// Copyright 2017 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
import 'dart:collection';
import 'dart:convert';
import 'dart:developer' as developer;
import 'dart:math' as math;
import 'dart:ui' as ui show window, Picture, SceneBuilder, PictureRecorder;
import 'dart:ui' show Offset;
import 'package:flutter/foundation.dart';
import 'package:flutter/painting.dart';
import 'package:flutter/rendering.dart';
import 'basic.dart';
import 'binding.dart';
import 'framework.dart';
import 'gesture_detector.dart';
/// Signature for the builder callback used by
/// [WidgetInspector.selectButtonBuilder].
typedef Widget InspectorSelectButtonBuilder(BuildContext context, VoidCallback onPressed);
/// A class describing a step along a path through a tree of [DiagnosticsNode]
/// objects.
///
/// This class is used to bundle all data required to display the tree with just
/// the nodes along a path expanded into a single JSON payload.
class _DiagnosticsPathNode {
/// Creates a full description of a step in a path through a tree of
/// [DiagnosticsNode] objects.
///
/// The [node] and [child] arguments must not be null.
_DiagnosticsPathNode({ @required this.node, @required this.children, this.childIndex }) : assert(node != null), assert(children != null);
/// Node at the point in the path this [_DiagnosticsPathNode] is describing.
final DiagnosticsNode node;
/// Children of the [node] being described.
///
/// This value is cached instead of relying on `node.getChildren()` as that
/// method call might create new [DiagnosticsNode] objects for each child
/// and we would prefer to use the identical [DiagnosticsNode] for each time
/// a node exists in the path.
final List<DiagnosticsNode> children;
/// Index of the child that the path continues on.
///
/// Equal to `null` if the path does not continue.
final int childIndex;
}
List<_DiagnosticsPathNode> _followDiagnosticableChain(List<Diagnosticable> chain, {
String name,
DiagnosticsTreeStyle style,
}) {
final List<_DiagnosticsPathNode> path = <_DiagnosticsPathNode>[];
if (chain.isEmpty)
return path;
DiagnosticsNode diagnostic = chain.first.toDiagnosticsNode(name: name, style: style);
for (int i = 1; i < chain.length; i += 1) {
final Diagnosticable target = chain[i];
bool foundMatch = false;
final List<DiagnosticsNode> children = diagnostic.getChildren();
for (int j = 0; j < children.length; j += 1) {
final DiagnosticsNode child = children[j];
if (child.value == target) {
foundMatch = true;
path.add(new _DiagnosticsPathNode(
node: diagnostic,
children: children,
childIndex: j,
));
diagnostic = child;
break;
}
}
assert(foundMatch);
}
path.add(new _DiagnosticsPathNode(node: diagnostic, children: diagnostic.getChildren()));
return path;
}
/// Signature for the selection change callback used by
/// [WidgetInspectorService.selectionChangedCallback].
typedef void InspectorSelectionChangedCallback();
/// Structure to help reference count Dart objects referenced by a GUI tool
/// using [WidgetInspectorService].
class _InspectorReferenceData {
_InspectorReferenceData(this.object);
final Object object;
int count = 1;
}
/// Service used by GUI tools to interact with the [WidgetInspector].
///
/// Calls to this object are typically made from GUI tools such as the [Flutter
/// IntelliJ Plugin](https://github.com/flutter/flutter-intellij/blob/master/README.md)
/// using the [Dart VM Service protocol](https://github.com/dart-lang/sdk/blob/master/runtime/vm/service/service.md).
/// This class uses its own object id and manages object lifecycles itself
/// instead of depending on the [object ids](https://github.com/dart-lang/sdk/blob/master/runtime/vm/service/service.md#getobject)
/// specified by the VM Service Protocol because the VM Service Protocol ids
/// expire unpredictably. Object references are tracked in groups so that tools
/// that clients can use dereference all objects in a group with a single
/// operation making it easier to avoid memory leaks.
///
/// All methods in this class are appropriate to invoke from debugging tools
/// using the Observatory service protocol to evaluate Dart expressions of the
/// form `WidgetInspectorService.instance.methodName(arg1, arg2, ...)`. If you
/// make changes to any instance method of this class you need to verify that
/// the [Flutter IntelliJ Plugin](https://github.com/flutter/flutter-intellij/blob/master/README.md)
/// widget inspector support still works with the changes.
///
/// All methods returning String values return JSON.
class WidgetInspectorService {
WidgetInspectorService._();
/// The current [WidgetInspectorService].
static WidgetInspectorService get instance => _instance;
static final WidgetInspectorService _instance = new WidgetInspectorService._();
/// Ground truth tracking what object(s) are currently selected used by both
/// GUI tools such as the Flutter IntelliJ Plugin and the [WidgetInspector]
/// displayed on the device.
final InspectorSelection selection = new InspectorSelection();
/// Callback typically registered by the [WidgetInspector] to receive
/// notifications when [selection] changes.
///
/// The Flutter IntelliJ Plugin does not need to listen for this event as it
/// instead listens for `dart:developer` `inspect` events which also trigger
/// when the inspection target changes on device.
InspectorSelectionChangedCallback selectionChangedCallback;
/// The Observatory protocol does not keep alive object references so this
/// class needs to manually manage groups of objects that should be kept
/// alive.
final Map<String, Set<_InspectorReferenceData>> _groups = <String, Set<_InspectorReferenceData>>{};
final Map<String, _InspectorReferenceData> _idToReferenceData = <String, _InspectorReferenceData>{};
final Map<Object, String> _objectToId = new Map<Object, String>.identity();
int _nextId = 0;
/// Clear all InspectorService object references.
///
/// Use this method only for testing to ensure that object references from one
/// test case do not impact other test cases.
void disposeAllGroups() {
_groups.clear();
_idToReferenceData.clear();
_objectToId.clear();
_nextId = 0;
}
/// Free all references to objects in a group.
///
/// Objects and their associated ids in the group may be kept alive by
/// references from a different group.
void disposeGroup(String name) {
final Set<_InspectorReferenceData> references = _groups.remove(name);
if (references == null)
return;
references.forEach(_decrementReferenceCount);
}
void _decrementReferenceCount(_InspectorReferenceData reference) {
reference.count -= 1;
assert(reference.count >= 0);
if (reference.count == 0) {
final String id = _objectToId.remove(reference.object);
assert(id != null);
_idToReferenceData.remove(id);
}
}
/// Returns a unique id for [object] that will remain live at least until
/// [disposeGroup] is called on [groupName] or [dispose] is called on the id
/// returned by this method.
String toId(Object object, String groupName) {
if (object == null)
return null;
final Set<_InspectorReferenceData> group = _groups.putIfAbsent(groupName, () => new Set<_InspectorReferenceData>.identity());
String id = _objectToId[object];
_InspectorReferenceData referenceData;
if (id == null) {
id = 'inspector-$_nextId';
_nextId += 1;
_objectToId[object] = id;
referenceData = new _InspectorReferenceData(object);
_idToReferenceData[id] = referenceData;
group.add(referenceData);
} else {
referenceData = _idToReferenceData[id];
if (group.add(referenceData))
referenceData.count += 1;
}
return id;
}
/// Returns the Dart object associated with a reference id.
///
/// The `groupName` parameter is not required by is added to regularize the
/// API surface of the methods in this class called from the Flutter IntelliJ
/// Plugin.
Object toObject(String id, [String groupName]) {
if (id == null)
return null;
final _InspectorReferenceData data = _idToReferenceData[id];
if (data == null)
throw new FlutterError('Id does not exist');
return data.object;
}
/// Returns the object to introspect to determine the source location of an
/// object's class.
///
/// The Dart object for the id is returned for all cases but [Element] objects
/// where the [Widget] configuring the [Element] is returned instead as the
/// class of the [Widget] is more relevant than the class of the [Element].
///
/// The `groupName` parameter is not required by is added to regularize the
/// API surface of methods called from the Flutter IntelliJ Plugin.
Object toObjectForSourceLocation(String id, [String groupName]) {
final Object object = toObject(id);
if (object is Element) {
return object.widget;
}
return object;
}
/// Remove the object with the specified `id` from the specified object
/// group.
///
/// If the object exists in other groups it will remain alive and the object
/// id will remain valid.
void disposeId(String id, String groupName) {
if (id == null)
return;
final _InspectorReferenceData referenceData = _idToReferenceData[id];
if (referenceData == null)
throw new FlutterError('Id does not exist');
if (_groups[groupName]?.remove(referenceData) != true)
throw new FlutterError('Id is not in group');
_decrementReferenceCount(referenceData);
}
/// Set the [WidgetInspector] selection to the object matching the specified
/// id if the object is valid object to set as the inspector selection.
///
/// Returns `true` if the selection was changed.
///
/// The `groupName` parameter is not required by is added to regularize the
/// API surface of methods called from the Flutter IntelliJ Plugin.
bool setSelectionById(String id, [String groupName]) {
return setSelection(toObject(id), groupName);
}
/// Set the [WidgetInspector] selection to the specified `object` if it is
/// a valid object to set as the inspector selection.
///
/// Returns `true` if the selection was changed.
///
/// The `groupName` parameter is not needed but is specified to regularize the
/// API surface of methods called from the Flutter IntelliJ Plugin.
bool setSelection(Object object, [String groupName]) {
if (object is Element || object is RenderObject) {
if (object is Element) {
if (object == selection.currentElement) {
return false;
}
selection.currentElement = object;
} else {
if (object == selection.current) {
return false;
}
selection.current = object;
}
if (selectionChangedCallback != null) {
selectionChangedCallback();
}
return true;
}
return false;
}
/// Returns JSON representing the chain of [DiagnosticsNode] instances from
/// root of thee tree to the [Element] or [RenderObject] matching `id`.
///
/// The JSON contains all information required to display a tree view with
/// all nodes other than nodes along the path collapsed.
String getParentChain(String id, String groupName) {
final Object value = toObject(id);
List<_DiagnosticsPathNode> path;
if (value is RenderObject)
path = _getRenderObjectParentChain(value, groupName);
else if (value is Element)
path = _getElementParentChain(value, groupName);
else
throw new FlutterError('Cannot get parent chain for node of type ${value.runtimeType}');
return JSON.encode(path.map((_DiagnosticsPathNode node) => _pathNodeToJson(node, groupName)).toList());
}
Map<String, Object> _pathNodeToJson(_DiagnosticsPathNode pathNode, String groupName) {
if (pathNode == null)
return null;
return <String, Object>{
'node': _nodeToJson(pathNode.node, groupName),
'children': _nodesToJson(pathNode.children, groupName),
'childIndex': pathNode.childIndex,
};
}
List<_DiagnosticsPathNode> _getElementParentChain(Element element, String groupName) {
return _followDiagnosticableChain(element?.debugGetDiagnosticChain()?.reversed?.toList()) ?? const <_DiagnosticsPathNode>[];
}
List<_DiagnosticsPathNode> _getRenderObjectParentChain(RenderObject renderObject, String groupName) {
final List<RenderObject> chain = <RenderObject>[];
while(renderObject != null) {
chain.add(renderObject);
renderObject = renderObject.parent;
}
return _followDiagnosticableChain(chain.reversed.toList());
}
Map<String, Object> _nodeToJson(DiagnosticsNode node, String groupName) {
if (node == null)
return null;
final Map<String, Object> json = node.toJsonMap();
json['objectId'] = toId(node, groupName);
json['valueId'] = toId(node.value, groupName);
return json;
}
String _serialize(DiagnosticsNode node, String groupName) {
return JSON.encode(_nodeToJson(node, groupName));
}
List<Map<String, Object>> _nodesToJson(Iterable<DiagnosticsNode> nodes, String groupName) {
if (nodes == null)
return <Map<String, Object>>[];
return nodes.map<Map<String, Object>>((DiagnosticsNode node) => _nodeToJson(node, groupName)).toList();
}
/// Returns a JSON representation of the properties of the [DiagnosticsNode]
/// object that `diagnosticsNodeId` references.
String getProperties(String diagnosticsNodeId, String groupName) {
final DiagnosticsNode node = toObject(diagnosticsNodeId);
return JSON.encode(_nodesToJson(node == null ? const <DiagnosticsNode>[] : node.getProperties(), groupName));
}
/// Returns a JSON representation of the children of the [DiagnosticsNode]
/// object that `diagnosticsNodeId` references.
String getChildren(String diagnosticsNodeId, String groupName) {
final DiagnosticsNode node = toObject(diagnosticsNodeId);
return JSON.encode(_nodesToJson(node == null ? const <DiagnosticsNode>[] : node.getChildren(), groupName));
}
/// Returns a JSON representation of the [DiagnosticsNode] for the root
/// [Element].
String getRootWidget(String groupName) {
return _serialize(WidgetsBinding.instance?.renderViewElement?.toDiagnosticsNode(), groupName);
}
/// Returns a JSON representation of the [DiagnosticsNode] for the root
/// [RenderObject].
String getRootRenderObject(String groupName) {
return _serialize(RendererBinding.instance?.renderView?.toDiagnosticsNode(), groupName);
}
/// Returns a [DiagnosticsNode] representing the currently selected
/// [RenderObject].
///
/// If the currently selected [RenderObject] is identical to the
/// [RenderObject] referenced by `previousSelectionId` then the previous
/// [DiagnosticNode] is reused.
String getSelectedRenderObject(String previousSelectionId, String groupName) {
final DiagnosticsNode previousSelection = toObject(previousSelectionId);
final RenderObject current = selection?.current;
return _serialize(current == previousSelection?.value ? previousSelection : current?.toDiagnosticsNode(), groupName);
}
/// Returns a [DiagnosticsNode] representing the currently selected [Element].
///
/// If the currently selected [Element] is identical to the [Element]
/// referenced by `previousSelectionId` then the previous [DiagnosticNode] is
/// reused.
String getSelectedWidget(String previousSelectionId, String groupName) {
final DiagnosticsNode previousSelection = toObject(previousSelectionId);
final Element current = selection?.currentElement;
return _serialize(current == previousSelection?.value ? previousSelection : current?.toDiagnosticsNode(), groupName);
}
}
/// A widget that enables inspecting the child widget's structure.
///
/// Select a location on your device or emulator and view what widgets and
/// render object that best matches the location. An outline of the selected
/// widget and terse summary information is shown on device with detailed
/// information is shown in the observatory or in IntelliJ when using the
/// Flutter Plugin.
///
/// The inspector has a select mode and a view mode.
///
/// In the select mode, tapping the device selects the widget that best matches
/// the location of the touch and switches to view mode. Dragging a finger on
/// the device selects the widget under the drag location but does not switch
/// modes. Touching the very edge of the bounding box of a widget triggers
/// selecting the widget even if another widget that also overlaps that
/// location would otherwise have priority.
///
/// In the view mode, the previously selected widget is outlined, however,
/// touching the device has the same effect it would have if the inspector
/// wasn't present. This allows interacting with the application and viewing how
/// the selected widget changes position. Clicking on the select icon in the
/// bottom left corner of the application switches back to select mode.
class WidgetInspector extends StatefulWidget {
/// Creates a widget that enables inspection for the child.
///
/// The [child] argument must not be null.
const WidgetInspector({
Key key,
@required this.child,
@required this.selectButtonBuilder,
}) : assert(child != null),
super(key: key);
/// The widget that is being inspected.
final Widget child;
/// A builder that is called to create the select button.
///
/// The `onPressed` callback passed as an argument to the builder should be
/// hooked up to the returned widget.
final InspectorSelectButtonBuilder selectButtonBuilder;
@override
_WidgetInspectorState createState() => new _WidgetInspectorState();
}
class _WidgetInspectorState extends State<WidgetInspector>
with WidgetsBindingObserver {
_WidgetInspectorState() : selection = WidgetInspectorService.instance.selection;
Offset _lastPointerLocation;
final InspectorSelection selection;
/// Whether the inspector is in select mode.
///
/// In select mode, pointer interactions trigger widget selection instead of
/// normal interactions. Otherwise the previously selected widget is
/// highlighted but the application can be interacted with normally.
bool isSelectMode = true;
final GlobalKey _ignorePointerKey = new GlobalKey();
/// Distance from the edge of of the bounding box for an element to consider
/// as selecting the edge of the bounding box.
static const double _kEdgeHitMargin = 2.0;
@override
void initState() {
super.initState();
WidgetInspectorService.instance.selectionChangedCallback = () {
setState(() {
// The [selection] property which the build method depends on has
// changed.
});
};
}
bool _hitTestHelper(
List<RenderObject> hits,
List<RenderObject> edgeHits,
Offset position,
RenderObject object,
Matrix4 transform,
) {
bool hit = false;
final Matrix4 inverse = new Matrix4.inverted(transform);
final Offset localPosition = MatrixUtils.transformPoint(inverse, position);
final List<DiagnosticsNode> children = object.debugDescribeChildren();
for (int i = children.length - 1; i >= 0; i -= 1) {
final DiagnosticsNode diagnostics = children[i];
assert(diagnostics != null);
if (diagnostics.style == DiagnosticsTreeStyle.offstage ||
diagnostics.value is! RenderObject)
continue;
final RenderObject child = diagnostics.value;
final Rect paintClip = object.describeApproximatePaintClip(child);
if (paintClip != null && !paintClip.contains(localPosition))
continue;
final Matrix4 childTransform = transform.clone();
object.applyPaintTransform(child, childTransform);
if (_hitTestHelper(hits, edgeHits, position, child, childTransform))
hit = true;
}
final Rect bounds = object.semanticBounds;
if (bounds.contains(localPosition)) {
hit = true;
// Hits that occur on the edge of the bounding box of an object are
// given priority to provide a way to select objects that would
// otherwise be hard to select.
if (!bounds.deflate(_kEdgeHitMargin).contains(localPosition))
edgeHits.add(object);
}
if (hit)
hits.add(object);
return hit;
}
/// Returns the list of render objects located at the given position ordered
/// by priority.
///
/// All render objects that are not offstage that match the location are
/// included in the list of matches. Priority is given to matches that occur
/// on the edge of a render object's bounding box and to matches found by
/// [RenderBox.hitTest].
List<RenderObject> hitTest(Offset position, RenderObject root) {
final List<RenderObject> regularHits = <RenderObject>[];
final List<RenderObject> edgeHits = <RenderObject>[];
_hitTestHelper(regularHits, edgeHits, position, root, root.getTransformTo(null));
// Order matches by the size of the hit area.
double _area(RenderObject object) {
final Size size = object.semanticBounds?.size;
return size == null ? double.MAX_FINITE : size.width * size.height;
}
regularHits.sort((RenderObject a, RenderObject b) => _area(a).compareTo(_area(b)));
final Set<RenderObject> hits = new LinkedHashSet<RenderObject>();
hits..addAll(edgeHits)..addAll(regularHits);
return hits.toList();
}
void _inspectAt(Offset position) {
if (!isSelectMode)
return;
final RenderIgnorePointer ignorePointer = _ignorePointerKey.currentContext.findRenderObject();
final RenderObject userRender = ignorePointer.child;
final List<RenderObject> selected = hitTest(position, userRender);
setState(() {
selection.candidates = selected;
});
}
void _handlePanDown(DragDownDetails event) {
_lastPointerLocation = event.globalPosition;
_inspectAt(event.globalPosition);
}
void _handlePanUpdate(DragUpdateDetails event) {
_lastPointerLocation = event.globalPosition;
_inspectAt(event.globalPosition);
}
void _handlePanEnd(DragEndDetails details) {
// If the pan ends on the edge of the window assume that it indicates the
// pointer is being dragged off the edge of the display not a regular touch
// on the edge of the display. If the pointer is being dragged off the edge
// of the display we do not want to select anything. A user can still select
// a widget that is only at the exact screen margin by tapping.
final Rect bounds = (Offset.zero & (ui.window.physicalSize / ui.window.devicePixelRatio)).deflate(_kOffScreenMargin);
if (!bounds.contains(_lastPointerLocation)) {
setState(() {
selection.clear();
});
}
}
void _handleTap() {
if (!isSelectMode)
return;
if (_lastPointerLocation != null) {
_inspectAt(_lastPointerLocation);
if (selection != null) {
// Notify debuggers to open an inspector on the object.
developer.inspect(selection.current);
}
}
setState(() {
// Only exit select mode if there is a button to return to select mode.
if (widget.selectButtonBuilder != null)
isSelectMode = false;
});
}
void _handleEnableSelect() {
setState(() {
isSelectMode = true;
});
}
@override
Widget build(BuildContext context) {
final List<Widget> children = <Widget>[];
children.add(new GestureDetector(
onTap: _handleTap,
onPanDown: _handlePanDown,
onPanEnd: _handlePanEnd,
onPanUpdate: _handlePanUpdate,
behavior: HitTestBehavior.opaque,
excludeFromSemantics: true,
child: new IgnorePointer(
ignoring: isSelectMode,
key: _ignorePointerKey,
ignoringSemantics: false,
child: widget.child,
),
));
if (!isSelectMode && widget.selectButtonBuilder != null) {
children.add(new Positioned(
left: _kInspectButtonMargin,
bottom: _kInspectButtonMargin,
child: widget.selectButtonBuilder(context, _handleEnableSelect)
));
}
children.add(new _InspectorOverlay(selection: selection));
return new Stack(children: children);
}
}
/// Mutable selection state of the inspector.
class InspectorSelection {
/// Render objects that are candidates to be selected.
///
/// Tools may wish to iterate through the list of candidates.
List<RenderObject> get candidates => _candidates;
List<RenderObject> _candidates = <RenderObject>[];
set candidates(List<RenderObject> value) {
_candidates = value;
_index = 0;
_computeCurrent();
}
/// Index within the list of candidates that is currently selected.
int get index => _index;
int _index = 0;
set index(int value) {
_index = value;
_computeCurrent();
}
/// Set the selection to empty.
void clear() {
_candidates = <RenderObject>[];
_index = 0;
_computeCurrent();
}
/// Selected render object typically from the [candidates] list.
///
/// Setting [candidates] or calling [clear] resets the selection.
///
/// Returns null if the selection is invalid.
RenderObject get current => _current;
RenderObject _current;
set current(RenderObject value) {
if (_current != value) {
_current = value;
_currentElement = value.debugCreator.element;
}
}
/// Selected [Element] consistent with the [current] selected [RenderObject].
///
/// Setting [candidates] or calling [clear] resets the selection.
///
/// Returns null if the selection is invalid.
Element get currentElement => _currentElement;
Element _currentElement;
set currentElement(Element element) {
if (currentElement != element) {
_currentElement = element;
_current = element.findRenderObject();
}
}
void _computeCurrent() {
if (_index < candidates.length) {
_current = candidates[index];
_currentElement = _current.debugCreator.element;
} else {
_current = null;
_currentElement = null;
}
}
/// Whether the selected render object is attached to the tree or has gone
/// out of scope.
bool get active => _current != null && _current.attached;
}
class _InspectorOverlay extends LeafRenderObjectWidget {
const _InspectorOverlay({
Key key,
@required this.selection,
}) : super(key: key);
final InspectorSelection selection;
@override
_RenderInspectorOverlay createRenderObject(BuildContext context) {
return new _RenderInspectorOverlay(selection: selection);
}
@override
void updateRenderObject(BuildContext context, _RenderInspectorOverlay renderObject) {
renderObject.selection = selection;
}
}
class _RenderInspectorOverlay extends RenderBox {
/// The arguments must not be null.
_RenderInspectorOverlay({ @required InspectorSelection selection }) : _selection = selection, assert(selection != null);
InspectorSelection get selection => _selection;
InspectorSelection _selection;
set selection(InspectorSelection value) {
if (value != _selection) {
_selection = value;
}
markNeedsPaint();
}
@override
bool get sizedByParent => true;
@override
bool get alwaysNeedsCompositing => true;
@override
void performResize() {
size = constraints.constrain(const Size(double.INFINITY, double.INFINITY));
}
@override
void paint(PaintingContext context, Offset offset) {
assert(needsCompositing);
context.addLayer(new _InspectorOverlayLayer(
overlayRect: new Rect.fromLTWH(offset.dx, offset.dy, size.width, size.height),
selection: selection,
));
}
}
class _TransformedRect {
_TransformedRect(RenderObject object) :
rect = object.semanticBounds,
transform = object.getTransformTo(null);
final Rect rect;
final Matrix4 transform;
@override
bool operator ==(dynamic other) {
if (other.runtimeType != runtimeType)
return false;
final _TransformedRect typedOther = other;
return rect == typedOther.rect && transform == typedOther.transform;
}
@override
int get hashCode => hashValues(rect, transform);
}
/// State describing how the inspector overlay should be rendered.
///
/// The equality operator can be used to determine whether the overlay needs to
/// be rendered again.
class _InspectorOverlayRenderState {
_InspectorOverlayRenderState({
@required this.overlayRect,
@required this.selected,
@required this.candidates,
@required this.tooltip,
@required this.textDirection,
});
final Rect overlayRect;
final _TransformedRect selected;
final List<_TransformedRect> candidates;
final String tooltip;
final TextDirection textDirection;
@override
bool operator ==(dynamic other) {
if (other.runtimeType != runtimeType)
return false;
final _InspectorOverlayRenderState typedOther = other;
return overlayRect == typedOther.overlayRect
&& selected == typedOther.selected
&& listEquals<_TransformedRect>(candidates, typedOther.candidates)
&& tooltip == typedOther.tooltip;
}
@override
int get hashCode => hashValues(overlayRect, selected, hashList(candidates), tooltip);
}
final int _kMaxTooltipLines = 5;
final Color _kTooltipBackgroundColor = const Color.fromARGB(230, 60, 60, 60);
final Color _kHighlightedRenderObjectFillColor = const Color.fromARGB(128, 128, 128, 255);
final Color _kHighlightedRenderObjectBorderColor = const Color.fromARGB(128, 64, 64, 128);
/// A layer that outlines the selected [RenderObject] and candidate render
/// objects that also match the last pointer location.
///
/// This approach is horrific for performance and is only used here because this
/// is limited to debug mode. Do not duplicate the logic in production code.
class _InspectorOverlayLayer extends Layer {
/// Creates a layer that displays the inspector overlay.
_InspectorOverlayLayer({
@required this.overlayRect,
@required this.selection,
}) : assert(overlayRect != null), assert(selection != null) {
bool inDebugMode = false;
assert(() {
inDebugMode = true;
return true;
}());
if (inDebugMode == false) {
throw new FlutterError(
'The inspector should never be used in production mode due to the '
'negative performance impact.'
);
}
}
InspectorSelection selection;
/// The rectangle in this layer's coordinate system that the overlay should
/// occupy.
///
/// The scene must be explicitly recomposited after this property is changed
/// (as described at [Layer]).
final Rect overlayRect;
_InspectorOverlayRenderState _lastState;
/// Picture generated from _lastState.
ui.Picture _picture;
TextPainter _textPainter;
double _textPainterMaxWidth;
@override
void addToScene(ui.SceneBuilder builder, Offset layerOffset) {
if (!selection.active)
return;
final RenderObject selected = selection.current;
final List<_TransformedRect> candidates = <_TransformedRect>[];
for (RenderObject candidate in selection.candidates) {
if (candidate == selected || !candidate.attached)
continue;
candidates.add(new _TransformedRect(candidate));
}
final _InspectorOverlayRenderState state = new _InspectorOverlayRenderState(
overlayRect: overlayRect,
selected: new _TransformedRect(selected),
tooltip: selection.currentElement.toStringShort(),
textDirection: TextDirection.ltr,
candidates: candidates,
);
if (state != _lastState) {
_lastState = state;
_picture = _buildPicture(state);
}
builder.addPicture(layerOffset, _picture);
}
ui.Picture _buildPicture(_InspectorOverlayRenderState state) {
final ui.PictureRecorder recorder = new ui.PictureRecorder();
final Canvas canvas = new Canvas(recorder, state.overlayRect);
final Size size = state.overlayRect.size;
final Paint fillPaint = new Paint()
..style = PaintingStyle.fill
..color = _kHighlightedRenderObjectFillColor;
final Paint borderPaint = new Paint()
..style = PaintingStyle.stroke
..strokeWidth = 1.0
..color = _kHighlightedRenderObjectBorderColor;
// Highlight the selected renderObject.
final Rect selectedPaintRect = state.selected.rect.deflate(0.5);
canvas
..save()
..transform(state.selected.transform.storage)
..drawRect(selectedPaintRect, fillPaint)
..drawRect(selectedPaintRect, borderPaint)
..restore();
// Show all other candidate possibly selected elements. This helps selecting
// render objects by selecting the edge of the bounding box shows all
// elements the user could toggle the selection between.
for (_TransformedRect transformedRect in state.candidates) {
canvas
..save()
..transform(transformedRect.transform.storage)
..drawRect(transformedRect.rect.deflate(0.5), borderPaint)
..restore();
}
final Rect targetRect = MatrixUtils.transformRect(
state.selected.transform, state.selected.rect);
final Offset target = new Offset(targetRect.left, targetRect.center.dy);
final double offsetFromWidget = 9.0;
final double verticalOffset = (targetRect.height) / 2 + offsetFromWidget;
_paintDescription(canvas, state.tooltip, state.textDirection, target, verticalOffset, size, targetRect);
// TODO(jacobr): provide an option to perform a debug paint of just the
// selected widget.
return recorder.endRecording();
}
void _paintDescription(
Canvas canvas,
String message,
TextDirection textDirection,
Offset target,
double verticalOffset,
Size size,
Rect targetRect,
) {
canvas.save();
final double maxWidth = size.width - 2 * (_kScreenEdgeMargin + _kTooltipPadding);
if (_textPainter == null || _textPainter.text.text != message || _textPainterMaxWidth != maxWidth) {
_textPainterMaxWidth = maxWidth;
_textPainter = new TextPainter()
..maxLines = _kMaxTooltipLines
..ellipsis = '...'
..text = new TextSpan(style: _messageStyle, text: message)
..textDirection = textDirection
..layout(maxWidth: maxWidth);
}
final Size tooltipSize = _textPainter.size + const Offset(_kTooltipPadding * 2, _kTooltipPadding * 2);
final Offset tipOffset = positionDependentBox(
size: size,
childSize: tooltipSize,
target: target,
verticalOffset: verticalOffset,
preferBelow: false,
);
final Paint tooltipBackground = new Paint()
..style = PaintingStyle.fill
..color = _kTooltipBackgroundColor;
canvas.drawRect(
new Rect.fromPoints(
tipOffset,
tipOffset.translate(tooltipSize.width, tooltipSize.height),
),
tooltipBackground,
);
double wedgeY = tipOffset.dy;
final bool tooltipBelow = tipOffset.dy > target.dy;
if (!tooltipBelow)
wedgeY += tooltipSize.height;
final double wedgeSize = _kTooltipPadding * 2;
double wedgeX = math.max(tipOffset.dx, target.dx) + wedgeSize * 2;
wedgeX = math.min(wedgeX, tipOffset.dx + tooltipSize.width - wedgeSize * 2);
final List<Offset> wedge = <Offset>[
new Offset(wedgeX - wedgeSize, wedgeY),
new Offset(wedgeX + wedgeSize, wedgeY),
new Offset(wedgeX, wedgeY + (tooltipBelow ? -wedgeSize : wedgeSize)),
];
canvas.drawPath(new Path()..addPolygon(wedge, true,), tooltipBackground);
_textPainter.paint(canvas, tipOffset + const Offset(_kTooltipPadding, _kTooltipPadding));
canvas.restore();
}
}
const double _kScreenEdgeMargin = 10.0;
const double _kTooltipPadding = 5.0;
const double _kInspectButtonMargin = 10.0;
/// Interpret pointer up events within with this margin as indicating the
/// pointer is moving off the device.
const double _kOffScreenMargin = 1.0;
const TextStyle _messageStyle = const TextStyle(
color: const Color(0xFFFFFFFF),
fontSize: 10.0,
height: 1.2,
);