handler | 用于处理过滤器的回调函数。接收类型为 TData 的对象、过滤器标识符、运算符和过滤器值,并返回一个布尔值,指示过滤器是否通过。 |
为未注册的过滤器设置默认过滤器处理程序。
using System.Collections.Generic; using System.Linq; using UnityEditor; using UnityEditor.Search; using UnityEngine; static class Example_QueryEngine_SetDefaultFilter { static List<MyObjectType> s_Data; [MenuItem("Examples/QueryEngine/SetDefaultFilter")] public static void RunExample() { // Set up the query engine var queryEngine = new QueryEngine<MyObjectType>(); queryEngine.SetSearchDataCallback(myObj => new[] { myObj.id.ToString(), myObj.name }); // Add a filter for MyObjectType.id that supports all operators queryEngine.AddFilter("id", myObj => myObj.id); // For all other filters, you can register a "default" filter handler that will be called when // an unknown filter token is encountered. It can also be useful for dynamic properties. queryEngine.SetDefaultFilter((myObj, filterId, operatorToken, filterValue) => { if (myObj.property.name != filterId) return false; if (myObj.property.type == PropertyType.String) { if (!(myObj.property.value is string s)) return false; switch (operatorToken) { case ":": return s.Contains(filterValue); case "=": return s == filterValue; default: return false; } } if (myObj.property.type == PropertyType.Integer) { if (!(myObj.property.value is int i)) return false; if (!int.TryParse(filterValue, out var filterValueInt)) return false; switch (operatorToken) { case "=": return i == filterValueInt; case "!=": return i != filterValueInt; case "<": return i < filterValueInt; case ">": return i > filterValueInt; case "<=": return i <= filterValueInt; case ">=": return i >= filterValueInt; default: return false; } } return false; }); s_Data = new List<MyObjectType>() { new MyObjectType { id = 0, property = new Property("size", PropertyType.Integer, 64) }, new MyObjectType { id = 1, property = new Property("size", PropertyType.Integer, 128) }, new MyObjectType { id = 2, property = new Property("tag", PropertyType.String, "item") }, new MyObjectType { id = 3, property = new Property("tag", PropertyType.String, "car item") } }; // Find all items that have the property "size" that is equal to 64 var query = queryEngine.ParseQuery("size=64"); var filteredData = query.Apply(s_Data).ToList(); Debug.Assert(filteredData.Count == 1, $"There should be 1 item in the filtered list but found {filteredData.Count} items."); Debug.Assert(filteredData.Contains(s_Data[0]), "The first item should be in the filtered list since its property \"size\" has a value of 64."); // Find all items that have the property "tag" that contains "item" query = queryEngine.ParseQuery("tag:item"); filteredData = query.Apply(s_Data).ToList(); Debug.Assert(filteredData.Count == 2, $"There should be 2 item in the filtered list but found {filteredData.Count} items."); Debug.Assert(filteredData.Contains(s_Data[2]), "The third item should be in the list as its property \"tag\" contains \"item\"."); Debug.Assert(filteredData.Contains(s_Data[3]), "The fourth item should be in the list as its property \"tag\" contains \"item\"."); } enum PropertyType { Integer, String } struct Property { public string name { get; } public PropertyType type { get; } public object value { get; set; } public Property(string name, PropertyType type, object value) { this.name = name; this.type = type; this.value = value; } } class MyObjectType { public int id { get; set; } public string name { get; set; } = string.Empty; public Vector2 position { get; set; } = Vector2.zero; public bool active { get; set; } public Property property { get; set; } public override string ToString() { return $"({id}, {name}, ({position.x}, {position.y}), {active})"; } } }