Example #1
0
        public void PerfectFill()
        {
            var a = new Intervals<float>();
            a.Add(0, 5);
            Assert.That(a.Contains(-float.Epsilon), Is.False);
            Assert.That(a.Contains(0));
            Assert.That(a.Contains(4.999f));
            Assert.That(a.Contains(5), Is.False);
            a.Add(6, 10);
            Assert.That(a.Contains(6));
            Assert.That(a.Contains(9.999f));
            Assert.That(a.Contains(10), Is.False);

            Assert.That(a.Count(), Is.EqualTo(2));
            a.Add(5, 6);
            Assert.That(a.Count(), Is.EqualTo(1));
        }
Example #2
0
        /// <summary>
        /// Get a collapsed version of the graph where interval heads become nodes
        /// </summary>
        /// <returns>A new collapsed graph</returns>
        public AbstractGraph GetIntervalSubgraph()
        {
            if (Intervals == null)
            {
                CalculateIntervals();
            }
            if (Intervals.Count() == Nodes.Count() || Intervals.Values.All(i => i.Count == 1))
            {
                return(null);
            }

            AbstractGraph cfg = new AbstractGraph();

            foreach (var n in Intervals.Keys)
            {
                var node = new Node();
                n.IntervalGraphChild     = node;
                node.IntervalGraphParent = n;
                node.OriginalBlock       = n.OriginalBlock;
                cfg.Nodes.Add(node);
            }

            var header = Intervals.SelectMany(e => e.Value.Select(i => (i, e.Key))).ToDictionary(i => i.i, i => i.Key);

            foreach (var entry in Nodes)
            {
                if (!header.ContainsKey(entry))
                {
                    continue;
                }
                var h1    = header[entry];
                var hnode = h1.IntervalGraphChild;
                //hnode.Successors.UnionWith(entry.Successors.Select(n => header[n]).Where(h => h != h1).Select(n => n.IntervalGraphChild));
                var nodestoadd = entry.Successors.Select(n => header[n]).Where(h => h != h1).Select(n => n.IntervalGraphChild);
                foreach (var n in nodestoadd)
                {
                    if (!hnode.Successors.Contains(n))
                    {
                        hnode.Successors.Add(n);
                    }
                }
            }
            foreach (var entry in cfg.Nodes)
            {
                foreach (var succ in entry.Successors)
                {
                    succ.Predecessors.Add(entry);
                }
            }
            cfg.StartNode = cfg.Nodes.First(x => !x.Predecessors.Any());
            cfg.LabelReversePostorderNumbers();
            cfg.CalculateIntervals();
            return(cfg);
        }
        public override string ToString()
        {
            var stringBuilder = new StringBuilder();

            stringBuilder.AppendLine(string.Format("Programmer 1: {0} Programmer 2: {1} Length: {2} Number of Intervals {3}", Programmer1, Programmer2, Length, Intervals.Count()));

            foreach (var interval in Intervals)
            {
                stringBuilder.AppendLine(interval.ToString());
            }

            return(stringBuilder.ToString());
        }
Example #4
0
 /// <summary>
 /// This makes the following tree.
 /// <para><code>
 ///                25/29
 ///             /         \
 ///          0/5          42/49
 ///       /       \
 /// -100/-50     10/12
 /// </code></para>
 /// </summary>
 /// <returns></returns>
 private static Intervals<double> MakeTree()
 {
     var a = new Intervals<double>();
     a.Add(0, 5);
     a.Add(-100, -50);
     a.Add(25, 29);
     a.Add(10, 12);
     a.Add(42, 49);
     Assert.That(a.Count(), Is.EqualTo(5));
     return a;
 }