc-scrollgrid-shrink-frame',
'fc-timegrid-axis-frame-liquid',
].join(' '), style: { height: frameHeight } },
preact.createElement(InnerContent, { elTag: "a", elClasses: [
'fc-timegrid-axis-cushion',
'fc-scrollgrid-shrink-cushion',
'fc-scrollgrid-sync-inner',
], elAttrs: navLinkAttrs })))));
}
return (preact.createElement("th", { "aria-hidden": true, className: "fc-timegrid-axis" },
preact.createElement("div", { className: "fc-timegrid-axis-frame", style: { height: frameHeight } })));
};
/* Table Component Render Methods
------------------------------------------------------------------------------------------------------------------*/
// only a one-way height sync. we don't send the axis inner-content height to the DayGrid,
// but DayGrid still needs to have classNames on inner elements in order to measure.
this.renderTableRowAxis = (rowHeight) => {
let { options, viewApi } = this.context;
let renderProps = {
text: options.allDayText,
view: viewApi,
};
return (
// TODO: make reusable hook. used in list view too
preact.createElement(internal$1.ContentContainer, { elTag: "td", elClasses: [
'fc-timegrid-axis',
'fc-scrollgrid-shrink',
], elAttrs: {
'aria-hidden': true,
}, renderProps: renderProps, generatorName: "allDayContent", customGenerator: options.allDayContent, defaultGenerator: renderAllDayInner, classNameGenerator: options.allDayClassNames, didMount: options.allDayDidMount, willUnmount: options.allDayWillUnmount }, (InnerContent) => (preact.createElement("div", { className: [
'fc-timegrid-axis-frame',
'fc-scrollgrid-shrink-frame',
rowHeight == null ? ' fc-timegrid-axis-frame-liquid' : '',
].join(' '), style: { height: rowHeight } },
preact.createElement(InnerContent, { elTag: "span", elClasses: [
'fc-timegrid-axis-cushion',
'fc-scrollgrid-shrink-cushion',
'fc-scrollgrid-sync-inner',
] })))));
};
this.handleSlatCoords = (slatCoords) => {
this.setState({ slatCoords });
};
}
// rendering
// ----------------------------------------------------------------------------------------------------
renderSimpleLayout(headerRowContent, allDayContent, timeContent) {
let { context, props } = this;
let sections = [];
let stickyHeaderDates = internal$1.getStickyHeaderDates(context.options);
if (headerRowContent) {
sections.push({
type: 'header',
key: 'header',
isSticky: stickyHeaderDates,
chunk: {
elRef: this.headerElRef,
tableClassName: 'fc-col-header',
rowContent: headerRowContent,
},
});
}
if (allDayContent) {
sections.push({
type: 'body',
key: 'all-day',
chunk: { content: allDayContent },
});
sections.push({
type: 'body',
key: 'all-day-divider',
outerContent: ( // TODO: rename to cellContent so don't need to define ?
preact.createElement("tr", { role: "presentation", className: "fc-scrollgrid-section" },
preact.createElement("td", { className: 'fc-timegrid-divider ' + context.theme.getClass('tableCellShaded') }))),
});
}
sections.push({
type: 'body',
key: 'body',
liquid: true,
expandRows: Boolean(context.options.expandRows),
chunk: {
scrollerElRef: this.scrollerElRef,
content: timeContent,
},
});
return (preact.createElement(internal$1.ViewContainer, { elRef: this.rootElRef, elClasses: ['fc-timegrid'], viewSpec: context.viewSpec },
preact.createElement(internal$1.SimpleScrollGrid, { liquid: !props.isHeightAuto && !props.forPrint, collapsibleWidth: props.forPrint, cols: [{ width: 'shrink' }], sections: sections })));
}
renderHScrollLayout(headerRowContent, allDayContent, timeContent, colCnt, dayMinWidth, slatMetas, slatCoords) {
let ScrollGrid = this.context.pluginHooks.scrollGridImpl;
if (!ScrollGrid) {
throw new Error('No ScrollGrid implementation');
}
let { context, props } = this;
let stickyHeaderDates = !props.forPrint && internal$1.getStickyHeaderDates(context.options);
let stickyFooterScrollbar = !props.forPrint && internal$1.getStickyFooterScrollbar(context.options);
let sections = [];
if (headerRowContent) {
sections.push({
type: 'header',
key: 'header',
isSticky: stickyHeaderDates,
syncRowHeights: true,
chunks: [
{
key: 'axis',
rowContent: (arg) => (preact.createElement("tr", { role: "presentation" }, this.renderHeadAxis('day', arg.rowSyncHeights[0]))),
},
{
key: 'cols',
elRef: this.headerElRef,
tableClassName: 'fc-col-header',
rowContent: headerRowContent,
},
],
});
}
if (allDayContent) {
sections.push({
type: 'body',
key: 'all-day',
syncRowHeights: true,
chunks: [
{
key: 'axis',
rowContent: (contentArg) => (preact.createElement("tr", { role: "presentation" }, this.renderTableRowAxis(contentArg.rowSyncHeights[0]))),
},
{
key: 'cols',
content: allDayContent,
},
],
});
sections.push({
key: 'all-day-divider',
type: 'body',
outerContent: ( // TODO: rename to cellContent so don't need to define
?
preact.createElement("tr", { role: "presentation", className: "fc-scrollgrid-section" },
preact.createElement("td", { colSpan: 2, className: 'fc-timegrid-divider ' + context.theme.getClass('tableCellShaded') }))),
});
}
let isNowIndicator = context.options.nowIndicator;
sections.push({
type: 'body',
key: 'body',
liquid: true,
expandRows: Boolean(context.options.expandRows),
chunks: [
{
key: 'axis',
content: (arg) => (
// TODO: make this now-indicator arrow more DRY with TimeColsContent
preact.createElement("div", { className: "fc-timegrid-axis-chunk" },
preact.createElement("table", { "aria-hidden": true, style: { height: arg.expandRows ? arg.clientHeight : '' } },
arg.tableColGroupNode,
preact.createElement("tbody", null,
preact.createElement(TimeBodyAxis, { slatMetas: slatMetas }))),
preact.createElement("div", { className: "fc-timegrid-now-indicator-container" },
preact.createElement(internal$1.NowTimer, { unit: isNowIndicator ? 'minute' : 'day' /* hacky */ }, (nowDate) => {
let nowIndicatorTop = isNowIndicator &&
slatCoords &&
slatCoords.safeComputeTop(nowDate); // might return void
if (typeof nowIndicatorTop === 'number') {
return (preact.createElement(internal$1.NowIndicatorContainer, { elClasses: ['fc-timegrid-now-indicator-arrow'], elStyle: { top: nowIndicatorTop }, isAxis: true, date: nowDate }));
}
return null;
})))),
},
{
key: 'cols',
scrollerElRef: this.scrollerElRef,
content: timeContent,
},
],
});
if (stickyFooterScrollbar) {
sections.push({
key: 'footer',
type: 'footer',
isSticky: true,
chunks: [
{
key: 'axis',
content: internal$1.renderScrollShim,
},
{
key: 'cols',
content: internal$1.renderScrollShim,
},
],
});
}
return (preact.createElement(internal$1.ViewContainer, { elRef: this.rootElRef, elClasses: ['fc-timegrid'], viewSpec: context.viewSpec },
preact.createElement(ScrollGrid, { liquid: !props.isHeightAuto && !props.forPrint, forPrint: props.forPrint, collapsibleWidth: false, colGroups: [
{ width: 'shrink', cols: [{ width: 'shrink' }] },
{ cols: [{ span: colCnt, minWidth: dayMinWidth }] },
], sections: sections })));
}
/* Dimensions
------------------------------------------------------------------------------------------------------------------*/
getAllDayMaxEventProps() {
let { dayMaxEvents, dayMaxEventRows } = this.context.options;
if (dayMaxEvents === true || dayMaxEventRows === true) { // is auto?
dayMaxEvents = undefined;
dayMaxEventRows = AUTO_ALL_DAY_MAX_EVENT_ROWS; // make sure "auto" goes to a real number
}
return { dayMaxEvents, dayMaxEventRows };
}
}
function renderAllDayInner(renderProps) {
return renderProps.text;
}
class TimeColsSlatsCoords {
constructor(positions, dateProfile, slotDuration) {
this.positions = positions;
this.dateProfile = dateProfile;
this.slotDuration = slotDuration;
}
safeComputeTop(date) {
let { dateProfile } = this;
if (internal$1.rangeContainsMarker(dateProfile.currentRange, date)) {
let startOfDayDate = internal$1.startOfDay(date);
let timeMs = date.valueOf() - startOfDayDate.valueOf();
if (timeMs >= internal$1.asRoughMs(dateProfile.slotMinTime) &&
timeMs < internal$1.asRoughMs(dateProfile.slotMaxTime)) {
return this.computeTimeTop(internal$1.createDuration(timeMs));
}
}
return null;
}
// 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.
computeDateTop(when, startOfDayDate) {
if (!startOfDayDate) {
startOfDayDate = internal$1.startOfDay(when);
}
return this.computeTimeTop(internal$1.createDuration(when.valueOf() - startOfDayDate.valueOf()));
}
// Computes the top coordinate, relative to the bounds of the grid, of the given time (a Duration).
// This is a makeshify way to compute the time-top. Assumes all slatMetas dates are uniform.
// Eventually allow computation with arbirary slat dates.
computeTimeTop(duration) {
let { positions, dateProfile } = this;
let len = positions.els.length;
// floating-point value of # of slots covered
let slatCoverage = (duration.milliseconds - internal$1.asRoughMs(dateProfile.slotMinTime)) / internal$1.asRoughMs(this.slotDuration);
let slatIndex;
let slatRemainder;
// compute a floating-point number for how many slats should be progressed through.
// from 0 to number of slats (inclusive)
// constrained because slotMinTime/slotMaxTime 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 positions.tops[slatIndex] +
positions.getHeight(slatIndex) * slatRemainder;
}
}
class TimeColsSlatsBody extends internal$1.BaseComponent {
render() {
let { props, context } = this;
let { options } = context;
let { slatElRefs } = props;
return (preact.createElement("tbody", null, props.slatMetas.map((slatMeta, i) => {
let renderProps = {
time: slatMeta.time,
date: context.dateEnv.toDate(slatMeta.date),
view: context.viewApi,
};
return (preact.createElement("tr", { key: slatMeta.key, ref: slatElRefs.createRef(slatMeta.key) },
props.axis && (preact.createElement(TimeColsAxisCell, Object.assign({}, slatMeta))),
preact.createElement(internal$1.ContentContainer, { elTag: "td", elClasses: [
'fc-timegrid-slot',
'fc-timegrid-slot-lane',
!slatMeta.isLabeled && 'fc-timegrid-slot-minor',
], elAttrs: {
'data-time': slatMeta.isoTimeStr,
}, renderProps: renderProps, generatorName: "slotLaneContent", customGenerator: options.slotLaneContent, classNameGenerator: options.slotLaneClassNames, didMount: options.slotLaneDidMount, willUnmount: options.slotLaneWillUnmount })));
})));
}
}
/*
for the horizontal "slats" that run width-wise. Has a time axis on a side. Depends on RTL.
*/
class TimeColsSlats extends internal$1.BaseComponent {
constructor() {
super(...arguments);
this.rootElRef = preact.createRef();
this.slatElRefs = new internal$1.RefMap();
}
render() {
let { props, context } = this;
return (preact.createElement("div", { ref: this.rootElRef, className: "fc-timegrid-slots" },
preact.createElement("table", { "aria-hidden": true, className: context.theme.getClass('table'), style: {
minWidth: props.tableMinWidth,
width: props.clientWidth,
height: props.minHeight,
} },
props.tableColGroupNode /* relies on there only being a single for the axis */,
preact.createElement(TimeColsSlatsBody, { slatElRefs: this.slatElRefs, axis: props.axis, slatMetas: props.slatMetas }))));
}
componentDidMount() {
this.updateSizing();
}
componentDidUpdate() {
this.updateSizing();
}
componentWillUnmount() {
if (this.props.onCoords) {
this.props.onCoords(null);
}
}
updateSizing() {
let { context, props } = this;
if (props.onCoords &&
props.clientWidth !== null // means sizing has stabilized
) {
let rootEl = this.rootElRef.current;
if (rootEl.offsetHeight) { // not hidden by css
props.onCoords(new TimeColsSlatsCoords(new internal$1.PositionCache(this.rootElRef.current, collectSlatEls(this.slatElRefs.currentMap, props.slatMetas), false, true), this.props.dateProfile, context.options.slotDuration));
}
}
}
}
function collectSlatEls(elMap, slatMetas) {
return slatMetas.map((slatMeta) => elMap[slatMeta.key]);
}
function splitSegsByCol(segs, colCnt) {
let segsByCol = [];
let i;
for (i = 0; i < colCnt; i += 1) {
segsByCol.push([]);
}
if (segs) {
for (i = 0; i < segs.length; i += 1) {
segsByCol[segs[i].col].push(segs[i]);
}
}
return segsByCol;
}
function splitInteractionByCol(ui, colCnt) {
let byRow = [];
if (!ui) {
for (let i = 0; i < colCnt; i += 1) {
byRow[i] = null;
}
}
else {
for (let i = 0; i < colCnt; i += 1) {
byRow[i] = {
affectedInstances: ui.affectedInstances,
isEvent: ui.isEvent,
segs: [],
};
}
for (let seg of ui.segs) {
byRow[seg.col].segs.push(seg);
}
}
return byRow;
}
class TimeColMoreLink extends internal$1.BaseComponent {
render() {
let { props } = this;
return (preact.createElement(internal$1.MoreLinkContainer, { elClasses: ['fc-timegrid-more-link'], elStyle: {
top: props.top,
bottom: props.bottom,
}, allDayDate: null, moreCnt: props.hiddenSegs.length, allSegs: props.hiddenSegs, hiddenSegs: props.hiddenSegs, extraDateSpan: props.extraDateSpan, dateProfile: props.dateProfile, todayRange: props.todayRange, popoverContent: () => renderPlainFgSegs(props.hiddenSegs, props), defaultGenerator: renderMoreLinkInner, forceTimed: true }, (InnerContent) => (preact.createElement(InnerContent, { elTag: "div", elClasses: ['fc-timegrid-more-link-inner', 'fc-sticky'] }))));
}
}
function renderMoreLinkInner(props) {
return props.shortText;
}
// segInputs assumed sorted
function buildPositioning(segInputs, strictOrder, maxStackCnt) {
let hierarchy = new internal$1.SegHierarchy();
if (strictOrder != null) {
hierarchy.strictOrder = strictOrder;
}
if (maxStackCnt != null) {
hierarchy.maxStackCnt = maxStackCnt;
}
let hiddenEntries = hierarchy.addSegs(segInputs);
let hiddenGroups = internal$1.groupIntersectingEntries(hiddenEntries);
let web = buildWeb(hierarchy);
web = stretchWeb(web, 1); // all levelCoords/thickness will have 0.0-1.0
let segRects = webToRects(web);
return { segRects, hiddenGroups };
}
function buildWeb(hierarchy) {
const { entriesByLevel } = hierarchy;
const buildNode = cacheable((level, lateral) => level + ':' + lateral, (level, lateral) => {
let siblingRange = findNextLevelSegs(hierarchy, level, lateral);
let nextLevelRes = buildNodes(siblingRange, buildNode);
let entry = entriesByLevel[level][lateral];
return [
Object.assign(Object.assign({}, entry), { nextLevelNodes: nextLevelRes[0] }),
entry.thickness + nextLevelRes[1], // the pressure builds
];
});
return buildNodes(entriesByLevel.length
? { level: 0, lateralStart: 0, lateralEnd: entriesByLevel[0].length }
: null, buildNode)[0];
}
function buildNodes(siblingRange, buildNode) {
if (!siblingRange) {
return [[], 0];
}
let { level, lateralStart, lateralEnd } = siblingRange;
let lateral = lateralStart;
let pairs = [];
while (lateral < lateralEnd) {
pairs.push(buildNode(level, lateral));
lateral += 1;
}
pairs.sort(cmpDescPressures);
return [
pairs.map(extractNode),
pairs[0][1], // first item's pressure
];
}
function cmpDescPressures(a, b) {
return b[1] - a[1];
}
function extractNode(a) {
return a[0];
}
function findNextLevelSegs(hierarchy, subjectLevel, subjectLateral) {
let { levelCoords, entriesByLevel } = hierarchy;
let subjectEntry = entriesByLevel[subjectLevel][subjectLateral];
let afterSubject = levelCoords[subjectLevel] + subjectEntry.thickness;
let levelCnt = levelCoords.length;
let level = subjectLevel;
// skip past levels that are too high up
for (; level < levelCnt && levelCoords[level] < afterSubject; level += 1)
; // do nothing
for (; level < levelCnt; level += 1) {
let entries = entriesByLevel[level];
let entry;
let searchIndex = internal$1.binarySearch(entries, subjectEntry.span.start, internal$1.getEntrySpanEnd);
let lateralStart = searchIndex[0] + searchIndex[1]; // if exact match (which doesn't collide), go to next one
let lateralEnd = lateralStart;
while ( // loop through entries that horizontally intersect
(entry = entries[lateralEnd]) && // but not past the whole seg list
entry.span.start < subjectEntry.span.end) {
lateralEnd += 1;
}
if (lateralStart < lateralEnd) {
return { level, lateralStart, lateralEnd };
}
}
return null;
}
function stretchWeb(topLevelNodes, totalThickness) {
const stretchNode = cacheable((node, startCoord, prevThickness) => internal$1.buildEntryKey(node), (node, startCoord, prevThickness) => {
let { nextLevelNodes, thickness } = node;
let allThickness = thickness + prevThickness;
let thicknessFraction = thickness / allThickness;
let endCoord;
let newChildren = [];
if (!nextLevelNodes.length) {
endCoord = totalThickness;
}
else {
for (let childNode of nextLevelNodes) {
if (endCoord === undefined) {
let res = stretchNode(childNode, startCoord, allThickness);
endCoord = res[0];
newChildren.push(res[1]);
}
else {
let res = stretchNode(childNode, endCoord, 0);
newChildren.push(res[1]);
}
}
}
let newThickness = (endCoord - startCoord) * thicknessFraction;
return [endCoord - newThickness, Object.assign(Object.assign({}, node), { thickness: newThickness, nextLevelNodes: newChildren })];
});
return topLevelNodes.map((node) => stretchNode(node, 0, 0)[1]);
}
// not sorted in any particular order
function webToRects(topLevelNodes) {
let rects = [];
const processNode = cacheable((node, levelCoord, stackDepth) => internal$1.buildEntryKey(node), (node, levelCoord, stackDepth) => {
let rect = Object.assign(Object.assign({}, node), { levelCoord,
stackDepth, stackForward: 0 });
rects.push(rect);
return (rect.stackForward = processNodes(node.nextLevelNodes, levelCoord + node.thickness, stackDepth + 1) + 1);
});
function processNodes(nodes, levelCoord, stackDepth) {
let stackForward = 0;
for (let node of nodes) {
stackForward = Math.max(processNode(node, levelCoord, stackDepth), stackForward);
}
return stackForward;
}
processNodes(topLevelNodes, 0, 0);
return rects; // TODO: sort rects by levelCoord to be consistent with toRects?
}
// TODO: move to general util
function cacheable(keyFunc, workFunc) {
const cache = {};
return (...args) => {
let key = keyFunc(...args);
return (key in cache)
? cache[key]
: (cache[key] = workFunc(...args));
};
}
function computeSegVCoords(segs, colDate, slatCoords = null, eventMinHeight = 0) {
let vcoords = [];
if (slatCoords) {
for (let i = 0; i < segs.length; i += 1) {
let seg = segs[i];
let spanStart = slatCoords.computeDateTop(seg.start, colDate);
let spanEnd = Math.max(spanStart + (eventMinHeight || 0), // :(
slatCoords.computeDateTop(seg.end, colDate));
vcoords.push({
start: Math.round(spanStart),
end: Math.round(spanEnd), //
});
}
}
return vcoords;
}
function computeFgSegPlacements(segs, segVCoords, // might not have for every seg
eventOrderStrict, eventMaxStack) {
let segInputs = [];
let dumbSegs = []; // segs without coords
for (let i = 0; i < segs.length; i += 1) {
let vcoords = segVCoords[i];
if (vcoords) {
segInputs.push({
index: i,
thickness: 1,
span: vcoords,
});
}
else {
dumbSegs.push(segs[i]);
}
}
let { segRects, hiddenGroups } = buildPositioning(segInputs, eventOrderStrict, eventMaxStack);
let segPlacements = [];
for (let segRect of segRects) {
segPlacements.push({
seg: segs[segRect.index],
rect: segRect,
});
}
for (let dumbSeg of dumbSegs) {
segPlacements.push({ seg: dumbSeg, rect: null });
}
return { segPlacements, hiddenGroups };
}
const DEFAULT_TIME_FORMAT = internal$1.createFormatter({
hour: 'numeric',
minute: '2-digit',
meridiem: false,
});
class TimeColEvent extends internal$1.BaseComponent {
render() {
return (preact.createElement(internal$1.StandardEvent, Object.assign({}, this.props, { elClasses: [
'fc-timegrid-event',
'fc-v-event',
this.props.isShort && 'fc-timegrid-event-short',
], defaultTimeFormat: DEFAULT_TIME_FORMAT })));
}
}
class TimeCol extends internal$1.BaseComponent {
constructor() {
super(...arguments);
this.sortEventSegs = internal$1.memoize(internal$1.sortEventSegs);
}
// TODO: memoize event-placement?
render() {
let { props, context } = this;
let { options } = context;
let isSelectMirror = options.selectMirror;
let mirrorSegs = // yuck
(props.eventDrag && props.eventDrag.segs) ||
(props.eventResize && props.eventResize.segs) ||
(isSelectMirror && props.dateSelectionSegs) ||
[];
let interactionAffectedInstances = // TODO: messy way to compute this
(props.eventDrag && props.eventDrag.affectedInstances) ||
(props.eventResize && props.eventResize.affectedInstances) ||
{};
let sortedFgSegs = this.sortEventSegs(props.fgEventSegs, options.eventOrder);
return (preact.createElement(internal$1.DayCellContainer, { elTag: "td", elRef: props.elRef, elClasses: [
'fc-timegrid-col',
...(props.extraClassNames || []),
], elAttrs: Object.assign({ role: 'gridcell' }, props.extraDataAttrs), date: props.date, dateProfile: props.dateProfile, todayRange: props.todayRange, extraRenderProps: props.extraRenderProps }, (InnerContent) => (preact.createElement("div", { className: "fc-timegrid-col-frame" },
preact.createElement("div", { className: "fc-timegrid-col-bg" },
this.renderFillSegs(props.businessHourSegs, 'non-business'),
this.renderFillSegs(props.bgEventSegs, 'bg-event'),
this.renderFillSegs(props.dateSelectionSegs, 'highlight')),
preact.createElement("div", { className: "fc-timegrid-col-events" }, this.renderFgSegs(sortedFgSegs, interactionAffectedInstances, false, false, false)),
preact.createElement("div", { className: "fc-timegrid-col-events" }, this.renderFgSegs(mirrorSegs, {}, Boolean(props.eventDrag), Boolean(props.eventResize), Boolean(isSelectMirror), 'mirror')),
preact.createElement("div", { className: "fc-timegrid-now-indicator-container" }, this.renderNowIndicator(props.nowIndicatorSegs)),
internal$1.hasCustomDayCellContent(options) && (preact.createElement(InnerContent, { elTag: "div", elClasses: ['fc-timegrid-col-misc'] }))))));
}
renderFgSegs(sortedFgSegs, segIsInvisible, isDragging, isResizing, isDateSelecting, forcedKey) {
let { props } = this;
if (props.forPrint) {
return renderPlainFgSegs(sortedFgSegs, props);
}
return this.renderPositionedFgSegs(sortedFgSegs, segIsInvisible, isDragging, isResizing, isDateSelecting, forcedKey);
}
renderPositionedFgSegs(segs, // if not mirror, needs to be sorted
segIsInvisible, isDragging, isResizing, isDateSelecting, forcedKey) {
let { eventMaxStack, eventShortHeight, eventOrderStrict, eventMinHeight } = this.context.options;
let { date, slatCoords, eventSelection, todayRange, nowDate } = this.props;
let isMirror = isDragging || isResizing || isDateSelecting;
let segVCoords = computeSegVCoords(segs, date, slatCoords, eventMinHeight);
let { segPlacements, hiddenGroups } = computeFgSegPlacements(segs, segVCoords, eventOrderStrict, eventMaxStack);
return (preact.createElement(preact.Fragment, null,
this.renderHiddenGroups(hiddenGroups, segs),
segPlacements.map((segPlacement) => {
let { seg, rect } = segPlacement;
let instanceId = seg.eventRange.instance.instanceId;
let isVisible = isMirror || Boolean(!segIsInvisible[instanceId] && rect);
let vStyle = computeSegVStyle(rect && rect.span);
let hStyle = (!isMirror && rect) ? this.computeSegHStyle(rect) : { left: 0, right: 0 };
let isInset = Boolean(rect) && rect.stackForward > 0;
let isShort = Boolean(rect) && (rect.span.end - rect.span.start) < eventShortHeight; // look at other places for this problem
return (preact.createElement("div", { className: 'fc-timegrid-event-harness' +
(isInset ? ' fc-timegrid-event-harness-inset' : ''), key: forcedKey || instanceId, style: Object.assign(Object.assign({ visibility: isVisible ? '' : 'hidden' }, vStyle), hStyle) },
preact.createElement(TimeColEvent, Object.assign({ seg: seg, isDragging: isDragging, isResizing: isResizing, isDateSelecting: isDateSelecting, isSelected: instanceId === eventSelection, isShort: isShort }, internal$1.getSegMeta(seg, todayRange, nowDate)))));
})));
}
// will already have eventMinHeight applied because segInputs already had it
renderHiddenGroups(hiddenGroups, segs) {
let { extraDateSpan, dateProfile, todayRange, nowDate, eventSelection, eventDrag, eventResize } = this.props;
return (preact.createElement(preact.Fragment, null, hiddenGroups.map((hiddenGroup) => {
let positionCss = computeSegVStyle(hiddenGroup.span);
let hiddenSegs = compileSegsFromEntries(hiddenGroup.entries, segs);
return (preact.createElement(TimeColMoreLink, { key: internal$1.buildIsoString(internal$1.computeEarliestSegStart(hiddenSegs)), hiddenSegs: hiddenSegs, top: positionCss.top, bottom: positionCss.bottom, extraDateSpan: extraDateSpan, dateProfile: dateProfile, todayRange: todayRange, nowDate: nowDate, eventSelection: eventSelection, eventDrag: eventDrag, eventResize: eventResize }));
})));
}
renderFillSegs(segs, fillType) {
let { props, context } = this;
let segVCoords = computeSegVCoords(segs, props.date, props.slatCoords, context.options.eventMinHeight); // don't assume all populated
let children = segVCoords.map((vcoords, i) => {
let seg = segs[i];
return (preact.createElement("div", { key: internal$1.buildEventRangeKey(seg.eventRange), className: "fc-timegrid-bg-harness", style: computeSegVStyle(vcoords) }, fillType === 'bg-event' ?
preact.createElement(internal$1.BgEvent, Object.assign({ seg: seg }, internal$1.getSegMeta(seg, props.todayRange, props.nowDate))) :
internal$1.renderFill(fillType)));
});
return preact.createElement(preact.Fragment, null, children);
}
renderNowIndicator(segs) {
let { slatCoords, date } = this.props;
if (!slatCoords) {
return null;
}
return segs.map((seg, i) => (preact.createElement(internal$1.NowIndicatorContainer
// key doesn't matter. will only ever be one
, {
// key doesn't matter. will only ever be one
key: i, elClasses: ['fc-timegrid-now-indicator-line'], elStyle: {
top: slatCoords.computeDateTop(seg.start, date),
}, isAxis: false, date: date })));
}
computeSegHStyle(segHCoords) {
let { isRtl, options } = this.context;
let shouldOverlap = options.slotEventOverlap;
let nearCoord = segHCoords.levelCoord; // the left side if LTR. the right side if RTL. floating-point
let farCoord = segHCoords.levelCoord + segHCoords.thickness; // the right side if LTR. the left side if RTL. floating-point
let left; // amount of space from left edge, a fraction of the total width
let 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)
farCoord = Math.min(1, nearCoord + (farCoord - nearCoord) * 2);
}
if (isRtl) {
left = 1 - farCoord;
right = nearCoord;
}
else {
left = nearCoord;
right = 1 - farCoord;
}
let props = {
zIndex: segHCoords.stackDepth + 1,
left: left * 100 + '%',
right: right * 100 + '%',
};
if (shouldOverlap && !segHCoords.stackForward) {
// 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;
}
}
function renderPlainFgSegs(sortedFgSegs, { todayRange, nowDate, eventSelection, eventDrag, eventResize }) {
let hiddenInstances = (eventDrag ? eventDrag.affectedInstances : null) ||
(eventResize ? eventResize.affectedInstances : null) ||
{};
return (preact.createElement(preact.Fragment, null, sortedFgSegs.map((seg) => {
let instanceId = seg.eventRange.instance.instanceId;
return (preact.createElement("div", { key: instanceId, style: { visibility: hiddenInstances[instanceId] ? 'hidden' : '' } },
preact.createElement(TimeColEvent, Object.assign({ seg: seg, isDragging: false, isResizing: false, isDateSelecting: false, isSelected: instanceId === eventSelection, isShort: false }, internal$1.getSegMeta(seg, todayRange, nowDate)))));
})));
}
function computeSegVStyle(segVCoords) {
if (!segVCoords) {
return { top: '', bottom: '' };
}
return {
top: segVCoords.start,
bottom: -segVCoords.end,
};
}
function compileSegsFromEntries(segEntries, allSegs) {
return segEntries.map((segEntry) => allSegs[segEntry.index]);
}
class TimeColsContent extends internal$1.BaseComponent {
constructor() {
super(...arguments);
this.splitFgEventSegs = internal$1.memoize(splitSegsByCol);
this.splitBgEventSegs = internal$1.memoize(splitSegsByCol);
this.splitBusinessHourSegs = internal$1.memoize(splitSegsByCol);
this.splitNowIndicatorSegs = internal$1.memoize(splitSegsByCol);
this.splitDateSelectionSegs = internal$1.memoize(splitSegsByCol);
this.splitEventDrag = internal$1.memoize(splitInteractionByCol);
this.splitEventResize = internal$1.memoize(splitInteractionByCol);
this.rootElRef = preact.createRef();
this.cellElRefs = new internal$1.RefMap();
}
render() {
let { props, context } = this;
let nowIndicatorTop = context.options.nowIndicator &&
props.slatCoords &&
props.slatCoords.safeComputeTop(props.nowDate); // might return void
let colCnt = props.cells.length;
let fgEventSegsByRow = this.splitFgEventSegs(props.fgEventSegs, colCnt);
let bgEventSegsByRow = this.splitBgEventSegs(props.bgEventSegs, colCnt);
let businessHourSegsByRow = this.splitBusinessHourSegs(props.businessHourSegs, colCnt);
let nowIndicatorSegsByRow = this.splitNowIndicatorSegs(props.nowIndicatorSegs, colCnt);
let dateSelectionSegsByRow = this.splitDateSelectionSegs(props.dateSelectionSegs, colCnt);
let eventDragByRow = this.splitEventDrag(props.eventDrag, colCnt);
let eventResizeByRow = this.splitEventResize(props.eventResize, colCnt);
return (preact.createElement("div", { className: "fc-timegrid-cols", ref: this.rootElRef },
preact.createElement("table", { role: "presentation", style: {
minWidth: props.tableMinWidth,
width: props.clientWidth,
} },
props.tableColGroupNode,
preact.createElement("tbody", { role: "presentation" },
preact.createElement("tr", { role: "row" },
props.axis && (preact.createElement("td", { "aria-hidden": true, className: "fc-timegrid-col fc-timegrid-axis" },
preact.createElement("div", { className: "fc-timegrid-col-frame" },
preact.createElement("div", { className: "fc-timegrid-now-indicator-container" }, typeof nowIndicatorTop === 'number' && (preact.createElement(internal$1.NowIndicatorContainer, { elClasses: ['fc-timegrid-now-indicator-arrow'], elStyle: { top: nowIndicatorTop }, isAxis: true, date: props.nowDate })))))),
props.cells.map((cell, i) => (preact.createElement(TimeCol, { key: cell.key, elRef: this.cellElRefs.createRef(cell.key), dateProfile: props.dateProfile, date: cell.date, nowDate: props.nowDate, todayRange: props.todayRange, extraRenderProps: cell.extraRenderProps, extraDataAttrs: cell.extraDataAttrs, extraClassNames: cell.extraClassNames, extraDateSpan: cell.extraDateSpan, fgEventSegs: fgEventSegsByRow[i], bgEventSegs: bgEventSegsByRow[i], businessHourSegs: businessHourSegsByRow[i], nowIndicatorSegs: nowIndicatorSegsByRow[i], dateSelectionSegs: dateSelectionSegsByRow[i], eventDrag: eventDragByRow[i], eventResize: eventResizeByRow[i], slatCoords: props.slatCoords, eventSelection: props.eventSelection, forPrint: props.forPrint }))))))));
}
componentDidMount() {
this.updateCoords();
}
componentDidUpdate() {
this.updateCoords();
}
updateCoords() {
let { props } = this;
if (props.onColCoords &&
props.clientWidth !== null // means sizing has stabilized
) {
props.onColCoords(new internal$1.PositionCache(this.rootElRef.current, collectCellEls(this.cellElRefs.currentMap, props.cells), true, // horizontal
false));
}
}
}
function collectCellEls(elMap, cells) {
return cells.map((cell) => elMap[cell.key]);
}
/* A component that renders one or more columns of vertical time slots
----------------------------------------------------------------------------------------------------------------------*/
class TimeCols extends internal$1.DateComponent {
constructor() {
super(...arguments);
this.processSlotOptions = internal$1.memoize(processSlotOptions);
this.state = {
slatCoords: null,
};
this.handleRootEl = (el) => {
if (el) {
this.context.registerInteractiveComponent(this, {
el,
isHitComboAllowed: this.props.isHitComboAllowed,
});
}
else {
this.context.unregisterInteractiveComponent(this);
}
};
this.handleScrollRequest = (request) => {
let { onScrollTopRequest } = this.props;
let { slatCoords } = this.state;
if (onScrollTopRequest && slatCoords) {
if (request.time) {
let top = slatCoords.computeTimeTop(request.time);
top = Math.ceil(top); // zoom can give weird floating-point values. rather scroll a little bit further
if (top) {
top += 1; // to overcome top border that slots beyond the first have. looks better
}
onScrollTopRequest(top);
}
return true;
}
return false;
};
this.handleColCoords = (colCoords) => {
this.colCoords = colCoords;
};
this.handleSlatCoords = (slatCoords) => {
this.setState({ slatCoords });
if (this.props.onSlatCoords) {
this.props.onSlatCoords(slatCoords);
}
};
}
render() {
let { props, state } = this;
return (preact.createElement("div", { className: "fc-timegrid-body", ref: this.handleRootEl, style: {
// these props are important to give this wrapper correct dimensions for interactions
// TODO: if we set it here, can we avoid giving to inner tables?
width: props.clientWidth,
minWidth: props.tableMinWidth,
} },
preact.createElement(TimeColsSlats, { axis: props.axis, dateProfile: props.dateProfile, slatMetas: props.slatMetas, clientWidth: props.clientWidth, minHeight: props.expandRows ? props.clientHeight : '', tableMinWidth: props.tableMinWidth, tableColGroupNode: props.axis ? props.tableColGroupNode : null /* axis depends on the colgroup's shrinking */, onCoords: this.handleSlatCoords }),
preact.createElement(TimeColsContent, { cells: props.cells, axis: props.axis, dateProfile: props.dateProfile, businessHourSegs: props.businessHourSegs, bgEventSegs: props.bgEventSegs, fgEventSegs: props.fgEventSegs, dateSelectionSegs: props.dateSelectionSegs, eventSelection: props.eventSelection, eventDrag: props.eventDrag, eventResize: props.eventResize, todayRange: props.todayRange, nowDate: props.nowDate, nowIndicatorSegs: props.nowIndicatorSegs, clientWidth: props.clientWidth, tableMinWidth: props.tableMinWidth, tableColGroupNode: props.tableColGroupNode, slatCoords: state.slatCoords, onColCoords: this.handleColCoords, forPrint: props.forPrint })));
}
componentDidMount() {
this.scrollResponder = this.context.createScrollResponder(this.handleScrollRequest);
}
componentDidUpdate(prevProps) {
this.scrollResponder.update(prevProps.dateProfile !== this.props.dateProfile);
}
componentWillUnmount() {
this.scrollResponder.detach();
}
queryHit(positionLeft, positionTop) {
let { dateEnv, options } = this.context;
let { colCoords } = this;
let { dateProfile } = this.props;
let { slatCoords } = this.state;
let { snapDuration, snapsPerSlot } = this.processSlotOptions(this.props.slotDuration, options.snapDuration);
let colIndex = colCoords.leftToIndex(positionLeft);
let slatIndex = slatCoords.positions.topToIndex(positionTop);
if (colIndex != null && slatIndex != null) {
let cell = this.props.cells[colIndex];
let slatTop = slatCoords.positions.tops[slatIndex];
let slatHeight = slatCoords.positions.getHeight(slatIndex);
let partial = (positionTop - slatTop) / slatHeight; // floating point number between 0 and 1
let localSnapIndex = Math.floor(partial * snapsPerSlot); // the snap # relative to start of slat
let snapIndex = slatIndex * snapsPerSlot + localSnapIndex;
let dayDate = this.props.cells[colIndex].date;
let time = internal$1.addDurations(dateProfile.slotMinTime, internal$1.multiplyDuration(snapDuration, snapIndex));
let start = dateEnv.add(dayDate, time);
let end = dateEnv.add(start, snapDuration);
return {
dateProfile,
dateSpan: Object.assign({ range: { start, end }, allDay: false }, cell.extraDateSpan),
dayEl: colCoords.els[colIndex],
rect: {
left: colCoords.lefts[colIndex],
right: colCoords.rights[colIndex],
top: slatTop,
bottom: slatTop + slatHeight,
},
layer: 0,
};
}
return null;
}
}
function processSlotOptions(slotDuration, snapDurationOverride) {
let snapDuration = snapDurationOverride || slotDuration;
let snapsPerSlot = internal$1.wholeDivideDurations(slotDuration, snapDuration);
if (snapsPerSlot === null) {
snapDuration = slotDuration;
snapsPerSlot = 1;
// TODO: say warning?
}
return { snapDuration, snapsPerSlot };
}
class DayTimeColsSlicer extends internal$1.Slicer {
sliceRange(range, dayRanges) {
let segs = [];
for (let col = 0; col < dayRanges.length; col += 1) {
let segRange = internal$1.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,
});
}
}
return segs;
}
}
class DayTimeCols extends internal$1.DateComponent {
constructor() {
super(...arguments);
this.buildDayRanges = internal$1.memoize(buildDayRanges);
this.slicer = new DayTimeColsSlicer();
this.timeColsRef = preact.createRef();
}
render() {
let { props, context } = this;
let { dateProfile, dayTableModel } = props;
let { nowIndicator, nextDayThreshold } = context.options;
let dayRanges = this.buildDayRanges(dayTableModel, dateProfile, context.dateEnv);
// give it the first row of cells
// TODO: would move this further down hierarchy, but sliceNowDate needs it
return (preact.createElement(internal$1.NowTimer, { unit: nowIndicator ? 'minute' : 'day' }, (nowDate, todayRange) => (preact.createElement(TimeCols, Object.assign({ ref: this.timeColsRef }, this.slicer.sliceProps(props, dateProfile, null, context, dayRanges), { forPrint: props.forPrint, axis: props.axis, dateProfile: dateProfile, slatMetas: props.slatMetas, slotDuration: props.slotDuration, cells: dayTableModel.cells[0], tableColGroupNode: props.tableColGroupNode, tableMinWidth: props.tableMinWidth, clientWidth: props.clientWidth, clientHeight: props.clientHeight, expandRows: props.expandRows, nowDate: nowDate, nowIndicatorSegs: nowIndicator && this.slicer.sliceNowDate(nowDate, dateProfile, nextDayThreshold, context, dayRanges), todayRange: todayRange, onScrollTopRequest: props.onScrollTopRequest, onSlatCoords: props.onSlatCoords })))));
}
}
function buildDayRanges(dayTableModel, dateProfile, dateEnv) {
let ranges = [];
for (let date of dayTableModel.headerDates) {
ranges.push({
start: dateEnv.add(date, dateProfile.slotMinTime),
end: dateEnv.add(date, dateProfile.slotMaxTime),
});
}
return ranges;
}
// potential nice values for the slot-duration and interval-duration
// from largest to smallest
const STOCK_SUB_DURATIONS = [
{ hours: 1 },
{ minutes: 30 },
{ minutes: 15 },
{ seconds: 30 },
{ seconds: 15 },
];
function buildSlatMetas(slotMinTime, slotMaxTime, explicitLabelInterval, slotDuration, dateEnv) {
let dayStart = new Date(0);
let slatTime = slotMinTime;
let slatIterator = internal$1.createDuration(0);
let labelInterval = explicitLabelInterval || computeLabelInterval(slotDuration);
let metas = [];
while (internal$1.asRoughMs(slatTime) < internal$1.asRoughMs(slotMaxTime)) {
let date = dateEnv.add(dayStart, slatTime);
let isLabeled = internal$1.wholeDivideDurations(slatIterator, labelInterval) !== null;
metas.push({
date,
time: slatTime,
key: date.toISOString(),
isoTimeStr: internal$1.formatIsoTimeString(date),
isLabeled,
});
slatTime = internal$1.addDurations(slatTime, slotDuration);
slatIterator = internal$1.addDurations(slatIterator, slotDuration);
}
return metas;
}
// Computes an automatic value for slotLabelInterval
function computeLabelInterval(slotDuration) {
let i;
let labelInterval;
let slotsPerLabel;
// find the smallest stock label interval that results in more than one slots-per-label
for (i = STOCK_SUB_DURATIONS.length - 1; i >= 0; i -= 1) {
labelInterval = internal$1.createDuration(STOCK_SUB_DURATIONS[i]);
slotsPerLabel = internal$1.wholeDivideDurations(labelInterval, slotDuration);
if (slotsPerLabel !== null && slotsPerLabel > 1) {
return labelInterval;
}
}
return slotDuration; // fall back
}
class DayTimeColsView extends TimeColsView {
constructor() {
super(...arguments);
this.buildTimeColsModel = internal$1.memoize(buildTimeColsModel);
this.buildSlatMetas = internal$1.memoize(buildSlatMetas);
}
render() {
let { options, dateEnv, dateProfileGenerator } = this.context;
let { props } = this;
let { dateProfile } = props;
let dayTableModel = this.buildTimeColsModel(dateProfile, dateProfileGenerator);
let splitProps = this.allDaySplitter.splitProps(props);
let slatMetas = this.buildSlatMetas(dateProfile.slotMinTime, dateProfile.slotMaxTime, options.slotLabelInterval, options.slotDuration, dateEnv);
let { dayMinWidth } = options;
let hasAttachedAxis = !dayMinWidth;
let hasDetachedAxis = dayMinWidth;
let headerContent = options.dayHeaders && (preact.createElement(internal$1.DayHeader, { dates: dayTableModel.headerDates, dateProfile: dateProfile, datesRepDistinctDays: true, renderIntro: hasAttachedAxis ? this.renderHeadAxis : null }));
let allDayContent = (options.allDaySlot !== false) && ((contentArg) => (preact.createElement(internal$2.DayTable, Object.assign({}, splitProps.allDay, { dateProfile: dateProfile, dayTableModel: dayTableModel, nextDayThreshold: options.nextDayThreshold, tableMinWidth: contentArg.tableMinWidth, colGroupNode: contentArg.tableColGroupNode, renderRowIntro: hasAttachedAxis ? this.renderTableRowAxis : null, showWeekNumbers: false, expandRows: false, headerAlignElRef: this.headerElRef, clientWidth: contentArg.clientWidth, clientHeight: contentArg.clientHeight, forPrint: props.forPrint }, this.getAllDayMaxEventProps()))));
let timeGridContent = (contentArg) => (preact.createElement(DayTimeCols, Object.assign({}, splitProps.timed, { dayTableModel: dayTableModel, dateProfile: dateProfile, axis: hasAttachedAxis, slotDuration: options.slotDuration, slatMetas: slatMetas, forPrint: props.forPrint, tableColGroupNode: contentArg.tableColGroupNode, tableMinWidth: contentArg.tableMinWidth, clientWidth: contentArg.clientWidth, clientHeight: contentArg.clientHeight, onSlatCoords: this.handleSlatCoords, expandRows: contentArg.expandRows, onScrollTopRequest: this.handleScrollTopRequest })));
return hasDetachedAxis
? this.renderHScrollLayout(headerContent, allDayContent, timeGridContent, dayTableModel.colCnt, dayMinWidth, slatMetas, this.state.slatCoords)
: this.renderSimpleLayout(headerContent, allDayContent, timeGridContent);
}
}
function buildTimeColsModel(dateProfile, dateProfileGenerator) {
let daySeries = new internal$1.DaySeriesModel(dateProfile.renderRange, dateProfileGenerator);
return new internal$1.DayTableModel(daySeries, false);
}
const OPTION_REFINERS = {
allDaySlot: Boolean,
};
var css_248z = ".fc-v-event{background-color:var(--fc-event-bg-color);border:1px solid var(--fc-event-border-color);display:block}.fc-v-event .fc-event-main{color:var(--fc-event-text-color);height:100%}.fc-v-event .fc-event-main-frame{display:flex;flex-direction:column;height:100%}.fc-v-event .fc-event-time{flex-grow:0;flex-shrink:0;max-height:100%;overflow:hidden}.fc-v-event .fc-event-title-container{flex-grow:1;flex-shrink:1;min-height:0}.fc-v-event .fc-event-title{bottom:0;max-height:100%;overflow:hidden;top:0}.fc-v-event:not(.fc-event-start){border-top-left-radius:0;border-top-right-radius:0;border-top-width:0}.fc-v-event:not(.fc-event-end){border-bottom-left-radius:0;border-bottom-right-radius:0;border-bottom-width:0}.fc-v-event.fc-event-selected:before{left:-10px;right:-10px}.fc-v-event .fc-event-resizer-start{cursor:n-resize}.fc-v-event .fc-event-resizer-end{cursor:s-resize}.fc-v-event:not(.fc-event-selected) .fc-event-resizer{height:var(--fc-event-resizer-thickness);left:0;right:0}.fc-v-event:not(.fc-event-selected) .fc-event-resizer-start{top:calc(var(--fc-event-resizer-thickness)/-2)}.fc-v-event:not(.fc-event-selected) .fc-event-resizer-end{bottom:calc(var(--fc-event-resizer-thickness)/-2)}.fc-v-event.fc-event-selected .fc-event-resizer{left:50%;margin-left:calc(var(--fc-event-resizer-dot-total-width)/-2)}.fc-v-event.fc-event-selected .fc-event-resizer-start{top:calc(var(--fc-event-resizer-dot-total-width)/-2)}.fc-v-event.fc-event-selected .fc-event-resizer-end{bottom:calc(var(--fc-event-resizer-dot-total-width)/-2)}.fc .fc-timegrid .fc-daygrid-body{z-index:2}.fc .fc-timegrid-divider{padding:0 0 2px}.fc .fc-timegrid-body{min-height:100%;position:relative;z-index:1}.fc .fc-timegrid-axis-chunk{position:relative}.fc .fc-timegrid-axis-chunk>table,.fc .fc-timegrid-slots{position:relative;z-index:1}.fc .fc-timegrid-slot{border-bottom:0;height:1.5em}.fc .fc-timegrid-slot:empty:before{content:\"\\00a0\"}.fc .fc-timegrid-slot-minor{border-top-style:dotted}.fc .fc-timegrid-slot-label-cushion{display:inline-block;white-space:nowrap}.fc .fc-timegrid-slot-label{vertical-align:middle}.fc .fc-timegrid-axis-cushion,.fc .fc-timegrid-slot-label-cushion{padding:0 4px}.fc .fc-timegrid-axis-frame-liquid{height:100%}.fc .fc-timegrid-axis-frame{align-items:center;display:flex;justify-content:flex-end;overflow:hidden}.fc .fc-timegrid-axis-cushion{flex-shrink:0;max-width:60px}.fc-direction-ltr .fc-timegrid-slot-label-frame{text-align:right}.fc-direction-rtl .fc-timegrid-slot-label-frame{text-align:left}.fc-liquid-hack .fc-timegrid-axis-frame-liquid{bottom:0;height:auto;left:0;position:absolute;right:0;top:0}.fc .fc-timegrid-col.fc-day-today{background-color:var(--fc-today-bg-color)}.fc .fc-timegrid-col-frame{min-height:100%;position:relative}.fc-media-screen.fc-liquid-hack .fc-timegrid-col-frame{bottom:0;height:auto;left:0;position:absolute;right:0;top:0}.fc-media-screen .fc-timegrid-cols{bottom:0;left:0;position:absolute;right:0;top:0}.fc-media-screen .fc-timegrid-cols>table{height:100%}.fc-media-screen .fc-timegrid-col-bg,.fc-media-screen .fc-timegrid-col-events,.fc-media-screen .fc-timegrid-now-indicator-container{left:0;position:absolute;right:0;top:0}.fc .fc-timegrid-col-bg{z-index:2}.fc .fc-timegrid-col-bg .fc-non-business{z-index:1}.fc .fc-timegrid-col-bg .fc-bg-event{z-index:2}.fc .fc-timegrid-col-bg .fc-highlight{z-index:3}.fc .fc-timegrid-bg-harness{left:0;position:absolute;right:0}.fc .fc-timegrid-col-events{z-index:3}.fc .fc-timegrid-now-indicator-container{bottom:0;overflow:hidden}.fc-direction-ltr .fc-timegrid-col-events{margin:0 2.5% 0 2px}.fc-direction-rtl .fc-timegrid-col-events{margin:0 2px 0 2.5%}.fc-timegrid-event-harness{position:absolute}.fc-timegrid-event-harness>.fc-timegrid-event{bottom:0;left:0;position:absolute;right:0;top:0}.fc-timegrid-event-harness-inset .fc-timegrid-event,.fc-timegrid-event.fc-event-mirror,.fc-timegrid-more-link{box-shadow:0 0 0 1px var(--fc-page-bg-color)}.fc-timegrid-event,.fc-timegrid-more-link{border-radius:3px;font-size:var(--fc-small-font-size)}.fc-timegrid-event{margin-bottom:1px}.fc-timegrid-event .fc-event-main{padding:1px 1px 0}.fc-timegrid-event .fc-event-time{font-size:var(--fc-small-font-size);margin-bottom:1px;white-space:nowrap}.fc-timegrid-event-short .fc-event-main-frame{flex-direction:row;overflow:hidden}.fc-timegrid-event-short .fc-event-time:after{content:\"\\00a0-\\00a0\"}.fc-timegrid-event-short .fc-event-title{font-size:var(--fc-small-font-size)}.fc-timegrid-more-link{background:var(--fc-more-link-bg-color);color:var(--fc-more-link-text-color);cursor:pointer;margin-bottom:1px;position:absolute;z-index:9999}.fc-timegrid-more-link-inner{padding:3px 2px;top:0}.fc-direction-ltr .fc-timegrid-more-link{right:0}.fc-direction-rtl .fc-timegrid-more-link{left:0}.fc .fc-timegrid-now-indicator-line{border-color:var(--fc-now-indicator-color);border-style:solid;border-width:1px 0 0;left:0;position:absolute;right:0;z-index:4}.fc .fc-timegrid-now-indicator-arrow{border-color:var(--fc-now-indicator-color);border-style:solid;margin-top:-5px;position:absolute;z-index:4}.fc-direction-ltr .fc-timegrid-now-indicator-arrow{border-bottom-color:transparent;border-top-color:transparent;border-width:5px 0 5px 6px;left:0}.fc-direction-rtl .fc-timegrid-now-indicator-arrow{border-bottom-color:transparent;border-top-color:transparent;border-width:5px 6px 5px 0;right:0}";
internal$1.injectStyles(css_248z);
var plugin = core.createPlugin({
name: '@fullcalendar/timegrid',
initialView: 'timeGridWeek',
optionRefiners: OPTION_REFINERS,
views: {
timeGrid: {
component: DayTimeColsView,
usesMinMaxTime: true,
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 },
},
},
});
var internal = {
__proto__: null,
TimeColsView: TimeColsView,
DayTimeColsView: DayTimeColsView,
buildTimeColsModel: buildTimeColsModel,
DayTimeCols: DayTimeCols,
buildDayRanges: buildDayRanges,
DayTimeColsSlicer: DayTimeColsSlicer,
TimeCols: TimeCols,
buildSlatMetas: buildSlatMetas,
TimeColsSlatsCoords: TimeColsSlatsCoords
};
core.globalPlugins.push(plugin);
exports.Internal = internal;
exports["default"] = plugin;
Object.defineProperty(exports, '__esModule', { value: true });
return exports;
})({}, FullCalendar, FullCalendar.Internal, FullCalendar.Preact, FullCalendar.DayGrid.Internal);