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Decompiled source of InverseGift Fork v1.1.5
InverseGift.dll
Decompiled 5 hours agousing System; using System.Collections; using System.Collections.Generic; using System.Diagnostics; using System.IO; using System.Linq; using System.Reflection; using System.Runtime.CompilerServices; using System.Runtime.InteropServices; using System.Runtime.Versioning; using System.Text.RegularExpressions; using BepInEx; using BepInEx.Logging; using GameNetcodeStuff; using HarmonyLib; using Microsoft.CodeAnalysis; using Unity.Netcode; using UnityEngine; using UnityEngine.AI; using YamlDotNet.Serialization; [assembly: CompilationRelaxations(8)] [assembly: RuntimeCompatibility(WrapNonExceptionThrows = true)] [assembly: Debuggable(DebuggableAttribute.DebuggingModes.Default | DebuggableAttribute.DebuggingModes.DisableOptimizations | DebuggableAttribute.DebuggingModes.IgnoreSymbolStoreSequencePoints | DebuggableAttribute.DebuggingModes.EnableEditAndContinue)] [assembly: AssemblyTitle("InverseGift")] [assembly: AssemblyDescription("")] [assembly: AssemblyConfiguration("")] [assembly: AssemblyCompany("")] [assembly: AssemblyProduct("InverseGift")] [assembly: AssemblyCopyright("Copyright © 2025")] [assembly: AssemblyTrademark("")] [assembly: ComVisible(false)] [assembly: Guid("2acb810c-a0ab-455f-a9bd-1658317c49aa")] [assembly: AssemblyFileVersion("1.0.0.0")] [assembly: TargetFramework(".NETFramework,Version=v4.7.2", FrameworkDisplayName = ".NET Framework 4.7.2")] [assembly: AssemblyVersion("1.0.0.0")] [module: RefSafetyRules(11)] namespace Microsoft.CodeAnalysis { [CompilerGenerated] [Microsoft.CodeAnalysis.Embedded] internal sealed class EmbeddedAttribute : Attribute { } } namespace System.Runtime.CompilerServices { [CompilerGenerated] [Microsoft.CodeAnalysis.Embedded] [AttributeUsage(AttributeTargets.Module, AllowMultiple = false, Inherited = false)] internal sealed class RefSafetyRulesAttribute : Attribute { public readonly int Version; public RefSafetyRulesAttribute(int P_0) { Version = P_0; } } } namespace InverseGift { [BepInPlugin("InverseGift", "chuxia.InverseGift", "1.1.4")] public class InverseGiftPlugin : BaseUnityPlugin { public const string PLUGIN_GUID = "chuxia.InverseGift"; public static readonly string config = Utility.CombinePaths(new string[2] { Paths.ConfigPath, "chuxia.InverseGift.yml" }); public const string PLUGIN_NAME = "InverseGift"; public const string PLUGIN_VERSION = "1.1.4"; public static ManualLogSource ManualLog = null; public static readonly Harmony _harmony = new Harmony("chuxia.InverseGift"); public static InverseGiftConfig InverseConfig { get; set; } = new InverseGiftConfig(); public void Awake() { ManualLog = ((BaseUnityPlugin)this).Logger; LoadConfig(); _harmony.PatchAll(typeof(Patches)); } public static void LoadConfig() { if (!File.Exists(config)) { InverseConfig = new InverseGiftConfig { Gift = new List<GiftConfig> { new GiftConfig { Message = "<color=yellow>{player}:女士们先生们!一起来看</color><color=red>流星雨</color>!", Rarity = 2, Items = new List<ItemConfig> { new ItemConfig { Name = "Meteor" } } }, new GiftConfig { Rarity = 5, Items = new List<ItemConfig> { new ItemConfig { Name = "GoldBar", Value = "1000-9999" } }, Message = "<color=yellow>{player}:找到了价值连城的传世宝藏!(<color=green>{values} 元</color>)</color>" }, new GiftConfig { Rarity = 1, Items = new List<ItemConfig> { new ItemConfig { Name = "Candy", Value = "999" } } }, new GiftConfig { Rarity = 10, Items = new List<ItemConfig> { new ItemConfig { Name = "Key" } } }, new GiftConfig { Rarity = 5, Items = new List<ItemConfig> { new ItemConfig { Name = "Turret" } } }, new GiftConfig { Rarity = 5, Items = new List<ItemConfig> { new ItemConfig { Name = "Landmine" } } }, new GiftConfig { Rarity = 10, Items = new List<ItemConfig> { new ItemConfig { Name = "Nutcracker" } } }, new GiftConfig { Rarity = 10, Items = new List<ItemConfig> { new ItemConfig { Name = "HoarderBug" } } }, new GiftConfig { Rarity = 30 } }, Items = new List<ItemConfig> { new ItemConfig { Name = "GiftBox", Count = "1" }, new ItemConfig { Name = "Shovel", Count = "1" }, new ItemConfig { Name = "ProFlashlight", Count = "1" } } }; File.WriteAllText(config, SerializeHelper.YamlSerialize(InverseConfig)); ManualLog.LogInfo((object)"Init InverseConfig"); return; } try { InverseConfig = SerializeHelper.YamlDeserialize<InverseGiftConfig>(File.ReadAllText(config)); ManualLog.LogInfo((object)$"Load InverseConfig Success(Items:{InverseConfig.Items.Count})"); } catch (Exception ex) { ManualLog.LogError((object)("Load Config Fail -> " + ex.ToString())); InverseConfig = new InverseGiftConfig(); } } public static void LogInfo(object data) { ManualLog.LogInfo((object)$"{data}"); } } public static class Patches { [CompilerGenerated] private sealed class <CheckForChanges>d__18 : IEnumerator<object>, IDisposable, IEnumerator { private int <>1__state; private object <>2__current; private Exception <ex>5__1; object IEnumerator<object>.Current { [DebuggerHidden] get { return <>2__current; } } object IEnumerator.Current { [DebuggerHidden] get { return <>2__current; } } [DebuggerHidden] public <CheckForChanges>d__18(int <>1__state) { this.<>1__state = <>1__state; } [DebuggerHidden] void IDisposable.Dispose() { <ex>5__1 = null; <>1__state = -2; } private bool MoveNext() { //IL_0055: Unknown result type (might be due to invalid IL or missing references) //IL_005f: Expected O, but got Unknown switch (<>1__state) { default: return false; case 0: <>1__state = -1; break; case 1: <>1__state = -1; break; } try { doCheckForChanges(); } catch (Exception ex) { <ex>5__1 = ex; InverseGiftPlugin.LogInfo($"Exception in coroutine: {<ex>5__1}"); } <>2__current = (object)new WaitForSeconds(5f); <>1__state = 1; return true; } bool IEnumerator.MoveNext() { //ILSpy generated this explicit interface implementation from .override directive in MoveNext return this.MoveNext(); } [DebuggerHidden] void IEnumerator.Reset() { throw new NotSupportedException(); } } [CompilerGenerated] private sealed class <MaskEvent>d__24 : IEnumerator<object>, IDisposable, IEnumerator { private int <>1__state; private object <>2__current; public string value; public int count; private List<PlayerControllerB> <activePlayers>5__1; private PlayerControllerB[] <playerControllerBArray>5__2; private GameObject[] <spawnPoints>5__3; private int <index>5__4; private PlayerControllerB <item>5__5; private int <j>5__6; private Vector3 <spawnPosition>5__7; object IEnumerator<object>.Current { [DebuggerHidden] get { return <>2__current; } } object IEnumerator.Current { [DebuggerHidden] get { return <>2__current; } } [DebuggerHidden] public <MaskEvent>d__24(int <>1__state) { this.<>1__state = <>1__state; } [DebuggerHidden] void IDisposable.Dispose() { <activePlayers>5__1 = null; <playerControllerBArray>5__2 = null; <spawnPoints>5__3 = null; <item>5__5 = null; <>1__state = -2; } private bool MoveNext() { //IL_0034: Unknown result type (might be due to invalid IL or missing references) //IL_003e: Expected O, but got Unknown //IL_012c: Unknown result type (might be due to invalid IL or missing references) //IL_0131: Unknown result type (might be due to invalid IL or missing references) //IL_0146: Unknown result type (might be due to invalid IL or missing references) //IL_014c: Unknown result type (might be due to invalid IL or missing references) //IL_0152: Unknown result type (might be due to invalid IL or missing references) //IL_0169: Unknown result type (might be due to invalid IL or missing references) //IL_0173: Expected O, but got Unknown switch (<>1__state) { default: return false; case 0: <>1__state = -1; <>2__current = (object)new WaitForSeconds(0.5f); <>1__state = 1; return true; case 1: <>1__state = -1; <activePlayers>5__1 = new List<PlayerControllerB>(); <playerControllerBArray>5__2 = StartOfRound.Instance.allPlayerScripts; <index>5__4 = 0; while (<index>5__4 < <playerControllerBArray>5__2.Length) { <item>5__5 = <playerControllerBArray>5__2[<index>5__4]; if (<item>5__5.isPlayerControlled && !<item>5__5.isPlayerDead) { <activePlayers>5__1.Add(<item>5__5); } <item>5__5 = null; <item>5__5 = null; int num = <index>5__4 + 1; <index>5__4 = num; } <playerControllerBArray>5__2 = null; <spawnPoints>5__3 = GameObject.FindGameObjectsWithTag("OutsideAINode"); <j>5__6 = 0; break; case 2: { <>1__state = -1; int num = <j>5__6 + 1; <j>5__6 = num; break; } } if (<j>5__6 < <activePlayers>5__1.Count * 10) { <spawnPosition>5__7 = <spawnPoints>5__3[Random.Range(0, <spawnPoints>5__3.Length)].transform.position; SpawnObject(GameObjects["maskedplayerenemy"], <spawnPosition>5__7, <spawnPosition>5__7, <spawnPosition>5__7, ref value); <>2__current = (object)new WaitForSeconds(0.1f); <>1__state = 2; return true; } return false; } bool IEnumerator.MoveNext() { //ILSpy generated this explicit interface implementation from .override directive in MoveNext return this.MoveNext(); } [DebuggerHidden] void IEnumerator.Reset() { throw new NotSupportedException(); } } private static DateTime _lastModifiedTime; private static FileInfo _fileInfo; private static Coroutine checkForChangesCoroutine; private static Dictionary<string, string> enemyTran = new Dictionary<string, string> { { "dressgirl", "小女孩" }, { "lassoman", "lassoman" }, { "sandspider", "蜘蛛" }, { "centipede", "抱脸虫" }, { "blob", "史莱姆" }, { "flowerman", "小黑" }, { "springman", "弹簧头" }, { "crawler", "半身鱼" }, { "hoarderbug", "囤积虫" }, { "jester", "八音盒" }, { "puffer", "孢子蜥蜴" }, { "nutcracker", "胡桃夹子" }, { "maskedplayerenemy", "假人" }, { "butler", "管家" }, { "claysurgeon", "理发师" }, { "cavedweller", "食人魔" }, { "forestgiant", "森林巨人" }, { "mouthdog", "寻声猎犬" }, { "sandworm", "地球利维坦" }, { "radmech", "机械鸟" }, { "baboonhawk", "狒狒鹰" }, { "doublewing", "四翼鸟" }, { "docilelocustbees", "漫游蝗虫" }, { "flowersnake", "花蛇" }, { "giantkiwi", "巨型啄木鸟" }, { "redlocustbees", "电击蜜蜂" } }; private static Dictionary<string, GameObject> GameObjects { get; set; } private static Dictionary<string, string[]> RandomMap { get; set; } private static List<int> GiftInstanceIds { get; set; } = new List<int>(); [HarmonyPostfix] [HarmonyPatch(typeof(PlayerControllerB), "ConnectClientToPlayerObject")] [HarmonyWrapSafe] public static void ConnectClientToPlayerObjectPostfix(PlayerControllerB __instance) { if (((NetworkBehaviour)StartOfRound.Instance).IsHost && checkForChangesCoroutine == null) { _fileInfo = new FileInfo(InverseGiftPlugin.config); _lastModifiedTime = _fileInfo.LastWriteTime; checkForChangesCoroutine = ((MonoBehaviour)__instance).StartCoroutine(CheckForChanges()); } } [HarmonyPrefix] [HarmonyPatch(typeof(GameNetworkManager), "Disconnect")] [HarmonyWrapSafe] public static void OnDestroy(PlayerControllerB __instance) { if (checkForChangesCoroutine != null) { ((MonoBehaviour)__instance).StopCoroutine(checkForChangesCoroutine); checkForChangesCoroutine = null; } } [IteratorStateMachine(typeof(<CheckForChanges>d__18))] private static IEnumerator CheckForChanges() { //yield-return decompiler failed: Unexpected instruction in Iterator.Dispose() return new <CheckForChanges>d__18(0); } private static void doCheckForChanges() { _fileInfo.Refresh(); if (_fileInfo.LastWriteTime > _lastModifiedTime) { _lastModifiedTime = _fileInfo.LastWriteTime; InverseGiftPlugin.LogInfo("Config file changed, reloading..."); InverseGiftPlugin.LoadConfig(); } } [HarmonyPatch(typeof(ShipTeleporter), "TeleportPlayerOutWithInverseTeleporter")] [HarmonyPostfix] [HarmonyWrapSafe] public static void Postfix(Vector3 teleportPos) { //IL_065b: Unknown result type (might be due to invalid IL or missing references) //IL_065c: Unknown result type (might be due to invalid IL or missing references) //IL_065d: Unknown result type (might be due to invalid IL or missing references) if (!((NetworkBehaviour)StartOfRound.Instance).IsHost) { return; } if (GameObjects == null) { RandomMap = new Dictionary<string, string[]>(); GameObjects = new Dictionary<string, GameObject>(); List<string> list = new List<string>(); List<string> list2 = new List<string>(); foreach (Item items in StartOfRound.Instance.allItemsList.itemsList) { if ((Object)(object)items.spawnPrefab != (Object)null && !GameObjects.ContainsKey(((Object)items).name.ToLower())) { if (items.isScrap) { list.Add(((Object)items).name.ToLower()); } else { list2.Add(((Object)items).name.ToLower()); } GameObjects.Add(((Object)items).name.ToLower(), items.spawnPrefab); } } RandomMap.Add("randomscrap", list.ToArray()); RandomMap.Add("randomtool", list2.ToArray()); List<string> list3 = new List<string>(); List<string> list4 = new List<string>(); SelectableLevel[] levels = StartOfRound.Instance.levels; foreach (SelectableLevel val in levels) { foreach (SpawnableEnemyWithRarity enemy in val.Enemies) { if ((Object)(object)enemy.enemyType != (Object)null && (Object)(object)enemy.enemyType.enemyPrefab != (Object)null && !GameObjects.ContainsKey(((Object)enemy.enemyType).name.ToLower()) && !((Object)enemy.enemyType).name.Equals("lassoman", StringComparison.OrdinalIgnoreCase)) { list3.Add(((Object)enemy.enemyType).name.ToLower()); GameObjects.Add(((Object)enemy.enemyType).name.ToLower(), enemy.enemyType.enemyPrefab); } } SpawnableMapObject[] spawnableMapObjects = val.spawnableMapObjects; foreach (SpawnableMapObject val2 in spawnableMapObjects) { if ((Object)(object)val2.prefabToSpawn != (Object)null && !GameObjects.ContainsKey(((Object)val2.prefabToSpawn).name.ToLower())) { list4.Add(((Object)val2.prefabToSpawn).name.ToLower()); GameObjects.Add(((Object)val2.prefabToSpawn).name.ToLower(), val2.prefabToSpawn); } } } RandomMap.Add("randomenemy", list3.ToArray()); RandomMap.Add("randomobject", list4.ToArray()); File.WriteAllText(Utility.CombinePaths(new string[2] { Paths.ConfigPath, "chuxia.InverseGiftItems.txt" }), string.Join(Environment.NewLine, GameObjects.Select(delegate(KeyValuePair<string, GameObject> x) { string key = x.Key; GameObject value2 = x.Value; return key + ":" + ((value2 != null) ? ((Object)value2).name : null); }))); } foreach (ItemConfig item in InverseGiftPlugin.InverseConfig.Items) { string text = item.Name.ToLower().ToString(); switch (text) { case "randomscrap": { int num4 = Random.Range(0, RandomMap["randomscrap"].Length); text = RandomMap["randomscrap"][num4]; InverseGiftPlugin.LogInfo($"RandomScrap -> {text}({num4})"); break; } case "randomtool": { int num3 = Random.Range(0, RandomMap["randomtool"].Length); text = RandomMap["randomtool"][num3]; InverseGiftPlugin.LogInfo($"RandomTool -> {text}({num3})"); break; } case "randomenemy": { int num2 = Random.Range(0, RandomMap["randomenemy"].Length); text = RandomMap["randomenemy"][num2]; InverseGiftPlugin.LogInfo($"RandomEnemy -> {text}({num2})"); break; } case "randomobject": { int num = Random.Range(0, RandomMap["randomobject"].Length); text = RandomMap["randomobject"][num]; InverseGiftPlugin.LogInfo($"RandomObject -> {text}({num})"); break; } } if (GameObjects != null && GameObjects.TryGetValue(text.ToLower(), out var value)) { string text2 = (string.IsNullOrWhiteSpace(item.Count) ? "1" : item.Count.Trim()); int num5; if (int.TryParse(text2, out var result)) { num5 = result; } else if (text2.Contains("-")) { string[] array = text2.Split(new char[1] { '-' }); if (array.Length == 2 && int.TryParse(array[0], out var result2) && int.TryParse(array[1], out var result3) && result2 <= result3) { num5 = Random.Range(result2, result3 + 1); } else { num5 = 1; InverseGiftPlugin.ManualLog.LogInfo((object)("Count Parse Error -> Item: " + item.Name + " | Count: " + text2)); } } else { num5 = 1; InverseGiftPlugin.ManualLog.LogInfo((object)("Count Parse Error -> Item: " + item.Name + " | Count: " + text2)); } for (int k = 0; k < num5; k++) { string Value = "0"; SpawnObject(value, teleportPos, teleportPos, teleportPos, ref Value); } } else { InverseGiftPlugin.ManualLog.LogInfo((object)("InverseConfig Error -> Items: " + item.Name + " ConvertGameObjectFail.")); } } } private static bool GoHomeAllMethod() { int targetTransformIndex = StartOfRound.Instance.mapScreen.targetTransformIndex; bool flag = false; ShipTeleporter val = (from x in Object.FindObjectsOfType<ShipTeleporter>() where !x.isInverseTeleporter select x).FirstOrDefault(); if ((Object)(object)val == (Object)null) { return false; } for (int i = 0; i < StartOfRound.Instance.mapScreen.radarTargets.Count; i++) { TransformAndName val2 = StartOfRound.Instance.mapScreen.radarTargets[i]; if (!val2.isNonPlayer) { PlayerControllerB component = ((Component)val2.transform).gameObject.GetComponent<PlayerControllerB>(); if ((Object)(object)component != (Object)null && component.isPlayerControlled) { InverseGiftPlugin.LogInfo("GoHomeAll -> " + component.playerUsername); StartOfRound.Instance.mapScreen.SwitchRadarTargetAndSync(i); StartOfRound.Instance.mapScreen.SwitchRadarTargetClientRpc(i); val.PressTeleportButtonClientRpc(); flag = true; } } } if (!flag) { return false; } StartOfRound.Instance.mapScreen.SwitchRadarTargetClientRpc(targetTransformIndex); return true; } private static bool GoHomeMethod(PlayerControllerB player) { int targetTransformIndex = StartOfRound.Instance.mapScreen.targetTransformIndex; bool flag = false; for (int i = 0; i < StartOfRound.Instance.mapScreen.radarTargets.Count; i++) { TransformAndName val = StartOfRound.Instance.mapScreen.radarTargets[i]; if (!val.isNonPlayer) { PlayerControllerB component = ((Component)val.transform).gameObject.GetComponent<PlayerControllerB>(); if ((Object)(object)component != (Object)null && component.isPlayerControlled && component.actualClientId == player.actualClientId) { InverseGiftPlugin.LogInfo("GoHome -> " + component.playerUsername); StartOfRound.Instance.mapScreen.SwitchRadarTargetAndSync(i); StartOfRound.Instance.mapScreen.SwitchRadarTargetClientRpc(i); flag = true; } } } if (!flag) { return false; } ShipTeleporter val2 = (from x in Object.FindObjectsOfType<ShipTeleporter>() where !x.isInverseTeleporter select x).FirstOrDefault(); if ((Object)(object)val2 == (Object)null) { return false; } val2.PressTeleportButtonClientRpc(); StartOfRound.Instance.mapScreen.SwitchRadarTargetAndSync(targetTransformIndex); StartOfRound.Instance.mapScreen.SwitchRadarTargetClientRpc(targetTransformIndex); return true; } [HarmonyPatch(typeof(GiftBoxItem), "OpenGiftBoxServerRpc")] [HarmonyPrefix] [HarmonyWrapSafe] public static bool OpenGiftBoxServerRpc(GiftBoxItem __instance) { //IL_009a: Unknown result type (might be due to invalid IL or missing references) //IL_00a0: Expected O, but got Unknown //IL_0476: Unknown result type (might be due to invalid IL or missing references) //IL_047d: Unknown result type (might be due to invalid IL or missing references) //IL_0482: Unknown result type (might be due to invalid IL or missing references) //IL_048a: Unknown result type (might be due to invalid IL or missing references) //IL_048f: Unknown result type (might be due to invalid IL or missing references) //IL_0491: Unknown result type (might be due to invalid IL or missing references) //IL_04b4: Unknown result type (might be due to invalid IL or missing references) //IL_04a7: Unknown result type (might be due to invalid IL or missing references) //IL_04d7: Unknown result type (might be due to invalid IL or missing references) //IL_04ca: Unknown result type (might be due to invalid IL or missing references) //IL_04dc: Unknown result type (might be due to invalid IL or missing references) //IL_04e0: Unknown result type (might be due to invalid IL or missing references) //IL_04e8: Unknown result type (might be due to invalid IL or missing references) //IL_04f3: Unknown result type (might be due to invalid IL or missing references) if (!((NetworkBehaviour)StartOfRound.Instance).IsHost || GiftInstanceIds.Contains(((Object)__instance).GetInstanceID())) { return true; } if (GiftInstanceIds.Count > 20) { GiftInstanceIds.Clear(); } GiftInstanceIds.Add(((Object)__instance).GetInstanceID()); AccessTools.DeclaredField(typeof(GiftBoxItem), "objectInPresent").SetValue(__instance, null); PlayerControllerB val = (PlayerControllerB)AccessTools.DeclaredField(typeof(GiftBoxItem), "previousPlayerHeldBy").GetValue(__instance); if (!val.isInsideFactory) { return true; } GiftConfig randomGiftNormalized = GetRandomGiftNormalized(InverseGiftPlugin.InverseConfig); InverseGiftPlugin.LogInfo($"{val?.playerUsername}|OpenGift|{randomGiftNormalized.Rarity}"); List<string> list = new List<string>(); Dictionary<string, string> valueMap = new Dictionary<string, string>(StringComparer.OrdinalIgnoreCase); Dictionary<string, int> countMap = new Dictionary<string, int>(StringComparer.OrdinalIgnoreCase); List<string> list2 = new List<string>(); List<int> list3 = new List<int>(); if (randomGiftNormalized.Items == null || randomGiftNormalized.Items.Count == 0) { randomGiftNormalized.Items = new List<ItemConfig>(); } NavMeshHit val3 = default(NavMeshHit); foreach (ItemConfig item in randomGiftNormalized.Items) { string text = item.Name?.ToLower(); string Value = item.Value; string text2 = (string.IsNullOrEmpty(item.Count) ? "1" : item.Count); int num2; if (int.TryParse(text2, out var result)) { num2 = result; } else if (text2.Contains("-")) { string[] array = text2.Split(new char[1] { '-' }); if (array.Length == 2 && int.TryParse(array[0], out var result2) && int.TryParse(array[1], out var result3) && result2 <= result3) { num2 = Random.Range(result2, result3 + 1); } else { InverseGiftPlugin.ManualLog.LogInfo((object)("InverseGift SetCount Error -> Item: " + item.Name + " | Count: " + text2)); num2 = 1; } } else { InverseGiftPlugin.ManualLog.LogInfo((object)("InverseGift SetCount Error -> Item: " + item.Name + " | Count: " + text2)); num2 = 1; } string text3 = item.Name?.Trim(); for (int i = 0; i < num2; i++) { bool flag = false; string text4 = text; switch (text) { case "maskevent": flag = true; ((MonoBehaviour)StartOfRound.Instance.localPlayerController).StartCoroutine(MaskEvent(Value, num2)); break; case "meteor": flag = true; TimeOfDay.Instance.meteorShowerAtTime = 0.1f; break; case "randomscrap": text4 = RandomMap["randomscrap"][Random.Range(0, RandomMap["randomscrap"].Length)]; break; case "randomtool": text4 = RandomMap["randomtool"][Random.Range(0, RandomMap["randomtool"].Length)]; break; case "randomenemy": text4 = RandomMap["randomenemy"][Random.Range(0, RandomMap["randomenemy"].Length)]; break; case "randomobject": text4 = RandomMap["randomobject"][Random.Range(0, RandomMap["randomobject"].Length)]; break; } if (!(string.IsNullOrWhiteSpace(text4) || flag)) { if (GameObjects != null && GameObjects.TryGetValue(text4.ToLower(), out var value)) { list.Add(text4); float num3 = (float)i * (360f / (float)num2) * ((float)Math.PI / 180f); float valueOrDefault = item.radius.GetValueOrDefault(0.5f); Vector3 val2 = new Vector3(Mathf.Cos(num3), 0f, Mathf.Sin(num3)) * valueOrDefault; Vector3 pos = (NavMesh.SamplePosition(((Component)__instance).transform.position + val2, ref val3, 5f, -1) ? ((NavMeshHit)(ref val3)).position : ((!NavMesh.SamplePosition(((Component)__instance).transform.position, ref val3, 10f, -1)) ? ((Component)__instance).transform.position : ((NavMeshHit)(ref val3)).position)); SpawnObject(value, pos, ((Component)__instance).transform.position, ((Component)val).transform.position, ref Value); } else { InverseGiftPlugin.ManualLog.LogInfo((object)("InverseConfig Error -> Item: " + text + " ConvertGameObjectFail.")); } if (!string.IsNullOrEmpty(text3)) { valueMap[text3] = Value ?? "0"; } list2.Add(Value ?? "0"); } } if (!string.IsNullOrEmpty(text3)) { countMap[text3] = num2; } list3.Add(num2); } if (!string.IsNullOrWhiteSpace(randomGiftNormalized.Message)) { InverseGiftPlugin.LogInfo("Gift Message -> " + randomGiftNormalized.Message); string str3; int num; string text5 = Regex.Replace(Regex.Replace(randomGiftNormalized.Message.Replace("{player}", val.playerUsername).Replace("{result}", string.Join("、", list)).Replace("{values}", list2.Sum((string x) => decimal.Parse(x)).ToString("0")) .Replace("{counts}", list3.Sum((int x) => x).ToString("0")), "\\{value:(.+?)\\}", (Match match) => valueMap.TryGetValue(match.Groups[1].Value.Trim(), out str3) ? str3 : ""), "\\{count:(.+?)\\}", (Match match) => countMap.TryGetValue(match.Groups[1].Value.Trim(), out num) ? num.ToString() : "0"); InverseGiftPlugin.LogInfo("Final Message -> " + text5); HUDManager.Instance.AddTextToChatOnServer(text5, -1); } return true; } [IteratorStateMachine(typeof(<MaskEvent>d__24))] private static IEnumerator MaskEvent(string value, int count) { //yield-return decompiler failed: Unexpected instruction in Iterator.Dispose() return new <MaskEvent>d__24(0) { value = value, count = count }; } public static GiftConfig GetRandomGiftNormalized(InverseGiftConfig config) { if (config?.Gift == null || config.Gift.Count == 0) { throw new ArgumentException("Gift configuration is null or empty"); } int num = config.Gift.Sum((GiftConfig g) => g.Rarity); if (num <= 0) { throw new ArgumentException("Total Rarity must be positive"); } int num2 = Random.Range(1, num + 1); int num3 = 0; foreach (GiftConfig item in config.Gift) { num3 += item.Rarity; if (num2 <= num3) { return item; } } return config.Gift.Last(); } public static void SpawnObject(GameObject spawn, Vector3 pos, Vector3 itempos, Vector3 playerPos, ref string Value) { //IL_0017: Unknown result type (might be due to invalid IL or missing references) //IL_0022: Unknown result type (might be due to invalid IL or missing references) //IL_0037: Unknown result type (might be due to invalid IL or missing references) //IL_003c: Unknown result type (might be due to invalid IL or missing references) //IL_004c: Unknown result type (might be due to invalid IL or missing references) //IL_0051: Unknown result type (might be due to invalid IL or missing references) //IL_0056: Unknown result type (might be due to invalid IL or missing references) //IL_0073: Unknown result type (might be due to invalid IL or missing references) //IL_0078: Unknown result type (might be due to invalid IL or missing references) //IL_0214: Unknown result type (might be due to invalid IL or missing references) //IL_0215: Unknown result type (might be due to invalid IL or missing references) //IL_0265: Unknown result type (might be due to invalid IL or missing references) //IL_026b: Unknown result type (might be due to invalid IL or missing references) //IL_0271: Unknown result type (might be due to invalid IL or missing references) //IL_027c: Unknown result type (might be due to invalid IL or missing references) //IL_027d: Unknown result type (might be due to invalid IL or missing references) //IL_0287: Unknown result type (might be due to invalid IL or missing references) //IL_028c: Unknown result type (might be due to invalid IL or missing references) //IL_0291: Unknown result type (might be due to invalid IL or missing references) //IL_0294: Unknown result type (might be due to invalid IL or missing references) //IL_0295: Unknown result type (might be due to invalid IL or missing references) //IL_02bc: Unknown result type (might be due to invalid IL or missing references) //IL_0319: Unknown result type (might be due to invalid IL or missing references) //IL_02e4: Unknown result type (might be due to invalid IL or missing references) //IL_02e5: Unknown result type (might be due to invalid IL or missing references) //IL_02e6: Unknown result type (might be due to invalid IL or missing references) //IL_02eb: Unknown result type (might be due to invalid IL or missing references) //IL_02ef: Unknown result type (might be due to invalid IL or missing references) //IL_02f4: Unknown result type (might be due to invalid IL or missing references) //IL_02f8: Unknown result type (might be due to invalid IL or missing references) GrabbableObject val = default(GrabbableObject); EnemyAI val2 = default(EnemyAI); NetworkObject val3 = default(NetworkObject); if (spawn.TryGetComponent<GrabbableObject>(ref val)) { GrabbableObject component = Object.Instantiate<GameObject>(spawn, RoundManager.Instance.GetRandomNavMeshPositionInBoxPredictable(pos, 1f, RoundManager.Instance.navHit, RoundManager.Instance.AnomalyRandom, -1, 1f) + Vector3.up * val.itemProperties.verticalOffset, Quaternion.identity, (Transform)null).GetComponent<GrabbableObject>(); ((Component)component).transform.rotation = Quaternion.Euler(component.itemProperties.restingRotation); component.fallTime = 0f; component.isInFactory = true; if (Value != null) { if (int.TryParse(Value, out var result)) { component.SetScrapValue(result); } else if (Value.Contains("-")) { string[] array = Value.Split(new char[1] { '-' }); string text = array[0]; string text2 = array[1]; if (int.TryParse(text, out var result2) && int.TryParse(text2, out var result3) && result2 < result3) { Random.InitState(Guid.NewGuid().GetHashCode()); int scrapValue = Random.Range(result2, result3 + 1); component.SetScrapValue(scrapValue); Value = scrapValue.ToString(); } else { InverseGiftPlugin.ManualLog.LogInfo((object)("InverseGift SetValue Error -> Gift: " + ((Object)spawn).name + " | Value1: " + text + " | Value2: " + text2 + ".")); } } else { InverseGiftPlugin.ManualLog.LogInfo((object)("InverseGift SetValue Error -> Gift: " + ((Object)spawn).name + " | Value: " + Value + ".")); component.SetScrapValue(0); } } ((NetworkBehaviour)component).NetworkObject.Spawn(false); } else if (spawn.TryGetComponent<EnemyAI>(ref val2)) { EnemyAI component2 = Object.Instantiate<GameObject>(spawn, pos, Quaternion.identity).GetComponent<EnemyAI>(); ((Component)component2).GetComponentInChildren<NetworkObject>().Spawn(true); RoundManager.Instance.SpawnedEnemies.Add(component2); } else if (spawn.TryGetComponent<NetworkObject>(ref val3)) { ((Vector3)(ref pos))..ctor(pos.x, itempos.y, pos.z); pos -= Vector3.up * 1.8f; NetworkObject component3 = Object.Instantiate<GameObject>(spawn, pos, Quaternion.identity, RoundManager.Instance.mapPropsContainer.transform).GetComponent<NetworkObject>(); ((Component)component3).transform.position = pos; if (((Object)component3).name == "TurretContainer") { Transform transform = ((Component)component3).transform; Vector3 val4 = playerPos - pos; Vector3 normalized = ((Vector3)(ref val4)).normalized; transform.forward = normalized; } else { ((Component)component3).transform.forward = new Vector3(1f, 0f, 0f); } ((Component)component3).GetComponent<NetworkObject>().Spawn(true); } } } public class InverseGiftConfig { public List<ItemConfig> Items { get; set; } public List<GiftConfig> Gift { get; set; } } public class GiftConfig { public int Rarity { get; set; } public string Message { get; set; } public List<ItemConfig> Items { get; set; } } public class ItemConfig { public string Name { get; set; } public string Count { get; set; } public string Value { get; set; } public float? radius { get; set; } } public static class SerializeHelper { public static string YamlSerialize(object obj) { //IL_0001: Unknown result type (might be due to invalid IL or missing references) return new SerializerBuilder().ConfigureDefaultValuesHandling((DefaultValuesHandling)1).Build().Serialize(obj); } public static T YamlDeserialize<T>(string input) { //IL_0002: Unknown result type (might be due to invalid IL or missing references) try { return new DeserializerBuilder().Build().Deserialize<T>(input); } catch (Exception ex) { InverseGiftPlugin.ManualLog.LogError((object)ex.ToString()); return default(T); } } } public static class MyPluginInfo { public const string PLUGIN_GUID = "InverseGift"; public const string PLUGIN_NAME = ""; public const string PLUGIN_VERSION = "1.0.0.0"; } }
YamlDotNet.dll
Decompiled 5 hours ago
The result has been truncated due to the large size, download it to view full contents!
using System; using System.Collections; using System.Collections.Concurrent; using System.Collections.Generic; using System.Collections.ObjectModel; using System.ComponentModel; using System.Diagnostics; using System.Diagnostics.CodeAnalysis; using System.Globalization; using System.IO; using System.Linq; using System.Linq.Expressions; using System.Reflection; using System.Runtime.CompilerServices; using System.Runtime.InteropServices; using System.Runtime.Serialization; using System.Runtime.Versioning; using System.Text; using System.Text.RegularExpressions; using System.Threading; using Microsoft.CodeAnalysis; using YamlDotNet.Core; using YamlDotNet.Core.Events; using YamlDotNet.Core.ObjectPool; using YamlDotNet.Core.Tokens; using YamlDotNet.Helpers; using YamlDotNet.Serialization; using YamlDotNet.Serialization.BufferedDeserialization; using YamlDotNet.Serialization.BufferedDeserialization.TypeDiscriminators; using YamlDotNet.Serialization.Callbacks; using YamlDotNet.Serialization.Converters; using YamlDotNet.Serialization.EventEmitters; using YamlDotNet.Serialization.NamingConventions; using YamlDotNet.Serialization.NodeDeserializers; using YamlDotNet.Serialization.NodeTypeResolvers; using YamlDotNet.Serialization.ObjectFactories; using YamlDotNet.Serialization.ObjectGraphTraversalStrategies; using YamlDotNet.Serialization.ObjectGraphVisitors; using YamlDotNet.Serialization.Schemas; using YamlDotNet.Serialization.TypeInspectors; using YamlDotNet.Serialization.TypeResolvers; using YamlDotNet.Serialization.Utilities; using YamlDotNet.Serialization.ValueDeserializers; [assembly: CompilationRelaxations(8)] [assembly: RuntimeCompatibility(WrapNonExceptionThrows = true)] [assembly: Debuggable(DebuggableAttribute.DebuggingModes.IgnoreSymbolStoreSequencePoints)] [assembly: ComVisible(false)] [assembly: AssemblyFileVersion("16.3.0.0")] [assembly: AssemblyInformationalVersion("16.3.0")] [assembly: AssemblyTitle("YamlDotNet")] [assembly: AssemblyDescription("The YamlDotNet library.")] [assembly: AssemblyCompany("")] [assembly: AssemblyProduct("YamlDotNet")] [assembly: AssemblyCopyright("Copyright (c) Antoine Aubry and contributors 2008 - 2019")] [assembly: AssemblyTrademark("")] [assembly: CLSCompliant(true)] [assembly: InternalsVisibleTo("YamlDotNet.Test, PublicKey=002400000480000094000000060200000024000052534131000400000100010065e52a453dde5c5b4be5bbe2205755727fce80244b79b894faf8793d80f7db9a96d360b51c220782db32aacee4cb5b8a91bee33aeec700e1f21895c4baadef501eeeac609220d1651603b378173811ee5bb6a002df973d38821bd2fef820c00c174a69faec326a1983b570f07ec66147026b9c8753465de3a8d0c44b613b02af")] [assembly: TargetFramework(".NETFramework,Version=v4.7", FrameworkDisplayName = ".NET Framework 4.7")] [assembly: AssemblyVersion("16.0.0.0")] [module: RefSafetyRules(11)] namespace Microsoft.CodeAnalysis { [CompilerGenerated] [Microsoft.CodeAnalysis.Embedded] internal sealed class EmbeddedAttribute : Attribute { } } namespace System.Runtime.CompilerServices { [CompilerGenerated] [Microsoft.CodeAnalysis.Embedded] internal sealed class IsReadOnlyAttribute : Attribute { } [CompilerGenerated] [Microsoft.CodeAnalysis.Embedded] [AttributeUsage(AttributeTargets.Class | AttributeTargets.Property | AttributeTargets.Field | AttributeTargets.Event | AttributeTargets.Parameter | AttributeTargets.ReturnValue | AttributeTargets.GenericParameter, AllowMultiple = false, Inherited = false)] internal sealed class NullableAttribute : Attribute { public readonly byte[] NullableFlags; public NullableAttribute(byte P_0) { NullableFlags = new byte[1] { P_0 }; } public NullableAttribute(byte[] P_0) { NullableFlags = P_0; } } [CompilerGenerated] [Microsoft.CodeAnalysis.Embedded] [AttributeUsage(AttributeTargets.Class | AttributeTargets.Struct | AttributeTargets.Method | AttributeTargets.Interface | AttributeTargets.Delegate, AllowMultiple = false, Inherited = false)] internal sealed class NullableContextAttribute : Attribute { public readonly byte Flag; public NullableContextAttribute(byte P_0) { Flag = P_0; } } [CompilerGenerated] [Microsoft.CodeAnalysis.Embedded] [AttributeUsage(AttributeTargets.Module, AllowMultiple = false, Inherited = false)] internal sealed class RefSafetyRulesAttribute : Attribute { public readonly int Version; public RefSafetyRulesAttribute(int P_0) { Version = P_0; } } } namespace YamlDotNet { internal sealed class CultureInfoAdapter : CultureInfo { private readonly IFormatProvider provider; public CultureInfoAdapter(CultureInfo baseCulture, IFormatProvider provider) : base(baseCulture.Name) { this.provider = provider; } public override object? GetFormat(Type formatType) { return provider.GetFormat(formatType); } } internal static class Polyfills { [MethodImpl(MethodImplOptions.AggressiveInlining)] internal static bool Contains(this string source, char c) { return source.IndexOf(c) != -1; } [MethodImpl(MethodImplOptions.AggressiveInlining)] internal static bool EndsWith(this string source, char c) { if (source.Length > 0) { return source[source.Length - 1] == c; } return false; } [MethodImpl(MethodImplOptions.AggressiveInlining)] internal static bool StartsWith(this string source, char c) { if (source.Length > 0) { return source[0] == c; } return false; } } internal static class PropertyInfoExtensions { public static object? ReadValue(this PropertyInfo property, object target) { return property.GetValue(target, null); } } internal static class ReflectionExtensions { private static readonly Func<PropertyInfo, bool> IsInstance = (PropertyInfo property) => !(property.GetMethod ?? property.SetMethod).IsStatic; private static readonly Func<PropertyInfo, bool> IsInstancePublic = (PropertyInfo property) => IsInstance(property) && (property.GetMethod ?? property.SetMethod).IsPublic; public static Type? BaseType(this Type type) { return type.GetTypeInfo().BaseType; } public static bool IsValueType(this Type type) { return type.GetTypeInfo().IsValueType; } public static bool IsGenericType(this Type type) { return type.GetTypeInfo().IsGenericType; } public static bool IsGenericTypeDefinition(this Type type) { return type.GetTypeInfo().IsGenericTypeDefinition; } public static Type? GetImplementationOfOpenGenericInterface(this Type type, Type openGenericType) { if (!openGenericType.IsGenericType || !openGenericType.IsInterface) { throw new ArgumentException("The type must be a generic type definition and an interface", "openGenericType"); } if (IsGenericDefinitionOfType(type, openGenericType)) { return type; } return type.FindInterfaces((Type t, object context) => IsGenericDefinitionOfType(t, context), openGenericType).FirstOrDefault(); static bool IsGenericDefinitionOfType(Type t, object? context) { if (t.IsGenericType) { return t.GetGenericTypeDefinition() == (Type)context; } return false; } } public static bool IsInterface(this Type type) { return type.GetTypeInfo().IsInterface; } public static bool IsEnum(this Type type) { return type.GetTypeInfo().IsEnum; } public static bool IsRequired(this MemberInfo member) { return member.GetCustomAttributes(inherit: true).Any((object x) => x.GetType().FullName == "System.Runtime.CompilerServices.RequiredMemberAttribute"); } public static bool HasDefaultConstructor(this Type type, bool allowPrivateConstructors) { BindingFlags bindingFlags = BindingFlags.Instance | BindingFlags.Public; if (allowPrivateConstructors) { bindingFlags |= BindingFlags.NonPublic; } if (!type.IsValueType) { return type.GetConstructor(bindingFlags, null, Type.EmptyTypes, null) != null; } return true; } public static bool IsAssignableFrom(this Type type, Type source) { return type.IsAssignableFrom(source.GetTypeInfo()); } public static bool IsAssignableFrom(this Type type, TypeInfo source) { return type.GetTypeInfo().IsAssignableFrom(source); } public static TypeCode GetTypeCode(this Type type) { if (type.IsEnum()) { type = Enum.GetUnderlyingType(type); } if (type == typeof(bool)) { return TypeCode.Boolean; } if (type == typeof(char)) { return TypeCode.Char; } if (type == typeof(sbyte)) { return TypeCode.SByte; } if (type == typeof(byte)) { return TypeCode.Byte; } if (type == typeof(short)) { return TypeCode.Int16; } if (type == typeof(ushort)) { return TypeCode.UInt16; } if (type == typeof(int)) { return TypeCode.Int32; } if (type == typeof(uint)) { return TypeCode.UInt32; } if (type == typeof(long)) { return TypeCode.Int64; } if (type == typeof(ulong)) { return TypeCode.UInt64; } if (type == typeof(float)) { return TypeCode.Single; } if (type == typeof(double)) { return TypeCode.Double; } if (type == typeof(decimal)) { return TypeCode.Decimal; } if (type == typeof(DateTime)) { return TypeCode.DateTime; } if (type == typeof(string)) { return TypeCode.String; } return TypeCode.Object; } public static bool IsDbNull(this object value) { return value?.GetType()?.FullName == "System.DBNull"; } public static Type[] GetGenericArguments(this Type type) { return type.GetTypeInfo().GenericTypeArguments; } public static PropertyInfo? GetPublicProperty(this Type type, string name) { string name2 = name; return type.GetProperties(BindingFlags.Instance | BindingFlags.Static | BindingFlags.Public).FirstOrDefault((PropertyInfo p) => p.Name == name2); } public static FieldInfo? GetPublicStaticField(this Type type, string name) { return type.GetRuntimeField(name); } public static IEnumerable<PropertyInfo> GetProperties(this Type type, bool includeNonPublic) { Func<PropertyInfo, bool> predicate = (includeNonPublic ? IsInstance : IsInstancePublic); if (!type.IsInterface()) { return type.GetRuntimeProperties().Where(predicate); } return new Type[1] { type }.Concat(type.GetInterfaces()).SelectMany((Type i) => i.GetRuntimeProperties().Where(predicate)); } public static IEnumerable<PropertyInfo> GetPublicProperties(this Type type) { return type.GetProperties(includeNonPublic: false); } public static IEnumerable<FieldInfo> GetPublicFields(this Type type) { return from f in type.GetRuntimeFields() where !f.IsStatic && f.IsPublic select f; } public static IEnumerable<MethodInfo> GetPublicStaticMethods(this Type type) { return from m in type.GetRuntimeMethods() where m.IsPublic && m.IsStatic select m; } public static MethodInfo GetPrivateStaticMethod(this Type type, string name) { string name2 = name; return type.GetRuntimeMethods().FirstOrDefault((MethodInfo m) => !m.IsPublic && m.IsStatic && m.Name.Equals(name2)) ?? throw new MissingMethodException("Expected to find a method named '" + name2 + "' in '" + type.FullName + "'."); } public static MethodInfo? GetPublicStaticMethod(this Type type, string name, params Type[] parameterTypes) { string name2 = name; Type[] parameterTypes2 = parameterTypes; return type.GetRuntimeMethods().FirstOrDefault(delegate(MethodInfo m) { if (m.IsPublic && m.IsStatic && m.Name.Equals(name2)) { ParameterInfo[] parameters = m.GetParameters(); if (parameters.Length == parameterTypes2.Length) { return parameters.Zip(parameterTypes2, (ParameterInfo pi, Type pt) => pi.ParameterType == pt).All((bool r) => r); } return false; } return false; }); } public static MethodInfo? GetPublicInstanceMethod(this Type type, string name) { string name2 = name; return type.GetRuntimeMethods().FirstOrDefault((MethodInfo m) => m.IsPublic && !m.IsStatic && m.Name.Equals(name2)); } public static MethodInfo? GetGetMethod(this PropertyInfo property, bool nonPublic) { MethodInfo methodInfo = property.GetMethod; if (!nonPublic && !methodInfo.IsPublic) { methodInfo = null; } return methodInfo; } public static MethodInfo? GetSetMethod(this PropertyInfo property) { return property.SetMethod; } public static IEnumerable<Type> GetInterfaces(this Type type) { return type.GetTypeInfo().ImplementedInterfaces; } public static bool IsInstanceOf(this Type type, object o) { if (!(o.GetType() == type)) { return o.GetType().GetTypeInfo().IsSubclassOf(type); } return true; } public static Attribute[] GetAllCustomAttributes<TAttribute>(this PropertyInfo member) { return Attribute.GetCustomAttributes(member, typeof(TAttribute), inherit: true); } public static bool AcceptsNull(this MemberInfo member) { object[] customAttributes = member.DeclaringType.GetCustomAttributes(inherit: true); object obj = customAttributes.FirstOrDefault((object x) => x.GetType().FullName == "System.Runtime.CompilerServices.NullableContextAttribute"); int num = 0; if (obj != null) { Type type = obj.GetType(); PropertyInfo property = type.GetProperty("Flag"); num = (byte)property.GetValue(obj); } object[] customAttributes2 = member.GetCustomAttributes(inherit: true); object obj2 = customAttributes2.FirstOrDefault((object x) => x.GetType().FullName == "System.Runtime.CompilerServices.NullableAttribute"); PropertyInfo propertyInfo = (obj2?.GetType())?.GetProperty("NullableFlags"); byte[] source = (byte[])propertyInfo.GetValue(obj2); return source.Any((byte x) => x == 2) || num == 2; } } internal static class StandardRegexOptions { public const RegexOptions Compiled = RegexOptions.Compiled; } } namespace YamlDotNet.Serialization { public abstract class BuilderSkeleton<TBuilder> where TBuilder : BuilderSkeleton<TBuilder> { internal INamingConvention namingConvention = NullNamingConvention.Instance; internal INamingConvention enumNamingConvention = NullNamingConvention.Instance; internal ITypeResolver typeResolver; internal readonly YamlAttributeOverrides overrides; internal readonly LazyComponentRegistrationList<Nothing, IYamlTypeConverter> typeConverterFactories; internal readonly LazyComponentRegistrationList<ITypeInspector, ITypeInspector> typeInspectorFactories; internal bool ignoreFields; internal bool includeNonPublicProperties; internal Settings settings; internal YamlFormatter yamlFormatter = YamlFormatter.Default; protected abstract TBuilder Self { get; } internal BuilderSkeleton(ITypeResolver typeResolver) { overrides = new YamlAttributeOverrides(); typeConverterFactories = new LazyComponentRegistrationList<Nothing, IYamlTypeConverter> { { typeof(YamlDotNet.Serialization.Converters.GuidConverter), (Nothing _) => new YamlDotNet.Serialization.Converters.GuidConverter(jsonCompatible: false) }, { typeof(SystemTypeConverter), (Nothing _) => new SystemTypeConverter() } }; typeInspectorFactories = new LazyComponentRegistrationList<ITypeInspector, ITypeInspector>(); this.typeResolver = typeResolver ?? throw new ArgumentNullException("typeResolver"); settings = new Settings(); } public TBuilder IgnoreFields() { ignoreFields = true; return Self; } public TBuilder IncludeNonPublicProperties() { includeNonPublicProperties = true; return Self; } public TBuilder EnablePrivateConstructors() { settings.AllowPrivateConstructors = true; return Self; } public TBuilder WithNamingConvention(INamingConvention namingConvention) { this.namingConvention = namingConvention ?? throw new ArgumentNullException("namingConvention"); return Self; } public TBuilder WithEnumNamingConvention(INamingConvention enumNamingConvention) { this.enumNamingConvention = enumNamingConvention; return Self; } public TBuilder WithTypeResolver(ITypeResolver typeResolver) { this.typeResolver = typeResolver ?? throw new ArgumentNullException("typeResolver"); return Self; } public abstract TBuilder WithTagMapping(TagName tag, Type type); public TBuilder WithAttributeOverride<TClass>(Expression<Func<TClass, object>> propertyAccessor, Attribute attribute) { overrides.Add(propertyAccessor, attribute); return Self; } public TBuilder WithAttributeOverride(Type type, string member, Attribute attribute) { overrides.Add(type, member, attribute); return Self; } public TBuilder WithTypeConverter(IYamlTypeConverter typeConverter) { return WithTypeConverter(typeConverter, delegate(IRegistrationLocationSelectionSyntax<IYamlTypeConverter> w) { w.OnTop(); }); } public TBuilder WithTypeConverter(IYamlTypeConverter typeConverter, Action<IRegistrationLocationSelectionSyntax<IYamlTypeConverter>> where) { IYamlTypeConverter typeConverter2 = typeConverter; if (typeConverter2 == null) { throw new ArgumentNullException("typeConverter"); } if (where == null) { throw new ArgumentNullException("where"); } where(typeConverterFactories.CreateRegistrationLocationSelector(typeConverter2.GetType(), (Nothing _) => typeConverter2)); return Self; } public TBuilder WithTypeConverter<TYamlTypeConverter>(WrapperFactory<IYamlTypeConverter, IYamlTypeConverter> typeConverterFactory, Action<ITrackingRegistrationLocationSelectionSyntax<IYamlTypeConverter>> where) where TYamlTypeConverter : IYamlTypeConverter { WrapperFactory<IYamlTypeConverter, IYamlTypeConverter> typeConverterFactory2 = typeConverterFactory; if (typeConverterFactory2 == null) { throw new ArgumentNullException("typeConverterFactory"); } if (where == null) { throw new ArgumentNullException("where"); } where(typeConverterFactories.CreateTrackingRegistrationLocationSelector(typeof(TYamlTypeConverter), (IYamlTypeConverter wrapped, Nothing _) => typeConverterFactory2(wrapped))); return Self; } public TBuilder WithoutTypeConverter<TYamlTypeConverter>() where TYamlTypeConverter : IYamlTypeConverter { return WithoutTypeConverter(typeof(TYamlTypeConverter)); } public TBuilder WithoutTypeConverter(Type converterType) { if (converterType == null) { throw new ArgumentNullException("converterType"); } typeConverterFactories.Remove(converterType); return Self; } public TBuilder WithTypeInspector<TTypeInspector>(Func<ITypeInspector, TTypeInspector> typeInspectorFactory) where TTypeInspector : ITypeInspector { return WithTypeInspector(typeInspectorFactory, delegate(IRegistrationLocationSelectionSyntax<ITypeInspector> w) { w.OnTop(); }); } public TBuilder WithTypeInspector<TTypeInspector>(Func<ITypeInspector, TTypeInspector> typeInspectorFactory, Action<IRegistrationLocationSelectionSyntax<ITypeInspector>> where) where TTypeInspector : ITypeInspector { Func<ITypeInspector, TTypeInspector> typeInspectorFactory2 = typeInspectorFactory; if (typeInspectorFactory2 == null) { throw new ArgumentNullException("typeInspectorFactory"); } if (where == null) { throw new ArgumentNullException("where"); } where(typeInspectorFactories.CreateRegistrationLocationSelector(typeof(TTypeInspector), (ITypeInspector inner) => typeInspectorFactory2(inner))); return Self; } public TBuilder WithTypeInspector<TTypeInspector>(WrapperFactory<ITypeInspector, ITypeInspector, TTypeInspector> typeInspectorFactory, Action<ITrackingRegistrationLocationSelectionSyntax<ITypeInspector>> where) where TTypeInspector : ITypeInspector { WrapperFactory<ITypeInspector, ITypeInspector, TTypeInspector> typeInspectorFactory2 = typeInspectorFactory; if (typeInspectorFactory2 == null) { throw new ArgumentNullException("typeInspectorFactory"); } if (where == null) { throw new ArgumentNullException("where"); } where(typeInspectorFactories.CreateTrackingRegistrationLocationSelector(typeof(TTypeInspector), (ITypeInspector wrapped, ITypeInspector inner) => typeInspectorFactory2(wrapped, inner))); return Self; } public TBuilder WithoutTypeInspector<TTypeInspector>() where TTypeInspector : ITypeInspector { return WithoutTypeInspector(typeof(TTypeInspector)); } public TBuilder WithoutTypeInspector(Type inspectorType) { if (inspectorType == null) { throw new ArgumentNullException("inspectorType"); } typeInspectorFactories.Remove(inspectorType); return Self; } public TBuilder WithYamlFormatter(YamlFormatter formatter) { yamlFormatter = formatter ?? throw new ArgumentNullException("formatter"); return Self; } protected IEnumerable<IYamlTypeConverter> BuildTypeConverters() { return typeConverterFactories.BuildComponentList(); } } public delegate TComponent WrapperFactory<TComponentBase, TComponent>(TComponentBase wrapped) where TComponent : TComponentBase; public delegate TComponent WrapperFactory<TArgument, TComponentBase, TComponent>(TComponentBase wrapped, TArgument argument) where TComponent : TComponentBase; [Flags] public enum DefaultValuesHandling { Preserve = 0, OmitNull = 1, OmitDefaults = 2, OmitEmptyCollections = 4 } public sealed class Deserializer : IDeserializer { private readonly IValueDeserializer valueDeserializer; public Deserializer() : this(new DeserializerBuilder().BuildValueDeserializer()) { } private Deserializer(IValueDeserializer valueDeserializer) { this.valueDeserializer = valueDeserializer ?? throw new ArgumentNullException("valueDeserializer"); } public static Deserializer FromValueDeserializer(IValueDeserializer valueDeserializer) { return new Deserializer(valueDeserializer); } public T Deserialize<T>(string input) { using StringReader input2 = new StringReader(input); return Deserialize<T>(input2); } public T Deserialize<T>(TextReader input) { return Deserialize<T>(new Parser(input)); } public T Deserialize<T>(IParser parser) { return (T)Deserialize(parser, typeof(T)); } public object? Deserialize(string input) { return Deserialize<object>(input); } public object? Deserialize(TextReader input) { return Deserialize<object>(input); } public object? Deserialize(IParser parser) { return Deserialize<object>(parser); } public object? Deserialize(string input, Type type) { using StringReader input2 = new StringReader(input); return Deserialize(input2, type); } public object? Deserialize(TextReader input, Type type) { return Deserialize(new Parser(input), type); } public object? Deserialize(IParser parser, Type type) { if (parser == null) { throw new ArgumentNullException("parser"); } if (type == null) { throw new ArgumentNullException("type"); } YamlDotNet.Core.Events.StreamStart @event; bool flag = parser.TryConsume<YamlDotNet.Core.Events.StreamStart>(out @event); YamlDotNet.Core.Events.DocumentStart event2; bool flag2 = parser.TryConsume<YamlDotNet.Core.Events.DocumentStart>(out event2); object result = null; if (!parser.Accept<YamlDotNet.Core.Events.DocumentEnd>(out var _) && !parser.Accept<YamlDotNet.Core.Events.StreamEnd>(out var _)) { using SerializerState serializerState = new SerializerState(); result = valueDeserializer.DeserializeValue(parser, type, serializerState, valueDeserializer); serializerState.OnDeserialization(); } if (flag2) { parser.Consume<YamlDotNet.Core.Events.DocumentEnd>(); } if (flag) { parser.Consume<YamlDotNet.Core.Events.StreamEnd>(); } return result; } } public sealed class DeserializerBuilder : BuilderSkeleton<DeserializerBuilder> { private Lazy<IObjectFactory> objectFactory; private readonly LazyComponentRegistrationList<Nothing, INodeDeserializer> nodeDeserializerFactories; private readonly LazyComponentRegistrationList<Nothing, INodeTypeResolver> nodeTypeResolverFactories; private readonly Dictionary<TagName, Type> tagMappings; private readonly Dictionary<Type, Type> typeMappings; private readonly ITypeConverter typeConverter; private bool ignoreUnmatched; private bool duplicateKeyChecking; private bool attemptUnknownTypeDeserialization; private bool enforceNullability; private bool caseInsensitivePropertyMatching; private bool enforceRequiredProperties; protected override DeserializerBuilder Self => this; public DeserializerBuilder() : base((ITypeResolver)new StaticTypeResolver()) { typeMappings = new Dictionary<Type, Type>(); objectFactory = new Lazy<IObjectFactory>(() => new DefaultObjectFactory(typeMappings, settings), isThreadSafe: true); tagMappings = new Dictionary<TagName, Type> { { FailsafeSchema.Tags.Map, typeof(Dictionary<object, object>) }, { FailsafeSchema.Tags.Str, typeof(string) }, { JsonSchema.Tags.Bool, typeof(bool) }, { JsonSchema.Tags.Float, typeof(double) }, { JsonSchema.Tags.Int, typeof(int) }, { DefaultSchema.Tags.Timestamp, typeof(DateTime) } }; typeInspectorFactories.Add(typeof(CachedTypeInspector), (ITypeInspector inner) => new CachedTypeInspector(inner)); typeInspectorFactories.Add(typeof(NamingConventionTypeInspector), (ITypeInspector inner) => (!(namingConvention is NullNamingConvention)) ? new NamingConventionTypeInspector(inner, namingConvention) : inner); typeInspectorFactories.Add(typeof(YamlAttributesTypeInspector), (ITypeInspector inner) => new YamlAttributesTypeInspector(inner)); typeInspectorFactories.Add(typeof(YamlAttributeOverridesInspector), (ITypeInspector inner) => (overrides == null) ? inner : new YamlAttributeOverridesInspector(inner, overrides.Clone())); typeInspectorFactories.Add(typeof(ReadableAndWritablePropertiesTypeInspector), (ITypeInspector inner) => new ReadableAndWritablePropertiesTypeInspector(inner)); nodeDeserializerFactories = new LazyComponentRegistrationList<Nothing, INodeDeserializer> { { typeof(YamlConvertibleNodeDeserializer), (Nothing _) => new YamlConvertibleNodeDeserializer(objectFactory.Value) }, { typeof(YamlSerializableNodeDeserializer), (Nothing _) => new YamlSerializableNodeDeserializer(objectFactory.Value) }, { typeof(TypeConverterNodeDeserializer), (Nothing _) => new TypeConverterNodeDeserializer(BuildTypeConverters()) }, { typeof(NullNodeDeserializer), (Nothing _) => new NullNodeDeserializer() }, { typeof(ScalarNodeDeserializer), (Nothing _) => new ScalarNodeDeserializer(attemptUnknownTypeDeserialization, typeConverter, BuildTypeInspector(), yamlFormatter, enumNamingConvention) }, { typeof(ArrayNodeDeserializer), (Nothing _) => new ArrayNodeDeserializer(enumNamingConvention, BuildTypeInspector()) }, { typeof(DictionaryNodeDeserializer), (Nothing _) => new DictionaryNodeDeserializer(objectFactory.Value, duplicateKeyChecking) }, { typeof(CollectionNodeDeserializer), (Nothing _) => new CollectionNodeDeserializer(objectFactory.Value, enumNamingConvention, BuildTypeInspector()) }, { typeof(EnumerableNodeDeserializer), (Nothing _) => new EnumerableNodeDeserializer() }, { typeof(ObjectNodeDeserializer), (Nothing _) => new ObjectNodeDeserializer(objectFactory.Value, BuildTypeInspector(), ignoreUnmatched, duplicateKeyChecking, typeConverter, enumNamingConvention, enforceNullability, caseInsensitivePropertyMatching, enforceRequiredProperties, BuildTypeConverters()) }, { typeof(FsharpListNodeDeserializer), (Nothing _) => new FsharpListNodeDeserializer(BuildTypeInspector(), enumNamingConvention) } }; nodeTypeResolverFactories = new LazyComponentRegistrationList<Nothing, INodeTypeResolver> { { typeof(MappingNodeTypeResolver), (Nothing _) => new MappingNodeTypeResolver(typeMappings) }, { typeof(YamlConvertibleTypeResolver), (Nothing _) => new YamlConvertibleTypeResolver() }, { typeof(YamlSerializableTypeResolver), (Nothing _) => new YamlSerializableTypeResolver() }, { typeof(TagNodeTypeResolver), (Nothing _) => new TagNodeTypeResolver(tagMappings) }, { typeof(PreventUnknownTagsNodeTypeResolver), (Nothing _) => new PreventUnknownTagsNodeTypeResolver() }, { typeof(DefaultContainersNodeTypeResolver), (Nothing _) => new DefaultContainersNodeTypeResolver() } }; typeConverter = new ReflectionTypeConverter(); } public ITypeInspector BuildTypeInspector() { ITypeInspector typeInspector = new WritablePropertiesTypeInspector(typeResolver, includeNonPublicProperties); if (!ignoreFields) { typeInspector = new CompositeTypeInspector(new ReadableFieldsTypeInspector(typeResolver), typeInspector); } return typeInspectorFactories.BuildComponentChain(typeInspector); } public DeserializerBuilder WithAttemptingUnquotedStringTypeDeserialization() { attemptUnknownTypeDeserialization = true; return this; } public DeserializerBuilder WithObjectFactory(IObjectFactory objectFactory) { IObjectFactory objectFactory2 = objectFactory; if (objectFactory2 == null) { throw new ArgumentNullException("objectFactory"); } this.objectFactory = new Lazy<IObjectFactory>(() => objectFactory2, isThreadSafe: true); return this; } public DeserializerBuilder WithObjectFactory(Func<Type, object> objectFactory) { if (objectFactory == null) { throw new ArgumentNullException("objectFactory"); } return WithObjectFactory(new LambdaObjectFactory(objectFactory)); } public DeserializerBuilder WithNodeDeserializer(INodeDeserializer nodeDeserializer) { return WithNodeDeserializer(nodeDeserializer, delegate(IRegistrationLocationSelectionSyntax<INodeDeserializer> w) { w.OnTop(); }); } public DeserializerBuilder WithNodeDeserializer(INodeDeserializer nodeDeserializer, Action<IRegistrationLocationSelectionSyntax<INodeDeserializer>> where) { INodeDeserializer nodeDeserializer2 = nodeDeserializer; if (nodeDeserializer2 == null) { throw new ArgumentNullException("nodeDeserializer"); } if (where == null) { throw new ArgumentNullException("where"); } where(nodeDeserializerFactories.CreateRegistrationLocationSelector(nodeDeserializer2.GetType(), (Nothing _) => nodeDeserializer2)); return this; } public DeserializerBuilder WithNodeDeserializer<TNodeDeserializer>(WrapperFactory<INodeDeserializer, TNodeDeserializer> nodeDeserializerFactory, Action<ITrackingRegistrationLocationSelectionSyntax<INodeDeserializer>> where) where TNodeDeserializer : INodeDeserializer { WrapperFactory<INodeDeserializer, TNodeDeserializer> nodeDeserializerFactory2 = nodeDeserializerFactory; if (nodeDeserializerFactory2 == null) { throw new ArgumentNullException("nodeDeserializerFactory"); } if (where == null) { throw new ArgumentNullException("where"); } where(nodeDeserializerFactories.CreateTrackingRegistrationLocationSelector(typeof(TNodeDeserializer), (INodeDeserializer wrapped, Nothing _) => nodeDeserializerFactory2(wrapped))); return this; } public DeserializerBuilder WithoutNodeDeserializer<TNodeDeserializer>() where TNodeDeserializer : INodeDeserializer { return WithoutNodeDeserializer(typeof(TNodeDeserializer)); } public DeserializerBuilder WithoutNodeDeserializer(Type nodeDeserializerType) { if (nodeDeserializerType == null) { throw new ArgumentNullException("nodeDeserializerType"); } nodeDeserializerFactories.Remove(nodeDeserializerType); return this; } public DeserializerBuilder WithTypeDiscriminatingNodeDeserializer(Action<ITypeDiscriminatingNodeDeserializerOptions> configureTypeDiscriminatingNodeDeserializerOptions, int maxDepth = -1, int maxLength = -1) { TypeDiscriminatingNodeDeserializerOptions typeDiscriminatingNodeDeserializerOptions = new TypeDiscriminatingNodeDeserializerOptions(); configureTypeDiscriminatingNodeDeserializerOptions(typeDiscriminatingNodeDeserializerOptions); TypeDiscriminatingNodeDeserializer nodeDeserializer = new TypeDiscriminatingNodeDeserializer(nodeDeserializerFactories.BuildComponentList(), typeDiscriminatingNodeDeserializerOptions.discriminators, maxDepth, maxLength); return WithNodeDeserializer(nodeDeserializer, delegate(IRegistrationLocationSelectionSyntax<INodeDeserializer> s) { s.Before<DictionaryNodeDeserializer>(); }); } public DeserializerBuilder WithNodeTypeResolver(INodeTypeResolver nodeTypeResolver) { return WithNodeTypeResolver(nodeTypeResolver, delegate(IRegistrationLocationSelectionSyntax<INodeTypeResolver> w) { w.OnTop(); }); } public DeserializerBuilder WithNodeTypeResolver(INodeTypeResolver nodeTypeResolver, Action<IRegistrationLocationSelectionSyntax<INodeTypeResolver>> where) { INodeTypeResolver nodeTypeResolver2 = nodeTypeResolver; if (nodeTypeResolver2 == null) { throw new ArgumentNullException("nodeTypeResolver"); } if (where == null) { throw new ArgumentNullException("where"); } where(nodeTypeResolverFactories.CreateRegistrationLocationSelector(nodeTypeResolver2.GetType(), (Nothing _) => nodeTypeResolver2)); return this; } public DeserializerBuilder WithNodeTypeResolver<TNodeTypeResolver>(WrapperFactory<INodeTypeResolver, TNodeTypeResolver> nodeTypeResolverFactory, Action<ITrackingRegistrationLocationSelectionSyntax<INodeTypeResolver>> where) where TNodeTypeResolver : INodeTypeResolver { WrapperFactory<INodeTypeResolver, TNodeTypeResolver> nodeTypeResolverFactory2 = nodeTypeResolverFactory; if (nodeTypeResolverFactory2 == null) { throw new ArgumentNullException("nodeTypeResolverFactory"); } if (where == null) { throw new ArgumentNullException("where"); } where(nodeTypeResolverFactories.CreateTrackingRegistrationLocationSelector(typeof(TNodeTypeResolver), (INodeTypeResolver wrapped, Nothing _) => nodeTypeResolverFactory2(wrapped))); return this; } public DeserializerBuilder WithCaseInsensitivePropertyMatching() { caseInsensitivePropertyMatching = true; return this; } public DeserializerBuilder WithEnforceNullability() { enforceNullability = true; return this; } public DeserializerBuilder WithEnforceRequiredMembers() { enforceRequiredProperties = true; return this; } public DeserializerBuilder WithoutNodeTypeResolver<TNodeTypeResolver>() where TNodeTypeResolver : INodeTypeResolver { return WithoutNodeTypeResolver(typeof(TNodeTypeResolver)); } public DeserializerBuilder WithoutNodeTypeResolver(Type nodeTypeResolverType) { if (nodeTypeResolverType == null) { throw new ArgumentNullException("nodeTypeResolverType"); } nodeTypeResolverFactories.Remove(nodeTypeResolverType); return this; } public override DeserializerBuilder WithTagMapping(TagName tag, Type type) { if (tag.IsEmpty) { throw new ArgumentException("Non-specific tags cannot be maped"); } if (type == null) { throw new ArgumentNullException("type"); } if (tagMappings.TryGetValue(tag, out Type value)) { throw new ArgumentException($"Type already has a registered type '{value.FullName}' for tag '{tag}'", "tag"); } tagMappings.Add(tag, type); return this; } public DeserializerBuilder WithTypeMapping<TInterface, TConcrete>() where TConcrete : TInterface { Type typeFromHandle = typeof(TInterface); Type typeFromHandle2 = typeof(TConcrete); if (!typeFromHandle.IsAssignableFrom(typeFromHandle2)) { throw new InvalidOperationException("The type '" + typeFromHandle2.Name + "' does not implement interface '" + typeFromHandle.Name + "'."); } if (!DictionaryExtensions.TryAdd(typeMappings, typeFromHandle, typeFromHandle2)) { typeMappings[typeFromHandle] = typeFromHandle2; } return this; } public DeserializerBuilder WithoutTagMapping(TagName tag) { if (tag.IsEmpty) { throw new ArgumentException("Non-specific tags cannot be maped"); } if (!tagMappings.Remove(tag)) { throw new KeyNotFoundException($"Tag '{tag}' is not registered"); } return this; } public DeserializerBuilder IgnoreUnmatchedProperties() { ignoreUnmatched = true; return this; } public DeserializerBuilder WithDuplicateKeyChecking() { duplicateKeyChecking = true; return this; } public IDeserializer Build() { if (FsharpHelper.Instance == null) { FsharpHelper.Instance = new DefaultFsharpHelper(); } return Deserializer.FromValueDeserializer(BuildValueDeserializer()); } public IValueDeserializer BuildValueDeserializer() { return new AliasValueDeserializer(new NodeValueDeserializer(nodeDeserializerFactories.BuildComponentList(), nodeTypeResolverFactories.BuildComponentList(), typeConverter, enumNamingConvention, BuildTypeInspector())); } } public sealed class EmissionPhaseObjectGraphVisitorArgs { private readonly IEnumerable<IObjectGraphVisitor<Nothing>> preProcessingPhaseVisitors; public IObjectGraphVisitor<IEmitter> InnerVisitor { get; private set; } public IEventEmitter EventEmitter { get; private set; } public ObjectSerializer NestedObjectSerializer { get; private set; } public IEnumerable<IYamlTypeConverter> TypeConverters { get; private set; } public EmissionPhaseObjectGraphVisitorArgs(IObjectGraphVisitor<IEmitter> innerVisitor, IEventEmitter eventEmitter, IEnumerable<IObjectGraphVisitor<Nothing>> preProcessingPhaseVisitors, IEnumerable<IYamlTypeConverter> typeConverters, ObjectSerializer nestedObjectSerializer) { InnerVisitor = innerVisitor ?? throw new ArgumentNullException("innerVisitor"); EventEmitter = eventEmitter ?? throw new ArgumentNullException("eventEmitter"); this.preProcessingPhaseVisitors = preProcessingPhaseVisitors ?? throw new ArgumentNullException("preProcessingPhaseVisitors"); TypeConverters = typeConverters ?? throw new ArgumentNullException("typeConverters"); NestedObjectSerializer = nestedObjectSerializer ?? throw new ArgumentNullException("nestedObjectSerializer"); } public T GetPreProcessingPhaseObjectGraphVisitor<T>() where T : IObjectGraphVisitor<Nothing> { return preProcessingPhaseVisitors.OfType<T>().Single(); } } public abstract class EventInfo { public IObjectDescriptor Source { get; } protected EventInfo(IObjectDescriptor source) { Source = source ?? throw new ArgumentNullException("source"); } } public class AliasEventInfo : EventInfo { public AnchorName Alias { get; } public bool NeedsExpansion { get; set; } public AliasEventInfo(IObjectDescriptor source, AnchorName alias) : base(source) { if (alias.IsEmpty) { throw new ArgumentNullException("alias"); } Alias = alias; } } public class ObjectEventInfo : EventInfo { public AnchorName Anchor { get; set; } public TagName Tag { get; set; } protected ObjectEventInfo(IObjectDescriptor source) : base(source) { } } public sealed class ScalarEventInfo : ObjectEventInfo { public string RenderedValue { get; set; } public ScalarStyle Style { get; set; } public bool IsPlainImplicit { get; set; } public bool IsQuotedImplicit { get; set; } public ScalarEventInfo(IObjectDescriptor source) : base(source) { Style = source.ScalarStyle; RenderedValue = string.Empty; } } public sealed class MappingStartEventInfo : ObjectEventInfo { public bool IsImplicit { get; set; } public MappingStyle Style { get; set; } public MappingStartEventInfo(IObjectDescriptor source) : base(source) { } } public sealed class MappingEndEventInfo : EventInfo { public MappingEndEventInfo(IObjectDescriptor source) : base(source) { } } public sealed class SequenceStartEventInfo : ObjectEventInfo { public bool IsImplicit { get; set; } public SequenceStyle Style { get; set; } public SequenceStartEventInfo(IObjectDescriptor source) : base(source) { } } public sealed class SequenceEndEventInfo : EventInfo { public SequenceEndEventInfo(IObjectDescriptor source) : base(source) { } } public interface IAliasProvider { AnchorName GetAlias(object target); } public interface IDeserializer { T Deserialize<T>(string input); T Deserialize<T>(TextReader input); T Deserialize<T>(IParser parser); object? Deserialize(string input); object? Deserialize(TextReader input); object? Deserialize(IParser parser); object? Deserialize(string input, Type type); object? Deserialize(TextReader input, Type type); object? Deserialize(IParser parser, Type type); } public interface IEventEmitter { void Emit(AliasEventInfo eventInfo, IEmitter emitter); void Emit(ScalarEventInfo eventInfo, IEmitter emitter); void Emit(MappingStartEventInfo eventInfo, IEmitter emitter); void Emit(MappingEndEventInfo eventInfo, IEmitter emitter); void Emit(SequenceStartEventInfo eventInfo, IEmitter emitter); void Emit(SequenceEndEventInfo eventInfo, IEmitter emitter); } public interface INamingConvention { string Apply(string value); string Reverse(string value); } public interface INodeDeserializer { bool Deserialize(IParser reader, Type expectedType, Func<IParser, Type, object?> nestedObjectDeserializer, out object? value, ObjectDeserializer rootDeserializer); } public interface INodeTypeResolver { bool Resolve(NodeEvent? nodeEvent, ref Type currentType); } public interface IObjectAccessor { void Set(string name, object target, object value); object? Read(string name, object target); } public interface IObjectDescriptor { object? Value { get; } Type Type { get; } Type StaticType { get; } ScalarStyle ScalarStyle { get; } } public static class ObjectDescriptorExtensions { public static object NonNullValue(this IObjectDescriptor objectDescriptor) { return objectDescriptor.Value ?? throw new InvalidOperationException("Attempted to use a IObjectDescriptor of type '" + objectDescriptor.Type.FullName + "' whose Value is null at a point whete it is invalid to do so. This may indicate a bug in YamlDotNet."); } } public interface IObjectFactory { object Create(Type type); object? CreatePrimitive(Type type); bool GetDictionary(IObjectDescriptor descriptor, out IDictionary? dictionary, out Type[]? genericArguments); Type GetValueType(Type type); void ExecuteOnDeserializing(object value); void ExecuteOnDeserialized(object value); void ExecuteOnSerializing(object value); void ExecuteOnSerialized(object value); } public interface IObjectGraphTraversalStrategy { void Traverse<TContext>(IObjectDescriptor graph, IObjectGraphVisitor<TContext> visitor, TContext context, ObjectSerializer serializer); } public interface IObjectGraphVisitor<TContext> { bool Enter(IPropertyDescriptor? propertyDescriptor, IObjectDescriptor value, TContext context, ObjectSerializer serializer); bool EnterMapping(IObjectDescriptor key, IObjectDescriptor value, TContext context, ObjectSerializer serializer); bool EnterMapping(IPropertyDescriptor key, IObjectDescriptor value, TContext context, ObjectSerializer serializer); void VisitScalar(IObjectDescriptor scalar, TContext context, ObjectSerializer serializer); void VisitMappingStart(IObjectDescriptor mapping, Type keyType, Type valueType, TContext context, ObjectSerializer serializer); void VisitMappingEnd(IObjectDescriptor mapping, TContext context, ObjectSerializer serializer); void VisitSequenceStart(IObjectDescriptor sequence, Type elementType, TContext context, ObjectSerializer serializer); void VisitSequenceEnd(IObjectDescriptor sequence, TContext context, ObjectSerializer serializer); } public interface IPropertyDescriptor { string Name { get; } bool AllowNulls { get; } bool CanWrite { get; } Type Type { get; } Type? TypeOverride { get; set; } int Order { get; set; } ScalarStyle ScalarStyle { get; set; } bool Required { get; } Type? ConverterType { get; } T? GetCustomAttribute<T>() where T : Attribute; IObjectDescriptor Read(object target); void Write(object target, object? value); } public interface IRegistrationLocationSelectionSyntax<TBaseRegistrationType> { void InsteadOf<TRegistrationType>() where TRegistrationType : TBaseRegistrationType; void Before<TRegistrationType>() where TRegistrationType : TBaseRegistrationType; void After<TRegistrationType>() where TRegistrationType : TBaseRegistrationType; void OnTop(); void OnBottom(); } public interface ITrackingRegistrationLocationSelectionSyntax<TBaseRegistrationType> { void InsteadOf<TRegistrationType>() where TRegistrationType : TBaseRegistrationType; } public interface ISerializer { string Serialize(object? graph); string Serialize(object? graph, Type type); void Serialize(TextWriter writer, object? graph); void Serialize(TextWriter writer, object? graph, Type type); void Serialize(IEmitter emitter, object? graph); void Serialize(IEmitter emitter, object? graph, Type type); } public interface ITypeInspector { IEnumerable<IPropertyDescriptor> GetProperties(Type type, object? container); IPropertyDescriptor GetProperty(Type type, object? container, string name, [MaybeNullWhen(true)] bool ignoreUnmatched, bool caseInsensitivePropertyMatching); string GetEnumName(Type enumType, string name); string GetEnumValue(object enumValue); } public interface ITypeResolver { Type Resolve(Type staticType, object? actualValue); } public interface IValueDeserializer { object? DeserializeValue(IParser parser, Type expectedType, SerializerState state, IValueDeserializer nestedObjectDeserializer); } public interface IValuePromise { event Action<object?> ValueAvailable; } public interface IValueSerializer { void SerializeValue(IEmitter emitter, object? value, Type? type); } public interface IYamlConvertible { void Read(IParser parser, Type expectedType, ObjectDeserializer nestedObjectDeserializer); void Write(IEmitter emitter, ObjectSerializer nestedObjectSerializer); } public delegate object? ObjectDeserializer(Type type); public delegate void ObjectSerializer(object? value, Type? type = null); [Obsolete("Please use IYamlConvertible instead")] public interface IYamlSerializable { void ReadYaml(IParser parser); void WriteYaml(IEmitter emitter); } public interface IYamlTypeConverter { bool Accepts(Type type); object? ReadYaml(IParser parser, Type type, ObjectDeserializer rootDeserializer); void WriteYaml(IEmitter emitter, object? value, Type type, ObjectSerializer serializer); } internal sealed class LazyComponentRegistrationList<TArgument, TComponent> : IEnumerable<Func<TArgument, TComponent>>, IEnumerable { public sealed class LazyComponentRegistration { public readonly Type ComponentType; public readonly Func<TArgument, TComponent> Factory; public LazyComponentRegistration(Type componentType, Func<TArgument, TComponent> factory) { ComponentType = componentType; Factory = factory; } } public sealed class TrackingLazyComponentRegistration { public readonly Type ComponentType; public readonly Func<TComponent, TArgument, TComponent> Factory; public TrackingLazyComponentRegistration(Type componentType, Func<TComponent, TArgument, TComponent> factory) { ComponentType = componentType; Factory = factory; } } private class RegistrationLocationSelector : IRegistrationLocationSelectionSyntax<TComponent> { private readonly LazyComponentRegistrationList<TArgument, TComponent> registrations; private readonly LazyComponentRegistration newRegistration; public RegistrationLocationSelector(LazyComponentRegistrationList<TArgument, TComponent> registrations, LazyComponentRegistration newRegistration) { this.registrations = registrations; this.newRegistration = newRegistration; } void IRegistrationLocationSelectionSyntax<TComponent>.InsteadOf<TRegistrationType>() { if (newRegistration.ComponentType != typeof(TRegistrationType)) { registrations.EnsureNoDuplicateRegistrationType(newRegistration.ComponentType); } int index = registrations.EnsureRegistrationExists<TRegistrationType>(); registrations.entries[index] = newRegistration; } void IRegistrationLocationSelectionSyntax<TComponent>.After<TRegistrationType>() { registrations.EnsureNoDuplicateRegistrationType(newRegistration.ComponentType); int num = registrations.EnsureRegistrationExists<TRegistrationType>(); registrations.entries.Insert(num + 1, newRegistration); } void IRegistrationLocationSelectionSyntax<TComponent>.Before<TRegistrationType>() { registrations.EnsureNoDuplicateRegistrationType(newRegistration.ComponentType); int index = registrations.EnsureRegistrationExists<TRegistrationType>(); registrations.entries.Insert(index, newRegistration); } void IRegistrationLocationSelectionSyntax<TComponent>.OnBottom() { registrations.EnsureNoDuplicateRegistrationType(newRegistration.ComponentType); registrations.entries.Add(newRegistration); } void IRegistrationLocationSelectionSyntax<TComponent>.OnTop() { registrations.EnsureNoDuplicateRegistrationType(newRegistration.ComponentType); registrations.entries.Insert(0, newRegistration); } } private class TrackingRegistrationLocationSelector : ITrackingRegistrationLocationSelectionSyntax<TComponent> { private readonly LazyComponentRegistrationList<TArgument, TComponent> registrations; private readonly TrackingLazyComponentRegistration newRegistration; public TrackingRegistrationLocationSelector(LazyComponentRegistrationList<TArgument, TComponent> registrations, TrackingLazyComponentRegistration newRegistration) { this.registrations = registrations; this.newRegistration = newRegistration; } void ITrackingRegistrationLocationSelectionSyntax<TComponent>.InsteadOf<TRegistrationType>() { if (newRegistration.ComponentType != typeof(TRegistrationType)) { registrations.EnsureNoDuplicateRegistrationType(newRegistration.ComponentType); } int index = registrations.EnsureRegistrationExists<TRegistrationType>(); Func<TArgument, TComponent> innerComponentFactory = registrations.entries[index].Factory; registrations.entries[index] = new LazyComponentRegistration(newRegistration.ComponentType, (TArgument arg) => newRegistration.Factory(innerComponentFactory(arg), arg)); } } private readonly List<LazyComponentRegistration> entries = new List<LazyComponentRegistration>(); public int Count => entries.Count; public IEnumerable<Func<TArgument, TComponent>> InReverseOrder { get { int i = entries.Count - 1; while (i >= 0) { yield return entries[i].Factory; int num = i - 1; i = num; } } } public LazyComponentRegistrationList<TArgument, TComponent> Clone() { LazyComponentRegistrationList<TArgument, TComponent> lazyComponentRegistrationList = new LazyComponentRegistrationList<TArgument, TComponent>(); foreach (LazyComponentRegistration entry in entries) { lazyComponentRegistrationList.entries.Add(entry); } return lazyComponentRegistrationList; } public void Clear() { entries.Clear(); } public void Add(Type componentType, Func<TArgument, TComponent> factory) { entries.Add(new LazyComponentRegistration(componentType, factory)); } public void Remove(Type componentType) { for (int i = 0; i < entries.Count; i++) { if (entries[i].ComponentType == componentType) { entries.RemoveAt(i); return; } } throw new KeyNotFoundException("A component registration of type '" + componentType.FullName + "' was not found."); } public IRegistrationLocationSelectionSyntax<TComponent> CreateRegistrationLocationSelector(Type componentType, Func<TArgument, TComponent> factory) { return new RegistrationLocationSelector(this, new LazyComponentRegistration(componentType, factory)); } public ITrackingRegistrationLocationSelectionSyntax<TComponent> CreateTrackingRegistrationLocationSelector(Type componentType, Func<TComponent, TArgument, TComponent> factory) { return new TrackingRegistrationLocationSelector(this, new TrackingLazyComponentRegistration(componentType, factory)); } public IEnumerator<Func<TArgument, TComponent>> GetEnumerator() { return entries.Select((LazyComponentRegistration e) => e.Factory).GetEnumerator(); } IEnumerator IEnumerable.GetEnumerator() { return GetEnumerator(); } private int IndexOfRegistration(Type registrationType) { for (int i = 0; i < entries.Count; i++) { if (registrationType == entries[i].ComponentType) { return i; } } return -1; } private void EnsureNoDuplicateRegistrationType(Type componentType) { if (IndexOfRegistration(componentType) != -1) { throw new InvalidOperationException("A component of type '" + componentType.FullName + "' has already been registered."); } } private int EnsureRegistrationExists<TRegistrationType>() { int num = IndexOfRegistration(typeof(TRegistrationType)); if (num == -1) { throw new InvalidOperationException("A component of type '" + typeof(TRegistrationType).FullName + "' has not been registered."); } return num; } } internal static class LazyComponentRegistrationListExtensions { public static TComponent BuildComponentChain<TComponent>(this LazyComponentRegistrationList<TComponent, TComponent> registrations, TComponent innerComponent) { return registrations.InReverseOrder.Aggregate(innerComponent, (TComponent inner, Func<TComponent, TComponent> factory) => factory(inner)); } public static TComponent BuildComponentChain<TArgument, TComponent>(this LazyComponentRegistrationList<TArgument, TComponent> registrations, TComponent innerComponent, Func<TComponent, TArgument> argumentBuilder) { Func<TComponent, TArgument> argumentBuilder2 = argumentBuilder; return registrations.InReverseOrder.Aggregate(innerComponent, (TComponent inner, Func<TArgument, TComponent> factory) => factory(argumentBuilder2(inner))); } public static List<TComponent> BuildComponentList<TComponent>(this LazyComponentRegistrationList<Nothing, TComponent> registrations) { return registrations.Select((Func<Nothing, TComponent> factory) => factory(default(Nothing))).ToList(); } public static List<TComponent> BuildComponentList<TArgument, TComponent>(this LazyComponentRegistrationList<TArgument, TComponent> registrations, TArgument argument) { TArgument argument2 = argument; return registrations.Select((Func<TArgument, TComponent> factory) => factory(argument2)).ToList(); } } [StructLayout(LayoutKind.Sequential, Size = 1)] public struct Nothing { } public sealed class ObjectDescriptor : IObjectDescriptor { public object? Value { get; private set; } public Type Type { get; private set; } public Type StaticType { get; private set; } public ScalarStyle ScalarStyle { get; private set; } public ObjectDescriptor(object? value, Type type, Type staticType) : this(value, type, staticType, ScalarStyle.Any) { } public ObjectDescriptor(object? value, Type type, Type staticType, ScalarStyle scalarStyle) { Value = value; Type = type ?? throw new ArgumentNullException("type"); StaticType = staticType ?? throw new ArgumentNullException("staticType"); ScalarStyle = scalarStyle; } } public delegate IObjectGraphTraversalStrategy ObjectGraphTraversalStrategyFactory(ITypeInspector typeInspector, ITypeResolver typeResolver, IEnumerable<IYamlTypeConverter> typeConverters, int maximumRecursion); public sealed class PropertyDescriptor : IPropertyDescriptor { private readonly IPropertyDescriptor baseDescriptor; public bool AllowNulls => baseDescriptor.AllowNulls; public string Name { get; set; } public bool Required => baseDescriptor.Required; public Type Type => baseDescriptor.Type; public Type? TypeOverride { get { return baseDescriptor.TypeOverride; } set { baseDescriptor.TypeOverride = value; } } public Type? ConverterType => baseDescriptor.ConverterType; public int Order { get; set; } public ScalarStyle ScalarStyle { get { return baseDescriptor.ScalarStyle; } set { baseDescriptor.ScalarStyle = value; } } public bool CanWrite => baseDescriptor.CanWrite; public PropertyDescriptor(IPropertyDescriptor baseDescriptor) { this.baseDescriptor = baseDescriptor; Name = baseDescriptor.Name; } public void Write(object target, object? value) { baseDescriptor.Write(target, value); } public T? GetCustomAttribute<T>() where T : Attribute { return baseDescriptor.GetCustomAttribute<T>(); } public IObjectDescriptor Read(object target) { return baseDescriptor.Read(target); } } public sealed class Serializer : ISerializer { private readonly IValueSerializer valueSerializer; private readonly EmitterSettings emitterSettings; public Serializer() : this(new SerializerBuilder().BuildValueSerializer(), EmitterSettings.Default) { } private Serializer(IValueSerializer valueSerializer, EmitterSettings emitterSettings) { this.valueSerializer = valueSerializer ?? throw new ArgumentNullException("valueSerializer"); this.emitterSettings = emitterSettings ?? throw new ArgumentNullException("emitterSettings"); } public static Serializer FromValueSerializer(IValueSerializer valueSerializer, EmitterSettings emitterSettings) { return new Serializer(valueSerializer, emitterSettings); } public string Serialize(object? graph) { using StringWriter stringWriter = new StringWriter(); Serialize(stringWriter, graph); return stringWriter.ToString(); } public string Serialize(object? graph, Type type) { using StringWriter stringWriter = new StringWriter(); Serialize(stringWriter, graph, type); return stringWriter.ToString(); } public void Serialize(TextWriter writer, object? graph) { Serialize(new Emitter(writer, emitterSettings), graph); } public void Serialize(TextWriter writer, object? graph, Type type) { Serialize(new Emitter(writer, emitterSettings), graph, type); } public void Serialize(IEmitter emitter, object? graph) { if (emitter == null) { throw new ArgumentNullException("emitter"); } EmitDocument(emitter, graph, null); } public void Serialize(IEmitter emitter, object? graph, Type type) { if (emitter == null) { throw new ArgumentNullException("emitter"); } if (type == null) { throw new ArgumentNullException("type"); } EmitDocument(emitter, graph, type); } private void EmitDocument(IEmitter emitter, object? graph, Type? type) { emitter.Emit(new YamlDotNet.Core.Events.StreamStart()); emitter.Emit(new YamlDotNet.Core.Events.DocumentStart()); valueSerializer.SerializeValue(emitter, graph, type); emitter.Emit(new YamlDotNet.Core.Events.DocumentEnd(isImplicit: true)); emitter.Emit(new YamlDotNet.Core.Events.StreamEnd()); } } public sealed class SerializerBuilder : BuilderSkeleton<SerializerBuilder> { private class ValueSerializer : IValueSerializer { private readonly IObjectGraphTraversalStrategy traversalStrategy; private readonly IEventEmitter eventEmitter; private readonly IEnumerable<IYamlTypeConverter> typeConverters; private readonly LazyComponentRegistrationList<IEnumerable<IYamlTypeConverter>, IObjectGraphVisitor<Nothing>> preProcessingPhaseObjectGraphVisitorFactories; private readonly LazyComponentRegistrationList<EmissionPhaseObjectGraphVisitorArgs, IObjectGraphVisitor<IEmitter>> emissionPhaseObjectGraphVisitorFactories; public ValueSerializer(IObjectGraphTraversalStrategy traversalStrategy, IEventEmitter eventEmitter, IEnumerable<IYamlTypeConverter> typeConverters, LazyComponentRegistrationList<IEnumerable<IYamlTypeConverter>, IObjectGraphVisitor<Nothing>> preProcessingPhaseObjectGraphVisitorFactories, LazyComponentRegistrationList<EmissionPhaseObjectGraphVisitorArgs, IObjectGraphVisitor<IEmitter>> emissionPhaseObjectGraphVisitorFactories) { this.traversalStrategy = traversalStrategy; this.eventEmitter = eventEmitter; this.typeConverters = typeConverters; this.preProcessingPhaseObjectGraphVisitorFactories = preProcessingPhaseObjectGraphVisitorFactories; this.emissionPhaseObjectGraphVisitorFactories = emissionPhaseObjectGraphVisitorFactories; } public void SerializeValue(IEmitter emitter, object? value, Type? type) { IEmitter emitter2 = emitter; Type type2 = type ?? ((value != null) ? value.GetType() : typeof(object)); Type staticType = type ?? typeof(object); ObjectDescriptor graph = new ObjectDescriptor(value, type2, staticType); List<IObjectGraphVisitor<Nothing>> preProcessingPhaseObjectGraphVisitors = preProcessingPhaseObjectGraphVisitorFactories.BuildComponentList(typeConverters); IObjectGraphVisitor<IEmitter> visitor = emissionPhaseObjectGraphVisitorFactories.BuildComponentChain<EmissionPhaseObjectGraphVisitorArgs, IObjectGraphVisitor<IEmitter>>(new EmittingObjectGraphVisitor(eventEmitter), (IObjectGraphVisitor<IEmitter> inner) => new EmissionPhaseObjectGraphVisitorArgs(inner, eventEmitter, preProcessingPhaseObjectGraphVisitors, typeConverters, NestedObjectSerializer)); foreach (IObjectGraphVisitor<Nothing> item in preProcessingPhaseObjectGraphVisitors) { traversalStrategy.Traverse(graph, item, default(Nothing), NestedObjectSerializer); } traversalStrategy.Traverse(graph, visitor, emitter2, NestedObjectSerializer); void NestedObjectSerializer(object? v, Type? t) { SerializeValue(emitter2, v, t); } } } private ObjectGraphTraversalStrategyFactory objectGraphTraversalStrategyFactory; private readonly LazyComponentRegistrationList<IEnumerable<IYamlTypeConverter>, IObjectGraphVisitor<Nothing>> preProcessingPhaseObjectGraphVisitorFactories; private readonly LazyComponentRegistrationList<EmissionPhaseObjectGraphVisitorArgs, IObjectGraphVisitor<IEmitter>> emissionPhaseObjectGraphVisitorFactories; private readonly LazyComponentRegistrationList<IEventEmitter, IEventEmitter> eventEmitterFactories; private readonly Dictionary<Type, TagName> tagMappings = new Dictionary<Type, TagName>(); private readonly IObjectFactory objectFactory; private int maximumRecursion = 50; private EmitterSettings emitterSettings = EmitterSettings.Default; private DefaultValuesHandling defaultValuesHandlingConfiguration; private ScalarStyle defaultScalarStyle; private bool quoteNecessaryStrings; private bool quoteYaml1_1Strings; protected override SerializerBuilder Self => this; public SerializerBuilder() : base((ITypeResolver)new DynamicTypeResolver()) { typeInspectorFactories.Add(typeof(CachedTypeInspector), (ITypeInspector inner) => new CachedTypeInspector(inner)); typeInspectorFactories.Add(typeof(NamingConventionTypeInspector), (ITypeInspector inner) => (!(namingConvention is NullNamingConvention)) ? new NamingConventionTypeInspector(inner, namingConvention) : inner); typeInspectorFactories.Add(typeof(YamlAttributesTypeInspector), (ITypeInspector inner) => new YamlAttributesTypeInspector(inner)); typeInspectorFactories.Add(typeof(YamlAttributeOverridesInspector), (ITypeInspector inner) => (overrides == null) ? inner : new YamlAttributeOverridesInspector(inner, overrides.Clone())); preProcessingPhaseObjectGraphVisitorFactories = new LazyComponentRegistrationList<IEnumerable<IYamlTypeConverter>, IObjectGraphVisitor<Nothing>> { { typeof(AnchorAssigner), (IEnumerable<IYamlTypeConverter> typeConverters) => new AnchorAssigner(typeConverters) } }; emissionPhaseObjectGraphVisitorFactories = new LazyComponentRegistrationList<EmissionPhaseObjectGraphVisitorArgs, IObjectGraphVisitor<IEmitter>> { { typeof(CustomSerializationObjectGraphVisitor), (EmissionPhaseObjectGraphVisitorArgs args) => new CustomSerializationObjectGraphVisitor(args.InnerVisitor, args.TypeConverters, args.NestedObjectSerializer) }, { typeof(AnchorAssigningObjectGraphVisitor), (EmissionPhaseObjectGraphVisitorArgs args) => new AnchorAssigningObjectGraphVisitor(args.InnerVisitor, args.EventEmitter, args.GetPreProcessingPhaseObjectGraphVisitor<AnchorAssigner>()) }, { typeof(DefaultValuesObjectGraphVisitor), (EmissionPhaseObjectGraphVisitorArgs args) => new DefaultValuesObjectGraphVisitor(defaultValuesHandlingConfiguration, args.InnerVisitor, new DefaultObjectFactory()) }, { typeof(CommentsObjectGraphVisitor), (EmissionPhaseObjectGraphVisitorArgs args) => new CommentsObjectGraphVisitor(args.InnerVisitor) } }; eventEmitterFactories = new LazyComponentRegistrationList<IEventEmitter, IEventEmitter> { { typeof(TypeAssigningEventEmitter), (IEventEmitter inner) => new TypeAssigningEventEmitter(inner, tagMappings, quoteNecessaryStrings, quoteYaml1_1Strings, defaultScalarStyle, yamlFormatter, enumNamingConvention, BuildTypeInspector()) } }; objectFactory = new DefaultObjectFactory(); objectGraphTraversalStrategyFactory = (ITypeInspector typeInspector, ITypeResolver typeResolver, IEnumerable<IYamlTypeConverter> typeConverters, int maximumRecursion) => new FullObjectGraphTraversalStrategy(typeInspector, typeResolver, maximumRecursion, namingConvention, objectFactory); } public SerializerBuilder WithQuotingNecessaryStrings(bool quoteYaml1_1Strings = false) { quoteNecessaryStrings = true; this.quoteYaml1_1Strings = quoteYaml1_1Strings; return this; } public SerializerBuilder WithDefaultScalarStyle(ScalarStyle style) { defaultScalarStyle = style; return this; } public SerializerBuilder WithMaximumRecursion(int maximumRecursion) { if (maximumRecursion <= 0) { throw new ArgumentOutOfRangeException("maximumRecursion", $"The maximum recursion specified ({maximumRecursion}) is invalid. It should be a positive integer."); } this.maximumRecursion = maximumRecursion; return this; } public SerializerBuilder WithEventEmitter<TEventEmitter>(Func<IEventEmitter, TEventEmitter> eventEmitterFactory) where TEventEmitter : IEventEmitter { return WithEventEmitter(eventEmitterFactory, delegate(IRegistrationLocationSelectionSyntax<IEventEmitter> w) { w.OnTop(); }); } public SerializerBuilder WithEventEmitter<TEventEmitter>(Func<IEventEmitter, ITypeInspector, TEventEmitter> eventEmitterFactory) where TEventEmitter : IEventEmitter { return WithEventEmitter(eventEmitterFactory, delegate(IRegistrationLocationSelectionSyntax<IEventEmitter> w) { w.OnTop(); }); } public SerializerBuilder WithEventEmitter<TEventEmitter>(Func<IEventEmitter, TEventEmitter> eventEmitterFactory, Action<IRegistrationLocationSelectionSyntax<IEventEmitter>> where) where TEventEmitter : IEventEmitter { Func<IEventEmitter, TEventEmitter> eventEmitterFactory2 = eventEmitterFactory; return WithEventEmitter((IEventEmitter e, ITypeInspector _) => eventEmitterFactory2(e), where); } public SerializerBuilder WithEventEmitter<TEventEmitter>(Func<IEventEmitter, ITypeInspector, TEventEmitter> eventEmitterFactory, Action<IRegistrationLocationSelectionSyntax<IEventEmitter>> where) where TEventEmitter : IEventEmitter { Func<IEventEmitter, ITypeInspector, TEventEmitter> eventEmitterFactory2 = eventEmitterFactory; if (eventEmitterFactory2 == null) { throw new ArgumentNullException("eventEmitterFactory"); } if (where == null) { throw new ArgumentNullException("where"); } where(eventEmitterFactories.CreateRegistrationLocationSelector(typeof(TEventEmitter), (IEventEmitter inner) => eventEmitterFactory2(inner, BuildTypeInspector()))); return Self; } public SerializerBuilder WithEventEmitter<TEventEmitter>(WrapperFactory<IEventEmitter, IEventEmitter, TEventEmitter> eventEmitterFactory, Action<ITrackingRegistrationLocationSelectionSyntax<IEventEmitter>> where) where TEventEmitter : IEventEmitter { WrapperFactory<IEventEmitter, IEventEmitter, TEventEmitter> eventEmitterFactory2 = eventEmitterFactory; if (eventEmitterFactory2 == null) { throw new ArgumentNullException("eventEmitterFactory"); } if (where == null) { throw new ArgumentNullException("where"); } where(eventEmitterFactories.CreateTrackingRegistrationLocationSelector(typeof(TEventEmitter), (IEventEmitter wrapped, IEventEmitter inner) => eventEmitterFactory2(wrapped, inner))); return Self; } public SerializerBuilder WithoutEventEmitter<TEventEmitter>() where TEventEmitter : IEventEmitter { return WithoutEventEmitter(typeof(TEventEmitter)); } public SerializerBuilder WithoutEventEmitter(Type eventEmitterType) { if (eventEmitterType == null) { throw new ArgumentNullException("eventEmitterType"); } eventEmitterFactories.Remove(eventEmitterType); return this; } public override SerializerBuilder WithTagMapping(TagName tag, Type type) { if (tag.IsEmpty) { throw new ArgumentException("Non-specific tags cannot be maped"); } if (type == null) { throw new ArgumentNullException("type"); } if (tagMappings.TryGetValue(type, out var value)) { throw new ArgumentException($"Type already has a registered tag '{value}' for type '{type.FullName}'", "type"); } tagMappings.Add(type, tag); return this; } public SerializerBuilder WithoutTagMapping(Type type) { if (type == null) { throw new ArgumentNullException("type"); } if (!tagMappings.Remove(type)) { throw new KeyNotFoundException("Tag for type '" + type.FullName + "' is not registered"); } return this; } public SerializerBuilder EnsureRoundtrip() { objectGraphTraversalStrategyFactory = (ITypeInspector typeInspector, ITypeResolver typeResolver, IEnumerable<IYamlTypeConverter> typeConverters, int maximumRecursion) => new RoundtripObjectGraphTraversalStrategy(typeConverters, typeInspector, typeResolver, maximumRecursion, namingConvention, settings, objectFactory); WithEventEmitter((IEventEmitter inner) => new TypeAssigningEventEmitter(inner, tagMappings, quoteNecessaryStrings, quoteYaml1_1Strings, defaultScalarStyle, yamlFormatter, enumNamingConvention, BuildTypeInspector()), delegate(IRegistrationLocationSelectionSyntax<IEventEmitter> loc) { loc.InsteadOf<TypeAssigningEventEmitter>(); }); return WithTypeInspector((ITypeInspector inner) => new ReadableAndWritablePropertiesTypeInspector(inner), delegate(IRegistrationLocationSelectionSyntax<ITypeInspector> loc) { loc.OnBottom(); }); } public SerializerBuilder DisableAliases() { preProcessingPhaseObjectGraphVisitorFactories.Remove(typeof(AnchorAssigner)); emissionPhaseObjectGraphVisitorFactories.Remove(typeof(AnchorAssigningObjectGraphVisitor)); return this; } [Obsolete("The default behavior is now to always emit default values, thefore calling this method has no effect. This behavior is now controlled by ConfigureDefaultValuesHandling.", true)] public SerializerBuilder EmitDefaults() { return ConfigureDefaultValuesHandling(DefaultValuesHandling.Preserve); } public SerializerBuilder ConfigureDefaultValuesHandling(DefaultValuesHandling configuration) { defaultValuesHandlingConfiguration = configuration; return this; } public SerializerBuilder JsonCompatible() { emitterSettings = emitterSettings.WithMaxSimpleKeyLength(int.MaxValue).WithoutAnchorName().WithUtf16SurrogatePairs(); return WithTypeConverter(new YamlDotNet.Serialization.Converters.GuidConverter(jsonCompatible: true), delegate(IRegistrationLocationSelectionSyntax<IYamlTypeConverter> w) { w.InsteadOf<YamlDotNet.Serialization.Converters.GuidConverter>(); }).WithTypeConverter(new DateTime8601Converter(ScalarStyle.DoubleQuoted)).WithEventEmitter((IEventEmitter inner) => new JsonEventEmitter(inner, yamlFormatter, enumNamingConvention, BuildTypeInspector()), delegate(IRegistrationLocationSelectionSyntax<IEventEmitter> loc) { loc.InsteadOf<TypeAssigningEventEmitter>(); }); } public SerializerBuilder WithNewLine(string newLine) { emitterSettings = emitterSettings.WithNewLine(newLine); return this; } public SerializerBuilder WithPreProcessingPhaseObjectGraphVisitor<TObjectGraphVisitor>(TObjectGraphVisitor objectGraphVisitor) where TObjectGraphVisitor : IObjectGraphVisitor<Nothing> { return WithPreProcessingPhaseObjectGraphVisitor(objectGraphVisitor, delegate(IRegistrationLocationSelectionSyntax<IObjectGraphVisitor<Nothing>> w) { w.OnTop(); }); } public SerializerBuilder WithPreProcessingPhaseObjectGraphVisitor<TObjectGraphVisitor>(Func<IEnumerable<IYamlTypeConverter>, TObjectGraphVisitor> objectGraphVisitorFactory) where TObjectGraphVisitor : IObjectGraphVisitor<Nothing> { return WithPreProcessingPhaseObjectGraphVisitor(objectGraphVisitorFactory, delegate(IRegistrationLocationSelectionSyntax<IObjectGraphVisitor<Nothing>> w) { w.OnTop(); }); } public SerializerBuilder WithPreProcessingPhaseObjectGraphVisitor<TObjectGraphVisitor>(TObjectGraphVisitor objectGraphVisitor, Action<IRegistrationLocationSelectionSyntax<IObjectGraphVisitor<Nothing>>> where) where TObjectGraphVisitor : IObjectGraphVisitor<Nothing> { TObjectGraphVisitor objectGraphVisitor2 = objectGraphVisitor; if (objectGraphVisitor2 == null) { throw new ArgumentNullException("objectGraphVisitor"); } if (where == null) { throw new ArgumentNullException("where"); } where(preProcessingPhaseObjectGraphVisitorFactories.CreateRegistrationLocationSelector(typeof(TObjectGraphVisitor), (IEnumerable<IYamlTypeConverter> _) => objectGraphVisitor2)); return this; } public SerializerBuilder WithPreProcessingPhaseObjectGraphVisitor<TObjectGraphVisitor>(Func<IEnumerable<IYamlTypeConverter>, TObjectGraphVisitor> objectGraphVisitorFactory, Action<IRegistrationLocationSelectionSyntax<IObjectGraphVisitor<Nothing>>> where) where TObjectGraphVisitor : IObjectGraphVisitor<Nothing> { Func<IEnumerable<IYamlTypeConverter>, TObjectGraphVisitor> objectGraphVisitorFactory2 = objectGraphVisitorFactory; if (objectGraphVisitorFactory2 == null) { throw new ArgumentNullException("objectGraphVisitorFactory"); } if (where == null) { throw new ArgumentNullException("where"); } where(preProcessingPhaseObjectGraphVisitorFactories.CreateRegistrationLocationSelector(typeof(TObjectGraphVisitor), (IEnumerable<IYamlTypeConverter> typeConverters) => objectGraphVisitorFactory2(typeConverters))); return this; } public SerializerBuilder WithPreProcessingPhaseObjectGraphVisitor<TObjectGraphVisitor>(WrapperFactory<IObjectGraphVisitor<Nothing>, TObjectGraphVisitor> objectGraphVisitorFactory, Action<ITrackingRegistrationLocationSelectionSyntax<IObjectGraphVisitor<Nothing>>> where) where TObjectGraphVisitor : IObjectGraphVisitor<Nothing> { WrapperFactory<IObjectGraphVisitor<Nothing>, TObjectGraphVisitor> objectGraphVisitorFactory2 = objectGraphVisitorFactory; if (objectGraphVisitorFactory2 == null) { throw new ArgumentNullException("objectGraphVisitorFactory"); } if (where == null) { throw new ArgumentNullException("where"); } where(preProcessingPhaseObjectGraphVisitorFactories.CreateTrackingRegistrationLocationSelector(typeof(TObjectGraphVisitor), (IObjectGraphVisitor<Nothing> wrapped, IEnumerable<IYamlTypeConverter> _) => objectGraphVisitorFactory2(wrapped))); return this; } public SerializerBuilder WithPreProcessingPhaseObjectGraphVisitor<TObjectGraphVisitor>(WrapperFactory<IEnumerable<IYamlTypeConverter>, IObjectGraphVisitor<Nothing>, TObjectGraphVisitor> objectGraphVisitorFactory, Action<ITrackingRegistrationLocationSelectionSyntax<IObjectGraphVisitor<Nothing>>> where) where TObjectGraphVisitor : IObjectGraphVisitor<Nothing> { WrapperFactory<IEnumerable<IYamlTypeConverter>, IObjectGraphVisitor<Nothing>, TObjectGraphVisitor> objectGraphVisitorFactory2 = objectGraphVisitorFactory; if (objectGraphVisitorFactory2 == null) { throw new ArgumentNullException("objectGraphVisitorFactory"); } if (where == null) { throw new ArgumentNullException("where"); } where(preProcessingPhaseObjectGraphVisitorFactories.CreateTrackingRegistrationLocationSelector(typeof(TObjectGraphVisitor), (IObjectGraphVisitor<Nothing> wrapped, IEnumerable<IYamlTypeConverter> typeConverters) => objectGraphVisitorFactory2(wrapped, typeConverters))); return this; } public SerializerBuilder WithoutPreProcessingPhaseObjectGraphVisitor<TObjectGraphVisitor>() where TObjectGraphVisitor : IObjectGraphVisitor<Nothing> { return WithoutPreProcessingPhaseObjectGraphVisitor(typeof(TObjectGraphVisitor)); } public SerializerBuilder WithoutPreProcessingPhaseObjectGraphVisitor(Type objectGraphVisitorType) { if (objectGraphVisitorType == null) { throw new ArgumentNullException("objectGraphVisitorType"); } preProcessingPhaseObjectGraphVisitorFactories.Remove(objectGraphVisitorType); return this; } public SerializerBuilder WithObjectGraphTraversalStrategyFactory(ObjectGraphTraversalStrategyFactory objectGraphTraversalStrategyFactory) { this.objectGraphTraversalStrategyFactory = objectGraphTraversalStrategyFactory; return this; } public SerializerBuilder WithEmissionPhaseObjectGraphVisitor<TObjectGraphVisitor>(Func<EmissionPhaseObjectGraphVisitorArgs, TObjectGraphVisitor> objectGraphVisitorFactory) where TObjectGraphVisitor : IObjectGraphVisitor<IEmitter> { return WithEmissionPhaseObjectGraphVisitor(objectGraphVisitorFactory, delegate(IRegistrationLocationSelectionSyntax<IObjectGraphVisitor<IEmitter>> w) { w.OnTop(); }); } public SerializerBuilder WithEmissionPhaseObjectGraphVisitor<TObjectGraphVisitor>(Func<EmissionPhaseObjectGraphVisitorArgs, TObjectGraphVisitor> objectGraphVisitorFactory, Action<IRegistrationLocationSelectionSyntax<IObjectGraphVisitor<IEmitter>>> where) where TObjectGraphVisitor : IObjectGraphVisitor<IEmitter> { Func<EmissionPhaseObjectGraphVisitorArgs, TObjectGraphVisitor> objectGraphVisitorFactory2 = objectGraphVisitorFactory; if (objectGraphVisitorFactory2 == null) { throw new ArgumentNullException("objectGraphVisitorFactory"); } if (where == null) { throw new ArgumentNullException("where"); } where(emissionPhaseObjectGraphVisitorFactories.CreateRegistrationLocationSelector(typeof(TObjectGraphVisitor), (EmissionPhaseObjectGraphVisitorArgs args) => objectGraphVisitorFactory2(args))); return this; } public SerializerBuilder WithEmissionPhaseObjectGraphVisitor<TObjectGraphVisitor>(WrapperFactory<EmissionPhaseObjectGraphVisitorArgs, IObjectGraphVisitor<IEmitter>, TObjectGraphVisitor> objectGraphVisitorFactory, Action<ITrackingRegistrationLocationSelectionSyntax<IObjectGraphVisitor<IEmitter>>> where) where TObjectGraphVisitor : IObjectGraphVisitor<IEmitter> { WrapperFactory<EmissionPhaseObjectGraphVisitorArgs, IObjectGraphVisitor<IEmitter>, TObjectGraphVisitor> objectGraphVisitorFactory2 = objectGraphVisitorFactory; if (objectGraphVisitorFactory2 == null) { throw new ArgumentNullException("objectGraphVisitorFactory"); } if (where == null) { throw new ArgumentNullException("where"); } where(emissionPhaseObjectGraphVisitorFactories.CreateTrackingRegistrationLocationSelector(typeof(TObjectGraphVisitor), (IObjectGraphVisitor<IEmitter> wrapped, EmissionPhaseObjectGraphVisitorArgs args) => objectGraphVisitorFactory2(wrapped, args))); return this; } public SerializerBuilder WithoutEmissionPhaseObjectGraphVisitor<TObjectGraphVisitor>() where TObjectGraphVisitor : IObjectGraphVisitor<IEmitter> { return WithoutEmissionPhaseObjectGraphVisitor(typeof(TObjectGraphVisitor)); } public SerializerBuilder WithoutEmissionPhaseObjectGraphVisitor(Type objectGraphVisitorType) { if (objectGraphVisitorType == null) { throw new ArgumentNullException("objectGraphVisitorType"); } emissionPhaseObjectGraphVisitorFactories.Remove(objectGraphVisitorType); return this; } public SerializerBuilder WithIndentedSequences() { emitterSettings = emitterSettings.WithIndentedSequences(); return this; } public ISerializer Build() { if (FsharpHelper.Instance == null) { FsharpHelper.Instance = new DefaultFsharpHelper(); } return Serializer.FromValueSerializer(BuildValueSerializer(), emitterSettings); } public IValueSerializer BuildValueSerializer() { IEnumerable<IYamlTypeConverter> typeConverters = BuildTypeConverters(); ITypeInspector typeInspector = BuildTypeInspector(); IObjectGraphTraversalStrategy traversalStrategy = objectGraphTraversalStrategyFactory(typeInspector, typeResolver, typeConverters, maximumRecursion); IEventEmitter eventEmitter = eventEmitterFactories.BuildComponentChain(new WriterEventEmitter()); return new ValueSerializer(traversalStrategy, eventEmitter, typeConverters, preProcessingPhaseObjectGraphVisitorFactories.Clone(), emissionPhaseObjectGraphVisitorFactories.Clone()); } public ITypeInspector BuildTypeInspector() { ITypeInspector typeInspector = new ReadablePropertiesTypeInspector(typeResolver, includeNonPublicProperties); if (!ignoreFields) { typeInspector = new CompositeTypeInspector(new ReadableFieldsTypeInspector(typeResolver), typeInspector); } return typeInspectorFactories.BuildComponentChain(typeInspector); } } public class Settings { public bool AllowPrivateConstructors { get; set; } } public abstract class StaticBuilderSkeleton<TBuilder> where TBuilder : StaticBuilderSkeleton<TBuilder> { internal INamingConvention namingConvention = NullNamingConvention.Instance; internal INamingConvention enumNamingConvention = NullNamingConvention.Instance; internal ITypeResolver typeResolver; internal readonly LazyComponentRegistrationList<Nothing, IYamlTypeConverter> typeConverterFactories; internal readonly LazyComponentRegistrationList<ITypeInspector, ITypeInspector> typeInspectorFactories; internal bool includeNonPublicProperties; internal Settings settings; internal YamlFormatter yamlFormatter = YamlFormatter.Default; protected abstract TBuilder Self { get; } internal StaticBuilderSkeleton(ITypeResolver typeResolver) { typeConverterFactories = new LazyComponentRegistrationList<Nothing, IYamlTypeConverter> { { typeof(YamlDotNet.Serialization.Converters.GuidConverter), (Nothing _) => new YamlDotNet.Serialization.Converters.GuidConverter(jsonCompatible: false) } }; typeInspectorFactories = new LazyComponentRegistrationList<ITypeInspector, ITypeInspector>(); this.typeResolver = typeResolver ?? throw new ArgumentNullException("typeResolver"); settings = new Settings(); } public TBuilder WithNamingConvention(INamingConvention namingConvention) { this.namingConvention = namingConvention ?? throw new ArgumentNullException("namingConvention"); return Self; } public TBuilder WithEnumNamingConvention(INamingConvention enumNamingConvention) { this.enumNamingConvention = enumNamingConvention ?? throw new ArgumentNullException("enumNamingConvention"); return Self; } public TBuilder WithTypeResolver(ITypeResolver typeResolver) { this.typeResolver = typeResolver ?? throw new ArgumentNullException("typeResolver"); return Self; } public abstract TBuilder WithTagMapping(TagName tag, Type type); public TBuilder WithTypeConverter(IYamlTypeConverter typeConverter) { return WithTypeConverter(typeConverter, delegate(IRegistrationLocationSelectionSyntax<IYamlTypeConverter> w) { w.OnTop(); }); } public TBuilder WithTypeConverter(IYamlTypeConverter typeConverter, Action<IRegistrationLocationSelectionSyntax<IYamlTypeConverter>> where) { IYamlTypeConverter typeConverter2 = typeConverter; if (typeConverter2 == null) { throw new ArgumentNullException("typeConverter"); } if (where == null) { throw new ArgumentNullException("where"); } where(typeConverterFactories.CreateRegistrationLocationSelector(typeConverter2.GetType(), (Nothing _) => typeConverter2)); return Self; } public TBuilder WithTypeConverter<TYamlTypeConverter>(WrapperFactory<IYamlTypeConverter, IYamlTypeConverter> typeConverterFactory, Action<ITrackingRegistrationLocationSelectionSyntax<IYamlTypeConverter>> where) where TYamlTypeConverter : IYamlTypeConverter { WrapperFactory<IYamlTypeConverter, IYamlTypeConverter> typeConverterFactory2 = typeConverterFactory; if (typeConverterFactory2 == null) { throw new ArgumentNullException("typeConverterFactory"); } if (where == null) { throw new ArgumentNullException("where"); } where(typeConverterFactories.CreateTrackingRegistrationLocationSelector(typeof(TYamlTypeConverter), (IYamlTypeConverter wrapped, Nothing _) => typeConverterFactory2(wrapped))); return Self; } public TBuilder WithoutTypeConverter<TYamlTypeConverter>() where TYamlTypeConverter : IYamlTypeConverter { return WithoutTypeConverter(typeof(TYamlTypeConverter)); } public TBuilder WithoutTypeConverter(Type converterType) { if (converterType == null) { throw new ArgumentNullException("converterType"); } typeConverterFactories.Remove(converterType); return Self; } public TBuilder WithTypeInspector<TTypeInspector>(Func<ITypeInspector, TTypeInspector> typeInspectorFactory) where TTypeInspector : ITypeInspector { return WithTypeInspector(typeInspectorFactory, delegate(IRegistrationLocationSelectionSyntax<ITypeInspector> w) { w.OnTop(); }); } public TBuilder WithTypeInspector<TTypeInspector>(Func<ITypeInspector, TTypeInspector> typeInspectorFactory, Action<IRegistrationLocationSelectionSyntax<ITypeInspector>> where) where TTypeInspector : ITypeInspector { Func<ITypeInspector, TTypeInspector> typeInspectorFactory2 = typeInspectorFactory; if (typeInspectorFactory2 == null) { throw new ArgumentNullException("typeInspectorFactory"); } if (where == null) { throw new ArgumentNullException("where"); } where(typeInspectorFactories.CreateRegistrationLocationSelector(typeof(TTypeInspector), (ITypeInspector inner) => typeInspectorFactory2(inner))); return Self; } public TBuilder WithTypeInspector<TTypeInspector>(WrapperFactory<ITypeInspector, ITypeInspector, TTypeInspector> typeInspectorFactory, Action<ITrackingRegistrationLocationSelectionSyntax<ITypeInspector>> where) where TTypeInspector : ITypeInspector { WrapperFactory<ITypeInspector, ITypeInspector, TTypeInspector> typeInspectorFactory2 = typeInspectorFactory; if (typeInspectorFactory2 == null) { throw new ArgumentNullException("typeInspectorFactory"); } if (where == null) { throw new ArgumentNullException("where"); } where(typeInspectorFactories.CreateTrackingRegistrationLocationSelector(typeof(TTypeInspector), (ITypeInspector wrapped, ITypeInspector inner) => typeInspectorFactory2(wrapped, inner))); return Self; } public TBuilder WithoutTypeInspector<TTypeInspector>() where TTypeInspector : ITypeInspector { return WithoutTypeInspector(typeof(TTypeInspector)); } public TBuilder WithoutTypeInspector(Type inspectorType) { if (inspectorType == null) { throw new ArgumentNullException("inspectorType"); } typeInspectorFactories.Remove(inspectorType); return Self; } public TBuilder WithYamlFormatter(YamlFormatter formatter) { yamlFormatter = formatter ?? throw new ArgumentNullException("formatter"); return Self; } protected IEnumerable<IYamlTypeConverter> BuildTypeConverters() { return typeConverterFactories.BuildComponentList(); } } public abstract class StaticContext { public virtual bool IsKnownType(Type type) { throw new NotImplementedException(); } public virtual ITypeResolver GetTypeResolver() { throw new NotImplementedException(); } public virtual StaticObjectFactory GetFactory() { throw new NotImplementedException(); } public virtual ITypeInspector GetTypeInspector() { throw new NotImplementedException(); } } public sealed class StaticDeserializerBuilder : StaticBuilderSkeleton<StaticDeserializerBuilder> { private readonly StaticContext context; private readonly StaticObjectFactory factory; private readonly LazyComponentRegistrationList<Nothing, INodeDeserializer> nodeDeserializerFactories; private readonly LazyComponentRegistrationList<Nothing, INodeTypeResolver> nodeTypeResolverFactories; private readonly Dictionary<TagName, Type> tagMappings; private readonly ITypeConverter typeConverter; private readonly Dictionary<Type, Type> typeMappings; private bool ignoreUnmatched; private bool duplicateKeyChecking; private bool attemptUnknownTypeDeserialization; private bool enforceNullability; private bool caseInsensitivePropertyMatching; protected override StaticDeserializerBuilder Self => this; public StaticDeserializerBuilder(StaticContext context) : base(context.GetTypeResolver()) { this.context = context; factory = context.GetFactory(); typeMappings = new Dictionary<Type, Type>(); tagMappings = new Dictionary<TagName, Type> { { FailsafeSchema.Tags.Map, typeof(Dictionary<object, object>) }, { FailsafeSchema.Tags.Str, typeof(string) }, { JsonSchema.Tags.Bool, typeof(bool) }, { JsonSchema.Tags.Float, typeof(double) }, { JsonSchema.Tags.Int, typeof(int) }, { DefaultSchema.Tags.Timestamp, typeof(DateTime) } }; typeInspectorFactories.Add(typeof(CachedTypeInspector), (ITypeInspector inner) => new CachedTypeInspector(inner)); typeInspectorFactories.Add(typeof(NamingConventionTypeInspector), (ITypeInspector inner) => (!(namingConvention is NullNamingConvention)) ? new NamingConventionTypeInspector(inner, namingConvention) : inner); typeInspectorFactories.Add(typeof(YamlAttributesTypeInspector), (ITypeInspector inner) => new YamlAttributesTypeInspector(inner)); nodeDeserializerFactories = new LazyComponentRegistrationList<Nothing, INodeDeserializer> { { typeof(YamlConvertibleNodeDeserializer), (Nothing _) => new YamlConvertibleNodeDeserializer(factory) }, { typeof(YamlSerializableNodeDeserializer), (Nothing _) => new YamlSerializableNodeDeserializer(factory) }, { typeof(TypeConverterNodeDeserializer), (Nothing _) => new TypeConverterNodeDeserializer(BuildTypeConverters()) }, { typeof(NullNodeDeserializer), (Nothing _) => new NullNodeDeserializer() }, { typeof(ScalarNodeDeserializer), (Nothing _) => new ScalarNodeDeserializer(attemptUnknownTypeDeserialization, typeConverter, BuildTypeInspector(), yamlFormatter, enumNamingConvention) }, { typeof(StaticArrayNodeDeserializer), (Nothing _) => new StaticArrayNodeDeserializer(factory) }, { typeof(StaticDictionaryNodeDeserializer), (Nothing _) => new StaticDictionaryNodeDeserializer(factory, duplicateKeyChecking) }, { typeof(StaticCollectionNodeDeserializer), (Nothing _) => new StaticCollectionNodeDeserializer(factory) }, { typeof(ObjectNodeDeserializer), (Nothing _) => new ObjectNodeDeserializer(factory, BuildTypeInspector(), ignoreUnmatched, duplicateKeyChecking, typeConverter, enumNamingConvention, enforceNullability, caseInsensitivePropertyMatching, enforceRequiredProperties: false, BuildTypeConverters()) } }; nodeTypeResolverFactories = new LazyComponentRegistrationList<Nothing, INodeTypeResolver> { { typeof(MappingNodeTypeResolver), (Nothing _) => new MappingNodeTypeResolver(typeMappings) }, { typeof(YamlConvertibleTypeResolver), (Nothing _) => new YamlConvertibleTypeResolver() }, { typeof(YamlSerializableTypeResolver), (Nothing _) => new YamlSerializableTypeResolver() }, { typeof(TagNodeTypeResolver), (Nothing _) => new TagNodeTypeResolver(tagMappings) }, { typeof(PreventUnknownTagsNodeTypeResolver), (Nothing _) => new PreventUnknownTagsNodeTypeResolver() }, { typeof(DefaultContainersNodeTypeResolver), (Nothing _) => new DefaultContainersNodeTypeResolver() } }; typeConverter = new NullTypeConverter(); } public ITypeInspector BuildTypeInspector() { ITypeInspector typeInspector = context.GetTypeInspector(); return typeInspectorFactories.BuildComponentChain(typeInspector); } public StaticDeserializerBuilder WithAttemptingUnquotedStringTypeDeserialization() { attemptUnknownTypeDeserialization = true; return this; } public StaticDeserializerBuilder WithNodeDeserializer(INodeDeserializer nodeDeserializer) { return WithNodeDeserializer(nodeDeserializer, delegate(IRegistrationLocationSelectionSyntax<INodeDeserializer> w) { w.OnTop(); }); } public StaticDeserializerBuilder WithNodeDeserializer(INodeDeserializer nodeDeserializer, Action<IRegistrationLocationSelectionSyntax<INodeDeserializer>> where) { INodeDeserializer nodeDeserializer2 = nodeDeserializer; if (nodeDeserializer2 == null) { throw new ArgumentNullException("nodeDeserializer"); } if (where == null) { throw new ArgumentNullException("where"); } where(nodeDeserializerFactories.CreateRegistrationLocationSelector(nodeDeserializer2.GetType(), (Nothing _) => nodeDeserializer2)); return this; } public StaticDeserializerBuilder WithNodeDeserializer<TNodeDeserializer>(WrapperFactory<INodeDeserializer, TNodeDeserializer> nodeDeserializerFactory, Action<ITrackingRegistrationLocationSelectionSyntax<INodeDeserializer>> where) where TNodeDeserializer : INodeDeserializer { WrapperFactory<INodeDeserializer, TNodeDeserializer> nodeDeserializerFactory2 = nodeDeserializerFactory; if (nodeDeserializerFactory2 == null) { throw new ArgumentNullException("nodeDeserializerFactory"); } if (where == null) { throw new ArgumentNullException("where"); } where(nodeDeserializerFactories.CreateTrackingRegistrationLocationSelector(typeof(TNodeDeserializer), (INodeDeserializer wrapped, Nothing _) => nodeDeserializerFactory2(wrapped))); return this; } public StaticDeserializerBuilder WithCaseInsensitivePropertyMatching() { caseInsensitivePropertyMatching = true; return this; } public StaticDeserializerBuilder WithEnforceNullability() { enforceNullability = true; return this; } public StaticDeserializerBuilder WithoutNodeDeserializer<TNodeDeserializer>() where TNodeDeserializer : INodeDeserializer { return WithoutNodeDeserializer(typeof(TNodeDeserializer)); } public StaticDeserializerBuilder WithoutNodeDeserializer(Type nodeDeserializerType) { if (nodeDeserializerType == null) { throw new ArgumentNullException("nodeDeserializerType"); } nodeDeserializerFactories.Remove(nodeDeserializerType); return this; } public StaticDeserializerBuilder WithTypeDiscriminatingNodeDeserializer(Action<ITypeDiscriminatingNodeDeserializerOptions> configureTypeDiscriminatingNodeDeserializerOptions, int maxDepth = -1, int maxLength = -1) { TypeDiscriminatingNodeDeserializerOptions typeDiscriminatingNodeDeserializerOptions = new TypeDiscriminatingNodeDeserializerOptions(); configureTypeDiscriminatingNodeDeserializerOptions(typeDiscriminatingNodeDeserializerOptions); TypeDiscriminatingNodeDeserializer nodeDeserializer = new TypeDiscriminatingNodeDeserializer(nodeDeserializerFactories.BuildComponentList(), typeDiscriminatingNodeDeserializerOptions.discriminators, maxDepth, maxLength); return WithNodeDeserializer(nodeDeserializer, delegate(IRegistrationLocationSelectionSyntax<INodeDeserializer> s) { s.Before<DictionaryNodeDeserializer>(); }); } public StaticDeserializerBuilder WithNodeTypeResolver(INodeTypeResolver nodeTypeResolver) { return WithNodeTypeResolver(nodeTypeResolver, delegate(IRegistrationLocationSelectionSyntax<INodeTypeResolver> w) { w.OnTop(); }); } public StaticDeserializerBuilder WithNodeTypeResolver(INodeTypeResolver nodeTypeResolver, Action<IRegistrationLocationSelectionSyntax<INodeTypeResolver>> where) { INodeTypeResolver nodeTypeResolver2 = nodeTypeResolver; if (nodeTypeResolver2 == null) { throw new ArgumentNullException("nodeTypeResolver"); } if (where == null) { throw new ArgumentNullException("where"); } where(nodeTypeResolverFactories.CreateRegistrationLocationSelector(nodeTypeResolver2.GetType(), (Nothing _) => nodeTypeResolver2)); return this; } public StaticDeserializerBuilder WithNodeTypeResolver<TNodeTypeResolver>(WrapperFactory<INodeTypeResolver, TNodeTypeResolver> nodeTypeResolverFactory, Action<ITrackingRegistrationLocationSelectionSyntax<INodeTypeResolver>> where) where TNodeTypeResolver : INodeTypeResolver { WrapperFactory<INodeTypeResolver, TNodeTypeResolver> nodeTypeResolverFactory2 = nodeTypeResolverFactory; if (nodeTypeResolverFactory2 == null) { throw new ArgumentNullException("nodeTypeResolverFactory"); } if (where == null) { throw new ArgumentNullException("where"); } where(nodeTypeResolverFactories.CreateTrackingRegistrationLocationSelector(typeof(TNodeTypeResolver), (INodeTypeResolver wrapped, Nothing _) => nodeTypeResolverFactory2(wrapped))); return this; } public StaticDeserializerBuilder WithoutNodeTypeResolver<TNodeTypeResolver>() where TNodeTypeResolver : INodeTypeResolver { return WithoutNodeTypeResolver(typeof(TNodeTypeResolver)); } public StaticDeserializerBuilder WithoutNodeTypeResolver(Type nodeTypeResolverType) { if (nodeTypeResolverType == null) { throw new ArgumentNullException("nodeTypeResolverType"); } nodeTypeResolverFactories.Remove(nodeTypeResolverType); return this; } public override StaticDeserializerBuilder WithTagMapping(TagName tag, Type type) { if (tag.IsEmpty) { throw new ArgumentException("Non-specific tags cannot be maped"); } if (type == null) { throw new ArgumentNullException("type"); } if (tagMappings.TryGetValue(tag, out Type value)) { throw new ArgumentException($"Type already has a registered type '{value.FullName}' for tag '{tag}'", "tag"); } tagMappings.Add(tag, type); return this; } public StaticDeserializerBuilder WithTypeMapping<TInterface, TConcrete>() where TConcrete : TInterface { Type typeFromHandle = typeof(TInterface); Type typeFromHandle2 = typeof(TConcrete); if (!typeFromHandle.IsAssignableFrom(typeFromHandle2)) { throw new InvalidOperationException("The type '" + typeFromHandle2.Name + "' does not implement interface '" + typeFromHandle.Name + "'."); } typeMappings[typeFromHandle] = typeFromHandle2; return this; } public StaticDeserializerBuilder WithoutTagMapping(TagName tag) { if (tag.IsEmpty) { throw new ArgumentException("Non-specific tags cannot be maped"); } if (!tagMappings.Remove(tag)) { throw new KeyNotFoundException($"Tag '{tag}' is not registered"); } return this; } public StaticDeserializerBuilder IgnoreUnmatchedProperties() { ignoreUnmatched = true; return this; } public StaticDeserializerBuilder WithDuplicateKeyChecking() { duplicateKeyChecking = true; return this; } public IDeserializer Build() { return Deserializer.FromValueDeserializer(BuildValueDeserializer()); } public IValueDeserializer BuildValueDeserializer() { return new AliasValueDeserializer(new NodeValueDeserializer(nodeDeserializerFactories.BuildComponentList(), nodeTypeResolverFactories.BuildComponentList(), typeConverter, enumNamingConvention, BuildTypeInspector())); } } public sealed class StaticSerializerBuilder : StaticBuilderSkeleton<StaticSerializerBuilder> { private class ValueSerializer : IValueSerializer { private readonly IObjectGraphTraversalStrategy traversalStrategy; private readonly IEventEmitter eventEmitter; private readonly IEnumerable<IYamlTypeConverter> typeConverters; private readonly LazyComponentRegistrationList<IEnumerable<IYamlTypeConverter>, IObjectGraphVisitor<Nothing>> preProcessingPhaseObjectGraphVisitorFactories; private readonly LazyComponentRegistrationList<EmissionPhaseObjectGraphVisitorArgs, IObjectGraphVisitor<IEmitter>> emissionPhaseObjectGraphVisitorFactories; public ValueSerializer(IObjectGraphTraversalStrategy traversalStrategy, IEventEmitter eventEmitter, IEnumerable<IYamlTypeConverter> typeConverters, LazyComponentRegistrationList<IEnumerable<IYamlTypeConverter>, IObjectGraphVisitor<Nothing>> preProcessingPhaseObjectGraphVisitorFactories, LazyComponentRegistrationList<EmissionPhaseObjectGraphVisitorArgs, IObjectGraphVisitor<IEmitter>> emissionPhaseObjectGraphVisitorFactories) { this.traversalStrategy = traversalStrategy; this.eventEmitter = eventEmitter; this.typeConverters = typeConverters; this.preProcessingPhaseObjectGraphVisitorFactories = preProcessingPhaseObjectGraphVisitorFactories; this.emissionPhaseObjectGraphVisitorFactories = emissionPhaseObjectGraphVisitorFactories; } public void SerializeValue(IEmitter emitter, object? value, Type? type) { IEmitter emitter2 =
