using System; using System.Collections.Generic; using System.Linq; namespace HeuristicLab.Problems.ProgramSynthesis.Push.Expressions { using System.Diagnostics; using System.Diagnostics.CodeAnalysis; using Constants; using Data.Pool; using Extensions; using HeuristicLab.Common; using Interpreter; using Persistence.Default.CompositeSerializers.Storable; [Serializable] [StorableClass] public sealed class PushProgram : Expression, IPooledObject { #if DEBUG private const int STRING_REPRESENTATION_COUNT_BEFORE_AGGREGATE = 10; #else private const int STRING_REPRESENTATION_COUNT_BEFORE_AGGREGATE = 1; #endif private static readonly Expression[] EmptyExpressions = new Expression[0]; public static readonly PushProgram Empty = new PushProgram(); private const string Prefix = PushEnvironment.ProgramStartSymbolStr + " "; private const string Postfix = " " + PushEnvironment.ProgramEndSymbolStr; private const string PrefixReduced = "|"; private const string PostfixReduced = "|"; private const string Delimiter = " "; [Storable] private IReadOnlyList expressions; public PushProgram() : this(EmptyExpressions) { } [StorableConstructor] private PushProgram(bool deserializing) : this(EmptyExpressions) { } public PushProgram(IReadOnlyList expressions) { this.expressions = expressions; } public PushProgram(PushProgram origin, Cloner cloner) { stringRepresentation = origin.stringRepresentation; hashCode = origin.hashCode; depth = origin.depth; treeIndex = origin.treeIndex; var expressionsCopy = new List(origin.expressions.Count); for (var i = 0; i < origin.expressions.Count; i++) { expressionsCopy.Add(cloner.Clone(origin.expressions[i])); } expressions = expressionsCopy; } public override IDeepCloneable Clone(Cloner cloner) { return new PushProgram(this, cloner); } public bool IsEmpty { get { return Count == 0; } } public int Count { get { return expressions.Count; } } public IReadOnlyList Expressions { get { return expressions; } } public static PushProgram Create(IManagedPool pool, IReadOnlyList expressions) { var program = pool.Get(); program.expressions = expressions; return program; } void IPooledObject.Reset() { expressions = null; stringRepresentation = null; depth = null; treeIndex = null; hashCode = null; } public static PushProgram Merge(IManagedPool pool, IManagedPool> expressionListPool, PushProgram first, Expression second) { var program = pool.Get(); var list = expressionListPool.Get(); list.AddRange(first.Expressions); list.Add(second); program.expressions = list; return program; } public static PushProgram Merge(IManagedPool pool, IManagedPool> expressionListPool, Expression first, PushProgram second) { var program = pool.Get(); var list = expressionListPool.Get(); list.Add(first); list.AddRange(second.Expressions); program.expressions = list; return program; } public static PushProgram Merge(IManagedPool pool, IManagedPool> expressionListPool, PushProgram first, PushProgram second) { var program = pool.Get(); var list = expressionListPool.Get(); list.AddRange(first.Expressions); list.AddRange(second.Expressions); program.expressions = list; return program; } public int IndexOf(Expression expression) { var max = expressions.Count - 1; for (var i = max; i >= 0; i--) { if (expression.Equals(expressions[i])) return max - i; } return -1; } [NonSerialized] private string stringRepresentation; public override string StringRepresentation { get { return stringRepresentation ?? (stringRepresentation = BuildStringRepresentation()); } } [NonSerialized] private int? depth; public int Depth { get { if (depth == null) depth = CalcDepth(); return depth.Value; } } [NonSerialized] private int[] treeIndex; private int[] TreeIndex { get { return treeIndex ?? (treeIndex = BuildTreeIndex()); } } [NonSerialized] private int? hashCode; [SuppressMessage("ReSharper", "NonReadonlyMemberInGetHashCode")] public override int GetHashCode() { if (hashCode == null) hashCode = expressions.HashCode(); return hashCode.Value; } public override bool Equals(object obj) { if (obj == null) return false; if (ReferenceEquals(this, obj)) return true; if (GetType() != obj.GetType()) return false; var other = (PushProgram)obj; return ReferenceEquals(expressions, other.expressions) || GetHashCode() == other.GetHashCode(); } public bool Equals(PushProgram other) { return ReferenceEquals(this, other) || ReferenceEquals(expressions, other.expressions) || GetHashCode() == other.GetHashCode(); } public override bool IsNoop(IInternalPushInterpreter interpreter) { return IsEmpty; } public override void Eval(IInternalPushInterpreter interpreter) { interpreter.ExecStack.Push(expressions); } public override string ToString() { return StringRepresentation; } [NonSerialized] private int? totalCount; /// /// Returns the amount of elements in the whole tree /// /// public int TotalCount { get { if (totalCount == null) { totalCount = IsEmpty ? 1 // + 1 because "this" is also counted : TreeIndex[0] + 1; } return totalCount.Value; } } [NonSerialized] private int? totalInstructionCount; /// /// Returns the amount of none program expressions /// /// public int TotalInstructionCount { get { if (totalInstructionCount == null) { totalInstructionCount = 0; for (var i = 0; i < Count; i++) { var expression = expressions[i]; totalInstructionCount += expression.IsProgram ? ((PushProgram)expression).TotalInstructionCount : 1; } } return totalInstructionCount.Value; } } [NonSerialized] private int? branches; /// /// Returns the amount of branches in the whole tree. Even an empty program represents at least one branch /// /// public int Branches { get { if (branches == null) CountBranches(); return branches.Value; } } private void CountBranches() { branches = 1; for (var i = 0; i < Count; i++) { var expression = expressions[i]; if (!expression.IsProgram) continue; var program = (PushProgram)expression; branches += program.Branches; } } public IEnumerable DepthLast() { foreach (var expr in expressions) { if (expr.IsProgram) foreach (var sub in ((PushProgram)expr).DepthLast()) yield return sub; else yield return expr; } } public IReadOnlyList Flatten() { var result = new List(); Flatten(result); return result; } private void Flatten(List result) { result.AddRange(expressions); for (var i = 0; i < expressions.Count; i++) { var expr = expressions[i]; if (expr.IsProgram) { ((PushProgram)expr).Flatten(result); } } } public PushProgram Copy() { if (IsEmpty) return this; return new PushProgram(expressions) { stringRepresentation = stringRepresentation, hashCode = hashCode, depth = depth, treeIndex = treeIndex }; } public PushProgram Copy(IManagedPool pool) { if (IsEmpty) return this; var program = pool.Get(reset: false); program.expressions = expressions; program.stringRepresentation = stringRepresentation; program.hashCode = hashCode; program.depth = depth; program.treeIndex = treeIndex; return program; } public IList CopyExpressions() { return new List(expressions); } public IList CopyExpressions(IManagedPool> expressionListPool) { if (IsEmpty) return EmptyExpressions; var copy = expressionListPool.Get(); copy.AddRange(expressions); return copy; } private int CalcDepth() { var maxDepth = 0; for (var i = 0; i < Count; i++) { var expression = expressions[i]; if (!expression.IsProgram) continue; var expandExpression = (PushProgram)expression; if (expandExpression.Depth > maxDepth) maxDepth = expandExpression.Depth; } return maxDepth + 1; } private string BuildStringRepresentation() { // prevent too big string return Count > STRING_REPRESENTATION_COUNT_BEFORE_AGGREGATE ? PrefixReduced + Count + PostfixReduced : Prefix + string.Join(Delimiter, expressions.Reverse()) + Postfix; } private int[] BuildTreeIndex() { var localTreeIndex = new int[Count]; var next = 1; for (var i = Count - 1; i >= 0; i--) { var subExpression = expressions[i]; localTreeIndex[i] = next; if (subExpression.IsProgram) { next += ((PushProgram)subExpression).TotalCount; } else { next++; } } return localTreeIndex; } private static void CheckIfNested(int level, PushProgram target, PushProgram current, IList visited) { if (visited.Any(x => ReferenceEquals(x, current))) Debugger.Break(); visited.Add(current); if (level <= 0) { // hierarchy depth > level Debugger.Break(); return; } for (var i = 0; i < current.Count; i++) { if (current.expressions[i].IsProgram) continue; var subExpression = current.expressions[i] as PushProgram; if (ReferenceEquals(target, subExpression)) { // Endless recursion dedected Debugger.Break(); } CheckIfNested(level - 1, target, subExpression, visited); } visited.RemoveAt(visited.Count - 1); } /// /// Returns the element with the given index whereby the tree is indexed in depth first manner /// /// The index of the required element /// The required element public Expression GetFromTree(int index) { return GetFromTree(index, (root, parent, child, childIndex, parentIndex) => child); } /// The required element public T GetFromTree(int index, Func resolver) { return GetFromTree(index, 0, null, resolver); } private T GetFromTree(int index, int parentIndex, PushProgram parent, Func resolver) { if (index == 0) return resolver(parent, parent, this, 0, parentIndex); var min = Count - 1; var max = 0; var mid = (min + max) / 2; while ((max <= min) && (TreeIndex[mid] != index)) { if (TreeIndex[mid] > index) max = mid + 1; else min = mid - 1; mid = (min + max) / 2; } return TreeIndex[mid] == index ? resolver(parent, this, expressions[mid], mid, parentIndex) : (expressions[mid + 1] as PushProgram).GetFromTree(index - TreeIndex[mid + 1], mid + 1, this, resolver); } } }