Ejemplo n.º 1
0
        public void TestTrim()
        {
            FasterList <int> list = new FasterList <int>();

            for (int i = 0; i < 10; i++)
            {
                list.Add(i);
            }

            list.UnorderedRemoveAt(3);
            list.UnorderedRemoveAt(0);
            list.UnorderedRemoveAt(7);

            list.Trim();

            Assert.That(list.capacity, Is.EqualTo(7));
            Assert.That(list.count, Is.EqualTo(7));
        }
Ejemplo n.º 2
0
 static void Log(string txt, LogType type, Exception e = null, Dictionary <string, string> extraData = null)
 {
     for (int i = 0; i < _loggers.Count; i++)
     {
         if (_loggers[i].IsValid == true)
         {
             _loggers[i].Target.Log(txt, type, e, extraData);
         }
         else
         {
             _loggers.UnorderedRemoveAt(i);
             i--;
         }
     }
 }
        static void ExecuteRoutines(FasterList <IEnumerator> list)
        {
            var count    = list.Count;
            var routines = list.ToArrayFast();

            for (int i = 0; i < count; i++)
            {
                var ret = routines[i].MoveNext();
                if (ret == false)
                {
                    list.UnorderedRemoveAt(i);
                    count--;
                    i--;
                }
            }
        }
Ejemplo n.º 4
0
        public QueryGroups Except(ExclusiveGroupStruct[] groupsToIgnore)
        {
            var groupsCount = groups.count;

            for (int i = 0; i < groupsToIgnore.Length; i++)
            {
                for (int j = 0; j < groupsCount; j++)
                {
                    if (groupsToIgnore[i] == groups[j])
                    {
                        groups.UnorderedRemoveAt(j);
                        j--;
                        groupsCount--;
                    }
                }
            }

            return(this);
        }
        /// <summary>
        /// Remember that this operation os O(N*M*P) where N,M,P are the number of groups where each component
        /// is found.
        /// </summary>
        /// <typeparam name="T1"></typeparam>
        /// <typeparam name="T2"></typeparam>
        /// <typeparam name="T3"></typeparam>
        /// <returns></returns>
        public LocalFasterReadOnlyList <ExclusiveGroupStruct> FindGroups <T1, T2, T3>()
            where T1 : IEntityComponent where T2 : IEntityComponent where T3 : IEntityComponent
        {
            FindGroups <T1, T2>();

            FasterList <ExclusiveGroupStruct> result = groups.Value;

            if (result.count == 0)
            {
                return(result);
            }

            if (_groupsPerEntity.TryGetValue(TypeRefWrapper <T3> .wrapper
                                             , out FasterDictionary <uint, ITypeSafeDictionary> result3) == false)
            {
                return(result);
            }

            var result3Count           = result3.count;
            var fasterDictionaryNodes3 = result3.unsafeKeys;

            for (int j = 0; j < result3Count; j++)
            {
                for (int i = (int)0; i < result.count; i++)
                {
                    if (fasterDictionaryNodes3[j].key == result[i])
                    {
                        break;
                    }

                    result.UnorderedRemoveAt(i);
                    i--;
                }
            }

            return(result);
        }
Ejemplo n.º 6
0
            public bool MoveNext()
            {
                if (false == _flushingOperation.stopped) //don't start anything while flushing
                {
                    _flushTaskDel(_newTaskRoutines, _coroutines, _flushingOperation);
                }
                else
                if (_runnerBehaviourForUnityCoroutine != null)
                {
                    _runnerBehaviourForUnityCoroutine.StopAllCoroutines();
                }

                UnityEngine.Profiling.Profiler.BeginSample(_info.runnerName);

                for (int i = 0; _info.MoveNext(i, _coroutines.Count); i++)
                {
                    var pausableTask = _coroutines[i];

                    //let's spend few words on this.
                    //yielded YieldInstruction and AsyncOperation can
                    //only be processed internally by Unity.
                    //The simplest way to handle them is to hand them to Unity itself.
                    //However while the Unity routine is processed, the rest of the
                    //coroutine is waiting for it. This would defeat the purpose
                    //of the parallel procedures. For this reason, a Parallel
                    //task will mark the enumerator returned as ParallelYield which
                    //will change the way the routine is processed.
                    //in this case the MonoRunner won't wait for the Unity routine
                    //to continue processing the next tasks.
                    //Note that it is much better to return wrap AsyncOperation around
                    //custom IEnumerator classes then returning them directly as
                    //most of the time they don't need to be handled by Unity as
                    //YieldInstructions do

                    ///
                    /// Handle special Unity instructions
                    /// you should avoid them or wrap them
                    /// around custom IEnumerator to avoid
                    /// the cost of two allocations per instruction
                    ///

                    if (_runnerBehaviourForUnityCoroutine != null &&
                        _flushingOperation.stopped == false)
                    {
                        var current = pausableTask.Current;

                        if (current is YieldInstruction)
                        {
                            var handItToUnity = new HandItToUnity
                                                    (current, pausableTask, _resumeOperation, _flushingOperation);

                            //remove the special instruction. it will
                            //be added back once Unity completes.
                            _coroutines.UnorderedRemoveAt(i--);

                            var coroutine = _runnerBehaviourForUnityCoroutine.StartCoroutine
                                                (handItToUnity.GetEnumerator());

                            (pausableTask as PausableTask).onExplicitlyStopped = () =>
                            {
                                _runnerBehaviourForUnityCoroutine.StopCoroutine(coroutine);
                                handItToUnity.ForceStop();
                            };

                            continue;
                        }

                        var parallelTask = (current as ParallelTaskCollection.ParallelTask);

                        if (parallelTask != null &&
                            parallelTask.current is YieldInstruction)
                        {
                            var handItToUnity = new HandItToUnity(parallelTask.current);

                            parallelTask.Add(handItToUnity.WaitUntilIsDone());

                            var coroutine = _runnerBehaviourForUnityCoroutine.StartCoroutine
                                                (handItToUnity.GetEnumerator());

                            (pausableTask as PausableTask).onExplicitlyStopped = () =>
                            {
                                _runnerBehaviourForUnityCoroutine.StopCoroutine(coroutine);
                                handItToUnity.ForceStop();
                            };
                        }
                    }

                    bool result;
#if TASKS_PROFILER_ENABLED
                    result = Svelto.Tasks.Profiler.TaskProfiler.MonitorUpdateDuration(pausableTask, _info.runnerName);
#else
#if PROFILER
                    UnityEngine.Profiling.Profiler.BeginSample(_info.runnerName.FastConcat("+", pausableTask.ToString()));
#endif
                    result = pausableTask.MoveNext();
#if PROFILER
                    UnityEngine.Profiling.Profiler.EndSample();
#endif
#endif
                    if (result == false)
                    {
                        var disposable = pausableTask as IDisposable;
                        if (disposable != null)
                        {
                            disposable.Dispose();
                        }

                        _coroutines.UnorderedRemoveAt(i--);
                    }
                }

                UnityEngine.Profiling.Profiler.EndSample();

                if (_flushingOperation.stopped == true && _coroutines.Count == 0)
                {   //once all the coroutines are flushed
                    //the loop can return accepting new tasks
                    _flushingOperation.stopped = false;
                }

                return(true);
            }
Ejemplo n.º 7
0
        internal static IEnumerator Process(
            ThreadSafeQueue <IPausableTask> newTaskRoutines,
            FasterList <IPausableTask> coroutines,
            FlushingOperation flushingOperation,
            RunningTasksInfo info,
            FlushTasksDel flushTaskDel,
            RunnerBehaviour runnerBehaviourForUnityCoroutine,
            Action <IPausableTask>
            resumeOperation)
        {
            while (true)
            {
                if (false == flushingOperation.stopped) //don't start anything while flushing
                {
                    flushTaskDel(newTaskRoutines, coroutines, flushingOperation);
                }
                else
                if (runnerBehaviourForUnityCoroutine != null)
                {
                    runnerBehaviourForUnityCoroutine.StopAllCoroutines();
                }

                info.count = coroutines.Count;

                for (var i = 0; i < info.count; i++)
                {
                    var pausableTask = coroutines[i];

                    //let's spend few words on this.
                    //yielded YieldInstruction and AsyncOperation can
                    //only be processed internally by Unity.
                    //The simplest way to handle them is to hand them to Unity itself.
                    //However while the Unity routine is processed, the rest of the
                    //coroutine is waiting for it. This would defeat the purpose
                    //of the parallel procedures. For this reason, a Parallel
                    //task will mark the enumerator returned as ParallelYield which
                    //will change the way the routine is processed.
                    //in this case the MonoRunner won't wait for the Unity routine
                    //to continue processing the next tasks.
                    //Note that it is much better to return wrap AsyncOperation around
                    //custom IEnumerator classes then returning them directly as
                    //most of the time they don't need to be handled by Unity as
                    //YieldInstructions do

                    ///
                    /// Handle special Unity instructions
                    /// you should avoid them or wrap them
                    /// around custom IEnumerator to avoid
                    /// the cost of two allocations per instruction
                    ///

                    if (runnerBehaviourForUnityCoroutine != null &&
                        flushingOperation.stopped == false)
                    {
                        var current = pausableTask.Current;

                        if (current is YieldInstruction)
                        {
                            var handItToUnity = new HandItToUnity
                                                    (current, pausableTask, resumeOperation, flushingOperation);

                            //remove the special instruction. it will
                            //be added back once Unity completes.
                            coroutines.UnorderedRemoveAt(i--);

                            info.count = coroutines.Count;

                            var coroutine = runnerBehaviourForUnityCoroutine.StartCoroutine
                                                (handItToUnity.GetEnumerator());

                            (pausableTask as PausableTask).onExplicitlyStopped = () =>
                            {
                                runnerBehaviourForUnityCoroutine.StopCoroutine(coroutine);
                                handItToUnity.ForceStop();
                            };

                            continue;
                        }

                        var parallelTask = (current as ParallelTaskCollection.ParallelTask);

                        if (parallelTask != null &&
                            parallelTask.current is YieldInstruction)
                        {
                            var handItToUnity = new HandItToUnity(parallelTask.current);

                            parallelTask.Add(handItToUnity.WaitUntilIsDone());

                            var coroutine = runnerBehaviourForUnityCoroutine.StartCoroutine
                                                (handItToUnity.GetEnumerator());

                            (pausableTask as PausableTask).onExplicitlyStopped = () =>
                            {
                                runnerBehaviourForUnityCoroutine.StopCoroutine(coroutine);
                                handItToUnity.ForceStop();
                            };
                        }
                    }

                    bool result;
#if TASKS_PROFILER_ENABLED && UNITY_EDITOR
                    result = TASK_PROFILER.MonitorUpdateDuration(pausableTask, info.runnerName);
#else
                    result = pausableTask.MoveNext();
#endif
                    if (result == false)
                    {
                        var disposable = pausableTask as IDisposable;
                        if (disposable != null)
                        {
                            disposable.Dispose();
                        }

                        coroutines.UnorderedRemoveAt(i--);
                    }

                    info.count = coroutines.Count;
                }

                if (flushingOperation.stopped == true && coroutines.Count == 0)
                {   //once all the coroutines are flushed
                    //the loop can return accepting new tasks
                    flushingOperation.stopped = false;
                }

                yield return(null);
            }
        }