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import 'package:logic_circuits_simulator/models.dart';
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import 'package:logic_circuits_simulator/state/component.dart';
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import 'package:logic_circuits_simulator/utils/iterable_extension.dart';
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import 'package:logic_circuits_simulator/utils/logic_expressions.dart';
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class SimulatedComponent {
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final ProjectEntry project;
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final ComponentEntry component;
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final ComponentState? state;
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final Future<SimulatedComponent> Function(String depId) onRequiredDependency;
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final _instances = <String, SimulatedComponent>{};
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SimulatedComponent({
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required this.project,
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required this.component,
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required this.onRequiredDependency,
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this.state
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});
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Future<SimulatedComponent> _getInstance(String instanceId, String? depId) async {
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if (!_instances.containsKey(instanceId)) {
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if (depId != null) {
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_instances[instanceId] = await onRequiredDependency(depId);
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}
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else {
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throw Exception('Attempted to get instance of unknown component');
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}
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}
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return _instances[instanceId]!;
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}
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Future<Map<String, bool>> simulate(Map<String, bool> inputs) async {
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final input = int.parse(
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component.inputs.map((input) => inputs[input]! ? '1' : '0').join(),
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radix: 2,
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);
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if (component.truthTable != null) {
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final output = component.truthTable![input];
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return {
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for (final it in component.outputs.indexedMap(
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(index, outName) => [outName, output[index]]
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))
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it[0] : it[1] == '1'
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};
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}
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else if (component.logicExpression != null) {
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// Somehow?
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// A truth table should be automatically generated for every logic expression component.
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// Might as well handle cases where that isn't done anyway.
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final results = component.outputs.zipWith(
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[component.logicExpression!],
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(zips) {
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final output = zips[0];
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final le = LogicExpression.parse(zips[1]);
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return [output, le.evaluate(inputs)];
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},
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);
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return {
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for (final it in results)
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it[0] as String : it[1] as bool
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};
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}
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else if (state == null) {
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throw Exception('Cannot simulate designed component without its state');
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}
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else {
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// Create instances
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final wiring = state!.wiring;
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for (final instance in wiring.instances) {
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await _getInstance(instance.instanceId, instance.componentId);
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}
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// Simulate
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final requiredSinks = <String>[
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...component.outputs.map((output) => 'self/$output'),
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];
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final knownSources = {
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for (final entry in inputs.entries)
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'self/${entry.key}': entry.value
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};
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final knownSinks = <String, bool>{};
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while (requiredSinks.isNotEmpty) {
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final sink = requiredSinks.removeAt(0);
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// C-SOURCE - WIRE-OUT -> WIRE-IN - C-SINK
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if (knownSinks.containsKey(sink)) {
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// Requirement satisfied
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continue;
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}
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else {
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// Find wire that provides sink
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final wire = wiring.wires.where((wire) => wire.input == sink).first;
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if (knownSources.containsKey(wire.output)) {
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// If we know the output provided through the wire,
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// we know the input provided to the sink
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knownSinks[sink] = knownSources[wire.output]!;
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}
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else {
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// The instance providing the source for the wire has not been simulated.
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// See if all its sinks are known:
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final instanceId = wire.output.split('/')[0];
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final instance = await _getInstance(instanceId, null);
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final depSinks = instance.component.inputs.map((input) => '$instanceId/$input').toList();
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if (depSinks.map((depSink) => !knownSinks.containsKey(depSink)).where((cond) => cond).isEmpty) {
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// If so, then simulate
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final results = await instance.simulate({
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for (final depSink in depSinks)
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depSink.split('/')[1] : knownSinks[depSink]!
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});
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knownSources.addAll({
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for (final result in results.entries)
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'$instanceId/${result.key}' : result.value
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});
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// And resolve needed sink
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knownSinks[sink] = knownSources[wire.output]!;
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}
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else {
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// Otherwise, require the sinks and reschedule the current one
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requiredSinks.addAll(depSinks.where((depSink) => !knownSinks.containsKey(depSink)));
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requiredSinks.add(sink);
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}
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}
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}
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}
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return {
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for (final output in component.outputs)
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output : knownSinks['self/$output']!
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};
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}
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}
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}
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