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using System;
using System.Collections;
using System.Collections.Generic;
using System.Linq;
using System.Runtime.CompilerServices;
using Unity.UIWidgets.async;
using Unity.UIWidgets.external;
using Unity.UIWidgets.foundation;
using Unity.UIWidgets.gestures;
using Unity.UIWidgets.painting;
using Unity.UIWidgets.rendering;
using Unity.UIWidgets.scheduler;
using Unity.UIWidgets.services;
using Unity.UIWidgets.ui;
using UnityEngine;
using Canvas = Unity.UIWidgets.ui.Canvas;
using Color = Unity.UIWidgets.ui.Color;
using Debug = System.Diagnostics.Debug;
using Rect = Unity.UIWidgets.ui.Rect;
using TextStyle = Unity.UIWidgets.painting.TextStyle;
namespace Unity.UIWidgets.widgets {
public delegate Widget InspectorSelectButtonBuilder(BuildContext context, VoidCallback onPressed);
public delegate Dictionary<string, object> AddAdditionalPropertiesCallback(DiagnosticsNode diagnosticsNode, InspectorSerializationDelegate inspectorSerializationDelegate);
public delegate void _RegisterServiceExtensionCallback(string name = null , ServiceExtensionCallback callback = null);
public class WidgetInspectorUtils{
public static float _kScreenEdgeMargin = 10.0f;
public static float _kTooltipPadding = 5.0f;
public static float _kInspectButtonMargin = 10.0f;
public static float _kOffScreenMargin = 1.0f;
public static TextStyle _messageStyle = new TextStyle(
color: new Color(0xFFFFFFFF),
fontSize: 10.0f,
height: 1.2f
);
public static int _kMaxTooltipLines = 5;
public static Color _kTooltipBackgroundColor = Color.fromARGB(230, 60, 60, 60);
public static Color _kHighlightedRenderObjectFillColor = Color.fromARGB(128, 128, 128, 255);
public static Color _kHighlightedRenderObjectBorderColor = Color.fromARGB(128, 64, 64, 128);
bool _isDebugCreator(DiagnosticsNode node) => node is DiagnosticsDebugCreator;
IEnumerable transformDebugCreator(IEnumerable<DiagnosticsNode> properties) {
List<DiagnosticsNode> result = new List<DiagnosticsNode>();
List<DiagnosticsNode> pending = new List<DiagnosticsNode>();
bool foundStackTrace = false;
foreach ( DiagnosticsNode _node in properties) {
if (!foundStackTrace && _node is DiagnosticsStackTrace)
foundStackTrace = true;
if (_isDebugCreator(_node)) {
return _parseDiagnosticsNode(_node);
} else {
if (foundStackTrace) {
pending.Add(_node);
} else {
result.Add(_node);
return result;
}
}
}
return pending;
}
public static readonly Dictionary<_Location, int> _locationToId = new Dictionary<_Location, int>();
public static readonly List<_Location> _locations = new List<_Location>();
public static int _toLocationId(_Location location) {
int id = _locationToId[location];
if (id != null) {
return id;
}
id = _locations.Count;
_locations.Add(location);
_locationToId[location] = id;
return id;
}
public IEnumerable _parseDiagnosticsNode(DiagnosticsNode node) {
if (!_isDebugCreator(node))
return null;
DebugCreator debugCreator = node.value as DebugCreator;
Element element = debugCreator.element;
return _describeRelevantUserCode(element);
}
public IEnumerable<DiagnosticsNode> _describeRelevantUserCode(Element element) {
if (!WidgetInspectorService.instance.isWidgetCreationTracked()) {
return new List<DiagnosticsNode>() {
new ErrorDescription(
"Widget creation tracking is currently disabled. Enabling " +
"it enables improved error messages. It can be enabled by passing " +
"`--track-widget-creation` to `flutter run` or `flutter test`."
),
new ErrorSpacer()
};
}
List<DiagnosticsNode> nodes = new List<DiagnosticsNode>();
bool processElement(Element target) {
if (_isLocalCreationLocation(target)) {
nodes.Add(
new DiagnosticsBlock(
name: "The relevant error-causing widget was",
children: new List<DiagnosticsNode>() {
new ErrorDescription(
$"{target.widget.toStringShort()} " + $"{_describeCreationLocation(target)}"),
}
));
nodes.Add(new ErrorSpacer());
return false;
}
return true;
}
if (processElement(element))
element.visitAncestorElements(processElement);
return nodes;
}
public bool _isLocalCreationLocation(object _object){
_Location location = _getCreationLocation(_object);
if (location == null)
return false;
return WidgetInspectorService.instance._isLocalCreationLocation(location);
}
public string _describeCreationLocation(object _object) {
_Location location = _getCreationLocation(_object);
return location?.ToString();
}
public static _Location _getCreationLocation(object _object) {
object candidate = _object is Element ? ((Element)_object).widget : _object;
return candidate is _HasCreationLocation ? ((_HasCreationLocation)candidate)._location : null;
}
static Rect _calculateSubtreeBoundsHelper(RenderObject _object, Matrix4 transform) {
Rect bounds = MatrixUtils.transformRect(transform, _object.semanticBounds);
_object.visitChildren((RenderObject child) =>{
Matrix4 childTransform = transform.clone();
_object.applyPaintTransform(child, childTransform);
Rect childBounds = _calculateSubtreeBoundsHelper(child, childTransform);
Rect paintClip = _object.describeApproximatePaintClip(child);
if (paintClip != null) {
Rect transformedPaintClip = MatrixUtils.transformRect(
transform,
paintClip
);
childBounds = childBounds.intersect(transformedPaintClip);
}
if (childBounds.isFinite && !childBounds.isEmpty) {
bounds = bounds.isEmpty ? childBounds : bounds.expandToInclude(childBounds);
}
});
return bounds;
}
/// Calculate bounds for a render object and all of its descendants.
public static Rect _calculateSubtreeBounds(RenderObject _object){
return _calculateSubtreeBoundsHelper(_object, Matrix4.identity());
}
public static List<_DiagnosticsPathNode> _followDiagnosticableChain(
List<Diagnosticable> chain,
string name = null,
DiagnosticsTreeStyle style = DiagnosticsTreeStyle.sparse
) {
List<_DiagnosticsPathNode> path = new List<_DiagnosticsPathNode>();
if (chain.isEmpty())
return path;
DiagnosticsNode diagnostic = chain.First().toDiagnosticsNode(name: name, style: style);
for (int i = 1; i < chain.Count; i += 1) {
Diagnosticable target = chain[i];
bool foundMatch = false;
List<DiagnosticsNode> children = diagnostic.getChildren();
for (int j = 0; j < children.Count; j += 1) {
DiagnosticsNode child = children[j];
if (child.value == target) {
foundMatch = true;
path.Add(new _DiagnosticsPathNode(
node: diagnostic,
children: children,
childIndex: j
));
diagnostic = child;
break;
}
}
D.assert(foundMatch);
}
path.Add(new _DiagnosticsPathNode(node: diagnostic, children: diagnostic.getChildren()));
return path;
}
}
public abstract class _HasCreationLocation {
public _Location _location { get; }
}
public class _ProxyLayer : Layer {
public _ProxyLayer(Layer _layer) {
this._layer = _layer;
}
public readonly Layer _layer;
public override void addToScene(ui.SceneBuilder builder, Offset layerOffset = null ) {
layerOffset = layerOffset ?? Offset.zero;
_layer.addToScene(builder, layerOffset);
}
public override bool findAnnotations<S>(
AnnotationResult<S> result,
Offset localPosition,
bool onlyFirst) {
return _layer.findAnnotations(result, localPosition, onlyFirst: onlyFirst);
}
}
public class _MulticastCanvas : Canvas {
public _MulticastCanvas(
Canvas main,
Canvas screenshot
) : base( new PictureRecorder()) {
D.assert(main != null);
D.assert(screenshot != null);
_main = main;
_screenshot = screenshot;
}
public readonly Canvas _main;
public readonly Canvas _screenshot;
public override void clipPath(Path path, bool doAntiAlias = true ) {
_main.clipPath(path, doAntiAlias: doAntiAlias);
_screenshot.clipPath(path, doAntiAlias: doAntiAlias);
}
public override void clipRRect(RRect rrect, bool doAntiAlias = true ) {
_main.clipRRect(rrect, doAntiAlias: doAntiAlias);
_screenshot.clipRRect(rrect, doAntiAlias: doAntiAlias);
}
public override void clipRect(Rect rect, ui.ClipOp clipOp = ui.ClipOp.intersect, bool doAntiAlias = true ) {
_main.clipRect(rect, clipOp: clipOp, doAntiAlias: doAntiAlias);
_screenshot.clipRect(rect, clipOp: clipOp, doAntiAlias: doAntiAlias);
}
public override void drawArc(Rect rect, float startAngle, float sweepAngle, bool useCenter, Paint paint) {
_main.drawArc(rect, startAngle, sweepAngle, useCenter, paint);
_screenshot.drawArc(rect, startAngle, sweepAngle, useCenter, paint);
}
public override void drawAtlas(ui.Image atlas, List<RSTransform> transforms, List<Rect> rects, List<Color> colors, BlendMode blendMode, Rect cullRect, Paint paint) {
_main.drawAtlas(atlas, transforms, rects, colors, blendMode, cullRect, paint);
_screenshot.drawAtlas(atlas, transforms, rects, colors, blendMode, cullRect, paint);
}
public override void drawCircle(Offset c, float radius, Paint paint) {
_main.drawCircle(c, radius, paint);
_screenshot.drawCircle(c, radius, paint);
}
public override void drawColor(Color color, BlendMode blendMode) {
_main.drawColor(color, blendMode);
_screenshot.drawColor(color, blendMode);
}
public override void drawDRRect(RRect outer, RRect inner, Paint paint) {
_main.drawDRRect(outer, inner, paint);
_screenshot.drawDRRect(outer, inner, paint);
}
public override void drawImage(ui.Image image, Offset p, Paint paint) {
_main.drawImage(image, p, paint);
_screenshot.drawImage(image, p, paint);
}
public override void drawImageNine(ui.Image image, Rect center, Rect dst, Paint paint) {
_main.drawImageNine(image, center, dst, paint);
_screenshot.drawImageNine(image, center, dst, paint);
}
public override void drawImageRect(ui.Image image, Rect src, Rect dst, Paint paint) {
_main.drawImageRect(image, src, dst, paint);
_screenshot.drawImageRect(image, src, dst, paint);
}
public override void drawLine(Offset p1, Offset p2, Paint paint) {
_main.drawLine(p1, p2, paint);
_screenshot.drawLine(p1, p2, paint);
}
public override void drawOval(Rect rect, Paint paint) {
_main.drawOval(rect, paint);
_screenshot.drawOval(rect, paint);
}
public override void drawPaint(Paint paint) {
_main.drawPaint(paint);
_screenshot.drawPaint(paint);
}
public override void drawParagraph(ui.Paragraph paragraph, Offset offset) {
_main.drawParagraph(paragraph, offset);
_screenshot.drawParagraph(paragraph, offset);
}
public override void drawPath(Path path, Paint paint) {
_main.drawPath(path, paint);
_screenshot.drawPath(path, paint);
}
public override void drawPicture(ui.Picture picture) {
_main.drawPicture(picture);
_screenshot.drawPicture(picture);
}
public override void drawPoints(ui.PointMode pointMode, List<Offset> points, Paint paint) {
_main.drawPoints(pointMode, points, paint);
_screenshot.drawPoints(pointMode, points, paint);
}
public override void drawRRect(RRect rrect, Paint paint) {
_main.drawRRect(rrect, paint);
_screenshot.drawRRect(rrect, paint);
}
public override void drawRawAtlas(ui.Image atlas,
float[] rstTransforms,
float[] rects,
uint[] colors,
BlendMode blendMode,
Rect cullRect,
Paint paint) {
_main.drawRawAtlas(atlas, rstTransforms, rects, colors, blendMode, cullRect, paint);
_screenshot.drawRawAtlas(atlas, rstTransforms, rects, colors, blendMode, cullRect, paint);
}
public override void drawRawPoints(PointMode pointMode, float[] points, Paint paint) {
_main.drawRawPoints(pointMode, points, paint);
_screenshot.drawRawPoints(pointMode, points, paint);
}
public override void drawRect(Rect rect, Paint paint) {
_main.drawRect(rect, paint);
_screenshot.drawRect(rect, paint);
}
public override void drawShadow(Path path, Color color, float elevation, bool transparentOccluder) {
_main.drawShadow(path, color, elevation, transparentOccluder);
_screenshot.drawShadow(path, color, elevation, transparentOccluder);
}
public override void drawVertices(ui.Vertices vertices, BlendMode blendMode, Paint paint) {
_main.drawVertices(vertices, blendMode, paint);
_screenshot.drawVertices(vertices, blendMode, paint);
}
public override int getSaveCount() {
return _main.getSaveCount();
}
public override void restore() {
_main.restore();
_screenshot.restore();
}
public override void rotate(float radians) {
_main.rotate(radians);
_screenshot.rotate(radians);
}
public override void save() {
_main.save();
_screenshot.save();
}
public override void saveLayer(Rect bounds, Paint paint) {
_main.saveLayer(bounds, paint);
_screenshot.saveLayer(bounds, paint);
}
public override void scale(float sx, float? sy = null ) {
_main.scale(sx, sy);
_screenshot.scale(sx, sy);
}
public override void skew(float sx, float sy) {
_main.skew(sx, sy);
_screenshot.skew(sx, sy);
}
public override void transform(float[] matrix4) {
_main.transform(matrix4);
_screenshot.transform(matrix4);
}
public override void translate(float dx, float dy) {
_main.translate(dx, dy);
_screenshot.translate(dx, dy);
}
}
public class _ScreenshotContainerLayer : OffsetLayer {
public override void addToScene(ui.SceneBuilder builder ,Offset layerOffset = null) {
layerOffset = layerOffset ?? Offset.zero;
addChildrenToScene(builder, layerOffset);
}
}
public delegate void InspectorSelectionChangedCallback();
public delegate void InspectorShowCallback();
public delegate void DeveloperInspect();
class _InspectorReferenceData {
public readonly object obj;
public int count = 1;
public _InspectorReferenceData(object obj) {
this.obj = obj;
}
}
public delegate FutureOr CallBack();
public delegate Dictionary<string, object> CallBackObjectGroup(string objectGroup);
public delegate List<Dictionary<string, object>> CallBackObjectId(string objectId, string objectGroup);
public delegate void CallBackList(List<string> args);
public class _DiagnosticsPathNode {
public _DiagnosticsPathNode(
DiagnosticsNode node,
List<DiagnosticsNode> children,
int childIndex = 0
) {
D.assert(node != null);
D.assert(children != null);
this.node = node;
this.children = children;
this.childIndex = childIndex;
}
/// Node at the point in the path this [_DiagnosticsPathNode] is describing.
public readonly DiagnosticsNode node;
public readonly List<DiagnosticsNode> children;
public readonly int childIndex;
}
public class WidgetInspectorService {
public readonly List<string> _serializeRing = new List<string>(20);
int _serializeRingIndex = 0;
public readonly WidgetsBinding widgetsBinding;
bool _debugShowInspector;
public DeveloperInspect developerInspect;
public InspectorShowCallback inspectorShowCallback;
public static WidgetInspectorService instance {
get { //return WidgetsBinding.instance.widgetInspectorService;
return _instance;
}
set {
_instance = instance;
}
}
static WidgetInspectorService _instance = new WidgetInspectorService();
static bool _debugServiceExtensionsRegistered = false;
public readonly InspectorSelection selection = new InspectorSelection();
public InspectorSelectionChangedCallback selectionChangedCallback;
readonly Dictionary<string, HashSet<_InspectorReferenceData>> _groups =
new Dictionary<string, HashSet<_InspectorReferenceData>>();
readonly Dictionary<string, _InspectorReferenceData> _idToReferenceData =
new Dictionary<string, _InspectorReferenceData>();
readonly Dictionary<object, string> _objectToId = new Dictionary<object, string>();
int _nextId = 0;
List<string> _pubRootDirectories;
bool _trackRebuildDirtyWidgets = false;
bool _trackRepaintWidgets = false;
_RegisterServiceExtensionCallback _registerServiceExtensionCallback;
public void registerServiceExtension(
string name = null,
ServiceExtensionCallback callback = null
) {
_registerServiceExtensionCallback(
name: "inspector." + name,
callback: callback
);
}
public void _registerSignalServiceExtension(
string name = null,
CallBack callback = null // callback()
) {
registerServiceExtension(
name: name,
callback:
((IDictionary<string, string> parameters) => {
var result = Future.value(FutureOr.value(new Dictionary<string, object>(){{"result", callback}})).to<IDictionary<string, object>>();
return result;
})
);
}
void _registerObjectGroupServiceExtension(
string name = null,
CallBackObjectGroup callback = default
) {
registerServiceExtension(
name: name,
callback: (IDictionary<string, string> parameters) => {
var result = Future.value(FutureOr.value((new Dictionary<string, object>{{"result", callback(parameters["objectGroup"])}}))).to<IDictionary<string, object>>();
return result;
}
);
}
/*void _registerBoolServiceExtension(
string name ,
AsyncValueGetter<bool> getter ,
AsyncValueSetter<bool> setter
) {
D.assert(name != null);
D.assert(getter != null);
D.assert(setter != null);
registerServiceExtension(
name: name,
callback: (Dictionary<string, string> parameters) => {
if (parameters.ContainsKey("enabled")) {
bool value = parameters["enabled"] == "true";
setter(value);
_postExtensionStateChangedEvent(name, value);
}
return new Dictionary<string, object>{{"enabled", getter() ? "true" : "false"}};
}
);
}*/
/*void _postExtensionStateChangedEvent(string name, object value) {
postEvent(
"Flutter.ServiceExtensionStateChanged",
new Dictionary<string, object>{
{"extension", "ext.flutter.inspector." + name},
{"value", value},
}
);
}*/
/*void _registerServiceExtensionWithArg(
string name = null,
CallBackObjectId callback = default
) {
registerServiceExtension(
name: name,
callback: (Dictionary<string, string> parameters) =>{
D.assert(parameters.ContainsKey("objectGroup"));
return new Dictionary<string, object> {
{"result", callback(parameters["arg"], parameters["objectGroup"])}
};
}
);
}*/
/*void _registerServiceExtensionVarArgs(
string name = null,
CallBackList callback = default
) {
registerServiceExtension(
name: name,
callback: (Dictionary<string, string> parameters) => {
string argPrefix = "arg";
List<string> args = new List<string>();
parameters.ForEach<string>((string name, string value)=> {
if (name.StartsWith(argPrefix)) {
int index = int.Parse(name.Substring(argPrefix.Length));
if (index >= args.Count) {
args.Count = index + 1;
}
args[index] = value;
}
});
return new Dictionary<string, object>{{"result", callback(args)}};
}
);
}*/
/*Future forceRebuild() {
WidgetsBinding binding = WidgetsBinding.instance;
if (binding.renderViewElement != null) {
binding.buildOwner.reassemble(binding.renderViewElement);
return binding.endOfFrame;
}
return Future.value();
}*/
static string _consoleObjectGroup = "console-group";
int _errorsSinceReload = 0;
/*void _reportError(UIWidgetsErrorDetails details) {
Dictionary<string, object> errorJson = _nodeToJson(
details.toDiagnosticsNode(),
new InspectorSerializationDelegate(
groupName: _consoleObjectGroup,
subtreeDepth: 5,
includeProperties: true,
expandPropertyValues: true,
maxDescendentsTruncatableNode: 5,
service: this
)
);
errorJson["errorsSinceReload"] = _errorsSinceReload;
_errorsSinceReload += 1;
postEvent("Flutter.Error", errorJson);
}*/
void _resetErrorCount() {
_errorsSinceReload = 0;
}
/*void initServiceExtensions(_RegisterServiceExtensionCallback registerServiceExtensionCallback) {
_registerServiceExtensionCallback = registerServiceExtensionCallback;
D.assert(!_debugServiceExtensionsRegistered);
D.assert(()=> {
_debugServiceExtensionsRegistered = true;
return true;
});
SchedulerBinding.instance.addPersistentFrameCallback(_onFrameStart);
FlutterExceptionHandler structuredExceptionHandler = _reportError;
FlutterExceptionHandler defaultExceptionHandler = FlutterError.onError;
_registerBoolServiceExtension(
name: "structuredErrors",
getter: () => FlutterError.onError == structuredExceptionHandler,
setter: (bool value)=> {
FlutterError.onError = value ? structuredExceptionHandler : defaultExceptionHandler;
return Future.value();
}
);
_registerBoolServiceExtension(
name: "show",
getter: () => WidgetsApp.debugShowWidgetInspectorOverride,
setter: (bool value)=> {
if (WidgetsApp.debugShowWidgetInspectorOverride == value) {
return Future<void>.value();
}
WidgetsApp.debugShowWidgetInspectorOverride = value;
return forceRebuild();
}
);
if (isWidgetCreationTracked()) {
_registerBoolServiceExtension(
name: "trackRebuildDirtyWidgets",
getter: () => _trackRebuildDirtyWidgets,
setter: (bool value) => {
if (value == _trackRebuildDirtyWidgets) {
return;
}
_rebuildStats.resetCounts();
_trackRebuildDirtyWidgets = value;
if (value) {
D.assert(debugOnRebuildDirtyWidget == null);
debugOnRebuildDirtyWidget = _onRebuildWidget;
forceRebuild();
return;
} else {
debugOnRebuildDirtyWidget = null;
return;
} }
);
_registerBoolServiceExtension(
name: "trackRepaintWidgets",
getter: () => _trackRepaintWidgets,
setter: (bool value) => {
if (value == _trackRepaintWidgets) {
return;
}
_repaintStats.resetCounts();
_trackRepaintWidgets = value;
if (value) {
D.assert(debugOnProfilePaint == null);
debugOnProfilePaint = _onPaint;
void markTreeNeedsPaint(RenderObject renderObject) {
renderObject.markNeedsPaint();
renderObject.visitChildren(markTreeNeedsPaint);
}
RenderObject root = RendererBinding.instance.renderView;
if (root != null) {
markTreeNeedsPaint(root);
}
}
else {
debugOnProfilePaint = null;
}
}
);
}
_registerSignalServiceExtension(
name: "disposeAllGroups",
callback: disposeAllGroups
);
_registerObjectGroupServiceExtension(
name: "disposeGroup",
callback: disposeGroup
);
_registerSignalServiceExtension(
name: "isWidgetTreeReady",
callback: isWidgetTreeReady
);
_registerServiceExtensionWithArg(
name: "disposeId",
callback: disposeId
);
_registerServiceExtensionVarArgs(
name: "setPubRootDirectories",
callback: setPubRootDirectories
);
_registerServiceExtensionWithArg(
name: "setSelectionById",
callback: setSelectionById
);
_registerServiceExtensionWithArg(
name: "getParentChain",
callback: _getParentChain
);
_registerServiceExtensionWithArg(
name: "getProperties",
callback: _getProperties
);
_registerServiceExtensionWithArg(
name: "getChildren",
callback: _getChildren
);
_registerServiceExtensionWithArg(
name: "getChildrenSummaryTree",
callback: _getChildrenSummaryTree
);
_registerServiceExtensionWithArg(
name: "getChildrenDetailsSubtree",
callback: _getChildrenDetailsSubtree
);
_registerObjectGroupServiceExtension(
name: "getRootWidget",
callback: _getRootWidget
);
_registerObjectGroupServiceExtension(
name: "getRootRenderObject",
callback: _getRootRenderObject
);
_registerObjectGroupServiceExtension(
name: "getRootWidgetSummaryTree",
callback: _getRootWidgetSummaryTree
);
registerServiceExtension(
name: "getDetailsSubtree",
callback: (Dictionary<string, string> parameters) => {
D.assert(parameters.ContainsKey("objectGroup"));
string subtreeDepth = parameters["subtreeDepth"];
return new Dictionary<string, object>{{
"result", _getDetailsSubtree(
parameters["arg"],
parameters["objectGroup"],
subtreeDepth != null ? int.Parse(subtreeDepth) : 2
)
}};
}
);
_registerServiceExtensionWithArg(
name: "getSelectedRenderObject",
callback: _getSelectedRenderObject
);
_registerServiceExtensionWithArg(
name: "getSelectedWidget",
callback: _getSelectedWidget
);
_registerServiceExtensionWithArg(
name: "getSelectedSummaryWidget",
callback: _getSelectedSummaryWidget
);
_registerSignalServiceExtension(
name: "isWidgetCreationTracked",
callback: isWidgetCreationTracked
);
registerServiceExtension(
name: "screenshot",
callback: (Dictionary<string, string> parameters) => {
D.assert(parameters.ContainsKey("id"));
D.assert(parameters.ContainsKey("width"));
D.assert(parameters.ContainsKey("height"));
ui.Image image = screenshot(
toObject(parameters["id"]),
width: float.Parse(parameters["width"]),
height: float.Parse(parameters["height"]),
margin: parameters.ContainsKey("margin") ? float.Parse(parameters["margin"]) : 0.0f,
maxPixelRatio: parameters.ContainsKey("maxPixelRatio") ? float.Parse(parameters["maxPixelRatio"]) : 1.0f,
debugPaint: parameters["debugPaint"] == "true"
);
if (image == null) {
return new Dictionary<string, object>{{"result", null}};
}
byte[] byteData = image.toByteData(format:ui.ImageByteFormat.png);
return new Dictionary<string, object>{{
"result", base64.encoder.convert(Uint8List.view(byteData.buffer))
}
};
}
);
}*/
/*void _clearStats() {
_rebuildStats.resetCounts();
_repaintStats.resetCounts();
}*/
protected void disposeAllGroups() {
_groups.Clear();
_idToReferenceData.Clear();
_objectToId.Clear();
_nextId = 0;
}
public void disposeGroup(string groupName) {
HashSet<_InspectorReferenceData> references;
_groups.TryGetValue(groupName, out references);
_groups.Remove(groupName);
if (references != null) {
foreach (var r in references) {
_decrementReferenceCount(r);
}
}
}
void _decrementReferenceCount(_InspectorReferenceData reference) {
reference.count -= 1;
D.assert(reference.count >= 0);
if (reference.count == 0) {
string id;
_objectToId.TryGetValue(reference.obj, out id);
D.assert(id != null);
_objectToId.Remove(reference.obj);
_idToReferenceData.Remove(id);
}
}
public string toId(object obj, string groupName) {
if (obj == null) {
return null;
}
HashSet<_InspectorReferenceData> group;
_groups.TryGetValue(groupName, out group);
if (group == null) {
group = new HashSet<_InspectorReferenceData>();
_groups.Add(groupName, group);
}
string id;
_objectToId.TryGetValue(obj, out id);
_InspectorReferenceData referenceData;
if (id == null) {
id = $"inspector-{_nextId}";
_nextId++;
_objectToId[obj] = id;
referenceData = new _InspectorReferenceData(obj);
_idToReferenceData[id] = referenceData;
group.Add(referenceData);
}
else {
referenceData = _idToReferenceData[id];
if (group.Add(referenceData)) {
referenceData.count += 1;
}
}
return id;
}
/*bool isWidgetTreeReady(string groupName = null) {
return WidgetsBinding.instance != null &&
WidgetsBinding.instance.debugDidSendFirstFrameEvent;
}*/
object toObject(string id, string groupName = null) {
if (id == null) {
return null;
}
_InspectorReferenceData data = _idToReferenceData.getOrDefault(id);
if (data == null) {
throw new UIWidgetsError(new List<DiagnosticsNode>{new ErrorSummary("Id does not exist.")});
}
return data.obj;
}
object toObjectForSourceLocation(string id, string groupName = null) {
object _object = toObject(id);
if (_object is Element) {
return ((Element)_object).widget;
}
return _object;
}
void disposeId(string id, string groupName) {
if (id == null)
return;
_InspectorReferenceData referenceData = _idToReferenceData[id];
if (referenceData == null)
throw new UIWidgetsError("Id does not exist");
if (_groups[groupName]?.Remove(referenceData) != true)
throw new UIWidgetsError("Id does not exist");
_decrementReferenceCount(referenceData);
}
void setPubRootDirectories(List<string> pubRootDirectories) {
foreach (var directory in pubRootDirectories) {
var localPath = new Uri(directory).LocalPath;
_pubRootDirectories.Add(localPath);
}
}
bool setSelectionById(string id, string groupName = null) {
return setSelection(toObject(id), groupName);
}
/* public WidgetInspectorService(WidgetsBinding widgetsBinding) {
this.widgetsBinding = widgetsBinding;
}
public bool debugShowInspector {
get { return _debugShowInspector; }
set {
var old = _debugShowInspector;
_debugShowInspector = value;
if (_debugShowInspector != old && inspectorShowCallback != null) {
inspectorShowCallback();
}
}
}*/
protected bool setSelection(object obj, string groupName = "") {
if (obj is Element || obj is RenderObject) {
if (obj is Element) {
if (ReferenceEquals(obj, selection.currentElement)) {
return false;
}
selection.currentElement = (Element) obj;
// [!!!] developer.inspect(selection.currentElement);
}
else {
if (obj == selection.current) {
return false;
}
selection.current = (RenderObject) obj;
// [!!!] developer.inspect(selection.current);
}
if (selectionChangedCallback != null) {
if (WidgetsBinding.instance.schedulerPhase == SchedulerPhase.idle) {
selectionChangedCallback();
}
else {
// todo schedule task ?
SchedulerBinding.instance.scheduleTask<object>(
()=> {
selectionChangedCallback();
return null;
},
Priority.touch
);
}
}
return true;
}
return false;
}
string getParentChain(string id, string groupName) {
return _safeJsonEncode(_getParentChain(id, groupName));
}
List<Dictionary<string,object>> _getParentChain(string id, string groupName) {
object value = toObject(id);
List<_DiagnosticsPathNode> path = new List<_DiagnosticsPathNode>();
if (value is RenderObject)
path = _getRenderObjectParentChain((RenderObject)value, groupName);
else if (value is Element)
path = _getElementParentChain((Element)value, groupName);
else
throw new UIWidgetsError(new List<DiagnosticsNode>{new ErrorSummary($"Cannot get parent chain for node of type {value.GetType()}")});
return LinqUtils<Dictionary<string, object>, _DiagnosticsPathNode>.SelectList(
path,((_DiagnosticsPathNode node) =>
_pathNodeToJson(node, new InspectorSerializationDelegate(groupName: groupName, service: this))
));
}
Dictionary<string, object> _pathNodeToJson(_DiagnosticsPathNode pathNode, InspectorSerializationDelegate _delegate) {
if (pathNode == null)
return null;
return new Dictionary<string, object>{
{"node", _nodeToJson(pathNode.node, _delegate)},
{"children", _nodesToJson(pathNode.children, _delegate, parent: pathNode.node)},
{"childIndex", pathNode.childIndex}
};
}
List<Diagnosticable> _getRawElementParentChain(Element element, int? numLocalParents = null ) {
List<Element> elements = element?.debugGetDiagnosticChain();
if (numLocalParents != null) {
for (int i = 0; i < elements.Count; i += 1) {
if (_isValueCreatedByLocalProject(elements[i])) {
numLocalParents--;
if (numLocalParents <= 0) {
elements = elements.Take(i + 1).ToList();
break;
}
}
}
}
elements?.Reverse();
List<Diagnosticable> result = new List<Diagnosticable>();
foreach (var _element in elements) {
result.Add((Diagnosticable)_element);
}
return result;
}
List<_DiagnosticsPathNode> _getElementParentChain(Element element, string groupName, int? numLocalParents = null ) {
return WidgetInspectorUtils._followDiagnosticableChain(
_getRawElementParentChain(element, numLocalParents: numLocalParents)
) ?? new List<_DiagnosticsPathNode>();
}
public Dictionary<string, object> _nodeToJson(
DiagnosticsNode node,
InspectorSerializationDelegate _delegate
) {
return node?.toJsonMap(_delegate);
}
List<_DiagnosticsPathNode> _getRenderObjectParentChain(RenderObject renderObject, string groupName, int? maxparents = null ) {
List<Diagnosticable> chain = new List<Diagnosticable>();
while (renderObject != null) {
chain.Add(renderObject);
renderObject = renderObject.parent as RenderObject;
}
chain.Reverse();
return WidgetInspectorUtils._followDiagnosticableChain(chain.ToList());
}
bool _isValueCreatedByLocalProject(object value) {
_Location creationLocation = WidgetInspectorUtils._getCreationLocation(value);
if (creationLocation == null) {
return false;
}
return _isLocalCreationLocation(creationLocation);
}
public bool _isLocalCreationLocation(_Location location) {
if (location == null || location.file == null) {
return false;
}
string file = new Uri(location.file).LocalPath; //Uri.parse(location.file).path;
if (_pubRootDirectories == null) {
// TODO(chunhtai): Make it more robust once
// https://github.com/flutter/flutter/issues/32660 is fixed.
return !file.Contains("packages/flutter/");
}
foreach (string directory in _pubRootDirectories) {
if(file.StartsWith(directory))
{
return true;
}
}
return false;
}
string _safeJsonEncode(object _object) {
string jsonString = JSONMessageCodec.instance.toJson(_object);
_serializeRing[_serializeRingIndex] = jsonString;
_serializeRingIndex = (_serializeRingIndex + 1) % _serializeRing.Count;
return jsonString;
}
public List<DiagnosticsNode> _truncateNodes(IEnumerable<DiagnosticsNode>nodes, int maxDescendentsTruncatableNode) {
bool isElement = true;
foreach (var node in nodes) {
if (!(node.value is Element)) {
isElement = false;
break;
}
}
if (isElement && isWidgetCreationTracked()) {
List<DiagnosticsNode> localNodes = LinqUtils<DiagnosticsNode>.WhereList(nodes,(DiagnosticsNode node) =>
_isValueCreatedByLocalProject(node.value));
if (localNodes.isNotEmpty()) {
return localNodes;
}
}
//return nodes.take(maxDescendentsTruncatableNode).toList();
List<DiagnosticsNode> results = new List<DiagnosticsNode>();
for (int i = 0; i < maxDescendentsTruncatableNode; i++) {
results.Add(nodes.ElementAt(i));
}
return results;
}
List<Dictionary<string, object>> _nodesToJson(
List<DiagnosticsNode> nodes,
InspectorSerializationDelegate _delegate,
DiagnosticsNode parent
) {
return DiagnosticsNode.toJsonList(nodes, parent, _delegate);
}
string getProperties(string diagnosticsNodeId, string groupName) {
return _safeJsonEncode(_getProperties(diagnosticsNodeId, groupName));
}
List<Dictionary<string, object>> _getProperties(string diagnosticsNodeId, string groupName) {
DiagnosticsNode node = toObject(diagnosticsNodeId) as DiagnosticsNode;
return _nodesToJson(node == null ? new List<DiagnosticsNode>() : node.getProperties(), new InspectorSerializationDelegate(groupName: groupName, service: this), parent: node);
}
string getChildren(string diagnosticsNodeId, string groupName) {
return _safeJsonEncode(_getChildren(diagnosticsNodeId, groupName));
}
List<Dictionary<string, object>> _getChildren(string diagnosticsNodeId, string groupName) {
DiagnosticsNode node = toObject(diagnosticsNodeId) as DiagnosticsNode;
InspectorSerializationDelegate _delegate = new InspectorSerializationDelegate(groupName: groupName, service: this);
return _nodesToJson(node == null ? new List<DiagnosticsNode>() : _getChildrenFiltered(node, _delegate), _delegate, parent: node);
}
string getChildrenSummaryTree(string diagnosticsNodeId, string groupName) {
return _safeJsonEncode(_getChildrenSummaryTree(diagnosticsNodeId, groupName));
}
List<Dictionary<string, object>> _getChildrenSummaryTree(string diagnosticsNodeId, string groupName) {
DiagnosticsNode node = toObject(diagnosticsNodeId) as DiagnosticsNode;
InspectorSerializationDelegate _delegate = new InspectorSerializationDelegate(groupName: groupName, summaryTree: true, service: this);
return _nodesToJson(node == null ? new List<DiagnosticsNode>() : _getChildrenFiltered(node, _delegate), _delegate, parent: node);
}
string getChildrenDetailsSubtree(string diagnosticsNodeId, string groupName) {
return _safeJsonEncode(_getChildrenDetailsSubtree(diagnosticsNodeId, groupName));
}
List<Dictionary<string, object>> _getChildrenDetailsSubtree(string diagnosticsNodeId, string groupName) {
DiagnosticsNode node = toObject(diagnosticsNodeId) as DiagnosticsNode;
// With this value of minDepth we only expand one extra level of important nodes.
InspectorSerializationDelegate _delegate = new InspectorSerializationDelegate(groupName: groupName, subtreeDepth: 1, includeProperties: true, service: this);
return _nodesToJson(node == null ? new List<DiagnosticsNode>() : _getChildrenFiltered(node, _delegate), _delegate, parent: node);
}
public bool _shouldShowInSummaryTree(DiagnosticsNode node) {
if (node.level == DiagnosticLevel.error) {
return true;
}
object value = node.value;
if (!(value is Diagnosticable)) {
return true;
}
if (!(value is Element) || !isWidgetCreationTracked()) {
return true;
}
return _isValueCreatedByLocalProject(value);
}
List<DiagnosticsNode> _getChildrenFiltered(
DiagnosticsNode node,
InspectorSerializationDelegate _delegate
) {
return _filterChildren(node.getChildren(), _delegate);
}
public List<DiagnosticsNode> _filterChildren(
List<DiagnosticsNode> nodes,
InspectorSerializationDelegate _delegate
) {
List<DiagnosticsNode> result = new List<DiagnosticsNode>();
foreach ( DiagnosticsNode child in nodes) {
if (!_delegate.summaryTree || _shouldShowInSummaryTree(child))
result.Add(child);
else
result = _getChildrenFiltered(child, _delegate);
}
List<DiagnosticsNode> children = result;
return children;
}
string getRootWidget(string groupName) {
return _safeJsonEncode(_getRootWidget(groupName));
}
public Dictionary<string, object> _getRootWidget(string groupName) {
return _nodeToJson(WidgetsBinding.instance?.renderViewElement?.toDiagnosticsNode(), new InspectorSerializationDelegate(groupName: groupName, service: this));
}
string getRootWidgetSummaryTree(string groupName) {
return _safeJsonEncode(_getRootWidgetSummaryTree(groupName));
}
public Dictionary<string, object> _getRootWidgetSummaryTree(string groupName) {
return _nodeToJson(
WidgetsBinding.instance?.renderViewElement?.toDiagnosticsNode(),
new InspectorSerializationDelegate(groupName: groupName, subtreeDepth: 1000000, summaryTree: true, service: this));
}
string getRootRenderObject(string groupName) {
return _safeJsonEncode(_getRootRenderObject(groupName));
}
public Dictionary<string, object> _getRootRenderObject(string groupName) {
return _nodeToJson(RendererBinding.instance?.renderView?.toDiagnosticsNode(),
new InspectorSerializationDelegate(groupName: groupName, service: this));
}
string getDetailsSubtree(
string id,
string groupName,
int subtreeDepth = 2
) {
return _safeJsonEncode(_getDetailsSubtree( id, groupName, subtreeDepth));
}
public Dictionary<string, object> _getDetailsSubtree(string id, string groupName,int subtreeDepth) {
var root = toObject(id) as DiagnosticsNode;
if (root == null) {
return null;
}
return _nodeToJson(
root,
new InspectorSerializationDelegate(
groupName: groupName,
summaryTree: false,
subtreeDepth: subtreeDepth,
includeProperties: true,
service: this
)
);
}
string getSelectedRenderObject(string previousSelectionId, string groupName) {
return _safeJsonEncode(_getSelectedRenderObject(previousSelectionId, groupName));
}
public Dictionary<string, object> _getSelectedRenderObject(string previousSelectionId, string groupName) {
DiagnosticsNode previousSelection = toObject(previousSelectionId) as DiagnosticsNode;
RenderObject current = selection?.current;
return _nodeToJson(current == previousSelection?.value ? previousSelection : current?.toDiagnosticsNode(), new InspectorSerializationDelegate(groupName: groupName, service: this));
}
Future<ui.Image> screenshot(
object _object,
float width = 0.0f,// null
float height = 0.0f,
float margin = 0.0f,
float maxPixelRatio = 1.0f,
bool debugPaint = false
) {
if (!(_object is Element) && !(_object is RenderObject)) {
return null;
}
RenderObject renderObject = _object is Element ? ((Element)_object).renderObject : (_object as RenderObject);
if (renderObject == null || !renderObject.attached) {
return null;
}
if (renderObject.debugNeedsLayout) {
PipelineOwner owner = renderObject.owner;
D.assert(owner != null);
D.assert(!owner.debugDoingLayout);
owner.flushLayout();
owner.flushCompositingBits();
owner.flushPaint();
if (renderObject.debugNeedsLayout) {
return null;
}
}
Rect renderBounds = WidgetInspectorUtils._calculateSubtreeBounds(renderObject);
if (margin != 0.0) {
renderBounds = renderBounds.inflate(margin);
}
if (renderBounds.isEmpty) {
return null;
}
float pixelRatio = Mathf.Min(
maxPixelRatio,
Mathf.Min(
width / renderBounds.width,
height / renderBounds.height
)
);
return _ScreenshotPaintingContext.toImage(
renderObject,
renderBounds,
pixelRatio: pixelRatio,
debugPaint: debugPaint
);
}
string getSelectedWidget(string previousSelectionId, string groupName) {
return _safeJsonEncode(_getSelectedWidget(previousSelectionId, groupName));
}
public Dictionary<string, object> _getSelectedWidget(string previousSelectionId, string groupName) {
DiagnosticsNode previousSelection = toObject(previousSelectionId) as DiagnosticsNode;
Element current = selection?.currentElement;
return _nodeToJson(Equals(current, previousSelection?.value) ? previousSelection : current?.toDiagnosticsNode(), new InspectorSerializationDelegate(groupName: groupName, service: this));
}
string getSelectedSummaryWidget(string previousSelectionId, string groupName) {
return _safeJsonEncode(_getSelectedSummaryWidget(previousSelectionId, groupName));
}
public Dictionary<string, object> _getSelectedSummaryWidget(string previousSelectionId, string groupName) {
if (!isWidgetCreationTracked()) {
return _getSelectedWidget(previousSelectionId, groupName);
}
DiagnosticsNode previousSelection = toObject(previousSelectionId) as DiagnosticsNode;
Element current = selection?.currentElement;
if (current != null && !_isValueCreatedByLocalProject(current)) {
Element firstLocal = null;
foreach (Element candidate in current.debugGetDiagnosticChain()) {
if (_isValueCreatedByLocalProject(candidate)) {
firstLocal = candidate;
break;
}
}
current = firstLocal;
}
return _nodeToJson(Equals(current, previousSelection?.value) ? previousSelection : current?.toDiagnosticsNode(), new InspectorSerializationDelegate(groupName: groupName, service: this));
}
public bool isWidgetCreationTracked() {
_widgetCreationTracked = new _WidgetForTypeTests() is _HasCreationLocation;
return _widgetCreationTracked;
}
bool _widgetCreationTracked;
TimeSpan _frameStart;
/*void _onFrameStart(TimeSpan timeStamp) {
_frameStart = timeStamp;
SchedulerBinding.instance.addPostFrameCallback(_onFrameEnd);
}
void _onFrameEnd(TimeSpan timeStamp) {
if (_trackRebuildDirtyWidgets) {
_postStatsEvent("Flutter.RebuiltWidgets", _rebuildStats);
}
if (_trackRepaintWidgets) {
_postStatsEvent("Flutter.RepaintWidgets", _repaintStats);
}
}
void _postStatsEvent(string eventName, _ElementLocationStatsTracker stats) {
postEvent(eventName, stats.exportToJson(_frameStart));
}
void postEvent(string eventKind, Dictionary<object, object> eventData) {
developer.postEvent(eventKind, eventData);
}*/
//public readonly _ElementLocationStatsTracker _rebuildStats = _ElementLocationStatsTracker();
//public readonly _ElementLocationStatsTracker _repaintStats = _ElementLocationStatsTracker();
/*void _onRebuildWidget(Element element, bool builtOnce) {
_rebuildStats.add(element);
}
void _onPaint(RenderObject renderObject) {
try {
Element element = renderObject.debugCreator?.element as Element;
if (!(element is RenderObjectElement)) {
return;
}
_repaintStats.add(element);
element.visitAncestorElements((Element ancestor)=> {
if (ancestor is RenderObjectElement) {
return false;
}
_repaintStats.add(ancestor);
return true;
});
}
catch (exception, stack)=> {
FlutterError.reportError(
FlutterErrorDetails(
exception: exception,
stack: stack
)
);
}
}*/
void performReassemble() {
//_clearStats();
_resetErrorCount();
}
}
public class WidgetInspector : StatefulWidget {
public readonly Widget child;
public WidgetInspector(
Widget child,
Key key = null,
InspectorSelectButtonBuilder selectButtonBuilder = null
) : base(key) {
D.assert(child != null);
this.child = child;
this.selectButtonBuilder = selectButtonBuilder;
}
public readonly InspectorSelectButtonBuilder selectButtonBuilder;
public override State createState() {
return new _WidgetInspectorState();
}
}
public class _WidgetForTypeTests : Widget {
public override Element createElement() => null;
}
public class _ScreenshotData {
public _ScreenshotData(
RenderObject target
) {
D.assert(target != null);
this.target = target;
containerLayer = new _ScreenshotContainerLayer();
}
public readonly RenderObject target;
public readonly OffsetLayer containerLayer;
public bool foundTarget = false;
public bool includeInScreenshot = false;
public bool includeInRegularContext = true;
public Offset screenshotOffset {
get {
D.assert(foundTarget);
return containerLayer.offset;
}
set {
containerLayer.offset = value;
}
}
}
public class _ScreenshotPaintingContext : PaintingContext {
public _ScreenshotPaintingContext(
ContainerLayer containerLayer = null,
Rect estimatedBounds = null,
_ScreenshotData screenshotData = null
) : base(containerLayer, estimatedBounds) {
_data = screenshotData;
}
public readonly _ScreenshotData _data;
PictureLayer _screenshotCurrentLayer;
ui.PictureRecorder _screenshotRecorder;
Canvas _screenshotCanvas;
_MulticastCanvas _multicastCanvas;
public Canvas canvas {
get {
if (_data.includeInScreenshot) {
if (_screenshotCanvas == null) {
_startRecordingScreenshot();
}
D.assert(_screenshotCanvas != null);
return _data.includeInRegularContext ? _multicastCanvas : _screenshotCanvas;
} else {
D.assert(_data.includeInRegularContext);
return base.canvas;
}
}
}
bool _isScreenshotRecording {
get {
bool hasScreenshotCanvas = _screenshotCanvas != null;
D.assert(()=> {
if (hasScreenshotCanvas) {
D.assert(_screenshotCurrentLayer != null);
D.assert(_screenshotRecorder != null);
D.assert(_screenshotCanvas != null);
} else {
D.assert(_screenshotCurrentLayer == null);
D.assert(_screenshotRecorder == null);
D.assert(_screenshotCanvas == null);
}
return true;
});
return hasScreenshotCanvas;
}
}
void _startRecordingScreenshot() {
D.assert(_data.includeInScreenshot);
D.assert(!_isScreenshotRecording);
_screenshotCurrentLayer = new PictureLayer(estimatedBounds);
_screenshotRecorder = new ui.PictureRecorder();
_screenshotCanvas = new Canvas(_screenshotRecorder);
_data.containerLayer.append(_screenshotCurrentLayer);
if (_data.includeInRegularContext) {
_multicastCanvas = new _MulticastCanvas(
main: base.canvas,
screenshot: _screenshotCanvas
);
} else {
_multicastCanvas = null;
}
}
protected override void stopRecordingIfNeeded() {
base.stopRecordingIfNeeded();
_stopRecordingScreenshotIfNeeded();
}
void _stopRecordingScreenshotIfNeeded() {
if (!_isScreenshotRecording)
return;
// There is no need to ever draw repaint rainbows as part of the screenshot.
_screenshotCurrentLayer.picture = _screenshotRecorder.endRecording();
_screenshotCurrentLayer = null;
_screenshotRecorder = null;
_multicastCanvas = null;
_screenshotCanvas = null;
}
protected override void appendLayer(Layer layer) {
if (_data.includeInRegularContext) {
base.appendLayer(layer);
if (_data.includeInScreenshot) {
D.assert(!_isScreenshotRecording);
_data.containerLayer.append(new _ProxyLayer(layer));
}
} else {
// Only record to the screenshot.
D.assert(!_isScreenshotRecording);
D.assert(_data.includeInScreenshot);
layer.remove();
_data.containerLayer.append(layer);
return;
}
}
public override PaintingContext createChildContext(ContainerLayer childLayer, Rect bounds) {
if (_data.foundTarget) {
return base.createChildContext(childLayer, bounds);
} else {
return new _ScreenshotPaintingContext(
containerLayer: childLayer,
estimatedBounds: bounds,
screenshotData: _data
);
}
}
public override void paintChild(RenderObject child, Offset offset) {
bool isScreenshotTarget = child == _data.target;
if (isScreenshotTarget) {
D.assert(!_data.includeInScreenshot);
D.assert(!_data.foundTarget);
_data.foundTarget = true;
_data.screenshotOffset = offset;
_data.includeInScreenshot = true;
}
base.paintChild(child, offset);
if (isScreenshotTarget) {
_stopRecordingScreenshotIfNeeded();
_data.includeInScreenshot = false;
}
}
public static Future<ui.Image> toImage(
RenderObject renderObject,
Rect renderBounds,
float pixelRatio = 1.0f,
bool debugPaint = false
) {
RenderObject repaintBoundary = renderObject;
while (repaintBoundary != null && !repaintBoundary.isRepaintBoundary) {
repaintBoundary = repaintBoundary.parent as RenderObject;
}
D.assert(repaintBoundary != null);
_ScreenshotData data = new _ScreenshotData(target: renderObject);
_ScreenshotPaintingContext context = new _ScreenshotPaintingContext(
containerLayer: repaintBoundary.debugLayer,
estimatedBounds: repaintBoundary.paintBounds,
screenshotData: data);
if (renderObject == repaintBoundary) {
data.containerLayer.append(new _ProxyLayer(repaintBoundary.debugLayer));
data.foundTarget = true;
OffsetLayer offsetLayer = repaintBoundary.debugLayer as OffsetLayer;
data.screenshotOffset = offsetLayer.offset;
} else {
PaintingContext.debugInstrumentRepaintCompositedChild(
repaintBoundary,
customContext: context);
}
if (debugPaint && !D.debugPaintSizeEnabled) {
data.includeInRegularContext = false;
context.stopRecordingIfNeeded();
D.assert(data.foundTarget);
data.includeInScreenshot = true;
D.debugPaintSizeEnabled = true;
try {
renderObject.debugPaint(context, data.screenshotOffset);
} finally {
D.debugPaintSizeEnabled = false;
context.stopRecordingIfNeeded();
}
}
repaintBoundary.debugLayer.buildScene(new ui.SceneBuilder());
return data.containerLayer.toImage(renderBounds, pixelRatio: pixelRatio);
}
}
public class InspectorSerializationDelegate : DiagnosticsSerializationDelegate {
public InspectorSerializationDelegate(
string groupName = null,
bool? summaryTree = null,
int? maxDescendentsTruncatableNode = -1,
bool? expandPropertyValues = null,
int? subtreeDepth = 1,
bool? includeProperties = null,
WidgetInspectorService service = null,
AddAdditionalPropertiesCallback addAdditionalPropertiesCallback = null
) {
this.groupName = groupName;
this.summaryTree = summaryTree ?? false;
this.maxDescendentsTruncatableNode = maxDescendentsTruncatableNode ?? -1;
this.expandPropertyValues = expandPropertyValues ?? true;
this.subtreeDepth = subtreeDepth ?? 1;
this.includeProperties = includeProperties ?? false;
this.service = service;
this.addAdditionalPropertiesCallback = addAdditionalPropertiesCallback;
}
public readonly string groupName;
public readonly bool summaryTree;
public readonly int maxDescendentsTruncatableNode;
public readonly bool expandPropertyValues;
public readonly int subtreeDepth;
public readonly bool includeProperties;
public readonly WidgetInspectorService service;
public readonly AddAdditionalPropertiesCallback addAdditionalPropertiesCallback ;
public readonly List<DiagnosticsNode> _nodesCreatedByLocalProject = new List<DiagnosticsNode>();
public bool _interactive {
get { return groupName != null;}
}
public override Dictionary<string, object> additionalNodeProperties(DiagnosticsNode node) {
Dictionary<string, object> result = new Dictionary<string, object>();
object value = node.value;
if (_interactive) {
result["objectId"] = service.toId(node, groupName);
result["valueId"] = service.toId(value, groupName);
}
if (summaryTree) {
result["summaryTree"] = true;
}
_Location creationLocation = WidgetInspectorUtils._getCreationLocation(value);
if (creationLocation != null) {
result["locationId"] = WidgetInspectorUtils._toLocationId(creationLocation);
result["creationLocation"] = creationLocation.toJsonMap();
if (service._isLocalCreationLocation(creationLocation)) {
_nodesCreatedByLocalProject.Add(node);
result["createdByLocalProject"] = true;
}
}
if (addAdditionalPropertiesCallback != null) {
if (addAdditionalPropertiesCallback(node, this) != null) {
foreach (var callback in addAdditionalPropertiesCallback(node,this)) {
result.Add(callback.Key,callback.Value);
}
}
//result.addAll(addAdditionalPropertiesCallback(node, this) ?? <string, object>{});
}
return result;
}
public override DiagnosticsSerializationDelegate delegateForNode(DiagnosticsNode node) {
return summaryTree || subtreeDepth > 1 || service._shouldShowInSummaryTree(node)
? copyWith(subtreeDepth: subtreeDepth - 1)
: this;
}
public override List<DiagnosticsNode> filterChildren(List<DiagnosticsNode> children, DiagnosticsNode owner) {
return service._filterChildren(children, this);
}
public override List<DiagnosticsNode> filterProperties(List<DiagnosticsNode> properties, DiagnosticsNode owner) {
bool createdByLocalProject = _nodesCreatedByLocalProject.Contains(owner);
return LinqUtils<DiagnosticsNode>.WhereList(properties,(DiagnosticsNode node)=>{
return !node.isFiltered(createdByLocalProject ? DiagnosticLevel.fine : DiagnosticLevel.info);
});
}
public override List<DiagnosticsNode> truncateNodesList(List<DiagnosticsNode> nodes, DiagnosticsNode owner) {
if (maxDescendentsTruncatableNode >= 0 &&
owner?.allowTruncate == true &&
nodes.Count > maxDescendentsTruncatableNode) {
nodes = service._truncateNodes(nodes, maxDescendentsTruncatableNode);
}
return nodes;
}
public override DiagnosticsSerializationDelegate copyWith(int? subtreeDepth = null, bool? includeProperties = null) {
return new InspectorSerializationDelegate(
groupName: groupName,
summaryTree: summaryTree,
maxDescendentsTruncatableNode: maxDescendentsTruncatableNode,
expandPropertyValues: expandPropertyValues,
subtreeDepth: subtreeDepth ?? this.subtreeDepth,
includeProperties: includeProperties ?? this.includeProperties,
service: service,
addAdditionalPropertiesCallback: addAdditionalPropertiesCallback
);
}
}
public class _Location {
public _Location(
int line,
int column,
string file = null,
string name = null,
List<_Location> parameterLocations = null
) {
this.file = file;
this.line = line;
this.column = column;
this.name = name;
this.parameterLocations = parameterLocations;
}
public readonly string file;
public readonly int line;
public readonly int column;
public readonly string name;
public readonly List<_Location> parameterLocations;
public Dictionary<string, object> toJsonMap() {
Dictionary<string, object> json = new Dictionary<string, object>();
json["file"] = file;
json["line"] = line;
json["column"] = column;
if (name != null) {
json["name"] = name;
}
if (parameterLocations != null) {
json["parameterLocations"] =
LinqUtils<object, _Location>.SelectList(
parameterLocations,((_Location location) => location.toJsonMap()));
}
return json;
}
public override string ToString() {
List<string> parts = new List<string>();
if (name != null) {
parts.Add(name);
}
if (file != null) {
parts.Add(file);
}
parts.Add($"{line}");
parts.Add($"{column}");
string result = "";
foreach (var part in parts) {
result += part;
if(part!= parts.last())
result += ":";
}
return result;
}
}
class _WidgetInspectorState : State<WidgetInspector>, WidgetsBindingObserver {
public _WidgetInspectorState() {
selection = WidgetInspectorService.instance.selection;
}
Offset _lastPointerLocation;
public readonly InspectorSelection selection;
public bool isSelectMode = true;
readonly GlobalKey _ignorePointerKey = GlobalKey.key();
const float _edgeHitMargin = 2.0f;
const float _kOffScreenMargin = 1.0f;
const float _kScreenEdgeMargin = 10.0f;
const float _kTooltipPadding = 5.0f;
const float _kInspectButtonMargin = 10.0f;
public override void initState() {
base.initState();
WidgetInspectorService.instance.selectionChangedCallback += _selectionChangedCallback;
}
public override void dispose() {
WidgetInspectorService.instance.selectionChangedCallback -= _selectionChangedCallback;
base.dispose();
}
bool _hitTestHelper(
List<RenderObject> hits,
List<RenderObject> edgeHits,
Offset position,
RenderObject renderObject,
Matrix4 transform
) {
var hit = false;
var inverse = Matrix4.inverted(transform);
if (inverse == null) {
return false;
}
var localPosition = MatrixUtils.transformPoint(inverse, position);
List<DiagnosticsNode> children = renderObject.debugDescribeChildren();
for (int i = children.Count - 1; i >= 0; --i) {
DiagnosticsNode diagnostics = children[i];
D.assert(diagnostics != null);
if (diagnostics.style == DiagnosticsTreeStyle.offstage ||
(!(diagnostics.valueObject is RenderObject))) {
continue;
}
RenderObject child = (RenderObject) diagnostics.valueObject;
Rect paintClip = renderObject.describeApproximatePaintClip(child);
if (paintClip != null && !paintClip.contains(localPosition)) {
continue;
}
var childTransform = new Matrix4(transform);
renderObject.applyPaintTransform(child, childTransform);
if (_hitTestHelper(hits, edgeHits, position, child, childTransform)) {
hit = true;
}
}
Rect bounds = renderObject.semanticBounds;
if (bounds.contains(localPosition)) {
hit = true;
if (!bounds.deflate(_edgeHitMargin).contains(localPosition)) {
edgeHits.Add(renderObject);
}
}
if (hit) {
hits.Add(renderObject);
}
return hit;
}
List<RenderObject> hitTest(Offset position, RenderObject root) {
List<RenderObject> regularHits = new List<RenderObject>();
List<RenderObject> edgeHits = new List<RenderObject>();
_hitTestHelper(regularHits, edgeHits, position, root, root.getTransformTo(null));
regularHits.Sort(CompareByArea);
HashSet<RenderObject> hits = new HashSet<RenderObject>(edgeHits);
foreach (var obj in regularHits) {
if (!hits.Contains(obj)) {
hits.Add(obj);
edgeHits.Add(obj);
}
}
return edgeHits;
}
void _inspectAt(Offset position) {
if (!isSelectMode) {
return;
}
RenderIgnorePointer ignorePointer =
(RenderIgnorePointer) _ignorePointerKey.currentContext.findRenderObject();
RenderObject userRender = ignorePointer.child;
List<RenderObject> selected = hitTest(position, userRender);
setState(() => { selection.candidates = selected; });
}
void _handlePanDown(DragDownDetails evt) {
_lastPointerLocation = evt.globalPosition;
_inspectAt(evt.globalPosition);
}
void _handlePanUpdate(DragUpdateDetails evt) {
_lastPointerLocation = evt.globalPosition;
_inspectAt(evt.globalPosition);
}
void _handlePanEnd(DragEndDetails details) {
Rect bounds =
(Offset.zero & (Window.instance.physicalSize / Window.instance.devicePixelRatio)).deflate(
_kOffScreenMargin);
if (!bounds.contains(_lastPointerLocation)) {
setState(() => { selection.clear(); });
}
}
void _handleTap() {
if (!isSelectMode) {
return;
}
if (_lastPointerLocation != null) {
_inspectAt(_lastPointerLocation);
if (selection != null) {
if (WidgetInspectorService.instance.developerInspect != null) {
WidgetInspectorService.instance.developerInspect();
}
}
}
setState(() => {
if (widget.selectButtonBuilder != null) {
isSelectMode = false;
}
});
}
void _handleEnableSelect() {
setState(() => { isSelectMode = true; });
}
public override Widget build(BuildContext context) {
List<Widget> children = new List<Widget>();
children.Add(new GestureDetector(
onTap: _handleTap,
onPanDown: _handlePanDown,
onPanEnd: _handlePanEnd,
onPanUpdate: _handlePanUpdate,
behavior: HitTestBehavior.opaque,
child: new IgnorePointer(
ignoring: isSelectMode,
key: _ignorePointerKey,
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(null, selection));
return new Stack(children: children);
}
public void didChangeMetrics() {
}
public void didChangeTextScaleFactor() {
}
public void didChangePlatformBrightness() {
}
public void didChangeLocales(List<Locale> locale) {
}
public Future<bool> didPopRoute() {
return Future.value(false).to<bool>();
}
public Future<bool> didPushRoute(string route) {
return Future.value(false).to<bool>();
}
public void didChangeAccessibilityFeatures() {}
void _selectionChangedCallback() {
setState(() => { });
}
static int CompareByArea(RenderObject o1, RenderObject o2) {
return _area(o1).CompareTo(_area(o2));
}
static float _area(RenderObject obj) {
var bounds = obj.semanticBounds;
Size size = null;
if (bounds != null) {
size = bounds.size;
}
return size == null ? float.PositiveInfinity : size.width * size.height;
}
}
public class InspectorSelection {
RenderObject _current;
Element _currentElement;
List<RenderObject> _candidates = new List<RenderObject>();
public List<RenderObject> candidates {
get { return _candidates; }
set {
_candidates = value;
_index = 0;
_computeCurrent();
}
}
int _index = 0;
public int index {
get { return _index; }
set {
_index = value;
_computeCurrent();
}
}
public void clear() {
candidates = new List<RenderObject>();
}
public RenderObject current {
get { return _current; }
set {
if (_current != value) {
_current = value;
DebugCreator creator = value.debugCreator as DebugCreator;
_currentElement = creator.element;
}
}
}
public Element currentElement {
get { return _currentElement; }
set {
if (!ReferenceEquals(currentElement, value)) {
_currentElement = value;
_current = value.findRenderObject();
}
}
}
void _computeCurrent() {
if (_index < candidates.Count) {
_current = candidates[index];
_currentElement = ((DebugCreator) _current.debugCreator).element;
}
else {
_current = null;
_currentElement = null;
}
}
public bool active {
get { return _current != null && _current.attached; }
}
}
class _InspectorOverlay : LeafRenderObjectWidget {
public _InspectorOverlay(
Key key = null,
InspectorSelection selection = null) : base(key) {
this.selection = selection;
}
public readonly InspectorSelection selection;
public override RenderObject createRenderObject(BuildContext context) {
return new _RenderInspectorOverlay(selection);
}
public override void updateRenderObject(BuildContext context, RenderObject renderObject) {
((_RenderInspectorOverlay) renderObject).selection = selection;
}
}
class _RenderInspectorOverlay : RenderBox {
public _RenderInspectorOverlay(InspectorSelection selection) {
D.assert(selection != null);
_selection = selection;
}
InspectorSelection _selection;
public InspectorSelection selection {
get { return _selection; }
set {
if (value != _selection) {
_selection = value;
markNeedsPaint();
}
}
}
protected override bool sizedByParent {
get { return true; }
}
protected override bool alwaysNeedsCompositing {
get { return true; }
}
protected override void performResize() {
size = constraints.constrain(new Size(float.PositiveInfinity, float.PositiveInfinity));
}
public override void paint(PaintingContext context, Offset offset) {
D.assert(needsCompositing);
context.addLayer(new _InspectorOverlayLayer(
Rect.fromLTWH(offset.dx, offset.dy, size.width, size.height), selection
));
}
}
class _TransformedRect : IEquatable<_TransformedRect> {
public readonly Rect rect;
public readonly Matrix4 transform;
public _TransformedRect(RenderObject obj) {
rect = obj.semanticBounds;
transform = obj.getTransformTo(null);
}
public bool Equals(_TransformedRect other) {
if (ReferenceEquals(null, other)) {
return false;
}
if (ReferenceEquals(this, other)) {
return true;
}
return Equals(rect, other.rect) && transform.Equals(other.transform);
}
public override bool Equals(object obj) {
if (ReferenceEquals(null, obj)) {
return false;
}
if (ReferenceEquals(this, obj)) {
return true;
}
if (obj.GetType() != GetType()) {
return false;
}
return Equals((_TransformedRect) obj);
}
public override int GetHashCode() {
unchecked {
return ((rect != null ? rect.GetHashCode() : 0) * 397) ^ transform.GetHashCode();
}
}
public static bool operator ==(_TransformedRect left, _TransformedRect right) {
return Equals(left, right);
}
public static bool operator !=(_TransformedRect left, _TransformedRect right) {
return !Equals(left, right);
}
}
class _InspectorOverlayRenderState : IEquatable<_InspectorOverlayRenderState> {
public readonly Rect overlayRect;
public readonly _TransformedRect selected;
public readonly List<_TransformedRect> candidates;
public readonly string tooltip;
public readonly TextDirection textDirection;
public _InspectorOverlayRenderState(
Rect overlayRect,
_TransformedRect selected,
List<_TransformedRect> candidates,
string tooltip,
TextDirection textDirection) {
this.overlayRect = overlayRect;
this.selected = selected;
this.candidates = candidates;
this.tooltip = tooltip;
this.textDirection = textDirection;
}
public bool Equals(_InspectorOverlayRenderState other) {
if (ReferenceEquals(null, other)) {
return false;
}
if (ReferenceEquals(this, other)) {
return true;
}
return Equals(overlayRect, other.overlayRect) && Equals(selected, other.selected)
&& string.Equals(tooltip, other.tooltip) &&
textDirection == other.textDirection
&& (candidates == other.candidates ||
(candidates != null &&
candidates.SequenceEqual(
other.candidates)));
}
public override bool Equals(object obj) {
if (ReferenceEquals(null, obj)) {
return false;
}
if (ReferenceEquals(this, obj)) {
return true;
}
if (obj.GetType() != GetType()) {
return false;
}
return Equals((_InspectorOverlayRenderState) obj);
}
public override int GetHashCode() {
unchecked {
var hashCode = (overlayRect != null ? overlayRect.GetHashCode() : 0);
hashCode = (hashCode * 397) ^ (selected != null ? selected.GetHashCode() : 0);
hashCode = (hashCode * 397) ^ (candidates != null
? candidates.Aggregate(0,
(hash, rect) => (hash * 397) ^ (rect == null ? 0 : rect.GetHashCode()))
: 0);
hashCode = (hashCode * 397) ^ (tooltip != null ? tooltip.GetHashCode() : 0);
hashCode = (hashCode * 397) ^ (int) textDirection;
return hashCode;
}
}
public static bool operator ==(_InspectorOverlayRenderState left, _InspectorOverlayRenderState right) {
return Equals(left, right);
}
public static bool operator !=(_InspectorOverlayRenderState left, _InspectorOverlayRenderState right) {
return !Equals(left, right);
}
}
class _InspectorOverlayLayer : Layer {
public _InspectorOverlayLayer(Rect overlayRect, InspectorSelection selection) {
D.assert(overlayRect != null);
D.assert(selection != null);
this.overlayRect = overlayRect;
this.selection = selection;
bool inDebugMode = false;
D.assert(()=> {
inDebugMode = true;
return true;
});
if (inDebugMode == false) {
throw new UIWidgetsError(
new List<DiagnosticsNode>() {
new ErrorSummary(
"The inspector should never be used in production mode due to the " +
"negative performance impact."
)
}
);
}
}
public InspectorSelection selection;
public readonly Rect overlayRect;
_InspectorOverlayRenderState _lastState;
public Picture _picture;
public TextPainter _textPainter;
public float _textPainterMaxWidth;
public override void addToScene(ui.SceneBuilder builder, Offset layerOffset = null) {
layerOffset = layerOffset ?? Offset.zero;
if (!selection.active)
return;
RenderObject selected = selection.current;
List<_TransformedRect> candidates = new List<_TransformedRect>();
foreach ( RenderObject candidate in selection.candidates) {
if (candidate == selected || !candidate.attached)
continue;
candidates.Add(new _TransformedRect(candidate));
}
_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);
}
Picture _buildPicture(_InspectorOverlayRenderState state) {
PictureRecorder recorder = new PictureRecorder();
Canvas canvas = new Canvas(recorder, state.overlayRect);
Size size = state.overlayRect.size;
var fillPaint = new Paint() {style = PaintingStyle.fill,color = WidgetInspectorUtils._kHighlightedRenderObjectFillColor};
var borderPaint = new Paint() {
color = WidgetInspectorUtils._kHighlightedRenderObjectBorderColor,
style = PaintingStyle.stroke,
strokeWidth = 1
};
Rect selectedPaintRect = state.selected.rect.deflate(0.5f);
canvas.save();
canvas.transform(state.selected.transform._m4storage);
canvas.drawRect(selectedPaintRect, fillPaint);
canvas.drawRect(selectedPaintRect, borderPaint);
canvas.restore();
foreach (var transformedRect in state.candidates) {
canvas.save();
canvas.transform(transformedRect.transform._m4storage);
canvas.drawRect(transformedRect.rect.deflate(0.5f), borderPaint);
canvas.restore();
}
// todo paint descipion
Rect targetRect = MatrixUtils.transformRect(
state.selected.transform, state.selected.rect);
Offset target = new Offset(targetRect.left, targetRect.center.dy);
float offsetFromWidget = 9.0f;
float 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();
}
public void _paintDescription(
Canvas canvas,
string message,
TextDirection textDirection,
Offset target,
float verticalOffset,
Size size,
Rect targetRect
) {
canvas.save();
float maxWidth = size.width - 2 * (WidgetInspectorUtils._kScreenEdgeMargin + WidgetInspectorUtils._kTooltipPadding);
TextSpan textSpan = _textPainter?.text as TextSpan;
if (_textPainter == null || textSpan.text != message || _textPainterMaxWidth != maxWidth) {
_textPainterMaxWidth = maxWidth;
_textPainter = new TextPainter();
_textPainter.maxLines = WidgetInspectorUtils._kMaxTooltipLines;
_textPainter.ellipsis = "...";
_textPainter.text = new TextSpan(style: WidgetInspectorUtils._messageStyle, text: message);
_textPainter.textDirection = textDirection;
_textPainter.layout(maxWidth: maxWidth);
}
Size tooltipSize = _textPainter.size + new Offset(WidgetInspectorUtils._kTooltipPadding * 2, WidgetInspectorUtils._kTooltipPadding * 2);
Offset tipOffset = Geometry.positionDependentBox(
size: size,
childSize: tooltipSize,
target: target,
verticalOffset: verticalOffset,
preferBelow: false
);
Paint tooltipBackground = new Paint();
tooltipBackground.style = PaintingStyle.fill;
tooltipBackground.color = WidgetInspectorUtils._kTooltipBackgroundColor;
canvas.drawRect(
Rect.fromPoints(
tipOffset,
tipOffset.translate(tooltipSize.width, tooltipSize.height)
),
tooltipBackground
);
float wedgeY = tipOffset.dy;
bool tooltipBelow = tipOffset.dy > target.dy;
if (!tooltipBelow)
wedgeY += tooltipSize.height;
float wedgeSize = WidgetInspectorUtils._kTooltipPadding * 2;
float wedgeX = Mathf.Max(tipOffset.dx, target.dx) + wedgeSize * 2;
wedgeX = Mathf.Min(wedgeX, tipOffset.dx + tooltipSize.width - wedgeSize * 2);
List<Offset> wedge = new List<Offset>(){
new Offset(wedgeX - wedgeSize, wedgeY),
new Offset(wedgeX + wedgeSize, wedgeY),
new Offset(wedgeX, wedgeY + (tooltipBelow ? -wedgeSize : wedgeSize)),
};
Path path = new Path();
path.addPolygon(wedge,true);
canvas.drawPath(path, tooltipBackground);
_textPainter.paint(canvas, tipOffset + new Offset(WidgetInspectorUtils._kTooltipPadding, WidgetInspectorUtils._kTooltipPadding));
canvas.restore();
}
public override bool findAnnotations<S>(
AnnotationResult<S> result,
Offset localPosition,
bool onlyFirst) {
return false;
}
}
}