connor/calendar
1
0
Fork 0
Code Issues 2 Pull Requests Actions Packages Projects Releases Wiki Activity
Files
419cb3d790420d14cee803e34e45da58876ac0ac
calendar/frontend/src/components/week_view.rs
Connor Johnstone b576cd8c4a Add context menus to all-day event boxes 
All-day events now have the same right-click context menu functionality
as regular timed events, allowing users to edit, delete, and perform
other actions on all-day events.

🤖 Generated with [Claude Code](https://claude.ai/code)

Co-Authored-By: Claude <noreply@anthropic.com>
2025-09-03 11:37:36 -04:00

1272 lines
79 KiB
Rust
Raw Blame History

use crate::components::{EventCreationData, RecurringEditAction, RecurringEditModal};
use crate::models::ical::VEvent;
use crate::services::calendar_service::UserInfo;
use chrono::{Datelike, Duration, Local, NaiveDate, NaiveDateTime, NaiveTime, Timelike, Weekday};
use std::collections::HashMap;
use web_sys::MouseEvent;
use yew::prelude::*;
#[derive(Properties, PartialEq)]
pub struct WeekViewProps {
pub current_date: NaiveDate,
pub today: NaiveDate,
pub events: HashMap<NaiveDate, Vec<VEvent>>,
pub on_event_click: Callback<VEvent>,
#[prop_or_default]
pub refreshing_event_uid: Option<String>,
#[prop_or_default]
pub user_info: Option<UserInfo>,
#[prop_or_default]
pub on_event_context_menu: Option<Callback<(web_sys::MouseEvent, VEvent)>>,
#[prop_or_default]
pub on_calendar_context_menu: Option<Callback<(web_sys::MouseEvent, NaiveDate)>>,
#[prop_or_default]
pub on_create_event: Option<Callback<(NaiveDate, NaiveDateTime, NaiveDateTime)>>,
#[prop_or_default]
pub on_create_event_request: Option<Callback<EventCreationData>>,
#[prop_or_default]
pub on_event_update: Option<
Callback<(
VEvent,
NaiveDateTime,
NaiveDateTime,
bool,
Option<chrono::DateTime<chrono::Utc>>,
Option<String>,
Option<String>,
)>,
>,
#[prop_or_default]
pub context_menus_open: bool,
#[prop_or_default]
pub time_increment: u32,
}
#[derive(Clone, PartialEq)]
enum DragType {
CreateEvent,
MoveEvent(VEvent),
ResizeEventStart(VEvent), // Resizing from the top edge (start time)
ResizeEventEnd(VEvent), // Resizing from the bottom edge (end time)
}
#[derive(Clone, PartialEq)]
struct DragState {
is_dragging: bool,
drag_type: DragType,
start_date: NaiveDate,
start_y: f64,
current_y: f64,
offset_y: f64, // For event moves, this is the offset from the event's top
has_moved: bool, // Track if we've moved enough to constitute a real drag
}
#[function_component(WeekView)]
pub fn week_view(props: &WeekViewProps) -> Html {
let start_of_week = get_start_of_week(props.current_date);
let week_days: Vec<NaiveDate> = (0..7).map(|i| start_of_week + Duration::days(i)).collect();
// Drag state for event creation
let drag_state = use_state(|| None::<DragState>);
// State for recurring event edit modal
#[derive(Clone, PartialEq)]
struct PendingRecurringEdit {
event: VEvent,
new_start: NaiveDateTime,
new_end: NaiveDateTime,
}
let pending_recurring_edit = use_state(|| None::<PendingRecurringEdit>);
// Helper function to get calendar color for an event
let get_event_color = |event: &VEvent| -> String {
if let Some(user_info) = &props.user_info {
if let Some(calendar_path) = &event.calendar_path {
if let Some(calendar) = user_info
.calendars
.iter()
.find(|cal| &cal.path == calendar_path)
{
return calendar.color.clone();
}
}
}
"#3B82F6".to_string()
};
// Generate time labels - 24 hours plus the final midnight boundary
let mut time_labels: Vec<String> = (0..24)
.map(|hour| {
if hour == 0 {
"12 AM".to_string()
} else if hour < 12 {
format!("{} AM", hour)
} else if hour == 12 {
"12 PM".to_string()
} else {
format!("{} PM", hour - 12)
}
})
.collect();
// Add the final midnight boundary to show where the day ends
time_labels.push("12 AM".to_string());
// Handlers for recurring event modification modal
let on_recurring_choice = {
let pending_recurring_edit = pending_recurring_edit.clone();
let on_event_update = props.on_event_update.clone();
let _on_create_event = props.on_create_event.clone();
let events = props.events.clone();
Callback::from(move |action: RecurringEditAction| {
if let Some(edit) = (*pending_recurring_edit).clone() {
match action {
RecurringEditAction::ThisEvent => {
// RFC 5545 Compliant Single Occurrence Modification: "This Event Only"
//
// When a user chooses to modify "this event only" for a recurring series,
// we implement an exception-based modification that:
//
// 1. **Add EXDATE to Original Series**: The original series is updated with
// an EXDATE entry to exclude this specific occurrence from generation
// 2. **Create Exception Event**: A new standalone event is created with
// RECURRENCE-ID pointing to the original occurrence, containing the modifications
//
// Example: User drags Aug 22 occurrence of "Daily 9AM meeting" to 2PM:
// - Original series: "Daily 9AM meeting" + EXDATE for Aug 22 (continues as normal except Aug 22)
// - Exception event: "Daily 2PM meeting" with RECURRENCE-ID=Aug22 (only affects Aug 22)
//
// This approach ensures:
// - All other occurrences remain unchanged (past and future)
// - Modified occurrence displays user's changes
// - RFC 5545 compliance through EXDATE and RECURRENCE-ID
// - CalDAV compatibility with standard calendar applications
//
// The backend handles both operations atomically within a single API call.
if let Some(update_callback) = &on_event_update {
// Extract occurrence date for backend processing
let occurrence_date = edit.event.dtstart.format("%Y-%m-%d").to_string();
// Send single request to backend with "this_only" scope
// Backend will atomically:
// 1. Add EXDATE to original series (excludes this occurrence)
// 2. Create exception event with RECURRENCE-ID and user's modifications
update_callback.emit((
edit.event.clone(), // Original event (series to modify)
edit.new_start, // Dragged start time for exception
edit.new_end, // Dragged end time for exception
true, // preserve_rrule = true
None, // No until_date for this_only
Some("this_only".to_string()), // Update scope
Some(occurrence_date), // Date of occurrence being modified
));
}
}
RecurringEditAction::FutureEvents => {
// RFC 5545 Compliant Series Splitting: "This and Future Events"
//
// When a user chooses to modify "this and future events" for a recurring series,
// we implement a series split operation that:
//
// 1. **Terminates Original Series**: The existing series is updated with an UNTIL
// clause to stop before the occurrence being modified
// 2. **Creates New Series**: A new recurring series is created starting from the
// occurrence date with the user's modifications (new time, title, etc.)
//
// Example: User drags Aug 22 occurrence of "Daily 9AM meeting" to 2PM:
// - Original: "Daily 9AM meeting" → ends Aug 21 (UNTIL=Aug22T000000Z)
// - New: "Daily 2PM meeting" → starts Aug 22, continues indefinitely
//
// This approach ensures:
// - Past occurrences remain unchanged (preserves user's historical data)
// - Future occurrences reflect the new modifications
// - CalDAV compatibility through proper RRULE manipulation
// - No conflicts with existing calendar applications
//
// The backend handles both operations atomically within a single API call
// to prevent race conditions and ensure data consistency.
if let Some(update_callback) = &on_event_update {
// Find the original series event (not the occurrence)
// UIDs like "uuid-timestamp" need to split on the last hyphen, not the first
let base_uid = if let Some(last_hyphen_pos) = edit.event.uid.rfind('-')
{
let suffix = &edit.event.uid[last_hyphen_pos + 1..];
// Check if suffix is numeric (timestamp), if so remove it
if suffix.chars().all(|c| c.is_numeric()) {
edit.event.uid[..last_hyphen_pos].to_string()
} else {
edit.event.uid.clone()
}
} else {
edit.event.uid.clone()
};
web_sys::console::log_1(
&format!(
"🔍 Looking for original series: '{}' from occurrence: '{}'",
base_uid, edit.event.uid
)
.into(),
);
// Find the original series event by searching for the base UID
let mut original_series = None;
for events_list in events.values() {
for event in events_list {
if event.uid == base_uid {
original_series = Some(event.clone());
break;
}
}
if original_series.is_some() {
break;
}
}
let original_series = match original_series {
Some(series) => {
web_sys::console::log_1(
&format!("✅ Found original series: '{}'", series.uid)
.into(),
);
series
}
None => {
web_sys::console::log_1(&format!("⚠️ Could not find original series '{}', using occurrence but fixing UID", base_uid).into());
let mut fallback_event = edit.event.clone();
// Ensure the UID is the base UID, not the occurrence UID
fallback_event.uid = base_uid.clone();
fallback_event
}
};
// Calculate the day before this occurrence for UNTIL clause
let until_date =
edit.event.dtstart.date_naive() - chrono::Duration::days(1);
let until_datetime = until_date
.and_time(chrono::NaiveTime::from_hms_opt(23, 59, 59).unwrap());
let until_utc =
chrono::DateTime::<chrono::Utc>::from_naive_utc_and_offset(
until_datetime,
chrono::Utc,
);
web_sys::console::log_1(&format!("🔄 Will set UNTIL {} for original series to end before occurrence {}",
until_utc.format("%Y-%m-%d %H:%M:%S UTC"),
edit.event.dtstart.format("%Y-%m-%d %H:%M:%S UTC")).into());
// Critical: Use the dragged times (new_start/new_end) not the original series times
// This ensures the new series reflects the user's drag operation
let new_start = edit.new_start; // The dragged start time
let new_end = edit.new_end; // The dragged end time
// Extract occurrence date from the dragged event for backend processing
// Format: YYYY-MM-DD (e.g., "2025-08-22")
// This tells the backend which specific occurrence is being modified
let occurrence_date = edit.event.dtstart.format("%Y-%m-%d").to_string();
// Send single request to backend with "this_and_future" scope
// Backend will atomically:
// 1. Add UNTIL clause to original series (stops before occurrence_date)
// 2. Create new series starting from occurrence_date with dragged times
update_callback.emit((
original_series, // Original event to terminate
new_start, // Dragged start time for new series
new_end, // Dragged end time for new series
true, // preserve_rrule = true
Some(until_utc), // UNTIL date for original series
Some("this_and_future".to_string()), // Update scope
Some(occurrence_date), // Date of occurrence being modified
));
}
}
RecurringEditAction::AllEvents => {
// Modify the entire series
let series_event = edit.event.clone();
if let Some(callback) = &on_event_update {
callback.emit((
series_event,
edit.new_start,
edit.new_end,
true,
None,
Some("all_in_series".to_string()),
None,
)); // Regular drag operation - preserve RRULE, update_scope = all_in_series
}
}
}
}
pending_recurring_edit.set(None);
})
};
let on_recurring_cancel = {
let pending_recurring_edit = pending_recurring_edit.clone();
Callback::from(move |_| {
pending_recurring_edit.set(None);
})
};
html! {
<div class="week-view-container">
// Header with weekday names and dates
<div class="week-header">
<div class="time-gutter"></div>
{
week_days.iter().map(|date| {
let is_today = *date == props.today;
let weekday_name = get_weekday_name(date.weekday());
let day_events = props.events.get(date).cloned().unwrap_or_default();
// Filter for all-day events only
let all_day_events: Vec<_> = day_events.iter().filter(|event| event.all_day).collect();
html! {
<div class={classes!("week-day-header", if is_today { Some("today") } else { None })}>
<div class="day-header-content">
<div class="weekday-name">{weekday_name}</div>
<div class="day-number">{date.day()}</div>
</div>
// All-day events section
{if !all_day_events.is_empty() {
html! {
<div class="all-day-events">
{
all_day_events.iter().map(|event| {
let event_color = get_event_color(event);
let onclick = {
let on_event_click = props.on_event_click.clone();
let event = (*event).clone();
Callback::from(move |e: MouseEvent| {
e.stop_propagation();
on_event_click.emit(event.clone());
})
};
let oncontextmenu = {
if let Some(callback) = &props.on_event_context_menu {
let callback = callback.clone();
let event = (*event).clone();
Some(Callback::from(move |e: web_sys::MouseEvent| {
e.prevent_default();
e.stop_propagation(); // Prevent calendar context menu from also triggering
callback.emit((e, event.clone()));
}))
} else {
None
}
};
html! {
<div
class="all-day-event"
style={format!("background-color: {}", event_color)}
{onclick}
{oncontextmenu}
>
<span class="all-day-event-title">
{event.summary.as_ref().unwrap_or(&"Untitled".to_string())}
</span>
</div>
}
}).collect::<Html>()
}
</div>
}
} else {
html! {}
}}
</div>
}
}).collect::<Html>()
}
</div>
// Scrollable content area with time grid
<div class="week-content">
<div class="time-grid">
// Time labels
<div class="time-labels">
{
time_labels.iter().enumerate().map(|(index, time)| {
let is_final = index == time_labels.len() - 1;
html! {
<div class={classes!("time-label", if is_final { Some("final-boundary") } else { None })}>
{time}
</div>
}
}).collect::<Html>()
}
</div>
// Day columns
<div class="week-days-grid">
{
week_days.iter().enumerate().map(|(_column_index, date)| {
let is_today = *date == props.today;
let day_events = props.events.get(date).cloned().unwrap_or_default();
let event_layouts = calculate_event_layout(&day_events, *date);
// Drag event handlers
let drag_state_clone = drag_state.clone();
let date_for_drag = *date;
let onmousedown = {
let drag_state = drag_state_clone.clone();
let context_menus_open = props.context_menus_open;
let time_increment = props.time_increment;
Callback::from(move |e: MouseEvent| {
// Don't start drag if any context menu is open
if context_menus_open {
return;
}
// Only handle left-click (button 0)
if e.button() != 0 {
return;
}
// Calculate Y position relative to day column container
// Use layer_y which gives coordinates relative to positioned ancestor
let relative_y = e.layer_y() as f64;
let relative_y = if relative_y > 0.0 { relative_y } else { e.offset_y() as f64 };
// Snap to increment
let snapped_y = snap_to_increment(relative_y, time_increment);
drag_state.set(Some(DragState {
is_dragging: true,
drag_type: DragType::CreateEvent,
start_date: date_for_drag,
start_y: snapped_y,
current_y: snapped_y,
offset_y: 0.0,
has_moved: false,
}));
e.prevent_default();
})
};
let onmousemove = {
let drag_state = drag_state_clone.clone();
let time_increment = props.time_increment;
Callback::from(move |e: MouseEvent| {
// Only process mouse move if a button is still pressed
if e.buttons() == 0 {
// No mouse button pressed, clear drag state
drag_state.set(None);
return;
}
if let Some(mut current_drag) = (*drag_state).clone() {
if current_drag.is_dragging {
// Use layer_y for consistent coordinate calculation
let mouse_y = e.layer_y() as f64;
let mouse_y = if mouse_y > 0.0 { mouse_y } else { e.offset_y() as f64 };
// For move operations, we now follow the mouse directly since we start at click position
// For resize operations, we still use the mouse position directly
let adjusted_y = mouse_y;
// Snap to increment
let snapped_y = snap_to_increment(adjusted_y, time_increment);
// Check if we've moved enough to constitute a real drag (5 pixels minimum)
let movement_distance = (snapped_y - current_drag.start_y).abs();
if movement_distance > 5.0 {
current_drag.has_moved = true;
}
current_drag.current_y = snapped_y;
drag_state.set(Some(current_drag));
}
}
})
};
let onmouseup = {
let drag_state = drag_state_clone.clone();
let on_create_event = props.on_create_event.clone();
let on_event_update = props.on_event_update.clone();
let pending_recurring_edit = pending_recurring_edit.clone();
let time_increment = props.time_increment;
Callback::from(move |_e: MouseEvent| {
if let Some(current_drag) = (*drag_state).clone() {
if current_drag.is_dragging && current_drag.has_moved {
match &current_drag.drag_type {
DragType::CreateEvent => {
// Calculate start and end times
let start_time = pixels_to_time(current_drag.start_y);
let end_time = pixels_to_time(current_drag.current_y);
// Ensure start is before end
let (actual_start, actual_end) = if start_time <= end_time {
(start_time, end_time)
} else {
(end_time, start_time)
};
// Ensure minimum duration (15 minutes)
let actual_end = if actual_end.signed_duration_since(actual_start).num_minutes() < 15 {
actual_start + chrono::Duration::minutes(15)
} else {
actual_end
};
let start_datetime = NaiveDateTime::new(current_drag.start_date, actual_start);
let end_datetime = NaiveDateTime::new(current_drag.start_date, actual_end);
if let Some(callback) = &on_create_event {
callback.emit((current_drag.start_date, start_datetime, end_datetime));
}
},
DragType::MoveEvent(event) => {
// Calculate new start time based on drag position (accounting for click offset)
let unsnapped_position = current_drag.current_y - current_drag.offset_y;
// Snap the final position to maintain time increment alignment
let event_top_position = snap_to_increment(unsnapped_position, time_increment);
let new_start_time = pixels_to_time(event_top_position);
// Calculate duration from original event
let original_duration = if let Some(end) = event.dtend {
end.signed_duration_since(event.dtstart)
} else {
chrono::Duration::hours(1) // Default 1 hour
};
let new_start_datetime = NaiveDateTime::new(current_drag.start_date, new_start_time);
let new_end_datetime = new_start_datetime + original_duration;
// Check if this is a recurring event
if event.rrule.is_some() {
// Show modal for recurring event modification
pending_recurring_edit.set(Some(PendingRecurringEdit {
event: event.clone(),
new_start: new_start_datetime,
new_end: new_end_datetime,
}));
} else {
// Regular event - proceed with update
if let Some(callback) = &on_event_update {
callback.emit((event.clone(), new_start_datetime, new_end_datetime, true, None, None, None)); // Regular drag operation - preserve RRULE, no until_date
}
}
},
DragType::ResizeEventStart(event) => {
// Calculate new start time based on drag position
let new_start_time = pixels_to_time(current_drag.current_y);
// Keep the original end time
let original_end = if let Some(end) = event.dtend {
end.with_timezone(&chrono::Local).naive_local()
} else {
// If no end time, use start time + 1 hour as default
event.dtstart.with_timezone(&chrono::Local).naive_local() + chrono::Duration::hours(1)
};
let new_start_datetime = NaiveDateTime::new(current_drag.start_date, new_start_time);
// Ensure start is before end (minimum 15 minutes)
let new_end_datetime = if new_start_datetime >= original_end {
new_start_datetime + chrono::Duration::minutes(15)
} else {
original_end
};
// Check if this is a recurring event
if event.rrule.is_some() {
// Show modal for recurring event modification
pending_recurring_edit.set(Some(PendingRecurringEdit {
event: event.clone(),
new_start: new_start_datetime,
new_end: new_end_datetime,
}));
} else {
// Regular event - proceed with update
if let Some(callback) = &on_event_update {
callback.emit((event.clone(), new_start_datetime, new_end_datetime, true, None, None, None)); // Regular drag operation - preserve RRULE, no until_date
}
}
},
DragType::ResizeEventEnd(event) => {
// Calculate new end time based on drag position
let new_end_time = pixels_to_time(current_drag.current_y);
// Keep the original start time
let original_start = event.dtstart.with_timezone(&chrono::Local).naive_local();
let new_end_datetime = NaiveDateTime::new(current_drag.start_date, new_end_time);
// Ensure end is after start (minimum 15 minutes)
let new_start_datetime = if new_end_datetime <= original_start {
new_end_datetime - chrono::Duration::minutes(15)
} else {
original_start
};
// Check if this is a recurring event
if event.rrule.is_some() {
// Show modal for recurring event modification
pending_recurring_edit.set(Some(PendingRecurringEdit {
event: event.clone(),
new_start: new_start_datetime,
new_end: new_end_datetime,
}));
} else {
// Regular event - proceed with update
if let Some(callback) = &on_event_update {
callback.emit((event.clone(), new_start_datetime, new_end_datetime, true, None, None, None)); // Regular drag operation - preserve RRULE, no until_date
}
}
}
}
drag_state.set(None);
}
}
})
};
// Check if currently dragging to create an event
let is_creating_event = if let Some(drag) = (*drag_state).clone() {
matches!(drag.drag_type, DragType::CreateEvent) && drag.is_dragging
} else {
false
};
html! {
<div
class={classes!(
"week-day-column",
if is_today { Some("today") } else { None },
if is_creating_event { Some("creating-event") } else { None }
)}
{onmousedown}
{onmousemove}
{onmouseup}
>
// Time slot backgrounds - 24 hour slots to represent full day
{
(0..24).map(|_hour| {
html! {
<div class="time-slot">
<div class="time-slot-half"></div>
<div class="time-slot-half"></div>
</div>
}
}).collect::<Html>()
}
// Events positioned absolutely based on their actual times
<div class="events-container">
{
day_events.iter().enumerate().filter_map(|(event_idx, event)| {
let (start_pixels, duration_pixels, is_all_day) = calculate_event_position(event, *date);
// Skip all-day events (they're rendered in the header)
if is_all_day {
return None;
}
// Skip events that don't belong on this date or have invalid positioning
if start_pixels == 0.0 && duration_pixels == 0.0 {
return None;
}
let event_color = get_event_color(event);
let is_refreshing = props.refreshing_event_uid.as_ref() == Some(&event.uid);
let onclick = {
let on_event_click = props.on_event_click.clone();
let event = event.clone();
Callback::from(move |e: MouseEvent| {
e.stop_propagation(); // Prevent calendar click events from also triggering
on_event_click.emit(event.clone());
})
};
let onmousedown_event = {
let drag_state = drag_state.clone();
let event_for_drag = event.clone();
let date_for_drag = *date;
let _time_increment = props.time_increment;
Callback::from(move |e: MouseEvent| {
e.stop_propagation(); // Prevent drag-to-create from starting on event clicks
// Only handle left-click (button 0) for moving
if e.button() != 0 {
return;
}
// Calculate click position relative to event element
let click_y_relative = e.layer_y() as f64;
let click_y_relative = if click_y_relative > 0.0 { click_y_relative } else { e.offset_y() as f64 };
// Get event's current position in day column coordinates
let (event_start_pixels, _, _) = calculate_event_position(&event_for_drag, date_for_drag);
let event_start_pixels = event_start_pixels as f64;
// Convert click position to day column coordinates
let click_y = event_start_pixels + click_y_relative;
// Store the offset from the event's top where the user clicked
// This will be used to maintain the relative click position
let offset_y = click_y_relative;
// Start drag tracking from where we clicked (in day column coordinates)
drag_state.set(Some(DragState {
is_dragging: true,
drag_type: DragType::MoveEvent(event_for_drag.clone()),
start_date: date_for_drag,
start_y: click_y,
current_y: click_y,
offset_y,
has_moved: false,
}));
e.prevent_default();
})
};
let oncontextmenu = {
if let Some(callback) = &props.on_event_context_menu {
let callback = callback.clone();
let event = event.clone();
let drag_state_for_context = drag_state.clone();
Some(Callback::from(move |e: web_sys::MouseEvent| {
// Check if we're currently dragging - if so, prevent context menu
if let Some(drag) = (*drag_state_for_context).clone() {
if drag.is_dragging {
e.prevent_default();
return;
}
}
e.prevent_default();
e.stop_propagation(); // Prevent calendar context menu from also triggering
callback.emit((e, event.clone()));
}))
} else {
None
}
};
// Format time display for the event
let time_display = if event.all_day {
"All Day".to_string()
} else {
let local_start = event.dtstart.with_timezone(&Local);
if let Some(end) = event.dtend {
let local_end = end.with_timezone(&Local);
// Check if both times are in same AM/PM period to avoid redundancy
let start_is_am = local_start.hour() < 12;
let end_is_am = local_end.hour() < 12;
if start_is_am == end_is_am {
// Same AM/PM period - show "9:00 - 10:30 AM"
format!("{} - {}",
local_start.format("%I:%M").to_string().trim_start_matches('0'),
local_end.format("%I:%M %p")
)
} else {
// Different AM/PM periods - show "9:00 AM - 2:30 PM"
format!("{} - {}",
local_start.format("%I:%M %p"),
local_end.format("%I:%M %p")
)
}
} else {
// No end time, just show start time
format!("{}", local_start.format("%I:%M %p"))
}
};
// Check if this event is currently being dragged or resized
let is_being_dragged = if let Some(drag) = (*drag_state).clone() {
match &drag.drag_type {
DragType::MoveEvent(dragged_event) =>
dragged_event.uid == event.uid && drag.is_dragging,
DragType::ResizeEventStart(dragged_event) =>
dragged_event.uid == event.uid && drag.is_dragging,
DragType::ResizeEventEnd(dragged_event) =>
dragged_event.uid == event.uid && drag.is_dragging,
_ => false,
}
} else {
false
};
if is_being_dragged {
// Hide the original event while being dragged
Some(html! {})
} else {
// Create resize handles for left-click resize
let resize_start_handler = {
let drag_state = drag_state.clone();
let event_for_resize = event.clone();
let date_for_drag = *date;
let time_increment = props.time_increment;
Callback::from(move |e: web_sys::MouseEvent| {
e.stop_propagation();
let relative_y = e.layer_y() as f64;
let relative_y = if relative_y > 0.0 { relative_y } else { e.offset_y() as f64 };
let snapped_y = snap_to_increment(relative_y, time_increment);
drag_state.set(Some(DragState {
is_dragging: true,
drag_type: DragType::ResizeEventStart(event_for_resize.clone()),
start_date: date_for_drag,
start_y: snapped_y,
current_y: snapped_y,
offset_y: 0.0,
has_moved: false,
}));
e.prevent_default();
})
};
let resize_end_handler = {
let drag_state = drag_state.clone();
let event_for_resize = event.clone();
let date_for_drag = *date;
let time_increment = props.time_increment;
Callback::from(move |e: web_sys::MouseEvent| {
e.stop_propagation();
let relative_y = e.layer_y() as f64;
let relative_y = if relative_y > 0.0 { relative_y } else { e.offset_y() as f64 };
let snapped_y = snap_to_increment(relative_y, time_increment);
drag_state.set(Some(DragState {
is_dragging: true,
drag_type: DragType::ResizeEventEnd(event_for_resize.clone()),
start_date: date_for_drag,
start_y: snapped_y,
current_y: snapped_y,
offset_y: 0.0,
has_moved: false,
}));
e.prevent_default();
})
};
Some(html! {
<div
class={classes!(
"week-event",
if is_refreshing { Some("refreshing") } else { None },
if is_all_day { Some("all-day") } else { None }
)}
style={
let (column_idx, total_columns) = event_layouts[event_idx];
let column_width = if total_columns > 1 {
format!("calc((100% - 8px) / {})", total_columns) // Account for 4px margins on each side
} else {
"calc(100% - 8px)".to_string()
};
let left_offset = if total_columns > 1 {
format!("calc(4px + {} * (100% - 8px) / {})", column_idx, total_columns)
} else {
"4px".to_string()
};
format!(
"background-color: {}; top: {}px; height: {}px; left: {}; width: {}; right: auto;",
event_color,
start_pixels,
duration_pixels,
left_offset,
column_width
)
}
{onclick}
{oncontextmenu}
onmousedown={onmousedown_event}
>
// Top resize handle
{if !is_all_day {
html! {
<div
class="resize-handle resize-handle-top"
onmousedown={resize_start_handler}
/>
}
} else {
html! {}
}}
// Event content
<div class="event-content">
<div class="event-title">{event.summary.as_ref().unwrap_or(&"Untitled".to_string())}</div>
{if !is_all_day {
html! { <div class="event-time">{time_display}</div> }
} else {
html! {}
}}
</div>
// Bottom resize handle
{if !is_all_day {
html! {
<div
class="resize-handle resize-handle-bottom"
onmousedown={resize_end_handler}
/>
}
} else {
html! {}
}}
</div>
})
}
}).collect::<Html>()
}
</div>
// Temporary event box during drag
{
if let Some(drag) = (*drag_state).clone() {
if drag.is_dragging && drag.has_moved && drag.start_date == *date {
match &drag.drag_type {
DragType::CreateEvent => {
let start_y = drag.start_y.min(drag.current_y);
let end_y = drag.start_y.max(drag.current_y);
let height = (drag.current_y - drag.start_y).abs().max(20.0);
// Convert pixels to times for display
let start_time = pixels_to_time(start_y);
let end_time = pixels_to_time(end_y);
html! {
<div
class="temp-event-box"
style={format!("top: {}px; height: {}px;", start_y, height)}
>
{format!("{} - {}", start_time.format("%I:%M %p"), end_time.format("%I:%M %p"))}
</div>
}
},
DragType::MoveEvent(event) => {
// Calculate the event's new position accounting for click offset
let unsnapped_position = drag.current_y - drag.offset_y;
// Snap the final position to maintain time increment alignment
let preview_position = snap_to_increment(unsnapped_position, props.time_increment);
let new_start_time = pixels_to_time(preview_position);
let original_duration = if let Some(end) = event.dtend {
end.signed_duration_since(event.dtstart)
} else {
chrono::Duration::hours(1)
};
let duration_pixels = (original_duration.num_minutes() as f64).max(20.0);
let new_end_time = new_start_time + original_duration;
let event_color = get_event_color(event);
html! {
<div
class="temp-event-box moving-event"
style={format!("top: {}px; height: {}px; background-color: {}; opacity: 0.7;", preview_position, duration_pixels, event_color)}
>
<div class="event-title">{event.summary.as_ref().unwrap_or(&"Untitled".to_string())}</div>
<div class="event-time">{format!("{} - {}", new_start_time.format("%I:%M %p"), new_end_time.format("%I:%M %p"))}</div>
</div>
}
},
DragType::ResizeEventStart(event) => {
// Show the event being resized from the start
let new_start_time = pixels_to_time(drag.current_y);
let original_end = if let Some(end) = event.dtend {
end.with_timezone(&chrono::Local).naive_local()
} else {
event.dtstart.with_timezone(&chrono::Local).naive_local() + chrono::Duration::hours(1)
};
// Calculate positions for the preview
let (original_start_pixels, _, _) = calculate_event_position(event, drag.start_date);
let original_duration = original_end.signed_duration_since(event.dtstart.with_timezone(&chrono::Local).naive_local());
let original_end_pixels = original_start_pixels + (original_duration.num_minutes() as f32);
let new_start_pixels = drag.current_y;
let new_height = (original_end_pixels as f64 - new_start_pixels).max(20.0);
let event_color = get_event_color(event);
html! {
<div
class="temp-event-box resizing-event"
style={format!("top: {}px; height: {}px; background-color: {}; opacity: 0.7;", new_start_pixels, new_height, event_color)}
>
<div class="event-title">{event.summary.as_ref().unwrap_or(&"Untitled".to_string())}</div>
<div class="event-time">{format!("{} - {}", new_start_time.format("%I:%M %p"), original_end.time().format("%I:%M %p"))}</div>
</div>
}
},
DragType::ResizeEventEnd(event) => {
// Show the event being resized from the end
let new_end_time = pixels_to_time(drag.current_y);
let original_start = event.dtstart.with_timezone(&chrono::Local).naive_local();
// Calculate positions for the preview
let (original_start_pixels, _, _) = calculate_event_position(event, drag.start_date);
let new_end_pixels = drag.current_y;
let new_height = (new_end_pixels - original_start_pixels as f64).max(20.0);
let event_color = get_event_color(event);
html! {
<div
class="temp-event-box resizing-event"
style={format!("top: {}px; height: {}px; background-color: {}; opacity: 0.7;", original_start_pixels, new_height, event_color)}
>
<div class="event-title">{event.summary.as_ref().unwrap_or(&"Untitled".to_string())}</div>
<div class="event-time">{format!("{} - {}", original_start.time().format("%I:%M %p"), new_end_time.format("%I:%M %p"))}</div>
</div>
}
}
}
} else {
html! {}
}
} else {
html! {}
}
}
</div>
}
}).collect::<Html>()
}
</div>
</div>
</div>
// Recurring event modification modal
if let Some(edit) = (*pending_recurring_edit).clone() {
<RecurringEditModal
show={true}
event={edit.event}
new_start={edit.new_start}
new_end={edit.new_end}
on_choice={on_recurring_choice}
on_cancel={on_recurring_cancel}
/>
} else {
<></>
}
</div>
}
}
fn get_start_of_week(date: NaiveDate) -> NaiveDate {
let weekday = date.weekday();
let days_from_sunday = match weekday {
Weekday::Sun => 0,
Weekday::Mon => 1,
Weekday::Tue => 2,
Weekday::Wed => 3,
Weekday::Thu => 4,
Weekday::Fri => 5,
Weekday::Sat => 6,
};
date - Duration::days(days_from_sunday)
}
fn get_weekday_name(weekday: Weekday) -> &'static str {
match weekday {
Weekday::Sun => "Sun",
Weekday::Mon => "Mon",
Weekday::Tue => "Tue",
Weekday::Wed => "Wed",
Weekday::Thu => "Thu",
Weekday::Fri => "Fri",
Weekday::Sat => "Sat",
}
}
// Calculate the pixel position of an event based on its time
// Each hour is 60px, so we convert time to pixels
// Snap pixel position to 15-minute increments (15px = 15 minutes since 60px = 60 minutes)
fn snap_to_increment(pixels: f64, increment: u32) -> f64 {
let increment_px = increment as f64; // Convert to pixels (1px = 1 minute)
(pixels / increment_px).round() * increment_px
}
// Convert pixel position to time (inverse of time to pixels)
fn pixels_to_time(pixels: f64) -> NaiveTime {
// Since 60px = 1 hour, pixels directly represent minutes
let total_minutes = pixels; // 1px = 1 minute
let hours = (total_minutes / 60.0) as u32;
let minutes = (total_minutes % 60.0) as u32;
// Handle midnight boundary - if we're at exactly 1440 pixels (24:00), return midnight
if total_minutes >= 1440.0 {
return NaiveTime::from_hms_opt(0, 0, 0).unwrap();
}
// Clamp to valid time range for within-day times
let hours = hours.min(23);
let minutes = minutes.min(59);
NaiveTime::from_hms_opt(hours, minutes, 0).unwrap_or(NaiveTime::from_hms_opt(0, 0, 0).unwrap())
}
fn calculate_event_position(event: &VEvent, date: NaiveDate) -> (f32, f32, bool) {
// Convert UTC times to local time for display
let local_start = event.dtstart.with_timezone(&Local);
let event_date = local_start.date_naive();
// Position events based on when they appear in local time, not their original date
// For timezone issues: an event created at 10 PM Sunday might be stored as Monday UTC
// but should still display on Sunday's column since that's when the user sees it
let should_display_here = event_date == date ||
(event_date == date - chrono::Duration::days(1) && local_start.hour() >= 20);
if !should_display_here {
return (0.0, 0.0, false); // Event not on this date
}
// Handle all-day events - they appear at the top
if event.all_day {
return (0.0, 30.0, true); // Position at top, 30px height, is_all_day = true
}
// Calculate start position in pixels from midnight
let start_hour = local_start.hour() as f32;
let start_minute = local_start.minute() as f32;
let start_pixels = (start_hour + start_minute / 60.0) * 60.0; // 60px per hour
// Calculate duration and height
let duration_pixels = if let Some(end) = event.dtend {
let local_end = end.with_timezone(&Local);
let end_date = local_end.date_naive();
// Handle events that span multiple days by capping at midnight
if end_date > date {
// Event continues past midnight, cap at 24:00 (1440px)
1440.0 - start_pixels
} else {
let end_hour = local_end.hour() as f32;
let end_minute = local_end.minute() as f32;
let end_pixels = (end_hour + end_minute / 60.0) * 60.0;
(end_pixels - start_pixels).max(20.0) // Minimum 20px height
}
} else {
60.0 // Default 1 hour if no end time
};
(start_pixels, duration_pixels, false) // is_all_day = false
}
// Check if two events overlap in time
fn events_overlap(event1: &VEvent, event2: &VEvent) -> bool {
let start1 = event1.dtstart.with_timezone(&Local).naive_local();
let end1 = if let Some(end) = event1.dtend {
end.with_timezone(&Local).naive_local()
} else {
start1 + chrono::Duration::hours(1) // Default 1 hour duration
};
let start2 = event2.dtstart.with_timezone(&Local).naive_local();
let end2 = if let Some(end) = event2.dtend {
end.with_timezone(&Local).naive_local()
} else {
start2 + chrono::Duration::hours(1) // Default 1 hour duration
};
// Events overlap if one starts before the other ends
start1 < end2 && start2 < end1
}
// Calculate layout columns for overlapping events
fn calculate_event_layout(events: &[VEvent], date: NaiveDate) -> Vec<(usize, usize)> {
// Filter and sort events that should appear on this date
let mut day_events: Vec<_> = events.iter()
.enumerate()
.filter_map(|(idx, event)| {
let (_, _, _) = calculate_event_position(event, date);
let local_start = event.dtstart.with_timezone(&Local);
let event_date = local_start.date_naive();
if event_date == date ||
(event_date == date - chrono::Duration::days(1) && local_start.hour() >= 20) {
Some((idx, event))
} else {
None
}
})
.collect();
// Sort by start time
day_events.sort_by_key(|(_, event)| event.dtstart.with_timezone(&Local).naive_local());
// For each event, find all events it overlaps with
let mut event_columns = vec![(0, 1); events.len()]; // (column_idx, total_columns)
for i in 0..day_events.len() {
let (orig_idx_i, event_i) = day_events[i];
// Find all events that overlap with this event
let mut overlapping_events = vec![i];
for j in 0..day_events.len() {
if i != j {
let (_, event_j) = day_events[j];
if events_overlap(event_i, event_j) {
overlapping_events.push(j);
}
}
}
// If this event doesn't overlap with anything, it gets full width
if overlapping_events.len() == 1 {
event_columns[orig_idx_i] = (0, 1);
} else {
// This event overlaps - we need to calculate column layout
// Sort the overlapping group by start time
overlapping_events.sort_by_key(|&idx| day_events[idx].1.dtstart.with_timezone(&Local).naive_local());
// Assign columns using a greedy algorithm
let mut columns: Vec<Vec<usize>> = Vec::new();
for &event_idx in &overlapping_events {
let (orig_idx, event) = day_events[event_idx];
// Find the first column where this event doesn't overlap with existing events
let mut placed = false;
for (col_idx, column) in columns.iter_mut().enumerate() {
let can_place = column.iter().all(|&existing_idx| {
let (_, existing_event) = day_events[existing_idx];
!events_overlap(event, existing_event)
});
if can_place {
column.push(event_idx);
event_columns[orig_idx] = (col_idx, columns.len());
placed = true;
break;
}
}
if !placed {
// Create new column
columns.push(vec![event_idx]);
event_columns[orig_idx] = (columns.len() - 1, columns.len());
}
}
// Update total_columns for all events in this overlapping group
let total_columns = columns.len();
for &event_idx in &overlapping_events {
let (orig_idx, _) = day_events[event_idx];
event_columns[orig_idx].1 = total_columns;
}
}
}
event_columns
}
Reference in New Issue View Git Blame Copy Permalink