/// <summary>隐藏界面</summary> public static void HidePanel(string name) { if (m_panelList.ContainsKey(name)) { m_panelList[name].SetActive(false); } }
private void RemovePlayerByUserId(uint userId) { int i = GetPlayerIndexByUserId(userId); if (i >= 0) { m_data.players.RemoveAt(i); } if (m_mapUserId2Address.ContainsKey(userId)) { m_mapUserId2Address.Remove(userId); } }
public static StoreInfo GetStoreInfo(int id) { if (storeList.ContainsKey(id)) { return(storeList[id]); } return(null); }
public static bool HasView(string name) { if (m_panelList.ContainsKey(name) || m_panelExitList.ContainsKey(name)) { return(true); } return(false); }
internal static void ThreadInit() { int id = Thread.CurrentThread.ManagedThreadId; if (!instanceList.ContainsKey(id)) { instanceList.Add(id, new Instance()); } }
public int Load(object sender, object arg) { DictionaryEx dic = arg as DictionaryEx; int module = (int)dic["module"];// module=1 ,slot=2 int thread = (int)dic["slot"]; if (dic.ContainsKey("module")) { module = (int)dic["module"]; } if (dic.ContainsKey("thread")) { thread = (int)dic["thread"]; } m_TestEngine = new TestEngine(thread); dic["engine"] = m_TestEngine; //St return(0); }
public void SetConfig(DictionaryEx dic) { dicConfig = dic; txtDatapath.Text = dic[tmMarcos.kConfigLogDir] as string; try { if (dic.ContainsKey(tmMarcos.kConfigStationName)) { textBoxStationName.Text = dic[tmMarcos.kConfigStationName] as string; } if (dic.ContainsKey(tmMarcos.kConfigScanBarcode)) { cbScanBarCode.Checked = (bool)((int)dic[tmMarcos.kConfigScanBarcode] == 0?false:true); } } catch (Exception) { cbScanBarCode.Checked = true; } }
public Color GetUniqueColor(int colorId) { if (m_mapColor.ContainsKey(colorId)) { return(m_mapColor[colorId]); } Color c = new Color(random.Rnd(), random.Rnd(), random.Rnd()); m_mapColor.Add(colorId, c); return(c); }
void LoadConfig(string file) { string[] key = { tmMarcos.kConfigLogDir, tmMarcos.kConfigStationName, tmMarcos.kConfigLineName, "profile_path", tmMarcos.kConfigTestFlowPath, }; string[] val = { "C:\\work", //默认路径为C:\\work "Unknown Station", "Unknown Line", Path.Combine(tmEnvironment.AppDir(),"Profile\\Glass_Alsar_test.lua"), Path.Combine(tmEnvironment.AppDir(),"CVS"), }; try { if (!File.Exists(file)) // using default { for (int i = 0; i < key.Length; i++) { m_dicConfig[key[i]] = val[i]; } } else { m_dicConfig.ReadXmlFile(file); for (int i = 0; i < key.Length; i++) { if (!m_dicConfig.ContainsKey(key[i])) { m_dicConfig[key[i]] = val[i]; } } } } catch (System.Exception e) { for (int i = 0; i < key.Length; i++) { m_dicConfig[key[i]] = val[i]; } } finally { } }
public static void CreateView(string resPath, string resDefaultPath, EntityObject entity, Transform parent = null) { ViewObject obj = null; // string recycleType = resPath; bool userRecycler = true; obj = mRecycler.Pop(recycleType) as ViewObject; if (obj == null) { userRecycler = false; //TODO obj = InstanceViewFromPrefab(recycleType, resDefaultPath); } else { if (!obj.gameObject.activeSelf) { obj.gameObject.SetActive(true); } if (parent != null) { obj.transform.SetParent(parent, false); } else { obj.transform.SetParent(mViewRoot, false); } obj.CreateInFactory(entity, recycleType); if (EnableLog && LDebugger.EnableLog) { LDebugger.Log(LOG_TAG, "CreateView() {0}:{1}->{2}:{3},UseRecycler :{4}", entity.GetType().Name, entity.GetHashCode(), obj.GetRecycleType(), obj.GetInstanceID(), userRecycler); } if (mObjectsMap.ContainsKey(entity)) { LDebugger.LogError(LOG_TAG, "CreateView() 不应该存在重复的映射"); } mObjectsMap[entity] = obj; } }
public static void CreateView(string resPath, string resDefaultPath, EntityObject entity, Transform parent = null) { ViewObject viewObj = null; string recycleType = resPath; bool useRecycler = true; viewObj = m_recycler.Pop(recycleType) as ViewObject; if (viewObj == null) { useRecycler = false; viewObj = InstanceViewFromPrefab(recycleType, resDefaultPath); } if (viewObj == null) { return; } if (!viewObj.gameObject.activeSelf) { viewObj.gameObject.SetActive(true); } viewObj.transform.SetParent(parent != null ? parent : m_viewRoot, false); viewObj.CreateInFactory(entity, recycleType); if (EnableLog && Debugger.EnableLog) { Debugger.Log(LOG_TAG, "CreateView() {0}:{1} -> {2}:{3}, UseRecycler:{4}", entity.GetType().Name, entity.GetHashCode(), viewObj.GetRecycleType(), viewObj.GetInstanceID(), useRecycler); } if (m_objMap.ContainsKey(entity)) { Debugger.LogError(LOG_TAG, "CreateView() 不应该存在重复的映射!"); } m_objMap[entity] = viewObj; }
private static IReadOnlyDictionary <string, TEnum> GetNameValuesCore(bool ignoreCase) { #if NET45_OR_GREATER || TARGETS_NETSTANDARD || TARGETS_NETCOREAPP var result = new Dictionary <string, TEnum>(ignoreCase ? StringComparer.OrdinalIgnoreCase : StringComparer.Ordinal); #else var result = new DictionaryEx <string, TEnum>(ignoreCase ? StringComparer.OrdinalIgnoreCase : StringComparer.Ordinal); #endif var names = Enum.GetNames(typeof(TEnum)); var values = GetValuesCore(); for (var i = 0; i < names.Length; i++) { // DONTTOUCH: case may be ignored if (result.ContainsKey(names[i])) { continue; } result.Add(names[i], values[i]); } return(result); }
private static IReadOnlyDictionary <string, TEnum> GetNameValuesCore(bool ignoreCase) { var result = #if LESSTHAN_NET45 new DictionaryEx <string, TEnum>(ignoreCase ? StringComparer.OrdinalIgnoreCase : StringComparer.Ordinal); #else new Dictionary <string, TEnum>(ignoreCase ? StringComparer.OrdinalIgnoreCase : StringComparer.Ordinal); #endif var names = Enum.GetNames(typeof(TEnum)); var values = (TEnum[])Enum.GetValues(typeof(TEnum)); for (var i = 0; i < names.Length; i++) { // DONTTOUCH: case may be ignored if (result.ContainsKey(names[i])) { continue; } result.Add(names[i], values[i]); } return(result); }
public bool ContainsKey(TKey key) { // key could be null return(key == null ? _hasNull : _wrapped.ContainsKey(key)); }
static void hashtable_rehash2_benchmark_impl() { int kHeaderFieldSize = header_fields.Length; #if DEBUG int kRepeatTimes = 200; #else int kRepeatTimes = (kIterations / kHeaderFieldSize / 2); #endif String[] field_str = new String[kHeaderFieldSize]; String[] index_str = new String[kHeaderFieldSize]; for (int i = 0; i < kHeaderFieldSize; ++i) { #if NO_STRING_INTERNING field_str[i] = String.Format("{0}", header_fields[i].ToCharArray()); index_str[i] = String.Format("{0}", i); #else field_str[i] = String.Intern(header_fields[i]); index_str[i] = String.Intern(String.Format("{0}", i)); #endif } { long checksum = 0; int buckets = 128; double totalTime = 0.0; Stopwatch sw = new Stopwatch(); sw.Restart(); for (int i = 0; i < kRepeatTimes; ++i) { DictionaryEx <String, String> dict = new DictionaryEx <String, String>(); for (int j = 0; j < kHeaderFieldSize; ++j) { if (!dict.ContainsKey(field_str[j])) { dict.Add(field_str[j], index_str[j]); } } checksum += dict.Count(); checksum += dict.BucketCount; buckets = 128; dict.Resize(buckets); checksum += dict.BucketCount; for (int j = 0; j < 7; ++j) { buckets *= 2; dict.Resize(buckets); checksum += dict.BucketCount; } } sw.Stop(); totalTime += sw.Elapsed.TotalMilliseconds; //Console.Write("-------------------------------------------------------------------------\n"); Console.Write(" {0,-28} ", "DictionaryEx<String, String>"); Console.Write("sum = {0,-10:g} time: {1,8:f} ms\n", checksum, totalTime); //Console.Write("-------------------------------------------------------------------------\n"); Console.Write("\n"); } }
public void Init() { try { m_object[0].CloseSerial(); if (mConfigInfo.ContainsKey(tmMarcos.kDUT1Config)) { m_object[0].m_ComPort.Setting = mConfigInfo[tmMarcos.kDUT1Config].ToString(); } else { mConfigInfo[tmMarcos.kDUT1Config] = "38400,N,8,1"; } if (mConfigInfo[tmMarcos.kDUT1Com] != null) { m_object[0].m_ComPort.PortName = mConfigInfo[tmMarcos.kDUT1Com].ToString(); } m_object[0].m_ComPort.Open(); } catch (Exception e) { System.Windows.Forms.MessageBox.Show("Open DUTCOM1 Fail " + e.Message + "(E0005)"); } try { m_object[1].CloseSerial(); if (mConfigInfo.ContainsKey(tmMarcos.kDUT2Config)) { m_object[1].m_ComPort.Setting = mConfigInfo[tmMarcos.kDUT2Config].ToString(); } else { mConfigInfo[tmMarcos.kDUT2Config] = "38400,N,8,1"; } if (mConfigInfo[tmMarcos.kDUT2Com] != null) { m_object[1].m_ComPort.PortName = mConfigInfo[tmMarcos.kDUT2Com].ToString(); } m_object[1].m_ComPort.Open(); } catch (Exception e) { System.Windows.Forms.MessageBox.Show("Open DUTCOM2 Fail " + e.Message + "(E0005)"); } try { m_object[2].CloseSerial(); if (mConfigInfo.ContainsKey(tmMarcos.kDUT3Config)) { m_object[2].m_ComPort.Setting = mConfigInfo[tmMarcos.kDUT3Config].ToString(); } else { mConfigInfo[tmMarcos.kDUT3Config] = "38400,N,8,1"; } if (mConfigInfo[tmMarcos.kDUT3Com] != null) { m_object[2].m_ComPort.PortName = mConfigInfo[tmMarcos.kDUT3Com].ToString(); } m_object[2].m_ComPort.Open(); } catch (Exception e) { System.Windows.Forms.MessageBox.Show("Open DUTCOM3 Fail " + e.Message + "(E0005)"); } try { m_object[3].CloseSerial(); if (mConfigInfo.ContainsKey(tmMarcos.kDUT4Config)) { m_object[3].m_ComPort.Setting = mConfigInfo[tmMarcos.kDUT4Config].ToString(); } else { mConfigInfo[tmMarcos.kDUT4Config] = "38400,N,8,1"; } if (mConfigInfo[tmMarcos.kDUT4Com] != null) { m_object[3].m_ComPort.PortName = mConfigInfo[tmMarcos.kDUT4Com].ToString(); } m_object[3].m_ComPort.Open(); } catch (Exception e) { System.Windows.Forms.MessageBox.Show("Open DUTCOM4 Fail " + e.Message + "(E0005)"); } try { m_object[4].CloseSerial(); if (mConfigInfo.ContainsKey(tmMarcos.kDUT5Config)) { m_object[4].m_ComPort.Setting = mConfigInfo[tmMarcos.kDUT5Config].ToString(); } else { mConfigInfo[tmMarcos.kDUT5Config] = "38400,N,8,1"; } if (mConfigInfo[tmMarcos.kDUT5Com] != null) { m_object[4].m_ComPort.PortName = mConfigInfo[tmMarcos.kDUT5Com].ToString(); } m_object[4].m_ComPort.Open(); } catch (Exception e) { System.Windows.Forms.MessageBox.Show("Open DUTCOM5 Fail " + e.Message + "(E0005)"); } try { m_object[5].CloseSerial(); if (mConfigInfo.ContainsKey(tmMarcos.kDUT6Config)) { m_object[5].m_ComPort.Setting = mConfigInfo[tmMarcos.kDUT6Config].ToString(); } else { mConfigInfo[tmMarcos.kDUT6Config] = "38400,N,8,1"; } if (mConfigInfo[tmMarcos.kDUT6Com] != null) { m_object[5].m_ComPort.PortName = mConfigInfo[tmMarcos.kDUT6Com].ToString(); } m_object[5].m_ComPort.Open(); } catch (Exception e) { System.Windows.Forms.MessageBox.Show("Open DUTCOM6 Fail " + e.Message + "(E0005)"); } }
/// <summary> /// Expands the current collection of obscuring <see cref="Graph"/> nodes with all neighbors /// of the specified node, within maximum world distance from the source node.</summary> /// <param name="node"> /// The <see cref="Graph"/> node whose neighbors to examine.</param> /// <remarks><para> /// <b>FindObscuringNodes</b> recursively visits all directly connected nodes, and adds them /// to an internal collection of obscuring nodes if they are opaque. Nodes which are fully /// obscured by other obscuring nodes are removed from the collection. /// </para><para> /// <b>FindObscuringNodes</b> never revisits nodes that were already examined. All visited /// nodes are added to <see cref="NodeArcs"/> for later processing by <see /// cref="FindVisibleNodes"/>.</para></remarks> private void FindObscuringNodes(T node) { // get valid neighbors of current node IList <T> neighbors = Graph.GetNeighbors(node); // recurse into all valid neighbors for (int i = 0; i < neighbors.Count; i++) { T neighbor = neighbors[i]; // skip source and previously visited nodes if (ComparerCache <T> .EqualityComparer.Equals(_source, neighbor) || _nodeArcs.ContainsKey(neighbor)) { continue; } // compute tangential arc and source distance NodeArc arc = CreateNodeArc(neighbor); // skip nodes beyond maximum distance if (_distance > 0 && arc.Distance > _distance) { continue; } // record visited node with tangential arc _nodeArcs.Add(neighbor, arc); // nothing else to do for transparent nodes if (!_isOpaque(neighbor)) { goto nextNeighbor; } /* * Try adding current opaque node to list of all obscuring nodes recorded so far. * * If any single recorded node completely obscures the current node, we skip it. * If the current node completely obscures any recorded nodes, we delete those. * * We also clear the VisiblityFraction for all completely obscured nodes (current * or recorded) so we won't waste time testing them again in FindVisibleNodes. */ foreach (var pair in _obscuringNodes) { int result = arc.IsObscured(pair.Value); if (result < 0) { arc._visibleFraction = 0; goto nextNeighbor; } if (result > 0) { pair.Value._visibleFraction = 0; _removeNodes.Add(pair.Key); } } // remove obscuring nodes that were themselves obscured for (int j = 0; j < _removeNodes.Count; j++) { _obscuringNodes.Remove(_removeNodes[j]); } _removeNodes.Clear(); // add neighbor to obscuring nodes _obscuringNodes.Add(neighbor, arc); nextNeighbor: FindObscuringNodes(neighbor); } }
public GameRecord GetGameRecordByName(string name) { try { if (name == null || name.Length == 0) { return(null); } if (!mRecordSet.ContainsKey(name)) { return(null); } return(mRecordSet[name]); } catch (Exception ex) { LogSystem.Log("Exception:", ex.ToString()); return(null); } }
void LoadConfig(string file) { string[] key = { tmMarcos.kConfigLogDir, tmMarcos.kConfigStationName, tmMarcos.kConfigLineName, "profile_path", tmMarcos.kConfigTestFlowPath, }; string[] val = { "C:\\work", //默认路径为C:\\work "Unknown Station", "Unknown Line", Path.Combine(tmEnvironment.AppDir(),"Profile\\Glass_Alsar_test.lua"), Path.Combine(tmEnvironment.AppDir(),"CVS"), }; string[] UUTkey = { tmMarcos.kUUTEnable0, tmMarcos.kUUTEnable1, tmMarcos.kUUTEnable2, tmMarcos.kUUTEnable3, tmMarcos.kUUTEnable4, tmMarcos.kUUTEnable5, }; bool[] UUTval = { true, false, false, false, false, false, }; try { if (!File.Exists(file)) // using default { for (int i = 0; i < key.Length; i++) { m_dicConfig[key[i]] = val[i]; } for (int i = 0; i < UUTkey.Length; i++) { m_dicConfig[UUTkey[i]] = UUTval[i]; } } else { m_dicConfig.ReadXmlFile(file); for (int i = 0; i < UUTkey.Length; i++) { m_dicConfig[UUTkey[i]] = UUTval[i]; } for (int i = 0; i < key.Length; i++) { if (!m_dicConfig.ContainsKey(key[i])) { m_dicConfig[key[i]] = val[i]; } } } // System.Windows.Forms.MessageBox.Show("加载配置档案!"); string readText = File.ReadAllText("C://1.txt"); string[] a = readText.Split(','); m_frmState.txtFail.Text = a[1]; m_frmState.txtPass.Text = a[0]; m_frmState.textBoxPassRate.Text = a[2]; m_frmState.textBoxFailRate.Text = a[3]; } catch (System.Exception e) { for (int i = 0; i < key.Length; i++) { m_dicConfig[key[i]] = val[i]; } for (int i = 0; i < UUTkey.Length; i++) { m_dicConfig[UUTkey[i]] = UUTval[i]; } } finally { } }
static void dictionary_rehash2_benchmark() { Console.Write("-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=\n"); Console.Write(" dictionary_rehash2_benchmark()\n"); Console.Write("-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=\n"); Console.Write("\n"); int kHeaderFieldSize = header_fields.Length; #if DEBUG int kRepeatTimes = 200; #else int kRepeatTimes = (kIterations / kHeaderFieldSize / 2); #endif string[] field_str = new string[kHeaderFieldSize]; string[] index_str = new string[kHeaderFieldSize]; for (int i = 0; i < kHeaderFieldSize; ++i) { field_str[i] = header_fields[i]; index_str[i] = string.Format("{0}", i); } { long checksum = 0; int buckets = 128; double totalTime = 0.0; Stopwatch sw = new Stopwatch(); sw.Restart(); for (int i = 0; i < kRepeatTimes; ++i) { DictionaryEx <string, string> dict = new DictionaryEx <string, string>(); for (int j = 0; j < kHeaderFieldSize; ++j) { if (!dict.ContainsKey(field_str[j])) { dict.Add(field_str[j], index_str[j]); } } checksum += dict.Count(); checksum += dict.BucketCount; buckets = 128; dict.Resize(buckets); checksum += dict.BucketCount; for (int j = 0; j < 7; ++j) { buckets *= 2; dict.Resize(buckets); checksum += dict.BucketCount; } } sw.Stop(); totalTime += sw.Elapsed.TotalMilliseconds; Console.Write("-------------------------------------------------------------------------\n"); Console.Write(" {0,-28} ", "DictionaryEx<string, string>"); Console.Write("sum = {0,-10:g} time: {1,8:f} ms\n", checksum, totalTime); Console.Write("-------------------------------------------------------------------------\n"); Console.Write("\n"); } }