Exemple #1
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        [Test()] // NUnit.Framework.TestAttribute
        public void Constructing()
        {
            List <Interval <int> > intervals_int = new List <Interval <int> >()
            {
                new Interval <int>(-3),
                new Interval <int>(-3, 6),
                new Interval <int>(0, 3, false, false),
                new Interval <int>(0, 3, false, true),
                new Interval <int>(0, 3, true, false),
                new Interval <int>(0, 3, true, true),
                new Interval <int>(11, 11, true, true),
            };

            foreach (Interval <int> i in intervals_int)
            {
                Console.WriteLine($"interval = {i}");
            }

            List <Interval <double> > intervals_double = new List <Interval <double> >()
            {
                new Interval <double>(-10.1, 3.3),
                new Interval <double>(-10.1, 3.3, false, false),
                new Interval <double>(-10.1, 3.3, false, true),
                new Interval <double>(-10.1, 3.3, true, false),
                new Interval <double>(-10.1, 3.3, true, true),
            };

            foreach (Interval <double> i in intervals_double)
            {
                Console.WriteLine($"interval = {i}");
            }

            bool contains = false;

            interval_datetime_11 = new Interval <DateTime>("[20171011, 2018-01-10]");
            contains             = interval_datetime_11.Contains(new DateTime(2018, 01, 10));
            Assert.AreEqual(contains, true);
            contains = interval_datetime_11.Contains(new DateTime(2017, 10, 11));
            Assert.AreEqual(contains, true);

            interval_datetime_11 = new Interval <DateTime>("[20171011, 2018-01-10)");
            contains             = interval_datetime_11.Contains(new DateTime(2018, 01, 10));
            Assert.AreEqual(contains, false);
            contains = interval_datetime_11.Contains(new DateTime(2017, 10, 11));
            Assert.AreEqual(contains, true);

            interval_datetime_11 = new Interval <DateTime>("(20171011, 2018-01-10]");
            contains             = interval_datetime_11.Contains(new DateTime(2018, 01, 10));
            Assert.AreEqual(contains, true);
            contains = interval_datetime_11.Contains(new DateTime(2017, 10, 11));
            Assert.AreEqual(contains, false);

            interval_datetime_11 = new Interval <DateTime>("(20171011, 2018-01-10)");
            contains             = interval_datetime_11.Contains(new DateTime(2018, 01, 10));
            Assert.AreEqual(contains, false);
            contains = interval_datetime_11.Contains(new DateTime(2017, 10, 11));
            Assert.AreEqual(contains, false);

            return;
        }
Exemple #2
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 public static bool Overlaps(this Interval self, Interval other)
 {
     return(self.Contains(other.Start) ||
            self.Contains(other.End) ||
            other.Contains(self.Start) ||
            other.Contains(self.End));
 }
Exemple #3
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        public void Contains_Infinite()
        {
            var interval = new Interval(null, null);

            Assert.IsTrue(interval.Contains(Instant.MaxValue));
            Assert.IsTrue(interval.Contains(Instant.MinValue));
        }
Exemple #4
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        public void FullInterval()
        {
            Interval full = new Interval(int.MinValue, int.MinValue);

            Assert.IsFalse(full.IsEmpty);
            Assert.IsTrue(full.Contains(int.MinValue));
            Assert.IsTrue(full.Contains(0));
            Assert.IsTrue(full.Contains(int.MaxValue));
        }
Exemple #5
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        public void TestContains()
        {
            var interval = new Interval(0, 5);

            Assert.That(interval.Contains(3), Is.True);
            Assert.That(interval.Contains(0), Is.True);
            Assert.That(interval.Contains(5), Is.True);
            Assert.That(interval.Contains(-1), Is.False);
        }
Exemple #6
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 public void Contains()
 {
     Interval interval = new Interval(0, 1, IntervalEndpoint.Closed, IntervalEndpoint.Open);
     Assert.IsFalse(interval.Contains(-1));
     Assert.IsTrue(interval.Contains(0));
     Assert.IsTrue(interval.Contains(0.5));
     Assert.IsFalse(interval.Contains(1));
     Assert.IsFalse(interval.Contains(2));
 }
Exemple #7
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        public void OneToThree()
        {
            Interval i = new Interval(1, 3);

            Assert.IsFalse(i.IsEmpty);
            Assert.IsFalse(i.Contains(0));
            Assert.IsTrue(i.Contains(1));
            Assert.IsTrue(i.Contains(2));
            Assert.IsFalse(i.Contains(3));
        }
Exemple #8
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        public void ContainsInstant()
        {
            var start    = new DateTime(2016, 07, 06);
            var duration = TimeSpan.FromHours(1);
            var interval = new Interval(start, duration);

            Assert.IsFalse(interval.Contains(start.AddHours(-0.5)));
            Assert.IsTrue(interval.Contains(start.AddHours(0.5)));
            Assert.IsFalse(interval.Contains(start.AddHours(1.5)));
        }
Exemple #9
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        public void Contains()
        {
            IInterval<int> interval = new Interval<int>(5, 10);

            Assert.IsTrue(interval.Contains(5));
            Assert.IsTrue(interval.Contains(7));
            Assert.IsTrue(interval.Contains(10));

            Assert.IsFalse(interval.Contains(4));
            Assert.IsFalse(interval.Contains(11));
        }
Exemple #10
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        public void Can_CheckContainment()
        {
            var          i  = new Interval(0.455, 4.134);
            const double n1 = 0.0;
            const double n2 = 5.0;
            const double n3 = 2.33;

            Assert.False(i.Contains(n1));
            Assert.False(i.Contains(n2));
            Assert.True(i.Contains(n3));
        }
Exemple #11
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        public void Contains()
        {
            IInterval <int> interval = new Interval <int>(5, 10);

            Assert.IsTrue(interval.Contains(5));
            Assert.IsTrue(interval.Contains(7));
            Assert.IsTrue(interval.Contains(10));

            Assert.IsFalse(interval.Contains(4));
            Assert.IsFalse(interval.Contains(11));
        }
Exemple #12
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        public void ContainsInterval()
        {
            var start    = new DateTime(2016, 07, 06);
            var duration = TimeSpan.FromHours(1);

            var interval = new Interval(start, duration);

            Assert.IsTrue(interval.Contains(new Interval(start.AddSeconds(1), TimeSpan.FromSeconds(1))));
            Assert.IsFalse(interval.Contains(new Interval(start.AddSeconds(-1), TimeSpan.FromSeconds(2))));
            Assert.IsFalse(interval.Contains(new Interval(start.AddSeconds(-2), TimeSpan.FromSeconds(1))));
            Assert.IsFalse(interval.Contains(new Interval(start + duration + TimeSpan.FromSeconds(1), TimeSpan.FromSeconds(1))));
        }
Exemple #13
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        public void ContainsValue()
        {
            var      epsilon = 1E-12;
            Interval x;

            x = new Interval();
            Assert.IsTrue(x.Contains(0));
            Assert.IsFalse(x.Contains(0 + 2 * epsilon));

            x = new Interval(-1, 1, epsilon);
            Assert.IsTrue(x.Contains(0));
            Assert.IsTrue(x.Contains(-1 - epsilon / 2));
            Assert.IsFalse(x.Contains(3));
            Assert.IsFalse(x.Contains(1 + 2 * epsilon));
        }
Exemple #14
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        public void ContainsValue()
        {
            var epsilon = 1E-12;
            Interval x;

            x = new Interval();
            Assert.IsTrue(x.Contains(0));
            Assert.IsFalse(x.Contains(0 + 2 * epsilon));

            x = new Interval(-1, 1, epsilon);
            Assert.IsTrue(x.Contains(0));
            Assert.IsTrue(x.Contains(-1 - epsilon / 2));
            Assert.IsFalse(x.Contains(3));
            Assert.IsFalse(x.Contains(1 + 2 * epsilon));
        }
Exemple #15
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        /// <summary>
        /// Returns a new time series which is a view of a subset of the current series.
        /// <para>
        /// The new series has begin and end indexes which correspond to the bounds of the sub-set into the full series.<br/>
        /// The tick of the series are shared between the original time series and the returned one (i.e. no copy).
        /// </para>
        /// </summary>
        /// <param name="beginIndex"> the begin index (inclusive) of the time series </param>
        /// <param name="duration"> the duration of the time series </param>
        /// <returns> a constrained <seealso cref="TimeSeries"/> which is a sub-set of the current series </returns>
        public virtual TimeSeries Subseries(int beginIndex, Period duration)
        {
            // Calculating the sub-series interval
            var tickEndTime   = GetTick(beginIndex).EndTime;
            var beginInterval = Instant.FromDateTimeUtc(tickEndTime.InUtc().ToDateTimeUtc());
            var endInterval   = Instant.FromDateTimeUtc(tickEndTime.Plus(duration).InUtc().ToDateTimeUtc());

            var subseriesInterval = new Interval(beginInterval, endInterval);

            // Checking ticks belonging to the sub-series (starting at the provided index)
            var subseriesNbTicks = 0;

            for (var i = beginIndex; i <= _endIndex; i++)
            {
                // For each tick...
                var tickTime = Instant.FromDateTimeUtc(GetTick(i).EndTime.InUtc().ToDateTimeUtc());
                if (!subseriesInterval.Contains(tickTime))
                {
                    // Tick out of the interval
                    break;
                }
                // Tick in the interval
                // --> Incrementing the number of ticks in the subseries
                subseriesNbTicks++;
            }

            return(Subseries(beginIndex, beginIndex + subseriesNbTicks - 1));
        }
Exemple #16
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        /// <summary>
        /// Populate another polycurve with the portions of this one which lie within
        /// the specified subDomain
        /// </summary>
        /// <param name="subDomain"></param>
        /// <param name="result"></param>
        private void PopulateWithSubCurves(Interval subDomain, PolyCurve result)
        {
            double segCount = SegmentCount;
            double segStart = 0;

            foreach (Curve subCrv in SubCurves)
            {
                double   subSC  = subCrv.SegmentCount;
                double   segEnd = segStart + subSC;
                Interval crvDom = new Interval(segStart / segCount, segEnd / segCount);
                if (subDomain.Contains(crvDom))
                {
                    result.Add(subCrv.Duplicate());
                }
                else if (subDomain.Overlaps(crvDom))
                {
                    Curve subSubCrv = subCrv.Extract(crvDom.ParameterOf(subDomain.Overlap(crvDom)));
                    if (subSubCrv != null)
                    {
                        result.Add(subSubCrv);
                    }
                }
                segStart = segEnd;
            }
        }
Exemple #17
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        public void Contains_EmptyInterval_EndOfTime()
        {
            var instant  = Instant.MaxValue;
            var interval = new Interval(instant, instant);

            Assert.IsTrue(interval.Contains(instant));
        }
Exemple #18
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        private static void Contains <T>(bool expect, T l, T r, T value, bool closed)
            where T : IComparable <T>
        {
            var interval = new Interval <T>(l, r);

            Assert.AreEqual(expect, interval.Contains(value, closed));
        }
Exemple #19
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        protected ComparerResult CompareDecimals(Interval interval, decimal actual)
        {
            if (interval.Contains(actual))
                return ComparerResult.Equality;

            return new ComparerResult(interval.ToString());
        }
Exemple #20
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        public void AddRange(char lo, char hi)
        {
            Interval i = new Interval(lo, hi);

            if (ignore)
            {
                if (upper_case_characters.Intersects(i))
                {
                    Interval i2;
                    if (i.low < upper_case_characters.low)
                    {
                        i2     = new Interval(upper_case_characters.low + 32, i.high + 32);
                        i.high = upper_case_characters.low - 1;
                    }
                    else
                    {
                        i2    = new Interval(i.low + 32, upper_case_characters.high + 32);
                        i.low = upper_case_characters.high + 1;
                    }
                    intervals.Add(i2);
                }
                else if (upper_case_characters.Contains(i))
                {
                    i.high += 32;
                    i.low  += 32;
                }
            }
            intervals.Add(i);
        }
Exemple #21
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        public void Contains_EmptyInterval()
        {
            var instant  = NodaConstants.UnixEpoch;
            var interval = new Interval(instant, instant);

            Assert.IsFalse(interval.Contains(instant));
        }
Exemple #22
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    // Complete the arrayManipulation function below.
    static long arrayManipulation(int n, int m, int[][] queries)
    {
        // approach: array with 'n' items will not be created, instead only some processing over the 'm' queries will be made
        // rational: O(m^2) is potentially faster than O(n*m)
        // more on "https://github.com/franciscoraphael/HackerRank/blob/master/ArrayManipulation_approach_Om2.cs"

        long max = 0;

        ListNode processedIntervalsHead = new ListNode(new Interval(1, n, 0));

        for (int i = 0; i < m; i++)
        {
            Interval processing = new Interval(queries[i][0], queries[i][1], queries[i][2]);
            for (ListNode processedNode = processedIntervalsHead; processedNode != null; processedNode = processedNode.Next)
            {
                Interval processed = processedNode.Value;

                if (processing.End < processed.Begin)
                {
                    break;
                }
                if (processing.Begin > processed.End)
                {
                    continue;
                }

                Interval intersection = processing.Intersection(processed); // intersection already have as its value the sum of each given Interval
                if (intersection == null)
                {
                    continue;
                }

                max = GetMaxBetween(max, intersection.Value);

                if (processing.Contains(processed))   // means that 'intersection' and 'processed' have the same positions range
                {
                    processedNode.Value = intersection;
                }
                else
                {
                    List <Interval> resultantIntervals = processed.Except(processing);
                    int             positionToInsert   = (intersection.Begin < resultantIntervals[0].Begin) ? 0 : 1;
                    resultantIntervals.Insert(positionToInsert, intersection);

                    processedNode.Value = resultantIntervals[0];
                    processedNode.Next  = new ListNode(resultantIntervals[1], processedNode.Next);
                    processedNode       = processedNode.Next;

                    if (resultantIntervals.Count > 2)
                    {
                        processedNode.Next = new ListNode(resultantIntervals[2], processedNode.Next);
                        processedNode      = processedNode.Next;
                    }
                }
            }
        }

        return(max);
    }
Exemple #23
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 private bool Overlaps(Interval interval, Interval resInterval)
 {
     if (interval.Contains(resInterval.Start)) return true;
     if (interval.Contains(resInterval.End)) return true;
     if (resInterval.Contains(interval.Start)) return true;
     if (resInterval.Contains(interval.End)) return true;
     return false;
 }
Exemple #24
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 /// <summary>
 /// brings the first leaf which interval was hit and the delegate is happy with the object
 /// </summary>
 /// <param name="point"></param>
 /// <param name="hitTestFordoubleDelegate"></param>
 /// <returns></returns>
 public IntervalNode <TData> FirstHitNode(double point, Func <double, TData, HitTestBehavior> hitTestFordoubleDelegate)
 {
     if (interval.Contains(point))
     {
         if (IsLeaf)
         {
             if (hitTestFordoubleDelegate != null)
             {
                 return(hitTestFordoubleDelegate(point, UserData) == HitTestBehavior.Stop ? this : null);
             }
             return(this);
         }
         return(Left.FirstHitNode(point, hitTestFordoubleDelegate) ??
                Right.FirstHitNode(point, hitTestFordoubleDelegate));
     }
     return(null);
 }
Exemple #25
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        public void Contains()
        {
            Instant  start    = Instant.FromUtc(2019, 1, 1, 15, 25, 48);
            Instant  end      = Instant.FromUtc(2019, 1, 1, 16, 25, 48);
            Interval interval = new Interval(start, end);

            Assert.True(Snippet.For(interval.Contains(Instant.FromUtc(2019, 1, 1, 15, 50, 50))));
        }
Exemple #26
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        public void Contains_EmptyInterval_MaxValue()
        {
            var instant  = Instant.MaxValue;
            var interval = new Interval(instant, instant);

            // This would have been true under Noda Time 1.x
            Assert.IsFalse(interval.Contains(instant));
        }
Exemple #27
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        public static void Step3()
        {
            Interval i = new Interval();

            i.a = 41;
            i.b = 43;
            Console.WriteLine(i.Contains(50));
        }
Exemple #28
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        public void Contains_TwoIntervals()
        {
            var interval1      = new Interval(1, 10);
            var interval2      = new Interval(5, 6);
            var observedResult = interval1.Contains(interval2);

            Assert.True(observedResult);
        }
Exemple #29
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        public void TestContains()
        {
            var int1 = new Interval(3, 6);

            var int2 = new Interval(4, 5);

            Assert.That(int1.Contains(int2), Is.True);

            int2 = new Interval(6, 7);
            Assert.That(int1.Contains(int2), Is.False);

            int2 = new Interval(7, 8);
            Assert.That(int1.Contains(int2), Is.False);

            int2 = new Interval(5, 6.1);
            Assert.That(int1.Contains(int2), Is.False);

            int2 = new Interval(2, 3);
            Assert.That(int1.Contains(int2), Is.False);

            int2 = new Interval(1.9, 4);
            Assert.That(int1.Contains(int2), Is.False);

            int2 = new Interval(1, 2);
            Assert.That(int1.Contains(int2), Is.False);
        }
Exemple #30
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        public void TestEmptyInterval()
        {
            var empty = new Interval();
            var a     = new Interval(-1, 3);

            Contract.Assert(empty.DisjointFrom(empty));
            Contract.Assert(!empty.OverlapsWith(empty));
            Contract.Assert(!empty.Contains(empty));
        }
Exemple #31
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        public IObservable <IFile> RecordingsBetween(Interval interval)
        {
            var inside = fileSystem.GetAllFiles()
                         .SelectMany(async file => new { Interval = await file.GetInterval(), File = file })
                         .Where(x => x.Interval != null && interval.Contains(x.Interval.Value))
                         .Select(x => x.File);

            return(inside);
        }
Exemple #32
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        public void Contains(string candidateText, bool expectedResult)
        {
            var start     = Instant.FromUtc(2000, 1, 1, 0, 0);
            var end       = Instant.FromUtc(2020, 1, 1, 0, 0);
            var interval  = new Interval(start, end);
            var candidate = InstantPattern.ExtendedIsoPattern.Parse(candidateText).Value;

            Assert.AreEqual(expectedResult, interval.Contains(candidate));
        }
Exemple #33
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        protected ComparerResult CompareDecimals(Interval interval, decimal actual)
        {
            if (interval.Contains(actual))
            {
                return(ComparerResult.Equality);
            }

            return(new ComparerResult(interval.ToString()));
        }
Exemple #34
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        public void TestEmptyWithOtherInterval()
        {
            var empty = new Interval();
            var other = new Interval(-1, 3);

            Contract.Assert(other.DisjointFrom(empty));
            Contract.Assert(!other.OverlapsWith(empty));
            Contract.Assert(other.Contains(empty));
            Contract.Assert(!empty.Contains(other));
        }
Exemple #35
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        public void TestContainment()
        {
            var a = new Interval(0, 3);
            var b = new Interval(-1, 3, endInclusive: true);

            Contract.Assert(a.OverlapsWith(b));
            Contract.Assert(!a.DisjointFrom(b));
            Contract.Assert(!a.Contains(b));
            Contract.Assert(b.Contains(a));
        }
Exemple #36
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 public void ContainsTest_Bound_ExclusiveOnUpperExclusive()
 {
     int lowerBound = 2;
     BoundType lowerBoundType = BoundType.Inclusive;
     int upperBound = 5;
     BoundType upperBoundType = BoundType.Exclusive;
     Interval<int> target = new Interval<int>(lowerBound, lowerBoundType, upperBound, upperBoundType);
     IBound<int> bound = new Bound<int>(5, BoundType.Exclusive);
     bool expected = true;
     bool actual;
     actual = target.Contains(bound);
     Assert.AreEqual(expected, actual);
 }
Exemple #37
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        public void AtLeast()
        {
            var list = new int[] { 1, 2, 3 };
            Assert.True(list.AtLeast(2));
            Assert.True(list.AtLeast(3));
            Assert.False(list.AtLeast(4));

            Assert.True(list.AtLeast(2, i => i < 3));
            Assert.False(list.AtLeast(3, i => i < 3));

            // Should work for infinite sequences as well
            Assert.True(1.Inc().AtLeast(2));
            var interval = new Interval<int>(3, 7);
            Assert.True(1.Inc().AtLeast(2, i => interval.Contains(i)));
        }
Exemple #38
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		/// <summary>
		/// Liefert alle Intersections im Bogenlängenintervall intervall
		/// </summary>
		/// <param name="interval">Bogenlängeintervall in dem die Intersections liegen sollen</param>
		/// <returns>Eine Liste von Intersections, die im Bogenlängenintervall intervall liegen</returns>
		public List<SpecificIntersection> GetIntersectionsWithinArcLength(Interval<double> interval)
			{
			List<SpecificIntersection> toReturn = new List<SpecificIntersection>();

			foreach (Intersection i in this.intersections)
				{
				if (this == i._aConnection)
					{
					if (interval.Contains(i.aArcPosition))
						{
						toReturn.Add(new SpecificIntersection(this, i));
						}
					}
				else
					{
					if (interval.Contains(i.bArcPosition))
						{
						toReturn.Add(new SpecificIntersection(this, i));
						}
					}
				}

			return toReturn;
			}
Exemple #39
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		/// <summary>
		/// Returns all intersections within the given interval. Returned List is guaranteed to be sorted in ascending order.
		/// </summary>
		/// <param name="interval">Arc length interval to search for.</param>
		/// <returns>A list of all intersections within the given interval, guaranteed to be sorted in ascending order.</returns>
		public List<SpecificIntersection> GetSortedIntersectionsWithinArcLength(Interval<double> interval)
			{
			// possibly redundant to the version above, but I don't want to trust the iterator.
			List<SpecificIntersection> toReturn = new List<SpecificIntersection>();

			LinkedListNode<Intersection> lln = intersections.First;
			while (lln != null) 
				{
				if (interval.Contains(lln.Value.GetMyArcPosition(this)))
					{
					toReturn.Add(new SpecificIntersection(this, lln.Value));
					}
				lln = lln.Next;
				}

			return toReturn;
			}
Exemple #40
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 public void Contains_EmptyInterval_MaxValue()
 {
     var instant = Instant.MaxValue;
     var interval = new Interval(instant, instant);
     // This would have been true under Noda Time 1.x
     Assert.IsFalse(interval.Contains(instant));
 }
Exemple #41
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 public void Contains(string candidateText, bool expectedResult)
 {
     var start = Instant.FromUtc(2000, 1, 1, 0, 0);
     var end = Instant.FromUtc(2020, 1, 1, 0, 0);
     var interval = new Interval(start, end);
     var candidate = InstantPattern.ExtendedIsoPattern.Parse(candidateText).Value;
     Assert.AreEqual(expectedResult, interval.Contains(candidate));
 }
Exemple #42
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 public void Contains_Infinite()
 {
     var interval = new Interval(null, null);
     Assert.IsTrue(interval.Contains(Instant.MaxValue));
     Assert.IsTrue(interval.Contains(Instant.MinValue));
 }
Exemple #43
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		/// <summary>
		/// Liefert alle Intersections im Zeitintervall interval
		/// </summary>
		/// <param name="interval">Intervall in dem nach Intersections gesucht werden soll</param>
		/// <returns>Eine Liste von Intersections die im Zeitintervall interval auf dieser Linie vorkommen</returns>
		public List<Intersection> GetIntersectionsWithinTime(Interval<double> interval)
			{
			List<Intersection> toReturn = new List<Intersection>();

			foreach (Intersection i in this.intersections)
				{
				if (this == i._aConnection)
					{
					if (interval.Contains(i._aTime))
						{
						toReturn.Add(i);
						}
					}
				else
					{
					if (interval.Contains(i._bTime))
						{
						toReturn.Add(i);
						}
					}
				}

			return toReturn;
			}
Exemple #44
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		public void IntervalContainment(int s1, int e1, int s2, int e2, bool expected)
		{
			Interval<int> a = new Interval<int>(s1, e1);
			Interval<int> b = new Interval<int>(s2, e2);

			if (expected)
			{
				Assert.True(a.Contains(b));
				Assert.False(b.Contains(a));
			}
			else
				Assert.False(a.Contains(b));
		}
Exemple #45
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 private void CheckContains(Interval interval1, Interval interval2, bool expextedResult)
 {
     Assert.AreEqual(interval1.Contains(interval2), expextedResult);
 }
Exemple #46
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 public void Contains_EmptyInterval()
 {
     var instant = NodaConstants.UnixEpoch;
     var interval = new Interval(instant, instant);
     Assert.IsFalse(interval.Contains(instant));
 }
Exemple #47
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		public void IntervalContainment(int s1, int e1, int v, bool expected)
		{
			Interval<int> a = new Interval<int>(s1, e1);

			if (expected)
				Assert.True(a.Contains(v));
			else
				Assert.False(a.Contains(v));
		}
Exemple #48
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 public void ContainsTest_Key_TooLow()
 {
     int lowerBound = 2;
     BoundType lowerBoundType = BoundType.Inclusive;
     int upperBound = 5;
     BoundType upperBoundType = BoundType.Inclusive;
     Interval<int> target = new Interval<int>(lowerBound, lowerBoundType, upperBound, upperBoundType);
     int key = 1;
     bool expected = false;
     bool actual;
     actual = target.Contains(key);
     Assert.AreEqual(expected, actual);
 }