// Copyright 2014 The Flutter 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 'package:flutter/gestures.dart'; import 'package:flutter/material.dart'; import 'package:flutter/widgets.dart'; import 'package:flutter_test/flutter_test.dart'; import 'package:vector_math/vector_math_64.dart' show Quad, Vector3, Matrix4; import 'gesture_utils.dart'; void main() { group('InteractiveViewer', () { testWidgets('child fits in viewport', (WidgetTester tester) async { final TransformationController transformationController = TransformationController(); await tester.pumpWidget( MaterialApp( home: Scaffold( body: Center( child: InteractiveViewer( transformationController: transformationController, child: Container(width: 200.0, height: 200.0), ), ), ), ), ); expect(transformationController.value, equals(Matrix4.identity())); // Attempting to drag to pan doesn't work because the child fits inside // the viewport and has a tight boundary. final Offset childOffset = tester.getTopLeft(find.byType(Container)); final Offset childInterior = Offset( childOffset.dx + 20.0, childOffset.dy + 20.0, ); TestGesture gesture = await tester.startGesture(childInterior); addTearDown(gesture.removePointer); await tester.pump(); await gesture.moveTo(childOffset); await tester.pump(); await gesture.up(); await tester.pumpAndSettle(); expect(transformationController.value, equals(Matrix4.identity())); // Pinch to zoom works. final Offset scaleStart1 = childInterior; final Offset scaleStart2 = Offset(childInterior.dx + 10.0, childInterior.dy); final Offset scaleEnd1 = Offset(childInterior.dx - 10.0, childInterior.dy); final Offset scaleEnd2 = Offset(childInterior.dx + 20.0, childInterior.dy); gesture = await tester.createGesture(); final TestGesture gesture2 = await tester.createGesture(); await gesture.down(scaleStart1); await gesture2.down(scaleStart2); await tester.pump(); await gesture.moveTo(scaleEnd1); await gesture2.moveTo(scaleEnd2); await tester.pump(); await gesture.up(); await gesture2.up(); await tester.pumpAndSettle(); expect(transformationController.value, isNot(equals(Matrix4.identity()))); }); testWidgets('boundary slightly bigger than child', (WidgetTester tester) async { final TransformationController transformationController = TransformationController(); const double boundaryMargin = 10.0; const double minScale = 0.8; await tester.pumpWidget( MaterialApp( home: Scaffold( body: Center( child: InteractiveViewer( boundaryMargin: const EdgeInsets.all(boundaryMargin), minScale: minScale, transformationController: transformationController, child: Container(width: 200.0, height: 200.0), ), ), ), ), ); expect(transformationController.value, equals(Matrix4.identity())); // Dragging to pan works only until it hits the boundary. final Offset childOffset = tester.getTopLeft(find.byType(Container)); final Offset childInterior = Offset( childOffset.dx + 20.0, childOffset.dy + 20.0, ); TestGesture gesture = await tester.startGesture(childInterior); addTearDown(gesture.removePointer); await tester.pump(); await gesture.moveTo(childOffset); await tester.pump(); await gesture.up(); await tester.pumpAndSettle(); final Vector3 translation = transformationController.value.getTranslation(); expect(translation.x, -boundaryMargin); expect(translation.y, -boundaryMargin); // Pinch to zoom also only works until expanding to the boundary. final Offset scaleStart1 = childInterior; final Offset scaleStart2 = Offset(childInterior.dx + 20.0, childInterior.dy); final Offset scaleEnd1 = Offset(scaleStart1.dx + 5.0, scaleStart1.dy); final Offset scaleEnd2 = Offset(scaleStart2.dx - 5.0, scaleStart2.dy); gesture = await tester.createGesture(); final TestGesture gesture2 = await tester.createGesture(); await gesture.down(scaleStart1); await gesture2.down(scaleStart2); await tester.pump(); await gesture.moveTo(scaleEnd1); await gesture2.moveTo(scaleEnd2); await tester.pump(); await gesture.up(); await gesture2.up(); await tester.pumpAndSettle(); // The new scale is the scale that makes the original size (200.0) as big // as the boundary (220.0). expect(transformationController.value.getMaxScaleOnAxis(), 200.0 / 220.0); }); testWidgets('child bigger than viewport', (WidgetTester tester) async { final TransformationController transformationController = TransformationController(); await tester.pumpWidget( MaterialApp( home: Scaffold( body: Center( child: InteractiveViewer( constrained: false, scaleEnabled: false, transformationController: transformationController, child: Container(width: 2000.0, height: 2000.0), ), ), ), ), ); expect(transformationController.value, equals(Matrix4.identity())); // Attempting to move against the boundary doesn't work. final Offset childOffset = tester.getTopLeft(find.byType(Container)); final Offset childInterior = Offset( childOffset.dx + 20.0, childOffset.dy + 20.0, ); TestGesture gesture = await tester.startGesture(childOffset); addTearDown(gesture.removePointer); await tester.pump(); await gesture.moveTo(childInterior); await tester.pump(); await gesture.up(); await tester.pumpAndSettle(); expect(transformationController.value, equals(Matrix4.identity())); // Attempting to pinch to zoom doesn't work because it's disabled. final Offset scaleStart1 = childInterior; final Offset scaleStart2 = Offset(childInterior.dx + 10.0, childInterior.dy); final Offset scaleEnd1 = Offset(childInterior.dx - 10.0, childInterior.dy); final Offset scaleEnd2 = Offset(childInterior.dx + 20.0, childInterior.dy); gesture = await tester.startGesture(scaleStart1); TestGesture gesture2 = await tester.startGesture(scaleStart2); addTearDown(gesture2.removePointer); await tester.pump(); await gesture.moveTo(scaleEnd1); await gesture2.moveTo(scaleEnd2); await tester.pump(); await gesture.up(); await gesture2.up(); await tester.pumpAndSettle(); expect(transformationController.value, equals(Matrix4.identity())); // Attempting to pinch to rotate doesn't work because it's disabled. final Offset rotateStart1 = childInterior; final Offset rotateStart2 = Offset(childInterior.dx + 10.0, childInterior.dy); final Offset rotateEnd1 = Offset(childInterior.dx + 5.0, childInterior.dy + 5.0); final Offset rotateEnd2 = Offset(childInterior.dx - 5.0, childInterior.dy - 5.0); gesture = await tester.startGesture(rotateStart1); gesture2 = await tester.startGesture(rotateStart2); await tester.pump(); await gesture.moveTo(rotateEnd1); await gesture2.moveTo(rotateEnd2); await tester.pump(); await gesture.up(); await gesture2.up(); await tester.pumpAndSettle(); expect(transformationController.value, equals(Matrix4.identity())); // Drag to pan away from the boundary. gesture = await tester.startGesture(childInterior); await tester.pump(); await gesture.moveTo(childOffset); await tester.pump(); await gesture.up(); await tester.pumpAndSettle(); expect(transformationController.value, isNot(equals(Matrix4.identity()))); }); testWidgets('no boundary', (WidgetTester tester) async { final TransformationController transformationController = TransformationController(); const double minScale = 0.8; await tester.pumpWidget( MaterialApp( home: Scaffold( body: Center( child: InteractiveViewer( boundaryMargin: const EdgeInsets.all(double.infinity), minScale: minScale, transformationController: transformationController, child: Container(width: 200.0, height: 200.0), ), ), ), ), ); expect(transformationController.value, equals(Matrix4.identity())); // Drag to pan works because even though the viewport fits perfectly // around the child, there is no boundary. final Offset childOffset = tester.getTopLeft(find.byType(Container)); final Offset childInterior = Offset( childOffset.dx + 20.0, childOffset.dy + 20.0, ); TestGesture gesture = await tester.startGesture(childInterior); addTearDown(gesture.removePointer); await tester.pump(); await gesture.moveTo(childOffset); await tester.pump(); await gesture.up(); await tester.pumpAndSettle(); final Vector3 translation = transformationController.value.getTranslation(); expect(translation.x, childOffset.dx - childInterior.dx); expect(translation.y, childOffset.dy - childInterior.dy); // It's also possible to zoom out and view beyond the child because there // is no boundary. final Offset scaleStart1 = childInterior; final Offset scaleStart2 = Offset(childInterior.dx + 20.0, childInterior.dy); final Offset scaleEnd1 = Offset(childInterior.dx + 5.0, childInterior.dy); final Offset scaleEnd2 = Offset(childInterior.dx - 5.0, childInterior.dy); gesture = await tester.createGesture(); final TestGesture gesture2 = await tester.createGesture(); await gesture.down(scaleStart1); await gesture2.down(scaleStart2); await tester.pump(); await gesture.moveTo(scaleEnd1); await gesture2.moveTo(scaleEnd2); await tester.pump(); await gesture.up(); await gesture2.up(); await tester.pumpAndSettle(); expect(transformationController.value.getMaxScaleOnAxis(), minScale); }); testWidgets('alignPanAxis allows panning in one direction only for diagonal gesture', (WidgetTester tester) async { final TransformationController transformationController = TransformationController(); await tester.pumpWidget( MaterialApp( home: Scaffold( body: Center( child: InteractiveViewer( alignPanAxis: true, boundaryMargin: const EdgeInsets.all(double.infinity), transformationController: transformationController, child: Container(width: 200.0, height: 200.0), ), ), ), ), ); expect(transformationController.value, equals(Matrix4.identity())); // Perform a diagonal drag gesture. final Offset childOffset = tester.getTopLeft(find.byType(Container)); final Offset childInterior = Offset( childOffset.dx + 20.0, childOffset.dy + 20.0, ); final TestGesture gesture = await tester.startGesture(childInterior); addTearDown(gesture.removePointer); await tester.pump(); await gesture.moveTo(childOffset); await tester.pump(); await gesture.up(); await tester.pumpAndSettle(); // Translation has only happened along the y axis (the default axis when // a gesture is perfectly at 45 degrees to the axes). final Vector3 translation = transformationController.value.getTranslation(); expect(translation.x, 0.0); expect(translation.y, childOffset.dy - childInterior.dy); }); testWidgets('alignPanAxis allows panning in one direction only for horizontal leaning gesture', (WidgetTester tester) async { final TransformationController transformationController = TransformationController(); await tester.pumpWidget( MaterialApp( home: Scaffold( body: Center( child: InteractiveViewer( alignPanAxis: true, boundaryMargin: const EdgeInsets.all(double.infinity), transformationController: transformationController, child: Container(width: 200.0, height: 200.0), ), ), ), ), ); expect(transformationController.value, equals(Matrix4.identity())); // Perform a horizontally leaning diagonal drag gesture. final Offset childOffset = tester.getTopLeft(find.byType(Container)); final Offset childInterior = Offset( childOffset.dx + 20.0, childOffset.dy + 10.0, ); final TestGesture gesture = await tester.startGesture(childInterior); addTearDown(gesture.removePointer); await tester.pump(); await gesture.moveTo(childOffset); await tester.pump(); await gesture.up(); await tester.pumpAndSettle(); // Translation happened only along the x axis because that's the axis that // had the greatest movement. final Vector3 translation = transformationController.value.getTranslation(); expect(translation.x, childOffset.dx - childInterior.dx); expect(translation.y, 0.0); }); testWidgets('inertia fling and boundary sliding', (WidgetTester tester) async { final TransformationController transformationController = TransformationController(); const double boundaryMargin = 50.0; const double minScale = 0.8; await tester.pumpWidget( MaterialApp( home: Scaffold( body: Center( child: InteractiveViewer( boundaryMargin: const EdgeInsets.all(boundaryMargin), minScale: minScale, transformationController: transformationController, child: Container(width: 200.0, height: 200.0), ), ), ), ), ); // Fling the child. final Offset childOffset = tester.getTopLeft(find.byType(Container)); const Offset flingEnd = Offset(20.0, 15.0); await tester.flingFrom(childOffset, flingEnd, 1000.0); await tester.pump(); // Immediately after the gesture, the child has moved to exactly follow // the gesture. Vector3 translation = transformationController.value.getTranslation(); expect(translation.x, flingEnd.dx); expect(translation.y, flingEnd.dy); // A short time after the gesture was released, it continues to move with // inertia. await tester.pump(const Duration(milliseconds: 10)); translation = transformationController.value.getTranslation(); expect(translation.x, greaterThan(20.0)); expect(translation.y, greaterThan(10.0)); expect(translation.x, lessThan(boundaryMargin)); expect(translation.y, lessThan(boundaryMargin)); // It hits the boundary in the x direction first. await tester.pump(const Duration(milliseconds: 60)); translation = transformationController.value.getTranslation(); expect(translation.x, moreOrLessEquals(boundaryMargin, epsilon: 1e-9)); expect(translation.y, lessThan(boundaryMargin)); final double yWhenXHits = translation.y; // x is held to the boundary while y slides along. await tester.pump(const Duration(milliseconds: 50)); translation = transformationController.value.getTranslation(); expect(translation.x, moreOrLessEquals(boundaryMargin, epsilon: 1e-9)); expect(translation.y, greaterThan(yWhenXHits)); expect(translation.y, lessThan(boundaryMargin)); // Eventually it ends up in the corner. await tester.pumpAndSettle(); translation = transformationController.value.getTranslation(); expect(translation.x, moreOrLessEquals(boundaryMargin, epsilon: 1e-9)); expect(translation.y, moreOrLessEquals(boundaryMargin, epsilon: 1e-9)); }); testWidgets('Scaling automatically causes a centering translation', (WidgetTester tester) async { final TransformationController transformationController = TransformationController(); const double boundaryMargin = 50.0; const double minScale = 0.1; await tester.pumpWidget( MaterialApp( home: Scaffold( body: Center( child: InteractiveViewer( boundaryMargin: const EdgeInsets.all(boundaryMargin), minScale: minScale, transformationController: transformationController, child: Container(width: 200.0, height: 200.0), ), ), ), ), ); Vector3 translation = transformationController.value.getTranslation(); expect(translation.x, 0.0); expect(translation.y, 0.0); // Pan into the corner of the boundaries. final Offset childOffset = tester.getTopLeft(find.byType(Container)); const Offset flingEnd = Offset(20.0, 15.0); await tester.flingFrom(childOffset, flingEnd, 1000.0); await tester.pumpAndSettle(); translation = transformationController.value.getTranslation(); expect(translation.x, moreOrLessEquals(boundaryMargin, epsilon: 1e-9)); expect(translation.y, moreOrLessEquals(boundaryMargin, epsilon: 1e-9)); // Zoom out so the entire child is visible. The child will also be // translated in order to keep it inside the boundaries. final Offset childCenter = tester.getCenter(find.byType(Container)); Offset scaleStart1 = Offset(childCenter.dx - 40.0, childCenter.dy); Offset scaleStart2 = Offset(childCenter.dx + 40.0, childCenter.dy); Offset scaleEnd1 = Offset(childCenter.dx - 10.0, childCenter.dy); Offset scaleEnd2 = Offset(childCenter.dx + 10.0, childCenter.dy); TestGesture gesture = await tester.createGesture(); TestGesture gesture2 = await tester.createGesture(); await gesture.down(scaleStart1); await gesture2.down(scaleStart2); await tester.pump(); await gesture.moveTo(scaleEnd1); await gesture2.moveTo(scaleEnd2); await tester.pump(); await gesture.up(); await gesture2.up(); await tester.pumpAndSettle(); expect(transformationController.value.getMaxScaleOnAxis(), lessThan(1.0)); translation = transformationController.value.getTranslation(); expect(translation.x, lessThan(boundaryMargin)); expect(translation.y, lessThan(boundaryMargin)); expect(translation.x, greaterThan(0.0)); expect(translation.y, greaterThan(0.0)); expect(translation.x, moreOrLessEquals(translation.y, epsilon: 1e-9)); // Zoom in on a point that's not the center, and see that it remains at // roughly the same location in the viewport after the zoom. scaleStart1 = Offset(childCenter.dx - 50.0, childCenter.dy); scaleStart2 = Offset(childCenter.dx - 30.0, childCenter.dy); scaleEnd1 = Offset(childCenter.dx - 51.0, childCenter.dy); scaleEnd2 = Offset(childCenter.dx - 29.0, childCenter.dy); final Offset viewportFocalPoint = Offset( childCenter.dx - 40.0 - childOffset.dx, childCenter.dy - childOffset.dy, ); final Offset sceneFocalPoint = transformationController.toScene(viewportFocalPoint); gesture = await tester.createGesture(); gesture2 = await tester.createGesture(); await gesture.down(scaleStart1); await gesture2.down(scaleStart2); await tester.pump(); await gesture.moveTo(scaleEnd1); await gesture2.moveTo(scaleEnd2); await tester.pump(); await gesture.up(); await gesture2.up(); await tester.pumpAndSettle(); final Offset newSceneFocalPoint = transformationController.toScene(viewportFocalPoint); expect(newSceneFocalPoint.dx, moreOrLessEquals(sceneFocalPoint.dx, epsilon: 1.0)); expect(newSceneFocalPoint.dy, moreOrLessEquals(sceneFocalPoint.dy, epsilon: 1.0)); }); testWidgets('Scaling automatically causes a centering translation even when alignPanAxis is set', (WidgetTester tester) async { final TransformationController transformationController = TransformationController(); const double boundaryMargin = 50.0; const double minScale = 0.1; await tester.pumpWidget( MaterialApp( home: Scaffold( body: Center( child: InteractiveViewer( alignPanAxis: true, boundaryMargin: const EdgeInsets.all(boundaryMargin), minScale: minScale, transformationController: transformationController, child: Container(width: 200.0, height: 200.0), ), ), ), ), ); Vector3 translation = transformationController.value.getTranslation(); expect(translation.x, 0.0); expect(translation.y, 0.0); // Pan into the corner of the boundaries in two gestures, since // alignPanAxis prevents diagonal panning. final Offset childOffset1 = tester.getTopLeft(find.byType(Container)); const Offset flingEnd1 = Offset(20.0, 0.0); await tester.flingFrom(childOffset1, flingEnd1, 1000.0); await tester.pumpAndSettle(); await tester.pump(const Duration(seconds: 5)); final Offset childOffset2 = tester.getTopLeft(find.byType(Container)); const Offset flingEnd2 = Offset(0.0, 15.0); await tester.flingFrom(childOffset2, flingEnd2, 1000.0); await tester.pumpAndSettle(); translation = transformationController.value.getTranslation(); expect(translation.x, moreOrLessEquals(boundaryMargin, epsilon: 1e-9)); expect(translation.y, moreOrLessEquals(boundaryMargin, epsilon: 1e-9)); // Zoom out so the entire child is visible. The child will also be // translated in order to keep it inside the boundaries. final Offset childCenter = tester.getCenter(find.byType(Container)); Offset scaleStart1 = Offset(childCenter.dx - 40.0, childCenter.dy); Offset scaleStart2 = Offset(childCenter.dx + 40.0, childCenter.dy); Offset scaleEnd1 = Offset(childCenter.dx - 10.0, childCenter.dy); Offset scaleEnd2 = Offset(childCenter.dx + 10.0, childCenter.dy); TestGesture gesture = await tester.createGesture(); TestGesture gesture2 = await tester.createGesture(); await gesture.down(scaleStart1); await gesture2.down(scaleStart2); await tester.pump(); await gesture.moveTo(scaleEnd1); await gesture2.moveTo(scaleEnd2); await tester.pump(); await gesture.up(); await gesture2.up(); await tester.pumpAndSettle(); expect(transformationController.value.getMaxScaleOnAxis(), lessThan(1.0)); translation = transformationController.value.getTranslation(); expect(translation.x, lessThan(boundaryMargin)); expect(translation.y, lessThan(boundaryMargin)); expect(translation.x, greaterThan(0.0)); expect(translation.y, greaterThan(0.0)); expect(translation.x, moreOrLessEquals(translation.y, epsilon: 1e-9)); // Zoom in on a point that's not the center, and see that it remains at // roughly the same location in the viewport after the zoom. scaleStart1 = Offset(childCenter.dx - 50.0, childCenter.dy); scaleStart2 = Offset(childCenter.dx - 30.0, childCenter.dy); scaleEnd1 = Offset(childCenter.dx - 51.0, childCenter.dy); scaleEnd2 = Offset(childCenter.dx - 29.0, childCenter.dy); final Offset viewportFocalPoint = Offset( childCenter.dx - 40.0 - childOffset1.dx, childCenter.dy - childOffset1.dy, ); final Offset sceneFocalPoint = transformationController.toScene(viewportFocalPoint); gesture = await tester.createGesture(); gesture2 = await tester.createGesture(); await gesture.down(scaleStart1); await gesture2.down(scaleStart2); await tester.pump(); await gesture.moveTo(scaleEnd1); await gesture2.moveTo(scaleEnd2); await tester.pump(); await gesture.up(); await gesture2.up(); await tester.pumpAndSettle(); final Offset newSceneFocalPoint = transformationController.toScene(viewportFocalPoint); expect(newSceneFocalPoint.dx, moreOrLessEquals(sceneFocalPoint.dx, epsilon: 1.0)); expect(newSceneFocalPoint.dy, moreOrLessEquals(sceneFocalPoint.dy, epsilon: 1.0)); }); testWidgets('Can scale with mouse', (WidgetTester tester) async { final TransformationController transformationController = TransformationController(); await tester.pumpWidget( MaterialApp( home: Scaffold( body: Center( child: InteractiveViewer( transformationController: transformationController, child: Container(width: 200.0, height: 200.0), ), ), ), ), ); final Offset center = tester.getCenter(find.byType(InteractiveViewer)); await scrollAt(center, tester, const Offset(0.0, -20.0)); await tester.pumpAndSettle(); expect(transformationController.value.getMaxScaleOnAxis(), greaterThan(1.0)); }); testWidgets('Cannot scale with mouse when scale is disabled', (WidgetTester tester) async { final TransformationController transformationController = TransformationController(); await tester.pumpWidget( MaterialApp( home: Scaffold( body: Center( child: InteractiveViewer( transformationController: transformationController, scaleEnabled: false, child: Container(width: 200.0, height: 200.0), ), ), ), ), ); final Offset center = tester.getCenter(find.byType(InteractiveViewer)); await scrollAt(center, tester, const Offset(0.0, -20.0)); await tester.pumpAndSettle(); expect(transformationController.value.getMaxScaleOnAxis(), equals(1.0)); }); testWidgets('Scale with mouse returns onInteraction properties', (WidgetTester tester) async{ final TransformationController transformationController = TransformationController(); late Offset focalPoint; late Offset localFocalPoint; late double scaleChange; late Velocity currentVelocity; late bool calledStart; await tester.pumpWidget( MaterialApp( home: Scaffold( body: Center( child: InteractiveViewer( transformationController: transformationController, onInteractionStart: (ScaleStartDetails details){ calledStart = true; }, onInteractionUpdate: (ScaleUpdateDetails details){ scaleChange = details.scale; focalPoint = details.focalPoint; localFocalPoint = details.localFocalPoint; }, onInteractionEnd: (ScaleEndDetails details){ currentVelocity = details.velocity; }, child: Container(width: 200.0, height: 200.0), ), ), ), ), ); final Offset center = tester.getCenter(find.byType(InteractiveViewer)); await scrollAt(center, tester, const Offset(0.0, -20.0)); await tester.pumpAndSettle(); const Velocity noMovement = Velocity(pixelsPerSecond: Offset(0,0)); final double afterScaling = transformationController.value.getMaxScaleOnAxis(); expect(scaleChange, greaterThan(1.0)); expect(afterScaling, scaleChange); expect(currentVelocity, equals(noMovement)); expect(calledStart, equals(true)); // Focal points are given in coordinates outside of InteractiveViewer, // with local being in relation to the viewport. expect(focalPoint, center); expect(localFocalPoint, const Offset(100, 100)); // The scene point is the same as localFocalPoint because the center of // the scene is at the center of the viewport. final Offset scenePoint = transformationController.toScene(localFocalPoint); expect(scenePoint, const Offset(100, 100)); }); testWidgets('onInteraction can be used to get scene point', (WidgetTester tester) async{ final TransformationController transformationController = TransformationController(); late Offset focalPoint; late Offset localFocalPoint; late double scaleChange; late Velocity currentVelocity; late bool calledStart; await tester.pumpWidget( MaterialApp( home: Scaffold( body: Center( child: InteractiveViewer( transformationController: transformationController, onInteractionStart: (ScaleStartDetails details){ calledStart = true; }, onInteractionUpdate: (ScaleUpdateDetails details){ scaleChange = details.scale; focalPoint = details.focalPoint; localFocalPoint = details.localFocalPoint; }, onInteractionEnd: (ScaleEndDetails details){ currentVelocity = details.velocity; }, child: Container(width: 200.0, height: 200.0), ), ), ), ), ); final Offset center = tester.getCenter(find.byType(InteractiveViewer)); final Offset offCenter = Offset(center.dx - 20.0, center.dy - 20.0); await scrollAt(offCenter, tester, const Offset(0.0, -20.0)); await tester.pumpAndSettle(); const Velocity noMovement = Velocity(pixelsPerSecond: Offset(0,0)); final double afterScaling = transformationController.value.getMaxScaleOnAxis(); expect(scaleChange, greaterThan(1.0)); expect(afterScaling, scaleChange); expect(currentVelocity, equals(noMovement)); expect(calledStart, equals(true)); // Focal points are given in coordinates outside of InteractiveViewer, // with local being in relation to the viewport. expect(focalPoint, offCenter); expect(localFocalPoint, const Offset(80, 80)); // The top left corner of the viewport is not at the top left corner of // the scene. final Offset scenePoint = transformationController.toScene(Offset.zero); expect(scenePoint.dx, greaterThan(0.0)); expect(scenePoint.dy, greaterThan(0.0)); }); testWidgets('viewport changes size', (WidgetTester tester) async { final TransformationController transformationController = TransformationController(); await tester.pumpWidget( MaterialApp( home: Scaffold( body: Center( child: InteractiveViewer( transformationController: transformationController, child: Container(), ), ), ), ), ); expect(transformationController.value, equals(Matrix4.identity())); // Attempting to drag to pan doesn't work because the child fits inside // the viewport and has a tight boundary. final Offset childOffset = tester.getTopLeft(find.byType(Container)); final Offset childInterior = Offset( childOffset.dx + 20.0, childOffset.dy + 20.0, ); TestGesture gesture = await tester.startGesture(childInterior); addTearDown(gesture.removePointer); await tester.pump(); await gesture.moveTo(childOffset); await tester.pump(); await gesture.up(); await tester.pumpAndSettle(); expect(transformationController.value, equals(Matrix4.identity())); // Shrink the size of the screen. tester.binding.window.physicalSizeTestValue = const Size(100.0, 100.0); addTearDown(tester.binding.window.clearPhysicalSizeTestValue); await tester.pump(); // Attempting to drag to pan still doesn't work, because the image has // resized itself to fit the new screen size, and InteractiveViewer has // updated its measurements to take that into consideration. gesture = await tester.startGesture(childInterior); await tester.pump(); await gesture.moveTo(childOffset); await tester.pump(); await gesture.up(); await tester.pumpAndSettle(); expect(transformationController.value, equals(Matrix4.identity())); }); testWidgets('gesture can start as pan and become scale', (WidgetTester tester) async { final TransformationController transformationController = TransformationController(); const double boundaryMargin = 50.0; await tester.pumpWidget( MaterialApp( home: Scaffold( body: Center( child: InteractiveViewer( boundaryMargin: const EdgeInsets.all(boundaryMargin), transformationController: transformationController, child: Container(width: 200.0, height: 200.0), ), ), ), ), ); Vector3 translation = transformationController.value.getTranslation(); expect(translation.x, 0.0); expect(translation.y, 0.0); // Start a pan gesture. final Offset childCenter = tester.getCenter(find.byType(Container)); final TestGesture gesture = await tester.createGesture(); await gesture.down(childCenter); await tester.pump(); await gesture.moveTo(Offset( childCenter.dx + 5.0, childCenter.dy + 5.0, )); await tester.pump(); translation = transformationController.value.getTranslation(); expect(translation.x, greaterThan(0.0)); expect(translation.y, greaterThan(0.0)); // Put another finger down and turn it into a scale gesture. final TestGesture gesture2 = await tester.createGesture(); await gesture2.down(Offset( childCenter.dx - 5.0, childCenter.dy - 5.0, )); await tester.pump(); await gesture.moveTo(Offset( childCenter.dx + 25.0, childCenter.dy + 25.0, )); await gesture2.moveTo(Offset( childCenter.dx - 25.0, childCenter.dy - 25.0, )); await tester.pump(); await gesture.up(); await gesture2.up(); await tester.pumpAndSettle(); expect(transformationController.value.getMaxScaleOnAxis(), greaterThan(1.0)); }); // Regression test for https://github.com/flutter/flutter/issues/65304 testWidgets('can view beyond boundary when necessary for a small child', (WidgetTester tester) async { final TransformationController transformationController = TransformationController(); await tester.pumpWidget( MaterialApp( home: Scaffold( body: Center( child: InteractiveViewer( constrained: false, minScale: 1.0, maxScale: 1.0, transformationController: transformationController, child: const SizedBox(width: 200.0, height: 200.0), ), ), ), ), ); expect(transformationController.value, equals(Matrix4.identity())); // Pinch to zoom does nothing because minScale and maxScale are 1.0. final Offset center = tester.getCenter(find.byType(SizedBox)); final Offset scaleStart1 = Offset(center.dx - 10.0, center.dy - 10.0); final Offset scaleStart2 = Offset(center.dx + 10.0, center.dy + 10.0); final Offset scaleEnd1 = Offset(center.dx - 20.0, center.dy - 20.0); final Offset scaleEnd2 = Offset(center.dx + 20.0, center.dy + 20.0); final TestGesture gesture = await tester.createGesture(); final TestGesture gesture2 = await tester.createGesture(); await gesture.down(scaleStart1); await gesture2.down(scaleStart2); await tester.pump(); await gesture.moveTo(scaleEnd1); await gesture2.moveTo(scaleEnd2); await tester.pump(); await gesture.up(); await gesture2.up(); await tester.pumpAndSettle(); expect(transformationController.value, equals(Matrix4.identity())); }); }); group('getNearestPointOnLine', () { test('does not modify parameters', () { final Vector3 point = Vector3(5.0, 5.0, 0.0); final Vector3 a = Vector3(0.0, 0.0, 0.0); final Vector3 b = Vector3(10.0, 0.0, 0.0); final Vector3 closestPoint = InteractiveViewer.getNearestPointOnLine(point, a , b); expect(closestPoint, Vector3(5.0, 0.0, 0.0)); expect(point, Vector3(5.0, 5.0, 0.0)); expect(a, Vector3(0.0, 0.0, 0.0)); expect(b, Vector3(10.0, 0.0, 0.0)); }); test('simple example', () { final Vector3 point = Vector3(0.0, 5.0, 0.0); final Vector3 a = Vector3(0.0, 0.0, 0.0); final Vector3 b = Vector3(5.0, 5.0, 0.0); expect(InteractiveViewer.getNearestPointOnLine(point, a, b), Vector3(2.5, 2.5, 0.0)); }); test('closest to a', () { final Vector3 point = Vector3(-1.0, -1.0, 0.0); final Vector3 a = Vector3(0.0, 0.0, 0.0); final Vector3 b = Vector3(5.0, 5.0, 0.0); expect(InteractiveViewer.getNearestPointOnLine(point, a, b), a); }); test('closest to b', () { final Vector3 point = Vector3(6.0, 6.0, 0.0); final Vector3 a = Vector3(0.0, 0.0, 0.0); final Vector3 b = Vector3(5.0, 5.0, 0.0); expect(InteractiveViewer.getNearestPointOnLine(point, a, b), b); }); test('point already on the line returns the point', () { final Vector3 point = Vector3(2.0, 2.0, 0.0); final Vector3 a = Vector3(0.0, 0.0, 0.0); final Vector3 b = Vector3(5.0, 5.0, 0.0); expect(InteractiveViewer.getNearestPointOnLine(point, a, b), point); }); test('real example', () { final Vector3 point = Vector3(-436.9, 433.6, 0.0); final Vector3 a = Vector3(-1114.0, -60.3, 0.0); final Vector3 b = Vector3(288.8, 432.7, 0.0); final Vector3 closestPoint = InteractiveViewer.getNearestPointOnLine(point, a , b); expect(closestPoint.x, moreOrLessEquals(-356.8, epsilon: 0.1)); expect(closestPoint.y, moreOrLessEquals(205.8, epsilon: 0.1)); }); }); group('getAxisAlignedBoundingBox', () { test('rectangle already axis aligned returns the rectangle', () { final Quad quad = Quad.points( Vector3(0.0, 0.0, 0.0), Vector3(10.0, 0.0, 0.0), Vector3(10.0, 10.0, 0.0), Vector3(0.0, 10.0, 0.0), ); final Quad aabb = InteractiveViewer.getAxisAlignedBoundingBox(quad); expect(aabb.point0, quad.point0); expect(aabb.point1, quad.point1); expect(aabb.point2, quad.point2); expect(aabb.point3, quad.point3); }); test('rectangle rotated by 45 degrees', () { final Quad quad = Quad.points( Vector3(0.0, 5.0, 0.0), Vector3(5.0, 10.0, 0.0), Vector3(10.0, 5.0, 0.0), Vector3(5.0, 0.0, 0.0), ); final Quad aabb = InteractiveViewer.getAxisAlignedBoundingBox(quad); expect(aabb.point0, Vector3(0.0, 0.0, 0.0)); expect(aabb.point1, Vector3(10.0, 0.0, 0.0)); expect(aabb.point2, Vector3(10.0, 10.0, 0.0)); expect(aabb.point3, Vector3(0.0, 10.0, 0.0)); }); test('rectangle rotated very slightly', () { final Quad quad = Quad.points( Vector3(0.0, 1.0, 0.0), Vector3(1.0, 11.0, 0.0), Vector3(11.0, 9.0, 0.0), Vector3(9.0, -1.0, 0.0), ); final Quad aabb = InteractiveViewer.getAxisAlignedBoundingBox(quad); expect(aabb.point0, Vector3(0.0, -1.0, 0.0)); expect(aabb.point1, Vector3(11.0, -1.0, 0.0)); expect(aabb.point2, Vector3(11.0, 11.0, 0.0)); expect(aabb.point3, Vector3(0.0, 11.0, 0.0)); }); test('example from hexagon board', () { final Quad quad = Quad.points( Vector3(-462.7, 165.9, 0.0), Vector3(690.6, -576.7, 0.0), Vector3(1188.1, 196.0, 0.0), Vector3(34.9, 938.6, 0.0), ); final Quad aabb = InteractiveViewer.getAxisAlignedBoundingBox(quad); expect(aabb.point0, Vector3(-462.7, -576.7, 0.0)); expect(aabb.point1, Vector3(1188.1, -576.7, 0.0)); expect(aabb.point2, Vector3(1188.1, 938.6, 0.0)); expect(aabb.point3, Vector3(-462.7, 938.6, 0.0)); }); }); group('pointIsInside', () { test('inside', () { final Quad quad = Quad.points( Vector3(0.0, 0.0, 0.0), Vector3(0.0, 10.0, 0.0), Vector3(10.0, 10.0, 0.0), Vector3(10.0, 0.0, 0.0), ); final Vector3 point = Vector3(5.0, 5.0, 0.0); expect(InteractiveViewer.pointIsInside(point, quad), true); }); test('outside', () { final Quad quad = Quad.points( Vector3(0.0, 0.0, 0.0), Vector3(0.0, 10.0, 0.0), Vector3(10.0, 10.0, 0.0), Vector3(10.0, 0.0, 0.0), ); final Vector3 point = Vector3(12.0, 0.0, 0.0); expect(InteractiveViewer.pointIsInside(point, quad), false); }); test('on the edge', () { final Quad quad = Quad.points( Vector3(0.0, 0.0, 0.0), Vector3(0.0, 10.0, 0.0), Vector3(10.0, 10.0, 0.0), Vector3(10.0, 0.0, 0.0), ); final Vector3 point = Vector3(0.0, 0.0, 0.0); expect(InteractiveViewer.pointIsInside(point, quad), true); }); }); group('getNearestPointInside', () { test('point already inside quad', () { final Vector3 point = Vector3(5.0, 5.0, 0.0); final Quad quad = Quad.points( Vector3(0.0, 0.0, 0.0), Vector3(0.0, 10.0, 0.0), Vector3(10.0, 10.0, 0.0), Vector3(10.0, 0.0, 0.0), ); final Vector3 nearestPoint = InteractiveViewer.getNearestPointInside(point, quad); expect(nearestPoint, point); }); test('axis aligned quad', () { final Vector3 point = Vector3(5.0, 15.0, 0.0); final Quad quad = Quad.points( Vector3(0.0, 0.0, 0.0), Vector3(0.0, 10.0, 0.0), Vector3(10.0, 10.0, 0.0), Vector3(10.0, 0.0, 0.0), ); final Vector3 nearestPoint = InteractiveViewer.getNearestPointInside(point, quad); expect(nearestPoint, Vector3(5.0, 10.0, 0.0)); }); test('not axis aligned quad', () { final Vector3 point = Vector3(5.0, 15.0, 0.0); final Quad quad = Quad.points( Vector3(0.0, 0.0, 0.0), Vector3(2.0, 10.0, 0.0), Vector3(12.0, 12.0, 0.0), Vector3(10.0, 2.0, 0.0), ); final Vector3 nearestPoint = InteractiveViewer.getNearestPointInside(point, quad); expect(nearestPoint.x, moreOrLessEquals(5.8, epsilon: 0.1)); expect(nearestPoint.y, moreOrLessEquals(10.8, epsilon: 0.1)); }); }); }