Exemplo n.º 1
0
        // For methods, it only picks receiver of type m.methodInfo.DeclaringType.
        private Type[] GetParameterTypeSuggestions(MemberInfo m, PlanManager planManager)
        {
            if (m is ConstructorInfo)
            {
                ConstructorInfo constructor           = m as ConstructorInfo;
                ParameterInfo[] constructorParameters = constructor.GetParameters();

                Type[] constructorArgumentTypes = new Type[constructorParameters.Length];
                for (int i = 0; i < constructorParameters.Length; i++)
                {
                    constructorArgumentTypes[i] = constructorParameters[i].ParameterType;
                }

                return(constructorArgumentTypes);
            }
            else
            {
                Util.Assert(m is MethodInfo);
                MethodInfo      method           = m as MethodInfo;
                ParameterInfo[] methodParameters = method.GetParameters();

                Type[] methodArgumentTypes = new Type[methodParameters.Length];
                for (int i = 0; i < methodParameters.Length; i++)
                {
                    methodArgumentTypes[i] = methodParameters[i].ParameterType;
                }


                Type[] oneResult = new Type[methodArgumentTypes.Length + 1];
                oneResult[0] = method.DeclaringType;
                Array.Copy(methodArgumentTypes, 0, oneResult, 1, methodArgumentTypes.Length);
                return(oneResult);
            }
        }
Exemplo n.º 2
0
        /// <summary>
        /// Tries to construct a new plan that sets a field for a
        /// receiver of the type given. May fail if there are no
        /// applicable receivers.
        /// </summary>
        /// <param name="type"></param>
        /// <param name="plan"></param>
        /// <returns></returns>
        private void NewFieldSettingPlan(FieldInfo field, PlanManager planManager, bool forbidNull)
        {
            this.stats.Selected(FieldSettingTransformer.Get(field).ToString());

            Type[] parameterTypes = new Type[2];
            parameterTypes[0] = field.DeclaringType;
            parameterTypes[1] = field.FieldType;

            RandomPlansResult r;

            if (!RandomPlans(out r, parameterTypes,
                             delegate(Plan p, int i)
            {
                if (i == 0 && p.transformer is PrimitiveValueTransformer)
                {
                    return(false);
                }
                return(true);
            }, planManager.builderPlans, forbidNull, null))
            {
                stats.CreatedNew(CreationResult.NoInputs);
                return;
            }

            Plan plan = new Plan(FieldSettingTransformer.Get(field),
                                 r.fplans, r.fparameterChoosers);

            planManager.AddMaybeExecutingIfNeeded(plan, this.stats);
        }
Exemplo n.º 3
0
        /// <summary>
        /// Tries to construct a new plan that calls a method on a
        /// receiver of the type given. May fail if there are no
        /// applicable methods or receivers available.
        /// </summary>
        /// <param name="type"></param>
        /// <param name="plan"></param>
        /// <returns></returns>
        private void NewMethodPlan(Type type, MethodInfo method, PlanManager planManager,
                                   bool forbidNull, Type[] methodArgumentTypes)
        {
            this.stats.Selected(MethodCall.Get(method).ToString());

            PlanFilter f;

            if (forbidNull)
            {
                f = delegate(Plan p, int i)
                {
                    if (!method.IsStatic && i == 0 && p.transformer is PrimitiveValueTransformer)
                    {
                        return(false);
                    }

                    // Non-null heuristic
                    if (!methodArgumentTypes[i].IsValueType && (p.transformer is PrimitiveValueTransformer))
                    {
                        return(false);
                    }

                    return(true);
                };
            }
            else
            {
                f = delegate(Plan p, int i)
                {
                    if (!method.IsStatic && i == 0 && p.transformer is PrimitiveValueTransformer)
                    {
                        return(false);
                    }
                    return(true);
                };
            }

            RandomPlansResult r;

            if (!RandomPlans(out r, methodArgumentTypes, f, planManager.builderPlans, forbidNull, method))
            {
                stats.CreatedNew(CreationResult.NoInputs);
                return;
            }
            //Console.WriteLine("\t\t A plan has been created");

            Plan plan = new Plan(MethodCall.Get(method),
                                 r.fplans, r.fparameterChoosers);

            planManager.AddMaybeExecutingIfNeeded(plan, this.stats);
        }
Exemplo n.º 4
0
        /// <summary>
        /// Tries to construct a new plan that calls a method on a
        /// receiver of the type given. May fail if there are no
        /// applicable methods or receivers available.
        /// </summary>
        /// <param name="type"></param>
        /// <param name="plan"></param>
        /// <returns></returns>
        private void NewMethodPlan(Type type, MethodInfo method, PlanManager planManager,
                                   bool forbidNull, Type[] methodArgumentTypes)
        {
            stats.Selected(MethodCall.Get(method).ToString());

            PlanFilter f;

            if (forbidNull)
            {
                f = delegate(Plan p, int i)
                {
                    if (!method.IsStatic && i == 0 && p.transformer is PrimitiveValueTransformer)
                    {
                        return(false);
                    }

                    //// Non-null heuristic [email protected]
                    //if (!methodArgumentTypes[i].IsValueType && (p.transformer is PrimitiveValueTransformer))
                    //    return false;

                    return(true);
                };
            }
            else
            {
                f = delegate(Plan p, int i)
                {
                    if (!method.IsStatic && i == 0 && p.transformer is PrimitiveValueTransformer)
                    {
                        return(false);
                    }
                    return(true);
                };
            }

            if (!RandomPlans(out RandomPlansResult randomPlansResult, methodArgumentTypes, f, planManager.builderPlans, forbidNull, method))
            {
                stats.CreatedNew(CreationResult.NoInputs);
                return;
            }
            //Logger.Debug("\t\t A plan has been created");

            Plan plan = new Plan(MethodCall.Get(method),
                                 randomPlansResult.fplans, randomPlansResult.fparameterChoosers);

            plan.ClassName = method.DeclaringType.Name;

            planManager.AddMaybeExecutingIfNeeded(plan, stats);
        }
Exemplo n.º 5
0
        private void ExploreMemberInternal(ITimer timer, PlanManager planManager, bool forbidNull,
                                           MemberInfo m)
        {
            Type[] sugg = GetParameterTypeSuggestions(m, planManager);

            if (m is ConstructorInfo)
            {
                NewConstructorPlan((m as ConstructorInfo).DeclaringType, m as ConstructorInfo, planManager,
                                   forbidNull, sugg);
            }
            else
            {
                Util.Assert(m is MethodInfo);
                NewMethodPlan((m as MethodInfo).DeclaringType, m as MethodInfo, planManager, forbidNull, sugg);
            }
        }
Exemplo n.º 6
0
        /// <summary>
        /// Tries to construct a new plan that calls a constructor
        /// of the type given. May fail if there are no
        /// applicable constructors.
        /// </summary>
        /// <param name="type"></param>
        /// <param name="plan"></param>
        /// <returns></returns>
        private void NewConstructorPlan(Type type, ConstructorInfo constructor, PlanManager planManager,
                                        bool forbidNull, Type[] constructorArgumentTypes)
        {
            this.stats.Selected(ConstructorCallTransformer.Get(constructor).ToString());

            PlanFilter f;

            if (forbidNull)
            {
                f = delegate(Plan p, int i)
                {
                    // Non-null heuristic
                    if (!constructorArgumentTypes[i].IsValueType && (p.transformer is PrimitiveValueTransformer))
                    {
                        return(false);
                    }

                    return(true);
                };
            }
            else
            {
                f = delegate(Plan p, int i)
                {
                    return(true);
                };
            }

            RandomPlansResult r;

            if (!RandomPlans(out r, constructorArgumentTypes, f, planManager.builderPlans, forbidNull, null))
            {
                stats.CreatedNew(CreationResult.NoInputs);
                return;
            }
            Plan plan = new Plan(ConstructorCallTransformer.Get(constructor),
                                 r.fplans, r.fparameterChoosers);

            plan.ClassName = constructor.DeclaringType.Name;

            planManager.AddMaybeExecutingIfNeeded(plan, this.stats);
        }
Exemplo n.º 7
0
        /// <summary>
        /// Note that Explore can silently fail (exits with 1), if a second chance AV happens
        /// </summary>
        /// <param name="timer"></param>
        /// <param name="planManager"></param>
        /// <param name="methodWeigthing"></param>
        /// <param name="forbidNull"></param>
        /// <param name="mutateFields"></param>
        public void Explore(ITimer timer, PlanManager planManager, MethodWeighing methodWeigthing,
                            bool forbidNull, bool mutateFields, bool fairOpt)
        {
            int currentPlans         = planManager.Plans;
            int currentRedundantAdds = planManager.RedundantAdds;

            // Start timing test generation.
            Timer.QueryPerformanceCounter(ref TimeTracking.generationStartTime);


            //exercise the fair option
            if (fairOpt)
            {
                Console.WriteLine("Using the fair option ....");

                //fairOptLog = new StreamWriter("Randoop.fairopt.log");

                //compute the initial working set and the active methods for each class
                InitializeActiveMemberAndDependency(planManager);

                for (; ;)
                {
                    //field setting
                    if (mutateFields && this.actions.fieldList.Count > 0 && Common.Enviroment.Random.Next(2) == 0)
                    {
                        NewFieldSettingPlan(this.actions.RandomField(), planManager, forbidNull);
                    }

                    //If the active set is recomputed from scratch
                    //InitializeActiveMemberAndDependency(planManager);


                    //copy the keys
                    Dictionary <Type, bool> .KeyCollection keys = new Dictionary <Type, bool> .KeyCollection(activeTypes);

                    List <Type> activeList = new List <Type>();
                    foreach (Type t in keys)
                    {
                        activeList.Add(t);
                    }

                    RandoopPrintFairStats("Randoop.RandomExplore::Explore", "Starting a round of the fair workset algorithm with " + activeTypes.Count + "activeTypes");

                    foreach (Type t in activeList)
                    {
                        //pick up an active method of the type

                        MemberInfo m;

                        try
                        {
                            m = this.actions.RandomActiveMethodorConstructor(activeMembers, t);
                        }
                        catch (Exception e)
                        {
                            Console.WriteLine("Exception raised from RandomActiveMethodorConstructor is {0}", e.ToString());
                            continue;
                        }

                        //Console.WriteLine("Picked up method {0}::{1}", m.DeclaringType,m.Name );
                        int prevBuilderPlanCnt = planManager.builderPlans.NumPlans;

                        //Randoop step
                        ExploreMemberInternal(timer, planManager, forbidNull, m);

                        //need to know if the object creation was succesful, since we know the type
                        //we do it indirectly by looking at the builder plans
                        if (planManager.builderPlans.NumPlans > prevBuilderPlanCnt)
                        {
                            Type retType;
                            if (m is MethodInfo)
                            {
                                retType = (m as MethodInfo).ReturnType;
                            }
                            else if (m is ConstructorInfo)
                            {
                                retType = (m as ConstructorInfo).DeclaringType;
                            }
                            else
                            {
                                throw new RandoopBug("Constructor or Method expected");
                            }

                            //use the return type of the method/constructor to incrementally activate more methods/classes
                            try
                            {
                                UpdateActiveMethodsAndClasses(retType);
                            }
                            catch (Exception e) // had a nasty bug in the updateActiveMethodsAndClasses, so using try-catch
                            {
                                Console.WriteLine("Exception raised from UpdateActiveMethodsAndClasses is {0}", e.ToString());
                            }
                        }

                        if (timer.TimeToStop())
                        {
                            //get the size of # of active members
                            int size = 0;
                            foreach (KeyValuePair <Type, List <MemberInfo> > kv in activeMembers)
                            {
                                List <MemberInfo> l = kv.Value;
                                size = size + l.Count;
                            }

                            //stats printing
                            Console.WriteLine("Finishing the fair exploration...printing activity stats");
                            Console.WriteLine("Stats: <#ActiveTypes, #ActiveMembers, #BuilderPlans, #typesWithObjs> = <{0},{1},{2},{3}>",
                                              activeTypes.Count, size, planManager.builderPlans.NumPlans, typesWithObjects.Count);
                            //fairOptLog.Close();

                            return;
                        }
                    }
                }
            }
            else
            {
                #region Old code for the Randoop exploration
                for (; ;)
                {
                    //field setting
                    if (mutateFields && this.actions.fieldList.Count > 0 && Common.Enviroment.Random.Next(2) == 0)
                    {
                        NewFieldSettingPlan(this.actions.RandomField(), planManager, forbidNull);
                    }

                    MemberInfo m;
                    if (methodWeigthing == MethodWeighing.RoundRobin)
                    {
                        m = this.actions.RandomMethodOrConstructorRoundRobin();
                    }
                    else if (methodWeigthing == MethodWeighing.Uniform)
                    {
                        m = this.actions.RandomMethodOrConstructorUniform();
                    }
                    else
                    {
                        throw new RandoopBug("Unrecognized method weighting option.");
                    }


                    ExploreMemberInternal(timer, planManager, forbidNull, m);

                    if (timer.TimeToStop())
                    {
                        // this computation gives us the activity stats for the non-fair option
                        InitializeActiveMemberAndDependency(planManager);
                        //get the size of # of active members
                        int size = 0;
                        foreach (KeyValuePair <Type, List <MemberInfo> > kv in activeMembers)
                        {
                            List <MemberInfo> l = kv.Value;
                            size = size + l.Count;
                        }

                        //stats printing
                        Console.WriteLine("Finishing the non-fair exploration...printing activity stats");
                        Console.WriteLine("Stats: <#ActiveTypes, #ActiveMembers, #BuilderPlans, #typesWithObjs> = <{0},{1},{2},{3}>",
                                          activeTypes.Count, size, planManager.builderPlans.NumPlans, typesWithObjects.Count);
                        //fairOptLog.Close();

                        return;
                    }
                }
                #endregion
            }
        }
Exemplo n.º 8
0
        /// <summary>
        /// Initializes the data structures for Active members, types, and the dependency of methods on types
        /// </summary>
        /// <param name="planManager"></param>
        ///
        ///
        private void InitializeActiveMemberAndDependency(PlanManager planManager)
        {
            //reset all the maps
            activeMembers.Clear();
            activeTypes.Clear();
            typesWithObjects.Clear();
            member2pendingTypes.Clear();
            type2pendingMembers.Clear();


            //get the set of types for which the builderPlans can create an object
            Dictionary <Plan, bool> .KeyCollection plans = planManager.builderPlans.planSet.Keys;
            //we simply look at the return type of the last method of each builder plan. This is sufficient
            //because any intermediate method in a plan will appear as the last method of some prefix plan
            //in the builder plan database
            foreach (Plan plan in plans)
            {
                Transformer tr = plan.transformer;
                Type        t;


                if (tr is MethodCall)
                {
                    t = (tr as MethodCall).method.ReturnType;
                    typesWithObjects[t] = true;
                    RandoopPrintFairStats("InitializeActiveMemberDependency", "[Method]" + t.ToString() + " class is ACTIVE");
                }
                else if (tr is ConstructorCallTransformer)
                {
                    t = (tr as ConstructorCallTransformer).fconstructor.DeclaringType;
                    typesWithObjects[t] = true;
                    RandoopPrintFairStats("InitializeActiveMemberDependency", "[Constructor]" + t.ToString() + " class is ACTIVE");
                }
                else if (tr is PrimitiveValueTransformer) //for primitive values and string
                {
                    t = (tr as PrimitiveValueTransformer).ftype;
                    typesWithObjects[t] = true;
                    RandoopPrintFairStats("InitializeActiveMemberDependency", "[Constant]" + t.ToString() + " class is ACTIVE");
                }
                else
                {
                    //TODO: ignoring field setters and Array constructors
                }
            }

            //we are only going to try to activate the non-filtered types/methods only
            foreach (ConstructorInfo ci in actions.GetConstructors())
            {
                bool            activeMember = true;
                ParameterInfo[] args         = ci.GetParameters();
                //check if all the arguments can be provided an object
                for (int i = 0; i < args.Length; ++i)
                {
                    ParameterInfo pi = args[i];
                    if (!typesWithObjects.ContainsKey(pi.ParameterType))
                    {
                        RandoopPrintFairStats("InitializeActiveMemberAndDependency", "Can't find argument of type" + pi.ParameterType + "for constructor <" + ci.ToString() + ">");
                        activeMember = false;

                        //compute the dependency of method --> pending types
                        List <Type> output;
                        member2pendingTypes.TryGetValue(ci, out output);
                        if (output == null)
                        {
                            List <Type> l = new List <Type>();
                            l.Add(pi.ParameterType);
                            member2pendingTypes[ci] = l;
                        }
                        else if (!output.Contains(pi.ParameterType))
                        {
                            member2pendingTypes[ci].Add(pi.ParameterType);
                        }


                        //compute the dependency of type --> methods
                        List <MemberInfo> members;
                        type2pendingMembers.TryGetValue(pi.ParameterType, out members);
                        if (members == null)
                        {
                            List <MemberInfo> l = new List <MemberInfo>();
                            l.Add(ci);
                            type2pendingMembers[pi.ParameterType] = l;
                        }
                        else if (!members.Contains(ci))
                        {
                            type2pendingMembers[pi.ParameterType].Add(ci);
                        }
                    }
                }

                if (activeMember) // add it to the active member set and update active types
                {
                    Type ti = ci.DeclaringType;

                    List <MemberInfo> memberList;
                    activeMembers.TryGetValue(ti, out memberList);
                    if (memberList == null)
                    {
                        memberList = new List <MemberInfo>();
                        memberList.Add(ci);
                        activeMembers[ti] = memberList;
                    }
                    else
                    {
                        //there can't be any repeats
                        activeMembers[ti].Add(ci);
                    }

                    //activate the type
                    activeTypes[ti] = true;
                    RandoopPrintFairStats("InitializeActiveMemberAndDependency", "Adding <ActiveType, ActiveMember>: <" + ti.ToString() + "," + ci.ToString() + ">");
                }
            }

            foreach (MethodInfo mi in actions.GetMethods())
            {
                bool activeMember = true;

                //receiver is treated separately
                if (!typesWithObjects.ContainsKey(mi.DeclaringType))
                {
                    Type ti = mi.DeclaringType;

                    RandoopPrintFairStats("InitializeActiveMemberAndDependency", "Can't find argument of type" + ti + "for method <" + mi.ToString() + ">");

                    activeMember = false;

                    //compute the dependency of method --> pending types
                    List <Type> output;
                    member2pendingTypes.TryGetValue(mi, out output);
                    if (output == null)
                    {
                        List <Type> l = new List <Type>();
                        l.Add(ti);
                        member2pendingTypes[mi] = l;
                    }
                    else if (!output.Contains(ti))
                    {
                        member2pendingTypes[mi].Add(ti);
                    }


                    //compute the dependency of type --> methods
                    List <MemberInfo> memberList;
                    type2pendingMembers.TryGetValue(ti, out memberList);
                    if (memberList == null)
                    {
                        List <MemberInfo> l = new List <MemberInfo>();
                        l.Add(mi);
                        type2pendingMembers[ti] = l;
                    }
                    else if (!memberList.Contains(mi))
                    {
                        type2pendingMembers[ti].Add(mi);
                    }
                }

                //check if all the arguments can be provided an object
                ParameterInfo[] args = mi.GetParameters();
                for (int i = 0; i < args.Length; ++i)
                {
                    ParameterInfo pi = args[i];
                    if (!typesWithObjects.ContainsKey(pi.ParameterType))
                    {
                        RandoopPrintFairStats("InitializeActiveMemberAndDependency", "Can't find argument of type" + pi.ParameterType + "for method <" + mi.ToString() + ">");
                        activeMember = false;

                        //compute the dependency of method --> pending types
                        List <Type> output;
                        member2pendingTypes.TryGetValue(mi, out output);
                        if (output == null)
                        {
                            List <Type> l = new List <Type>();
                            l.Add(pi.ParameterType);
                            member2pendingTypes[mi] = l;
                        }
                        else if (!output.Contains(pi.ParameterType))
                        {
                            member2pendingTypes[mi].Add(pi.ParameterType);
                        }


                        //compute the dependency of type --> methods
                        List <MemberInfo> members;
                        type2pendingMembers.TryGetValue(pi.ParameterType, out members);
                        if (members == null)
                        {
                            List <MemberInfo> l = new List <MemberInfo>();
                            l.Add(mi);
                            type2pendingMembers[pi.ParameterType] = l;
                        }
                        else if (!members.Contains(mi))
                        {
                            type2pendingMembers[pi.ParameterType].Add(mi);
                        }
                    }
                }

                if (activeMember)
                {
                    Type ti = mi.DeclaringType;

                    List <MemberInfo> memberList;
                    activeMembers.TryGetValue(ti, out memberList);
                    if (memberList == null)
                    {
                        memberList = new List <MemberInfo>();
                        memberList.Add(mi);
                        activeMembers[ti] = memberList;
                    }
                    else
                    {
                        //there can't be any repeats
                        activeMembers[ti].Add(mi);
                    }

                    //activate the type
                    activeTypes[ti] = true;
                    RandoopPrintFairStats("InitializeActiveMemberAndDependency", "Adding <ActiveType, ActiveMember>: <" + ti.ToString() + "," + mi.ToString() + ">");
                }
            }
        }
Exemplo n.º 9
0
        private static void Main2(string[] args)
        {
            if (args.Length != 1)
            {
                throw new InvalidUserParamsException(
                    "RandoopBare takes exactly one argument but was "
                    + "given the following arguments:"
                    + System.Environment.NewLine
                    + Util.PrintArray(args));;
            }

            // Parse XML file with generation parameters.
            String configFileName = Common.ConfigFileName.Parse(args[0]);
            RandoopConfiguration config = LoadConfigFile(configFileName);

            // Set the random number generator.
            if (config.randomSource == RandomSource.SystemRandom)
            {
                Console.WriteLine("Randoom seed = " + config.randomseed);
                Common.SystemRandom random = new Common.SystemRandom();
                random.Init(config.randomseed);
                Common.Enviroment.Random = random;
            }
            else
            {
                Util.Assert(config.randomSource == RandomSource.Crypto);
                Console.WriteLine("Randoom seed = new System.Security.Cryptography.RNGCryptoServiceProvider()");
                Common.Enviroment.Random = new CryptoRandom();
            }

            if (!Directory.Exists(config.outputdir))
                throw new Common.RandoopBareExceptions.InvalidUserParamsException("output directory does not exist: "
                    + config.outputdir);

            Collection<Assembly> assemblies = Common.Misc.LoadAssemblies(config.assemblies);

            ////[email protected] for substituting MessageBox.Show() - start
            ////Instrument instrumentor = new Instrument();
            //foreach (FileName asm in config.assemblies)
            //{
            //    Instrument.MethodInstrument(asm.fileName, "System.Windows.Forms.MessageBox::Show", "System.Console.Writeline");
            //}            
            ////[email protected] for substituting MessageBox.Show() - end

            IReflectionFilter filter1 = new VisibilityFilter(config);
            ConfigFilesFilter filter2 = new ConfigFilesFilter(config);

            Console.WriteLine("========== REFLECTION PATTERNS:");
            filter2.PrintFilter(Console.Out);

            IReflectionFilter filter = new ComposableFilter(filter1, filter2);

            Collection<Type> typesToExplore = ReflectionUtils.GetExplorableTypes(assemblies);

            PlanManager planManager = new PlanManager(config);
            planManager.builderPlans.AddEnumConstantsToPlanDB(typesToExplore);
            planManager.builderPlans.AddConstantsToTDB(config);

            Console.WriteLine("========== INITIAL PRIMITIVE VALUES:");
            planManager.builderPlans.PrintPrimitives(Console.Out);

            StatsManager stats = new StatsManager(config);

            Console.WriteLine("Analyzing assembly.");

            ActionSet actions = null;
            try
            {
                actions = new ActionSet(typesToExplore, filter);
            }
            catch (EmpytActionSetException)
            {
                string msg = "After filtering based on configuration files, no remaining methods or constructors to explore.";
                throw new Common.RandoopBareExceptions.InvalidUserParamsException(msg);
            }

            Console.WriteLine();
            Console.WriteLine("Generating tests.");

            RandomExplorer explorer =
                new RandomExplorer(typesToExplore, filter, true, config.randomseed, config.arraymaxsize, stats, actions);
            ITimer t = new Timer(config.timelimit);
            try
            {
                explorer.Explore(t, planManager, config.methodweighing, config.forbidnull, true, config.fairOpt);
            }
            catch (Exception e)
            {
                Console.WriteLine("Explorer raised exception {0}", e.ToString());
            }

            //Mono.Cecil.Cil.
        }
Exemplo n.º 10
0
        /// <summary>
        /// Note that Explore can silently fail (exits with 1), if a second chance AV happens 
        /// </summary>
        /// <param name="timer"></param>
        /// <param name="planManager"></param>
        /// <param name="methodWeigthing"></param>
        /// <param name="forbidNull"></param>
        /// <param name="mutateFields"></param>
        public void Explore(ITimer timer, PlanManager planManager, MethodWeighing methodWeigthing,
            bool forbidNull, bool mutateFields, bool fairOpt)
        {
            int currentPlans = planManager.Plans;
            int currentRedundantAdds = planManager.RedundantAdds;

            // Start timing test generation.
            Timer.QueryPerformanceCounter(ref TimeTracking.generationStartTime);


            //exercise the fair option 
            if (fairOpt)
            {
                Console.WriteLine("Using the fair option ....");

                //fairOptLog = new StreamWriter("Randoop.fairopt.log");

                //compute the initial working set and the active methods for each class
                InitializeActiveMemberAndDependency(planManager);

                for (; ; )
                {


                    //field setting
                    if (mutateFields && this.actions.fieldList.Count > 0 && Common.Enviroment.Random.Next(2) == 0)
                        NewFieldSettingPlan(this.actions.RandomField(), planManager, forbidNull);

                    //If the active set is recomputed from scratch
                    //InitializeActiveMemberAndDependency(planManager);


                    //copy the keys 
                    Dictionary<Type, bool>.KeyCollection keys = new Dictionary<Type, bool>.KeyCollection(activeTypes);
                    List<Type> activeList = new List<Type>();
                    foreach (Type t in keys) activeList.Add(t);

                    RandoopPrintFairStats("Randoop.RandomExplore::Explore", "Starting a round of the fair workset algorithm with " + activeTypes.Count + "activeTypes");

                    foreach (Type t in activeList)
                    {
                        //pick up an active method of the type

                        MemberInfo m;

                        try
                        {
                            m = this.actions.RandomActiveMethodorConstructor(activeMembers, t);
                        }
                        catch (Exception e)
                        {
                            Console.WriteLine("Exception raised from RandomActiveMethodorConstructor is {0}", e.ToString());
                            continue;
                        }

                        //Console.WriteLine("Picked up method {0}::{1}", m.DeclaringType,m.Name );
                        int prevBuilderPlanCnt = planManager.builderPlans.NumPlans;

                        //Randoop step
                        ExploreMemberInternal(timer, planManager, forbidNull, m);

                        //need to know if the object creation was succesful, since we know the type
                        //we do it indirectly by looking at the builder plans
                        if (planManager.builderPlans.NumPlans > prevBuilderPlanCnt)
                        {
                            Type retType;
                            if (m is MethodInfo)
                            {
                                retType = (m as MethodInfo).ReturnType;
                            }
                            else if (m is ConstructorInfo)
                            {
                                retType = (m as ConstructorInfo).DeclaringType;
                            }
                            else
                            {
                                throw new RandoopBug("Constructor or Method expected");
                            }

                            //use the return type of the method/constructor to incrementally activate more methods/classes
                            try
                            {
                                UpdateActiveMethodsAndClasses(retType);
                            }
                            catch (Exception e) // had a nasty bug in the updateActiveMethodsAndClasses, so using try-catch
                            {
                                Console.WriteLine("Exception raised from UpdateActiveMethodsAndClasses is {0}", e.ToString());
                            }
                        }

                        if (timer.TimeToStop())
                        {
                            //get the size of # of active members
                            int size = 0;
                            foreach (KeyValuePair<Type, List<MemberInfo>> kv in activeMembers)
                            {
                                List<MemberInfo> l = kv.Value;
                                size = size + l.Count;
                            }

                            //stats printing 
                            Console.WriteLine("Finishing the fair exploration...printing activity stats");
                            Console.WriteLine("Stats: <#ActiveTypes, #ActiveMembers, #BuilderPlans, #typesWithObjs> = <{0},{1},{2},{3}>",
                                activeTypes.Count, size, planManager.builderPlans.NumPlans, typesWithObjects.Count);
                            //fairOptLog.Close();

                            return;
                        }
                    }
                }
            }
            else
            {
                #region Old code for the Randoop exploration
                for (; ; )
                {


                    //field setting
                    if (mutateFields && this.actions.fieldList.Count > 0 && Common.Enviroment.Random.Next(2) == 0)
                        NewFieldSettingPlan(this.actions.RandomField(), planManager, forbidNull);

                    MemberInfo m;
                    if (methodWeigthing == MethodWeighing.RoundRobin)
                    {
                        m = this.actions.RandomMethodOrConstructorRoundRobin();
                    }
                    else if (methodWeigthing == MethodWeighing.Uniform)
                    {
                        m = this.actions.RandomMethodOrConstructorUniform();
                    }
                    else
                        throw new RandoopBug("Unrecognized method weighting option.");


                    ExploreMemberInternal(timer, planManager, forbidNull, m);

                    if (timer.TimeToStop())
                    {
                        // this computation gives us the activity stats for the non-fair option
                        InitializeActiveMemberAndDependency(planManager);
                        //get the size of # of active members
                        int size = 0;
                        foreach (KeyValuePair<Type, List<MemberInfo>> kv in activeMembers)
                        {
                            List<MemberInfo> l = kv.Value;
                            size = size + l.Count;
                        }

                        //stats printing 
                        Console.WriteLine("Finishing the non-fair exploration...printing activity stats");
                        Console.WriteLine("Stats: <#ActiveTypes, #ActiveMembers, #BuilderPlans, #typesWithObjs> = <{0},{1},{2},{3}>",
                            activeTypes.Count, size, planManager.builderPlans.NumPlans, typesWithObjects.Count);
                        //fairOptLog.Close();

                        return;
                    }
                }
                #endregion
            }
        }
Exemplo n.º 11
0
        /// <summary>
        /// Tries to construct a new plan that sets a field for a
        /// receiver of the type given. May fail if there are no
        /// applicable receivers.
        /// </summary>
        /// <param name="type"></param>
        /// <param name="plan"></param>
        /// <returns></returns>
        private void NewFieldSettingPlan(FieldInfo field, PlanManager planManager, bool forbidNull)
        {
            this.stats.Selected(FieldSettingTransformer.Get(field).ToString());

            Type[] parameterTypes = new Type[2];
            parameterTypes[0] = field.DeclaringType;
            parameterTypes[1] = field.FieldType;

            RandomPlansResult r;
            if (!RandomPlans(out r, parameterTypes,
                delegate(Plan p, int i)
                {
                    if (i == 0 && p.transformer is PrimitiveValueTransformer)
                        return false;
                    return true;
                }, planManager.builderPlans, forbidNull, null))
            {
                stats.CreatedNew(CreationResult.NoInputs);
                return;
            }

            Plan plan = new Plan(FieldSettingTransformer.Get(field),
                r.fplans, r.fparameterChoosers);
            planManager.AddMaybeExecutingIfNeeded(plan, this.stats);
        }
Exemplo n.º 12
0
        /// <summary>
        /// Tries to construct a new plan that calls a constructor
        /// of the type given. May fail if there are no
        /// applicable constructors.
        /// </summary>
        /// <param name="type"></param>
        /// <param name="plan"></param>
        /// <returns></returns>
        private void NewConstructorPlan(Type type, ConstructorInfo constructor, PlanManager planManager,
            bool forbidNull, Type[] constructorArgumentTypes)
        {
            this.stats.Selected(ConstructorCallTransformer.Get(constructor).ToString());

            PlanFilter f;
            if (forbidNull)
            {
                f = delegate(Plan p, int i)
                {
                    // Non-null heuristic
                    if (!constructorArgumentTypes[i].IsValueType && (p.transformer is PrimitiveValueTransformer))
                        return false;

                    return true;
                };
            }
            else
            {
                f = delegate(Plan p, int i)
              {
                  return true;
              };

            }

            RandomPlansResult r;
            if (!RandomPlans(out r, constructorArgumentTypes, f, planManager.builderPlans, forbidNull, null))
            {
                stats.CreatedNew(CreationResult.NoInputs);
                return;
            }
            Plan plan = new Plan(ConstructorCallTransformer.Get(constructor),
                r.fplans, r.fparameterChoosers);

            planManager.AddMaybeExecutingIfNeeded(plan, this.stats);
        }
Exemplo n.º 13
0
        /// <summary>
        /// Tries to construct a new plan that calls a method on a
        /// receiver of the type given. May fail if there are no
        /// applicable methods or receivers available.
        /// </summary>
        /// <param name="type"></param>
        /// <param name="plan"></param>
        /// <returns></returns>
        private void NewMethodPlan(Type type, MethodInfo method, PlanManager planManager,
            bool forbidNull, Type[] methodArgumentTypes)
        {
            this.stats.Selected(MethodCall.Get(method).ToString());

            PlanFilter f;
            if (forbidNull)
            {
                f = delegate(Plan p, int i)
                {
                    if (!method.IsStatic && i == 0 && p.transformer is PrimitiveValueTransformer)
                        return false;

                    // Non-null heuristic
                    if (!methodArgumentTypes[i].IsValueType && (p.transformer is PrimitiveValueTransformer))
                        return false;

                    return true;
                };
            }
            else
            {
                f = delegate(Plan p, int i)
              {
                  if (!method.IsStatic && i == 0 && p.transformer is PrimitiveValueTransformer)
                      return false;
                  return true;
              };
            }

            RandomPlansResult r;
            if (!RandomPlans(out r, methodArgumentTypes, f, planManager.builderPlans, forbidNull, method))
            {
                stats.CreatedNew(CreationResult.NoInputs);
                return;
            }
            //Console.WriteLine("\t\t A plan has been created");

            Plan plan = new Plan(MethodCall.Get(method),
                r.fplans, r.fparameterChoosers);

            planManager.AddMaybeExecutingIfNeeded(plan, this.stats);
        }
Exemplo n.º 14
0
        // For methods, it only picks receiver of type m.methodInfo.DeclaringType.
        private Type[] GetParameterTypeSuggestions(MemberInfo m, PlanManager planManager)
        {

            if (m is ConstructorInfo)
            {
                ConstructorInfo constructor = m as ConstructorInfo;
                ParameterInfo[] constructorParameters = constructor.GetParameters();

                Type[] constructorArgumentTypes = new Type[constructorParameters.Length];
                for (int i = 0; i < constructorParameters.Length; i++)
                    constructorArgumentTypes[i] = constructorParameters[i].ParameterType;

                return constructorArgumentTypes;
            }
            else
            {
                Util.Assert(m is MethodInfo);
                MethodInfo method = m as MethodInfo;
                ParameterInfo[] methodParameters = method.GetParameters();

                Type[] methodArgumentTypes = new Type[methodParameters.Length];
                for (int i = 0; i < methodParameters.Length; i++)
                    methodArgumentTypes[i] = methodParameters[i].ParameterType;


                Type[] oneResult = new Type[methodArgumentTypes.Length + 1];
                oneResult[0] = method.DeclaringType;
                Array.Copy(methodArgumentTypes, 0, oneResult, 1, methodArgumentTypes.Length);
                return oneResult;
            }
        }
Exemplo n.º 15
0
        private void ExploreMemberInternal(ITimer timer, PlanManager planManager, bool forbidNull,
            MemberInfo m)
        {
            Type[] sugg = GetParameterTypeSuggestions(m, planManager);

            if (m is ConstructorInfo)
            {
                NewConstructorPlan((m as ConstructorInfo).DeclaringType, m as ConstructorInfo, planManager,
                    forbidNull, sugg);
            }
            else
            {
                Util.Assert(m is MethodInfo);
                NewMethodPlan((m as MethodInfo).DeclaringType, m as MethodInfo, planManager, forbidNull, sugg);
            }
        }
Exemplo n.º 16
0
        /// <summary>
        /// Initializes the data structures for Active members, types, and the dependency of methods on types
        /// </summary>
        /// <param name="planManager"></param>
        /// 
        /// 
        private void InitializeActiveMemberAndDependency(PlanManager planManager)
        {

            //reset all the maps
            activeMembers.Clear();
            activeTypes.Clear();
            typesWithObjects.Clear();
            member2pendingTypes.Clear();
            type2pendingMembers.Clear();


            //get the set of types for which the builderPlans can create an object
            Dictionary<Plan, bool>.KeyCollection plans = planManager.builderPlans.planSet.Keys;
            //we simply look at the return type of the last method of each builder plan. This is sufficient
            //because any intermediate method in a plan will appear as the last method of some prefix plan 
            //in the builder plan database
            foreach (Plan plan in plans)
            {
                Transformer tr = plan.transformer;
                Type t;


                if (tr is MethodCall)
                {
                    t = (tr as MethodCall).method.ReturnType;
                    typesWithObjects[t] = true;
                    RandoopPrintFairStats("InitializeActiveMemberDependency", "[Method]" + t.ToString() + " class is ACTIVE");
                }
                else if (tr is ConstructorCallTransformer)
                {
                    t = (tr as ConstructorCallTransformer).fconstructor.DeclaringType;
                    typesWithObjects[t] = true;
                    RandoopPrintFairStats("InitializeActiveMemberDependency", "[Constructor]" + t.ToString() + " class is ACTIVE");

                }
                else if (tr is PrimitiveValueTransformer) //for primitive values and string
                {
                    t = (tr as PrimitiveValueTransformer).ftype;
                    typesWithObjects[t] = true;
                    RandoopPrintFairStats("InitializeActiveMemberDependency", "[Constant]" + t.ToString() + " class is ACTIVE");
                }
                else
                {
                    //TODO: ignoring field setters and Array constructors
                }

            }

            //we are only going to try to activate the non-filtered types/methods only
            foreach (ConstructorInfo ci in actions.GetConstructors())
            {
                bool activeMember = true;
                ParameterInfo[] args = ci.GetParameters();
                //check if all the arguments can be provided an object
                for (int i = 0; i < args.Length; ++i)
                {
                    ParameterInfo pi = args[i];
                    if (!typesWithObjects.ContainsKey(pi.ParameterType))
                    {
                        RandoopPrintFairStats("InitializeActiveMemberAndDependency", "Can't find argument of type" + pi.ParameterType + "for constructor <" + ci.ToString() + ">");
                        activeMember = false;

                        //compute the dependency of method --> pending types
                        List<Type> output;
                        member2pendingTypes.TryGetValue(ci, out output);
                        if (output == null)
                        {
                            List<Type> l = new List<Type>();
                            l.Add(pi.ParameterType);
                            member2pendingTypes[ci] = l;
                        }
                        else if (!output.Contains(pi.ParameterType))
                        {
                            member2pendingTypes[ci].Add(pi.ParameterType);
                        }


                        //compute the dependency of type --> methods
                        List<MemberInfo> members;
                        type2pendingMembers.TryGetValue(pi.ParameterType, out members);
                        if (members == null)
                        {
                            List<MemberInfo> l = new List<MemberInfo>();
                            l.Add(ci);
                            type2pendingMembers[pi.ParameterType] = l;
                        }
                        else if (!members.Contains(ci))
                        {
                            type2pendingMembers[pi.ParameterType].Add(ci);
                        }


                    }
                }

                if (activeMember) // add it to the active member set and update active types
                {
                    Type ti = ci.DeclaringType;

                    List<MemberInfo> memberList;
                    activeMembers.TryGetValue(ti, out memberList);
                    if (memberList == null)
                    {
                        memberList = new List<MemberInfo>();
                        memberList.Add(ci);
                        activeMembers[ti] = memberList;
                    }
                    else
                    {
                        //there can't be any repeats                        
                        activeMembers[ti].Add(ci);
                    }

                    //activate the type
                    activeTypes[ti] = true;
                    RandoopPrintFairStats("InitializeActiveMemberAndDependency", "Adding <ActiveType, ActiveMember>: <" + ti.ToString() + "," + ci.ToString() + ">");

                }
            }

            foreach (MethodInfo mi in actions.GetMethods())
            {
                bool activeMember = true;

                //receiver is treated separately
                if (!typesWithObjects.ContainsKey(mi.DeclaringType))
                {

                    Type ti = mi.DeclaringType;

                    RandoopPrintFairStats("InitializeActiveMemberAndDependency", "Can't find argument of type" + ti + "for method <" + mi.ToString() + ">");

                    activeMember = false;

                    //compute the dependency of method --> pending types
                    List<Type> output;
                    member2pendingTypes.TryGetValue(mi, out output);
                    if (output == null)
                    {
                        List<Type> l = new List<Type>();
                        l.Add(ti);
                        member2pendingTypes[mi] = l;
                    }
                    else if (!output.Contains(ti))
                    {
                        member2pendingTypes[mi].Add(ti);
                    }


                    //compute the dependency of type --> methods
                    List<MemberInfo> memberList;
                    type2pendingMembers.TryGetValue(ti, out memberList);
                    if (memberList == null)
                    {
                        List<MemberInfo> l = new List<MemberInfo>();
                        l.Add(mi);
                        type2pendingMembers[ti] = l;
                    }
                    else if (!memberList.Contains(mi))
                    {
                        type2pendingMembers[ti].Add(mi);
                    }


                }

                //check if all the arguments can be provided an object
                ParameterInfo[] args = mi.GetParameters();
                for (int i = 0; i < args.Length; ++i)
                {
                    ParameterInfo pi = args[i];
                    if (!typesWithObjects.ContainsKey(pi.ParameterType))
                    {
                        RandoopPrintFairStats("InitializeActiveMemberAndDependency", "Can't find argument of type" + pi.ParameterType + "for method <" + mi.ToString() + ">");
                        activeMember = false;

                        //compute the dependency of method --> pending types
                        List<Type> output;
                        member2pendingTypes.TryGetValue(mi, out output);
                        if (output == null)
                        {
                            List<Type> l = new List<Type>();
                            l.Add(pi.ParameterType);
                            member2pendingTypes[mi] = l;
                        }
                        else if (!output.Contains(pi.ParameterType))
                        {
                            member2pendingTypes[mi].Add(pi.ParameterType);
                        }


                        //compute the dependency of type --> methods
                        List<MemberInfo> members;
                        type2pendingMembers.TryGetValue(pi.ParameterType, out members);
                        if (members == null)
                        {
                            List<MemberInfo> l = new List<MemberInfo>();
                            l.Add(mi);
                            type2pendingMembers[pi.ParameterType] = l;
                        }
                        else if (!members.Contains(mi))
                        {
                            type2pendingMembers[pi.ParameterType].Add(mi);
                        }


                    }
                }

                if (activeMember)
                {
                    Type ti = mi.DeclaringType;

                    List<MemberInfo> memberList;
                    activeMembers.TryGetValue(ti, out memberList);
                    if (memberList == null)
                    {
                        memberList = new List<MemberInfo>();
                        memberList.Add(mi);
                        activeMembers[ti] = memberList;
                    }
                    else
                    {
                        //there can't be any repeats                        
                        activeMembers[ti].Add(mi);
                    }

                    //activate the type
                    activeTypes[ti] = true;
                    RandoopPrintFairStats("InitializeActiveMemberAndDependency", "Adding <ActiveType, ActiveMember>: <" + ti.ToString() + "," + mi.ToString() + ">");

                }

            }
        }