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Implements advanced event stacking and grid layout

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Introduces a 3-phase algorithm in `EventStackManager` for dynamic event positioning. Groups events by start time proximity to determine optimal layout.

Optimizes horizontal space by using side-by-side grid columns for simultaneous events and allowing non-overlapping events to share stack levels. Supports nested stacking for late-arriving events within grid columns.

Includes comprehensive documentation (`STACKING_CONCEPT.md`) and a visual demonstration (`stacking-visualization.html`) to explain the new layout logic. Updates event rendering to utilize the new manager and adds extensive test coverage.
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Janus C. H. Knudsen 2025-10-05 23:54:50 +02:00
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STACKING_CONCEPT.md Normal file
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# Event Stacking Concept
**Calendar Plantempus - Visual Event Overlap Management**
---
## Overview
**Event Stacking** is a visual technique for displaying overlapping calendar events by offsetting them horizontally with a cascading effect. This creates a clear visual hierarchy showing which events overlap in time.
---
## Visual Concept
### Basic Stacking
When multiple events overlap in time, they are "stacked" with increasing left margin:
```
Timeline:
08:00 ─────────────────────────────────
09:00 │ Event A starts
│ ┌─────────────────────┐
│ │ Meeting A │
10:00 │ │ │
│ │ Event B starts │
│ │ ┌─────────────────────┐
11:00 │ │ │ Meeting B │
│ └──│─────────────────────┘
│ │ │
12:00 │ │ Event C starts │
│ │ ┌─────────────────────┐
│ └──│─────────────────────┘
13:00 │ │ Meeting C │
│ └─────────────────────┘
14:00 ─────────────────────────────────
Visual Result (stacked view):
┌─────────────────────┐
│ Meeting A │
│ ┌─────────────────────┐
│ │ Meeting B │
└─│─────────────────────┘
│ ┌─────────────────────┐
│ │ Meeting C │
└─│─────────────────────┘
└─────────────────────┘
```
Each subsequent event is offset by **15px** to the right.
---
## Stack Link Data Structure
Stack links create a **doubly-linked list** stored directly in DOM elements as data attributes.
### Interface Definition
```typescript
interface StackLink {
prev?: string; // Event ID of previous event in stack
next?: string; // Event ID of next event in stack
stackLevel: number; // Position in stack (0 = base, 1 = first offset, etc.)
}
```
### Storage in DOM
Stack links are stored as JSON in the `data-stack-link` attribute:
```html
<swp-event
data-event-id="event-1"
data-stack-link='{"stackLevel":0,"next":"event-2"}'>
</swp-event>
<swp-event
data-event-id="event-2"
data-stack-link='{"stackLevel":1,"prev":"event-1","next":"event-3"}'>
</swp-event>
<swp-event
data-event-id="event-3"
data-stack-link='{"stackLevel":2,"prev":"event-2"}'>
</swp-event>
```
### Benefits of DOM Storage
**State follows the element** - No external state management needed
**Survives drag & drop** - Links persist through DOM manipulations
**Easy to query** - Can traverse chain using DOM queries
**Self-contained** - Each element knows its position in the stack
---
## Overlap Detection
Events overlap when their time ranges intersect.
### Time-Based Overlap Algorithm
```typescript
function doEventsOverlap(eventA: CalendarEvent, eventB: CalendarEvent): boolean {
// Two events overlap if:
// - Event A starts before Event B ends AND
// - Event A ends after Event B starts
return eventA.start < eventB.end && eventA.end > eventB.start;
}
```
### Example Cases
**Case 1: Events Overlap**
```
Event A: 09:00 ──────── 11:00
Event B: 10:00 ──────── 12:00
Result: OVERLAP (10:00 to 11:00)
```
**Case 2: No Overlap**
```
Event A: 09:00 ──── 10:00
Event B: 11:00 ──── 12:00
Result: NO OVERLAP
```
**Case 3: Complete Containment**
```
Event A: 09:00 ──────────────── 13:00
Event B: 10:00 ─── 11:00
Result: OVERLAP (Event B fully inside Event A)
```
---
## Visual Styling
### CSS Calculations
```typescript
const STACK_OFFSET_PX = 15;
// For each event in stack:
marginLeft = stackLevel * STACK_OFFSET_PX;
zIndex = 100 + stackLevel;
```
### Example with 3 Stacked Events
```typescript
Event A (stackLevel: 0):
marginLeft = 0 * 15 = 0px
zIndex = 100 + 0 = 100
Event B (stackLevel: 1):
marginLeft = 1 * 15 = 15px
zIndex = 100 + 1 = 101
Event C (stackLevel: 2):
marginLeft = 2 * 15 = 30px
zIndex = 100 + 2 = 102
```
Result: Event C appears on top, Event A at the base.
---
## Optimized Stacking (Smart Stacking)
### The Problem: Naive Stacking vs Optimized Stacking
**Naive Approach:** Simply stack all overlapping events sequentially.
```
Event A: 09:00 ════════════════════════════ 14:00
Event B: 10:00 ═════ 12:00
Event C: 12:30 ═══ 13:00
Naive Result:
Event A: stackLevel 0
Event B: stackLevel 1
Event C: stackLevel 2 ← INEFFICIENT! C doesn't overlap B
```
**Optimized Approach:** Events that don't overlap each other can share the same stack level.
```
Event A: 09:00 ════════════════════════════ 14:00
Event B: 10:00 ═════ 12:00
Event C: 12:30 ═══ 13:00
Optimized Result:
Event A: stackLevel 0
Event B: stackLevel 1 ← Both at level 1
Event C: stackLevel 1 ← because they don't overlap!
```
### Visual Comparison: The Key Insight
**Example Timeline:**
```
Timeline:
09:00 ─────────────────────────────────
│ Event A starts
│ ┌─────────────────────────────┐
10:00 │ │ Event A │
│ │ │
│ │ Event B starts │
│ │ ╔═══════════════╗ │
11:00 │ │ ║ Event B ║ │
│ │ ║ ║ │
12:00 │ │ ╚═══════════════╝ │
│ │ │
│ │ Event C starts │
│ │ ╔═══════════╗ │
13:00 │ │ ║ Event C ║ │
│ └───────╚═══════════╝─────────┘
14:00 ─────────────────────────────────
Key Observation:
• Event B (10:00-12:00) and Event C (12:30-13:00) do NOT overlap!
• They are separated by 30 minutes (12:00 to 12:30)
• Both overlap with Event A, but not with each other
```
**Naive Stacking (Wasteful):**
```
Visual Result (Naive - Inefficient):
┌─────────────────────────────────────────────────┐
│ Event A │
│ ┌─────────────────────┐ │
│ │ Event B │ │
│ │ ┌─────────────────────┐ │
│ └─│─────────────────────┘ │
│ │ Event C │ │
│ └─────────────────────┘ │
└─────────────────────────────────────────────────┘
0px 15px 30px
└──┴────┘
Wasted space!
Stack Levels:
• Event A: stackLevel 0 (marginLeft: 0px)
• Event B: stackLevel 1 (marginLeft: 15px)
• Event C: stackLevel 2 (marginLeft: 30px) ← UNNECESSARY!
Problem: Event C is pushed 30px to the right even though
it doesn't conflict with Event B!
```
**Optimized Stacking (Efficient):**
```
Visual Result (Optimized - Efficient):
┌─────────────────────────────────────────────────┐
│ Event A │
│ ┌─────────────────────┐ ┌─────────────────────┐│
│ │ Event B │ │ Event C ││
│ └─────────────────────┘ └─────────────────────┘│
└─────────────────────────────────────────────────┘
0px 15px 15px
└────────────────────┘
Same offset for both!
Stack Levels:
• Event A: stackLevel 0 (marginLeft: 0px)
• Event B: stackLevel 1 (marginLeft: 15px)
• Event C: stackLevel 1 (marginLeft: 15px) ← OPTIMIZED!
Benefit: Event C reuses stackLevel 1 because Event B
has already ended when Event C starts.
No visual conflict, saves 15px of horizontal space!
```
**Side-by-Side Comparison:**
```
Naive (3 levels): Optimized (2 levels):
A A
├─ B ├─ B
│ └─ C └─ C
Uses 45px width Uses 30px width
(0 + 15 + 30) (0 + 15 + 15)
33% space savings! →
```
### Algorithm: Greedy Stack Level Assignment
The optimized stacking algorithm assigns the lowest available stack level to each event:
```typescript
function createOptimizedStackLinks(events: CalendarEvent[]): Map<string, StackLink> {
// Step 1: Sort events by start time
const sorted = events.sort((a, b) => a.start - b.start)
// Step 2: Track which stack levels are occupied at each time point
const stackLinks = new Map<string, StackLink>()
for (const event of sorted) {
// Find the lowest available stack level for this event
let stackLevel = 0
// Check which levels are occupied by overlapping events
const overlapping = sorted.filter(other =>
other !== event && doEventsOverlap(event, other)
)
// Try each level starting from 0
while (true) {
const levelOccupied = overlapping.some(other =>
stackLinks.get(other.id)?.stackLevel === stackLevel
)
if (!levelOccupied) {
break // Found available level
}
stackLevel++ // Try next level
}
// Assign the lowest available level
stackLinks.set(event.id, { stackLevel })
}
return stackLinks
}
```
### Example Scenarios
#### Scenario 1: Three Events, Two Parallel Tracks
```
Input:
Event A: 09:00-14:00 (long event)
Event B: 10:00-12:00
Event C: 12:30-13:00
Analysis:
A overlaps with: B, C
B overlaps with: A (not C)
C overlaps with: A (not B)
Result:
Event A: stackLevel 0 (base)
Event B: stackLevel 1 (first available)
Event C: stackLevel 1 (level 1 is free, B doesn't conflict)
```
#### Scenario 2: Four Events, Three at Same Level
```
Input:
Event A: 09:00-15:00 (very long event)
Event B: 10:00-11:00
Event C: 11:30-12:30
Event D: 13:00-14:00
Analysis:
A overlaps with: B, C, D
B, C, D don't overlap with each other
Result:
Event A: stackLevel 0
Event B: stackLevel 1
Event C: stackLevel 1 (B is done, level 1 free)
Event D: stackLevel 1 (B and C are done, level 1 free)
```
#### Scenario 3: Nested Events with Optimization
```
Input:
Event A: 09:00-15:00
Event B: 10:00-13:00
Event C: 11:00-12:00
Event D: 12:30-13:30
Analysis:
A overlaps with: B, C, D
B overlaps with: A, C (not D)
C overlaps with: A, B (not D)
D overlaps with: A (not B, not C)
Result:
Event A: stackLevel 0 (base)
Event B: stackLevel 1 (overlaps with A)
Event C: stackLevel 2 (overlaps with A and B)
Event D: stackLevel 2 (overlaps with A only, level 2 is free)
```
### Stack Links with Optimization
**Important:** With optimized stacking, events at the same stack level are NOT linked via prev/next!
```typescript
// Traditional chain (naive):
Event A: { stackLevel: 0, next: "event-b" }
Event B: { stackLevel: 1, prev: "event-a", next: "event-c" }
Event C: { stackLevel: 2, prev: "event-b" }
// Optimized (B and C at same level, no link between them):
Event A: { stackLevel: 0 }
Event B: { stackLevel: 1 } // No prev/next
Event C: { stackLevel: 1 } // No prev/next
```
### Benefits of Optimized Stacking
**Space Efficiency:** Reduces horizontal space usage by up to 50%
**Better Readability:** Events are visually closer, easier to see relationships
**Scalability:** Works well with many events in a day
**Performance:** Same O(n²) complexity as naive approach
### Trade-offs
⚠️ **No Single Chain:** Events at the same level aren't linked, making traversal more complex
⚠️ **More Complex Logic:** Requires checking all overlaps, not just sequential ordering
⚠️ **Visual Ambiguity:** Users might wonder why some events are at the same level
## Stack Chain Operations
### Building a Stack Chain (Naive Approach)
When events overlap, they form a chain sorted by start time:
```typescript
// Input: Events with overlapping times
Event A: 09:00-11:00
Event B: 10:00-12:00
Event C: 11:30-13:00
// Step 1: Sort by start time (earliest first)
Sorted: [Event A, Event B, Event C]
// Step 2: Create links
Event A: { stackLevel: 0, next: "event-b" }
Event B: { stackLevel: 1, prev: "event-a", next: "event-c" }
Event C: { stackLevel: 2, prev: "event-b" }
```
### Traversing Forward
```typescript
// Start at any event
currentEvent = Event B;
// Get stack link
stackLink = currentEvent.dataset.stackLink; // { prev: "event-a", next: "event-c" }
// Move to next event
nextEventId = stackLink.next; // "event-c"
nextEvent = document.querySelector(`[data-event-id="${nextEventId}"]`);
```
### Traversing Backward
```typescript
// Start at any event
currentEvent = Event B;
// Get stack link
stackLink = currentEvent.dataset.stackLink; // { prev: "event-a", next: "event-c" }
// Move to previous event
prevEventId = stackLink.prev; // "event-a"
prevEvent = document.querySelector(`[data-event-id="${prevEventId}"]`);
```
### Finding Stack Root
```typescript
function findStackRoot(event: HTMLElement): HTMLElement {
let current = event;
let stackLink = getStackLink(current);
// Traverse backward until we find an event with no prev link
while (stackLink?.prev) {
const prevEvent = document.querySelector(
`[data-event-id="${stackLink.prev}"]`
);
if (!prevEvent) break;
current = prevEvent;
stackLink = getStackLink(current);
}
return current; // This is the root (stackLevel 0)
}
```
---
## Use Cases
### 1. Adding a New Event to Existing Stack
```
Existing Stack:
Event A (09:00-11:00) - stackLevel 0
Event B (10:00-12:00) - stackLevel 1
New Event:
Event C (10:30-11:30)
Steps:
1. Detect overlap with Event A and Event B
2. Sort all three by start time: [A, B, C]
3. Rebuild stack links:
- Event A: { stackLevel: 0, next: "event-b" }
- Event B: { stackLevel: 1, prev: "event-a", next: "event-c" }
- Event C: { stackLevel: 2, prev: "event-b" }
4. Apply visual styling
```
### 2. Removing Event from Middle of Stack
```
Before:
Event A (stackLevel 0) ─→ Event B (stackLevel 1) ─→ Event C (stackLevel 2)
Remove Event B:
After:
Event A (stackLevel 0) ─→ Event C (stackLevel 1)
Steps:
1. Get Event B's stack link: { prev: "event-a", next: "event-c" }
2. Update Event A's next: "event-c"
3. Update Event C's prev: "event-a"
4. Update Event C's stackLevel: 1 (was 2)
5. Recalculate Event C's marginLeft: 15px (was 30px)
6. Remove Event B's stack link
```
### 3. Moving Event to Different Time
```
Before (events overlap):
Event A (09:00-11:00) - stackLevel 0
Event B (10:00-12:00) - stackLevel 1
Move Event B to 14:00-16:00 (no longer overlaps):
After:
Event A (09:00-11:00) - NO STACK LINK (standalone)
Event B (14:00-16:00) - NO STACK LINK (standalone)
Steps:
1. Detect that Event B no longer overlaps Event A
2. Remove Event B from stack chain
3. Clear Event A's next link
4. Clear Event B's stack link entirely
5. Reset both events' marginLeft to 0px
```
---
## Edge Cases
### Case 1: Single Event (No Overlap)
```
Event A: 09:00-10:00 (alone in time slot)
Stack Link: NONE (no data-stack-link attribute)
Visual: marginLeft = 0px, zIndex = default
```
### Case 2: Two Events, Same Start Time
```
Event A: 10:00-11:00
Event B: 10:00-12:00 (same start, different end)
Sort by: start time first, then by end time (shortest first)
Result: Event A (stackLevel 0), Event B (stackLevel 1)
```
### Case 3: Multiple Separate Chains in Same Column
```
Chain 1:
Event A (09:00-10:00) - stackLevel 0
Event B (09:30-10:30) - stackLevel 1
Chain 2:
Event C (14:00-15:00) - stackLevel 0
Event D (14:30-15:30) - stackLevel 1
Note: Two independent chains, each with their own root at stackLevel 0
```
### Case 4: Complete Containment
```
Event A: 09:00-13:00 (large event)
Event B: 10:00-11:00 (inside A)
Event C: 11:30-12:30 (inside A)
All three overlap, so they form one chain:
Event A - stackLevel 0
Event B - stackLevel 1
Event C - stackLevel 2
```
---
## Algorithm Pseudocode
### Creating Stack for New Event
```
function createStackForNewEvent(newEvent, columnEvents):
// Step 1: Find overlapping events
overlapping = columnEvents.filter(event =>
doEventsOverlap(newEvent, event)
)
if overlapping is empty:
// No stack needed
return null
// Step 2: Combine and sort by start time
allEvents = [...overlapping, newEvent]
allEvents.sort((a, b) => a.start - b.start)
// Step 3: Create stack links
stackLinks = new Map()
for (i = 0; i < allEvents.length; i++):
link = {
stackLevel: i,
prev: i > 0 ? allEvents[i-1].id : undefined,
next: i < allEvents.length-1 ? allEvents[i+1].id : undefined
}
stackLinks.set(allEvents[i].id, link)
// Step 4: Apply to DOM
for each event in allEvents:
element = findElementById(event.id)
element.dataset.stackLink = JSON.stringify(stackLinks.get(event.id))
element.style.marginLeft = stackLinks.get(event.id).stackLevel * 15 + 'px'
element.style.zIndex = 100 + stackLinks.get(event.id).stackLevel
return stackLinks
```
### Removing Event from Stack
```
function removeEventFromStack(eventId):
element = findElementById(eventId)
stackLink = JSON.parse(element.dataset.stackLink)
if not stackLink:
return // Not in a stack
// Update previous element
if stackLink.prev:
prevElement = findElementById(stackLink.prev)
prevLink = JSON.parse(prevElement.dataset.stackLink)
prevLink.next = stackLink.next
prevElement.dataset.stackLink = JSON.stringify(prevLink)
// Update next element
if stackLink.next:
nextElement = findElementById(stackLink.next)
nextLink = JSON.parse(nextElement.dataset.stackLink)
nextLink.prev = stackLink.prev
// Shift down stack level
nextLink.stackLevel = nextLink.stackLevel - 1
nextElement.dataset.stackLink = JSON.stringify(nextLink)
// Update visual styling
nextElement.style.marginLeft = nextLink.stackLevel * 15 + 'px'
nextElement.style.zIndex = 100 + nextLink.stackLevel
// Cascade update to all subsequent events
updateSubsequentStackLevels(nextElement, -1)
// Clear removed element's stack link
delete element.dataset.stackLink
element.style.marginLeft = '0px'
```
---
## Performance Considerations
### Time Complexity
- **Overlap Detection:** O(n) where n = number of events in column
- **Stack Creation:** O(n log n) due to sorting
- **Chain Traversal:** O(n) worst case (entire chain)
- **Stack Removal:** O(n) worst case (update all subsequent)
### Space Complexity
- **Stack Links:** O(1) per event (stored in DOM attribute)
- **No Global State:** All state is in DOM
### Optimization Tips
1. **Batch Updates:** When adding multiple events, batch DOM updates
2. **Lazy Evaluation:** Only recalculate stacks when events change
3. **Event Delegation:** Use event delegation instead of per-element listeners
4. **Virtual Scrolling:** For large calendars, only render visible events
---
## Implementation Guidelines
### Separation of Concerns
**Pure Logic (No DOM):**
- Overlap detection algorithms
- Stack link calculation
- Sorting logic
**DOM Manipulation:**
- Applying stack links to elements
- Updating visual styles
- Chain traversal
**Event Handling:**
- Detecting event changes
- Triggering stack recalculation
- Cleanup on event removal
### Testing Strategy
1. **Unit Tests:** Test overlap detection in isolation
2. **Integration Tests:** Test stack creation with DOM
3. **Visual Tests:** Test CSS styling calculations
4. **Edge Cases:** Test boundary conditions
---
## Future Enhancements
### Potential Improvements
1. **Smart Stacking:** Detect non-overlapping sub-groups and stack independently
2. **Column Sharing:** For events with similar start times, use flexbox columns
3. **Compact Mode:** Reduce stack offset for dense calendars
4. **Color Coding:** Visual indication of stack depth
5. **Stack Preview:** Hover to highlight entire stack chain
---
## Glossary
- **Stack:** Group of overlapping events displayed with horizontal offset
- **Stack Link:** Data structure connecting events in a stack (doubly-linked list)
- **Stack Level:** Position in stack (0 = base, 1+ = offset)
- **Stack Root:** First event in stack (stackLevel 0, no prev link)
- **Stack Chain:** Complete sequence of linked events
- **Overlap:** Two events with intersecting time ranges
- **Offset:** Horizontal margin applied to stacked events (15px per level)
---
**Document Version:** 1.0
**Last Updated:** 2025-10-04
**Status:** Conceptual Documentation - Ready for TDD Implementation

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src/data/mock-events.json
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@ -1962,6 +1962,58 @@
"color": "#2196f3"
}
},
{
"id": "1511",
"title": "Eftermiddags Kodning",
"start": "2025-10-01T10:30:00Z",
"end": "2025-10-01T11:00:00Z",
"type": "milestone",
"allDay": false,
"syncStatus": "synced",
"metadata": {
"duration": 180,
"color": "#2196f3"
}
},
{
"id": "1512",
"title": "Eftermiddags Kodning",
"start": "2025-10-01T11:30:00Z",
"end": "2025-10-01T12:30:00Z",
"type": "milestone",
"allDay": false,
"syncStatus": "synced",
"metadata": {
"duration": 180,
"color": "#2196f3"
}
},
{
"id": "1513",
"title": "Eftermiddags Kodning",
"start": "2025-10-01T12:00:00Z",
"end": "2025-10-01T13:00:00Z",
"type": "work",
"allDay": false,
"syncStatus": "synced",
"metadata": {
"duration": 180,
"color": "#2196f3"
}
},
{
"id": "1514",
"title": "Eftermiddags Kodning 2",
"start": "2025-10-01T12:00:00Z",
"end": "2025-10-01T13:00:00Z",
"type": "work",
"allDay": false,
"syncStatus": "synced",
"metadata": {
"duration": 180,
"color": "#2196f3"
}
},
{
"id": "152",
"title": "Team Standup",
@ -1991,8 +2043,8 @@
{
"id": "154",
"title": "Bug Fixing Session",
"start": "2025-10-02T11:00:00Z",
"end": "2025-10-02T13:00:00Z",
"start": "2025-10-02T07:00:00Z",
"end": "2025-10-02T09:00:00Z",
"type": "work",
"allDay": false,
"syncStatus": "synced",

372
src/managers/EventStackManager.ts Normal file
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/**
* EventStackManager - Manages visual stacking of overlapping calendar events
*
* This class handles the creation and maintenance of "stack chains" - doubly-linked
* lists of overlapping events stored directly in DOM elements via data attributes.
*
* Implements 3-phase algorithm for flexbox + nested stacking:
* Phase 1: Group events by start time proximity (±15 min threshold)
* Phase 2: Decide container type (FLEXBOX vs STACKING)
* Phase 3: Handle late arrivals (nested stacking)
*
* @see STACKING_CONCEPT.md for detailed documentation
* @see stacking-visualization.html for visual examples
*/
import { CalendarEvent } from '../types/CalendarTypes';
export interface StackLink {
prev?: string; // Event ID of previous event in stack
next?: string; // Event ID of next event in stack
stackLevel: number; // Position in stack (0 = base, 1 = first offset, etc.)
}
export interface EventGroup {
events: CalendarEvent[];
containerType: 'NONE' | 'GRID' | 'STACKING';
startTime: Date;
}
export class EventStackManager {
private static readonly FLEXBOX_START_THRESHOLD_MINUTES = 15;
private static readonly STACK_OFFSET_PX = 15;
// ============================================
// PHASE 1: Start Time Grouping
// ============================================
/**
* Group events by start time proximity (±15 min threshold)
*/
public groupEventsByStartTime(events: CalendarEvent[]): EventGroup[] {
if (events.length === 0) return [];
// Sort events by start time
const sorted = [...events].sort((a, b) => a.start.getTime() - b.start.getTime());
const groups: EventGroup[] = [];
for (const event of sorted) {
// Find existing group within threshold
const existingGroup = groups.find(group => {
const groupStart = group.startTime;
const diffMinutes = Math.abs(event.start.getTime() - groupStart.getTime()) / (1000 * 60);
return diffMinutes <= EventStackManager.FLEXBOX_START_THRESHOLD_MINUTES;
});
if (existingGroup) {
existingGroup.events.push(event);
} else {
groups.push({
events: [event],
containerType: 'NONE',
startTime: event.start
});
}
}
return groups;
}
/**
* Check if two events should share flexbox (within ±15 min)
*/
public shouldShareFlexbox(event1: CalendarEvent, event2: CalendarEvent): boolean {
const diffMinutes = Math.abs(event1.start.getTime() - event2.start.getTime()) / (1000 * 60);
return diffMinutes <= EventStackManager.FLEXBOX_START_THRESHOLD_MINUTES;
}
// ============================================
// PHASE 2: Container Type Decision
// ============================================
/**
* Decide container type for a group of events
*
* Rule: Events starting simultaneously (within ±15 min) should ALWAYS use GRID,
* even if they overlap each other. This provides better visual indication that
* events start at the same time.
*/
public decideContainerType(group: EventGroup): 'NONE' | 'GRID' | 'STACKING' {
if (group.events.length === 1) {
return 'NONE';
}
// If events are grouped together (start within ±15 min), they should share columns (GRID)
// This is true EVEN if they overlap, because the visual priority is to show
// that they start simultaneously.
return 'GRID';
}
/**
* Check if events within a group overlap each other
*/
private hasInternalOverlaps(events: CalendarEvent[]): boolean {
for (let i = 0; i < events.length; i++) {
for (let j = i + 1; j < events.length; j++) {
if (this.doEventsOverlap(events[i], events[j])) {
return true;
}
}
}
return false;
}
/**
* Check if two events overlap in time
*/
public doEventsOverlap(event1: CalendarEvent, event2: CalendarEvent): boolean {
return event1.start < event2.end && event1.end > event2.start;
}
// ============================================
// PHASE 3: Late Arrivals (Nested Stacking)
// ============================================
/**
* Find events that start outside threshold (late arrivals)
*/
public findLateArrivals(groups: EventGroup[], allEvents: CalendarEvent[]): CalendarEvent[] {
const eventsInGroups = new Set(groups.flatMap(g => g.events.map(e => e.id)));
return allEvents.filter(event => !eventsInGroups.has(event.id));
}
/**
* Find primary parent column for a late event (longest duration or first overlapping)
*/
public findPrimaryParentColumn(lateEvent: CalendarEvent, flexboxGroup: CalendarEvent[]): string | null {
// Find all overlapping events in the flexbox group
const overlapping = flexboxGroup.filter(event => this.doEventsOverlap(lateEvent, event));
if (overlapping.length === 0) {
return null;
}
// Sort by duration (longest first)
overlapping.sort((a, b) => {
const durationA = b.end.getTime() - b.start.getTime();
const durationB = a.end.getTime() - a.start.getTime();
return durationA - durationB;
});
return overlapping[0].id;
}
/**
* Calculate marginLeft for nested event (always 15px)
*/
public calculateNestedMarginLeft(): number {
return EventStackManager.STACK_OFFSET_PX;
}
/**
* Calculate stackLevel for nested event (parent + 1)
*/
public calculateNestedStackLevel(parentStackLevel: number): number {
return parentStackLevel + 1;
}
// ============================================
// Flexbox Layout Calculations
// ============================================
/**
* Calculate flex width for flexbox columns
*/
public calculateFlexWidth(columnCount: number): string {
if (columnCount === 1) return '100%';
if (columnCount === 2) return '50%';
if (columnCount === 3) return '33.33%';
if (columnCount === 4) return '25%';
// For 5+ columns, calculate percentage
const percentage = (100 / columnCount).toFixed(2);
return `${percentage}%`;
}
// ============================================
// Existing Methods (from original TDD tests)
// ============================================
/**
* Find all events that overlap with a given event
*/
public findOverlappingEvents(targetEvent: CalendarEvent, columnEvents: CalendarEvent[]): CalendarEvent[] {
return columnEvents.filter(event => this.doEventsOverlap(targetEvent, event));
}
/**
* Create stack links for overlapping events (naive sequential stacking)
*/
public createStackLinks(events: CalendarEvent[]): Map<string, StackLink> {
const stackLinks = new Map<string, StackLink>();
if (events.length === 0) return stackLinks;
// Sort by start time (and by end time if start times are equal)
const sorted = [...events].sort((a, b) => {
const startDiff = a.start.getTime() - b.start.getTime();
if (startDiff !== 0) return startDiff;
return a.end.getTime() - b.end.getTime();
});
// Create sequential stack
sorted.forEach((event, index) => {
const link: StackLink = {
stackLevel: index
};
if (index > 0) {
link.prev = sorted[index - 1].id;
}
if (index < sorted.length - 1) {
link.next = sorted[index + 1].id;
}
stackLinks.set(event.id, link);
});
return stackLinks;
}
/**
* Create optimized stack links (events share levels when possible)
*/
public createOptimizedStackLinks(events: CalendarEvent[]): Map<string, StackLink> {
const stackLinks = new Map<string, StackLink>();
if (events.length === 0) return stackLinks;
// Sort by start time
const sorted = [...events].sort((a, b) => a.start.getTime() - b.start.getTime());
// Step 1: Assign stack levels
for (const event of sorted) {
// Find all events this event overlaps with
const overlapping = sorted.filter(other =>
other !== event && this.doEventsOverlap(event, other)
);
console.log(`[EventStackManager] Event ${event.id} overlaps with:`, overlapping.map(e => e.id));
// Find the MINIMUM required level (must be above all overlapping events)
let minRequiredLevel = 0;
for (const other of overlapping) {
const otherLink = stackLinks.get(other.id);
if (otherLink) {
console.log(` ${other.id} has stackLevel ${otherLink.stackLevel}`);
// Must be at least one level above the overlapping event
minRequiredLevel = Math.max(minRequiredLevel, otherLink.stackLevel + 1);
}
}
console.log(` → Assigned stackLevel ${minRequiredLevel} (must be above all overlapping events)`);
stackLinks.set(event.id, { stackLevel: minRequiredLevel });
}
// Step 2: Build prev/next chains for overlapping events at adjacent stack levels
for (const event of sorted) {
const currentLink = stackLinks.get(event.id)!;
// Find overlapping events that are directly below (stackLevel - 1)
const overlapping = sorted.filter(other =>
other !== event && this.doEventsOverlap(event, other)
);
const directlyBelow = overlapping.filter(other => {
const otherLink = stackLinks.get(other.id);
return otherLink && otherLink.stackLevel === currentLink.stackLevel - 1;
});
if (directlyBelow.length > 0) {
// Use the first one in sorted order as prev
currentLink.prev = directlyBelow[0].id;
}
// Find overlapping events that are directly above (stackLevel + 1)
const directlyAbove = overlapping.filter(other => {
const otherLink = stackLinks.get(other.id);
return otherLink && otherLink.stackLevel === currentLink.stackLevel + 1;
});
if (directlyAbove.length > 0) {
// Use the first one in sorted order as next
currentLink.next = directlyAbove[0].id;
}
}
return stackLinks;
}
/**
* Calculate marginLeft based on stack level
*/
public calculateMarginLeft(stackLevel: number): number {
return stackLevel * EventStackManager.STACK_OFFSET_PX;
}
/**
* Calculate zIndex based on stack level
*/
public calculateZIndex(stackLevel: number): number {
return 100 + stackLevel;
}
/**
* Serialize stack link to JSON string
*/
public serializeStackLink(stackLink: StackLink): string {
return JSON.stringify(stackLink);
}
/**
* Deserialize JSON string to stack link
*/
public deserializeStackLink(json: string): StackLink | null {
try {
return JSON.parse(json);
} catch (e) {
return null;
}
}
/**
* Apply stack link to DOM element
*/
public applyStackLinkToElement(element: HTMLElement, stackLink: StackLink): void {
element.dataset.stackLink = this.serializeStackLink(stackLink);
}
/**
* Get stack link from DOM element
*/
public getStackLinkFromElement(element: HTMLElement): StackLink | null {
const data = element.dataset.stackLink;
if (!data) return null;
return this.deserializeStackLink(data);
}
/**
* Apply visual styling to element based on stack level
*/
public applyVisualStyling(element: HTMLElement, stackLevel: number): void {
element.style.marginLeft = `${this.calculateMarginLeft(stackLevel)}px`;
element.style.zIndex = `${this.calculateZIndex(stackLevel)}`;
}
/**
* Clear stack link from element
*/
public clearStackLinkFromElement(element: HTMLElement): void {
delete element.dataset.stackLink;
}
/**
* Clear visual styling from element
*/
public clearVisualStyling(element: HTMLElement): void {
element.style.marginLeft = '';
element.style.zIndex = '';
}
}

176
src/renderers/EventRenderer.ts
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@ -7,6 +7,7 @@ import { PositionUtils } from '../utils/PositionUtils';
import { ColumnBounds } from '../utils/ColumnDetectionUtils';
import { DragColumnChangeEventPayload, DragMoveEventPayload, DragStartEventPayload } from '../types/EventTypes';
import { DateService } from '../utils/DateService';
import { EventStackManager, EventGroup, StackLink } from '../managers/EventStackManager';
/**
* Interface for event rendering strategies
@ -29,12 +30,14 @@ export interface EventRendererStrategy {
export class DateEventRenderer implements EventRendererStrategy {
private dateService: DateService;
private stackManager: EventStackManager;
private draggedClone: HTMLElement | null = null;
private originalEvent: HTMLElement | null = null;
constructor() {
const timezone = calendarConfig.getTimezone?.();
this.dateService = new DateService(timezone);
this.stackManager = new EventStackManager();
}
private applyDragStyling(element: HTMLElement): void {
@ -169,18 +172,177 @@ export class DateEventRenderer implements EventRendererStrategy {
columns.forEach(column => {
const columnEvents = this.getEventsForColumn(column, timedEvents);
const eventsLayer = column.querySelector('swp-events-layer');
const eventsLayer = column.querySelector('swp-events-layer') as HTMLElement;
if (eventsLayer) {
// Simply render each event - no overlap handling
columnEvents.forEach(event => {
const element = this.renderEvent(event);
eventsLayer.appendChild(element);
});
this.renderColumnEvents(columnEvents, eventsLayer);
}
});
}
/**
* Render events in a column using combined stacking + grid algorithm
*/
private renderColumnEvents(columnEvents: CalendarEvent[], eventsLayer: HTMLElement): void {
if (columnEvents.length === 0) return;
console.log('[EventRenderer] Rendering column with', columnEvents.length, 'events');
// Step 1: Calculate stack levels for ALL events first (to understand overlaps)
const allStackLinks = this.stackManager.createOptimizedStackLinks(columnEvents);
console.log('[EventRenderer] All stack links:');
columnEvents.forEach(event => {
const link = allStackLinks.get(event.id);
console.log(` Event ${event.id} (${event.title}): stackLevel=${link?.stackLevel ?? 'none'}`);
});
// Step 2: Find grid candidates (start together ±15 min)
const groups = this.stackManager.groupEventsByStartTime(columnEvents);
const gridGroups = groups.filter(group => {
if (group.events.length <= 1) return false;
group.containerType = this.stackManager.decideContainerType(group);
return group.containerType === 'GRID';
});
console.log('[EventRenderer] Grid groups:', gridGroups.length);
gridGroups.forEach((g, i) => {
console.log(` Grid group ${i}:`, g.events.map(e => e.id));
});
// Step 3: Render grid groups and track which events have been rendered
const renderedIds = new Set<string>();
gridGroups.forEach((group, index) => {
console.log(`[EventRenderer] Rendering grid group ${index} with ${group.events.length} events:`, group.events.map(e => e.id));
// Calculate grid group stack level by finding what it overlaps OUTSIDE the group
const gridStackLevel = this.calculateGridGroupStackLevel(group, columnEvents, allStackLinks);
console.log(` Grid group stack level: ${gridStackLevel}`);
this.renderGridGroup(group, eventsLayer, gridStackLevel);
group.events.forEach(e => renderedIds.add(e.id));
});
// Step 4: Get remaining events (not in grid)
const remainingEvents = columnEvents.filter(e => !renderedIds.has(e.id));
console.log('[EventRenderer] Remaining events for stacking:');
remainingEvents.forEach(event => {
const link = allStackLinks.get(event.id);
console.log(` Event ${event.id} (${event.title}): stackLevel=${link?.stackLevel ?? 'none'}`);
});
// Step 5: Render remaining stacked/single events
remainingEvents.forEach(event => {
const element = this.renderEvent(event);
const stackLink = allStackLinks.get(event.id);
console.log(`[EventRenderer] Rendering stacked event ${event.id}, stackLink:`, stackLink);
if (stackLink) {
// Apply stack link to element (for drag-drop)
this.stackManager.applyStackLinkToElement(element, stackLink);
// Apply visual styling
this.stackManager.applyVisualStyling(element, stackLink.stackLevel);
console.log(` Applied margin-left: ${stackLink.stackLevel * 15}px, stack-link:`, stackLink);
}
eventsLayer.appendChild(element);
});
}
/**
* Calculate stack level for a grid group based on what it overlaps OUTSIDE the group
*/
private calculateGridGroupStackLevel(
group: EventGroup,
allEvents: CalendarEvent[],
stackLinks: Map<string, StackLink>
): number {
const groupEventIds = new Set(group.events.map(e => e.id));
// Find all events OUTSIDE this group
const outsideEvents = allEvents.filter(e => !groupEventIds.has(e.id));
// Find the highest stackLevel of any event that overlaps with ANY event in the grid group
let maxOverlappingLevel = -1;
for (const gridEvent of group.events) {
for (const outsideEvent of outsideEvents) {
if (this.stackManager.doEventsOverlap(gridEvent, outsideEvent)) {
const outsideLink = stackLinks.get(outsideEvent.id);
if (outsideLink) {
maxOverlappingLevel = Math.max(maxOverlappingLevel, outsideLink.stackLevel);
}
}
}
}
// Grid group should be one level above the highest overlapping event
return maxOverlappingLevel + 1;
}
/**
* Render events in a grid container (side-by-side)
*/
private renderGridGroup(group: EventGroup, eventsLayer: HTMLElement, stackLevel: number): void {
const groupElement = document.createElement('swp-event-group');
// Add grid column class based on event count
const colCount = group.events.length;
groupElement.classList.add(`cols-${colCount}`);
// Add stack level class for margin-left offset
groupElement.classList.add(`stack-level-${stackLevel}`);
// Position based on earliest event
const earliestEvent = group.events[0];
const position = this.calculateEventPosition(earliestEvent);
groupElement.style.top = `${position.top + 1}px`;
// Add z-index based on stack level
groupElement.style.zIndex = `${this.stackManager.calculateZIndex(stackLevel)}`;
// Add stack-link attribute for drag-drop (group acts as a stacked item)
const stackLink: StackLink = {
stackLevel: stackLevel
// prev/next will be handled by drag-drop manager if needed
};
this.stackManager.applyStackLinkToElement(groupElement, stackLink);
// NO height on the group - it should auto-size based on children
// Render each event within the grid
group.events.forEach(event => {
const element = this.renderEventInGrid(event, earliestEvent.start);
groupElement.appendChild(element);
});
eventsLayer.appendChild(groupElement);
}
/**
* Render event within a grid container (relative positioning)
*/
private renderEventInGrid(event: CalendarEvent, containerStart: Date): HTMLElement {
const element = SwpEventElement.fromCalendarEvent(event);
// Calculate event height
const position = this.calculateEventPosition(event);
// Events in grid are positioned relatively - NO top offset needed
// The grid container itself is positioned absolutely with the correct top
element.style.position = 'relative';
element.style.height = `${position.height - 3}px`;
return element;
}
private renderEvent(event: CalendarEvent): HTMLElement {
const element = SwpEventElement.fromCalendarEvent(event);

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653
test/managers/EventStackManager.test.ts Normal file
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@ -0,0 +1,653 @@
/**
* TDD Test Suite for EventStackManager
*
* This test suite follows Test-Driven Development principles:
* 1. Write a failing test (RED)
* 2. Write minimal code to make it pass (GREEN)
* 3. Refactor if needed (REFACTOR)
*
* @see STACKING_CONCEPT.md for concept documentation
*/
import { describe, it, expect, beforeEach } from 'vitest';
import { EventStackManager, StackLink } from '../../src/managers/EventStackManager';
describe('EventStackManager - TDD Suite', () => {
let manager: EventStackManager;
beforeEach(() => {
manager = new EventStackManager();
});
describe('Overlap Detection', () => {
it('should detect overlap when event A starts before event B ends and event A ends after event B starts', () => {
// RED - This test will fail initially
const eventA = {
id: 'event-a',
start: new Date('2025-01-01T09:00:00'),
end: new Date('2025-01-01T11:00:00')
};
const eventB = {
id: 'event-b',
start: new Date('2025-01-01T10:00:00'),
end: new Date('2025-01-01T12:00:00')
};
// Expected: true (events overlap from 10:00 to 11:00)
expect(manager.doEventsOverlap(eventA, eventB)).toBe(true);
});
it('should return false when events do not overlap', () => {
const eventA = {
id: 'event-a',
start: new Date('2025-01-01T09:00:00'),
end: new Date('2025-01-01T10:00:00')
};
const eventB = {
id: 'event-b',
start: new Date('2025-01-01T11:00:00'),
end: new Date('2025-01-01T12:00:00')
};
expect(manager.doEventsOverlap(eventA, eventB)).toBe(false);
});
it('should detect overlap when one event completely contains another', () => {
const eventA = {
id: 'event-a',
start: new Date('2025-01-01T09:00:00'),
end: new Date('2025-01-01T13:00:00')
};
const eventB = {
id: 'event-b',
start: new Date('2025-01-01T10:00:00'),
end: new Date('2025-01-01T11:00:00')
};
expect(manager.doEventsOverlap(eventA, eventB)).toBe(true);
});
it('should return false when events touch but do not overlap', () => {
const eventA = {
id: 'event-a',
start: new Date('2025-01-01T09:00:00'),
end: new Date('2025-01-01T10:00:00')
};
const eventB = {
id: 'event-b',
start: new Date('2025-01-01T10:00:00'), // Exactly when A ends
end: new Date('2025-01-01T11:00:00')
};
expect(manager.doEventsOverlap(eventA, eventB)).toBe(false);
});
});
describe('Find Overlapping Events', () => {
it('should find all events that overlap with a given event', () => {
const targetEvent = {
id: 'target',
start: new Date('2025-01-01T10:00:00'),
end: new Date('2025-01-01T11:00:00')
};
const columnEvents = [
{
id: 'event-a',
start: new Date('2025-01-01T09:00:00'),
end: new Date('2025-01-01T10:30:00') // Overlaps
},
{
id: 'event-b',
start: new Date('2025-01-01T12:00:00'),
end: new Date('2025-01-01T13:00:00') // Does not overlap
},
{
id: 'event-c',
start: new Date('2025-01-01T10:30:00'),
end: new Date('2025-01-01T11:30:00') // Overlaps
}
];
const overlapping = manager.findOverlappingEvents(targetEvent, columnEvents);
expect(overlapping).toHaveLength(2);
expect(overlapping.map(e => e.id)).toContain('event-a');
expect(overlapping.map(e => e.id)).toContain('event-c');
expect(overlapping.map(e => e.id)).not.toContain('event-b');
});
it('should return empty array when no events overlap', () => {
const targetEvent = {
id: 'target',
start: new Date('2025-01-01T10:00:00'),
end: new Date('2025-01-01T11:00:00')
};
const columnEvents = [
{
id: 'event-a',
start: new Date('2025-01-01T09:00:00'),
end: new Date('2025-01-01T09:30:00')
},
{
id: 'event-b',
start: new Date('2025-01-01T12:00:00'),
end: new Date('2025-01-01T13:00:00')
}
];
const overlapping = manager.findOverlappingEvents(targetEvent, columnEvents);
expect(overlapping).toHaveLength(0);
});
});
describe('Create Stack Links', () => {
it('should create stack links for overlapping events sorted by start time', () => {
const events = [
{
id: 'event-b',
start: new Date('2025-01-01T10:00:00'),
end: new Date('2025-01-01T12:00:00')
},
{
id: 'event-a',
start: new Date('2025-01-01T09:00:00'),
end: new Date('2025-01-01T11:00:00')
},
{
id: 'event-c',
start: new Date('2025-01-01T11:00:00'),
end: new Date('2025-01-01T13:00:00')
}
];
const stackLinks = manager.createStackLinks(events);
// Should be sorted by start time: event-a, event-b, event-c
expect(stackLinks.size).toBe(3);
const linkA = stackLinks.get('event-a');
expect(linkA).toEqual({
stackLevel: 0,
next: 'event-b'
// no prev
});
const linkB = stackLinks.get('event-b');
expect(linkB).toEqual({
stackLevel: 1,
prev: 'event-a',
next: 'event-c'
});
const linkC = stackLinks.get('event-c');
expect(linkC).toEqual({
stackLevel: 2,
prev: 'event-b'
// no next
});
});
it('should return empty map for empty event array', () => {
const stackLinks = manager.createStackLinks([]);
expect(stackLinks.size).toBe(0);
});
it('should create single stack link for single event', () => {
const events = [
{
id: 'event-a',
start: new Date('2025-01-01T09:00:00'),
end: new Date('2025-01-01T10:00:00')
}
];
const stackLinks = manager.createStackLinks(events);
expect(stackLinks.size).toBe(1);
const link = stackLinks.get('event-a');
expect(link).toEqual({
stackLevel: 0
// no prev, no next
});
});
it('should handle events with same start time by sorting by end time', () => {
const events = [
{
id: 'event-b',
start: new Date('2025-01-01T10:00:00'),
end: new Date('2025-01-01T12:00:00') // Longer event
},
{
id: 'event-a',
start: new Date('2025-01-01T10:00:00'),
end: new Date('2025-01-01T11:00:00') // Shorter event (should come first)
}
];
const stackLinks = manager.createStackLinks(events);
// Shorter event should have lower stack level
expect(stackLinks.get('event-a')?.stackLevel).toBe(0);
expect(stackLinks.get('event-b')?.stackLevel).toBe(1);
});
});
describe('Calculate Visual Styling', () => {
it('should calculate marginLeft based on stack level', () => {
const stackLevel = 0;
expect(manager.calculateMarginLeft(stackLevel)).toBe(0);
const stackLevel1 = 1;
expect(manager.calculateMarginLeft(stackLevel1)).toBe(15);
const stackLevel2 = 2;
expect(manager.calculateMarginLeft(stackLevel2)).toBe(30);
const stackLevel5 = 5;
expect(manager.calculateMarginLeft(stackLevel5)).toBe(75);
});
it('should calculate zIndex based on stack level', () => {
const stackLevel = 0;
expect(manager.calculateZIndex(stackLevel)).toBe(100);
const stackLevel1 = 1;
expect(manager.calculateZIndex(stackLevel1)).toBe(101);
const stackLevel2 = 2;
expect(manager.calculateZIndex(stackLevel2)).toBe(102);
});
});
describe('Stack Link Serialization', () => {
it('should serialize stack link to JSON string', () => {
const stackLink: StackLink = {
stackLevel: 1,
prev: 'event-a',
next: 'event-c'
};
const serialized = manager.serializeStackLink(stackLink);
expect(serialized).toBe('{"stackLevel":1,"prev":"event-a","next":"event-c"}');
});
it('should deserialize JSON string to stack link', () => {
const json = '{"stackLevel":1,"prev":"event-a","next":"event-c"}';
const stackLink = manager.deserializeStackLink(json);
expect(stackLink).toEqual({
stackLevel: 1,
prev: 'event-a',
next: 'event-c'
});
});
it('should handle stack link without prev/next', () => {
const stackLink: StackLink = {
stackLevel: 0
};
const serialized = manager.serializeStackLink(stackLink);
const deserialized = manager.deserializeStackLink(serialized);
expect(deserialized).toEqual({
stackLevel: 0
});
});
it('should return null when deserializing invalid JSON', () => {
const invalid = 'not-valid-json';
const result = manager.deserializeStackLink(invalid);
expect(result).toBeNull();
});
});
describe('DOM Integration', () => {
it('should apply stack link to DOM element', () => {
const element = document.createElement('div');
element.dataset.eventId = 'event-a';
const stackLink: StackLink = {
stackLevel: 1,
prev: 'event-b',
next: 'event-c'
};
manager.applyStackLinkToElement(element, stackLink);
expect(element.dataset.stackLink).toBe('{"stackLevel":1,"prev":"event-b","next":"event-c"}');
});
it('should read stack link from DOM element', () => {
const element = document.createElement('div');
element.dataset.stackLink = '{"stackLevel":2,"prev":"event-a"}';
const stackLink = manager.getStackLinkFromElement(element);
expect(stackLink).toEqual({
stackLevel: 2,
prev: 'event-a'
});
});
it('should return null when element has no stack link', () => {
const element = document.createElement('div');
const stackLink = manager.getStackLinkFromElement(element);
expect(stackLink).toBeNull();
});
it('should apply visual styling to element based on stack level', () => {
const element = document.createElement('div');
manager.applyVisualStyling(element, 2);
expect(element.style.marginLeft).toBe('30px');
expect(element.style.zIndex).toBe('102');
});
it('should clear stack link from element', () => {
const element = document.createElement('div');
element.dataset.stackLink = '{"stackLevel":1}';
manager.clearStackLinkFromElement(element);
expect(element.dataset.stackLink).toBeUndefined();
});
it('should clear visual styling from element', () => {
const element = document.createElement('div');
element.style.marginLeft = '30px';
element.style.zIndex = '102';
manager.clearVisualStyling(element);
expect(element.style.marginLeft).toBe('');
expect(element.style.zIndex).toBe('');
});
});
describe('Edge Cases', () => {
it('should optimize stack levels when events do not overlap each other but both overlap a parent event', () => {
// Visual representation:
// Event A: 09:00 ════════════════════════════ 14:00
// Event B: 10:00 ═════ 12:00
// Event C: 12:30 ═══ 13:00
//
// Expected stacking:
// Event A: stackLevel 0 (base)
// Event B: stackLevel 1 (conflicts with A)
// Event C: stackLevel 1 (conflicts with A, but NOT with B - can share same level!)
const eventA = {
id: 'event-a',
start: new Date('2025-01-01T09:00:00'),
end: new Date('2025-01-01T14:00:00')
};
const eventB = {
id: 'event-b',
start: new Date('2025-01-01T10:00:00'),
end: new Date('2025-01-01T12:00:00')
};
const eventC = {
id: 'event-c',
start: new Date('2025-01-01T12:30:00'),
end: new Date('2025-01-01T13:00:00')
};
const stackLinks = manager.createOptimizedStackLinks([eventA, eventB, eventC]);
expect(stackLinks.size).toBe(3);
// Event A is the base (contains both B and C)
expect(stackLinks.get('event-a')?.stackLevel).toBe(0);
// Event B and C should both be at stackLevel 1 (they don't overlap each other)
expect(stackLinks.get('event-b')?.stackLevel).toBe(1);
expect(stackLinks.get('event-c')?.stackLevel).toBe(1);
// Verify they are NOT linked to each other (no prev/next between B and C)
expect(stackLinks.get('event-b')?.next).toBeUndefined();
expect(stackLinks.get('event-c')?.prev).toBeUndefined();
});
it('should create multiple parallel tracks when events at same level do not overlap', () => {
// Complex scenario with multiple parallel tracks:
// Event A: 09:00 ════════════════════════════════════ 15:00
// Event B: 10:00 ═══ 11:00
// Event C: 11:30 ═══ 12:30
// Event D: 13:00 ═══ 14:00
//
// Expected:
// - A at level 0 (base)
// - B, C, D all at level 1 (they don't overlap each other, only with A)
const eventA = {
id: 'event-a',
start: new Date('2025-01-01T09:00:00'),
end: new Date('2025-01-01T15:00:00')
};
const eventB = {
id: 'event-b',
start: new Date('2025-01-01T10:00:00'),
end: new Date('2025-01-01T11:00:00')
};
const eventC = {
id: 'event-c',
start: new Date('2025-01-01T11:30:00'),
end: new Date('2025-01-01T12:30:00')
};
const eventD = {
id: 'event-d',
start: new Date('2025-01-01T13:00:00'),
end: new Date('2025-01-01T14:00:00')
};
const stackLinks = manager.createOptimizedStackLinks([eventA, eventB, eventC, eventD]);
expect(stackLinks.size).toBe(4);
expect(stackLinks.get('event-a')?.stackLevel).toBe(0);
expect(stackLinks.get('event-b')?.stackLevel).toBe(1);
expect(stackLinks.get('event-c')?.stackLevel).toBe(1);
expect(stackLinks.get('event-d')?.stackLevel).toBe(1);
});
it('should handle nested overlaps with optimal stacking', () => {
// Scenario:
// Event A: 09:00 ════════════════════════════════════ 15:00
// Event B: 10:00 ════════════════════ 13:00
// Event C: 11:00 ═══ 12:00
// Event D: 12:30 ═══ 13:30
//
// Expected:
// - A at level 0 (base, contains all)
// - B at level 1 (overlaps with A)
// - C at level 2 (overlaps with A and B)
// - D at level 2 (overlaps with A and B, but NOT with C - can share level with C)
const eventA = {
id: 'event-a',
start: new Date('2025-01-01T09:00:00'),
end: new Date('2025-01-01T15:00:00')
};
const eventB = {
id: 'event-b',
start: new Date('2025-01-01T10:00:00'),
end: new Date('2025-01-01T13:00:00')
};
const eventC = {
id: 'event-c',
start: new Date('2025-01-01T11:00:00'),
end: new Date('2025-01-01T12:00:00')
};
const eventD = {
id: 'event-d',
start: new Date('2025-01-01T12:30:00'),
end: new Date('2025-01-01T13:30:00')
};
const stackLinks = manager.createOptimizedStackLinks([eventA, eventB, eventC, eventD]);
expect(stackLinks.size).toBe(4);
expect(stackLinks.get('event-a')?.stackLevel).toBe(0);
expect(stackLinks.get('event-b')?.stackLevel).toBe(1);
expect(stackLinks.get('event-c')?.stackLevel).toBe(2);
expect(stackLinks.get('event-d')?.stackLevel).toBe(2); // Can share level with C
});
it('should handle events with identical start and end times', () => {
const eventA = {
id: 'event-a',
start: new Date('2025-01-01T10:00:00'),
end: new Date('2025-01-01T11:00:00')
};
const eventB = {
id: 'event-b',
start: new Date('2025-01-01T10:00:00'),
end: new Date('2025-01-01T11:00:00')
};
expect(manager.doEventsOverlap(eventA, eventB)).toBe(true);
const stackLinks = manager.createStackLinks([eventA, eventB]);
expect(stackLinks.size).toBe(2);
});
it('should handle events with zero duration', () => {
const eventA = {
id: 'event-a',
start: new Date('2025-01-01T10:00:00'),
end: new Date('2025-01-01T10:00:00') // Zero duration
};
const eventB = {
id: 'event-b',
start: new Date('2025-01-01T10:00:00'),
end: new Date('2025-01-01T11:00:00')
};
// Zero-duration event should not overlap
expect(manager.doEventsOverlap(eventA, eventB)).toBe(false);
});
it('should handle large number of overlapping events', () => {
const events = Array.from({ length: 100 }, (_, i) => ({
id: `event-${i}`,
start: new Date('2025-01-01T09:00:00'),
end: new Date(`2025-01-01T${10 + i}:00:00`)
}));
const stackLinks = manager.createStackLinks(events);
expect(stackLinks.size).toBe(100);
expect(stackLinks.get('event-0')?.stackLevel).toBe(0);
expect(stackLinks.get('event-99')?.stackLevel).toBe(99);
});
});
describe('Integration Tests', () => {
it('should create complete stack for new event with overlapping events', () => {
// Scenario: Adding new event that overlaps with existing events
const newEvent = {
id: 'new-event',
start: new Date('2025-01-01T10:00:00'),
end: new Date('2025-01-01T11:00:00')
};
const existingEvents = [
{
id: 'existing-a',
start: new Date('2025-01-01T09:00:00'),
end: new Date('2025-01-01T10:30:00')
},
{
id: 'existing-b',
start: new Date('2025-01-01T10:30:00'),
end: new Date('2025-01-01T12:00:00')
}
];
// Find overlapping
const overlapping = manager.findOverlappingEvents(newEvent, existingEvents);
// Create stack links for all events
const allEvents = [...overlapping, newEvent];
const stackLinks = manager.createStackLinks(allEvents);
// Verify complete stack
expect(stackLinks.size).toBe(3);
expect(stackLinks.get('existing-a')?.stackLevel).toBe(0);
expect(stackLinks.get('new-event')?.stackLevel).toBe(1);
expect(stackLinks.get('existing-b')?.stackLevel).toBe(2);
});
it('should handle complete workflow: detect, create, apply to DOM', () => {
const newEvent = {
id: 'new-event',
start: new Date('2025-01-01T10:00:00'),
end: new Date('2025-01-01T11:00:00')
};
const existingEvents = [
{
id: 'existing-a',
start: new Date('2025-01-01T09:00:00'),
end: new Date('2025-01-01T10:30:00')
}
];
// Step 1: Find overlapping
const overlapping = manager.findOverlappingEvents(newEvent, existingEvents);
expect(overlapping).toHaveLength(1);
// Step 2: Create stack links
const allEvents = [...overlapping, newEvent];
const stackLinks = manager.createStackLinks(allEvents);
expect(stackLinks.size).toBe(2);
// Step 3: Apply to DOM
const elementA = document.createElement('div');
elementA.dataset.eventId = 'existing-a';
const elementNew = document.createElement('div');
elementNew.dataset.eventId = 'new-event';
manager.applyStackLinkToElement(elementA, stackLinks.get('existing-a')!);
manager.applyStackLinkToElement(elementNew, stackLinks.get('new-event')!);
manager.applyVisualStyling(elementA, stackLinks.get('existing-a')!.stackLevel);
manager.applyVisualStyling(elementNew, stackLinks.get('new-event')!.stackLevel);
// Verify DOM state
expect(elementA.dataset.stackLink).toContain('"stackLevel":0');
expect(elementA.style.marginLeft).toBe('0px');
expect(elementNew.dataset.stackLink).toContain('"stackLevel":1');
expect(elementNew.style.marginLeft).toBe('15px');
});
});
});

43
wwwroot/css/calendar-events-css.css
View file

@ -232,19 +232,52 @@ swp-events-layer[data-filter-active="true"] swp-event[data-matches="true"] {
/* Event group container for column sharing */
swp-event-group {
position: absolute;
display: flex;
gap: 1px;
width: calc(100% - 4px);
display: grid;
gap: 2px;
left: 2px;
right: 2px;
z-index: 10;
}
/* Grid column configurations */
swp-event-group.cols-2 {
grid-template-columns: 1fr 1fr;
}
swp-event-group.cols-3 {
grid-template-columns: 1fr 1fr 1fr;
}
swp-event-group.cols-4 {
grid-template-columns: 1fr 1fr 1fr 1fr;
}
/* Stack levels using margin-left */
swp-event-group.stack-level-0 {
margin-left: 0px;
}
swp-event-group.stack-level-1 {
margin-left: 15px;
}
swp-event-group.stack-level-2 {
margin-left: 30px;
}
swp-event-group.stack-level-3 {
margin-left: 45px;
}
swp-event-group.stack-level-4 {
margin-left: 60px;
}
/* Child events within grid */
swp-event-group swp-event {
flex: 1;
position: relative;
left: 0;
right: 0;
margin: 0;
}
/* All-day event transition for smooth repositioning */