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logic-circuits-simulator
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logic-circuits-simulator/lib/pages/design_component.dart

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import 'dart:math';
import 'package:flutter/material.dart';
import 'package:flutter_hooks/flutter_hooks.dart';
import 'package:logic_circuits_simulator/components/visual_component.dart';
import 'package:logic_circuits_simulator/models.dart';
import 'package:logic_circuits_simulator/pages_arguments/design_component.dart';
import 'package:logic_circuits_simulator/state/component.dart';
import 'package:logic_circuits_simulator/utils/future_call_debounce.dart';
import 'package:logic_circuits_simulator/utils/iterable_extension.dart';
import 'package:logic_circuits_simulator/utils/provider_hook.dart';
import 'package:logic_circuits_simulator/utils/stack_canvas_controller_hook.dart';
import 'package:stack_canvas/stack_canvas.dart';
Key canvasKey = GlobalKey();
class DesignComponentPage extends HookWidget {
final ComponentEntry component;
const DesignComponentPage({required this.component, super.key});
DesignComponentPage.fromArguments(DesignComponentPageArguments args, {super.key})
: component = args.component;
static const String routeName = '/project/component/design';
@override
Widget build(BuildContext context) {
final componentState = useProvider<ComponentState>();
final canvasController = useStackCanvasController(
offsetReference: Reference.Center,
);
// Simulation vars
final isSimulating = useState(false);
final simulatePartially = useState(false);
useListenable(componentState.partialVisualSimulation!);
final movingWidgetUpdater = useState<void Function(double dx, double dy)?>(null);
final movingWidget = useState<dynamic>(null);
final widgets = useMemoized(() => [
for (final subcomponent in componentState.designDraft.components)
CanvasObject(
dx: subcomponent.x,
dy: subcomponent.y,
width: VisualComponent.getNeededWidth(
context,
componentState
.getMetaByInstance(subcomponent.instanceId)
.item2
.inputs,
componentState
.getMetaByInstance(subcomponent.instanceId)
.item2
.outputs,
Theme.of(context).textTheme.bodyMedium,
),
height: max(
componentState.getMetaByInstance(subcomponent.instanceId).item2.inputs.length,
componentState.getMetaByInstance(subcomponent.instanceId).item2.outputs.length,
) * 30 + 10,
child: Listener(
behavior: HitTestBehavior.translucent,
onPointerDown: (event) {
final debouncer = FutureCallDebounce<List<double>>(
futureCall: (xyList) {
final dx = xyList[0];
final dy = xyList[1];
return componentState.updateDesign(componentState.designDraft.copyWith(
components: componentState.designDraft.components.map(
(e) => e.instanceId == subcomponent.instanceId ? e.copyWith(
x: subcomponent.x + dx,
y: subcomponent.y + dy,
) : e,
).toList(),
), commit: false);
},
combiner: (oldParams, newParams) {
return oldParams.zipWith([newParams], (deltas) => deltas.fold<double>(0.0, (prev, elem) => prev + elem)).toList();
},
);
movingWidgetUpdater.value = (dx, dy) {
debouncer.call([dx, dy]);
};
movingWidget.value = subcomponent;
},
onPointerUp: (event) {
componentState.updateDesign(componentState.designDraft);
movingWidgetUpdater.value = null;
movingWidget.value = null;
},
child: MouseRegion(
cursor: movingWidget.value == subcomponent ? SystemMouseCursors.move : MouseCursor.defer,
child: VisualComponent(
name: componentState.getMetaByInstance(subcomponent.instanceId).item2.componentName,
inputs: componentState.getMetaByInstance(subcomponent.instanceId).item2.inputs,
outputs: componentState.getMetaByInstance(subcomponent.instanceId).item2.outputs,
inputColors: isSimulating.value ? {
for (final input in componentState.getMetaByInstance(subcomponent.instanceId).item2.inputs)
input: componentState.partialVisualSimulation!.inputsValues['${subcomponent.instanceId}/$input'] == true ? Colors.green
: componentState.partialVisualSimulation!.inputsValues['${subcomponent.instanceId}/$input'] == false ? Colors.red
: Colors.black,
} : null,
outputColors: isSimulating.value ? {
for (final output in componentState.getMetaByInstance(subcomponent.instanceId).item2.outputs)
output: componentState.partialVisualSimulation!.outputsValues['${subcomponent.instanceId}/$output'] == true ? Colors.green
: componentState.partialVisualSimulation!.outputsValues['${subcomponent.instanceId}/$output'] == false ? Colors.red
: Colors.black,
} : null,
),
),
),
),
for (final input in componentState.designDraft.inputs)
CanvasObject(
dx: input.x,
dy: input.y,
width: IOComponent.getNeededWidth(context, input.name, textStyle: Theme.of(context).textTheme.bodyMedium),
height: 40,
child: Listener(
behavior: HitTestBehavior.translucent,
onPointerDown: (event) {
final debouncer = FutureCallDebounce<List<double>>(
futureCall: (xyList) {
final dx = xyList[0];
final dy = xyList[1];
return componentState.updateDesign(componentState.designDraft.copyWith(
inputs: componentState.designDraft.inputs.map(
(e) => e.name == input.name ? e.copyWith(
x: input.x + dx,
y: input.y + dy,
) : e,
).toList(),
), commit: false);
},
combiner: (oldParams, newParams) {
return oldParams.zipWith([newParams], (deltas) => deltas.fold<double>(0.0, (prev, elem) => prev + elem)).toList();
},
);
movingWidgetUpdater.value = (dx, dy) {
debouncer.call([dx, dy]);
};
},
onPointerUp: (event) {
componentState.updateDesign(componentState.designDraft);
movingWidgetUpdater.value = null;
},
child: IOComponent(
input: true,
name: input.name,
width: IOComponent.getNeededWidth(context, input.name, textStyle: Theme.of(context).textTheme.bodyMedium),
color: isSimulating.value
? (componentState.partialVisualSimulation!.outputsValues['self/${input.name}']!
? Colors.green
: Colors.red)
: null,
onTap: isSimulating.value ? () {
componentState.partialVisualSimulation!.toggleInput(input.name);
} : null,
),
),
),
for (final output in componentState.designDraft.outputs)
CanvasObject(
dx: output.x,
dy: output.y,
width: IOComponent.getNeededWidth(context, output.name, textStyle: Theme.of(context).textTheme.bodyMedium),
height: 40,
child: Listener(
behavior: HitTestBehavior.translucent,
onPointerDown: (event) {
final debouncer = FutureCallDebounce<List<double>>(
futureCall: (xyList) {
final dx = xyList[0];
final dy = xyList[1];
return componentState.updateDesign(componentState.designDraft.copyWith(
outputs: componentState.designDraft.outputs.map(
(e) => e.name == output.name ? e.copyWith(
x: output.x + dx,
y: output.y + dy,
) : e,
).toList(),
), commit: false);
},
combiner: (oldParams, newParams) {
return oldParams.zipWith([newParams], (deltas) => deltas.fold<double>(0.0, (prev, elem) => prev + elem)).toList();
},
);
movingWidgetUpdater.value = (dx, dy) {
debouncer.call([dx, dy]);
};
},
onPointerUp: (event) {
componentState.updateDesign(componentState.designDraft);
movingWidgetUpdater.value = null;
},
child: IOComponent(
input: false,
name: output.name,
width: IOComponent.getNeededWidth(context, output.name, textStyle: Theme.of(context).textTheme.bodyMedium),
color: isSimulating.value
? (componentState.partialVisualSimulation!.inputsValues['self/${output.name}'] == true ? Colors.green
: componentState.partialVisualSimulation!.inputsValues['self/${output.name}'] == false ? Colors.red
: null)
: null,
),
),
),
for (final wire in componentState.wiring.wires)
(() {
const ioCircleDiameter = 20;
Offset from, to;
if (wire.output.split('/')[0] == 'self') {
// It's a component input
// Find input
final inputName = wire.output.split('/')[1];
final design = componentState.designDraft.inputs.where((i) => i.name == inputName).first;
from = Offset(
// Take into account widget length
design.x +
IOComponent.getNeededWidth(
context,
inputName,
textStyle: Theme.of(context).textTheme.bodyMedium,
),
design.y + ioCircleDiameter + 1,
);
}
else {
// It's a subcomponent output
// Find subcomponent
final split = wire.output.split('/');
final subcomponentId = split[0];
final outputName = split[1];
final design = componentState.designDraft.components.where((c) => c.instanceId == subcomponentId).first;
final subcomponent = componentState.getMetaByInstance(subcomponentId).item2;
from = Offset(
// Take into account widget length
design.x +
VisualComponent.getNeededWidth(
context,
subcomponent.inputs,
subcomponent.outputs,
Theme.of(context).textTheme.bodyMedium,
),
design.y +
VisualComponent.getHeightOfIO(
context,
subcomponent.outputs,
subcomponent.outputs.indexOf(outputName),
Theme.of(context).textTheme.bodyMedium,
),
);
}
if (wire.input.split('/')[0] == 'self') {
// It's a component output
// Find output
final outputName = wire.input.split('/')[1];
final design = componentState.designDraft.outputs.where((o) => o.name == outputName).first;
to = Offset(
design.x,
design.y + ioCircleDiameter + 1,
);
}
else {
// It's a subcomponent input
// Find subcomponent
final split = wire.input.split('/');
final subcomponentId = split[0];
final inputName = split[1];
final design = componentState.designDraft.components.where((c) => c.instanceId == subcomponentId).first;
final subcomponent = componentState.getMetaByInstance(subcomponentId).item2;
to = Offset(
// Take into account widget length
design.x,
design.y +
VisualComponent.getHeightOfIO(
context,
subcomponent.inputs,
subcomponent.inputs.indexOf(inputName),
Theme.of(context).textTheme.bodyMedium,
),
);
}
var wireColor = Colors.black;
if (isSimulating.value) {
final wireValue = componentState.partialVisualSimulation!.outputsValues[wire.output];
if (wireValue == true) {
wireColor = Colors.green;
}
else if (wireValue == false) {
wireColor = Colors.red;
}
}
return CanvasObject(
dx: min(from.dx, to.dx),
dy: min(from.dy, to.dy),
width: (to - from).dx.abs(),
height: (to - from).dy.abs(),
child: IgnorePointer(
child: WireWidget(
from: from,
to: to,
color: wireColor,
),
),
);
})(),
], [componentState.designDraft, isSimulating.value, componentState.partialVisualSimulation!.outputsValues]);
useEffect(() {
final wList = widgets;
canvasController.addCanvasObjects(wList);
return () {
// Cleanup
for (final obj in wList) {
canvasController.removeCanvasObject(obj);
}
};
}, [widgets]);
useEffect(() {
if (isSimulating.value && !simulatePartially.value && componentState.partialVisualSimulation!.nextToSimulate.isNotEmpty) {
componentState.partialVisualSimulation!.nextStep();
}
return null;
}, [componentState.partialVisualSimulation!.outputsValues.entries.map((e) => '${e.key}:${e.value}').join(';'), simulatePartially.value, isSimulating.value]);
return Scaffold(
appBar: AppBar(
centerTitle: true,
title: Text('${isSimulating.value ? 'Simulation' : 'Design'} - ${component.componentName}'),
actions: [
IconButton(
icon: Icon(isSimulating.value ? Icons.stop : Icons.start),
tooltip: isSimulating.value ? 'Stop Simulation' : 'Start Simulation',
onPressed: () {
isSimulating.value = !isSimulating.value;
},
),
],
),
body: GestureDetector(
onPanUpdate: (update) {
final hw = movingWidgetUpdater.value;
if (hw == null || isSimulating.value) {
canvasController.offset = canvasController.offset.translate(update.delta.dx, update.delta.dy);
}
else {
hw(update.delta.dx, update.delta.dy);
}
},
child: OrientationBuilder(
builder: (context, orientation) {
if (orientation == Orientation.portrait) {
return Column(
mainAxisSize: MainAxisSize.max,
children: [
Expanded(
child: StackCanvas(
key: canvasKey,
canvasController: canvasController,
animationDuration: const Duration(milliseconds: 50),
// disposeController: false,
backgroundColor: Theme.of(context).colorScheme.background,
),
),
],
);
}
else {
return Row(
mainAxisSize: MainAxisSize.max,
children: [
Expanded(
child: StackCanvas(
key: canvasKey,
canvasController: canvasController,
animationDuration: const Duration(milliseconds: 50),
// disposeController: false,
backgroundColor: Theme.of(context).colorScheme.background,
),
),
],
);
}
}
),
),
);
}
}