import 'dart:async';
import 'dart:io';
import 'package:desktop_multi_window/desktop_multi_window.dart';
import 'package:flutter/material.dart';
import 'package:flutter/services.dart';
import 'package:flutter_custom_cursor/cursor_manager.dart'
as custom_cursor_manager;
import 'package:get/get.dart';
import 'package:provider/provider.dart';
import 'package:wakelock/wakelock.dart';
import 'package:flutter_custom_cursor/flutter_custom_cursor.dart';
import 'package:flutter_improved_scrolling/flutter_improved_scrolling.dart';
import '../../consts.dart';
import '../../common/widgets/overlay.dart';
import '../../common/widgets/remote_input.dart';
import '../../common.dart';
import '../../common/widgets/dialog.dart';
import '../../models/model.dart';
import '../../models/desktop_render_texture.dart';
import '../../models/platform_model.dart';
import '../../common/shared_state.dart';
import '../../utils/image.dart';
import '../widgets/remote_toolbar.dart';
import '../widgets/kb_layout_type_chooser.dart';
import '../widgets/tabbar_widget.dart';
final SimpleWrapper<bool> _firstEnterImage = SimpleWrapper(false);
// Used to skip session close if "move to new window" is clicked.
final Map<String, bool> closeSessionOnDispose = {};
class RemotePage extends StatefulWidget {
RemotePage({
Key? key,
required this.id,
required this.sessionId,
required this.tabWindowId,
required this.display,
required this.displays,
required this.password,
required this.toolbarState,
required this.tabController,
this.switchUuid,
this.forceRelay,
}) : super(key: key);
final String id;
final SessionID? sessionId;
final int? tabWindowId;
final int? display;
final List<int>? displays;
final String? password;
final ToolbarState toolbarState;
final String? switchUuid;
final bool? forceRelay;
final SimpleWrapper<State<RemotePage>?> _lastState = SimpleWrapper(null);
final DesktopTabController tabController;
FFI get ffi => (_lastState.value! as _RemotePageState)._ffi;
@override
State<RemotePage> createState() {
final state = _RemotePageState();
_lastState.value = state;
return state;
}
}
class _RemotePageState extends State<RemotePage>
with AutomaticKeepAliveClientMixin, MultiWindowListener {
Timer? _timer;
String keyboardMode = "legacy";
bool _isWindowBlur = false;
final _cursorOverImage = false.obs;
late RxBool _showRemoteCursor;
late RxBool _zoomCursor;
late RxBool _remoteCursorMoved;
late RxBool _keyboardEnabled;
final Map<int, RenderTexture> _renderTextures = {};
var _blockableOverlayState = BlockableOverlayState();
final FocusNode _rawKeyFocusNode = FocusNode(debugLabel: "rawkeyFocusNode");
Function(bool)? _onEnterOrLeaveImage4Toolbar;
late FFI _ffi;
SessionID get sessionId => _ffi.sessionId;
void _initStates(String id) {
initSharedStates(id);
_zoomCursor = PeerBoolOption.find(id, 'zoom-cursor');
_showRemoteCursor = ShowRemoteCursorState.find(id);
_keyboardEnabled = KeyboardEnabledState.find(id);
_remoteCursorMoved = RemoteCursorMovedState.find(id);
}
@override
void initState() {
super.initState();
_initStates(widget.id);
_ffi = FFI(widget.sessionId);
Get.put(_ffi, tag: widget.id);
_ffi.imageModel.addCallbackOnFirstImage((String peerId) {
showKBLayoutTypeChooserIfNeeded(
_ffi.ffiModel.pi.platform, _ffi.dialogManager);
});
_ffi.start(
widget.id,
password: widget.password,
switchUuid: widget.switchUuid,
forceRelay: widget.forceRelay,
tabWindowId: widget.tabWindowId,
display: widget.display,
displays: widget.displays,
);
WidgetsBinding.instance.addPostFrameCallback((_) {
SystemChrome.setEnabledSystemUIMode(SystemUiMode.manual, overlays: []);
_ffi.dialogManager
.showLoading(translate('Connecting...'), onCancel: closeConnection);
});
if (!Platform.isLinux) {
Wakelock.enable();
}
_ffi.ffiModel.updateEventListener(sessionId, widget.id);
bind.pluginSyncUi(syncTo: kAppTypeDesktopRemote);
_ffi.qualityMonitorModel.checkShowQualityMonitor(sessionId);
// Session option should be set after models.dart/FFI.start
_showRemoteCursor.value = bind.sessionGetToggleOptionSync(
sessionId: sessionId, arg: 'show-remote-cursor');
_zoomCursor.value = bind.sessionGetToggleOptionSync(
sessionId: sessionId, arg: 'zoom-cursor');
DesktopMultiWindow.addListener(this);
// if (!_isCustomCursorInited) {
// customCursorController.registerNeedUpdateCursorCallback(
// (String? lastKey, String? currentKey) async {
// if (_firstEnterImage.value) {
// _firstEnterImage.value = false;
// return true;
// }
// return lastKey == null || lastKey != currentKey;
// });
// _isCustomCursorInited = true;
// }
_blockableOverlayState.applyFfi(_ffi);
widget.tabController.onSelected?.call(widget.id);
}
@override
void onWindowBlur() {
super.onWindowBlur();
// On windows, we use `focus` way to handle keyboard better.
// Now on Linux, there's some rdev issues which will break the input.
// We disable the `focus` way for non-Windows temporarily.
if (Platform.isWindows) {
_isWindowBlur = true;
// unfocus the primary-focus when the whole window is lost focus,
// and let OS to handle events instead.
_rawKeyFocusNode.unfocus();
}
}
@override
void onWindowFocus() {
super.onWindowFocus();
// See [onWindowBlur].
if (Platform.isWindows) {
_isWindowBlur = false;
}
}
@override
void onWindowRestore() {
super.onWindowRestore();
// On windows, we use `onWindowRestore` way to handle window restore from
// a minimized state.
if (Platform.isWindows) {
_isWindowBlur = false;
}
if (!Platform.isLinux) {
Wakelock.enable();
}
}
// When the window is unminimized, onWindowMaximize or onWindowRestore can be called when the old state was maximized or not.
@override
void onWindowMaximize() {
super.onWindowMaximize();
if (!Platform.isLinux) {
Wakelock.enable();
}
}
@override
void onWindowMinimize() {
super.onWindowMinimize();
if (!Platform.isLinux) {
Wakelock.disable();
}
}
@override
Future<void> dispose() async {
final closeSession = closeSessionOnDispose.remove(widget.id) ?? true;
// https://github.com/flutter/flutter/issues/64935
super.dispose();
debugPrint("REMOTE PAGE dispose session $sessionId ${widget.id}");
for (final texture in _renderTextures.values) {
await texture.destroy(closeSession);
}
// ensure we leave this session, this is a double check
_ffi.inputModel.enterOrLeave(false);
DesktopMultiWindow.removeListener(this);
_ffi.dialogManager.hideMobileActionsOverlay();
_ffi.recordingModel.onClose();
_rawKeyFocusNode.dispose();
await _ffi.close(closeSession: closeSession);
_timer?.cancel();
_ffi.dialogManager.dismissAll();
if (closeSession) {
await SystemChrome.setEnabledSystemUIMode(SystemUiMode.manual,
overlays: SystemUiOverlay.values);
}
if (!Platform.isLinux) {
await Wakelock.disable();
}
await Get.delete<FFI>(tag: widget.id);
removeSharedStates(widget.id);
}
Widget emptyOverlay() => BlockableOverlay(
/// the Overlay key will be set with _blockableOverlayState in BlockableOverlay
/// see override build() in [BlockableOverlay]
state: _blockableOverlayState,
underlying: Container(
color: Colors.transparent,
),
);
Widget buildBody(BuildContext context) {
remoteToolbar(BuildContext context) => RemoteToolbar(
id: widget.id,
ffi: _ffi,
state: widget.toolbarState,
onEnterOrLeaveImageSetter: (func) =>
_onEnterOrLeaveImage4Toolbar = func,
onEnterOrLeaveImageCleaner: () => _onEnterOrLeaveImage4Toolbar = null,
setRemoteState: setState,
);
bodyWidget() {
return Stack(
children: [
Container(
color: Colors.black,
child: RawKeyFocusScope(
focusNode: _rawKeyFocusNode,
onFocusChange: (bool imageFocused) {
debugPrint(
"onFocusChange(window active:${!_isWindowBlur}) $imageFocused");
// See [onWindowBlur].
if (Platform.isWindows) {
if (_isWindowBlur) {
imageFocused = false;
Future.delayed(Duration.zero, () {
_rawKeyFocusNode.unfocus();
});
}
if (imageFocused) {
_ffi.inputModel.enterOrLeave(true);
} else {
_ffi.inputModel.enterOrLeave(false);
}
}
},
inputModel: _ffi.inputModel,
child: getBodyForDesktop(context))),
Stack(
children: [
_ffi.ffiModel.pi.isSet.isTrue &&
_ffi.ffiModel.waitForFirstImage.isTrue
? emptyOverlay()
: () {
_ffi.ffiModel.tryShowAndroidActionsOverlay();
return Offstage();
}(),
// Use Overlay to enable rebuild every time on menu button click.
_ffi.ffiModel.pi.isSet.isTrue
? Overlay(initialEntries: [
OverlayEntry(builder: remoteToolbar)
])
: remoteToolbar(context),
_ffi.ffiModel.pi.isSet.isFalse ? emptyOverlay() : Offstage(),
],
),
],
);
}
return Scaffold(
backgroundColor: Theme.of(context).colorScheme.background,
body: Obx(() {
final imageReady = _ffi.ffiModel.pi.isSet.isTrue &&
_ffi.ffiModel.waitForFirstImage.isFalse;
if (imageReady) {
// `dismissAll()` is to ensure that the state is clean.
// It's ok to call dismissAll() here.
_ffi.dialogManager.dismissAll();
// Recreate the block state to refresh the state.
_blockableOverlayState = BlockableOverlayState();
_blockableOverlayState.applyFfi(_ffi);
// Block the whole `bodyWidget()` when dialog shows.
return BlockableOverlay(
underlying: bodyWidget(),
state: _blockableOverlayState,
);
} else {
// `_blockableOverlayState` is not recreated here.
// The toolbar's block state won't work properly when reconnecting, but that's okay.
return bodyWidget();
}
}),
);
}
@override
Widget build(BuildContext context) {
super.build(context);
return WillPopScope(
onWillPop: () async {
clientClose(sessionId, _ffi.dialogManager);
return false;
},
child: MultiProvider(providers: [
ChangeNotifierProvider.value(value: _ffi.ffiModel),
ChangeNotifierProvider.value(value: _ffi.imageModel),
ChangeNotifierProvider.value(value: _ffi.cursorModel),
ChangeNotifierProvider.value(value: _ffi.canvasModel),
ChangeNotifierProvider.value(value: _ffi.recordingModel),
], child: buildBody(context)));
}
void enterView(PointerEnterEvent evt) {
_cursorOverImage.value = true;
_firstEnterImage.value = true;
if (_onEnterOrLeaveImage4Toolbar != null) {
try {
_onEnterOrLeaveImage4Toolbar!(true);
} catch (e) {
//
}
}
// See [onWindowBlur].
if (!Platform.isWindows) {
if (!_rawKeyFocusNode.hasFocus) {
_rawKeyFocusNode.requestFocus();
}
_ffi.inputModel.enterOrLeave(true);
}
}
void leaveView(PointerExitEvent evt) {
if (_ffi.ffiModel.keyboard) {
_ffi.inputModel.tryMoveEdgeOnExit(evt.position);
}
_cursorOverImage.value = false;
_firstEnterImage.value = false;
if (_onEnterOrLeaveImage4Toolbar != null) {
try {
_onEnterOrLeaveImage4Toolbar!(false);
} catch (e) {
//
}
}
// See [onWindowBlur].
if (!Platform.isWindows) {
_ffi.inputModel.enterOrLeave(false);
}
}
Widget _buildRawTouchAndPointerRegion(
Widget child,
PointerEnterEventListener? onEnter,
PointerExitEventListener? onExit,
) {
return RawTouchGestureDetectorRegion(
child: _buildRawPointerMouseRegion(child, onEnter, onExit),
ffi: _ffi,
);
}
Widget _buildRawPointerMouseRegion(
Widget child,
PointerEnterEventListener? onEnter,
PointerExitEventListener? onExit,
) {
return RawPointerMouseRegion(
onEnter: onEnter,
onExit: onExit,
onPointerDown: (event) {
// A double check for blur status.
// Note: If there's an `onPointerDown` event is triggered, `_isWindowBlur` is expected being false.
// Sometimes the system does not send the necessary focus event to flutter. We should manually
// handle this inconsistent status by setting `_isWindowBlur` to false. So we can
// ensure the grab-key thread is running when our users are clicking the remote canvas.
if (_isWindowBlur) {
debugPrint(
"Unexpected status: onPointerDown is triggered while the remote window is in blur status");
_isWindowBlur = false;
}
if (!_rawKeyFocusNode.hasFocus) {
_rawKeyFocusNode.requestFocus();
}
},
inputModel: _ffi.inputModel,
child: child,
);
}
Map<int, RenderTexture> _updateGetRenderTextures(int curDisplay) {
tryCreateTexture(int idx) {
if (!_renderTextures.containsKey(idx)) {
final renderTexture = RenderTexture();
_renderTextures[idx] = renderTexture;
renderTexture.create(idx, sessionId);
}
}
tryRemoveTexture(int idx) {
if (_renderTextures.containsKey(idx)) {
_renderTextures[idx]!.destroy(true);
_renderTextures.remove(idx);
}
}
if (curDisplay == kAllDisplayValue) {
final displays = _ffi.ffiModel.pi.getCurDisplays();
for (var i = 0; i < displays.length; i++) {
tryCreateTexture(i);
}
} else {
tryCreateTexture(curDisplay);
for (var i = 0; i < _ffi.ffiModel.pi.displays.length; i++) {
if (i != curDisplay) {
tryRemoveTexture(i);
}
}
}
return _renderTextures;
}
Widget getBodyForDesktop(BuildContext context) {
var paints = <Widget>[
MouseRegion(onEnter: (evt) {
bind.hostStopSystemKeyPropagate(stopped: false);
}, onExit: (evt) {
bind.hostStopSystemKeyPropagate(stopped: true);
}, child: LayoutBuilder(builder: (context, constraints) {
Future.delayed(Duration.zero, () {
Provider.of<CanvasModel>(context, listen: false).updateViewStyle();
});
final peerDisplay = CurrentDisplayState.find(widget.id);
return Obx(
() => _ffi.ffiModel.pi.isSet.isFalse
? Container(color: Colors.transparent)
: Obx(() => ImagePaint(
id: widget.id,
zoomCursor: _zoomCursor,
cursorOverImage: _cursorOverImage,
keyboardEnabled: _keyboardEnabled,
remoteCursorMoved: _remoteCursorMoved,
renderTextures: _updateGetRenderTextures(peerDisplay.value),
listenerBuilder: (child) => _buildRawTouchAndPointerRegion(
child, enterView, leaveView),
)),
);
}))
];
if (!_ffi.canvasModel.cursorEmbedded) {
paints.add(Obx(() => Offstage(
offstage: _showRemoteCursor.isFalse || _remoteCursorMoved.isFalse,
child: CursorPaint(
id: widget.id,
zoomCursor: _zoomCursor,
))));
}
paints.add(
Positioned(
top: 10,
right: 10,
child: _buildRawTouchAndPointerRegion(
QualityMonitor(_ffi.qualityMonitorModel), null, null),
),
);
return Stack(
children: paints,
);
}
@override
bool get wantKeepAlive => true;
}
class ImagePaint extends StatefulWidget {
final String id;
final RxBool zoomCursor;
final RxBool cursorOverImage;
final RxBool keyboardEnabled;
final RxBool remoteCursorMoved;
final Map<int, RenderTexture> renderTextures;
final Widget Function(Widget)? listenerBuilder;
ImagePaint(
{Key? key,
required this.id,
required this.zoomCursor,
required this.cursorOverImage,
required this.keyboardEnabled,
required this.remoteCursorMoved,
required this.renderTextures,
this.listenerBuilder})
: super(key: key);
@override
State<StatefulWidget> createState() => _ImagePaintState();
}
class _ImagePaintState extends State<ImagePaint> {
bool _lastRemoteCursorMoved = false;
final ScrollController _horizontal = ScrollController();
final ScrollController _vertical = ScrollController();
String get id => widget.id;
RxBool get zoomCursor => widget.zoomCursor;
RxBool get cursorOverImage => widget.cursorOverImage;
RxBool get keyboardEnabled => widget.keyboardEnabled;
RxBool get remoteCursorMoved => widget.remoteCursorMoved;
Widget Function(Widget)? get listenerBuilder => widget.listenerBuilder;
@override
Widget build(BuildContext context) {
final m = Provider.of<ImageModel>(context);
var c = Provider.of<CanvasModel>(context);
final s = c.scale;
bool isViewAdaptive() => c.viewStyle.style == kRemoteViewStyleAdaptive;
bool isViewOriginal() => c.viewStyle.style == kRemoteViewStyleOriginal;
mouseRegion({child}) => Obx(() {
double getCursorScale() {
var c = Provider.of<CanvasModel>(context);
var cursorScale = 1.0;
if (Platform.isWindows) {
// debug win10
if (zoomCursor.value && isViewAdaptive()) {
cursorScale = s * c.devicePixelRatio;
}
} else {
if (zoomCursor.value || isViewOriginal()) {
cursorScale = s;
}
}
return cursorScale;
}
return MouseRegion(
cursor: cursorOverImage.isTrue
? c.cursorEmbedded
? SystemMouseCursors.none
: keyboardEnabled.isTrue
? (() {
if (remoteCursorMoved.isTrue) {
_lastRemoteCursorMoved = true;
return SystemMouseCursors.none;
} else {
if (_lastRemoteCursorMoved) {
_lastRemoteCursorMoved = false;
_firstEnterImage.value = true;
}
return _buildCustomCursor(
context, getCursorScale());
}
}())
: _buildDisabledCursor(context, getCursorScale())
: MouseCursor.defer,
onHover: (evt) {},
child: child);
});
if (c.imageOverflow.isTrue && c.scrollStyle == ScrollStyle.scrollbar) {
final paintWidth = c.getDisplayWidth() * s;
final paintHeight = c.getDisplayHeight() * s;
final paintSize = Size(paintWidth, paintHeight);
final paintWidget = useTextureRender
? _BuildPaintTextureRender(
c, s, Offset.zero, paintSize, isViewOriginal())
: _buildScrollbarNonTextureRender(m, paintSize, s);
return NotificationListener<ScrollNotification>(
onNotification: (notification) {
final percentX = _horizontal.hasClients
? _horizontal.position.extentBefore /
(_horizontal.position.extentBefore +
_horizontal.position.extentInside +
_horizontal.position.extentAfter)
: 0.0;
final percentY = _vertical.hasClients
? _vertical.position.extentBefore /
(_vertical.position.extentBefore +
_vertical.position.extentInside +
_vertical.position.extentAfter)
: 0.0;
c.setScrollPercent(percentX, percentY);
return false;
},
child: mouseRegion(
child: Obx(() => _buildCrossScrollbarFromLayout(
context, _buildListener(paintWidget), c.size, paintSize)),
));
} else {
if (c.size.width > 0 && c.size.height > 0) {
final paintWidget = useTextureRender
? _BuildPaintTextureRender(
c,
s,
Offset(
Platform.isLinux ? c.x.toInt().toDouble() : c.x,
Platform.isLinux ? c.y.toInt().toDouble() : c.y,
),
c.size,
isViewOriginal())
: _buildScrollAuthNonTextureRender(m, c, s);
return mouseRegion(child: _buildListener(paintWidget));
} else {
return Container();
}
}
}
Widget _buildScrollbarNonTextureRender(
ImageModel m, Size imageSize, double s) {
return CustomPaint(
size: imageSize,
painter: ImagePainter(image: m.image, x: 0, y: 0, scale: s),
);
}
Widget _buildScrollAuthNonTextureRender(
ImageModel m, CanvasModel c, double s) {
return CustomPaint(
size: Size(c.size.width, c.size.height),
painter: ImagePainter(image: m.image, x: c.x / s, y: c.y / s, scale: s),
);
}
Widget _BuildPaintTextureRender(
CanvasModel c, double s, Offset offset, Size size, bool isViewOriginal) {
final ffiModel = c.parent.target!.ffiModel;
final displays = ffiModel.pi.getCurDisplays();
final children = <Widget>[];
final rect = ffiModel.rect;
if (rect == null) {
return Container();
}
final curDisplay = ffiModel.pi.currentDisplay;
for (var i = 0; i < displays.length; i++) {
final textureId = widget
.renderTextures[curDisplay == kAllDisplayValue ? i : curDisplay]
?.textureId;
if (textureId != null) {
children.add(Positioned(
left: (displays[i].x - rect.left) * s + offset.dx,
top: (displays[i].y - rect.top) * s + offset.dy,
width: displays[i].width * s,
height: displays[i].height * s,
child: Obx(() => Texture(
textureId: textureId.value,
filterQuality:
isViewOriginal ? FilterQuality.none : FilterQuality.low,
)),
));
}
}
return SizedBox(
width: size.width,
height: size.height,
child: Stack(children: children),
);
}
MouseCursor _buildCursorOfCache(
CursorModel cursor, double scale, CursorData? cache) {
if (cache == null) {
return MouseCursor.defer;
} else {
final key = cache.updateGetKey(scale);
if (!cursor.cachedKeys.contains(key)) {
debugPrint(
"Register custom cursor with key $key (${cache.hotx},${cache.hoty})");
// [Safety]
// It's ok to call async registerCursor in current synchronous context,
// because activating the cursor is also an async call and will always
// be executed after this.
custom_cursor_manager.CursorManager.instance
.registerCursor(custom_cursor_manager.CursorData()
..buffer = cache.data!
..height = (cache.height * cache.scale).toInt()
..width = (cache.width * cache.scale).toInt()
..hotX = cache.hotx
..hotY = cache.hoty
..name = key);
cursor.addKey(key);
}
return FlutterCustomMemoryImageCursor(key: key);
}
}
MouseCursor _buildCustomCursor(BuildContext context, double scale) {
final cursor = Provider.of<CursorModel>(context);
final cache = cursor.cache ?? preDefaultCursor.cache;
return _buildCursorOfCache(cursor, scale, cache);
}
MouseCursor _buildDisabledCursor(BuildContext context, double scale) {
final cursor = Provider.of<CursorModel>(context);
final cache = preForbiddenCursor.cache;
return _buildCursorOfCache(cursor, scale, cache);
}
Widget _buildCrossScrollbarFromLayout(
BuildContext context, Widget child, Size layoutSize, Size size) {
final scrollConfig = CustomMouseWheelScrollConfig(
scrollDuration: kDefaultScrollDuration,
scrollCurve: Curves.linearToEaseOut,
mouseWheelTurnsThrottleTimeMs:
kDefaultMouseWheelThrottleDuration.inMilliseconds,
scrollAmountMultiplier: kDefaultScrollAmountMultiplier);
var widget = child;
if (layoutSize.width < size.width) {
widget = ScrollConfiguration(
behavior: ScrollConfiguration.of(context).copyWith(scrollbars: false),
child: SingleChildScrollView(
controller: _horizontal,
scrollDirection: Axis.horizontal,
physics: cursorOverImage.isTrue
? const NeverScrollableScrollPhysics()
: null,
child: widget,
),
);
} else {
widget = Row(
children: [
Container(
width: ((layoutSize.width - size.width) ~/ 2).toDouble(),
),
widget,
],
);
}
if (layoutSize.height < size.height) {
widget = ScrollConfiguration(
behavior: ScrollConfiguration.of(context).copyWith(scrollbars: false),
child: SingleChildScrollView(
controller: _vertical,
physics: cursorOverImage.isTrue
? const NeverScrollableScrollPhysics()
: null,
child: widget,
),
);
} else {
widget = Column(
children: [
Container(
height: ((layoutSize.height - size.height) ~/ 2).toDouble(),
),
widget,
],
);
}
if (layoutSize.width < size.width) {
widget = ImprovedScrolling(
scrollController: _horizontal,
enableCustomMouseWheelScrolling: cursorOverImage.isFalse,
customMouseWheelScrollConfig: scrollConfig,
child: RawScrollbar(
thickness: kScrollbarThickness,
thumbColor: Colors.grey,
controller: _horizontal,
thumbVisibility: false,
trackVisibility: false,
notificationPredicate: layoutSize.height < size.height
? (notification) => notification.depth == 1
: defaultScrollNotificationPredicate,
child: widget,
),
);
}
if (layoutSize.height < size.height) {
widget = ImprovedScrolling(
scrollController: _vertical,
enableCustomMouseWheelScrolling: cursorOverImage.isFalse,
customMouseWheelScrollConfig: scrollConfig,
child: RawScrollbar(
thickness: kScrollbarThickness,
thumbColor: Colors.grey,
controller: _vertical,
thumbVisibility: false,
trackVisibility: false,
child: widget,
),
);
}
return Container(
child: widget,
width: layoutSize.width,
height: layoutSize.height,
);
}
Widget _buildListener(Widget child) {
if (listenerBuilder != null) {
return listenerBuilder!(child);
} else {
return child;
}
}
}
class CursorPaint extends StatelessWidget {
final String id;
final RxBool zoomCursor;
const CursorPaint({
Key? key,
required this.id,
required this.zoomCursor,
}) : super(key: key);
@override
Widget build(BuildContext context) {
final m = Provider.of<CursorModel>(context);
final c = Provider.of<CanvasModel>(context);
double hotx = m.hotx;
double hoty = m.hoty;
if (m.image == null) {
if (preDefaultCursor.image != null) {
hotx = preDefaultCursor.image!.width / 2;
hoty = preDefaultCursor.image!.height / 2;
}
}
double cx = c.x;
double cy = c.y;
if (c.viewStyle.style == kRemoteViewStyleOriginal &&
c.scrollStyle == ScrollStyle.scrollbar) {
final rect = c.parent.target!.ffiModel.rect;
if (rect == null) {
// unreachable!
debugPrint('unreachable! The displays rect is null.');
return Container();
}
final imageWidth = rect.width * c.scale;
final imageHeight = rect.height * c.scale;
cx = -imageWidth * c.scrollX;
cy = -imageHeight * c.scrollY;
}
double x = (m.x - hotx) * c.scale + cx;
double y = (m.y - hoty) * c.scale + cy;
double scale = 1.0;
final isViewOriginal = c.viewStyle.style == kRemoteViewStyleOriginal;
if (zoomCursor.value || isViewOriginal) {
x = m.x - hotx + cx / c.scale;
y = m.y - hoty + cy / c.scale;
scale = c.scale;
}
return CustomPaint(
painter: ImagePainter(
image: m.image ?? preDefaultCursor.image,
x: x,
y: y,
scale: scale,
),
);
}
}