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feat: basic navigation with bugs

This commit is contained in:
Yandrik 2024-04-21 08:24:50 +02:00
parent e653010458
commit 3de71e2a5a
13 changed files with 1391 additions and 92 deletions
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56
lib/components/feature_bottom_sheet.dart
View File

@ -19,8 +19,8 @@ Future<void> showFeatureBottomSheet(
data: ThemeData.light(),
child: Container(
constraints: const BoxConstraints(
minHeight: 300,
),
// minHeight: 300,
),
width: Get.mediaQuery.size.width,
decoration: const BoxDecoration(
color: Colors.black,
@ -72,6 +72,28 @@ Future<void> showFeatureBottomSheet(
const SizedBox(height: 10),
],
..._buildFeatureContent(feature),
const SizedBox(height: 20),
Row(
mainAxisAlignment: MainAxisAlignment.end,
children: [
ElevatedButton(
child: const Row(
children: [
Icon(
Icons.share_location,
color: Colors.black,
),
SizedBox(width: 4),
Text(
"Start Navigation",
style: TextStyle(color: Colors.black),
),
],
),
onPressed: () => {},
),
],
)
]),
),
),
@ -114,7 +136,35 @@ List<Widget> _buildRoomContent(Feature feature) {
/// Builds the content for the Door feature type.
List<Widget> _buildDoorContent(Feature feature, List<String> connects) {
return [Text('Door: ${feature.name}\nConnects: $connects')];
return [
Text(
feature.name,
style: const TextStyle(fontSize: 18),
),
const SizedBox(height: 10),
if (connects.isNotEmpty) ...[
const Align(
alignment: Alignment.centerLeft,
child: Padding(
padding: EdgeInsets.only(right: 4),
child: Text(
'Connects:',
style: TextStyle(fontWeight: FontWeight.bold),
),
),
),
Align(
alignment: Alignment.centerLeft,
child: Wrap(
spacing: 8,
runSpacing: 4,
children: connects.map((place) {
return ColorfulChip(label: place.toString());
}).toList(),
),
),
],
];
}
/// Builds the content for the Toilet feature type.

70
lib/components/map_render_level.dart
View File

@ -10,38 +10,39 @@ import 'package:uninav/map.dart';
import 'package:uninav/util/geomath.dart';
import 'package:uninav/util/util.dart';
List<Widget> renderLevel(int level, {LayerHitNotifier? hitNotifier}) {
List<Widget> renderLevel(
int level,
) {
return <Widget>[
LevelLayer(
filter: (feature) =>
feature.level == level && feature.type is LectureHall,
polyConstructor: (feature) => feature
.getPolygon(
constructor: (pts) => Polygon(
points: pts,
color: Colors.orange.withOpacity(0.2),
borderColor: Colors.orange,
borderStrokeWidth: 2,
hitValue: feature,
),
)
.unwrap(),
markerConstructor: (feature) => Marker(
width: 50,
height: 20,
point: feature.getPoint().unwrap(),
child: Column(
children: [
Icon(
Icons.class_,
color: Colors.black,
),
Text('${feature.name}'),
],
),
alignment: Alignment.center,
filter: (feature) =>
feature.level == level && feature.type is LectureHall,
polyConstructor: (feature) => feature
.getPolygon(
constructor: (pts) => Polygon(
points: pts,
color: Colors.orange.withOpacity(0.2),
borderColor: Colors.orange,
borderStrokeWidth: 2,
),
notifier: hitNotifier),
)
.unwrap(),
markerConstructor: (feature) => Marker(
width: 50,
height: 20,
point: feature.getPoint().unwrap(),
child: Column(
children: [
Icon(
Icons.class_,
color: Colors.black,
),
Text('${feature.name}'),
],
),
alignment: Alignment.center,
),
),
LevelLayer(
filter: (feature) => feature.level == level && feature.type is Room,
polyConstructor: (feature) => feature
@ -51,11 +52,9 @@ List<Widget> renderLevel(int level, {LayerHitNotifier? hitNotifier}) {
color: Colors.green.withOpacity(1.2),
borderColor: Colors.green,
borderStrokeWidth: 2,
hitValue: feature,
),
)
.unwrap(),
notifier: hitNotifier,
),
LevelLayer(
filter: (feature) => feature.level == level && feature.type is Door,
@ -72,7 +71,6 @@ List<Widget> renderLevel(int level, {LayerHitNotifier? hitNotifier}) {
alignment: Alignment.center,
);
},
notifier: hitNotifier,
),
LevelLayer(
filter: (feature) => feature.level == level && feature.type is Toilet,
@ -91,7 +89,6 @@ List<Widget> renderLevel(int level, {LayerHitNotifier? hitNotifier}) {
alignment: Alignment.center,
);
},
notifier: hitNotifier,
),
LevelLayer(
filter: (feature) =>
@ -110,7 +107,6 @@ List<Widget> renderLevel(int level, {LayerHitNotifier? hitNotifier}) {
alignment: Alignment.center,
);
},
notifier: hitNotifier,
),
LevelLayer(
filter: (feature) =>
@ -129,7 +125,6 @@ List<Widget> renderLevel(int level, {LayerHitNotifier? hitNotifier}) {
alignment: Alignment.center,
);
},
notifier: hitNotifier,
),
];
}
@ -140,7 +135,6 @@ class LevelLayer extends StatelessWidget {
final Marker Function(LatLng, String)? polyCenterMarkerConstructor;
final Marker Function(Feature)? markerConstructor;
final int? level;
final LayerHitNotifier? notifier;
const LevelLayer({
this.level,
@ -148,7 +142,6 @@ class LevelLayer extends StatelessWidget {
this.polyConstructor,
this.polyCenterMarkerConstructor,
this.markerConstructor,
this.notifier,
super.key,
});
@ -173,7 +166,6 @@ class LevelLayer extends StatelessWidget {
points: points,
borderColor: Colors.black26,
borderStrokeWidth: 2.0,
hitValue: feature,
))
.unwrap());
}
@ -241,14 +233,12 @@ class LevelLayer extends StatelessWidget {
widgets.add(TranslucentPointer(
child: PolygonLayer(
polygons: filteredPolygons,
hitNotifier: notifier,
),
));
} else {
widgets.add(TranslucentPointer(
child: PolygonLayer(
polygons: filteredPolygons,
hitNotifier: notifier,
),
));
}

10
lib/controllers/map_controller.dart
View File

@ -86,15 +86,15 @@ class MyMapController extends GetxController {
final featuresList = <Feature>[];
print('doing');
// print('doing');
final geojson = GeoJSONFeatureCollection.fromJSON(geoJsonString);
print('done');
// print('done');
for (final feature in geojson.features) {
print(feature);
print(feature?.properties);
// print(feature);
// print(feature?.properties);
if (feature == null) continue;
print(feature.properties);
// print(feature.properties);
final parsed = parseFeature(
feature.properties ?? <String, dynamic>{}, feature.geometry);
if (parsed case Ok(:final ok)) {

1
lib/data/geo/model.dart
View File

@ -36,7 +36,6 @@ class Feature with _$Feature {
points: pts,
borderColor: Colors.black26,
borderStrokeWidth: 2.0,
hitValue: 'test${pts.length}',
);
final polygon = geometry as GeoJSONPolygon;
// print(polygon.geometry!.geoSeries[0].geoPoints);

4
lib/data/geo/parser.dart
View File

@ -40,7 +40,7 @@ Result<Feature> parseFeature(
final building = yaml['building'] as String?;
print("yaml: $yaml");
// print("yaml: $yaml");
var raw_type = yaml['type'] as String?;
if (raw_type == null && layer?.toLowerCase() == 'buildings') {
@ -123,7 +123,7 @@ Result<List<String>> stringifyList(List<dynamic> tramLines) {
Result<List<T>> getYamlList<T>(YamlMap yaml, String key) {
try {
print('yaml is ${yaml[key]}');
// print('yaml is ${yaml[key]}');
final val = (yaml[key] as YamlList?);
if (val == null) {
return bail("Key $key is missing in yaml");

4
lib/main.dart
View File

@ -1,4 +1,5 @@
import 'package:flutter/material.dart';
import 'package:flutter/services.dart';
import 'package:get/get.dart';
import 'package:uninav/controllers/isar_controller.dart';
import 'package:uninav/controllers/map_controller.dart';
@ -8,6 +9,9 @@ import 'package:uninav/settings.dart';
// TODO: maybe make not async?
void main() async {
Get.put(MyMapController());
await Get.find<MyMapController>()
.loadGeoJson(await rootBundle.loadString('assets/geo/uulm_beta.geojson'));
await Get.putAsync(() async {
final controller = IsarController();
await controller.initializeIsar();

10
lib/map.dart
View File

@ -19,7 +19,6 @@ class MapPage extends StatelessWidget {
@override
Widget build(BuildContext context) {
final LayerHitNotifier hitNotifier = ValueNotifier(null);
return Scaffold(
drawer: MyDrawer(),
appBar: AppBar(
@ -43,8 +42,6 @@ class MapPage extends StatelessWidget {
floatingActionButton: FloatingActionButton(
onPressed: () async {
// Add onPressed logic here
await Get.find<MyMapController>().loadGeoJson(
await rootBundle.loadString('assets/geo/uulm_beta.geojson'));
},
child: const Icon(Icons.add),
),
@ -70,7 +67,6 @@ class MapPage extends StatelessWidget {
TranslucentPointer(
child: LevelLayer(
filter: (feature) => feature.type is Building,
notifier: hitNotifier,
),
),
@ -97,10 +93,8 @@ class MapPage extends StatelessWidget {
color: Colors.green.withOpacity(0.2),
borderColor: Colors.green,
borderStrokeWidth: 1,
hitValue: feature,
))
.unwrap(),
notifier: hitNotifier,
),
),
@ -108,8 +102,8 @@ class MapPage extends StatelessWidget {
Obx(
() => Stack(
children: renderLevel(
Get.find<MyMapController>().currentLevel.value,
hitNotifier: hitNotifier)),
Get.find<MyMapController>().currentLevel.value,
)),
),
],
),

425
lib/nav/graph.dart Normal file
View File

@ -0,0 +1,425 @@
import 'package:anyhow/anyhow.dart';
import 'package:collection/collection.dart';
import 'package:directed_graph/directed_graph.dart';
import 'package:fast_immutable_collections/fast_immutable_collections.dart';
import 'package:freezed_annotation/freezed_annotation.dart';
import 'package:geojson_vi/geojson_vi.dart';
import 'package:get/get.dart';
import 'package:latlong2/latlong.dart';
import 'package:uninav/data/geo/model.dart';
import 'package:uninav/util/geojson_util.dart';
import 'package:uninav/util/util.dart';
import 'dart:collection';
part 'graph.freezed.dart';
@freezed
class GraphFeature with _$GraphFeature {
const factory GraphFeature.buildingFloor(int floor, Feature building) =
BuildingFloor;
const factory GraphFeature.portal(int fromFloor, String from, int toFloor,
String to, Feature baseFeature) = Portal;
const factory GraphFeature.basicFeature(
int floor, String building, Feature feature) = BasicFeature;
const GraphFeature._();
Result<LatLng> getCenter() {
return when(
buildingFloor: (floor, building) => building.getCenterPoint(),
portal: (fromFloor, from, toFloor, to, baseFeature) =>
baseFeature.getCenterPoint(),
basicFeature: (floor, building, feature) => feature.getCenterPoint(),
);
}
double distanceTo(GraphFeature other, String unit) => distanceBetweenLatLng(
getCenter().unwrap(), other.getCenter().unwrap(), unit);
double metersTo(GraphFeature other) => distanceTo(other, "meters");
@override
String toString() {
return when(
buildingFloor: (floor, building) => 'Floor (${building.name}:$floor)',
portal: (fromFloor, from, toFloor, to, _) =>
'Portal ($from:$fromFloor -> $to:$toFloor)',
basicFeature: (floor, building, feature) =>
'Feature (${formatFeatureTitle(feature)} ($building:$floor))',
);
}
}
bool eq(String? a, String? b) => a?.toLowerCase() == b?.toLowerCase();
IList<GraphFeature> wrap(Feature feature, int floor, String buildingFrom) {
return feature.type
.maybeWhen(
building: () => [GraphFeature.buildingFloor(floor, feature)],
stairs: (floors) => stairPortalGenerator(floors, floor, feature),
lift: (floors) => stairPortalGenerator(floors, floor, feature, 99),
door: (connections) =>
doorPortalGenerator(connections, floor, buildingFrom, feature),
orElse: () => [GraphFeature.basicFeature(floor, buildingFrom, feature)],
)
.lock;
}
List<GraphFeature> doorPortalGenerator(
List<String> connections, int floor, String from, Feature feature) {
final portals = <GraphFeature>[];
for (final connection in connections.where((c) => !eq(c, from))) {
portals.add(GraphFeature.portal(
floor, from, floor, connection.toLowerCase(), feature));
}
return portals;
}
List<GraphFeature> stairPortalGenerator(
List<int> floors, int floor, Feature feature,
[int maxDist = 1]) {
final portals = <GraphFeature>[];
for (int i = 1; i <= maxDist; i++) {
if (floors.contains(floor - i)) {
portals.add(GraphFeature.portal(floor, feature.building!.toLowerCase(),
floor - i, feature.building!.toLowerCase(), feature));
}
if (floors.contains(floor + i)) {
portals.add(GraphFeature.portal(floor, feature.building!.toLowerCase(),
floor + i, feature.building!.toLowerCase(), feature));
}
}
return portals;
}
Feature unwrap(GraphFeature feature) {
return feature.when(
buildingFloor: (floor, building) => building,
portal: (fromFloor, from, toFloor, to, baseFeature) => baseFeature,
basicFeature: (floor, building, f) => f,
);
}
double sum(double left, double right) => left + right;
// WeightedDirectedGraph createGraph(Feature origin, List<Feature> allFeatures) {
//
// }
List<GraphFeature> findAdjacent(
GraphFeature feature, Iterable<Feature> allFeatures) {
List<GraphFeature> adjacentFeatures = [];
if (feature is BuildingFloor) {
// find all features in the building on the right floor
adjacentFeatures = allFeatures
.where((f) => eq(f.building, feature.building.name) || f.type is Door)
.where((f) => f.type.maybeWhen(
lift: (levels) => levels.contains(feature.floor),
stairs: (levels) => levels.contains(feature.floor),
door: (connections) =>
f.level == feature.floor &&
connections
.map((e) => e.toLowerCase())
.contains(feature.building.name.toLowerCase()),
orElse: () => f.level == feature.floor))
.mapMany((f) => wrap(f, feature.floor, feature.building.name))
.toList();
} else if (feature is Portal) {
adjacentFeatures = allFeatures
.where((f) => eq(f.name, feature.to) && f.type is Building)
.mapMany((f) => wrap(f, feature.toFloor, feature.to))
.toList();
} else if (feature is BasicFeature) {
adjacentFeatures = allFeatures
.where(
(f) => eq(f.name, feature.feature.building) && f.type is Building)
.mapMany((f) => wrap(f, feature.feature.level!, f.name))
.toList();
}
return adjacentFeatures;
}
List<GraphFeature> createGraphList(
GraphFeature origin, List<Feature> allFeatures,
[Set<GraphFeature>? visited]) {
// final usedFeatures = <GraphFeature>[origin];
visited ??= <GraphFeature>{origin};
final adjacent = findAdjacent(origin, allFeatures);
for (final feature in adjacent.asSet()..removeAll(visited)) {
visited.add(feature);
final deeper = createGraphList(feature, allFeatures, visited);
visited.addAll(deeper);
}
return visited.toList();
}
Map<GraphFeature, Map<GraphFeature, double>> createGraphMap(
GraphFeature origin, List<Feature> allFeatures) {
final graphList = createGraphList(origin, allFeatures);
final graphMap = <GraphFeature, Map<GraphFeature, double>>{};
for (final node in graphList) {
final adjacents = node.when(
buildingFloor: (floor, building) {
return graphList
.where((f) =>
f is Portal &&
eq(f.from, building.name) &&
f.fromFloor == floor ||
f is BasicFeature &&
eq(f.building, building.name) &&
f.floor == floor)
.map((f) => f.when(
portal: (fromFloor, from, toFloor, to, baseFeature) => (
f,
f.metersTo(node),
),
basicFeature: (floor, building, feature) =>
(f, f.metersTo(node)),
buildingFloor: (floor, building) => throw StateError(
"BUG: createGraphMap(): BuildingFloors shouldn't "
"be matched by BuildingFloors"),
));
},
portal: (fromFloor, from, toFloor, to, baseFeature) {
return graphList
.where((f) =>
f is BuildingFloor &&
eq(f.building.name, to) &&
f.floor == toFloor)
.map((f) => f.when(
portal: (fromFloor, from, toFloor, to, baseFeature) =>
throw StateError(
"BUG: createGraphMap(): Portals shouldn't "
"be matched by Portals"),
basicFeature: (floor, building, feature) => throw StateError(
"BUG: createGraphMap(): BasicFeatures shouldn't "
"be matched by BasicFeatures"),
buildingFloor: (floor, building) => (
f,
f.metersTo(node) +
5 /* 5 extra meters for all portals. TODO: smarter!*/
),
));
},
basicFeature: (floor, building, feature) {
return graphList
.where((f) =>
f is BuildingFloor &&
eq(f.building.name, building) &&
f.floor == floor)
.map((f) => f.when(
portal: (fromFloor, from, toFloor, to, baseFeature) =>
throw StateError(
"BUG: createGraphMap(): Portal shouldn't be matched "
"by BasicFeature"),
basicFeature: (floor, building, feature) => throw StateError(
"BUG: createGraphMap(): BasicFeatures shouldn't "
"be matched by BasicFeatures"),
buildingFloor: (floor, building) => (f, f.metersTo(node)),
));
},
);
graphMap[node] =
Map.fromEntries(adjacents.map((tup) => MapEntry(tup.$1, tup.$2)));
}
return graphMap;
}
WeightedDirectedGraph<GraphFeature, double> createGraph(
GraphFeature origin, List<Feature> allFeatures) {
final map = createGraphMap(origin, allFeatures);
final graph = WeightedDirectedGraph<GraphFeature, double>(
map,
summation: sum,
zero: 0.0,
comparator: (a, b) => compareGraphFeatures(a, b),
);
return graph;
}
Result<List<(GraphFeature, double)>> findShortestPath(
GraphFeature origin, GraphFeature destination, List<Feature> allFeatures,
[heuristicVariant = "zero", heuristicMultiplier = 0.2]) {
var graph = createGraphMap(origin, allFeatures);
if (!(graph.keys.contains(origin) &&
graph.values.firstWhereOrNull((vals) => vals.containsKey(destination)) !=
null)) {
return bail("Origin or destination not in graph");
}
// euclidean distance heuristic
double Function(GraphFeature) heuristic =
(GraphFeature node) => 0.0; // standard zero
if (heuristicVariant == "zero") {
heuristic = (GraphFeature node) => 0.0;
} else if (heuristicVariant == "euclidean") {
heuristic =
(GraphFeature node) => node.metersTo(destination) * heuristicMultiplier;
}
//heuristic(GraphFeature node) => 0.0;
// openlist
// format: (heuristic, g-val, parent?, node)
PriorityQueue<(double, double, GraphFeature?, GraphFeature)> openlist =
HeapPriorityQueue(
// reverse order (cmp b to a) because lower f-val (shorter distance) is better
(a, b) => (b.$1 + b.$2).compareTo((a.$1 + a.$2)),
);
final Map<GraphFeature, (GraphFeature?, double)> bestPathMap = {
origin: (null, 0.0)
};
openlist.add((heuristic(origin), 0.0, null, origin));
// closed list
Set<GraphFeature> closedlist = {};
var cost = 0.0;
while (openlist.isNotEmpty) {
final (f, g, parent, node) = openlist.removeFirst();
closedlist.add(node);
bestPathMap[node] = (parent, g);
if (node == destination) {
cost = g;
break;
// TODO: restore path
}
// expand node
final adjacents = graph[node]!;
for (final entry in adjacents.entries) {
final adjNode = entry.key;
final adjCost = entry.value;
if (closedlist.contains(adjNode)) {
continue;
}
bool found = false;
for (final open in openlist.unorderedElements) {
if (open.$4 == adjNode) {
found = true;
if (g + adjCost < open.$2) {
openlist.remove(open);
openlist.add((
open.$1 /* heuristic stays the same */,
g + adjCost,
adjNode,
open.$4
));
}
break;
}
}
if (!found) {
openlist.add((
f + heuristic(adjNode),
g + adjCost,
node,
adjNode,
));
}
}
}
if (bestPathMap.isNotEmpty) {
final path = <(GraphFeature, double)>[];
(GraphFeature?, double)? currentNode = (destination, cost);
while (currentNode?.$1 != null) {
final nextNode = bestPathMap[currentNode!.$1];
path.insert(
0, (currentNode!.$1!, currentNode.$2 - (nextNode?.$2 ?? 0.0)));
currentNode = nextNode;
}
return Ok(path);
}
return bail("No path found");
}
/// Compares two [GraphFeature] instances and determines their relative order.
///
/// The comparison is based on the specific subtypes and properties of the
/// [GraphFeature] instances. The comparison logic is as follows:
///
/// 1. If both instances are [BuildingFloor], they are compared first by the
/// building name and then by the floor number.
/// 2. If one instance is a [Portal] and the other is a [BuildingFloor] or
/// [BasicFeature], the [Portal] is considered greater.
/// 3. If both instances are [Portal], they are compared first by the `from`
/// property, then by the `to` property, and finally by the `baseFeature` name.
/// 4. If one instance is a [BasicFeature] and the other is a [BuildingFloor] or
/// [Portal], the [BasicFeature] is considered greater.
/// 5. If both instances are [BasicFeature], they are compared first by the
/// building name, then by the floor number, and finally by the feature name.
///
/// Returns a negative value if [a] is considered "less than" [b], a positive
/// value if [a] is considered "greater than" [b], and zero if they are considered
/// equal.
///
/// This function can be used as a comparator for sorting or ordering
/// [GraphFeature] instances.
int compareGraphFeatures(GraphFeature a, GraphFeature b) {
return a.when(
buildingFloor: (floorA, buildingA) {
return b.when(
buildingFloor: (floorB, buildingB) {
final buildingComparison = buildingA.name.compareTo(buildingB.name);
if (buildingComparison != 0) {
return buildingComparison;
}
return floorA.compareTo(floorB);
},
portal: (fromFloorB, fromB, toFloorB, toB, baseFeatureB) => -1,
basicFeature: (floorB, buildingB, featureB) => -1,
);
},
portal: (fromFloorA, fromA, toFloorA, toA, baseFeatureA) {
return b.when(
buildingFloor: (floorB, buildingB) => 1,
portal: (fromFloorB, fromB, toFloorB, toB, baseFeatureB) {
final fromComparison = fromA.compareTo(fromB);
if (fromComparison != 0) {
return fromComparison;
}
final toComparison = toA.compareTo(toB);
if (toComparison != 0) {
return toComparison;
}
return baseFeatureA.name.compareTo(baseFeatureB.name);
},
basicFeature: (floorB, buildingB, featureB) => -1,
);
},
basicFeature: (floorA, buildingA, featureA) {
return b.when(
buildingFloor: (floorB, buildingB) => 1,
portal: (fromFloorB, fromB, toFloorB, toB, baseFeatureB) => 1,
basicFeature: (floorB, buildingB, featureB) {
final buildingComparison = buildingA.compareTo(buildingB);
if (buildingComparison != 0) {
return buildingComparison;
}
final floorComparison = floorA.compareTo(floorB);
if (floorComparison != 0) {
return floorComparison;
}
return featureA.name.compareTo(featureB.name);
},
);
},
);
}

646
lib/nav/graph.freezed.dart Normal file
View File

@ -0,0 +1,646 @@
// coverage:ignore-file
// GENERATED CODE - DO NOT MODIFY BY HAND
// ignore_for_file: type=lint
// ignore_for_file: unused_element, deprecated_member_use, deprecated_member_use_from_same_package, use_function_type_syntax_for_parameters, unnecessary_const, avoid_init_to_null, invalid_override_different_default_values_named, prefer_expression_function_bodies, annotate_overrides, invalid_annotation_target, unnecessary_question_mark
part of 'graph.dart';
// **************************************************************************
// FreezedGenerator
// **************************************************************************
T _$identity<T>(T value) => value;
final _privateConstructorUsedError = UnsupportedError(
'It seems like you constructed your class using `MyClass._()`. This constructor is only meant to be used by freezed and you are not supposed to need it nor use it.\nPlease check the documentation here for more information: https://github.com/rrousselGit/freezed#adding-getters-and-methods-to-our-models');
/// @nodoc
mixin _$GraphFeature {
@optionalTypeArgs
TResult when<TResult extends Object?>({
required TResult Function(int floor, Feature building) buildingFloor,
required TResult Function(int fromFloor, String from, int toFloor,
String to, Feature baseFeature)
portal,
required TResult Function(int floor, String building, Feature feature)
basicFeature,
}) =>
throw _privateConstructorUsedError;
@optionalTypeArgs
TResult? whenOrNull<TResult extends Object?>({
TResult? Function(int floor, Feature building)? buildingFloor,
TResult? Function(int fromFloor, String from, int toFloor, String to,
Feature baseFeature)?
portal,
TResult? Function(int floor, String building, Feature feature)?
basicFeature,
}) =>
throw _privateConstructorUsedError;
@optionalTypeArgs
TResult maybeWhen<TResult extends Object?>({
TResult Function(int floor, Feature building)? buildingFloor,
TResult Function(int fromFloor, String from, int toFloor, String to,
Feature baseFeature)?
portal,
TResult Function(int floor, String building, Feature feature)? basicFeature,
required TResult orElse(),
}) =>
throw _privateConstructorUsedError;
@optionalTypeArgs
TResult map<TResult extends Object?>({
required TResult Function(BuildingFloor value) buildingFloor,
required TResult Function(Portal value) portal,
required TResult Function(BasicFeature value) basicFeature,
}) =>
throw _privateConstructorUsedError;
@optionalTypeArgs
TResult? mapOrNull<TResult extends Object?>({
TResult? Function(BuildingFloor value)? buildingFloor,
TResult? Function(Portal value)? portal,
TResult? Function(BasicFeature value)? basicFeature,
}) =>
throw _privateConstructorUsedError;
@optionalTypeArgs
TResult maybeMap<TResult extends Object?>({
TResult Function(BuildingFloor value)? buildingFloor,
TResult Function(Portal value)? portal,
TResult Function(BasicFeature value)? basicFeature,
required TResult orElse(),
}) =>
throw _privateConstructorUsedError;
}
/// @nodoc
abstract class $GraphFeatureCopyWith<$Res> {
factory $GraphFeatureCopyWith(
GraphFeature value, $Res Function(GraphFeature) then) =
_$GraphFeatureCopyWithImpl<$Res, GraphFeature>;
}
/// @nodoc
class _$GraphFeatureCopyWithImpl<$Res, $Val extends GraphFeature>
implements $GraphFeatureCopyWith<$Res> {
_$GraphFeatureCopyWithImpl(this._value, this._then);
// ignore: unused_field
final $Val _value;
// ignore: unused_field
final $Res Function($Val) _then;
}
/// @nodoc
abstract class _$$BuildingFloorImplCopyWith<$Res> {
factory _$$BuildingFloorImplCopyWith(
_$BuildingFloorImpl value, $Res Function(_$BuildingFloorImpl) then) =
__$$BuildingFloorImplCopyWithImpl<$Res>;
@useResult
$Res call({int floor, Feature building});
$FeatureCopyWith<$Res> get building;
}
/// @nodoc
class __$$BuildingFloorImplCopyWithImpl<$Res>
extends _$GraphFeatureCopyWithImpl<$Res, _$BuildingFloorImpl>
implements _$$BuildingFloorImplCopyWith<$Res> {
__$$BuildingFloorImplCopyWithImpl(
_$BuildingFloorImpl _value, $Res Function(_$BuildingFloorImpl) _then)
: super(_value, _then);
@pragma('vm:prefer-inline')
@override
$Res call({
Object? floor = null,
Object? building = null,
}) {
return _then(_$BuildingFloorImpl(
null == floor
? _value.floor
: floor // ignore: cast_nullable_to_non_nullable
as int,
null == building
? _value.building
: building // ignore: cast_nullable_to_non_nullable
as Feature,
));
}
@override
@pragma('vm:prefer-inline')
$FeatureCopyWith<$Res> get building {
return $FeatureCopyWith<$Res>(_value.building, (value) {
return _then(_value.copyWith(building: value));
});
}
}
/// @nodoc
class _$BuildingFloorImpl extends BuildingFloor {
const _$BuildingFloorImpl(this.floor, this.building) : super._();
@override
final int floor;
@override
final Feature building;
@override
String toString() {
return 'GraphFeature.buildingFloor(floor: $floor, building: $building)';
}
@override
bool operator ==(Object other) {
return identical(this, other) ||
(other.runtimeType == runtimeType &&
other is _$BuildingFloorImpl &&
(identical(other.floor, floor) || other.floor == floor) &&
(identical(other.building, building) ||
other.building == building));
}
@override
int get hashCode => Object.hash(runtimeType, floor, building);
@JsonKey(ignore: true)
@override
@pragma('vm:prefer-inline')
_$$BuildingFloorImplCopyWith<_$BuildingFloorImpl> get copyWith =>
__$$BuildingFloorImplCopyWithImpl<_$BuildingFloorImpl>(this, _$identity);
@override
@optionalTypeArgs
TResult when<TResult extends Object?>({
required TResult Function(int floor, Feature building) buildingFloor,
required TResult Function(int fromFloor, String from, int toFloor,
String to, Feature baseFeature)
portal,
required TResult Function(int floor, String building, Feature feature)
basicFeature,
}) {
return buildingFloor(floor, building);
}
@override
@optionalTypeArgs
TResult? whenOrNull<TResult extends Object?>({
TResult? Function(int floor, Feature building)? buildingFloor,
TResult? Function(int fromFloor, String from, int toFloor, String to,
Feature baseFeature)?
portal,
TResult? Function(int floor, String building, Feature feature)?
basicFeature,
}) {
return buildingFloor?.call(floor, building);
}
@override
@optionalTypeArgs
TResult maybeWhen<TResult extends Object?>({
TResult Function(int floor, Feature building)? buildingFloor,
TResult Function(int fromFloor, String from, int toFloor, String to,
Feature baseFeature)?
portal,
TResult Function(int floor, String building, Feature feature)? basicFeature,
required TResult orElse(),
}) {
if (buildingFloor != null) {
return buildingFloor(floor, building);
}
return orElse();
}
@override
@optionalTypeArgs
TResult map<TResult extends Object?>({
required TResult Function(BuildingFloor value) buildingFloor,
required TResult Function(Portal value) portal,
required TResult Function(BasicFeature value) basicFeature,
}) {
return buildingFloor(this);
}
@override
@optionalTypeArgs
TResult? mapOrNull<TResult extends Object?>({
TResult? Function(BuildingFloor value)? buildingFloor,
TResult? Function(Portal value)? portal,
TResult? Function(BasicFeature value)? basicFeature,
}) {
return buildingFloor?.call(this);
}
@override
@optionalTypeArgs
TResult maybeMap<TResult extends Object?>({
TResult Function(BuildingFloor value)? buildingFloor,
TResult Function(Portal value)? portal,
TResult Function(BasicFeature value)? basicFeature,
required TResult orElse(),
}) {
if (buildingFloor != null) {
return buildingFloor(this);
}
return orElse();
}
}
abstract class BuildingFloor extends GraphFeature {
const factory BuildingFloor(final int floor, final Feature building) =
_$BuildingFloorImpl;
const BuildingFloor._() : super._();
int get floor;
Feature get building;
@JsonKey(ignore: true)
_$$BuildingFloorImplCopyWith<_$BuildingFloorImpl> get copyWith =>
throw _privateConstructorUsedError;
}
/// @nodoc
abstract class _$$PortalImplCopyWith<$Res> {
factory _$$PortalImplCopyWith(
_$PortalImpl value, $Res Function(_$PortalImpl) then) =
__$$PortalImplCopyWithImpl<$Res>;
@useResult
$Res call(
{int fromFloor,
String from,
int toFloor,
String to,
Feature baseFeature});
$FeatureCopyWith<$Res> get baseFeature;
}
/// @nodoc
class __$$PortalImplCopyWithImpl<$Res>
extends _$GraphFeatureCopyWithImpl<$Res, _$PortalImpl>
implements _$$PortalImplCopyWith<$Res> {
__$$PortalImplCopyWithImpl(
_$PortalImpl _value, $Res Function(_$PortalImpl) _then)
: super(_value, _then);
@pragma('vm:prefer-inline')
@override
$Res call({
Object? fromFloor = null,
Object? from = null,
Object? toFloor = null,
Object? to = null,
Object? baseFeature = null,
}) {
return _then(_$PortalImpl(
null == fromFloor
? _value.fromFloor
: fromFloor // ignore: cast_nullable_to_non_nullable
as int,
null == from
? _value.from
: from // ignore: cast_nullable_to_non_nullable
as String,
null == toFloor
? _value.toFloor
: toFloor // ignore: cast_nullable_to_non_nullable
as int,
null == to
? _value.to
: to // ignore: cast_nullable_to_non_nullable
as String,
null == baseFeature
? _value.baseFeature
: baseFeature // ignore: cast_nullable_to_non_nullable
as Feature,
));
}
@override
@pragma('vm:prefer-inline')
$FeatureCopyWith<$Res> get baseFeature {
return $FeatureCopyWith<$Res>(_value.baseFeature, (value) {
return _then(_value.copyWith(baseFeature: value));
});
}
}
/// @nodoc
class _$PortalImpl extends Portal {
const _$PortalImpl(
this.fromFloor, this.from, this.toFloor, this.to, this.baseFeature)
: super._();
@override
final int fromFloor;
@override
final String from;
@override
final int toFloor;
@override
final String to;
@override
final Feature baseFeature;
@override
String toString() {
return 'GraphFeature.portal(fromFloor: $fromFloor, from: $from, toFloor: $toFloor, to: $to, baseFeature: $baseFeature)';
}
@override
bool operator ==(Object other) {
return identical(this, other) ||
(other.runtimeType == runtimeType &&
other is _$PortalImpl &&
(identical(other.fromFloor, fromFloor) ||
other.fromFloor == fromFloor) &&
(identical(other.from, from) || other.from == from) &&
(identical(other.toFloor, toFloor) || other.toFloor == toFloor) &&
(identical(other.to, to) || other.to == to) &&
(identical(other.baseFeature, baseFeature) ||
other.baseFeature == baseFeature));
}
@override
int get hashCode =>
Object.hash(runtimeType, fromFloor, from, toFloor, to, baseFeature);
@JsonKey(ignore: true)
@override
@pragma('vm:prefer-inline')
_$$PortalImplCopyWith<_$PortalImpl> get copyWith =>
__$$PortalImplCopyWithImpl<_$PortalImpl>(this, _$identity);
@override
@optionalTypeArgs
TResult when<TResult extends Object?>({
required TResult Function(int floor, Feature building) buildingFloor,
required TResult Function(int fromFloor, String from, int toFloor,
String to, Feature baseFeature)
portal,
required TResult Function(int floor, String building, Feature feature)
basicFeature,
}) {
return portal(fromFloor, from, toFloor, to, baseFeature);
}
@override
@optionalTypeArgs
TResult? whenOrNull<TResult extends Object?>({
TResult? Function(int floor, Feature building)? buildingFloor,
TResult? Function(int fromFloor, String from, int toFloor, String to,
Feature baseFeature)?
portal,
TResult? Function(int floor, String building, Feature feature)?
basicFeature,
}) {
return portal?.call(fromFloor, from, toFloor, to, baseFeature);
}
@override
@optionalTypeArgs
TResult maybeWhen<TResult extends Object?>({
TResult Function(int floor, Feature building)? buildingFloor,
TResult Function(int fromFloor, String from, int toFloor, String to,
Feature baseFeature)?
portal,
TResult Function(int floor, String building, Feature feature)? basicFeature,
required TResult orElse(),
}) {
if (portal != null) {
return portal(fromFloor, from, toFloor, to, baseFeature);
}
return orElse();
}
@override
@optionalTypeArgs
TResult map<TResult extends Object?>({
required TResult Function(BuildingFloor value) buildingFloor,
required TResult Function(Portal value) portal,
required TResult Function(BasicFeature value) basicFeature,
}) {
return portal(this);
}
@override
@optionalTypeArgs
TResult? mapOrNull<TResult extends Object?>({
TResult? Function(BuildingFloor value)? buildingFloor,
TResult? Function(Portal value)? portal,
TResult? Function(BasicFeature value)? basicFeature,
}) {
return portal?.call(this);
}
@override
@optionalTypeArgs
TResult maybeMap<TResult extends Object?>({
TResult Function(BuildingFloor value)? buildingFloor,
TResult Function(Portal value)? portal,
TResult Function(BasicFeature value)? basicFeature,
required TResult orElse(),
}) {
if (portal != null) {
return portal(this);
}
return orElse();
}
}
abstract class Portal extends GraphFeature {
const factory Portal(
final int fromFloor,
final String from,
final int toFloor,
final String to,
final Feature baseFeature) = _$PortalImpl;
const Portal._() : super._();
int get fromFloor;
String get from;
int get toFloor;
String get to;
Feature get baseFeature;
@JsonKey(ignore: true)
_$$PortalImplCopyWith<_$PortalImpl> get copyWith =>
throw _privateConstructorUsedError;
}
/// @nodoc
abstract class _$$BasicFeatureImplCopyWith<$Res> {
factory _$$BasicFeatureImplCopyWith(
_$BasicFeatureImpl value, $Res Function(_$BasicFeatureImpl) then) =
__$$BasicFeatureImplCopyWithImpl<$Res>;
@useResult
$Res call({int floor, String building, Feature feature});
$FeatureCopyWith<$Res> get feature;
}
/// @nodoc
class __$$BasicFeatureImplCopyWithImpl<$Res>
extends _$GraphFeatureCopyWithImpl<$Res, _$BasicFeatureImpl>
implements _$$BasicFeatureImplCopyWith<$Res> {
__$$BasicFeatureImplCopyWithImpl(
_$BasicFeatureImpl _value, $Res Function(_$BasicFeatureImpl) _then)
: super(_value, _then);
@pragma('vm:prefer-inline')
@override
$Res call({
Object? floor = null,
Object? building = null,
Object? feature = null,
}) {
return _then(_$BasicFeatureImpl(
null == floor
? _value.floor
: floor // ignore: cast_nullable_to_non_nullable
as int,
null == building
? _value.building
: building // ignore: cast_nullable_to_non_nullable
as String,
null == feature
? _value.feature
: feature // ignore: cast_nullable_to_non_nullable
as Feature,
));
}
@override
@pragma('vm:prefer-inline')
$FeatureCopyWith<$Res> get feature {
return $FeatureCopyWith<$Res>(_value.feature, (value) {
return _then(_value.copyWith(feature: value));
});
}
}
/// @nodoc
class _$BasicFeatureImpl extends BasicFeature {
const _$BasicFeatureImpl(this.floor, this.building, this.feature) : super._();
@override
final int floor;
@override
final String building;
@override
final Feature feature;
@override
String toString() {
return 'GraphFeature.basicFeature(floor: $floor, building: $building, feature: $feature)';
}
@override
bool operator ==(Object other) {
return identical(this, other) ||
(other.runtimeType == runtimeType &&
other is _$BasicFeatureImpl &&
(identical(other.floor, floor) || other.floor == floor) &&
(identical(other.building, building) ||
other.building == building) &&
(identical(other.feature, feature) || other.feature == feature));
}
@override
int get hashCode => Object.hash(runtimeType, floor, building, feature);
@JsonKey(ignore: true)
@override
@pragma('vm:prefer-inline')
_$$BasicFeatureImplCopyWith<_$BasicFeatureImpl> get copyWith =>
__$$BasicFeatureImplCopyWithImpl<_$BasicFeatureImpl>(this, _$identity);
@override
@optionalTypeArgs
TResult when<TResult extends Object?>({
required TResult Function(int floor, Feature building) buildingFloor,
required TResult Function(int fromFloor, String from, int toFloor,
String to, Feature baseFeature)
portal,
required TResult Function(int floor, String building, Feature feature)
basicFeature,
}) {
return basicFeature(floor, building, feature);
}
@override
@optionalTypeArgs
TResult? whenOrNull<TResult extends Object?>({
TResult? Function(int floor, Feature building)? buildingFloor,
TResult? Function(int fromFloor, String from, int toFloor, String to,
Feature baseFeature)?
portal,
TResult? Function(int floor, String building, Feature feature)?
basicFeature,
}) {
return basicFeature?.call(floor, building, feature);
}
@override
@optionalTypeArgs
TResult maybeWhen<TResult extends Object?>({
TResult Function(int floor, Feature building)? buildingFloor,
TResult Function(int fromFloor, String from, int toFloor, String to,
Feature baseFeature)?
portal,
TResult Function(int floor, String building, Feature feature)? basicFeature,
required TResult orElse(),
}) {
if (basicFeature != null) {
return basicFeature(floor, building, feature);
}
return orElse();
}
@override
@optionalTypeArgs
TResult map<TResult extends Object?>({
required TResult Function(BuildingFloor value) buildingFloor,
required TResult Function(Portal value) portal,
required TResult Function(BasicFeature value) basicFeature,
}) {
return basicFeature(this);
}
@override
@optionalTypeArgs
TResult? mapOrNull<TResult extends Object?>({
TResult? Function(BuildingFloor value)? buildingFloor,
TResult? Function(Portal value)? portal,
TResult? Function(BasicFeature value)? basicFeature,
}) {
return basicFeature?.call(this);
}
@override
@optionalTypeArgs
TResult maybeMap<TResult extends Object?>({
TResult Function(BuildingFloor value)? buildingFloor,
TResult Function(Portal value)? portal,
TResult Function(BasicFeature value)? basicFeature,
required TResult orElse(),
}) {
if (basicFeature != null) {
return basicFeature(this);
}
return orElse();
}
}
abstract class BasicFeature extends GraphFeature {
const factory BasicFeature(
final int floor, final String building, final Feature feature) =
_$BasicFeatureImpl;
const BasicFeature._() : super._();
int get floor;
String get building;
Feature get feature;
@JsonKey(ignore: true)
_$$BasicFeatureImplCopyWith<_$BasicFeatureImpl> get copyWith =>
throw _privateConstructorUsedError;
}

21
lib/settings copy.dart
View File

@ -1,21 +0,0 @@
import 'package:flutter/material.dart';
import 'package:uninav/components/drawer.dart';
import 'package:uninav/components/hamburger_menu.dart';
class SettingsPage extends StatelessWidget {
const SettingsPage({super.key});
@override
Widget build(BuildContext context) {
return Scaffold(
appBar: AppBar(
title: const Text('Settings'),
leading: HamburgerMenu(),
),
drawer: MyDrawer(),
body: const Center(
child: Text('TODO'),
),
);
}
}

54
pubspec.lock
View File

@ -154,7 +154,7 @@ packages:
source: hosted
version: "4.10.0"
collection:
dependency: transitive
dependency: "direct main"
description:
name: collection
sha256: ee67cb0715911d28db6bf4af1026078bd6f0128b07a5f66fb2ed94ec6783c09a
@ -185,14 +185,6 @@ packages:
url: "https://pub.dev"
source: hosted
version: "1.0.8"
dart_earcut:
dependency: transitive
description:
name: dart_earcut
sha256: "41b493147e30a051efb2da1e3acb7f38fe0db60afba24ac1ea5684cee272721e"
url: "https://pub.dev"
source: hosted
version: "1.1.0"
dart_style:
dependency: transitive
description:
@ -209,6 +201,22 @@ packages:
url: "https://pub.dev"
source: hosted
version: "1.2.0"
directed_graph:
dependency: "direct main"
description:
name: directed_graph
sha256: fcb45029b4a5089d383b79056b6716d6bf5af79b8e7dbac4b61d26af46410548
url: "https://pub.dev"
source: hosted
version: "0.4.3"
exception_templates:
dependency: transitive
description:
name: exception_templates
sha256: "517f7c770da690073663f867ee2057ae2f4ffb28edae9da9faa624aa29ac76eb"
url: "https://pub.dev"
source: hosted
version: "0.3.1"
fake_async:
dependency: transitive
description:
@ -217,6 +225,14 @@ packages:
url: "https://pub.dev"
source: hosted
version: "1.3.1"
fast_immutable_collections:
dependency: "direct main"
description:
name: fast_immutable_collections
sha256: "38fbc50df5b219dcfb83ebbc3275ec09872530ca1153858fc56fceadb310d037"
url: "https://pub.dev"
source: hosted
version: "10.2.2"
ffi:
dependency: transitive
description:
@ -258,10 +274,10 @@ packages:
dependency: "direct main"
description:
name: flutter_map
sha256: bee8c5bacb49a68aabcf6009c050a8b3b07ac75403f29f741d8c00d4a725e086
sha256: cda8d72135b697f519287258b5294a57ce2f2a5ebf234f0e406aad4dc14c9399
url: "https://pub.dev"
source: hosted
version: "7.0.0-dev.1"
version: "6.1.0"
flutter_test:
dependency: "direct dev"
description: flutter
@ -424,6 +440,14 @@ packages:
url: "https://pub.dev"
source: hosted
version: "0.9.1"
lazy_memo:
dependency: transitive
description:
name: lazy_memo
sha256: dcb30b4184a6d767e1d779d74ce784d752d38313b8fb4bad6b659ae7af4bb34d
url: "https://pub.dev"
source: hosted
version: "0.2.3"
leak_tracker:
dependency: transitive
description:
@ -640,6 +664,14 @@ packages:
url: "https://pub.dev"
source: hosted
version: "1.2.3"
quote_buffer:
dependency: transitive
description:
name: quote_buffer
sha256: c4cd07e55ed1b1645a1cc74278a03b2a642c9f6ea3c0528d51827fdd320acf87
url: "https://pub.dev"
source: hosted
version: "0.2.6"
rust_core:
dependency: "direct main"
description:

6
pubspec.yaml
View File

@ -39,7 +39,8 @@ dependencies:
yaml: ^3.1.2
surrealdb: ^0.8.0
# geojson: ^1.0.0
flutter_map: 7.0.0-dev.1
# flutter_map: 7.0.0-dev.1
flutter_map: ^6.0.0
# flutter_map: ^4.0.0
latlong2: ^0.9.0
# latlong2: ^0.8.0
@ -53,6 +54,9 @@ dependencies:
isar: ^3.1.0+1
isar_flutter_libs: ^3.1.0+1
path_provider: ^2.1.3
directed_graph: ^0.4.3
fast_immutable_collections: ^10.2.2
collection: ^1.18.0
dev_dependencies:
flutter_test:

176
test/graph_tests.dart Normal file
View File

@ -0,0 +1,176 @@
import 'dart:async';
import 'package:flutter/material.dart';
import 'package:flutter/services.dart';
import 'package:flutter_test/flutter_test.dart';
import 'package:get/get.dart';
import 'package:uninav/controllers/map_controller.dart';
import 'package:uninav/data/geo/model.dart';
import 'package:uninav/nav/graph.dart';
import 'package:uninav/util/util.dart';
String formatGraphFeature(GraphFeature feature) {
return feature.when(
buildingFloor: (floor, building) => "(bfl ${building.name}:$floor)",
portal: (fromFloor, from, toFloor, to, baseFeat) {
return "(p ${formatFeatureTitle(baseFeat)} $from:$fromFloor -> $to:$toFloor)";
},
basicFeature: (lv, building, bf) =>
"(bf ${formatFeatureTitle(bf)} $building:$lv)",
);
}
void main() {
TestWidgetsFlutterBinding.ensureInitialized();
group('findAdjacent', () {
late MyMapController mapController;
late List<Feature> allFeatures;
setUp(() async {
// Initialize the MyMapController and load the GeoJSON data
mapController = MyMapController();
await mapController.loadGeoJson(
await rootBundle.loadString('assets/geo/uulm_beta.geojson'));
allFeatures = mapController.features;
});
test('generates a graph', () {
// Find a building feature
// final buildingFeature = allFeatures.firstWhere((f) => f.type is Building);
final buildingFeature = allFeatures
.firstWhere((f) => f.type is Building && eq(f.name, 'o28'));
final graph = createGraph(
wrap(buildingFeature, 2, buildingFeature.name).first, allFeatures);
// print(graph);
});
test('generates a graph map', () {
// Find a building feature
// final buildingFeature = allFeatures.firstWhere((f) => f.type is Building);
final buildingFeature = allFeatures
.firstWhere((f) => f.type is Building && eq(f.name, 'o28'));
final graph = createGraphMap(
wrap(buildingFeature, 2, buildingFeature.name).first, allFeatures);
print(graph.entries
.map((entry) => "${formatGraphFeature(entry.key)}: "
"{${entry.value.entries.map((e) => "${formatGraphFeature(entry.key)}: ${entry.value.map((key, value) => MapEntry(formatGraphFeature(key), value))}").join(', ')}")
.join('\n'));
});
test('generates a graph list', () {
// Find a building feature
// final buildingFeature = allFeatures.firstWhere((f) => f.type is Building);
final buildingFeature = allFeatures
.firstWhere((f) => f.type is Building && eq(f.name, 'o28'));
final graph = createGraphList(
wrap(buildingFeature, 2, buildingFeature.name).first, allFeatures);
var text = graph.map(formatGraphFeature).join(' ');
print(text);
});
test('finds adjacent features for a building', () {
// Find a building feature
// final buildingFeature = allFeatures.firstWhere((f) => f.type is Building);
final buildingFeature = allFeatures
.firstWhere((f) => f.type is Building && eq(f.name, 'o28'));
// Find adjacent features for the building
final adjacentFeatures = findAdjacent(
wrap(buildingFeature, 2, buildingFeature.name).first, allFeatures);
final doorPortal = adjacentFeatures
.firstWhere((f) => f is Portal && f.baseFeature.type is Door);
print(
"adjacent for building ${buildingFeature.name}: \n${adjacentFeatures.map((e) => "${e.toString()}\n")}");
print(adjacentFeatures.map(unwrap).map(formatFeatureTitle));
final doorAdjacentFeatures = findAdjacent(doorPortal, allFeatures);
print("\n\ndoor $doorPortal : ");
print(doorAdjacentFeatures.map((e) => "${e.toString()}\n"));
print(doorAdjacentFeatures.map(unwrap).map(formatFeatureTitle));
final stairsPortal = adjacentFeatures
.firstWhere((f) => f is Portal && f.baseFeature.type is Stairs);
final stairsAdjacentFeatures = findAdjacent(stairsPortal, allFeatures);
print("\n\nstairs $stairsPortal : ");
print(stairsAdjacentFeatures.map((e) => "${e.toString()}\n"));
print(stairsAdjacentFeatures.map(unwrap).map(formatFeatureTitle));
final baseFeature = adjacentFeatures.firstWhere((f) => f is BasicFeature);
final baseAdjacentFeatures = findAdjacent(baseFeature, allFeatures);
print("\n\nbase $baseFeature : ");
print(baseAdjacentFeatures.map((e) => "${e.toString()}\n"));
print(baseAdjacentFeatures.map(unwrap).map(formatFeatureTitle));
// Check if all adjacent features are in the same building
expect(
true, // TODO
true);
});
test('tries to find a path through the graph using own method', () async {
// Find a building feature
// final buildingFeature = allFeatures.firstWhere((f) => f.type is Building);
final startFeature = allFeatures
.firstWhere((f) => f.type is Building && eq(f.name, 'o28'));
// final endFeature = allFeatures
// .firstWhere((f) => f.type is Building && eq(f.name, 'o25'));
final endFeature = allFeatures
.firstWhere((f) => f.type is LectureHall && eq(f.name, 'H1'));
print(endFeature);
final path = findShortestPath(
wrap(startFeature, 2, startFeature.name).first,
// wrap(endFeature, 2, endFeature.name).first,
wrap(endFeature, endFeature.level!, endFeature.building!).first,
allFeatures,
);
print(path
.unwrap()
.map((e) => "${formatGraphFeature(e.$1)} (${e.$2}m)")
.join(' -> '));
});
/*
test('tries to find a path through the graph', () async {
// Find a building feature
// final buildingFeature = allFeatures.firstWhere((f) => f.type is Building);
final startFeature = allFeatures
.firstWhere((f) => f.type is Building && eq(f.name, 'o28'));
final endFeature = allFeatures
.firstWhere((f) => f.type is Building && eq(f.name, 'o25'));
// final endFeature = allFeatures
// .firstWhere((f) => f.type is LectureHall && eq(f.name, 'H1'));
final graph = createGraph(
wrap(startFeature, 2, startFeature.name).first, allFeatures);
final path = await Future.any([
Future.delayed(const Duration(seconds: 5),
() => throw TimeoutException('Test timed out after 5 seconds')),
Future(() => graph.shortestPath(
wrap(startFeature, 1, startFeature.name).first,
wrap(endFeature, 2, endFeature.name).first,
//wrap(endFeature, endFeature.level!, endFeature.building!).first,
)),
]);
print(path.map(formatGraphFeature).join('\n'));
});
*/
});
}