public static void GetOrderableDynamicPartitions(long from, long count)
{
long to = from + count;
var partitioner = Partitioner.Create(from, to);
//var elements = partitioner.GetOrderableDynamicPartitions().SelectMany(tuple => tuple.UnRoll());
IList <long> elements = new List <long>();
foreach (var partition in partitioner.GetOrderableDynamicPartitions())
{
foreach (var item in partition.UnRoll())
{
elements.Add(item);
}
}
Assert.True(elements.CompareSequences <long>(RangePartitionerHelpers.LongEnumerable(from, to)), "GetOrderableDynamicPartitions Element mismatch");
//var keys = partitioner.GetOrderableDynamicPartitions().Select(tuple => tuple.Key).ToArray();
IList <long> keys = new List <long>();
foreach (var tuple in partitioner.GetOrderableDynamicPartitions())
{
keys.Add(tuple.Key);
}
Assert.True(keys.CompareSequences <long>(RangePartitionerHelpers.LongEnumerable(keys[0], keys.Count)), "GetOrderableDynamicPartitions key mismatch");
}
public static void CheckGetDynamicPartitionsWithRange(long from, long count, long desiredRangeSize)
{
long to = from + count;
var partitioner = Partitioner.Create(from, to, desiredRangeSize);
//var elements = partitioner.GetDynamicPartitions().SelectMany(tuple => tuple.UnRoll());
IList <long> elements = new List <long>();
foreach (var partition in partitioner.GetDynamicPartitions())
{
foreach (var item in partition.UnRoll())
{
elements.Add(item);
}
}
Assert.True(elements.CompareSequences <long>(RangePartitionerHelpers.LongEnumerable(from, to)), "GetDynamicPartitions Element mismatch");
//var rangeSizes = partitioner.GetDynamicPartitions().Select(tuple => tuple.GetRangeSize()).ToArray();
IList <long> rangeSizes = new List <long>();
foreach (var partition in partitioner.GetDynamicPartitions())
{
rangeSizes.Add(partition.GetRangeSize());
}
ValidateRangeSize(desiredRangeSize, rangeSizes);
}
public static void CheckGetOrderablePartitions(long from, long count, int dop)
{
long to = from + count;
var partitioner = Partitioner.Create(from, to);
//var elements = partitioner.GetOrderablePartitions(dop).SelectMany(enumerator => enumerator.UnRoll());
IList <long> elements = new List <long>();
foreach (var partition in partitioner.GetPartitions(dop))
{
foreach (var item in partition.UnRoll())
{
elements.Add(item);
}
}
Assert.True(elements.CompareSequences <long>(RangePartitionerHelpers.LongEnumerable(from, to)), "GetOrderablePartitions Element mismatch");
//var keys = partitioner.GetOrderablePartitions(dop).SelectMany(enumerator => enumerator.UnRollIndices()).ToArray();
IList <long> keys = new List <long>();
foreach (var partition in partitioner.GetOrderablePartitions(dop))
{
foreach (var item in partition.UnRollIndices())
{
keys.Add(item);
}
}
Assert.True(keys.CompareSequences <long>(RangePartitionerHelpers.LongEnumerable(keys[0], keys.Count)), "GetOrderablePartitions key mismatch");
}
public static void GetOrderableDynamicPartitionsWithRange(int from, int count, int desiredRangeSize)
{
int to = from + count;
var partitioner = Partitioner.Create(from, to, desiredRangeSize);
//var elements = partitioner.GetOrderableDynamicPartitions().SelectMany(tuple => tuple.UnRoll());
IList <int> elements = new List <int>();
foreach (var tuple in partitioner.GetOrderableDynamicPartitions())
{
foreach (var item in tuple.UnRoll())
{
elements.Add(item);
}
}
Assert.True(elements.CompareSequences <int>(RangePartitionerHelpers.IntEnumerable(from, to)), "GetOrderableDynamicPartitions Element mismatch");
//var keys = partitioner.GetOrderableDynamicPartitions().Select(tuple => tuple.Key).ToArray();
IList <long> keys = new List <long>();
foreach (var tuple in partitioner.GetOrderableDynamicPartitions())
{
keys.Add(tuple.Key);
}
Assert.True(keys.CompareSequences <long>(RangePartitionerHelpers.LongEnumerable(keys[0], keys.Count)), "GetOrderableDynamicPartitions key mismatch");
//var rangeSizes = partitioner.GetOrderableDynamicPartitions().Select(tuple => tuple.GetRangeSize()).ToArray();
IList <int> rangeSizes = new List <int>();
foreach (var partition in partitioner.GetOrderableDynamicPartitions())
{
rangeSizes.Add(partition.GetRangeSize());
}
ValidateRangeSize(desiredRangeSize, rangeSizes);
}
public static void CheckGetPartitionsWithRange(int from, int count, int desiredRangeSize, int dop)
{
int to = from + count;
var partitioner = Partitioner.Create(from, to, desiredRangeSize);
//var elements = partitioner.GetPartitions(dop).SelectMany(enumerator => enumerator.UnRoll());
IList <int> elements = new List <int>();
foreach (var partition in partitioner.GetPartitions(dop))
{
foreach (var item in partition.UnRoll())
{
elements.Add(item);
}
}
Assert.True(elements.CompareSequences <int>(RangePartitionerHelpers.IntEnumerable(from, to)), "GetPartitions element mismatch");
//var rangeSizes = partitioner.GetPartitions(dop).SelectMany(enumerator => enumerator.GetRangeSize()).ToArray();
IList <int> rangeSizes = new List <int>();
foreach (var partition in partitioner.GetPartitions(dop))
{
foreach (var item in partition.GetRangeSize())
{
rangeSizes.Add(item);
}
}
ValidateRangeSize(desiredRangeSize, rangeSizes);
}
public static void CheckGetDynamicPartitions(int from, int count)
{
int to = from + count;
var partitioner = Partitioner.Create(from, to);
//var elements = partitioner.GetDynamicPartitions().SelectMany(tuple => tuple.UnRoll());
IList <int> elements = new List <int>();
foreach (var partition in partitioner.GetDynamicPartitions())
{
foreach (var item in partition.UnRoll())
{
elements.Add(item);
}
}
Assert.True(elements.CompareSequences <int>(RangePartitionerHelpers.IntEnumerable(from, to)), "GetDynamicPartitions Element mismatch");
}
public static void CheckGetPartitions(int from, int count, int dop)
{
int to = from + count;
var partitioner = Partitioner.Create(from, to);
//var elements = dopPartitions.SelectMany(enumerator => enumerator.UnRoll());
IList <int> elements = new List <int>();
foreach (var partition in partitioner.GetPartitions(dop))
{
foreach (var item in partition.UnRoll())
{
elements.Add(item);
}
}
Assert.True(elements.CompareSequences <int>(RangePartitionerHelpers.IntEnumerable(from, to)), "GetPartitions element mismatch");
}
