System.Collections.Generic.Dictionary.Clear()

Here are the examples of the csharp api System.Collections.Generic.Dictionary.Clear() taken from open source projects. By voting up you can indicate which examples are most useful and appropriate.

6968 Examples 7

19 Source : CooldownManager.cs
with GNU Affero General Public License v3.0
from 0ceal0t

public void ResetUI() {
            ObjectIdToMember.Clear();
        }

19 Source : HealthMonitor.cs
with MIT License
from 0ffffffffh

private string RebuildArgList(string argList, string extras)
        {
            if (string.IsNullOrEmpty(extras))
                return argList;

            StringBuilder sb = new StringBuilder();
            string s;
            Dictionary<string, string> eArgs = Helper.ParseOptions(argList);
            Dictionary<string, string> extraDict = Helper.ParseOptions(extras);

            foreach (var key in extraDict.Keys)
            {
                if (eArgs.ContainsKey(key))
                {
                    eArgs[key] = extraDict[key];
                }
                else
                {
                    eArgs.Add(key, extraDict[key]);
                }
            }


            extraDict.Clear();
            extraDict = null;

            foreach (var key in eArgs.Keys)
            {
                sb.AppendFormat("{0} {1} ", key, eArgs[key]);
            }

            s = sb.ToString().TrimEnd();

            eArgs.Clear();
            eArgs = null;

            sb.Clear();
            sb = null;

            return s;
        }

19 Source : RequestObject.cs
with MIT License
from 0ffffffffh

public void Complete()
        {
            RequestBridge.RegisterRequestReceiver(this.serverIoPipe);
            this.items.Clear();
            this.items = null;
        }

19 Source : InternalTalk.cs
with MIT License
from 0ffffffffh

private void ReceiveData(IAsyncResult res)
        {
            byte[] buffer;
            int readLen;

            try
            {
                readLen = sock.EndReceiveFrom(res, ref ep);
            }
            catch (Exception e)
            {
                Log.Error(e.Message);
                return;
            }

            buffer = (byte[])res.AsyncState;

            var talkData = Parse(buffer,readLen);

            if (OnTalk != null)
                OnTalk(talkData);

            talkData.Clear();
            talkData = null;
            buffer = null;

            RegisterReceiver();
        }

19 Source : InternalTalk.cs
with MIT License
from 0ffffffffh

public void DisposeTalkData(ref Dictionary<string, string> data)
        {
            data.Clear();
            data = null;
        }

19 Source : CelesteNetDebugMapComponent.cs
with MIT License
from 0x0ade

public void Cleanup() {
            lock (Ghosts)
                if (Ghosts.Count > 0)
                    Ghosts.Clear();
        }

19 Source : CelesteNetDebugMapComponent.cs
with MIT License
from 0x0ade

public void Handle(CelesteNetConnection con, DataChannelMove move) {
            if (LastArea == null)
                return;

            if (move.Player.ID == Client.PlayerInfo.ID) {
                lock (Ghosts)
                    Ghosts.Clear();
                return;
            }

            lock (Ghosts)
                if (Ghosts.TryGetValue(move.Player.ID, out DebugMapGhost ghost))
                    Ghosts.Remove(move.Player.ID);
        }

19 Source : CelesteNetChatComponent.cs
with MIT License
from 0x0ade

public void Handle(CelesteNetConnection con, DataChat msg) {
            lock (Log) {
                if (msg.Player?.ID == Client.PlayerInfo?.ID) {
                    foreach (DataChat pending in Pending.Values) {
                        Log.Remove(pending);
                        LogSpecial.Remove(pending);
                    }
                    Pending.Clear();
                }

                int index = Log.FindLastIndex(other => other.ID == msg.ID);
                if (index != -1) {
                    Log[index] = msg;
                } else {
                    Log.Add(msg);
                }

                if (msg.Color != Color.White) {
                    index = LogSpecial.FindLastIndex(other => other.ID == msg.ID);
                    if (index != -1) {
                        LogSpecial[index] = msg;
                    } else {
                        LogSpecial.Add(msg);
                    }
                }
            }
        }

19 Source : SpamContext.cs
with MIT License
from 0x0ade

public void Dispose() {
            // TODO: Actually cancel the remaining tasks.
            lock (Timeouts) {
                Timeouts.Clear();
            }
        }

19 Source : UIIconManager.cs
with GNU Affero General Public License v3.0
from 0ceal0t

public void Reset() {
            IconConfigs.Clear();
            Icons.ForEach(x => x.Dispose());
            Icons.Clear();
        }

19 Source : DataContext.cs
with MIT License
from 0x0ade

public void RescreplacedlDataTypes() {
            Logger.Log(LogLevel.INF, "data", "Rescanning all data types");
            IDToDataType.Clear();
            DataTypeToID.Clear();

            RescanDataTypes(CelesteNetUtils.GetTypes());
        }

19 Source : Disassembler.cs
with MIT License
from 0xd4d

public void Disreplacedemble(Formatter formatter, TextWriter output, DisasmInfo method) {
			formatterOutput.writer = output;
			targets.Clear();
			sortedTargets.Clear();

			bool uppercaseHex = formatter.Options.UppercaseHex;

			output.Write(commentPrefix);
			output.WriteLine("================================================================================");
			output.Write(commentPrefix);
			output.WriteLine(method.MethodFullName);
			uint codeSize = 0;
			foreach (var info in method.Code)
				codeSize += (uint)info.Code.Length;
			var codeSizeHexText = codeSize.ToString(uppercaseHex ? "X" : "x");
			output.WriteLine($"{commentPrefix}{codeSize} (0x{codeSizeHexText}) bytes");
			var instrCount = method.Instructions.Count;
			var instrCountHexText = instrCount.ToString(uppercaseHex ? "X" : "x");
			output.WriteLine($"{commentPrefix}{instrCount} (0x{instrCountHexText}) instructions");

			void Add(ulong address, TargetKind kind) {
				if (!targets.TryGetValue(address, out var addrInfo))
					targets[address] = new AddressInfo(kind);
				else if (addrInfo.Kind < kind)
					addrInfo.Kind = kind;
			}
			if (method.Instructions.Count > 0)
				Add(method.Instructions[0].IP, TargetKind.Unknown);
			foreach (ref var instr in method.Instructions) {
				switch (instr.FlowControl) {
				case FlowControl.Next:
				case FlowControl.Interrupt:
					break;

				case FlowControl.UnconditionalBranch:
					Add(instr.NextIP, TargetKind.Unknown);
					if (instr.Op0Kind == OpKind.NearBranch16 || instr.Op0Kind == OpKind.NearBranch32 || instr.Op0Kind == OpKind.NearBranch64)
						Add(instr.NearBranchTarget, TargetKind.Branch);
					break;

				case FlowControl.ConditionalBranch:
				case FlowControl.XbeginXabortXend:
					if (instr.Op0Kind == OpKind.NearBranch16 || instr.Op0Kind == OpKind.NearBranch32 || instr.Op0Kind == OpKind.NearBranch64)
						Add(instr.NearBranchTarget, TargetKind.Branch);
					break;

				case FlowControl.Call:
					if (instr.Op0Kind == OpKind.NearBranch16 || instr.Op0Kind == OpKind.NearBranch32 || instr.Op0Kind == OpKind.NearBranch64)
						Add(instr.NearBranchTarget, TargetKind.Call);
					break;

				case FlowControl.IndirectBranch:
					Add(instr.NextIP, TargetKind.Unknown);
					// Unknown target
					break;

				case FlowControl.IndirectCall:
					// Unknown target
					break;

				case FlowControl.Return:
				case FlowControl.Exception:
					Add(instr.NextIP, TargetKind.Unknown);
					break;

				default:
					Debug.Fail($"Unknown flow control: {instr.FlowControl}");
					break;
				}

				var baseReg = instr.MemoryBase;
				if (baseReg == Register.RIP || baseReg == Register.EIP) {
					int opCount = instr.OpCount;
					for (int i = 0; i < opCount; i++) {
						if (instr.GetOpKind(i) == OpKind.Memory) {
							if (method.Contains(instr.IPRelativeMemoryAddress))
								Add(instr.IPRelativeMemoryAddress, TargetKind.Branch);
							break;
						}
					}
				}
				else if (instr.MemoryDisplSize >= 2) {
					ulong displ;
					switch (instr.MemoryDisplSize) {
					case 2:
					case 4: displ = instr.MemoryDisplacement; break;
					case 8: displ = (ulong)(int)instr.MemoryDisplacement; break;
					default:
						Debug.Fail($"Unknown mem displ size: {instr.MemoryDisplSize}");
						goto case 8;
					}
					if (method.Contains(displ))
						Add(displ, TargetKind.Branch);
				}
			}
			foreach (var map in method.ILMap) {
				if (targets.TryGetValue(map.nativeStartAddress, out var info)) {
					if (info.Kind < TargetKind.BlockStart && info.Kind != TargetKind.Unknown)
						info.Kind = TargetKind.BlockStart;
				}
				else
					targets.Add(map.nativeStartAddress, info = new AddressInfo(TargetKind.Unknown));
				if (info.ILOffset < 0)
					info.ILOffset = map.ilOffset;
			}

			int labelIndex = 0, methodIndex = 0;
			string GetLabel(int index) => LABEL_PREFIX + index.ToString();
			string GetFunc(int index) => FUNC_PREFIX + index.ToString();
			foreach (var kv in targets) {
				if (method.Contains(kv.Key))
					sortedTargets.Add(kv);
			}
			sortedTargets.Sort((a, b) => a.Key.CompareTo(b.Key));
			foreach (var kv in sortedTargets) {
				var address = kv.Key;
				var info = kv.Value;

				switch (info.Kind) {
				case TargetKind.Unknown:
					info.Name = null;
					break;

				case TargetKind.Data:
					info.Name = GetLabel(labelIndex++);
					break;

				case TargetKind.BlockStart:
				case TargetKind.Branch:
					info.Name = GetLabel(labelIndex++);
					break;

				case TargetKind.Call:
					info.Name = GetFunc(methodIndex++);
					break;

				default:
					throw new InvalidOperationException();
				}
			}

			foreach (ref var instr in method.Instructions) {
				ulong ip = instr.IP;
				if (targets.TryGetValue(ip, out var lblInfo)) {
					output.WriteLine();
					if (!(lblInfo.Name is null)) {
						output.Write(lblInfo.Name);
						output.Write(':');
						output.WriteLine();
					}
					if (lblInfo.ILOffset >= 0) {
						if (ShowSourceCode) {
							foreach (var info in sourceCodeProvider.GetStatementLines(method, lblInfo.ILOffset)) {
								output.Write(commentPrefix);
								var line = info.Line;
								int column = commentPrefix.Length;
								WriteWithTabs(output, line, 0, line.Length, '\0', ref column);
								output.WriteLine();
								if (info.Partial) {
									output.Write(commentPrefix);
									column = commentPrefix.Length;
									WriteWithTabs(output, line, 0, info.Span.Start, ' ', ref column);
									output.WriteLine(new string('^', info.Span.Length));
								}
							}
						}
					}
				}

				if (ShowAddresses) {
					var address = FormatAddress(bitness, ip, uppercaseHex);
					output.Write(address);
					output.Write(" ");
				}
				else
					output.Write(formatter.Options.TabSize > 0 ? "\t\t" : "        ");

				if (ShowHexBytes) {
					if (!method.TryGetCode(ip, out var nativeCode))
						throw new InvalidOperationException();
					var codeBytes = nativeCode.Code;
					int index = (int)(ip - nativeCode.IP);
					int instrLen = instr.Length;
					for (int i = 0; i < instrLen; i++) {
						byte b = codeBytes[index + i];
						output.Write(b.ToString(uppercaseHex ? "X2" : "x2"));
					}
					int missingBytes = HEXBYTES_COLUMN_BYTE_LENGTH - instrLen;
					for (int i = 0; i < missingBytes; i++)
						output.Write("  ");
					output.Write(" ");
				}

				formatter.Format(instr, formatterOutput);
				output.WriteLine();
			}
		}

19 Source : MetroWaterfallFlow.cs
with MIT License
from 1217950746

public void Refresh()
        {
            // 初始化参数
            var maxHeight = 0.0;
            var list = new Dictionary<int, Point>();
            var nlist = new Dictionary<int, Dictionary<int, Point>>();
            for (int i = 0; i < Children.Count; i++)
            {
                (Children[i] as FrameworkElement).UpdateLayout();
                list.Add(i, new Point(i, (Children[i] as FrameworkElement).ActualHeight, 0.0));
            }
            for (int i = 0; i < column; i++)
            {
                nlist.Add(i, new Dictionary<int, Point>());
            }

            // 智能排序到 nlist
            for (int i = 0; i < list.Count; i++)
            {
                if (i < column)
                {
                    list[i].Buttom = list[i].Height;
                    nlist[i].Add(nlist[i].Count, list[i]);
                }
                else
                {
                    var b = 0.0;
                    var l = 0;
                    for (int j = 0; j < column; j++)
                    {
                        var jh = nlist[j][nlist[j].Count - 1].Buttom + list[i].Height;
                        if (b == 0.0 || jh < b)
                        {
                            b = jh;
                            l = j;
                        }
                    }
                    list[i].Buttom = b;
                    nlist[l].Add(nlist[l].Count, list[i]);
                }
            }

            // 开始布局
            for (int i = 0; i < nlist.Count; i++)
            {
                for (int j = 0; j < nlist[i].Count; j++)
                {
                    Children[nlist[i][j].Index].SetValue(LeftProperty, i * ActualWidth / column);
                    Children[nlist[i][j].Index].SetValue(TopProperty, nlist[i][j].Buttom - nlist[i][j].Height);
                    Children[nlist[i][j].Index].SetValue(WidthProperty, ActualWidth / column);

                    if (Children[nlist[i][j].Index] is Grid)
                    {
                        ((Children[nlist[i][j].Index] as Grid).Children[0] as FrameworkElement).Margin = Margin;
                    }
                }

                // 不知道为什么如果不写这么一句会出错
                if (nlist.ContainsKey(i))
                {
                    if (nlist[i].ContainsKey(nlist[i].Count - 1))
                    {
                        var mh = nlist[i][nlist[i].Count - 1].Buttom;
                        maxHeight = mh > maxHeight ? mh : maxHeight;
                    }
                }
            }
            Height = maxHeight;
            list.Clear();
            nlist.Clear();
        }

19 Source : CacheBuilder.cs
with GNU General Public License v3.0
from 1330-Studios

public static void Flush() => built.Clear();

19 Source : DynamicProxyAbstract.cs
with MIT License
from 1100100

protected async Task InvokeAsync(object[] args, string route, string serviceName)
        {
            await RemotingInvoke.InvokeAsync(args, route, serviceName, Meta);
            Meta?.Clear();
        }

19 Source : DynamicProxyAbstract.cs
with MIT License
from 1100100

protected async Task<T> InvokeAsync<T>(object[] args, string route, string serviceName)
        {
            var result = await RemotingInvoke.InvokeAsync<T>(args, route, serviceName, Meta);
            Meta?.Clear();
            return result;
        }

19 Source : BloonTaskRunner.cs
with GNU General Public License v3.0
from 1330-Studios

internal static void Quit() {
            bloonQueue.Clear();
            bloonTasks.Clear();
            rand = new(System.DateTime.Now.Millisecond);
        }

19 Source : BssomMap.cs
with MIT License
from 1996v

public void Clear()
        {
            _dict.Clear();
        }

19 Source : ContextDataSlots.cs
with MIT License
from 1996v

public void ClearSlots()
        {
            if (storeSlots != null)
            {
                storeSlots.Clear();
            }
        }

19 Source : DbSetSync.cs
with MIT License
from 2881099

void DbContextExecCommand() {
			_dicUpdateTimes.Clear();
			_ctx.ExecCommand();
		}

19 Source : DbContext.cs
with MIT License
from 2881099

public void Dispose() {
			if (_isdisposed) return;
			try {
				_actions.Clear();

				foreach (var set in _dicSet)
					try {
						set.Value.Dispose();
					} catch { }

				_dicSet.Clear();
				AllSets.Clear();
				
				_uow?.Rollback();
			} finally {
				_isdisposed = true;
				GC.SuppressFinalize(this);
			}
		}

19 Source : DataFilterUtil.cs
with MIT License
from 2881099

internal static void SetRepositoryDataFilter(object repos, Action<FluentDataFilter> scopedDataFilter) {
			if (scopedDataFilter != null) {
				SetRepositoryDataFilter(repos, null);
			}
			if (scopedDataFilter == null) {
				scopedDataFilter = _globalDataFilter;
			}
			if (scopedDataFilter == null) return;
			using (var globalFilter = new FluentDataFilter()) {
				scopedDataFilter(globalFilter);

				var type = repos.GetType();
				Type enreplacedyType = (repos as IBaseRepository).EnreplacedyType;
				if (enreplacedyType == null) throw new Exception("FreeSql.Repository 设置过滤器失败,原因是对象不属于 IRepository");

				var notExists = _dicSetRepositoryDataFilterConvertFilterNotExists.GetOrAdd(type, t => new ConcurrentDictionary<string, bool>());
				var newFilter = new Dictionary<string, LambdaExpression>();
				foreach (var gf in globalFilter._filters) {
					if (notExists.ContainsKey(gf.name)) continue;

					LambdaExpression newExp = null;
					var filterParameter1 = Expression.Parameter(enreplacedyType, gf.exp.Parameters[0].Name);
					try {
						newExp = Expression.Lambda(
							typeof(Func<,>).MakeGenericType(enreplacedyType, typeof(bool)),
							new ReplaceVisitor().Modify(gf.exp.Body, filterParameter1),
							filterParameter1
						);
					} catch {
						notExists.TryAdd(gf.name, true); //防止第二次错误
						continue;
					}
					newFilter.Add(gf.name, newExp);
				}
				if (newFilter.Any() == false) return;

				var del = _dicSetRepositoryDataFilterApplyDataFilterFunc.GetOrAdd(type, t => {
					var reposParameter = Expression.Parameter(type);
					var nameParameter = Expression.Parameter(typeof(string));
					var expressionParameter = Expression.Parameter(
						typeof(Expression<>).MakeGenericType(typeof(Func<,>).MakeGenericType(enreplacedyType, typeof(bool)))
					);
					return Expression.Lambda(
						Expression.Block(
							Expression.Call(reposParameter, type.GetMethod("ApplyDataFilter", BindingFlags.Instance | BindingFlags.NonPublic), nameParameter, expressionParameter)
						),
						new[] {
						reposParameter, nameParameter, expressionParameter
						}
					).Compile();
				});
				foreach (var nf in newFilter) {
					del.DynamicInvoke(repos, nf.Key, nf.Value);
				}
				newFilter.Clear();
			}
		}

19 Source : SerializableDictionary.cs
with MIT License
from 39M

public void OnAfterDeserialize() {
      Clear();

      if (_keys != null && _values != null) {
        int count = Mathf.Min(_keys.Count, _values.Count);
        for (int i = 0; i < count; i++) {
          TKey key = _keys[i];
          TValue value = _values[i];

          if (key == null) {
            continue;
          }

          this[key] = value;
        }
      }

#if !UNITY_EDITOR
      _keys.Clear();
      _values.Clear();
#endif
    }

19 Source : Water.cs
with MIT License
from 3deric

void OnDisable()
        {
            if (m_ReflectionTexture)
            {
                DestroyImmediate(m_ReflectionTexture);
                m_ReflectionTexture = null;
            }
            if (m_RefractionTexture)
            {
                DestroyImmediate(m_RefractionTexture);
                m_RefractionTexture = null;
            }
            foreach (var kvp in m_ReflectionCameras)
            {
                DestroyImmediate((kvp.Value).gameObject);
            }
            m_ReflectionCameras.Clear();
            foreach (var kvp in m_RefractionCameras)
            {
                DestroyImmediate((kvp.Value).gameObject);
            }
            m_RefractionCameras.Clear();
        }

19 Source : ASN1.cs
with BSD 3-Clause "New" or "Revised" License
from 3gstudent

protected static void Init()
        {
            m_Fixup.Clear();
        }

19 Source : HotKeys.cs
with MIT License
from 3RD-Dimension

public static void LoadHotKeys()
        {           
            hotkeyCode.Clear();
            hotkeyDescription.Clear();

            if (!File.Exists(HotKeyFile))
            {
               MainWindow.Logger.Error("Hotkey file not found, going to create default");
                CheckCreateFile.CreateDefaultXML();               
            }
 
            XmlReader r = XmlReader.Create(HotKeyFile);   // "hotkeys.xml");

            while (r.Read())
            {
                if (!r.IsStartElement())
                    continue;

                switch (r.Name)
                {
                    case "Hotkeys":
                        // Get Hotkey Version Number, used for modifying or updating to newer hotkey files (ie if new features are added)
                        if (r["HotkeyFileVer"].Length > 0)
                        {                           
                            CurrentHotKeyFileVersion = Convert.ToInt32(r["HotkeyFileVer"]); // Current Hotkey File Version
                        }
                        break;
                    case "bind":
                        if ((r["keyfunction"].Length > 0) && (r["keycode"] != null))
                        {
                            if (!hotkeyCode.ContainsKey(r["keyfunction"]))
                                hotkeyCode.Add(r["keyfunction"], r["keycode"]);
                            hotkeyDescription.Add(r["keyfunction"], r["key_description"]);
                        }
                        break;
                }              
            }
            r.Close();

            // Check if CurrentFileVersion and NewFileVersion is different and if so, Update the file then reload by running ths process again.
            MainWindow.Logger.Info("Hotkey file found, checking if needing update/modification");
            if (CurrentHotKeyFileVersion < CheckCreateFile.HotKeyFileVer) // If CurrentHotKeyFileVersion does not equal HotKeyFileVer then update is required
            {
                 CheckCreateFile.CheckAndUpdateXMLFile(CurrentHotKeyFileVersion);
             }           
        }

19 Source : AObjectBase.cs
with MIT License
from 404Lcc

public virtual void Dispose()
        {
            if (IsDisposed)
            {
                return;
            }
            ObjectBaseEventSystem.Instance.Remove(this);
            id = 0;
            if (_componentDict.Count > 0)
            {
                foreach (AObjectBase item in _componentDict.Values)
                {
                    item.Dispose();
                }
                _componentDict.Clear();
                _componentDict = null;
            }
            OnDestroy();
            if (Parent != null && !Parent.IsDisposed)
            {
                Parent.RemoveComponent(this);
            }
        }

19 Source : NetObjectCache.cs
with MIT License
from 404Lcc

internal void Clear()
        {
            trapStartIndex = 0;
            rootObject = null;
            if (underlyingList != null) underlyingList.Clear();
            if (stringKeys != null) stringKeys.Clear();
#if !CF && !PORTABLE
            if (objectKeys != null) objectKeys.Clear();
#endif
        }

19 Source : AssetManager.cs
with MIT License
from 404Lcc

public void UnloadAllreplacedets()
        {
            foreach (replacedetData item in replacedetDict.Values)
            {
                Unloadreplacedet(item);
            }
            Resources.UnloadUnusedreplacedets();
            replacedetDict.Clear();
            GC.Collect();
        }

19 Source : SimulationDatabase.cs
with MIT License
from 5argon

internal static void Refresh()
        {
            if (db == null) db = new Dictionary<string, SimulationDevice>();

            db.Clear();

            var deviceDirectory = new System.IO.DirectoryInfo(NotchSimulatorUtility.DevicesFolder);
            if (!deviceDirectory.Exists) return;
            var deviceDefinitions = deviceDirectory.GetFiles("*.device.json");

            foreach (var deviceDefinition in deviceDefinitions)
            {
                SimulationDevice deviceInfo;
                using (var sr = deviceDefinition.OpenText())
                {
                    deviceInfo = JsonUtility.FromJson<SimulationDevice>(sr.ReadToEnd());
                }
                db.Add(deviceInfo.Meta.friendlyName, deviceInfo);
            }
            KeyList = db.Keys.ToArray();
        }

19 Source : UnityARAnchorManager.cs
with MIT License
from 734843327

public void Destroy()
        {
            foreach (ARPlaneAnchorGameObject arpag in GetCurrentPlaneAnchors()) {
                GameObject.Destroy (arpag.gameObject);
            }

            planeAnchorMap.Clear ();
            UnsubscribeEvents();
        }

19 Source : ARFaceAnchor.cs
with MIT License
from 734843327

Dictionary<string, float> GetBlendShapesFromNative(IntPtr blendShapesPtr)
		{
			blendshapesDictionary.Clear ();
			GetBlendShapesInfo (blendShapesPtr, AddElementToManagedDictionary);
			return blendshapesDictionary;
		}

19 Source : DialogueSystem.cs
with MIT License
from 7ark

void ClearIds()
    {
        Ids.Clear();
    }

19 Source : AINavMeshGenerator.cs
with MIT License
from 7ark

private void FillOutGrid()
    {
        grid = new List<Node>();
        positionNodeDictionary.Clear();
        Vector2 currentPoint = new Vector2((size.x - size.width / 2) + pointDistributionSize, (size.y + size.height / 2) - pointDistributionSize);
        int iteration = 0;
        bool alternate = false;
        bool cacheIteration = false;
        int length = -1;
        int yLength = 0;
        while (true)
        {
            iteration++;
            Node newNode = new Node(currentPoint);
            Grid.Add(newNode);
            positionNodeDictionary.Add(currentPoint, newNode);
            currentPoint += new Vector2(pointDistributionSize * 2, 0);
            if (currentPoint.x > size.x + size.width / 2)
            {
                if(length != -1)
                {
                    while(iteration < length)
                    {
                        Node extraNode = new Node(currentPoint);
                        Grid.Add(extraNode);
                        iteration++;
                    }
                }
                else
                {
                    Node extraNode = new Node(currentPoint);
                    Grid.Add(extraNode);
                }
                currentPoint = new Vector2((size.x - size.width / 2) + (alternate ? pointDistributionSize : 0), currentPoint.y - pointDistributionSize);
                alternate = !alternate;
                cacheIteration = true;
                yLength++;
            }
            if (currentPoint.y < size.y - size.height / 2)
            {
                break;
            }
            if(cacheIteration)
            {
                if(length == -1)
                {
                    length = iteration + 1;
                }
                iteration = 0;
                cacheIteration = false;
            }
        }
        for (int i = 0; i < Grid.Count; i++)
        {
            for (int direction = 0; direction < Grid[i].connections.Length; direction++)
            {
                Grid[i].connections[direction] = GetNodeFromDirection(i, (Directions)direction, length);
            }
        }
    }

19 Source : VirtualizingWrapPanel .cs
with MIT License
from 944095635

protected override Size MeasureOverride(Size availableSize)
        {
            if (_itemsControl == null)
            {
                return availableSize;
            }

            _isInMeasure = true;
            _childLayouts.Clear();

            var extentInfo = GetExtentInfo(availableSize);

            EnsureScrollOffsetIsWithinConstrains(extentInfo);

            var layoutInfo = GetLayoutInfo(availableSize, ItemHeight, extentInfo);

            RecycleItems(layoutInfo);

            // Determine where the first item is in relation to previously realized items
            var generatorStartPosition = _itemsGenerator.GeneratorPositionFromIndex(layoutInfo.FirstRealizedItemIndex);

            var visualIndex = 0;

            var currentX = layoutInfo.FirstRealizedItemLeft;
            var currentY = layoutInfo.FirstRealizedLineTop;

            using (_itemsGenerator.StartAt(generatorStartPosition, GeneratorDirection.Forward, true))
            {
                for (var itemIndex = layoutInfo.FirstRealizedItemIndex; itemIndex <= layoutInfo.LastRealizedItemIndex; itemIndex++, visualIndex++)
                {
                    bool newlyRealized;

                    var child = (UIElement)_itemsGenerator.GenerateNext(out newlyRealized);
                    SetVirtualItemIndex(child, itemIndex);

                    if (newlyRealized)
                    {
                        InsertInternalChild(visualIndex, child);
                    }
                    else
                    {
                        // check if item needs to be moved into a new position in the Children collection
                        if (visualIndex < Children.Count)
                        {
                            if (!ReferenceEquals(Children[visualIndex], child))
                            {
                                var childCurrentIndex = Children.IndexOf(child);

                                if (childCurrentIndex >= 0)
                                {
                                    RemoveInternalChildRange(childCurrentIndex, 1);
                                }

                                InsertInternalChild(visualIndex, child);
                            }
                        }
                        else
                        {
                            // we know that the child can't already be in the children collection
                            // because we've been inserting children in correct visualIndex order,
                            // and this child has a visualIndex greater than the Children.Count
                            AddInternalChild(child);
                        }
                    }

                    // only prepare the item once it has been added to the visual tree
                    _itemsGenerator.PrepareItemContainer(child);

                    child.Measure(new Size(ItemWidth, ItemHeight));

                    _childLayouts.Add(child, new Rect(currentX, currentY, ItemWidth, ItemHeight));

                    if (currentX + ItemWidth * 2 >= availableSize.Width)
                    {
                        // wrap to a new line
                        currentY += ItemHeight;
                        currentX = 0;
                    }
                    else
                    {
                        currentX += ItemWidth;
                    }
                }
            }

            RemoveRedundantChildren();
            UpdateScrollInfo(availableSize, extentInfo);

            var desiredSize = new Size(double.IsInfinity(availableSize.Width) ? 0 : availableSize.Width,
                                       double.IsInfinity(availableSize.Height) ? 0 : availableSize.Height);

            _isInMeasure = false;

            return desiredSize;
        }

19 Source : ResourceRepository.cs
with MIT License
from 99x

private PathExecutionParams GetExecutionParams(string method, string reqUrl)
        {
            PathExecutionParams executionParams = null;
            bool isFound = false;
            Dictionary<string, string> variables = null;
            PathExecutionInfo executionInfo = null;

            string[] urlSplit = reqUrl.Split('/');

            if (pathExecutionInfo.ContainsKey(method))
            {

                variables = new Dictionary<string, string>();

                foreach (KeyValuePair<string, PathExecutionInfo> onePath in pathExecutionInfo[method])
                {
                    string[] definedPathSplit = onePath.Key.Split('/');

                    if (definedPathSplit.Length == urlSplit.Length)
                    {
                        variables.Clear();
                        isFound = true;

                        for (int i = 0; i < definedPathSplit.Length; i++)
                        {
                            if (definedPathSplit[i].StartsWith("@"))
                                variables.Add(definedPathSplit[i].Substring(1), urlSplit[i]);
                            else
                            {
                                if (definedPathSplit[i] != urlSplit[i])
                                {
                                    isFound = false;
                                    break;
                                }
                            }
                        }

                    }

                    if (isFound)
                    {
                        executionInfo = onePath.Value;
                        break;
                    }
                }
            }

            if (isFound)
            {
                executionParams = new PathExecutionParams
                {
                    ExecutionInfo = executionInfo,
                    Parameters = variables
                };
            }

            return executionParams;
        }

19 Source : Paradigm.cs
with MIT License
from 8T4

public void Clear() => Syntagmas.Clear();

19 Source : MicroVM.Assembler.cs
with MIT License
from a-downing

public void Reset() {
            statements.Clear();
            symbols.Clear();
            errors.Clear();
            programData.Clear();
            instructions.Clear();
            code.Clear();
            memory = null;
            isrs.Clear();
        }

19 Source : IOPipeLine.cs
with MIT License
from a1q123456

internal void OnHandshakeSuccessful()
        {
            _handshakeContext = null;
            _bufferProcessors.Clear();
            ChunkStreamContext = new ChunkStreamContext(this);
        }

19 Source : AccelChartData.cs
with MIT License
from a1xd

public void Clear()
        {
            AccelPoints.Clear();
            VelocityPoints.Clear();
            GainPoints.Clear();
            OutVelocityToPoints.Clear();
            Array.Clear(LogToIndex, 0, LogToIndex.Length);
        }

19 Source : DynamicOverlayLibrary.cs
with Apache License 2.0
from A7ocin

public void Start()
        {
            if (Application.isPlaying)
            {
                replacedetBundlesUsedDict.Clear();
            }
    #if UNITY_EDITOR
            if (Application.isPlaying)
            {
                ClearEditorAddedreplacedets();
            }
    #endif
        }

19 Source : OverlayLibrary.cs
with Apache License 2.0
from A7ocin

override public void UpdateDictionary()
		{
			ValidateDictionary();
			overlayDictionary.Clear();
			for (int i = 0; i < overlayElementList.Length; i++)
			{
				if (overlayElementList[i])
				{
					var hash = UMAUtils.StringToHash(overlayElementList[i].overlayName);
					if (!overlayDictionary.ContainsKey(hash))
					{
						overlayDictionary.Add(hash, overlayElementList[i]);
					}
				}
			}
		}

19 Source : RaceLibrary.cs
with Apache License 2.0
from A7ocin

override public void UpdateDictionary()
		{
			ValidateDictionary();
			raceDictionary.Clear();
			for (int i = 0; i < raceElementList.Length; i++){
				if (raceElementList[i]){
					raceElementList[i].UpdateDictionary();
					if (!raceDictionary.ContainsKey(raceElementList[i].raceName)){
						raceDictionary.Add(raceElementList[i].raceName, raceElementList[i]);
					}
				}
			}
		}

19 Source : SlotLibrary.cs
with Apache License 2.0
from A7ocin

override public void UpdateDictionary()
		{
			ValidateDictionary();
			slotDictionary.Clear();
			for (int i = 0; i < slotElementList.Length; i++)
			{
				if (slotElementList[i])
				{
					var hash = slotElementList[i].nameHash;
					if (!slotDictionary.ContainsKey(hash))
					{
						slotDictionary.Add(hash, slotElementList[i]);
					}
				}
			}
		}

19 Source : UMABonePoseEditorContext.cs
with Apache License 2.0
from A7ocin

private void UpdateMirrors()
		{
			mirrors.Clear();

			if ((umaData != null) && (umaData.umaRoot != null))
			{
				FindMirroredTransforms(umaData.umaRoot.transform, mirrors);
			}
		}

19 Source : DynamicCharacterSystem.cs
with Apache License 2.0
from A7ocin

public override void Init()
		{
			if (initialized || isInitializing)
			{
				return;
			}
			if (context == null)
			{
				context = UMAContext.FindInstance();
			}
			isInitializing = true;

			Recipes.Clear();
			var possibleRaces = (context.raceLibrary as DynamicRaceLibrary).GetAllRaces();
			for (int i = 0; i < possibleRaces.Length; i++)
			{
				//we need to check that this is not null- the user may not have downloaded it yet
				if (possibleRaces[i] == null)
					continue;
				if (possibleRaces[i].raceName == "RaceDataPlaceholder")
					continue;
				if (Recipes.ContainsKey(possibleRaces[i].raceName))
				{
					Debug.LogWarning("Warning: multiple races found for key:" + possibleRaces[i].raceName);
				}
				else
				{
					Recipes.Add(possibleRaces[i].raceName, new Dictionary<string, List<UMATextRecipe>>());
				}
			}

			GatherCharacterRecipes();
			GatherRecipeFiles();
			initialized = true;
			isInitializing = false;
		}

19 Source : DynamicRaceLibrary.cs
with Apache License 2.0
from A7ocin

public void Start()
		{
			if (Application.isPlaying)
			{
				replacedetBundlesUsedDict.Clear();
			}
	#if UNITY_EDITOR
			if (Application.isPlaying)
			{
				ClearEditorAddedreplacedets();
			}
			allStartingreplacedetsAdded = false;//make this false to that loading new scenes makes the library update
			allreplacedetsAddedInEditor = false;
	#endif
		}

19 Source : DynamicSlotLibrary.cs
with Apache License 2.0
from A7ocin

public void Start()
        {
            if (Application.isPlaying)
            {
                replacedetBundlesUsedDict.Clear();
            }
    #if UNITY_EDITOR
            if (Application.isPlaying)
            {

                ClearEditorAddedreplacedets();
            }
    #endif
        }

19 Source : UMAAssetIndexer.cs
with Apache License 2.0
from A7ocin

private void BuildStringTypes()
		{
			TypeFromString.Clear();
			foreach (System.Type st in Types)
			{
				TypeFromString.Add(st.Name, st);
			}
		}

19 Source : RaceData.cs
with Apache License 2.0
from A7ocin

public void UpdateDictionary()
	    {
	        raceDictionary.Clear();
	        for (int i = 0; i < dnaConverterList.Length; i++)
	        {
	            if (dnaConverterList[i])
	            {
                    dnaConverterList[i].Prepare();
	                if (!raceDictionary.ContainsKey(dnaConverterList[i].DNAType))
	                {
	                    raceDictionary.Add(dnaConverterList[i].DNAType, dnaConverterList[i].ApplyDnaAction);
	                }
	            }
	        }
	    }

See More Examples