| public static EncodeString ( string value ) : byte[] | ||
| value | string | String value. |
| return | byte[] | |
private static Tuple <double, double, double, double> TestEqualsCore()
{
Assert.IsTrue(
new MessagePackString(new byte[] { ( byte )'A', ( byte )'B', ( byte )'C' }, false).Equals(
new MessagePackString(new byte[] { ( byte )'A', ( byte )'B', ( byte )'C' }, false)
),
"Binary-Binary-True"
);
Assert.IsTrue(
new MessagePackString(new byte[] { ( byte )'A', ( byte )'B', ( byte )'C' }, false).Equals(
new MessagePackString("ABC")
),
"Binary-String-True"
);
Assert.IsTrue(
new MessagePackString("ABC").Equals(
new MessagePackString(new byte[] { ( byte )'A', ( byte )'B', ( byte )'C' }, false)
),
"String-Binary-True"
);
Assert.IsTrue(
new MessagePackString("ABC").Equals(
new MessagePackString("ABC")
),
"String-String-True"
);
Assert.IsFalse(
new MessagePackString(new byte[] { ( byte )'A', ( byte )'B', ( byte )'C' }, false).Equals(
new MessagePackString(new byte[] { ( byte )'A', ( byte )'B', ( byte )'D' }, false)
),
"Binary-Binary-False"
);
Assert.IsFalse(
new MessagePackString(new byte[] { ( byte )'A', ( byte )'B', ( byte )'C' }, false).Equals(
new MessagePackString("ABD")
),
"Binary-String-False"
);
Assert.IsFalse(
new MessagePackString("ABD").Equals(
new MessagePackString(new byte[] { ( byte )'A', ( byte )'B', ( byte )'C' }, false)
),
"String-Binary-False"
);
Assert.IsFalse(
new MessagePackString("ABC").Equals(
new MessagePackString("ABD")
),
"String-String-False"
);
var values =
new[]
{
new MessagePackString(new byte[0], false),
new MessagePackString(new byte[] { 0x20 }, false),
new MessagePackString(new byte[] { 0xff }, false),
new MessagePackString(new byte[] { 1, 2, 3 }, false),
new MessagePackString(new byte[] { 3, 2, 1 }, false)
};
const int iteration = 10;
double tinyAvg = Double.MaxValue;
double smallAvg = Double.MaxValue;
double mediumAvg = Double.MaxValue;
double largeAvg = Double.MaxValue;
var sw = new Stopwatch();
for (int i = 0; i < iteration; i++)
{
sw.Restart();
for (int x = 0; x < values.Length; x++)
{
Assert.That(values[x].Equals(null), Is.False);
for (int y = 0; y < values.Length; y++)
{
Assert.That(values[x].Equals(values[y]), Is.EqualTo(x == y));
}
}
sw.Stop();
tinyAvg = Math.Min(tinyAvg, sw.Elapsed.Ticks * 10.0 / (values.Length * values.Length));
}
var smallX = new MessagePackString(new String('A', 16));
var smallY = new MessagePackString(MessagePackConvert.EncodeString(new String('A', 16)), false);
for (int i = 0; i < iteration; i++)
{
sw.Restart();
Assert.That(smallX.Equals(smallY), Is.True);
sw.Stop();
smallAvg = Math.Min(smallAvg, sw.Elapsed.Ticks * 10.0);
}
var mediumX = new MessagePackString(new String('A', 1000));
var mediumY = new MessagePackString(MessagePackConvert.EncodeString(new String('A', 1000)), false);
for (int i = 0; i < iteration; i++)
{
sw.Restart();
Assert.That(mediumX.Equals(mediumY), Is.True);
sw.Stop();
mediumAvg = Math.Min(mediumAvg, sw.Elapsed.Ticks * 10.0);
}
var largeX = new MessagePackString(new String('A', 100000));
var largeY = new MessagePackString(MessagePackConvert.EncodeString(new String('A', 100000)), false);
for (int i = 0; i < iteration; i++)
{
sw.Restart();
Assert.That(largeX.Equals(largeY), Is.True);
sw.Stop();
largeAvg = Math.Min(largeAvg, sw.Elapsed.Ticks * 10.0);
}
return(Tuple.Create(tinyAvg, smallAvg, mediumAvg, largeAvg));
}
public void TestEncodeString_Empty_EncodedAsEmpty()
{
Assert.That(MessagePackConvert.EncodeString(String.Empty), Is.Empty);
}
public void TestEncodeString_Null()
{
Assert.Throws <ArgumentNullException>(() => MessagePackConvert.EncodeString(null));
}
public void TestEncodeString_Normal_EncodedAsUtf8NonBom()
{
var encoding = new UTF8Encoding(encoderShouldEmitUTF8Identifier: false);
Assert.AreEqual(encoding.GetBytes(_testValue), MessagePackConvert.EncodeString(_testValue));
}
