private void Set(int index, T value)
{
if (Keys.Count == 0)
{
Keys.Add(index);
Values.Add(value);
}
else
{
var itemIndex = Keys.BinarySearch(index);
if (itemIndex >= 0)
{
Values[itemIndex] = value;
}
else
{
Keys.Insert(~itemIndex, index);
Values.Insert(~itemIndex, value);
}
if (Keys.Count != Values.Count)
{
Console.WriteLine("Break!");
}
}
}
public void Add(KeyValuePair <TKey, TValue> data)
{
KeyValueNode <TKey, TValue> node = new KeyValueNode <TKey, TValue>(data);
if (!Contains(data))
{
if (head == null)
{
head = node;
}
else
{
tail.Next = node;
}
tail = node;
Count++;
Keys.Add(data.Key);
Values.Add(data.Value);
Notify?.Invoke($"Added key {data.Key}, value {data.Value}");
}
else
{
throw new ArgumentException($"Key {data.Key} is already in the dictionary");
}
}
public virtual void AddKey(string key)
{
if (!Keys.Contains(key))
{
Keys.Add(key);
}
}
private void OpenFile(string filename)
{
var file = new W3StringFile();
try
{
var stream = new BinaryReader(new FileStream(filename, FileMode.Open, FileAccess.Read));
file.Read(stream);
stream.Close();
}
catch (Exception)
{
return;
}
foreach (var item in file.block1)
{
if (!Lines.ContainsKey(item.str_id))
{
Lines.Add(item.str_id, new List <W3StringBlock1>());
}
Lines[item.str_id].Add(item);
}
foreach (var item in file.block2)
{
if (!Keys.ContainsKey(item.str_id))
{
Keys.Add(item.str_id, true);
}
}
}
private void h_Fill()
{
Keys.Add(new Key(EKeyType.Normal, "1", "!"));
Keys.Add(new Key(EKeyType.Normal, "2", "@"));
Keys.Add(new Key(EKeyType.CapsLock, "CapsLock", String.Empty));
// TODO...
}
public HashSet <Document> this[Clue key]
{
get
{
for (int i = 0; i < Keys.Count; i++)
{
if (Keys[i] == key)
{
return(Values[i]);
}
}
// Otherwise create one
Keys.Add(key);
HashSet <Document> newValue = new HashSet <Document>();
Values.Add(newValue);
return(newValue);
}
set
{
for (int i = 0; i < Keys.Count; i++)
{
if (Keys[i] == key)
{
Values[i] = value; return;
}
}
// Otherwise create one
Keys.Add(key);
Values.Add(value);
}
}
/// <summary>
/// Sets the provided value in the state to correspond with the provided key, in the scope indicated by the Scope property, and in the group indicated by the GroupKey property.
/// </summary>
/// <param name="key">The key to assign to the provided value.</param>
/// <param name="value">The value to save to state along with the provided key, prefixed by scope and group key.</param>
public void SetStateValue(string key, T value)
{
string fullKey = GetStateKey(groupKey, key);
switch (Scope)
{
case StateScope.Application:
StateAccess.State.SetApplication(fullKey, value);
break;
case StateScope.Session:
StateAccess.State.SetSession(fullKey, value);
break;
case StateScope.Operation:
StateAccess.State.SetOperation(fullKey, value);
break;
}
if (value == null)
{
// Remove the key
Keys.Remove(key);
RemoveStateValue(key);
}
else
{
if (!Keys.Contains(key))
{
Keys.Add(key);
}
}
}
public PSDatabaseAccountListKeys(DatabaseAccountListConnectionStringsResult databaseAccountConnectionString)
{
foreach (DatabaseAccountConnectionString connectionString in databaseAccountConnectionString.ConnectionStrings)
{
Keys.Add(connectionString.Description, connectionString.ConnectionString);
}
}
public PSDatabaseAccountListKeys(DatabaseAccountListKeysResult databaseAccountListKeysResult)
{
Keys.Add("PrimaryMasterKey", databaseAccountListKeysResult.PrimaryMasterKey);
Keys.Add("SecondaryMasterKey", databaseAccountListKeysResult.SecondaryMasterKey);
Keys.Add("PrimaryReadonlyMasterKey", databaseAccountListKeysResult.PrimaryReadonlyMasterKey);
Keys.Add("SecondaryReadonlyMasterKey", databaseAccountListKeysResult.SecondaryReadonlyMasterKey);
}
/// <summary>
/// Create a simple command item with multiple commands.
/// </summary>
/// <param name="name">Display name.</param>
/// <param name="actions">Actions to execute.</param>
/// <param name="description">Item description.</param>
/// <param name="iconPath">Path to icon.</param>
public CommandItem(string name, IList <CommandAction> actions, string description = null, string iconPath = null)
{
TopLeft = name;
BottomLeft = description;
if (!string.IsNullOrWhiteSpace(name))
{
Keys.Add(new CommandItemKey {
Key = name, Weight = 1f
});
}
if (!string.IsNullOrWhiteSpace(description))
{
Keys.Add(new CommandItemKey {
Key = description, Weight = 0.9f
});
}
if (actions is IList <CommandAction> )
{
foreach (var action in actions)
{
Actions.Add(action);
}
}
if (!string.IsNullOrEmpty(iconPath))
{
if (Uri.TryCreate(iconPath, UriKind.RelativeOrAbsolute, out var uri))
{
Icon = uri;
}
}
}
public UserRepository(IConfiguration _config) : base(_config)
{
this._config = _config;
Keys.Add("id");
TableName = "dbo.\"IdentityUser\"";
// _MappingM2DB = Models.Mapping.MappingM2DB.BeanMap;
DefaultTypeMap.MatchNamesWithUnderscores = true;
//build GetByID sql query
GetByIdString = "SELECT * FROM " + TableName + " WHERE " + "\"Id\" = @Id";
//GetAll sql query
// GetAllString = "SELECT * FROM" + " " + TableName + "INNER JOIN " + TableName +
// "_image on name = bean_name " +
// "INNER JOIN image_file_name = file_name where content_type = 'preview'";
GetAllString = "select * from " + TableName;
//Update sql query: UpdateString = "UPDATE table SET property1=@property1, property2=@property2... WHERE key1=@key1, key2=@key2...";
//Delete sql query
DeleteString = "DELETE FROM" + " " + TableName + " WHERE \"Id\" = @Id";
}
public void Split(TKey Key, T Value, int RightSibling, BNode <T, TKey> NewNode, ref TKey UpwardMovingKey, T UpwardMovingValue)
{
Keys.Add(KeyFactory.CreateNull());
Values.Add(Value);
ChildrenPointers.Add(SizesNSpecialCharacters.NullPointer);
Insert(Key, Value, RightSibling, false);
UpwardMovingKey = Keys[Middle];
UpwardMovingValue = Values[Middle];
Keys[Middle] = KeyFactory.CreateNull();
int j = 0;
for (int i = Middle + 1; i < Keys.Count; i++)
{
NewNode.Keys[j] = Keys[i];
NewNode.Values[j] = Values[i];
Keys[i] = KeyFactory.CreateNull();
j++;
}
j = 0;
for (int i = Middle + 1; i < ChildrenPointers.Count; i++)
{
NewNode.ChildrenPointers[j] = ChildrenPointers[i];
ChildrenPointers[i] = SizesNSpecialCharacters.NullPointer;
j++;
}
Keys.RemoveAt(Keys.Count - 1);
Values.RemoveAt(Values.Count - 1);
ChildrenPointers.RemoveAt(ChildrenPointers.Count - 1);
}
public virtual void Write(string name, object obj)
{
lock (Sync)
{
ObjectKey key;
Keys.TryGetValue(name, out key);
if (key != null)
{
key.obj = obj;
key.Init(this);
}
else
{
key = new ObjectKey(this, name, obj);
Keys.Add(name, key);
this.keysNumber++;
}
key.DateTime = DateTime.Now;
if (key.TypeId == ObjectType.DataSeries)
{
((DataSeries)obj).Init(this, key);
}
WriteKey(key);
}
}
/// <summary>
/// Establece las claves Primarias y foraneas de un objeto Table (No se usa actualmente)
/// </summary>
/// <param name="pDttClave"></param>
/// <param name="pClavesPrimarias"></param>
/// <param name="pClavesForaneas"></param>
private void SetKeys(DataTable pDttClave, Keys pClavesPrimarias, Keys pClavesForaneas)
{
foreach (DataRow oClaveRow in pDttClave.Rows)
{
Key wClave = new Key();
wClave.Name = oClaveRow["cKeyCol1"].ToString();
wClave.ConstraintName = oClaveRow["cName"].ToString();
wClave.ConstraintType = oClaveRow["cType"].ToString();
if (!oClaveRow.IsNull("cGroupName"))
{
wClave.GroupName = oClaveRow["cGroupName"].ToString();
}
if (wClave.GroupName == "PRIMARY")
{
pClavesPrimarias.Add(wClave);
}
else
{
pClavesForaneas.Add(wClave);
}
}
}
private void GetIconOverlayKeys()
{
try
{
_overlayRegistryKey = Registry.LocalMachine.OpenSubKey("SOFTWARE\\Microsoft\\Windows\\CurrentVersion\\Explorer\\ShellIconOverlayIdentifiers", true);
}
catch (SecurityException ex)
{
MessageBox.Show(Application.Current.MainWindow, ex.Message, App.MessageBoxCaption, MessageBoxButton.OK, MessageBoxImage.Error);
return;
}
if (_overlayRegistryKey != null)
{
KeyName = _overlayRegistryKey.Name;
foreach (var subKeyName in _overlayRegistryKey.GetSubKeyNames())
{
Keys.Add(new RegistryKeyEntryViewModel {
Name = subKeyName, Priorities = _priorities
});
KeyCount++;
}
}
AppGroups = new ObservableCollection <AppGroupViewModel>(Keys.GroupBy(key => Regex.Replace(key.Name.Trim(), @"[\d-]", " ").Split(' ')[0]).Select(x => new AppGroupViewModel(x.Key, x, _priorities)));
}
private SetResponse SaveSet(string key = null)
{
var updateBuilder = new UpdateSet.Builder(DefaultAdds, null)
.WithBucketType(BucketType)
.WithBucket(Bucket)
.WithTimeout(TimeSpan.FromMilliseconds(20000));
if (!string.IsNullOrEmpty(key))
{
updateBuilder.WithKey(key);
}
UpdateSet cmd = updateBuilder.Build();
RiakResult rslt = client.Execute(cmd);
Assert.IsTrue(rslt.IsSuccess, rslt.ErrorMessage);
SetResponse response = cmd.Response;
Keys.Add(response.Key);
Assert.True(EnumerableUtil.NotNullOrEmpty(response.Context));
return(response);
}
/// <summary>
/// Constructor
/// </summary>
/// <param name="token"></param>
/// <param name="parent"></param>
public ClassApi(JToken token, ClassApi parent)
{
Name = token["text"].ToString();
IndexName = Name.Replace("{", "").Replace("}", "");
Parent = parent;
Resource = token["path"].ToString();
Keys.AddRange(parent.Keys);
parent.SubClasses.Add(this);
IsIndexed = token["text"].ToString().StartsWith("{");
if (IsIndexed)
{
Keys.Add(IndexName);
}
if (token["info"] != null)
{
Methods.AddRange(token["info"].Select(a => new MethodApi(a.Parent[((JProperty)a).Name], this)).ToArray());
}
//tree children
if (token["children"] != null)
{
foreach (var child in token["children"])
{
new ClassApi(child, this);
}
}
}
/// <summary>
/// Shows the menu items and return the user's choice
/// </summary>
/// <returns>string with the user selected option</returns>
public string Show()
{
var tokenizer = new AcceleratorCharTokenizer();
int i = 0;
Keys.Clear();
foreach (var item in Items)
{
if (Options.NumerationStyle == MenuNumeration.AcceleratorKey)
{
Console.WriteLine(tokenizer.Parse(item));
Keys.Add(GetAcceleratorChar(item).ToString());
}
else
{
(string key, IEnumerable <ColorToken> tokens) = ComposeMenuItem(i, item);
Console.WriteLine(tokens);
Keys.Add(key);
}
i++;
}
Console.Ask(BuildMessage());
string value = Console.ReadLine <string>(x => IsDefaultValue(x) || Keys.Contains(x));
return(IsDefaultValue(value) ? Options.DefaultItem : value);
}
public override void Parse(byte[] contents)
{
if (contents.Length < 2)
{
throw new ArgumentOutOfRangeException(string.Format("length mismatch - expected at least 2, got {0} - {1}", contents.Length.ToString(), BitConverter.ToString(contents)));
}
/* message id */
MessageIdAcknowledged = (MessageId)contents[0];
/* number of items */
NumberOfItems |= contents[1];
/* items */
if ((NumberOfItems == 0) && (contents.Length == 2))
{
return;
}
else if (((NumberOfItems * 4) % (contents.Length - 2)) == 0)
{
for (int i = 0; i < NumberOfItems; i++)
{
byte[] status = new byte[4];
Array.Copy(contents, 2 + (i * 4), status, 0, 4);
KeyStatus status2 = new KeyStatus();
status2.Parse(status);
Keys.Add(status2);
}
}
else
{
throw new Exception("number of items field and length mismatch");
}
}
public void Push(int k)
{
if (Keys.Count == 3)
{
throw new InvalidOperationException("Cannot push value into a 3 keys node");
}
if (Keys.Count == 0)
{
Keys.Add(k);
}
else
{
int left = 0;
for (int x = 0; x < Keys.Count; x++)
{
if (left <= k && k < Keys[x])
{
Keys.Insert(x, k);
return;
}
else
{
left = Keys[x];
}
}
Keys.Add(k);
}
}
private void OpenFile(string filename)
{
var file = new W3StringFile();
try
{
var stream = new BinaryReader(new FileStream(filename, FileMode.Open, FileAccess.Read));
file.Read(stream);
stream.Close();
}
catch (Exception)
{
//MessageBox.Show(string.Format("There was an error trying to open {0}.", filename), "Opening file failed.");
return;
}
foreach (var item in file.block1)
{
if (!Lines.ContainsKey(item.str_id))
{
Lines.Add(item.str_id, new List <W3StringBlock1>());
}
Lines[item.str_id].Add(item);
}
foreach (var item in file.block2)
{
if (!Keys.ContainsKey(item.str_id))
{
Keys.Add(item.str_id, true);
}
}
}
/// <summary>
/// 自动根据参数调整图像大小
/// </summary>
public void Fit(float Xstart, float Xend, float Ystart, float Yend, float Xslice, float Yslice)
{
Xsl = Xslice;
Ysl = Yslice;
YSliceValue = Yslice;
XSliceBegin = Xstart;
//计算字体距离
intFontSpace = FontSize + 5;
//计算图像边距
float fltSpace = Math.Min(Width / 6, Height / 6);
XSpace = fltSpace;
YSpace = fltSpace;
//计算X轴刻度宽度
XSlice = (Width - 2 * XSpace) / ((Xend - Xstart) / Xslice);
int num = (int)((Xend - Xstart) / Xslice);
for (int g = 0; g <= num; g++)
{
Keys.Add(Xstart + Xslice * g);
}
//计算Y轴刻度宽度和Y轴刻度开始值
float fltMinValue = 0;
float fltMaxValue = 0;
YSliceBegin = Ystart;
int intYSliceCount = (int)((Yend - Ystart) / Yslice);
if ((Yend - Ystart) % Yslice != 0)
{
intYSliceCount++;
}
YSlice = (Height - 2 * YSpace) / intYSliceCount;//y轴大间隔宽度,个数是5
}
/// <summary>
/// Creates an instance with bucket name, keys and quiet flag.
/// </summary>
/// <param name="bucketName">bucket name</param>
/// <param name="keys">object keys to delete</param>
/// <param name="quiet">true: quiet mode; false: detail mode</param>
public DeleteObjectsRequest(string bucketName, IList <string> keys, bool quiet)
{
if (keys == null)
{
throw new ArgumentException("The list of keys to be deleted should not be null");
}
if (keys.Count <= 0)
{
throw new ArgumentException("No any keys specified.");
}
if (keys.Count > OssUtils.DeleteObjectsUpperLimit)
{
throw new ArgumentException("Count of objects to be deleted exceeds upper limit");
}
BucketName = bucketName;
foreach (var key in keys)
{
OssUtils.CheckObjectKey(key);
Keys.Add(key);
}
Quiet = quiet;
}
public void Load(string key, string name)
{
Keys.Add(key);
var ch = name[0];
var node = Nodes.FirstOrDefault(q => q.Char == ch);
if (node == null)
{
node = new NameTree();
node.Char = ch;
//node.IsNum = "0123456789".Contains(ch);
node.Name = this.Name + ch;
this.Nodes.Add(node);
}
if (name.Length == 1)
{
node.CurKeys.Add(key);
}
else
{
var next = name.Substring(1);
node.NextKeys.Add(key);
node.Load(key, next);
}
}
private bool AddSetCombinations(
Keys <TKey> .Enumerator startEnumerator,
int currentElement,
int offset,
Keys <TKey> currentCombination)
{
bool found = false;
for (int loop = offset + currentElement; !found && loop < set.Count - elements + currentElement + 1; loop++)
{
// Add key
currentCombination.Add(startEnumerator.Current);
// need another element?
if (currentElement + 1 < this.elements)
{
Keys <TKey> .Enumerator nextEnumerator = startEnumerator;
nextEnumerator.MoveNext();
found = this.AddSetCombinations(nextEnumerator, currentElement + 1, offset, currentCombination);
}
else
{
found = this.setTester.Test(currentCombination, this.set);
}
currentCombination.Remove(startEnumerator.Current);
startEnumerator.MoveNext();
offset += 1;
}
return(found);
}
public void AddField(string name, JSONObject obj)
{
if (obj)
{
// Don't do anything if the object is null
if (ObjectType != Type.Object)
{
if (Keys == null)
{
Keys = new List <string>();
}
if (ObjectType == Type.Array)
{
for (var i = 0; i < List.Count; i++)
{
Keys.Add(i + string.Empty);
}
}
else if (List == null)
{
List = new List <JSONObject>();
}
ObjectType = Type.Object; // Congratulations, son, you're an OBJECT now
}
Keys.Add(name);
List.Add(obj);
}
}
/// <summary>Fixed the update.</summary>
public override void FixedUpdate()
{
for (int i = 0; i < KeyboardsValues.Length; i++)
{
TempKey = Enum.Parse <SFML.Window.Keyboard.Key>(KeyboardsNames[i]);
if (SFML.Window.Keyboard.IsKeyPressed(TempKey))
{
if (!Keys.Contains(KeyboardsValues[i]))
{
Keys.Add(KeyboardsValues[i]);
PressDown(KeyboardsValues[i]);
OnPressDownKey.Invoke(this, KeyboardsValues[i]);
}
PressKey(KeyboardsValues[i]);
OnPressKey.Invoke(this, KeyboardsValues[i]);
}
else
{
if (Keys.Contains(KeyboardsValues[i]))
{
Keys.Remove(KeyboardsValues[i]);
PressUp(KeyboardsValues[i]);
OnReleaseKey.Invoke(this, KeyboardsValues[i]);
}
}
}
}
static JoystickKeys()
{
using (var reader = new StringReader(JoystickKeysResources.JoystickTxt))
{
string line;
while ((line = reader.ReadLine()) != null)
{
if (string.IsNullOrWhiteSpace(line))
{
continue;
}
int s1 = line.Length <= 1 ? -1 : line.IndexOf('!', 1);
if (s1 == -1)
{
continue;
}
int s2 = line.Length <= s1 + 1 ? -1 : line.IndexOf(' ', s1 + 1);
if (s2 == -1)
{
continue;
}
string keyString = line.Substring(s1 + 1, s2 - s1 - 1);
int key = int.Parse(keyString, CultureInfo.InvariantCulture);
string description = line.Substring(s2 + 1);
Keys.Add(key, description);
}
}
}
public void Parse(PatternEntryViewModel sender)
{
if (sender.PatternKeysList.Count > 0)
{
if (sender.PatternKeysList.Where(w => w.PatternEntryKeyVisibility.Equals(Visibility.Visible)).Count() > 0)
{
var split = sender.PatternDownloadLinkText.Split('/');
for (int ind = 0; ind < split.Count(); ind++)
{
if (split[ind].Contains(KeySeparator))
{
var keySplit = split[ind].Split(new string[] { KeySeparator }, StringSplitOptions.None);
for (int keyInd = 1; keyInd < keySplit.Length; keyInd += 2)
{
LinkPattern += ind + "," + keySplit[keyInd] + ";";
PatternKeyViewModel key = sender.PatternKeysList.Where(w => w.KeyName.Equals(keySplit[keyInd])).FirstOrDefault();
Keys.Add(key);
}
}
}
}
}
Extension = "." + sender.PatternDownloadLinkText.Split('/').Last().Split('.').Last();
if (string.IsNullOrEmpty(sender.PatternGlobalFileNameText))
{
GlobalFileNameVisibility = Visibility.Collapsed;
}
else
{
GlobalFileNameVisibility = Visibility.Visible;
}
SkipMissingFiles = sender.SkipMissingFilesCheck;
}
public ReplayKeyboardState(List <Key> keys)
{
foreach (var key in keys)
{
Keys.Add(key);
}
}
/// <summary>
/// Establece las claves Primarias y foraneas de un objeto Table (No se usa actualmente)
/// </summary>
/// <param name="pDttClave"></param>
/// <param name="pClavesPrimarias"></param>
/// <param name="pClavesForaneas"></param>
private void SetKeys (DataTable pDttClave,Keys pClavesPrimarias, Keys pClavesForaneas)
{
foreach(DataRow oClaveRow in pDttClave.Rows)
{
Key wClave = new Key ();
wClave.Name = oClaveRow["cKeyCol1"].ToString();
wClave.ConstraintName = oClaveRow["cName"].ToString();
wClave.ConstraintType = oClaveRow["cType"].ToString();
if(!oClaveRow.IsNull("cGroupName"))
wClave.GroupName = oClaveRow["cGroupName"].ToString();
if(wClave.GroupName == "PRIMARY")
pClavesPrimarias.Add (wClave);
else
pClavesForaneas.Add (wClave);
}
}