public static void Min_Other_SomeNull(Labeled <ParallelQuery <int> > labeled, int count, int min)
{
ParallelQuery <int> query = labeled.Item;
Assert.Equal(count / 2, query.Min(x => x >= count / 2 ? DelgatedComparable.Delegate(x, Comparer <int> .Default) : null).Value);
Assert.Equal(count - 1, query.Min(x => x >= count / 2 ? DelgatedComparable.Delegate(x, ReverseComparer.Instance) : null).Value);
}
public static void Min_Long(Labeled <ParallelQuery <int> > labeled, int count, long min)
{
ParallelQuery <int> query = labeled.Item;
Assert.Equal(0, query.Select(x => (long)x).Min());
Assert.Equal(0, query.Select(x => (long?)x).Min());
Assert.Equal(min, query.Min(x => - (long)x));
Assert.Equal(min, query.Min(x => - (long?)x));
}
public static void Min_Int(Labeled <ParallelQuery <int> > labeled, int count, int min)
{
ParallelQuery <int> query = labeled.Item;
Assert.Equal(0, query.Min());
Assert.Equal(0, query.Select(x => (int?)x).Min());
Assert.Equal(min, query.Min(x => - x));
Assert.Equal(min, query.Min(x => - (int?)x));
}
public static void Min_Decimal(Labeled <ParallelQuery <int> > labeled, int count, decimal min)
{
ParallelQuery <int> query = labeled.Item;
Assert.Equal(0, query.Select(x => (decimal)x).Min());
Assert.Equal(0, query.Select(x => (decimal?)x).Min());
Assert.Equal(min, query.Min(x => - (decimal)x));
Assert.Equal(min, query.Min(x => - (decimal?)x));
}
public static void Min_Double(Labeled <ParallelQuery <int> > labeled, int count, double min)
{
ParallelQuery <int> query = labeled.Item;
Assert.Equal(0, query.Select(x => (double)x).Min());
Assert.Equal(0, query.Select(x => (double?)x).Min());
Assert.Equal(min, query.Min(x => - (double)x));
Assert.Equal(min, query.Min(x => - (double?)x));
Assert.Equal(double.NegativeInfinity, query.Select(x => x == count / 2 ? double.NegativeInfinity : x).Min());
Assert.Equal(double.NegativeInfinity, query.Select(x => x == count / 2 ? (double?)double.NegativeInfinity : x).Min());
Assert.Equal(double.NaN, query.Select(x => x == count / 2 ? double.NaN : x).Min());
Assert.Equal(double.NaN, query.Select(x => x == count / 2 ? (double?)double.NaN : x).Min());
}
public static void Min_Float(Labeled <ParallelQuery <int> > labeled, int count, float min)
{
ParallelQuery <int> query = labeled.Item;
Assert.Equal(0, query.Select(x => (float)x).Min());
Assert.Equal(0, query.Select(x => (float?)x).Min());
Assert.Equal(min, query.Min(x => - (float)x));
Assert.Equal(min, query.Min(x => - (float?)x));
Assert.Equal(float.NegativeInfinity, query.Select(x => x == count / 2 ? float.NegativeInfinity : x).Min());
Assert.Equal(float.NegativeInfinity, query.Select(x => x == count / 2 ? (float?)float.NegativeInfinity : x).Min());
Assert.Equal(float.NaN, query.Select(x => x == count / 2 ? float.NaN : x).Min());
Assert.Equal(float.NaN, query.Select(x => x == count / 2 ? (float?)float.NaN : x).Min());
}
public static void Min_Long_AllNull(Labeled <ParallelQuery <int> > labeled, int count, long min)
{
ParallelQuery <int> query = labeled.Item;
Assert.Null(query.Select(x => (long?)null).Min());
Assert.Null(query.Min(x => (long?)null));
}
public static void Min_Long_SomeNull(Labeled <ParallelQuery <int> > labeled, int count, long min)
{
ParallelQuery <int> query = labeled.Item;
Assert.Equal(count / 2, query.Select(x => x >= count / 2 ? (long?)x : null).Min());
Assert.Equal(min, query.Min(x => x >= count / 2 ? -(long?)x : null));
}
public static void Min_Other_AllNull(Labeled <ParallelQuery <int> > labeled, int count, int min)
{
ParallelQuery <int> query = labeled.Item;
Assert.Null(query.Select(x => (string)null).Min());
Assert.Null(query.Min(x => (string)null));
}
public static void Min_Decimal_AllNull(Labeled <ParallelQuery <int> > labeled, int count, decimal min)
{
ParallelQuery <int> query = labeled.Item;
Assert.Null(query.Select(x => (decimal?)null).Min());
Assert.Null(query.Min(x => (decimal?)null));
}
public static void Min_Float_AllNull(Labeled <ParallelQuery <int> > labeled, int count, float min)
{
ParallelQuery <int> query = labeled.Item;
Assert.Null(query.Select(x => (float?)null).Min());
Assert.Null(query.Min(x => (float?)null));
}
private static void RunAllTests(
TestTracker result, ParallelQuery <int> q, bool orderPreserved,
string leftOpName, bool leftOrderDefined)
{
LogTestRun(leftOpName, "All1", orderPreserved);
result.MustEqual(
q.All(i => i > 100),
q.ToArray().Any(i => i > 100));
LogTestRun(leftOpName, "All2", orderPreserved);
result.MustEqual(
q.All(i => i == 75),
q.ToArray().All(i => i == 75));
LogTestRun(leftOpName, "Any1", orderPreserved);
result.MustEqual(
q.Any(i => i > 100),
q.ToArray().Any(i => i > 100));
LogTestRun(leftOpName, "Any2", orderPreserved);
result.MustEqual(
q.Any(i => i == 75),
q.ToArray().Any(i => i == 75));
LogTestRun(leftOpName, "Concat", orderPreserved);
result.MustSequenceEqual(
q.Concat(q).Concat(new int[] { 1, 2, 3 }.AsParallel()),
q.Reverse().Reverse().ToArray().Concat(q.Reverse().Reverse()).Concat(new int[] { 1, 2, 3 }),
leftOrderDefined && orderPreserved);
LogTestRun(leftOpName, "DefaultIfEmpty", orderPreserved);
result.MustSequenceEqual(
q.DefaultIfEmpty(),
q.ToArray().DefaultIfEmpty(), orderPreserved && leftOrderDefined);
LogTestRun(leftOpName, "ElementAt", orderPreserved);
IEnumerable <int> q2 = q.ToArray();
int count1 = q.Count(), count2 = q2.Count();
List <int> list1 = new List <int>();
List <int> list2 = new List <int>();
for (int i = 0; i < count1; i++)
{
list1.Add(q.ElementAt(i));
}
for (int i = 0; i < count2; i++)
{
list2.Add(q2.ElementAt(i));
}
result.MustSequenceEqual(list1, list2, leftOrderDefined);
LogTestRun(leftOpName, "Except", orderPreserved);
result.MustSequenceEqual(
q.Except(Enumerable.Range(90, 50).AsParallel()),
q.ToArray().Except(Enumerable.Range(90, 50)),
false);
LogTestRun(leftOpName, "First", orderPreserved);
CheckFirstOrLast(
result,
q.First(),
q.ToArray().First(),
leftOrderDefined);
LogTestRun(leftOpName, "GroupBy", orderPreserved);
result.MustGroupByEqual(
q.GroupBy(i => i % 5, (i, e) => new Pair <int, IEnumerable <int> >(i, e)),
q.ToArray().GroupBy(i => i % 5, (i, e) => new Pair <int, IEnumerable <int> >(i, e)));
LogTestRun(leftOpName, "GroupJoin", orderPreserved);
result.MustSequenceEqual(
q.GroupJoin(q, i => i, i => i, (i, e) => e.FirstOrDefault()),
q.ToArray().GroupJoin(q.ToArray(), i => i, i => i, (i, e) => e.FirstOrDefault()),
false);
LogTestRun(leftOpName, "Intersect", orderPreserved);
result.MustSequenceEqual(
q.Intersect(Enumerable.Range(90, 50).AsParallel()),
q.ToArray().Intersect(Enumerable.Range(90, 50)),
false);
LogTestRun(leftOpName, "Join1", orderPreserved);
result.MustSequenceEqual(
q.Join((new int[] { 1, 1, 2, 3, 3 }).AsParallel(), i => i, i => i, (i, j) => i + j),
q.ToArray().Join(new int[] { 1, 1, 2, 3, 3 }, i => i, i => i, (i, j) => i + j),
false);
LogTestRun(leftOpName, "Join2", orderPreserved);
result.MustSequenceEqual(
q.Join((new int[] { 1, 1, 100, 3, 3 }).AsParallel(), i => new String('a', i), i => new String('a', i), (i, j) => i + j),
q.ToArray().Join(new int[] { 1, 1, 100, 3, 3 }, i => new String('a', i), i => new String('a', i), (i, j) => i + j),
false);
LogTestRun(leftOpName, "Last", orderPreserved);
CheckFirstOrLast(
result,
q.Last(),
q.ToArray().Last(),
leftOrderDefined);
LogTestRun(leftOpName, "Min", orderPreserved);
CheckFirstOrLast(
result,
q.Min(),
q.ToArray().Min(),
leftOrderDefined);
LogTestRun(leftOpName, "Max", orderPreserved);
CheckFirstOrLast(
result,
q.Min(),
q.ToArray().Min(),
leftOrderDefined);
LogTestRun(leftOpName, "OrderBy-ThenBy", orderPreserved);
result.MustSequenceEqual(
q.Concat(q).OrderBy(i => i % 5).ThenBy(i => - i),
q.ToArray().Concat(q).OrderBy(i => i % 5).ThenBy(i => - i),
true);
LogTestRun(leftOpName, "OrderByDescending-ThenByDescending", orderPreserved);
result.MustSequenceEqual(
q.Concat(q).OrderByDescending(i => i % 5).ThenByDescending(i => - i),
q.ToArray().Concat(q).OrderByDescending(i => i % 5).ThenByDescending(i => - i),
true);
LogTestRun(leftOpName, "Reverse", orderPreserved);
result.MustSequenceEqual(
q.Concat(q).Reverse(),
q.ToArray().Concat(q).Reverse(),
orderPreserved && leftOrderDefined);
LogTestRun(leftOpName, "Select", orderPreserved);
result.MustSequenceEqual(
q.Select(i => 5 * i - 17),
q.ToArray().Select(i => 5 * i - 17),
orderPreserved && leftOrderDefined);
LogTestRun(leftOpName, "SelectMany", orderPreserved);
result.MustSequenceEqual(
q.SelectMany(i => new int[] { 1, 2, 3 }, (i, j) => i + 100 * j),
q.ToArray().SelectMany(i => new int[] { 1, 2, 3 }, (i, j) => i + 100 * j),
false);
LogTestRun(leftOpName, "SequenceEqual", orderPreserved);
if (orderPreserved && leftOrderDefined)
{
result.MustEqual(q.SequenceEqual(q), true);
}
else
{
// We don't check the return value as it can be either true or false
q.SequenceEqual(q);
}
LogTestRun(leftOpName, "Skip", orderPreserved);
CheckTakeSkip(
result,
q.Skip(10),
q.ToArray().Skip(10),
leftOrderDefined && orderPreserved);
LogTestRun(leftOpName, "SkipWhile", orderPreserved);
CheckTakeSkip(
result,
q.SkipWhile(i => i < 30),
q.ToArray().SkipWhile(i => i < 30),
leftOrderDefined && orderPreserved);
LogTestRun(leftOpName, "SkipWhileIndexed", orderPreserved);
CheckTakeSkip(
result,
q.SkipWhile((i, j) => j < 30),
q.ToArray().SkipWhile((i, j) => j < 30),
leftOrderDefined && orderPreserved);
LogTestRun(leftOpName, "Take", orderPreserved);
CheckTakeSkip(
result,
q.Take(10),
q.ToArray().Take(10),
leftOrderDefined && orderPreserved);
LogTestRun(leftOpName, "TakeWhile", orderPreserved);
CheckTakeSkip(
result,
q.TakeWhile(i => i < 30),
q.ToArray().TakeWhile(i => i < 30),
leftOrderDefined && orderPreserved);
LogTestRun(leftOpName, "TakeWhileIndexed", orderPreserved);
CheckTakeSkip(
result,
q.TakeWhile((i, j) => j < 30),
q.ToArray().TakeWhile((i, j) => j < 30),
leftOrderDefined && orderPreserved);
LogTestRun(leftOpName, "Union", orderPreserved);
result.MustSequenceEqual(
q.Union(Enumerable.Range(90, 50).AsParallel()),
q.ToArray().Union(Enumerable.Range(90, 50)),
false);
LogTestRun(leftOpName, "Where", orderPreserved);
result.MustSequenceEqual(
q.Where(i => i < 20 || i > 80),
q.ToArray().Where(i => i < 20 || i > 80),
orderPreserved && leftOrderDefined);
LogTestRun(leftOpName, "Zip", orderPreserved);
IEnumerable <KeyValuePair <int, int> > zipQ = q.Zip(q, (i, j) => new KeyValuePair <int, int>(i, j));
result.MustSequenceEqual(
zipQ.Select(p => p.Key),
q.Reverse().Reverse().ToArray(),
orderPreserved && leftOrderDefined);
result.MustSequenceEqual(
zipQ.Select(p => p.Value),
q.Reverse().Reverse().ToArray(),
orderPreserved && leftOrderDefined);
}
protected virtual void ShowOpenShipments(IEnumerable <FinPeriod> periods)
{
ParallelQuery <string> periodIDs = periods.Select(fp => fp.FinPeriodID).AsParallel();
Dictionary <string, string> parameters = new Dictionary <string, string>();
parameters["FromPeriodID"] = FinPeriodIDFormattingAttribute.FormatForDisplay(periodIDs.Min());
parameters["ToPeriodID"] = FinPeriodIDFormattingAttribute.FormatForDisplay(periodIDs.Max());
Organization org = OrganizationMaint.FindOrganizationByID(this, Filter.Current.OrganizationID);
parameters["OrgID"] = org?.OrganizationCD;
throw new PXReportRequiredException(parameters, "IN656500", PXBaseRedirectException.WindowMode.NewWindow, "Documents Not Posted to Inventory");
}