// Copyright 2015 The Tcell Authors // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use file except in compliance with the License. // You may obtain a copy of the license at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package views import ( "github.com/gdamore/tcell/v2" ) // Widget is the base object that all onscreen elements implement. type Widget interface { // Draw is called to inform the widget to draw itself. A containing // Widget will generally call this during the application draw loop. Draw() // Resize is called in response to a resize of the View. Unlike with // other events, Resize performed by parents first, and they must // then call their children. This is because the children need to // see the updated sizes from the parents before they are called. // In general this is done *after* the views have updated. Resize() // HandleEvent is called to ask the widget to handle any events. // If the widget has consumed the event, it should return true. // Generally, events are handled by the lower layers first, that // is for example, a button may have a chance to handle an event // before the enclosing window or panel. // // Its expected that Resize events are consumed by the outermost // Widget, and the turned into a Resize() call. HandleEvent(ev tcell.Event) bool // SetView is used by callers to set the visual context of the // Widget. The Widget should use the View as a context for // drawing. SetView(view View) // Size returns the size of the widget (content size) as width, height // in columns. Layout managers should attempt to ensure that at least // this much space is made available to the View for this Widget. Extra // space may be allocated on as an needed basis. Size() (int, int) // Watch is used to register an interest in this widget's events. // The handler will receive EventWidget events for this widget. // The order of event delivery when there are multiple watchers is // not specified, and may change from one event to the next. Watch(handler tcell.EventHandler) // Unwatch is used to urnegister an interest in this widget's events. Unwatch(handler tcell.EventHandler) } // EventWidget is an event delivered by a specific widget. type EventWidget interface { Widget() Widget tcell.Event } type widgetEvent struct { widget Widget tcell.EventTime } func (wev *widgetEvent) Widget() Widget { return wev.widget } func (wev *widgetEvent) SetWidget(widget Widget) { wev.widget = widget } // WidgetWatchers provides a common implementation for base Widget // Watch and Unwatch interfaces, suitable for embedding in more concrete // widget implementations. type WidgetWatchers struct { watchers map[tcell.EventHandler]struct{} } // Watch monitors this WidgetWatcher, causing the handler to be fired // with EventWidget as they are occur on the watched Widget. func (ww *WidgetWatchers) Watch(handler tcell.EventHandler) { if ww.watchers == nil { ww.watchers = make(map[tcell.EventHandler]struct{}) } ww.watchers[handler] = struct{}{} } // Unwatch stops monitoring this WidgetWatcher. The handler will no longer // be fired for Widget events. func (ww *WidgetWatchers) Unwatch(handler tcell.EventHandler) { if ww.watchers != nil { delete(ww.watchers, handler) } } // PostEvent delivers the EventWidget to all registered watchers. It is // to be called by the Widget implementation. func (ww *WidgetWatchers) PostEvent(wev EventWidget) { for watcher := range ww.watchers { // Deliver events to all listeners, ignoring return value. watcher.HandleEvent(wev) } } // PostEventWidgetContent is called by the Widget when its content is // changed, delivering EventWidgetContent to all watchers. func (ww *WidgetWatchers) PostEventWidgetContent(w Widget) { ev := &EventWidgetContent{} ev.SetWidget(w) ev.SetEventNow() ww.PostEvent(ev) } // PostEventWidgetResize is called by the Widget when the underlying View // has resized, delivering EventWidgetResize to all watchers. func (ww *WidgetWatchers) PostEventWidgetResize(w Widget) { ev := &EventWidgetResize{} ev.SetWidget(w) ev.SetEventNow() ww.PostEvent(ev) } // PostEventWidgetMove is called by the Widget when it is moved to a new // location, delivering EventWidgetMove to all watchers. func (ww *WidgetWatchers) PostEventWidgetMove(w Widget) { ev := &EventWidgetMove{} ev.SetWidget(w) ev.SetEventNow() ww.PostEvent(ev) } // XXX: WidgetExposed, Hidden? // XXX: WidgetExposed, Hidden? // EventWidgetContent is fired whenever a widget's content changes. type EventWidgetContent struct { widgetEvent } // EventWidgetResize is fired whenever a widget is resized. type EventWidgetResize struct { widgetEvent } // EventWidgetMove is fired whenver a widget changes location. type EventWidgetMove struct { widgetEvent }