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common/
event.rs

1// Generated by Qleany v1.7.3 from common_event.tera
2
3use crate::types::EntityId;
4use flume::{Receiver, Sender, unbounded};
5use parking_lot::Mutex;
6use serde::Serialize;
7use std::{sync::Arc, thread};
8
9#[derive(Debug, Clone, Hash, PartialEq, Eq, Serialize)]
10pub enum EntityEvent {
11    Created,
12    Updated,
13    Removed,
14}
15
16#[derive(Debug, Clone, Hash, PartialEq, Eq, Serialize)]
17pub enum AllEvent {
18    Reset,
19}
20
21#[derive(Debug, Clone, Hash, PartialEq, Eq, Serialize)]
22pub enum UndoRedoEvent {
23    Undone,
24    Redone,
25    BeginComposite,
26    EndComposite,
27    CancelComposite,
28}
29
30#[derive(Debug, Clone, Hash, PartialEq, Eq, Serialize)]
31pub enum LongOperationEvent {
32    Started,
33    Progress,
34    Cancelled,
35    Completed,
36    Failed,
37}
38
39#[derive(Debug, Clone, Hash, PartialEq, Eq, Serialize)]
40pub enum DirectAccessEntity {
41    All(AllEvent),
42
43    Root(EntityEvent),
44    Document(EntityEvent),
45    Frame(EntityEvent),
46    Block(EntityEvent),
47    List(EntityEvent),
48    Resource(EntityEvent),
49    Table(EntityEvent),
50    TableCell(EntityEvent),
51}
52
53#[derive(Debug, Clone, Hash, PartialEq, Eq, Serialize)]
54pub enum DocumentEditingEvent {
55    InsertText,
56    DeleteText,
57    InsertBlock,
58    InsertImage,
59    InsertFrame,
60    InsertFormattedText,
61    CreateList,
62    InsertList,
63    AddBlockToList,
64    RemoveBlockFromList,
65    InsertFragment,
66    InsertHtmlAtPosition,
67    InsertMarkdownAtPosition,
68    InsertDjotAtPosition,
69    InsertTable,
70    RemoveTable,
71    InsertTableRow,
72    InsertTableColumn,
73    RemoveTableRow,
74    RemoveTableColumn,
75    MergeTableCells,
76    SplitTableCell,
77    WrapBlocksInFrame,
78    UnwrapFrame,
79    UnwrapBlockFromFrame,
80}
81
82#[derive(Debug, Clone, Hash, PartialEq, Eq, Serialize)]
83pub enum DocumentFormattingEvent {
84    SetTextFormat,
85    MergeTextFormat,
86    SetBlockFormat,
87    SetFrameFormat,
88    SetTableFormat,
89    SetTableCellFormat,
90    SetListFormat,
91}
92
93#[derive(Debug, Clone, Hash, PartialEq, Eq, Serialize)]
94pub enum DocumentIoEvent {
95    ImportPlainText,
96    ExportPlainText,
97    ImportMarkdown,
98    ExportMarkdown,
99    ImportHtml,
100    ExportHtml,
101    ImportDjot,
102    ExportDjot,
103    ExportLatex,
104    ExportDocx,
105}
106
107#[derive(Debug, Clone, Hash, PartialEq, Eq, Serialize)]
108pub enum DocumentSearchEvent {
109    FindText,
110    FindAll,
111    ReplaceText,
112}
113
114#[derive(Debug, Clone, Hash, PartialEq, Eq, Serialize)]
115pub enum DocumentInspectionEvent {
116    GetDocumentStats,
117    GetTextAtPosition,
118    GetBlockAtPosition,
119    ExtractFragment,
120}
121
122#[derive(Debug, Clone, Hash, PartialEq, Eq, Serialize)]
123pub enum Origin {
124    DirectAccess(DirectAccessEntity),
125    UndoRedo(UndoRedoEvent),
126    LongOperation(LongOperationEvent),
127
128    DocumentEditing(DocumentEditingEvent),
129    DocumentFormatting(DocumentFormattingEvent),
130    DocumentIo(DocumentIoEvent),
131    DocumentSearch(DocumentSearchEvent),
132    DocumentInspection(DocumentInspectionEvent),
133}
134
135#[derive(Debug, Clone, Hash, PartialEq, Eq, Serialize)]
136pub struct Event {
137    pub origin: Origin,
138    pub ids: Vec<EntityId>,
139    pub data: Option<String>,
140}
141
142impl Event {
143    pub fn origin_string(&self) -> String {
144        match &self.origin {
145            Origin::DirectAccess(entity) => match entity {
146                DirectAccessEntity::All(event) => format!("direct_access_all_{:?}", event),
147                // entities
148                DirectAccessEntity::Root(event) => format!("direct_access_root_{:?}", event),
149                DirectAccessEntity::Document(event) => {
150                    format!("direct_access_document_{:?}", event)
151                }
152                DirectAccessEntity::Frame(event) => format!("direct_access_frame_{:?}", event),
153                DirectAccessEntity::Block(event) => format!("direct_access_block_{:?}", event),
154                DirectAccessEntity::List(event) => format!("direct_access_list_{:?}", event),
155                DirectAccessEntity::Resource(event) => {
156                    format!("direct_access_resource_{:?}", event)
157                }
158                DirectAccessEntity::Table(event) => format!("direct_access_table_{:?}", event),
159                DirectAccessEntity::TableCell(event) => {
160                    format!("direct_access_table_cell_{:?}", event)
161                }
162            },
163            Origin::UndoRedo(event) => format!("undo_redo_{:?}", event),
164            Origin::LongOperation(event) => format!("long_operation_{:?}", event),
165            // features
166            Origin::DocumentEditing(event) => format!("document_editing_{:?}", event),
167            Origin::DocumentFormatting(event) => format!("document_formatting_{:?}", event),
168            Origin::DocumentIo(event) => format!("document_io_{:?}", event),
169            Origin::DocumentSearch(event) => format!("document_search_{:?}", event),
170            Origin::DocumentInspection(event) => format!("document_inspection_{:?}", event),
171        }
172        .to_lowercase()
173    }
174}
175/// Thread-safe event buffer for deferring event emissions during transactions.
176///
177/// Repositories push events into this buffer instead of sending them directly
178/// to the EventHub. On commit(), the UoW drains the buffer and sends all events.
179/// On rollback(), the buffer is discarded. This prevents the UI from seeing
180/// phantom state from failed transactions.
181///
182/// This is the Rust equivalent of SignalBuffer in the C++/Qt target.
183pub struct EventBuffer {
184    buffering: bool,
185    pending: Vec<Event>,
186}
187
188impl EventBuffer {
189    pub fn new() -> Self {
190        Self {
191            buffering: false,
192            pending: Vec::new(),
193        }
194    }
195
196    /// Start buffering. Clears any stale events from a previous cycle.
197    pub fn begin_buffering(&mut self) {
198        self.buffering = true;
199        self.pending.clear();
200    }
201
202    /// Queue an event for deferred delivery.
203    ///
204    /// If buffering is not active, the event is silently dropped.
205    /// (Callers should only push during an active transaction.)
206    pub fn push(&mut self, event: Event) {
207        if self.buffering {
208            self.pending.push(event);
209        }
210    }
211
212    /// Drain all pending events and stop buffering.
213    /// The caller is responsible for sending them to the EventHub.
214    pub fn flush(&mut self) -> Vec<Event> {
215        self.buffering = false;
216        std::mem::take(&mut self.pending)
217    }
218
219    /// Discard all pending events and stop buffering.
220    pub fn discard(&mut self) {
221        self.buffering = false;
222        self.pending.clear();
223    }
224
225    pub fn is_buffering(&self) -> bool {
226        self.buffering
227    }
228}
229
230impl Default for EventBuffer {
231    fn default() -> Self {
232        Self::new()
233    }
234}
235
236pub type Queue = Arc<Mutex<Vec<Event>>>;
237
238/// Central event hub for managing subscriptions and dispatching events
239#[derive(Debug)]
240pub struct EventHub {
241    sender: Sender<Event>,
242    receiver: Receiver<Event>,
243    queue: Queue,
244}
245
246impl Default for EventHub {
247    fn default() -> Self {
248        Self::new()
249    }
250}
251
252impl EventHub {
253    /// Create a new event hub
254    pub fn new() -> Self {
255        let (sender, receiver) = unbounded();
256        EventHub {
257            sender,
258            receiver,
259            queue: Arc::new(Mutex::new(Vec::new())),
260        }
261    }
262
263    /// Start the event processing loop.
264    ///
265    /// Returns a `JoinHandle` so the caller can join the thread on
266    /// shutdown. The thread blocks on a `flume::Selector` that wakes
267    /// only when an event arrives or `shutdown_rx` disconnects — zero
268    /// CPU while idle. Drop the matching `Sender<()>` to stop the
269    /// thread.
270    pub fn start_event_loop(&self, shutdown_rx: Receiver<()>) -> thread::JoinHandle<()> {
271        let receiver = self.receiver.clone();
272        let queue = self.queue.clone();
273        thread::spawn(move || {
274            loop {
275                let outcome: Result<Option<Event>, ()> = flume::Selector::new()
276                    .recv(&receiver, |r| r.map(Some).map_err(|_| ()))
277                    .recv(&shutdown_rx, |_| Ok(None))
278                    .wait();
279                match outcome {
280                    Ok(Some(event)) => {
281                        let mut queue = queue.lock();
282                        queue.push(event);
283                    }
284                    Ok(None) | Err(()) => break,
285                }
286            }
287        })
288    }
289
290    /// Send an event to the queue
291    pub fn send_event(&self, event: Event) {
292        if let Err(e) = self.sender.send(event) {
293            eprintln!("EventHub: failed to send event (receiver dropped): {e}");
294        }
295    }
296
297    pub fn get_queue(&self) -> Queue {
298        self.queue.clone()
299    }
300
301    /// Get a direct event receiver.
302    ///
303    /// The receiver blocks on `recv()` until an event arrives — no polling needed.
304    /// **Important**: flume uses MPMC semantics — each event is delivered to exactly
305    /// one receiver. Multiple cloned receivers compete for events rather than each
306    /// receiving a copy. Ensure only one consumer calls `subscribe_receiver()`.
307    pub fn subscribe_receiver(&self) -> Receiver<Event> {
308        self.receiver.clone()
309    }
310}
311
312#[cfg(test)]
313mod tests {
314    use super::*;
315
316    #[test]
317    fn test_event_hub_send_and_receive() {
318        let event_hub = EventHub::new();
319        let (shutdown_tx, shutdown_rx) = flume::bounded::<()>(1);
320        let handle = event_hub.start_event_loop(shutdown_rx);
321
322        let event = Event {
323            origin: Origin::DirectAccess(DirectAccessEntity::All(AllEvent::Reset)),
324            ids: vec![EntityId::default()],
325            data: Some("test_data".to_string()),
326        };
327
328        event_hub.send_event(event.clone());
329
330        thread::sleep(std::time::Duration::from_millis(100));
331
332        let queue = event_hub.get_queue();
333        let queue = queue.lock();
334        assert_eq!(queue.len(), 1);
335        assert_eq!(queue[0], event);
336
337        // Drop the sender to wake the loop thread and exit cleanly.
338        drop(shutdown_tx);
339        handle.join().unwrap();
340    }
341}