/// <summary>
/// Inserts an item into the <see cref="Cache"/> object with a specified lifetime using a cache key to reference its location.
/// </summary>
/// <param name="key">The cache key used to reference the item.</param>
/// <param name="value">The object to be inserted into the cache.</param>
/// <param name="lifetime">The lifetime of the inserted item (i.e. is it expendable or not).</param>
public void Insert(object key, object value, CacheItemLifetime lifetime)
{
if (key != null)
{
_rwl.AcquireWriterLock(LOCK_TIMEOUT_MSECS);
try
{
// remove any existing item for this key
CacheCollectionElement element = _data[key] as CacheCollectionElement;
if (element != null)
{
element.IsCollectable = true;
_data.Remove(key);
}
// add new item
element = new CacheCollectionElement(value, lifetime);
_data[key] = element;
}
finally
{
_rwl.ReleaseWriterLock();
}
}
else
{
throw new ArgumentNullException("key");
}
}
public void All ()
{
HybridDictionary dict = new HybridDictionary (true);
dict.Add ("CCC", "ccc");
dict.Add ("BBB", "bbb");
dict.Add ("fff", "fff");
dict ["EEE"] = "eee";
dict ["ddd"] = "ddd";
Assert.AreEqual (5, dict.Count, "#1");
Assert.AreEqual ("eee", dict["eee"], "#2");
dict.Add ("CCC2", "ccc");
dict.Add ("BBB2", "bbb");
dict.Add ("fff2", "fff");
dict ["EEE2"] = "eee";
dict ["ddd2"] = "ddd";
dict ["xxx"] = "xxx";
dict ["yyy"] = "yyy";
Assert.AreEqual (12, dict.Count, "#3");
Assert.AreEqual ("eee", dict["eee"], "#4");
dict.Remove ("eee");
Assert.AreEqual (11, dict.Count, "Removed/Count");
Assert.IsFalse (dict.Contains ("eee"), "Removed/Contains(xxx)");
DictionaryEntry[] entries = new DictionaryEntry [11];
dict.CopyTo (entries, 0);
Assert.IsTrue (dict.Contains ("xxx"), "Contains(xxx)");
dict.Clear ();
Assert.AreEqual (0, dict.Count, "Cleared/Count");
Assert.IsFalse (dict.Contains ("xxx"), "Cleared/Contains(xxx)");
}
public void RemoveClient(string auth)
{
s2hClient Client = GetClient(auth);
if (Client != null)
{
lock (m_Clients)
{
string [] connectionHandles = Client.ConnectionHandles;
foreach (string s in connectionHandles)
{
m_DataExchanger.CloseConnection(s);
}
Client.CloseAllConnections();
m_Clients.Remove(auth);
}
}
}
public bool CloseConnection(string handle)
{
lock (m_Connections)
{
//System.Diagnostics.Debug.WriteLine("Connections before:" + m_Connections.Count.ToString());
if (m_Connections.Contains(handle))
{
s2hConnection conn = (s2hConnection)m_Connections[handle];
m_Connections.Remove(handle);
try
{
conn.Close();
}
catch (Exception) {}
//System.Diagnostics.Debug.WriteLine("Connections after:" + m_Connections.Count.ToString());
return(true);
}
}
return(false);
}
public void Test01()
{
const int BIG_LENGTH = 100;
HybridDictionary hd;
// simple string values
string[] valuesShort =
{
"",
" ",
"$%^#",
System.DateTime.Today.ToString(),
Int32.MaxValue.ToString()
};
// keys for simple string values
string[] keysShort =
{
Int32.MaxValue.ToString(),
" ",
System.DateTime.Today.ToString(),
"",
"$%^#"
};
string[] valuesLong = new string[BIG_LENGTH];
string[] keysLong = new string[BIG_LENGTH];
Array arr;
ICollection vs; // Values collection
int ind;
for (int i = 0; i < BIG_LENGTH; i++)
{
valuesLong[i] = "Item" + i;
keysLong[i] = "keY" + i;
}
// [] HybridDictionary is constructed as expected
//-----------------------------------------------------------------
hd = new HybridDictionary();
// [] for empty dictionary
//
if (hd.Count > 0)
hd.Clear();
if (hd.Values.Count != 0)
{
Assert.False(true, string.Format("Error, returned Values.Count = {0}", hd.Values.Count));
}
// [] for short filled dictionary
//
int len = valuesShort.Length;
hd.Clear();
for (int i = 0; i < len; i++)
{
hd.Add(keysShort[i], valuesShort[i]);
}
if (hd.Count != len)
{
Assert.False(true, string.Format("Error, count is {0} instead of {1}", hd.Count, len));
}
vs = hd.Values;
if (vs.Count != len)
{
Assert.False(true, string.Format("Error, returned Values.Count = {0}", vs.Count));
}
arr = Array.CreateInstance(typeof(Object), len);
vs.CopyTo(arr, 0);
for (int i = 0; i < len; i++)
{
ind = Array.IndexOf(arr, valuesShort[i]);
if (ind < 0)
{
Assert.False(true, string.Format("Error, Values doesn't contain \"{1}\" value. Search result: {2}", i, valuesShort[i], ind));
}
}
// [] for long filled dictionary
//
len = valuesLong.Length;
hd.Clear();
for (int i = 0; i < len; i++)
{
hd.Add(keysLong[i], valuesLong[i]);
}
if (hd.Count != len)
{
Assert.False(true, string.Format("Error, count is {0} instead of {1}", hd.Count, len));
}
vs = hd.Values;
if (vs.Count != len)
{
Assert.False(true, string.Format("Error, returned Values.Count = {0}", vs.Count));
}
arr = Array.CreateInstance(typeof(Object), len);
vs.CopyTo(arr, 0);
for (int i = 0; i < len; i++)
{
ind = Array.IndexOf(arr, valuesLong[i]);
if (ind < 0)
{
Assert.False(true, string.Format("Error, Values doesn't contain \"{1}\" value. Search result: {2}", i, valuesLong[i], ind));
}
}
//
// [] get Values on dictionary with different_in_casing_only keys - list
//
hd.Clear();
string intlStr = "intlStr";
hd.Add("keykey", intlStr); // 1st key
hd.Add("keyKey", intlStr); // 2nd key
if (hd.Count != 2)
{
Assert.False(true, string.Format("Error, count is {0} instead of {1}", hd.Count, 2));
}
// get Values
//
vs = hd.Values;
if (vs.Count != hd.Count)
{
Assert.False(true, string.Format("Error, returned Values.Count = {0}", vs.Count));
}
arr = Array.CreateInstance(typeof(Object), 2);
vs.CopyTo(arr, 0);
ind = Array.IndexOf(arr, intlStr);
if (ind < 0)
{
Assert.False(true, string.Format("Error, Values doesn't contain {0} value", intlStr));
}
//
// [] get Values on dictionary with different_in_casing_only keys - hashtable
//
hd.Clear();
hd.Add("keykey", intlStr); // 1st key
for (int i = 0; i < BIG_LENGTH; i++)
{
hd.Add(keysLong[i], valuesLong[i]);
}
hd.Add("keyKey", intlStr); // 2nd key
if (hd.Count != BIG_LENGTH + 2)
{
Assert.False(true, string.Format("Error, count is {0} instead of {1}", hd.Count, BIG_LENGTH + 2));
}
// get Values
//
vs = hd.Values;
if (vs.Count != hd.Count)
{
Assert.False(true, string.Format("Error, returned Values.Count = {0}", vs.Count));
}
arr = Array.CreateInstance(typeof(Object), BIG_LENGTH + 2);
vs.CopyTo(arr, 0);
for (int i = 0; i < BIG_LENGTH; i++)
{
if (Array.IndexOf(arr, valuesLong[i]) < 0)
{
Assert.False(true, string.Format("Error, Values doesn't contain {0} value", valuesLong[i], i));
}
}
ind = Array.IndexOf(arr, intlStr);
if (ind < 0)
{
Assert.False(true, string.Format("Error, Values doesn't contain {0} value", intlStr));
}
//
// [] Change long dictionary and check Values
//
hd.Clear();
len = valuesLong.Length;
for (int i = 0; i < len; i++)
{
hd.Add(keysLong[i], valuesLong[i]);
}
if (hd.Count != len)
{
Assert.False(true, string.Format("Error, count is {0} instead of {1}", hd.Count, len));
}
vs = hd.Values;
if (vs.Count != len)
{
Assert.False(true, string.Format("Error, returned Values.Count = {0}", vs.Count));
}
hd.Remove(keysLong[0]);
if (hd.Count != len - 1)
{
Assert.False(true, string.Format("Error, didn't remove element"));
}
if (vs.Count != len - 1)
{
Assert.False(true, string.Format("Error, Values were not updated after removal"));
}
arr = Array.CreateInstance(typeof(Object), hd.Count);
vs.CopyTo(arr, 0);
ind = Array.IndexOf(arr, valuesLong[0]);
if (ind >= 0)
{
Assert.False(true, string.Format("Error, Values still contains removed value " + ind));
}
hd.Add(keysLong[0], "new item");
if (hd.Count != len)
{
Assert.False(true, string.Format("Error, didn't add element"));
}
if (vs.Count != len)
{
Assert.False(true, string.Format("Error, Values were not updated after addition"));
}
arr = Array.CreateInstance(typeof(Object), hd.Count);
vs.CopyTo(arr, 0);
ind = Array.IndexOf(arr, "new item");
if (ind < 0)
{
Assert.False(true, string.Format("Error, Values doesn't contain added value "));
}
//
// [] Change short dictionary and check Values
//
hd.Clear();
len = valuesShort.Length;
for (int i = 0; i < len; i++)
{
hd.Add(keysShort[i], valuesShort[i]);
}
if (hd.Count != len)
{
Assert.False(true, string.Format("Error, count is {0} instead of {1}", hd.Count, len));
}
vs = hd.Values;
if (vs.Count != len)
{
Assert.False(true, string.Format("Error, returned Values.Count = {0}", vs.Count));
}
hd.Remove(keysShort[0]);
if (hd.Count != len - 1)
{
Assert.False(true, string.Format("Error, didn't remove element"));
}
if (vs.Count != len - 1)
{
Assert.False(true, string.Format("Error, Values were not updated after removal"));
}
arr = Array.CreateInstance(typeof(Object), hd.Count);
vs.CopyTo(arr, 0);
ind = Array.IndexOf(arr, valuesShort[0]);
if (ind >= 0)
{
Assert.False(true, string.Format("Error, Values still contains removed value " + ind));
}
hd.Add(keysShort[0], "new item");
if (hd.Count != len)
{
Assert.False(true, string.Format("Error, didn't add element"));
}
if (vs.Count != len)
{
Assert.False(true, string.Format("Error, Values were not updated after addition"));
}
arr = Array.CreateInstance(typeof(Object), hd.Count);
vs.CopyTo(arr, 0);
ind = Array.IndexOf(arr, "new item");
if (ind < 0)
{
Assert.False(true, string.Format("Error, Values doesn't contain added value "));
}
}
public void Test01()
{
HybridDictionary hd;
IDictionaryEnumerator en;
DictionaryEntry curr; // Enumerator.Current value
DictionaryEntry de; // Enumerator.Entry value
Object k; // Enumerator.Key value
Object v; // Enumerator.Value
const int BIG_LENGTH = 100;
// simple string values
string[] valuesShort =
{
"",
" ",
"$%^#",
System.DateTime.Today.ToString(),
Int32.MaxValue.ToString()
};
// keys for simple string values
string[] keysShort =
{
Int32.MaxValue.ToString(),
" ",
System.DateTime.Today.ToString(),
"",
"$%^#"
};
string[] valuesLong = new string[BIG_LENGTH];
string[] keysLong = new string[BIG_LENGTH];
for (int i = 0; i < BIG_LENGTH; i++)
{
valuesLong[i] = "Item" + i;
keysLong[i] = "keY" + i;
}
// [] HybridDictionary GetEnumerator()
//-----------------------------------------------------------------
hd = new HybridDictionary();
// [] Enumerator for empty dictionary
//
en = hd.GetEnumerator();
IEnumerator en2;
en2 = ((IEnumerable)hd).GetEnumerator();
string type = en.GetType().ToString();
if (type.IndexOf("Enumerator", 0) == 0)
{
Assert.False(true, string.Format("Error, type is not Enumerator"));
}
//
// MoveNext should return false
//
bool res = en.MoveNext();
if (res)
{
Assert.False(true, string.Format("Error, MoveNext returned true"));
}
//
// Attempt to get Current should result in exception
//
Assert.Throws<InvalidOperationException>(() => { curr = (DictionaryEntry)en.Current; });
// ---------------------------------------------------------
// [] Enumerator for Filled dictionary - list
// ---------------------------------------------------------
//
for (int i = 0; i < valuesShort.Length; i++)
{
hd.Add(keysShort[i], valuesShort[i]);
}
en = hd.GetEnumerator();
type = en.GetType().ToString();
if (type.IndexOf("Enumerator", 0) == 0)
{
Assert.False(true, string.Format("Error, type is not Enumerator"));
}
//
// MoveNext should return true
//
for (int i = 0; i < hd.Count; i++)
{
res = en.MoveNext();
if (!res)
{
Assert.False(true, string.Format("Error, MoveNext returned false", i));
}
curr = (DictionaryEntry)en.Current;
de = en.Entry;
//
//enumerator enumerates in different than added order
// so we'll check Contains
//
if (!hd.Contains(curr.Key.ToString()))
{
Assert.False(true, string.Format("Error, Current dictionary doesn't contain key from enumerator", i));
}
if (!hd.Contains(en.Key.ToString()))
{
Assert.False(true, string.Format("Error, Current dictionary doesn't contain key from enumerator", i));
}
if (!hd.Contains(de.Key.ToString()))
{
Assert.False(true, string.Format("Error, Current dictionary doesn't contain Entry.Key from enumerator", i));
}
if (String.Compare(hd[curr.Key.ToString()].ToString(), curr.Value.ToString()) != 0)
{
Assert.False(true, string.Format("Error, Value for current Key is different in dictionary", i));
}
if (String.Compare(hd[de.Key.ToString()].ToString(), de.Value.ToString()) != 0)
{
Assert.False(true, string.Format("Error, Entry.Value for current Entry.Key is different in dictionary", i));
}
if (String.Compare(hd[en.Key.ToString()].ToString(), en.Value.ToString()) != 0)
{
Assert.False(true, string.Format("Error, En-tor.Value for current En-tor.Key is different in dictionary", i));
}
// while we didn't MoveNext, Current should return the same value
DictionaryEntry curr1 = (DictionaryEntry)en.Current;
if (!curr.Equals(curr1))
{
Assert.False(true, string.Format("Error, second call of Current returned different result", i));
}
DictionaryEntry de1 = en.Entry;
if (!de.Equals(de1))
{
Assert.False(true, string.Format("Error, second call of Entry returned different result", i));
}
}
// next MoveNext should bring us outside of the collection
//
res = en.MoveNext();
res = en.MoveNext();
if (res)
{
Assert.False(true, string.Format("Error, MoveNext returned true"));
}
//
// Attempt to get Current should result in exception
//
Assert.Throws<InvalidOperationException>(() => { curr = (DictionaryEntry)en.Current; });
//
// Attempt to get Entry should result in exception
//
Assert.Throws<InvalidOperationException>(() => { de = en.Entry; });
//
// Attempt to get Key should result in exception
//
Assert.Throws<InvalidOperationException>(() => { k = en.Key; });
//
// Attempt to get Value should result in exception
//
Assert.Throws<InvalidOperationException>(() => { v = en.Value; });
en.Reset();
//
// Attempt to get Current should result in exception
//
Assert.Throws<InvalidOperationException>(() => { curr = (DictionaryEntry)en.Current; });
//
// Attempt to get Entry should result in exception
//
Assert.Throws<InvalidOperationException>(() => { de = en.Entry; });
// ---------------------------------------------------------
// [] Enumerator for Filled dictionary - hashtable
// ---------------------------------------------------------
//
for (int i = 0; i < valuesLong.Length; i++)
{
hd.Add(keysLong[i], valuesLong[i]);
}
en = hd.GetEnumerator();
type = en.GetType().ToString();
if (type.IndexOf("Enumerator", 0) == 0)
{
Assert.False(true, string.Format("Error, type is not Enumerator"));
}
//
// MoveNext should return true
//
for (int i = 0; i < hd.Count; i++)
{
res = en.MoveNext();
if (!res)
{
Assert.False(true, string.Format("Error, MoveNext returned false", i));
}
curr = (DictionaryEntry)en.Current;
de = en.Entry;
//
//enumerator enumerates in different than added order
// so we'll check Contains
//
if (!hd.Contains(curr.Key.ToString()))
{
Assert.False(true, string.Format("Error, Current dictionary doesn't contain key from enumerator", i));
}
if (!hd.Contains(en.Key.ToString()))
{
Assert.False(true, string.Format("Error, Current dictionary doesn't contain key from enumerator", i));
}
if (!hd.Contains(de.Key.ToString()))
{
Assert.False(true, string.Format("Error, Current dictionary doesn't contain Entry.Key from enumerator", i));
}
if (String.Compare(hd[curr.Key.ToString()].ToString(), curr.Value.ToString()) != 0)
{
Assert.False(true, string.Format("Error, Value for current Key is different in dictionary", i));
}
if (String.Compare(hd[de.Key.ToString()].ToString(), de.Value.ToString()) != 0)
{
Assert.False(true, string.Format("Error, Entry.Value for current Entry.Key is different in dictionary", i));
}
if (String.Compare(hd[en.Key.ToString()].ToString(), en.Value.ToString()) != 0)
{
Assert.False(true, string.Format("Error, En-tor.Value for current En-tor.Key is different in dictionary", i));
}
// while we didn't MoveNext, Current should return the same value
DictionaryEntry curr1 = (DictionaryEntry)en.Current;
if (!curr.Equals(curr1))
{
Assert.False(true, string.Format("Error, second call of Current returned different result", i));
}
DictionaryEntry de1 = en.Entry;
if (!de.Equals(de1))
{
Assert.False(true, string.Format("Error, second call of Entry returned different result", i));
}
}
// next MoveNext should bring us outside of the collection
//
res = en.MoveNext();
res = en.MoveNext();
if (res)
{
Assert.False(true, string.Format("Error, MoveNext returned true"));
}
//
// Attempt to get Current should result in exception
//
Assert.Throws<InvalidOperationException>(() => { curr = (DictionaryEntry)en.Current; });
//
// Attempt to get Entry should result in exception
//
Assert.Throws<InvalidOperationException>(() => { de = en.Entry; });
//
// Attempt to get Key should result in exception
//
Assert.Throws<InvalidOperationException>(() => { k = en.Key; });
//
// Attempt to get Value should result in exception
//
Assert.Throws<InvalidOperationException>(() => { v = en.Value; });
en.Reset();
//
// Attempt to get Current should result in exception
//
Assert.Throws<InvalidOperationException>(() => { curr = (DictionaryEntry)en.Current; });
//
// Attempt to get Entry should result in exception
//
Assert.Throws<InvalidOperationException>(() => { de = en.Entry; });
//=========================================================
// --------------------------------------------------------
//
// Modify dictionary when enumerating
//
// [] Enumerator and short modified HD (list)
//
hd.Clear();
if (hd.Count < 1)
{
for (int i = 0; i < valuesShort.Length; i++)
{
hd.Add(keysShort[i], valuesShort[i]);
}
}
en = hd.GetEnumerator();
res = en.MoveNext();
if (!res)
{
Assert.False(true, string.Format("Error, MoveNext returned false"));
}
curr = (DictionaryEntry)en.Current;
de = en.Entry;
k = en.Key;
v = en.Value;
int cnt = hd.Count;
hd.Remove(keysShort[0]);
if (hd.Count != cnt - 1)
{
Assert.False(true, string.Format("Error, didn't remove item with 0th key"));
}
// will return just removed item
DictionaryEntry curr2 = (DictionaryEntry)en.Current;
if (!curr.Equals(curr2))
{
Assert.False(true, string.Format("Error, current returned different value after modification"));
}
// will return just removed item
DictionaryEntry de2 = en.Entry;
if (!de.Equals(de2))
{
Assert.False(true, string.Format("Error, Entry returned different value after modification"));
}
// will return just removed item
Object k2 = en.Key;
if (!k.Equals(k2))
{
Assert.False(true, string.Format("Error, Key returned different value after modification"));
}
// will return just removed item
Object v2 = en.Value;
if (!v.Equals(v2))
{
Assert.False(true, string.Format("Error, Value returned different value after modification"));
}
// exception expected
Assert.Throws<InvalidOperationException>(() => { res = en.MoveNext(); });
// ==========================================================
//
//
// [] Enumerator and long modified HD (hashtable)
//
hd.Clear();
if (hd.Count < 1)
{
for (int i = 0; i < valuesLong.Length; i++)
{
hd.Add(keysLong[i], valuesLong[i]);
}
}
en = hd.GetEnumerator();
res = en.MoveNext();
if (!res)
{
Assert.False(true, string.Format("Error, MoveNext returned false"));
}
curr = (DictionaryEntry)en.Current;
de = en.Entry;
k = en.Key;
v = en.Value;
cnt = hd.Count;
hd.Remove(keysLong[0]);
if (hd.Count != cnt - 1)
{
Assert.False(true, string.Format("Error, didn't remove item with 0th key"));
}
// will return just removed item
DictionaryEntry curr3 = (DictionaryEntry)en.Current;
if (!curr.Equals(curr3))
{
Assert.False(true, string.Format("Error, current returned different value after modification"));
}
// will return just removed item
DictionaryEntry de3 = en.Entry;
if (!de.Equals(de3))
{
Assert.False(true, string.Format("Error, Entry returned different value after modification"));
}
// will return just removed item
Object k3 = en.Key;
if (!k.Equals(k3))
{
Assert.False(true, string.Format("Error, Key returned different value after modification"));
}
// will return just removed item
Object v3 = en.Value;
if (!v.Equals(v3))
{
Assert.False(true, string.Format("Error, Value returned different value after modification"));
}
// exception expected
Assert.Throws<InvalidOperationException>(() => { res = en.MoveNext(); });
//
// Modify collection when enumerated beyond the end
//
// [] Enumerator and short HD (list) modified after enumerating beyond the end
//
hd.Clear();
for (int i = 0; i < valuesShort.Length; i++)
{
hd.Add(keysShort[i], valuesShort[i]);
}
en = hd.GetEnumerator();
for (int i = 0; i < hd.Count; i++)
{
en.MoveNext();
}
curr = (DictionaryEntry)en.Current;
de = en.Entry;
k = en.Key;
v = en.Value;
cnt = hd.Count;
hd.Remove(keysShort[0]);
if (hd.Count != cnt - 1)
{
Assert.False(true, string.Format("Error, didn't remove item with 0th key"));
}
// will return just removed item
DictionaryEntry curr4 = (DictionaryEntry)en.Current;
if (!curr.Equals(curr4))
{
Assert.False(true, string.Format("Error, current returned different value after modification"));
}
// will return just removed item
DictionaryEntry de4 = en.Entry;
if (!de.Equals(de4))
{
Assert.False(true, string.Format("Error, Entry returned different value after modification"));
}
// will return just removed item
Object k4 = en.Key;
if (!k.Equals(k4))
{
Assert.False(true, string.Format("Error, Key returned different value after modification"));
}
// will return just removed item
Object v4 = en.Value;
if (!v.Equals(v4))
{
Assert.False(true, string.Format("Error, Value returned different value after modification"));
}
// exception expected
Assert.Throws<InvalidOperationException>(() => { res = en.MoveNext(); });
//
// [] Enumerator and long HD (hashtable) modified after enumerating beyond the end
hd.Clear();
for (int i = 0; i < valuesLong.Length; i++)
{
hd.Add(keysLong[i], valuesLong[i]);
}
en = hd.GetEnumerator();
for (int i = 0; i < hd.Count; i++)
{
en.MoveNext();
}
curr = (DictionaryEntry)en.Current;
de = en.Entry;
k = en.Key;
v = en.Value;
cnt = hd.Count;
hd.Remove(keysLong[0]);
if (hd.Count != cnt - 1)
{
Assert.False(true, string.Format("Error, didn't remove item with 0th key"));
}
// will return just removed item
DictionaryEntry curr5 = (DictionaryEntry)en.Current;
if (!curr.Equals(curr5))
{
Assert.False(true, string.Format("Error, current returned different value after modification"));
}
// will return just removed item
DictionaryEntry de5 = en.Entry;
if (!de.Equals(de5))
{
Assert.False(true, string.Format("Error, Entry returned different value after modification"));
}
// will return just removed item
Object k5 = en.Key;
if (!k.Equals(k5))
{
Assert.False(true, string.Format("Error, Key returned different value after modification"));
}
// will return just removed item
Object v5 = en.Value;
if (!v.Equals(v5))
{
Assert.False(true, string.Format("Error, Value returned different value after modification"));
}
// exception expected
Assert.Throws<InvalidOperationException>(() => { res = en.MoveNext(); });
// ---------------------------------------------------------
// [] Enumerator for empty case-insensitive dictionary
// ---------------------------------------------------------
//
hd = new HybridDictionary(true);
en = hd.GetEnumerator();
type = en.GetType().ToString();
if (type.IndexOf("Enumerator", 0) == 0)
{
Assert.False(true, string.Format("Error, type is not Enumerator"));
}
}
public void Test01()
{
HybridDictionary hd;
const int BIG_LENGTH = 100;
string[] valuesLong = new string[BIG_LENGTH];
string[] keysLong = new string[BIG_LENGTH];
int len;
for (int i = 0; i < BIG_LENGTH; i++)
{
valuesLong[i] = "Item" + i;
keysLong[i] = "keY" + i;
}
// [] HybridDictionary is constructed as expected
//-----------------------------------------------------------------
hd = new HybridDictionary();
if (hd == null)
{
Assert.False(true, string.Format("Error, dictionary is null after default ctor"));
}
if (hd.Count != 0)
{
Assert.False(true, string.Format("Error, Count = {0} after default ctor", hd.Count));
}
if (hd["key"] != null)
{
Assert.False(true, string.Format("Error, Item(some_key) returned non-null after default ctor"));
}
System.Collections.ICollection keys = hd.Keys;
if (keys.Count != 0)
{
Assert.False(true, string.Format("Error, Keys contains {0} keys after default ctor", keys.Count));
}
System.Collections.ICollection values = hd.Values;
if (values.Count != 0)
{
Assert.False(true, string.Format("Error, Values contains {0} items after default ctor", values.Count));
}
//
// [] Add(string, string)
//
hd.Add("Name", "Value");
if (hd.Count != 1)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of 1", hd.Count));
}
if (String.Compare(hd["Name"].ToString(), "Value") != 0)
{
Assert.False(true, string.Format("Error, Item() returned unexpected value"));
}
// by default should be case sensitive
if (hd["NAME"] != null)
{
Assert.False(true, string.Format("Error, Item() returned non-null value for uppercase key"));
}
//
// [] Clear()
//
hd.Clear();
if (hd.Count != 0)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of 0 after Clear()", hd.Count));
}
if (hd["Name"] != null)
{
Assert.False(true, string.Format("Error, Item() returned non-null value after Clear()"));
}
//
// [] numerous Add(string, string)
//
len = valuesLong.Length;
hd.Clear();
for (int i = 0; i < len; i++)
{
hd.Add(keysLong[i], valuesLong[i]);
}
if (hd.Count != len)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of {1}", hd.Count, len));
}
for (int i = 0; i < len; i++)
{
if (String.Compare(hd[keysLong[i]].ToString(), valuesLong[i]) != 0)
{
Assert.False(true, string.Format("Error, Item() returned unexpected value", i));
}
if (hd[keysLong[i].ToUpper()] != null)
{
Assert.False(true, string.Format("Error, Item() returned non-null for uppercase key", i));
}
}
//
// [] Clear() for dictionary with multiple entries
//
hd.Clear();
if (hd.Count != 0)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of 0 after Clear()", hd.Count));
}
//
// [] few elements not overriding Equals()
//
hd.Clear();
Hashtable[] lbls = new Hashtable[2];
ArrayList[] bs = new ArrayList[2];
lbls[0] = new Hashtable();
lbls[1] = new Hashtable();
bs[0] = new ArrayList();
bs[1] = new ArrayList();
hd.Add(lbls[0], bs[0]);
hd.Add(lbls[1], bs[1]);
if (hd.Count != 2)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of 2", hd.Count));
}
if (!hd.Contains(lbls[0]))
{
Assert.False(true, string.Format("Error, doesn't contain 1st special item"));
}
if (!hd.Contains(lbls[1]))
{
Assert.False(true, string.Format("Error, doesn't contain 2nd special item"));
}
if (hd.Values.Count != 2)
{
Assert.False(true, string.Format("Error, Values.Count returned {0} instead of 2", hd.Values.Count));
}
hd.Remove(lbls[1]);
if (hd.Count != 1)
{
Assert.False(true, string.Format("Error, failed to remove item"));
}
if (hd.Contains(lbls[1]))
{
Assert.False(true, string.Format("Error, failed to remove special item"));
}
//
// [] many elements not overriding Equals()
//
hd.Clear();
lbls = new Hashtable[BIG_LENGTH];
bs = new ArrayList[BIG_LENGTH];
for (int i = 0; i < BIG_LENGTH; i++)
{
lbls[i] = new Hashtable();
bs[i] = new ArrayList();
hd.Add(lbls[i], bs[i]);
}
if (hd.Count != BIG_LENGTH)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of {1}", hd.Count, BIG_LENGTH));
}
for (int i = 0; i < BIG_LENGTH; i++)
{
if (!hd.Contains(lbls[0]))
{
Assert.False(true, string.Format("Error, doesn't contain 1st special item"));
}
}
if (hd.Values.Count != BIG_LENGTH)
{
Assert.False(true, string.Format("Error, Values.Count returned {0} instead of {1}", hd.Values.Count, BIG_LENGTH));
}
hd.Remove(lbls[0]);
if (hd.Count != BIG_LENGTH - 1)
{
Assert.False(true, string.Format("Error, failed to remove item"));
}
if (hd.Contains(lbls[0]))
{
Assert.False(true, string.Format("Error, failed to remove special item"));
}
}
public void Test01()
{
IntlStrings intl;
HybridDictionary hd;
const int BIG_LENGTH = 100;
// simple string values
string[] valuesShort =
{
"",
" ",
"$%^#",
System.DateTime.Today.ToString(),
Int32.MaxValue.ToString()
};
// keys for simple string values
string[] keysShort =
{
Int32.MaxValue.ToString(),
" ",
System.DateTime.Today.ToString(),
"",
"$%^#"
};
string[] valuesLong = new string[BIG_LENGTH];
string[] keysLong = new string[BIG_LENGTH];
int cnt = 0; // Count
// initialize IntStrings
intl = new IntlStrings();
for (int i = 0; i < BIG_LENGTH; i++)
{
valuesLong[i] = "Item" + i;
keysLong[i] = "keY" + i;
}
// [] HybridDictionary is constructed as expected
//-----------------------------------------------------------------
hd = new HybridDictionary();
// [] Remove() on empty dictionary
//
cnt = hd.Count;
try
{
hd.Remove(null);
Assert.False(true, string.Format("Error, no exception"));
}
catch (ArgumentNullException)
{
}
catch (Exception e)
{
Assert.False(true, string.Format("Error, unexpected exception: {0}", e.ToString()));
}
cnt = hd.Count;
hd.Remove("some_string");
if (hd.Count != cnt)
{
Assert.False(true, string.Format("Error, changed dictionary after Remove(some_string)"));
}
cnt = hd.Count;
hd.Remove(new Hashtable());
if (hd.Count != cnt)
{
Assert.False(true, string.Format("Error, changed dictionary after Remove(some_string)"));
}
//
// [] Remove() on short dictionary with simple strings
//
cnt = hd.Count;
int len = valuesShort.Length;
for (int i = 0; i < len; i++)
{
hd.Add(keysShort[i], valuesShort[i]);
}
if (hd.Count != len)
{
Assert.False(true, string.Format("Error, count is {0} instead of {1}", hd.Count, valuesShort.Length));
}
//
for (int i = 0; i < len; i++)
{
cnt = hd.Count;
hd.Remove(keysShort[i]);
if (hd.Count != cnt - 1)
{
Assert.False(true, string.Format("Error, failed to remove item", i));
}
if (hd.Contains(keysShort[i]))
{
Assert.False(true, string.Format("Error, removed wrong item", i));
}
// remove second time
hd.Remove(keysShort[i]);
if (hd.Count != cnt - 1)
{
Assert.False(true, string.Format("Error, failed when Remove() second time", i));
}
}
// [] Remove() on long dictionary with simple strings
//
hd.Clear();
cnt = hd.Count;
len = valuesLong.Length;
for (int i = 0; i < len; i++)
{
hd.Add(keysLong[i], valuesLong[i]);
}
if (hd.Count != len)
{
Assert.False(true, string.Format("Error, count is {0} instead of {1}", hd.Count, len));
}
//
for (int i = 0; i < len; i++)
{
cnt = hd.Count;
hd.Remove(keysLong[i]);
if (hd.Count != cnt - 1)
{
Assert.False(true, string.Format("Error, failed to remove item", i));
}
if (hd.Contains(keysLong[i]))
{
Assert.False(true, string.Format("Error, removed wrong item", i));
}
// remove second time
hd.Remove(keysLong[i]);
if (hd.Count != cnt - 1)
{
Assert.False(true, string.Format("Error, failed when Remove() second time", i));
}
}
//
// [] Remove() on long dictionary with Intl strings
// Intl strings
//
len = valuesLong.Length;
string[] intlValues = new string[len * 2];
// fill array with unique strings
//
for (int i = 0; i < len * 2; i++)
{
string val = intl.GetRandomString(MAX_LEN);
while (Array.IndexOf(intlValues, val) != -1)
val = intl.GetRandomString(MAX_LEN);
intlValues[i] = val;
}
cnt = hd.Count;
for (int i = 0; i < len; i++)
{
hd.Add(intlValues[i + len], intlValues[i]);
}
if (hd.Count != (cnt + len))
{
Assert.False(true, string.Format("Error, count is {0} instead of {1}", hd.Count, cnt + len));
}
for (int i = 0; i < len; i++)
{
//
cnt = hd.Count;
hd.Remove(intlValues[i + len]);
if (hd.Count != cnt - 1)
{
Assert.False(true, string.Format("Error, failed to remove item", i));
}
if (hd.Contains(intlValues[i + len]))
{
Assert.False(true, string.Format("Error, removed wrong item", i));
}
}
// [] Remove() on short dictionary with Intl strings
//
len = valuesShort.Length;
hd.Clear();
cnt = hd.Count;
for (int i = 0; i < len; i++)
{
hd.Add(intlValues[i + len], intlValues[i]);
}
if (hd.Count != (cnt + len))
{
Assert.False(true, string.Format("Error, count is {0} instead of {1}", hd.Count, cnt + len));
}
for (int i = 0; i < len; i++)
{
//
cnt = hd.Count;
hd.Remove(intlValues[i + len]);
if (hd.Count != cnt - 1)
{
Assert.False(true, string.Format("Error, failed to remove item", i));
}
if (hd.Contains(intlValues[i + len]))
{
Assert.False(true, string.Format("Error, removed wrong item", i));
}
}
//
// Case sensitivity
// [] Case sensitivity - hashtable
//
len = valuesLong.Length;
hd.Clear();
//
// will use first half of array as values and second half as keys
//
for (int i = 0; i < len; i++)
{
hd.Add(keysLong[i].ToUpper(), valuesLong[i].ToUpper()); // adding uppercase strings
}
//
for (int i = 0; i < len; i++)
{
// uppercase key
cnt = hd.Count;
hd.Remove(keysLong[i].ToUpper());
if (hd.Count != cnt - 1)
{
Assert.False(true, string.Format("Error, failed to remove item", i));
}
if (hd.Contains(keysLong[i].ToUpper()))
{
Assert.False(true, string.Format("Error, removed wrong item", i));
}
}
hd.Clear();
//
// will use first half of array as values and second half as keys
//
for (int i = 0; i < len; i++)
{
hd.Add(keysLong[i].ToUpper(), valuesLong[i].ToUpper()); // adding uppercase strings
}
// LD is case-sensitive by default
for (int i = 0; i < len; i++)
{
// lowercase key
cnt = hd.Count;
hd.Remove(keysLong[i].ToLower());
if (hd.Count != cnt)
{
Assert.False(true, string.Format("Error, failed: removed item using lowercase key", i));
}
}
//
// [] Case sensitivity - list
len = valuesShort.Length;
hd.Clear();
//
// will use first half of array as values and second half as keys
//
for (int i = 0; i < len; i++)
{
hd.Add(keysLong[i].ToUpper(), valuesLong[i].ToUpper()); // adding uppercase strings
}
//
for (int i = 0; i < len; i++)
{
// uppercase key
cnt = hd.Count;
hd.Remove(keysLong[i].ToUpper());
if (hd.Count != cnt - 1)
{
Assert.False(true, string.Format("Error, failed to remove item", i));
}
if (hd.Contains(keysLong[i].ToUpper()))
{
Assert.False(true, string.Format("Error, removed wrong item", i));
}
}
hd.Clear();
//
// will use first half of array as values and second half as keys
//
for (int i = 0; i < len; i++)
{
hd.Add(keysLong[i].ToUpper(), valuesLong[i].ToUpper()); // adding uppercase strings
}
// LD is case-sensitive by default
for (int i = 0; i < len; i++)
{
// lowercase key
cnt = hd.Count;
hd.Remove(keysLong[i].ToLower());
if (hd.Count != cnt)
{
Assert.False(true, string.Format("Error, failed: removed item using lowercase key", i));
}
}
//
// [] Remove() on case-insensitive HD - list
//
hd = new HybridDictionary(true);
len = valuesShort.Length;
hd.Clear();
for (int i = 0; i < len; i++)
{
hd.Add(keysLong[i].ToLower(), valuesLong[i].ToLower());
}
if (hd.Count != len)
{
Assert.False(true, string.Format("Error, count is {0} instead of {1}", hd.Count, len));
}
for (int i = 0; i < len; i++)
{
cnt = hd.Count;
hd.Remove(keysLong[i].ToUpper());
if (hd.Count != cnt - 1)
{
Assert.False(true, string.Format("Error, failed to remove item", i));
}
if (hd.Contains(keysLong[i].ToLower()))
{
Assert.False(true, string.Format("Error, removed wrong item", i));
}
}
//
// [] Remove() on case-insensitive HD - hashtable
//
hd = new HybridDictionary(true);
len = valuesLong.Length;
hd.Clear();
for (int i = 0; i < len; i++)
{
hd.Add(keysLong[i].ToLower(), valuesLong[i].ToLower());
}
if (hd.Count != len)
{
Assert.False(true, string.Format("Error, count is {0} instead of {1}", hd.Count, len));
}
for (int i = 0; i < len; i++)
{
cnt = hd.Count;
hd.Remove(keysLong[i].ToUpper());
if (hd.Count != cnt - 1)
{
Assert.False(true, string.Format("Error, failed to remove item", i));
}
if (hd.Contains(keysLong[i].ToLower()))
{
Assert.False(true, string.Format("Error, removed wrong item", i));
}
}
//
// [] Remove(null) from filled HD - list
//
hd = new HybridDictionary();
len = valuesShort.Length;
hd.Clear();
for (int i = 0; i < len; i++)
{
hd.Add(keysShort[i], valuesShort[i]);
}
try
{
hd.Remove(null);
Assert.False(true, string.Format("Error, no exception"));
}
catch (ArgumentNullException)
{
}
catch (Exception e)
{
Assert.False(true, string.Format("Error, unexpected exception: {0}", e.ToString()));
}
//
// [] Remove(null) from filled HD - hashtable
//
hd = new HybridDictionary();
len = valuesLong.Length;
hd.Clear();
for (int i = 0; i < len; i++)
{
hd.Add(keysLong[i], valuesLong[i]);
}
try
{
hd.Remove(null);
Assert.False(true, string.Format("Error, no exception"));
}
catch (ArgumentNullException)
{
}
catch (Exception e)
{
Assert.False(true, string.Format("Error, unexpected exception: {0}", e.ToString()));
}
//
// [] Remove(special_object) from filled HD - list
//
hd = new HybridDictionary();
hd.Clear();
len = 2;
ArrayList[] b = new ArrayList[len];
Hashtable[] lbl = new Hashtable[len];
for (int i = 0; i < len; i++)
{
lbl[i] = new Hashtable();
b[i] = new ArrayList();
hd.Add(lbl[i], b[i]);
}
if (hd.Count != len)
{
Assert.False(true, string.Format("Error, count is {0} instead of {1}", hd.Count, len));
}
for (int i = 0; i < len; i++)
{
cnt = hd.Count;
hd.Remove(lbl[i]);
if (hd.Count != cnt - 1)
{
Assert.False(true, string.Format("Error, failed to remove special object"));
}
if (hd.Contains(lbl[i]))
{
Assert.False(true, string.Format("Error, removed wrong special object"));
}
}
//
// [] Remove(special_object) from filled HD - hashtable
//
hd = new HybridDictionary();
hd.Clear();
len = 40;
b = new ArrayList[len];
lbl = new Hashtable[len];
for (int i = 0; i < len; i++)
{
lbl[i] = new Hashtable();
b[i] = new ArrayList();
hd.Add(lbl[i], b[i]);
}
if (hd.Count != len)
{
Assert.False(true, string.Format("Error, count is {0} instead of {1}", hd.Count, len));
}
for (int i = 0; i < len; i++)
{
cnt = hd.Count;
hd.Remove(lbl[i]);
if (hd.Count != cnt - 1)
{
Assert.False(true, string.Format("Error, failed to remove special object"));
}
if (hd.Contains(lbl[i]))
{
Assert.False(true, string.Format("Error, removed wrong special object"));
}
}
}
public void Test01()
{
HybridDictionary hd;
const int BIG_LENGTH = 100;
string[] valuesLong = new string[BIG_LENGTH];
string[] keysLong = new string[BIG_LENGTH];
int len;
for (int i = 0; i < BIG_LENGTH; i++)
{
valuesLong[i] = "Item" + i;
keysLong[i] = "keY" + i;
}
// [] HybridDictionary is constructed as expected
//-----------------------------------------------------------------
// [] Capacity 0, Case-sensitive ctor
hd = new HybridDictionary(0, false);
if (hd == null)
{
Assert.False(true, string.Format("Error, dictionary is null after default ctor"));
}
if (hd.Count != 0)
{
Assert.False(true, string.Format("Error, Count = {0} after default ctor", hd.Count));
}
if (hd["key"] != null)
{
Assert.False(true, string.Format("Error, Item(some_key) returned non-null after default ctor"));
}
//
// [] Add(string, string)
//
// should be able to add keys that differ only in casing
hd.Add("Name", "Value");
if (hd.Count != 1)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of 1", hd.Count));
}
if (String.Compare(hd["Name"].ToString(), "Value") != 0)
{
Assert.False(true, string.Format("Error, Item() returned unexpected value"));
}
hd.Add("NaMe", "Value");
if (hd.Count != 2)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of 2", hd.Count));
}
if (String.Compare(hd["NaMe"].ToString(), "Value") != 0)
{
Assert.False(true, string.Format("Error, Item() returned unexpected value"));
}
// by default should be case sensitive
if (hd["NAME"] != null)
{
Assert.False(true, string.Format("Error, Item() returned non-null value for uppercase key"));
}
//
// [] Clear() short dictionary
//
hd.Clear();
if (hd.Count != 0)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of 0 after Clear()", hd.Count));
}
if (hd["Name"] != null)
{
Assert.False(true, string.Format("Error, Item() returned non-null value after Clear()"));
}
//
// [] numerous Add(string, string)
//
len = valuesLong.Length;
hd.Clear();
for (int i = 0; i < len; i++)
{
hd.Add(keysLong[i], valuesLong[i]);
}
if (hd.Count != len)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of {1}", hd.Count, len));
}
for (int i = 0; i < len; i++)
{
if (String.Compare(hd[keysLong[i]].ToString(), valuesLong[i]) != 0)
{
Assert.False(true, string.Format("Error, Item() returned unexpected value", i));
}
if (hd[keysLong[i].ToUpper()] != null)
{
Assert.False(true, string.Format("Error, Item() returned non-null for uppercase key", i));
}
}
//
// [] Clear() long dictionary
//
hd.Clear();
if (hd.Count != 0)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of 0 after Clear()", hd.Count));
}
//
// [] few elements not overriding Equals()
//
hd.Clear();
Hashtable[] lbls = new Hashtable[2];
ArrayList[] bs = new ArrayList[2];
lbls[0] = new Hashtable();
lbls[1] = new Hashtable();
bs[0] = new ArrayList();
bs[1] = new ArrayList();
hd.Add(lbls[0], bs[0]);
hd.Add(lbls[1], bs[1]);
if (hd.Count != 2)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of 2", hd.Count));
}
if (!hd.Contains(lbls[0]))
{
Assert.False(true, string.Format("Error, doesn't contain 1st special item"));
}
if (!hd.Contains(lbls[1]))
{
Assert.False(true, string.Format("Error, doesn't contain 2nd special item"));
}
if (hd.Values.Count != 2)
{
Assert.False(true, string.Format("Error, Values.Count returned {0} instead of 2", hd.Values.Count));
}
hd.Remove(lbls[1]);
if (hd.Count != 1)
{
Assert.False(true, string.Format("Error, failed to remove item"));
}
if (hd.Contains(lbls[1]))
{
Assert.False(true, string.Format("Error, failed to remove special item"));
}
//
// [] many elements not overriding Equals()
//
hd.Clear();
lbls = new Hashtable[BIG_LENGTH];
bs = new ArrayList[BIG_LENGTH];
for (int i = 0; i < BIG_LENGTH; i++)
{
lbls[i] = new Hashtable();
bs[i] = new ArrayList();
hd.Add(lbls[i], bs[i]);
}
if (hd.Count != BIG_LENGTH)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of {1}", hd.Count, BIG_LENGTH));
}
for (int i = 0; i < BIG_LENGTH; i++)
{
if (!hd.Contains(lbls[0]))
{
Assert.False(true, string.Format("Error, doesn't contain 1st special item"));
}
}
if (hd.Values.Count != BIG_LENGTH)
{
Assert.False(true, string.Format("Error, Values.Count returned {0} instead of {1}", hd.Values.Count, BIG_LENGTH));
}
hd.Remove(lbls[0]);
if (hd.Count != BIG_LENGTH - 1)
{
Assert.False(true, string.Format("Error, failed to remove item"));
}
if (hd.Contains(lbls[0]))
{
Assert.False(true, string.Format("Error, failed to remove special item"));
}
// ----------------------------------------------------------------
//-----------------------------------------------------------------
// [] Capacity 10 - Case-sensitive
hd = new HybridDictionary(10, false);
if (hd == null)
{
Assert.False(true, string.Format("Error, dictionary is null after default ctor"));
}
if (hd.Count != 0)
{
Assert.False(true, string.Format("Error, Count = {0} after default ctor", hd.Count));
}
if (hd["key"] != null)
{
Assert.False(true, string.Format("Error, Item(some_key) returned non-null after default ctor"));
}
//
// [] Add(string, string)
//
// should be able to add keys that differ only in casing
hd.Add("Name", "Value");
if (hd.Count != 1)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of 1", hd.Count));
}
if (String.Compare(hd["Name"].ToString(), "Value") != 0)
{
Assert.False(true, string.Format("Error, Item() returned unexpected value"));
}
hd.Add("NaMe", "Value");
if (hd.Count != 2)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of 2", hd.Count));
}
if (String.Compare(hd["NaMe"].ToString(), "Value") != 0)
{
Assert.False(true, string.Format("Error, Item() returned unexpected value"));
}
// by default should be case sensitive
if (hd["NAME"] != null)
{
Assert.False(true, string.Format("Error, Item() returned non-null value for uppercase key"));
}
//
// [] Clear() short dictionary
//
hd.Clear();
if (hd.Count != 0)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of 0 after Clear()", hd.Count));
}
if (hd["Name"] != null)
{
Assert.False(true, string.Format("Error, Item() returned non-null value after Clear()"));
}
//
// [] numerous Add(string, string)
//
len = valuesLong.Length;
hd.Clear();
for (int i = 0; i < len; i++)
{
hd.Add(keysLong[i], valuesLong[i]);
}
if (hd.Count != len)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of {1}", hd.Count, len));
}
for (int i = 0; i < len; i++)
{
if (String.Compare(hd[keysLong[i]].ToString(), valuesLong[i]) != 0)
{
Assert.False(true, string.Format("Error, Item() returned unexpected value", i));
}
if (hd[keysLong[i].ToUpper()] != null)
{
Assert.False(true, string.Format("Error, Item() returned non-null for uppercase key", i));
}
}
//
// [] Clear() long dictionary
//
hd.Clear();
if (hd.Count != 0)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of 0 after Clear()", hd.Count));
}
//
// [] few elements not overriding Equals()
//
hd.Clear();
lbls = new Hashtable[2];
bs = new ArrayList[2];
lbls[0] = new Hashtable();
lbls[1] = new Hashtable();
bs[0] = new ArrayList();
bs[1] = new ArrayList();
hd.Add(lbls[0], bs[0]);
hd.Add(lbls[1], bs[1]);
if (hd.Count != 2)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of 2", hd.Count));
}
if (!hd.Contains(lbls[0]))
{
Assert.False(true, string.Format("Error, doesn't contain 1st special item"));
}
if (!hd.Contains(lbls[1]))
{
Assert.False(true, string.Format("Error, doesn't contain 2nd special item"));
}
if (hd.Values.Count != 2)
{
Assert.False(true, string.Format("Error, Values.Count returned {0} instead of 2", hd.Values.Count));
}
hd.Remove(lbls[1]);
if (hd.Count != 1)
{
Assert.False(true, string.Format("Error, failed to remove item"));
}
if (hd.Contains(lbls[1]))
{
Assert.False(true, string.Format("Error, failed to remove special item"));
}
//
// [] many elements not overriding Equals()
//
hd.Clear();
lbls = new Hashtable[BIG_LENGTH];
bs = new ArrayList[BIG_LENGTH];
for (int i = 0; i < BIG_LENGTH; i++)
{
lbls[i] = new Hashtable();
bs[i] = new ArrayList();
hd.Add(lbls[i], bs[i]);
}
if (hd.Count != BIG_LENGTH)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of {1}", hd.Count, BIG_LENGTH));
}
for (int i = 0; i < BIG_LENGTH; i++)
{
if (!hd.Contains(lbls[0]))
{
Assert.False(true, string.Format("Error, doesn't contain 1st special item"));
}
}
if (hd.Values.Count != BIG_LENGTH)
{
Assert.False(true, string.Format("Error, Values.Count returned {0} instead of {1}", hd.Values.Count, BIG_LENGTH));
}
hd.Remove(lbls[0]);
if (hd.Count != BIG_LENGTH - 1)
{
Assert.False(true, string.Format("Error, failed to remove item"));
}
if (hd.Contains(lbls[0]))
{
Assert.False(true, string.Format("Error, failed to remove special item"));
}
// ---------------------------------------------------------------
//----------------------------------------------------------------
// [] Capacity 100 - case-sensitive
hd = new HybridDictionary(100, false);
if (hd == null)
{
Assert.False(true, string.Format("Error, dictionary is null after default ctor"));
}
if (hd.Count != 0)
{
Assert.False(true, string.Format("Error, Count = {0} after default ctor", hd.Count));
}
if (hd["key"] != null)
{
Assert.False(true, string.Format("Error, Item(some_key) returned non-null after default ctor"));
}
//
// [] Add(string, string)
//
// should be able to add keys that differ only in casing
hd.Add("Name", "Value");
if (hd.Count != 1)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of 1", hd.Count));
}
if (String.Compare(hd["Name"].ToString(), "Value") != 0)
{
Assert.False(true, string.Format("Error, Item() returned unexpected value"));
}
hd.Add("NaMe", "Value");
if (hd.Count != 2)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of 2", hd.Count));
}
if (String.Compare(hd["NaMe"].ToString(), "Value") != 0)
{
Assert.False(true, string.Format("Error, Item() returned unexpected value"));
}
// by default should be case sensitive
if (hd["NAME"] != null)
{
Assert.False(true, string.Format("Error, Item() returned non-null value for uppercase key"));
}
//
// [] Clear() short dictionary
//
hd.Clear();
if (hd.Count != 0)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of 0 after Clear()", hd.Count));
}
if (hd["Name"] != null)
{
Assert.False(true, string.Format("Error, Item() returned non-null value after Clear()"));
}
//
// [] numerous Add(string, string)
//
len = valuesLong.Length;
hd.Clear();
for (int i = 0; i < len; i++)
{
hd.Add(keysLong[i], valuesLong[i]);
}
if (hd.Count != len)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of {1}", hd.Count, len));
}
for (int i = 0; i < len; i++)
{
if (String.Compare(hd[keysLong[i]].ToString(), valuesLong[i]) != 0)
{
Assert.False(true, string.Format("Error, Item() returned unexpected value", i));
}
if (hd[keysLong[i].ToUpper()] != null)
{
Assert.False(true, string.Format("Error, Item() returned non-null for uppercase key", i));
}
}
//
// [] Clear() long dictionary
//
hd.Clear();
if (hd.Count != 0)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of 0 after Clear()", hd.Count));
}
//
// [] few elements not overriding Equals()
//
hd.Clear();
lbls = new Hashtable[2];
bs = new ArrayList[2];
lbls[0] = new Hashtable();
lbls[1] = new Hashtable();
bs[0] = new ArrayList();
bs[1] = new ArrayList();
hd.Add(lbls[0], bs[0]);
hd.Add(lbls[1], bs[1]);
if (hd.Count != 2)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of 2", hd.Count));
}
if (!hd.Contains(lbls[0]))
{
Assert.False(true, string.Format("Error, doesn't contain 1st special item"));
}
if (!hd.Contains(lbls[1]))
{
Assert.False(true, string.Format("Error, doesn't contain 2nd special item"));
}
if (hd.Values.Count != 2)
{
Assert.False(true, string.Format("Error, Values.Count returned {0} instead of 2", hd.Values.Count));
}
hd.Remove(lbls[1]);
if (hd.Count != 1)
{
Assert.False(true, string.Format("Error, failed to remove item"));
}
if (hd.Contains(lbls[1]))
{
Assert.False(true, string.Format("Error, failed to remove special item"));
}
//
// [] many elements not overriding Equals()
//
hd.Clear();
lbls = new Hashtable[BIG_LENGTH];
bs = new ArrayList[BIG_LENGTH];
for (int i = 0; i < BIG_LENGTH; i++)
{
lbls[i] = new Hashtable();
bs[i] = new ArrayList();
hd.Add(lbls[i], bs[i]);
}
if (hd.Count != BIG_LENGTH)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of {1}", hd.Count, BIG_LENGTH));
}
for (int i = 0; i < BIG_LENGTH; i++)
{
if (!hd.Contains(lbls[0]))
{
Assert.False(true, string.Format("Error, doesn't contain 1st special item"));
}
}
if (hd.Values.Count != BIG_LENGTH)
{
Assert.False(true, string.Format("Error, Values.Count returned {0} instead of {1}", hd.Values.Count, BIG_LENGTH));
}
hd.Remove(lbls[0]);
if (hd.Count != BIG_LENGTH - 1)
{
Assert.False(true, string.Format("Error, failed to remove item"));
}
if (hd.Contains(lbls[0]))
{
Assert.False(true, string.Format("Error, failed to remove special item"));
}
// **************************************************************//
///// Case-insensitive ctor ///////////////////////////////////////
// [] Capacity 0 - Case-insensitive ctor
hd = new HybridDictionary(0, true);
if (hd == null)
{
Assert.False(true, string.Format("Error, dictionary is null after default ctor"));
}
if (hd.Count != 0)
{
Assert.False(true, string.Format("Error, Count = {0} after default ctor", hd.Count));
}
if (hd["key"] != null)
{
Assert.False(true, string.Format("Error, Item(some_key) returned non-null after default ctor"));
}
//
// [] Add(string, string)
//
hd.Add("Name", "Value");
if (hd.Count != 1)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of 1", hd.Count));
}
if (String.Compare(hd["Name"].ToString(), "Value") != 0)
{
Assert.False(true, string.Format("Error, Item() returned unexpected value"));
}
// should not allow keys that differ only in casing
Assert.Throws<ArgumentException>(() => { hd.Add("NaMe", "vl"); });
if (hd.Count != 1)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of 1", hd.Count));
}
// we created case-insensitive - should find this key
if (String.Compare(hd["NAME"].ToString(), "Value") != 0)
{
Assert.False(true, string.Format("Error, Item() returned unexpected value for uppercase key"));
}
//
// [] Clear() short dictionary
//
hd.Clear();
if (hd.Count != 0)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of 0 after Clear()", hd.Count));
}
if (hd["Name"] != null)
{
Assert.False(true, string.Format("Error, Item() returned non-null value after Clear()"));
}
//
// [] numerous Add(string, string)
//
len = valuesLong.Length;
hd.Clear();
for (int i = 0; i < len; i++)
{
hd.Add(keysLong[i], valuesLong[i]);
}
if (hd.Count != len)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of {1}", hd.Count, len));
}
for (int i = 0; i < len; i++)
{
if (String.Compare(hd[keysLong[i]].ToString(), valuesLong[i]) != 0)
{
Assert.False(true, string.Format("Error, Item() returned unexpected value", i));
}
// should have case-insensitive dictionary
if (String.Compare(hd[keysLong[i].ToUpper()].ToString(), valuesLong[i]) != 0)
{
Assert.False(true, string.Format("Error, Item() returned unexpected value for uppercase key", i));
}
}
//
// [] Clear() long dictionary
//
hd.Clear();
if (hd.Count != 0)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of 0 after Clear()", hd.Count));
}
//
// [] few elements not overriding Equals()
//
hd.Clear();
lbls = new Hashtable[2];
bs = new ArrayList[2];
lbls[0] = new Hashtable();
lbls[1] = new Hashtable();
bs[0] = new ArrayList();
bs[1] = new ArrayList();
hd.Add(lbls[0], bs[0]);
// should get ArgumentException here
Assert.Throws<ArgumentException>(() => { hd.Add(lbls[1], bs[1]); });
if (hd.Count != 1)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of 1", hd.Count));
}
// ---------------------------------------------------------------
// ---------------------------------------------------------------
// [] Capacity 10 - case-insensitive
hd = new HybridDictionary(10, true);
if (hd == null)
{
Assert.False(true, string.Format("Error, dictionary is null after default ctor"));
}
if (hd.Count != 0)
{
Assert.False(true, string.Format("Error, Count = {0} after default ctor", hd.Count));
}
if (hd["key"] != null)
{
Assert.False(true, string.Format("Error, Item(some_key) returned non-null after default ctor"));
}
//
// [] Add(string, string)
//
hd.Add("Name", "Value");
if (hd.Count != 1)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of 1", hd.Count));
}
if (String.Compare(hd["Name"].ToString(), "Value") != 0)
{
Assert.False(true, string.Format("Error, Item() returned unexpected value"));
}
// should not allow keys that differ only in casing
Assert.Throws<ArgumentException>(() => { hd.Add("NaMe", "vl"); });
if (hd.Count != 1)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of 1", hd.Count));
}
// we created case-insensitive - should find this key
if (String.Compare(hd["NAME"].ToString(), "Value") != 0)
{
Assert.False(true, string.Format("Error, Item() returned unexpected value for uppercase key"));
}
//
// [] Clear() short dictionary
//
hd.Clear();
if (hd.Count != 0)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of 0 after Clear()", hd.Count));
}
if (hd["Name"] != null)
{
Assert.False(true, string.Format("Error, Item() returned non-null value after Clear()"));
}
//
// [] numerous Add(string, string)
//
len = valuesLong.Length;
hd.Clear();
for (int i = 0; i < len; i++)
{
hd.Add(keysLong[i], valuesLong[i]);
}
if (hd.Count != len)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of {1}", hd.Count, len));
}
for (int i = 0; i < len; i++)
{
if (String.Compare(hd[keysLong[i]].ToString(), valuesLong[i]) != 0)
{
Assert.False(true, string.Format("Error, Item() returned unexpected value", i));
}
// should have case-insensitive dictionary
if (String.Compare(hd[keysLong[i].ToUpper()].ToString(), valuesLong[i]) != 0)
{
Assert.False(true, string.Format("Error, Item() returned unexpected value for uppercase key", i));
}
}
//
// [] Clear() long dictionary
//
hd.Clear();
if (hd.Count != 0)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of 0 after Clear()", hd.Count));
}
//
// [] few elements not overriding Equals()
//
hd.Clear();
lbls = new Hashtable[2];
bs = new ArrayList[2];
lbls[0] = new Hashtable();
lbls[1] = new Hashtable();
bs[0] = new ArrayList();
bs[1] = new ArrayList();
hd.Add(lbls[0], bs[0]);
// should get ArgumentException here
Assert.Throws<ArgumentException>(() => { hd.Add(lbls[1], bs[1]); });
if (hd.Count != 1)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of 1", hd.Count));
}
// ---------------------------------------------------------------
// ---------------------------------------------------------------
// [] Capacity 100, case-insensitive
hd = new HybridDictionary(100, true);
if (hd == null)
{
Assert.False(true, string.Format("Error, dictionary is null after default ctor"));
}
if (hd.Count != 0)
{
Assert.False(true, string.Format("Error, Count = {0} after default ctor", hd.Count));
}
if (hd["key"] != null)
{
Assert.False(true, string.Format("Error, Item(some_key) returned non-null after default ctor"));
}
//
// [] Add(string, string)
//
hd.Add("Name", "Value");
if (hd.Count != 1)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of 1", hd.Count));
}
if (String.Compare(hd["Name"].ToString(), "Value") != 0)
{
Assert.False(true, string.Format("Error, Item() returned unexpected value"));
}
// should not allow keys that differ only in casing
Assert.Throws<ArgumentException>(() => { hd.Add("NaMe", "vl"); });
if (hd.Count != 1)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of 1", hd.Count));
}
// we created case-insensitive - should find this key
if (String.Compare(hd["NAME"].ToString(), "Value") != 0)
{
Assert.False(true, string.Format("Error, Item() returned unexpected value for uppercase key"));
}
//
// [] Clear()
//
hd.Clear();
if (hd.Count != 0)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of 0 after Clear()", hd.Count));
}
if (hd["Name"] != null)
{
Assert.False(true, string.Format("Error, Item() returned non-null value after Clear()"));
}
//
// [] numerous Add(string, string)
//
len = valuesLong.Length;
hd.Clear();
for (int i = 0; i < len; i++)
{
hd.Add(keysLong[i], valuesLong[i]);
}
if (hd.Count != len)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of {1}", hd.Count, len));
}
for (int i = 0; i < len; i++)
{
if (String.Compare(hd[keysLong[i]].ToString(), valuesLong[i]) != 0)
{
Assert.False(true, string.Format("Error, Item() returned unexpected value", i));
}
// should have case-insensitive dictionary
if (String.Compare(hd[keysLong[i].ToUpper()].ToString(), valuesLong[i]) != 0)
{
Assert.False(true, string.Format("Error, Item() returned unexpected value for uppercase key", i));
}
}
//
// [] Clear() long dictionary
//
hd.Clear();
if (hd.Count != 0)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of 0 after Clear()", hd.Count));
}
//
// [] few elements not overriding Equals()
//
hd.Clear();
lbls = new Hashtable[2];
bs = new ArrayList[2];
lbls[0] = new Hashtable();
lbls[1] = new Hashtable();
bs[0] = new ArrayList();
bs[1] = new ArrayList();
hd.Add(lbls[0], bs[0]);
// should get ArgumentException here
Assert.Throws<ArgumentException>(() => { hd.Add(lbls[1], bs[1]); });
if (hd.Count != 1)
{
Assert.False(true, string.Format("Error, Count returned {0} instead of 1", hd.Count));
}
}
// Get all namespaces in the local or scope from the last parent
private IDictionary GetNamespacesInScope(NamespaceScope scope)
{
int i = 0;
switch (scope)
{
case NamespaceScope.All:
i = 0;
break;
case NamespaceScope.Local:
i = _lastDecl;
int lastScopeCount = _nsDeclarations[i].ScopeCount;
while (_nsDeclarations[i].ScopeCount == lastScopeCount)
i--;
i++;
break;
}
HybridDictionary dict = new HybridDictionary(_lastDecl -i + 1);
for (; i < _lastDecl; i++)
{
string prefix = _nsDeclarations[i].Prefix;
string xmlNamespace = _nsDeclarations[i].Uri;
Debug.Assert(prefix != null);
if (xmlNamespace.Length > 0 || prefix.Length > 0)
{
dict[prefix] = xmlNamespace;
}
else
{
// default namespace redeclared to "" -> remove from list
dict.Remove(prefix);
}
}
return dict;
}
private static void ReleaseInstanceDataForTriggerBinding(
BindingBase binding,
HybridDictionary instanceValues,
EventHandler<BindingValueChangedEventArgs> handler)
{
BindingExpressionBase bindingExpr = (BindingExpressionBase)instanceValues[binding];
if (bindingExpr != null)
{
bindingExpr.ValueChanged -= handler;
bindingExpr.Detach();
instanceValues.Remove(binding);
}
}
//
// This method
// 1. Adds or removes per-instance state on the container/child (push model)
// 2. Processes a single value that needs per-instance storage
//
internal static void ProcessInstanceValue(
DependencyObject target,
int childIndex,
HybridDictionary instanceValues,
DependencyProperty dp,
int i,
bool apply)
{
// If we get this far, it's because there's a value
// in the property value list of an active style that requires
// per-instance storage. The initialization (CreateInstaceData)
// should have created the InstanceValues hashtable by now.
Debug.Assert(instanceValues != null, "InstanceValues hashtable should have been created at initialization time.");
InstanceValueKey key = new InstanceValueKey(childIndex, dp.GlobalIndex, i);
if (apply)
{
// Store a sentinel value in per-instance StyleData.
// The actual value is created only on demand.
instanceValues[key] = NotYetApplied;
}
else
{
// Remove the instance value from the table
object value = instanceValues[key];
instanceValues.Remove(key);
Expression expr;
Freezable freezable;
if ((expr = value as Expression)!= null)
{
// if the instance value is an expression, detach it
expr.OnDetach(target, dp);
}
else if ((freezable = value as Freezable)!= null)
{
// if the instance value is a Freezable, remove its
// inheritance context
target.RemoveSelfAsInheritanceContext(freezable, dp);
}
}
}
// Updated 2004-01-29 by CraigAndera
public IEnumerable AllTopicsForNewsletter(AbsoluteTopicName newsletter)
{
// HybridDictionary switches between using a ListDictionary and a Hashtable
// depending on the size of the collection - should be a good choice since we don't
// know how big the collection of topic names will be
HybridDictionary answer = new HybridDictionary();
ContentBase cb = ContentBaseForNewsletter(newsletter);
foreach (string s in TheFederation.GetTopicListPropertyValue(newsletter, "Topics"))
{
// If the wildcard appears, ignore all the other topics listed - include every topic
if (s == "*")
{
answer.Clear();
foreach (AbsoluteTopicName atn in cb.AllTopics(false))
{
answer.Add(atn.Fullname, atn);
}
// No need to continue iterating after we find the wildcard
break;
}
else
{
RelativeTopicName rel = new RelativeTopicName(s);
foreach (AbsoluteTopicName atn in cb.AllAbsoluteTopicNamesThatExist(rel))
{
answer.Add(atn.Fullname, atn);
}
}
}
// Now we need to remove any topics that appear in the Exclude field
foreach (string s in TheFederation.GetTopicListPropertyValue(newsletter, "Exclude"))
{
RelativeTopicName rel = new RelativeTopicName(s);
foreach (AbsoluteTopicName atn in cb.AllAbsoluteTopicNamesThatExist(rel))
{
answer.Remove(atn.Fullname);
}
}
// Do the same for "Excludes", since it's hard to remember which one to use
foreach (string s in TheFederation.GetTopicListPropertyValue(newsletter, "Excludes"))
{
RelativeTopicName rel = new RelativeTopicName(s);
foreach (AbsoluteTopicName atn in cb.AllAbsoluteTopicNamesThatExist(rel))
{
answer.Remove(atn.Fullname);
}
}
return answer.Values;
}
void IToolboxService.ResetToolbox()
{
IMxUIService service = (IMxUIService) this._serviceProvider.GetService(typeof(IMxUIService));
if (service.ShowMessage("All toolbox customizations in all sections will be lost.\r\nAre you sure you want to continue?", "Reset Toolbox", MessageBoxIcon.Exclamation, MessageBoxButtons.YesNo, MessageBoxDefaultButton.Button2) == DialogResult.Yes)
{
IToolboxService service2 = this;
ICollection is2 = this.ReadToolboxFromConfig();
IDictionary dictionary = new HybridDictionary(true);
foreach (ToolboxSection section in this._sections)
{
dictionary[section.Name] = section;
}
foreach (ToolboxSection section2 in is2)
{
ToolboxSection section3 = (ToolboxSection) dictionary[section2.Name];
if (section3 != null)
{
section3.ClearToolboxDataItems();
foreach (ToolboxDataItem item in section2.ToolboxDataItems)
{
section3.AddToolboxDataItem(item, false);
}
section3.FireItemsChanged();
dictionary.Remove(section2.Name);
continue;
}
service2.AddToolboxSection(section2);
}
bool flag = false;
foreach (ToolboxSection section4 in dictionary.Values)
{
if (section4 == service2.ActiveSection)
{
flag = true;
}
service2.RemoveToolboxSection(section4);
}
if (flag)
{
if (this._sections.Count > 0)
{
service2.ActiveSection = (ToolboxSection) this._sections[0];
}
else
{
service2.ActiveSection = null;
}
}
}
}
private ICollection GetCollectionDelta(ICollection original, ICollection modified)
{
if (((original != null) && (modified != null)) && (original.Count != 0))
{
IEnumerator enumerator = modified.GetEnumerator();
if (enumerator != null)
{
IDictionary dictionary = new HybridDictionary();
foreach (object obj2 in original)
{
if (dictionary.Contains(obj2))
{
int num = (int) dictionary[obj2];
dictionary[obj2] = ++num;
}
else
{
dictionary.Add(obj2, 1);
}
}
ArrayList list = null;
for (int i = 0; (i < modified.Count) && enumerator.MoveNext(); i++)
{
object current = enumerator.Current;
if (dictionary.Contains(current))
{
if (list == null)
{
list = new ArrayList();
enumerator.Reset();
for (int j = 0; (j < i) && enumerator.MoveNext(); j++)
{
list.Add(enumerator.Current);
}
enumerator.MoveNext();
}
int num4 = (int) dictionary[current];
if (--num4 == 0)
{
dictionary.Remove(current);
}
else
{
dictionary[current] = num4;
}
}
else if (list != null)
{
list.Add(current);
}
}
if (list != null)
{
return list;
}
}
}
return modified;
}
