Exemple #1
0
        public void PUT_GetContract([PexAssumeUnderTest] ArrayList arrList, int index)
        {
            AssumePrecondition.IsTrue(index < arrList.Count && index >= 0);

            int Old_arrListCount = arrList.Count;
            int Old_index        = index;

            //code
            int New_Ret = (int)(arrList[index]);

            int  New_arrListCount   = arrList.Count;
            bool New_containsNewRet = arrList.Contains(New_Ret);

            PexObserve.ValueForViewing("$old_arrList_Count", Old_arrListCount);
            PexObserve.ValueForViewing("$new_arrList_Count", New_arrListCount);
            PexObserve.ValueForViewing("$old_arrList_index", Old_index);
            PexObserve.ValueForViewing("$New_ret", New_Ret);

            PexObserve.ValueForViewing("$new_containsNewRet", New_containsNewRet);

            Assert.True(((New_containsNewRet && New_arrListCount <= Old_arrListCount && Old_arrListCount <= New_arrListCount && (!(New_arrListCount <= Old_index)) && Old_index >= 0)));
        }
        public void PUT_CountContract([PexAssumeUnderTest] Stack.Stack <int> s1)
        {
            AssumePrecondition.IsTrue(true);
            //int Old_Ret = PexChoose.Value<int>("old_ret");
            int Old_Top = s1.Count > 0 ? s1.Peek() : PexChoose.Value <int>("old_top");

            /*Code */
            int New_Ret = s1.Count;

            int New_Top = s1.Count > 0 ? s1.Peek() : PexChoose.Value <int>("new_top");

            //int New_Top = Old_Top; // consult about this decision later
            //bool New_ContainsNewRet = s1.Contains(New_Ret);

            PexObserve.ValueForViewing("$old_s1_Peek", Old_Top);
            PexObserve.ValueForViewing("$new_s1_Peek", New_Top);
            //PexObserve.ValueForViewing("$old_s1_ret", Old_Ret);
            PexObserve.ValueForViewing("$new_ret", New_Ret);
            //PexObserve.ValueForViewing("$New_ContainsNewRet", New_ContainsNewRet);

            Assert.True(((Old_Top <= New_Ret && New_Ret >= 0) || (New_Top == Old_Top && New_Ret >= 0 && Old_Top >= 1) || (New_Top == Old_Top && New_Ret == 0) || (New_Ret == 0 && New_Top >= 1) || (New_Top <= Old_Top && New_Ret == 0) || (New_Top <= Old_Top && New_Top <= 0 && New_Ret == 0)));
        }
Exemple #3
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        public void PUT_AddContract([PexAssumeUnderTest] BinaryHeap.BinaryHeap <int, int> bh, int key, int value)
        {
            AssumePrecondition.IsTrue(true);

            int Old_bhCount = bh.Count;
            //int Old_bhCapacity = bh.Capacity;
            int Old_bhMinimumKey   = bh.Count > 0 ? bh.Minimum().Key : PexChoose.Value <int>("old_bhMinimumKey");
            int Old_bhMinimumValue = bh.Count > 0 ? bh.Minimum().Value : PexChoose.Value <int>("old_bhMinimumValue");
            //int Old_bhMinimumKey = bh.Count > 0 ? bh.Minimum().Key : key + 1; //PexChoose.Value<int>("old_bhMinimumKey");
            //int Old_bhMinimumValue = bh.Count > 0 ? bh.Minimum().Value : value + 1; //PexChoose.Value<int>("old_bhMinimumValue");

            int Old_bhIndexOfValue = bh.IndexOf(value);
            int Old_key            = key;
            int Old_value          = value;

            //code
            bh.Add(key, value);

            int New_bhCount = bh.Count;
            //int New_bhCapacity = bh.Capacity;
            int New_bhMinimumKey   = bh.Minimum().Key;   // bh.Count > 0 ? bh.Minimum().Key : PexChoose.Value<int>("new_bhMinimumKey");
            int New_bhMinimumValue = bh.Minimum().Value; //bh.Count > 0 ? bh.Minimum().Value : PexChoose.Value<int>("new_bhMinimumValue");
            int New_bhIndexOfValue = bh.IndexOf(value);

            PexObserve.ValueForViewing("$old_bh_count", Old_bhCount);
            PexObserve.ValueForViewing("$new_bh_count", New_bhCount);
            PexObserve.ValueForViewing("$old_bh_key", Old_key);
            PexObserve.ValueForViewing("$old_bh_value", Old_value);
            //PexObserve.ValueForViewing("$old_bh_capacity", Old_bhCapacity);
            //PexObserve.ValueForViewing("$new_bh_capacity", New_bhCapacity);
            PexObserve.ValueForViewing("$old_bh_indexof_value", Old_bhIndexOfValue);
            PexObserve.ValueForViewing("$new_bh_indexof_value", New_bhIndexOfValue);
            PexObserve.ValueForViewing("$old_bh_minimum_key", Old_bhMinimumKey);
            PexObserve.ValueForViewing("$new_bh_minimum_key", New_bhMinimumKey);
            PexObserve.ValueForViewing("$old_bh_minimum_value", Old_bhMinimumValue);
            PexObserve.ValueForViewing("$new_bh_minimum_value", New_bhMinimumValue);

            Assert.True(((New_bhMinimumKey <= Old_key && New_bhCount == 1 + Old_bhCount && (!(Old_bhIndexOfValue == Old_bhCount)) && Old_bhIndexOfValue <= Old_bhCount && New_bhIndexOfValue <= Old_bhCount && New_bhIndexOfValue >= 0 && Old_bhIndexOfValue >= -1)));
        }
Exemple #4
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        public void RemoveTreePUT([PexAssumeUnderTest] List <int> values, int start, int end)
        {
            PexAssume.IsFalse(start < 0 || end < 0);
            PexAssume.IsTrue(start < values.Count);
            PexAssume.IsTrue(end >= start && end < values.Count);
            AvlTree <int> avlTree       = new AvlTree <int>(values);
            int           toRemoveCount = (end - start) == 0 ? (values.Count > 0? 1:0) : end - start;
            IList <int>   toRemove      = values.GetRange(start, toRemoveCount);

            foreach (int i in toRemove)
            {
                bool result = avlTree.Remove(i);
                PexAssert.IsTrue(result);
            }
            PexAssert.AreEqual(values.Count - toRemoveCount, avlTree.Count);
            IEnumerable enumerator = avlTree.GetInorderEnumerator();

            foreach (int i in enumerator)
            {
                PexObserve.ValueForViewing <int>("tree nodes", i);
            }
        }
Exemple #5
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        public void MergeOrderedArrayPUT(int[] input1, int[] input2)
        {
            if (input1 == null || input2 == null)
            {
                Sorting.MergeOrdered(input1, input2);
                PexAssert.IsTrue(false, "ArgumentNullException was expected");
            }
            input1.ShellSort();
            input2.ShellSort();
            PexObserve.ValueForViewing <IList <int> >("Sorted Input1", input1);
            PexObserve.ValueForViewing <IList <int> >("Sorted Input2", input2);
            IList <int> result = Sorting.MergeOrdered(input1, input2);

            IList <int> expected = Sorting.Concatenate(input1, input2, new int[0]).MergeSort();

            PexObserve.ValueForViewing <IList <int> >("Sorting.MergeSort", result);
            PexObserve.ValueForViewing <IList <int> >("Concatenate Output", expected);
            for (int i = 0; i < result.Count; i++)
            {
                PexAssert.AreEqual(expected[i], result[i]);
            }
        }
        public void PUT_ContainsContract([PexAssumeUnderTest] Stack.Stack <int> s1, int x)
        {
            int undefinedTop = PexChoose.Value <int>("old_top");

            AssumePrecondition.IsTrue(true);
            int Old_s1Count = s1.Count;
            int Old_Top     = s1.Count > 0 ? s1.Peek() : undefinedTop;

            /*Code */
            bool New_Ret = s1.Contains(x);

            int New_s1Count = s1.Count;
            //int New_Top = s1.Count > 0 ? s1.Peek() : undefinedTop;
            int New_Top = s1.Count > 0 ? s1.Peek() : PexChoose.Value <int>("new_top");

            PexObserve.ValueForViewing("$old_s1_Count", Old_s1Count);
            PexObserve.ValueForViewing("$new_s1_Count", New_s1Count);
            PexObserve.ValueForViewing("$old_s1_Peek", Old_Top);
            PexObserve.ValueForViewing("$new_s1_Peek", New_Top);
            PexObserve.ValueForViewing("$new_ret", New_Ret);

            Assert.True(((New_s1Count == Old_s1Count && (!(New_Ret)) && New_s1Count >= 0) || (New_s1Count == Old_s1Count && New_Top == Old_Top && New_s1Count >= 1)));
        }
Exemple #7
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        public void PUT_RemoveContract([PexAssumeUnderTest] Dictionary.Dictionary <int, int> d, int x)
        {
            AssumePrecondition.IsTrue(true);

            int  Old_dCount        = d.Count;
            int  Old_x             = x;
            bool Old_dContainsKeyX = d.ContainsKey(x);

            bool New_Ret = d.Remove(x);

            int New_dCount = d.Count;

            bool New_dContainsKeyX = d.ContainsKey(x);

            PexObserve.ValueForViewing("$old_d_Count", Old_dCount);
            PexObserve.ValueForViewing("$new_d_Count", New_dCount);
            PexObserve.ValueForViewing("$old_d_x", Old_x);
            PexObserve.ValueForViewing("$New_ret", New_Ret);
            PexObserve.ValueForViewing("$old_d_contains_key_x", Old_dContainsKeyX);
            PexObserve.ValueForViewing("$new_d_contains_key_x", New_dContainsKeyX);

            Assert.True((((!(New_dContainsKeyX)) && (!(Old_dContainsKeyX)) && New_dCount == Old_dCount && (!(New_Ret)) && Old_dCount >= 0) || ((!(New_dContainsKeyX)) && New_Ret && Old_dContainsKeyX && New_dCount == -1 + Old_dCount && New_dCount >= 0)));
        }
        public void PUT_GetContract([PexAssumeUnderTest] ArrayList arrList, int index)
        {
            AssumePrecondition.IsTrue(index < arrList.Count && index >= 0);

            int Old_arrListCount = arrList.Count;
            //int Old_Ret = 2;
            int Old_index = index;

            int New_Ret = (int)(arrList[index]);

            int New_arrListCount = arrList.Count;
            int New_index        = index;


            PexObserve.ValueForViewing("$old_arrList_Count", Old_arrListCount);
            PexObserve.ValueForViewing("$new_arrList_Count", New_arrListCount);
            PexObserve.ValueForViewing("$old_arrList_index", Old_index);
            PexObserve.ValueForViewing("$new_arrList_index", New_index);
            //PexObserve.ValueForViewing("$Old_ret", Old_Ret);
            PexObserve.ValueForViewing("$New_ret", New_Ret);

            Assert.True((New_arrListCount == Old_arrListCount && New_index == Old_index && Old_index != Old_arrListCount && New_index != Old_arrListCount && Old_index != New_arrListCount && New_index != New_arrListCount));
        }
Exemple #9
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        public void PUT_ContainsValueContract([PexAssumeUnderTest] Dictionary.Dictionary <int, int> d, int y)
        {
            AssumePrecondition.IsTrue(true);

            int Old_dCount = d.Count;
            int Old_y      = y;
            //bool Old_dContainsValueY = d.ContainsValue(y);

            bool New_Ret = d.ContainsValue(y);

            int New_dCount = d.Count;

            //bool New_dContainsValueY = d.ContainsValue(y);

            PexObserve.ValueForViewing("$old_d_Count", Old_dCount);
            PexObserve.ValueForViewing("$new_d_Count", New_dCount);
            PexObserve.ValueForViewing("$old_d_y", Old_y);
            PexObserve.ValueForViewing("$New_ret", New_Ret);
            //PexObserve.ValueForViewing("$old_d_contains_value_y", Old_dContainsValueY);
            //PexObserve.ValueForViewing("$new_d_contains_value_y", New_dContainsValueY);

            Assert.True(((New_dCount == Old_dCount && (!(New_Ret)) && Old_dCount >= 0) || (New_dCount == Old_dCount && Old_dCount >= 1)));
        }
Exemple #10
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        public void PUT_ContainsContract([PexAssumeUnderTest] HashSet.HashSet <int> hs, int x)
        {
            AssumePrecondition.IsTrue(true);

            int  Old_hsCount     = hs.Count;
            int  Old_x           = x;
            bool Old_hsContainsX = hs.Contains(x);
            bool New_Ret         = hs.Contains(x);

            int  New_hsCount     = hs.Count;
            int  New_x           = x;
            bool New_hsContainsX = hs.Contains(x);

            PexObserve.ValueForViewing("$old_hs_Count", Old_hsCount);
            PexObserve.ValueForViewing("$new_hs_Count", New_hsCount);
            PexObserve.ValueForViewing("$old_x", Old_x);
            PexObserve.ValueForViewing("$new_x", New_x);
            PexObserve.ValueForViewing("$New_ret", New_Ret);
            PexObserve.ValueForViewing("$old_hs_contains_x", Old_hsContainsX);
            PexObserve.ValueForViewing("$new_hs_contains_x", New_hsContainsX);

            Assert.True(((New_hsCount == Old_hsCount && New_x == Old_x) && ((((New_Ret && Old_hsContainsX) && (((New_x == Old_hsCount && Old_x == Old_hsCount && Old_x == New_hsCount) && New_x == New_hsCount) || ((Old_x != Old_hsCount && New_x != Old_hsCount && Old_x != New_hsCount && New_x != New_hsCount) && (!(New_x == New_hsCount))))) && New_hsContainsX) || ((((!(New_Ret)) && (!(Old_hsContainsX))) && (((New_x == Old_hsCount && Old_x == Old_hsCount && Old_x == New_hsCount) && New_x == New_hsCount) || ((Old_x != Old_hsCount && New_x != Old_hsCount && Old_x != New_hsCount && New_x != New_hsCount) && (!(New_x == New_hsCount))))) && (!(New_hsContainsX))))));
        }
Exemple #11
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        public void PUT_CountContract([PexAssumeUnderTest] Queue.Queue <int> s1)
        {
            AssumePrecondition.IsTrue(true);
            int Old_s1Count = s1.Count;
            //int Old_Ret = PexChoose.Value<int>("old_ret");
            int Old_Top = s1.Count > 0 ? s1.Peek() : PexChoose.Value <int>("old_top");

            /*Code */
            int New_Ret = s1.Count;

            int New_s1Count = s1.Count;
            int New_Top     = Old_Top; // consult about this decision later

            PexObserve.ValueForViewing("$old_s1_Count", Old_s1Count);
            PexObserve.ValueForViewing("$new_s1_Count", New_s1Count);
            PexObserve.ValueForViewing("$old_s1_Peek", Old_Top);
            PexObserve.ValueForViewing("$new_s1_Peek", New_Top);
            //PexObserve.ValueForViewing("$old_s1_ret", Old_Ret);
            PexObserve.ValueForViewing("$new_ret", New_Ret);


            Assert.True(((New_Top == Old_Top && New_Ret == Old_s1Count && New_Ret == New_s1Count)));
        }
Exemple #12
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        public void PUT_RemoveAtContract([PexAssumeUnderTest] BinaryHeap.BinaryHeap <int, int> bh, int index)
        {
            AssumePrecondition.IsTrue(index < bh.Count && index >= 0);

            int Old_bhCount        = bh.Count;
            int Old_bhCapacity     = bh.Capacity;
            int Old_bhMinimumKey   = bh.Minimum().Key;
            int Old_bhMinimumValue = bh.Minimum().Value;
            int Old_index          = index;


            //code
            var ra            = bh.RemoveAt(index);
            int New_Ret_Key   = ra.Key;
            int New_Ret_Value = ra.Value;

            int New_bhCount        = bh.Count;
            int New_bhCapacity     = bh.Capacity;
            int New_bhMinimumKey   = bh.Count > 0 ? bh.Minimum().Key: PexChoose.Value <int>("new_min_key");
            int New_bhMinimumValue = bh.Count > 0 ? bh.Minimum().Value : PexChoose.Value <int>("new_min_val");
            int New_index          = index;

            PexObserve.ValueForViewing("$old_bh_count", Old_bhCount);
            PexObserve.ValueForViewing("$new_bh_count", New_bhCount);
            PexObserve.ValueForViewing("$old_bh_capacity", Old_bhCapacity);
            PexObserve.ValueForViewing("$new_bh_capacity", New_bhCapacity);
            PexObserve.ValueForViewing("$old_bh_minimum_key", Old_bhMinimumKey);
            PexObserve.ValueForViewing("$new_bh_minimum_key", New_bhMinimumKey);
            PexObserve.ValueForViewing("$old_bh_minimum_value", Old_bhMinimumValue);
            PexObserve.ValueForViewing("$new_bh_minimum_value", New_bhMinimumValue);
            PexObserve.ValueForViewing("$old_bh_index", Old_index);
            PexObserve.ValueForViewing("$new_bh_index", New_index);
            PexObserve.ValueForViewing("$new_ret_key", New_Ret_Key);
            PexObserve.ValueForViewing("$new_ret_value", New_Ret_Value);

            Assert.IsTrue(false);
        }
Exemple #13
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        public void PUT_AddContract([PexAssumeUnderTest] Dictionary.Dictionary <int, int> d, int x, int y)
        {
            AssumePrecondition.IsTrue(!(d.ContainsKey(x)));

            int  Old_dCount          = d.Count;
            int  Old_x               = x;
            int  Old_y               = y;
            bool Old_dContainsKeyX   = d.ContainsKey(x);
            bool Old_dContainsKeyY   = d.ContainsKey(y);
            bool Old_dContainsValueX = d.ContainsValue(x);
            bool Old_dContainsValueY = d.ContainsValue(y);

            d.Add(x, y);

            int  New_dCount          = d.Count;
            bool New_dContainsKeyX   = d.ContainsKey(x);
            bool New_dContainsKeyY   = d.ContainsKey(y);
            bool New_dContainsValueX = d.ContainsValue(x);
            bool New_dContainsValueY = d.ContainsValue(y);

            PexObserve.ValueForViewing("$old_d_Count", Old_dCount);
            PexObserve.ValueForViewing("$new_d_Count", New_dCount);
            PexObserve.ValueForViewing("$old_d_x", Old_x);
            PexObserve.ValueForViewing("$old_d_y", Old_y);

            //PexObserve.ValueForViewing("$Old_dContainsValueX", Old_dContainsValueX);
            //PexObserve.ValueForViewing("$New_dContainsValueX", New_dContainsValueX);
            //PexObserve.ValueForViewing("$Old_dContainsKeyY", Old_dContainsKeyY);
            //PexObserve.ValueForViewing("$New_dContainsKeyY ", New_dContainsKeyY);

            PexObserve.ValueForViewing("$old_d_contains_key_x", Old_dContainsKeyX);
            PexObserve.ValueForViewing("$new_d_contains_key_x", New_dContainsKeyX);
            PexObserve.ValueForViewing("$old_d_contains_value_y", Old_dContainsValueY);
            PexObserve.ValueForViewing("$new_d_contains_value_y", New_dContainsValueY);

            Assert.True((((!(Old_dContainsKeyX)) && New_dCount == 1 + Old_dCount && New_dContainsKeyX && New_dContainsValueY && (!(Old_dContainsValueY)) && New_dCount >= 1) || ((!(Old_dContainsKeyX)) && New_dCount == 1 + Old_dCount && New_dContainsKeyX && New_dContainsValueY && Old_dCount >= 1)));
        }
Exemple #14
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        public void PUT_RemoveAtContract([PexAssumeUnderTest] BinaryHeap.BinaryHeap <int, int> bh, int index)
        {
            AssumePrecondition.IsTrue(index < bh.Count && index >= 0);

            int Old_bhCount        = bh.Count;
            int Old_bhMinimumKey   = bh.Minimum().Key;
            int Old_bhMinimumValue = bh.Minimum().Value;
            int Old_index          = index;
            //bool Old_removeAtRoot = index == 0;

            //code
            var ra            = bh.RemoveAt(index);
            int New_Ret_Key   = ra.Key;
            int New_Ret_Value = ra.Value;


            int New_bhCount      = bh.Count;
            int New_bhMinimumKey = bh.Count > 0 ? bh.Minimum().Key: PexChoose.Value <int>("new_min_key");
            //int New_bhMinimumKey = bh.Count > 0 ? bh.Minimum().Key : Old_bhMinimumKey-1;

            int New_bhMinimumValue = bh.Count > 0 ? bh.Minimum().Value : PexChoose.Value <int>("new_min_val");

            //int New_bhMinimumValue = bh.Count > 0 ? bh.Minimum().Value : Old_bhMinimumValue - 1;

            PexObserve.ValueForViewing("$old_bh_count", Old_bhCount);
            PexObserve.ValueForViewing("$new_bh_count", New_bhCount);
            PexObserve.ValueForViewing("$old_bh_minimum_key", Old_bhMinimumKey);
            PexObserve.ValueForViewing("$new_bh_minimum_key", New_bhMinimumKey);
            PexObserve.ValueForViewing("$old_bh_minimum_value", Old_bhMinimumValue);
            PexObserve.ValueForViewing("$new_bh_minimum_value", New_bhMinimumValue);
            PexObserve.ValueForViewing("$old_bh_index", Old_index);

            PexObserve.ValueForViewing("$new_ret_key", New_Ret_Key);
            PexObserve.ValueForViewing("$new_ret_value", New_Ret_Value);

            Assert.True(((Old_index <= New_bhCount && New_bhCount == -1 + Old_bhCount && Old_bhMinimumKey <= New_Ret_Key && Old_index >= 0)));
        }
Exemple #15
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        public void PUT_AddVertexContract([PexAssumeUnderTest] UndirectedGraph.UndirectedGraph <int, Edge <int> > ug, int x)
        {
            AssumePrecondition.IsTrue(!ug.ContainsVertex(x));

            int Old_ugVertexCount = ug.VertexCount;
            int Old_ugEdgeCount   = ug.EdgeCount;
            //int Old_ugAdjacentDegree = -1;
            int  Old_ugAdjacentDegree = PexChoose.Value <int>("old_ugAdjacentDegree");
            int  Old_x = x;
            bool Old_ugAllowParallelEdges = ug.AllowParallelEdges;
            bool Old_ugContainsVertexX    = ug.ContainsVertex(x);

            //code
            ug.AddVertex(x);

            int  New_ugVertexCount    = ug.VertexCount;
            int  New_ugEdgeCount      = ug.EdgeCount;
            int  New_ugAdjacentDegree = ug.AdjacentDegree(x);
            int  New_x = x;
            bool New_ugAllowParallelEdges = ug.AllowParallelEdges;
            bool New_ugContainsVertexX    = ug.ContainsVertex(x);

            PexObserve.ValueForViewing("$old_ug_vertex_count", Old_ugVertexCount);
            PexObserve.ValueForViewing("$new_ug_vertex_count", New_ugVertexCount);
            PexObserve.ValueForViewing("$old_ug_edge_count", Old_ugEdgeCount);
            PexObserve.ValueForViewing("$new_ug_edge_count", New_ugEdgeCount);
            PexObserve.ValueForViewing("$old_ug_adjacent_degree", Old_ugAdjacentDegree);
            PexObserve.ValueForViewing("$new_ug_adjacent_degree", New_ugAdjacentDegree);
            PexObserve.ValueForViewing("$old_ug_x", Old_x);
            PexObserve.ValueForViewing("$new_ug_x", New_x);
            PexObserve.ValueForViewing("$old_ug_contains_x", Old_ugContainsVertexX);
            PexObserve.ValueForViewing("$new_ug_contains_x", New_ugContainsVertexX);
            PexObserve.ValueForViewing("$old_ug_allow_parallel_edges", Old_ugAllowParallelEdges);
            PexObserve.ValueForViewing("$new_ug_allow_parallel_edges", New_ugAllowParallelEdges);

            PexAssert.IsTrue(false);
        }
Exemple #16
0
        public string FooTest(
            [PexAssumeUnderTest] Bar target,
            Foo iksDee,
            bool b,
            bool c
            )
        {
            PexAssume.IsNotNull(iksDee);
            string result = target.Foo(iksDee, b, c);

            PexAssume.IsNotNull(target);

            int i = PexChoose.Value <int>("i");

            PexObserve.ValueForViewing <int>("yo_add_this_thing", i);
            PexObserve.Value <string>("Hello, World!", "Foo");

            string helloWorld = PexChoose.Value <string>("Hello, World!");

            Console.WriteLine(helloWorld);

            return(result);
            // TODO: add assertions to method BarTest.FooTest(Bar, Foo, Boolean, Boolean)
        }
        public void PUT_CountContract([PexAssumeUnderTest] Queue.Queue <int> s1)
        {
            AssumePrecondition.IsTrue(true);
            //int Old_s1Count = s1.Count;
            int Old_Top = s1.Count > 0 ? s1.Peek() : PexChoose.Value <int>("old_top");

            /*Code */
            int New_Ret = s1.Count;

            //int New_s1Count = s1.Count;
            int New_Top = s1.Count > 0 ? s1.Peek() : PexChoose.Value <int>("new_top");

            //int New_Top = Old_Top; // alternate semantics
            //bool New_ContainsNewRet = s1.Contains(New_Ret);

            //PexObserve.ValueForViewing("$old_s1_Count", Old_s1Count);
            //PexObserve.ValueForViewing("$new_s1_Count", New_s1Count);
            PexObserve.ValueForViewing("$old_s1_Peek", Old_Top);
            PexObserve.ValueForViewing("$new_s1_Peek", New_Top);
            PexObserve.ValueForViewing("$new_ret", New_Ret);
            //PexObserve.ValueForViewing("$new_containsNewRet", New_ContainsNewRet);

            Assert.True(((New_Top == Old_Top && New_Ret >= 0) || New_Ret == 0));
        }
        public void PUT_PopContract([PexAssumeUnderTest] Stack.Stack <int> s1)
        {
            AssumePrecondition.IsTrue(s1.Count > 0);
            int Old_s1Count = s1.Count;
            int Old_Top     = s1.Peek();

            /*code*/
            int New_Ret = s1.Pop();

            //Old_ret = New_ret;
            int New_Top = s1.Count > 0 ? s1.Peek() : PexChoose.Value <int>("old_top");
            //int New_Top = s1.Count > 0 ? s1.Peek() : Old_Top - 1;
            int  New_s1Count        = s1.Count;
            bool New_ContainsNewRet = s1.Contains(New_Ret);

            PexObserve.ValueForViewing("$Old_s1_Count", Old_s1Count);
            PexObserve.ValueForViewing("$New_s1_Count", New_s1Count);
            PexObserve.ValueForViewing("$Old_s1_Peek", Old_Top);
            PexObserve.ValueForViewing("$new_s1_Peek", New_Top);
            PexObserve.ValueForViewing("$New_ret", New_Ret);
            PexObserve.ValueForViewing("$New_ContainsNewRet", New_ContainsNewRet);

            Assert.True(((New_Ret == Old_Top && New_s1Count == -1 + Old_s1Count && (!(New_ContainsNewRet)) && Old_s1Count >= 1) || (New_Ret == Old_Top && New_s1Count == -1 + Old_s1Count && New_s1Count >= 1)));
        }
Exemple #19
0
        public void PUT_GetContract([PexAssumeUnderTest] Dictionary.Dictionary <int, int> d, int x)
        {
            AssumePrecondition.IsTrue(d.ContainsKey(x));

            int  Old_dCount        = d.Count;
            int  Old_x             = x;
            bool Old_dContainsKeyX = d.ContainsKey(x);

            int New_Ret = d[x];

            int  New_dCount        = d.Count;
            int  New_x             = x;
            bool New_dContainsKeyX = d.ContainsKey(x);

            PexObserve.ValueForViewing("$old_d_Count", Old_dCount);
            PexObserve.ValueForViewing("$new_d_Count", New_dCount);
            PexObserve.ValueForViewing("$old_d_x", Old_x);
            PexObserve.ValueForViewing("$new_d_x", New_x);
            PexObserve.ValueForViewing("$New_ret", New_Ret);
            PexObserve.ValueForViewing("$old_d_contains_key_x", Old_dContainsKeyX);
            PexObserve.ValueForViewing("$new_d_contains_key_x", New_dContainsKeyX);

            Assert.IsTrue((Old_dContainsKeyX && New_dContainsKeyX && New_dCount == Old_dCount && New_x == Old_x));
        }
        public void PUT_DequeueContract([PexAssumeUnderTest] Queue.Queue <int> s1)
        {
            AssumePrecondition.IsTrue(s1.Count > 0);

            int Old_s1Count = s1.Count;
            int Old_Top     = s1.Peek();

            /*code*/
            int New_Ret = s1.Dequeue();

            int New_Top = s1.Count > 0 ? s1.Peek() : PexChoose.Value <int>("new_top");
            //int New_Top = s1.Count > 0 ? s1.Peek() : Old_Top - 1; // New_Top = Old_Top = OldTop - 1
            int  New_s1Count          = s1.Count;
            bool New_s1ContainsNewRet = s1.Contains(New_Ret);

            PexObserve.ValueForViewing("$Old_s1_Count", Old_s1Count);
            PexObserve.ValueForViewing("$New_s1_Count", New_s1Count);
            PexObserve.ValueForViewing("$Old_s1_Peek", Old_Top);
            PexObserve.ValueForViewing("$new_s1_Peek", New_Top);
            PexObserve.ValueForViewing("$New_ret", New_Ret);
            PexObserve.ValueForViewing("$New_s1ContainsNewRet", New_s1ContainsNewRet);

            Assert.True(((New_s1Count == -1 + Old_s1Count && New_Ret <= Old_Top && Old_Top <= New_Ret && (!(New_s1ContainsNewRet)) && New_s1Count >= 0) || (New_s1Count == -1 + Old_s1Count && New_Ret <= Old_Top && Old_Top <= New_Ret && New_s1Count >= 1)));
        }
Exemple #21
0
        public void PUT_ClearAdjacentEdgesContract([PexAssumeUnderTest] UndirectedGraph.UndirectedGraph <int, Edge <int> > ug, int x)
        {
            AssumePrecondition.IsTrue(ug.ContainsVertex(x));

            int  Old_ugVertexCount    = ug.VertexCount;
            int  Old_ugEdgeCount      = ug.EdgeCount;
            int  Old_ugAdjacentDegree = ug.AdjacentDegree(x);
            int  Old_x = x;
            bool Old_ugAllowParallelEdges = ug.AllowParallelEdges;
            bool Old_ugContainsVertexX    = ug.ContainsVertex(x);

            //code
            ug.ClearAdjacentEdges(x);

            int  New_ugVertexCount    = ug.VertexCount;
            int  New_ugEdgeCount      = ug.EdgeCount;
            int  New_ugAdjacentDegree = ug.AdjacentDegree(x);
            int  New_x = x;
            bool New_ugAllowParallelEdges = ug.AllowParallelEdges;
            bool New_ugContainsVertexX    = ug.ContainsVertex(x);

            PexObserve.ValueForViewing("$old_ug_vertex_count", Old_ugVertexCount);
            PexObserve.ValueForViewing("$new_ug_vertex_count", New_ugVertexCount);
            PexObserve.ValueForViewing("$old_ug_edge_count", Old_ugEdgeCount);
            PexObserve.ValueForViewing("$new_ug_edge_count", New_ugEdgeCount);
            PexObserve.ValueForViewing("$old_ug_adjacent_degree", Old_ugAdjacentDegree);
            PexObserve.ValueForViewing("$new_ug_adjacent_degree", New_ugAdjacentDegree);
            PexObserve.ValueForViewing("$old_ug_x", Old_x);
            PexObserve.ValueForViewing("$new_ug_x", New_x);
            PexObserve.ValueForViewing("$old_ug_contains_x", Old_ugContainsVertexX);
            PexObserve.ValueForViewing("$new_ug_contains_x", New_ugContainsVertexX);
            PexObserve.ValueForViewing("$old_ug_allow_parallel_edges", Old_ugAllowParallelEdges);
            PexObserve.ValueForViewing("$new_ug_allow_parallel_edges", New_ugAllowParallelEdges);

            PexAssert.IsTrue(((!(New_ugVertexCount == New_x)) && (Old_ugEdgeCount == New_ugAdjacentDegree) && (Old_x == New_x) && (New_x == 0) && (New_ugVertexCount == Old_ugVertexCount) && (New_ugAdjacentDegree == Old_ugAdjacentDegree) && (New_ugEdgeCount == 0) && (Old_ugContainsVertexX) && (New_ugContainsVertexX) && (New_ugEdgeCount == New_ugAdjacentDegree) && (Old_ugAllowParallelEdges) && (New_ugAllowParallelEdges)) || ((!(New_ugVertexCount == New_ugAdjacentDegree)) && (!(New_ugVertexCount == New_x)) && (Old_ugEdgeCount == New_ugAdjacentDegree) && (Old_x == New_x) && (New_x == 0) && (New_ugVertexCount == Old_ugVertexCount) && (New_ugAdjacentDegree == Old_ugAdjacentDegree) && (New_ugEdgeCount == 0) && (Old_ugContainsVertexX) && (!(Old_ugAllowParallelEdges)) && (New_ugContainsVertexX) && (!(New_ugAllowParallelEdges))));
        }
Exemple #22
0
        public void PUT_PeekContract([PexAssumeUnderTest] Stack.Stack <int> s1)
        {
            AssumePrecondition.IsTrue(s1.Count > 0);
            int Old_s1Count = s1.Count;
            //int Old_Ret = PexChoose.Value<int>("old_ret");
            int Old_Top = s1.Peek();

            /*Code */
            int New_Ret = s1.Peek();

            int  New_s1Count        = s1.Count;
            int  New_Top            = s1.Peek();
            bool New_ContainsNewRet = s1.Contains(New_Ret);

            PexObserve.ValueForViewing("$old_s1_Count", Old_s1Count);
            PexObserve.ValueForViewing("$new_s1_Count", New_s1Count);
            PexObserve.ValueForViewing("$old_s1_Peek", Old_Top);
            PexObserve.ValueForViewing("$new_s1_Peek", New_Top);
            //PexObserve.ValueForViewing("$old_s1_ret", Old_Ret);
            PexObserve.ValueForViewing("$new_ret", New_Ret);
            PexObserve.ValueForViewing("$New_ContainsNewRet", New_ContainsNewRet);

            Assert.True(((New_ContainsNewRet && New_s1Count == Old_s1Count && New_Ret == Old_Top && New_Ret == New_Top)));
        }
        public void PUT_RemoveMinimumContract([PexAssumeUnderTest] BinaryHeap.BinaryHeap <int, int> bh)
        {
            AssumePrecondition.IsTrue(bh.Count > 0);

            int Old_bhCount        = bh.Count;
            int Old_bhCapacity     = bh.Capacity;
            int Old_bhMinimumKey   = bh.Count > 0 ? bh.Minimum().Key : PexChoose.Value <int>("old_bhMinimumKey");
            int Old_bhMinimumValue = bh.Count > 0 ? bh.Minimum().Value : PexChoose.Value <int>("old_bhMinimumValue");
            int Old_Ret_Key        = PexChoose.Value <int>("old_Ret_Key");
            int Old_Ret_Value      = PexChoose.Value <int>("old_Ret_Value");

            //code
            var rm            = bh.RemoveMinimum();
            int New_Ret_Key   = rm.Key;
            int New_Ret_Value = rm.Value;

            int New_bhCount        = bh.Count;
            int New_bhCapacity     = bh.Capacity;
            int New_bhMinimumKey   = bh.Count > 0 ? bh.Minimum().Key : PexChoose.Value <int>("new_bhMinimumKey");
            int New_bhMinimumValue = bh.Count > 0 ? bh.Minimum().Value : PexChoose.Value <int>("new_bhMinimumValue");

            PexObserve.ValueForViewing("$old_bh_count", Old_bhCount);
            PexObserve.ValueForViewing("$new_bh_count", New_bhCount);
            PexObserve.ValueForViewing("$old_bh_capacity", Old_bhCapacity);
            PexObserve.ValueForViewing("$new_bh_capacity", New_bhCapacity);
            PexObserve.ValueForViewing("$old_bh_minimum_key", Old_bhMinimumKey);
            PexObserve.ValueForViewing("$new_bh_minimum_key", New_bhMinimumKey);
            PexObserve.ValueForViewing("$old_bh_minimum_value", Old_bhMinimumValue);
            PexObserve.ValueForViewing("$new_bh_minimum_value", New_bhMinimumValue);
            PexObserve.ValueForViewing("$old_ret_key", Old_Ret_Key);
            PexObserve.ValueForViewing("$new_ret_key", New_Ret_Key);
            PexObserve.ValueForViewing("$old_ret_value", Old_Ret_Value);
            PexObserve.ValueForViewing("$new_ret_value", New_Ret_Value);

            PexAssert.IsTrue(false);
        }
Exemple #24
0
        public static void Check([PexAssumeNotNull] int[] arr1, [PexAssumeNotNull] int[] arr2,
                                 [PexAssumeNotNull] int[] arr3, [PexAssumeNotNull] int[] solnArr)
        {
            PexAssume.AreDistinctReferences(new Object[] { arr1, arr2, arr3, solnArr }); //Don't refer to same mem locations
            PexAssume.IsTrue(isEquals(arr1, arr2));                                      //Deep check
            PexAssume.IsTrue(isEquals(arr2, arr3));
            PexAssume.IsTrue(isEquals(arr3, solnArr));



            bool ans1Except = false, ans2Except = false, ans3Except = false, solnExcept = false;
            int  ans1 = -100, ans2 = -100, ans3 = -100, solnAns = -100, count = 0;

            try
            {
                ans1 = Partitioner.partition(arr1);
            }
            catch (IndexOutOfRangeException)
            {
                ans1Except = true;
            }

            /*
             * try
             * {
             *  ans2 = PartitionerSub2.partition(arr2);
             * }
             * catch (IndexOutOfRangeException)
             * {
             *  ans2Except = true;
             * }
             *
             * try
             * {
             *  ans3 = PartitionerSub3.partition(arr3);
             * }
             * catch (IndexOutOfRangeException)
             * {
             *  ans3Except = true;
             * }
             * */

            try
            {
                solnAns = PartitionerSolutionForReal.partition(solnArr);
            }
            catch (IndexOutOfRangeException)
            {
                solnExcept = true;
            }


            bool passingCondition = ((ans1Except == solnExcept && ans1Except == true) || (ans1Except == solnExcept && ans1Except == false && ans1 == solnAns));
            bool failingCondition = !passingCondition;

            if (failingCondition)
            {
                count++;
                Debug.WriteLine("sub1 not equal to instructor soln");
            }

            /*
             * bool passingCondition2 = ((ans2Except == solnExcept && ans2Except == true) || (ans2Except == solnExcept && ans2Except == false && ans2 == solnAns));
             * bool failingCondition2 = !passingCondition2;
             * if (failingCondition2)
             * {
             *  count++;
             *  Debug.WriteLine("sub2 not equal to instructor soln");
             * }
             *
             * bool passingCondition3 = ((ans3Except == solnExcept && ans3Except == true) || (ans3Except == solnExcept && ans3Except == false && ans3 == solnAns));
             * bool failingCondition3 = !passingCondition3;
             * if (failingCondition3)
             * {
             *  count++;
             *  Debug.WriteLine("sub3 not equal to instructor soln");
             * }
             * */


            PexObserve.ValueForViewing("count", count);
            PexAssert.IsTrue(count <= 3);
        }
Exemple #25
0
        public static void Check([PexAssumeNotNull] MetaProgram.List l, int x, Boolean b)
        {
            bool firstNull  = false;
            bool secondNull = false;

            List l2 = l.Clone();
            List l3 = l.Clone();

            bool notSubsumption = true;


            try
            {
                l.addToEnd(x);
            }
            catch (NullReferenceException)
            {
                firstNull = true;
            }

            try
            {
                l2.addToEndSolution(x);
            }
            catch (NullReferenceException)
            {
                secondNull = true;
            }

            try
            {
                l3.addToEndSolutionForReal(x);
            }
            catch (NullReferenceException)
            {
                Console.WriteLine("addToEndSolutionForReal got  null refence exception!");
            }

            bool passingCondition = ((firstNull == secondNull && firstNull == true) || (firstNull == secondNull && firstNull == false && l2.isEquals(l)));
            bool failingCondition = !passingCondition;

            if (failingCondition)
            {
                throw new Exception("Student submission is equivalent to correct solution, but is not equal to reference submission.");
            }

            //Implement Subsumption PUT
            //Purpose: Determine if subsumption exists across submissions in different child...
            //...clusters within same parent cluster
            if (passingCondition)
            {
                if (b)
                {
                    //s1 >= s2
                    if (l3.isEquals(l))
                    {
                        if (!l2.isEquals(l))
                        {
                            throw new Exception("Student submission is equivalent to correct solution, but is not equal to reference submission.");
                        }
                    }
                }
                else
                {
                    //s2 >= s1
                    if (!l3.isEquals(l))
                    {
                        if (l3.isEquals(l2))
                        {
                            notSubsumption = false;
                        }
                    }
                }
            }
            //Visualize the val of notSubsumption
            PexObserve.ValueForViewing("notSubsumption", notSubsumption);

            PexAssert.IsTrue(notSubsumption);
        }
Exemple #26
0
        public static void Check([PexAssumeNotNull] int[] arr, Boolean b)
        {
            int[] solArr     = Program.Copy(arr);
            int[] realSolArr = Program.Copy(arr);

            bool firstIndex  = false;
            bool secondIndex = false;

            int[] firstArr  = new int[arr.Length];
            int[] secondArr = new int[arr.Length];
            int[] thirdArr  = new int[arr.Length];

            bool notSubsumption = true;

            try
            {
                firstArr = Program.sort(arr);
                //firstArr = Program.sortSolution(arr);
            }
            catch (IndexOutOfRangeException e)
            {
                firstIndex = true;
            }

            try
            {
                secondArr = Program.sortSolution(solArr);
            }
            catch (IndexOutOfRangeException e)
            {
                secondIndex = true;
            }

            try
            {
                thirdArr = Program.sortSolutionForReal(realSolArr);
            }
            catch (IndexOutOfRangeException e)
            {
                Console.WriteLine("sortSolutionForReal got index out of range!");
            }

            bool passingCondition = ((firstIndex == secondIndex && firstIndex == true) || (firstIndex == secondIndex && firstIndex == false && Program.isEquals(firstArr, secondArr)));
            bool failingCondition = !passingCondition;

            if (failingCondition)
            {
                throw new Exception("Failed test: Reference solution not equal to student submission.");
            }

            if (passingCondition)
            {
                if (b)
                {
                    //s1 >= s2
                    if (Program.isEquals(thirdArr, firstArr))
                    {
                        if (!Program.isEquals(secondArr, firstArr))
                        {
                            throw new Exception("Student submission is equivalent to correct solution, but is not equal to reference submission.");
                        }
                    }
                }
                else
                {
                    //s2 >= s1
                    if (!Program.isEquals(thirdArr, firstArr))
                    {
                        if (Program.isEquals(thirdArr, secondArr))
                        {
                            notSubsumption = false;
                        }
                    }
                }
            }
            //Visualize the val of notSubsumption
            PexObserve.ValueForViewing("notSubsumption", notSubsumption);

            PexAssert.IsTrue(notSubsumption);
        }
Exemple #27
0
        public static void Check([PexAssumeNotNull] int[] arr, Boolean b)
        {
            /*
             * This problem  ask students to solve a static method so we don't require cloning  or implementing
             * an isEquals method for a class because static method don't require object instances in order to be called.
             */
            bool firstIndex            = false;
            bool secondIndex           = false;
            bool output                = false;
            bool outputSolution        = false;
            bool outputForRealSolution = false;
            bool notSubsumption        = true;

            try
            {
                output = Program.isSorted(arr);
            }
            catch (IndexOutOfRangeException)
            {
                firstIndex = true;
            }

            try
            {
                outputSolution = Program.isSortedSolution(arr);
            }
            catch (IndexOutOfRangeException)
            {
                secondIndex = true;
            }

            try
            {
                outputForRealSolution = Program.isSortedSolutionForReal(arr);
            }
            catch (IndexOutOfRangeException) {
                Console.WriteLine("isSortedSolutionForReal got index out of range!");
            }


            //program passes under these scenarios
            // (1)both throw exception so firstIndex == secondIndex but since the programs don't terminate
            //and exit abnormally (exception), the the outputs are unchanged, outputSolution == output
            //(2) neither program fails (firstIndex == secondIndex), and must agree on output (outputSolution == output).
            bool passingCondition = (firstIndex == secondIndex && firstIndex == true) || (firstIndex == secondIndex && firstIndex == false && (outputSolution == output));
            /*negation of passing condition*/
            bool failingCondition = !passingCondition;

            if (failingCondition)
            {
                throw new Exception("Failed test: Reference solution not equal to student submission.");
            }

            //Implement Subsumption PUT
            //Purpose: Determine if subsumption exists across submissions in different child...
            //...clusters within same parent cluster


            //if (passingCondition == true && firstIndex == false)
            if (passingCondition)
            {
                if (b)
                {
                    //s1 >= s2
                    if (outputForRealSolution == output)
                    {
                        if (outputSolution != output)
                        {
                            throw new Exception("Student submission is equivalent to correct solution, but is not equal to reference submission.");
                        }
                    }
                }
                else
                {
                    //s2 >= s1
                    if (outputForRealSolution != output)
                    {
                        if (outputForRealSolution == outputSolution)
                        {
                            notSubsumption = false;
                        }
                    }
                }
            }
            //Visualize the val of notSubsumption
            PexObserve.ValueForViewing("notSubsumption", notSubsumption);

            PexAssert.IsTrue(notSubsumption);
        }
Exemple #28
0
        public void MinHeapPUT([PexAssumeNotNull] List <int> input)
        {
            Heap <int> actual = new Heap <int>(input, Strategy.Min);

            PexObserve.ValueForViewing <int[]>("Actual", actual.ToArray());
        }
Exemple #29
0
        public static void Check([PexAssumeUnderTest] MetaProgram.List l, [PexAssumeUnderTest] MetaProgram.List l4,
                                 [PexAssumeUnderTest] MetaProgram.List l6, [PexAssumeUnderTest] MetaProgram.List l9,
                                 [PexAssumeUnderTest] MetaProgram.List l10, [PexAssumeUnderTest] MetaProgram.List lSoln, int x)
        {
            /*PexAssume.IsTrue(MetaProgram.List.Equals(l, l4));
             * PexAssume.IsTrue(MetaProgram.List.Equals(l4, l6));
             * PexAssume.IsTrue(MetaProgram.List.Equals(l6, l9));
             * PexAssume.IsTrue(MetaProgram.List.Equals(l9, l10));
             * PexAssume.IsTrue(MetaProgram.List.Equals(l10, lSoln));*/

            //PexAssume.AreDistinctReferences(new Object[] { l, l4, l6, l9, l10, lSoln });

            PexAssume.IsTrue(MetaProgram.List.Equals(l9, lSoln));
            PexAssume.AreDistinctReferences(new Object[] { l9, lSoln });

            bool firstNull = false;
            bool fourNull  = false;
            bool sixNull   = false;
            bool nineNull  = false;
            bool tenNull   = false;
            bool solnNull  = false;

            int count = 0;

            /*
             * try
             * {
             *   l.addToEnd(x);
             * }
             * catch (NullReferenceException)
             * {
             *   firstNull = true;
             * }
             *
             *
             *
             * try
             * {
             *   l4.addToEnd4(x);
             * }
             * catch (NullReferenceException)
             * {
             *   fourNull = true;
             * }
             *
             *
             *
             *
             * try
             * {
             *   l6.addToEnd6(x);
             * }
             * catch (NullReferenceException)
             * {
             *   sixNull = true;
             * }
             *
             */

            try
            {
                l9.addToEnd9(x);
            }
            catch (NullReferenceException)
            {
                nineNull = true;
            }

            /*
             * try
             * {
             *   l10.addToEnd10(x);
             * }
             * catch (NullReferenceException)
             * {
             *   tenNull = true;
             * }
             * */

            try
            {
                lSoln.addToEndSolutionForReal(x);
            }
            catch (NullReferenceException)
            {
                solnNull = true;
            }

            /*
             * bool passingCondition1 = ((firstNull == solnNull && firstNull == true) || (firstNull == solnNull && firstNull == false && MetaProgram.List.Equals(l, lSoln)));
             * bool failingCondition1 = !passingCondition1;
             * if (failingCondition1)
             * {
             *   count++;
             *   Console.WriteLine("sub1 not equal to instructor soln");
             * }
             *
             *
             *
             * bool passingCondition4 = ((fourNull == solnNull && fourNull == true) || (fourNull == solnNull && fourNull == false && MetaProgram.List.Equals(l4, lSoln)));
             * bool failingCondition4 = !passingCondition4;
             * if (failingCondition4)
             * {
             *   count++;
             *   Console.WriteLine("sub4 not equal to instructor soln");
             * }
             *
             *
             *
             * bool passingCondition6 = ((sixNull == solnNull && sixNull == true) || (sixNull == solnNull && sixNull == false && MetaProgram.List.Equals(l6, lSoln)));
             * bool failingCondition6 = !passingCondition6;
             * if (failingCondition6)
             * {
             *   count++;
             *   Console.WriteLine("sub6 not equal to instructor soln");
             * }
             *
             */
            bool passingCondition9 = ((nineNull == solnNull && nineNull == true) || (nineNull == solnNull && nineNull == false && MetaProgram.List.Equals(l9, lSoln)));
            bool failingCondition9 = !passingCondition9;

            if (failingCondition9)
            {
                count++;
                Console.WriteLine("sub9 not equal to instructor soln");
            }

            /*
             * bool passingCondition10 = ((tenNull == solnNull && tenNull == true) || (tenNull == solnNull && tenNull == false && MetaProgram.List.Equals(l10, lSoln)));
             * bool failingCondition10 = !passingCondition10;
             * if (failingCondition10)
             * {
             *   count++;
             *   Debug.WriteLine("sub10 not equal to instructor soln");
             * }
             */


            PexObserve.ValueForViewing("count", count);

            PexAssert.IsTrue(count == 1); //<------ SUBJECT TO CHANGE!!!!
        }