Esempio n. 1
0
        public SpectrumTask(WaveSpectrumCondition condition, bool multiThreadTask, ISpectrum[] spectrums)
            : base(multiThreadTask)
        {
            if (spectrums == null || spectrums.Length != 4)
            {
                throw new ArgumentException("Spectrums array must have a length of 4");
            }

            m_spectrums = spectrums;

            Condition = condition;
            Size      = condition.Key.Size;
            GridSizes = condition.GridSizes;
            WaveAmps  = condition.WaveAmps;
            NumGrids  = condition.Key.NumGrids;           //OYM:  这里

            m_rnd         = new System.Random(0);         //OYM:  创建一个random
            m_distibution = SPECTRUM_DISTRIBUTION.LINEAR; //OYM:  分配模式

            float factor = 2.0f * Mathf.PI * Size;        //OYM:  工厂?

            InverseGridSizes = new Vector4(factor / GridSizes.x, factor / GridSizes.y, factor / GridSizes.z, factor / GridSizes.w);

            m_spectrum01 = new Color[Size * Size]; //OYM:  一个color数组

            if (NumGrids > 2)
            {
                m_spectrum23 = new Color[Size * Size]; //OYM:  又一个?
            }
            m_wtable = new Color[Size * Size];         //OYM:  这一堆玩意没写注释
        }
Esempio n. 2
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        public void CreateAndCacheCondition(int fourierSize, float windSpeed, float windDir, float waveAge)
        {
            if (this.m_conditionCache == null)
            {
                return;
            }
            if (this.m_conditionCache.Count >= this.m_maxConditionCacheSize)
            {
                Ocean.LogWarning("Condition cache full. Condition not cached.");
                return;
            }
            if (!Mathf.IsPowerOfTwo(fourierSize) || fourierSize < 32 || fourierSize > 512)
            {
                Ocean.LogWarning("Fourier size must be a pow2 number from 32 to 512. Condition not cached.");
                return;
            }
            WaveSpectrumCondition waveSpectrumCondition = this.NewSpectrumCondition(fourierSize, windSpeed, windDir, waveAge);

            if (this.m_conditionCache.ContainsKey(waveSpectrumCondition.Key))
            {
                return;
            }
            IThreadedTask createSpectrumConditionTask = waveSpectrumCondition.GetCreateSpectrumConditionTask();

            createSpectrumConditionTask.Start();
            createSpectrumConditionTask.Run();
            createSpectrumConditionTask.End();
            this.m_conditionCache.AddFirst(waveSpectrumCondition.Key, waveSpectrumCondition);
        }
Esempio n. 3
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        public SpectrumTask(WaveSpectrumCondition condition, bool multiThreadTask, ISpectrum[] spectrums)
            : base(multiThreadTask)
        {
            if (spectrums == null || spectrums.Length != 4)
                throw new ArgumentException("Spectrums array must have a length of 4");

            m_spectrums = spectrums;

            Condition = condition;
            Size = condition.Key.Size;
            GridSizes = condition.GridSizes;
            WaveAmps = condition.WaveAmps;
            NumGrids = condition.Key.NumGrids;

            m_rnd = new System.Random(0);
            m_distibution = SPECTRUM_DISTRIBUTION.LINEAR;

            float factor = 2.0f * Mathf.PI * Size;
            InverseGridSizes = new Vector4(factor / GridSizes.x, factor / GridSizes.y, factor / GridSizes.z, factor / GridSizes.w);

            m_spectrum01 = new Color[Size * Size];

            if(NumGrids > 2)
                m_spectrum23 = new Color[Size * Size];

            m_wtable = new Color[Size * Size];
        }
Esempio n. 4
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        public override void Run(WaveSpectrumCondition condition, float time)
        {
            base.TimeValue   = time;
            base.HasRun      = true;
            base.BeenSampled = false;
            if (this.m_samplingEnabled)
            {
                throw new InvalidOperationException("Can not run if sampling enabled");
            }
            this.UpdateEnabledData();
            this.CreateTextures();
            int count = this.m_enabledData.Count;

            if (count == 0)
            {
                return;
            }
            this.Initilize(condition, time);
            if (count == 1)
            {
                this.m_index = this.m_fourier.PeformFFT(this.m_enabledData[0]);
            }
            else if (count == 2)
            {
                this.m_index = this.m_fourier.PeformFFT(this.m_enabledData[0], this.m_enabledData[1]);
            }
            else if (count == 3)
            {
                this.m_index = this.m_fourier.PeformFFT(this.m_enabledData[0], this.m_enabledData[1], this.m_enabledData[2]);
            }
            else if (count == 4)
            {
                this.m_index = this.m_fourier.PeformFFT(this.m_enabledData[0], this.m_enabledData[1], this.m_enabledData[2], this.m_enabledData[3]);
            }
        }
Esempio n. 5
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        public override void Run(WaveSpectrumCondition condition, float time)
        {
            if (!this.IsDone())
            {
                throw new InvalidOperationException("Can not run when there are tasks that have not finished");
            }
            base.TimeValue   = time;
            base.HasRun      = true;
            base.BeenSampled = false;
            if (this.EnabledBuffers() == 0)
            {
                return;
            }
            this.Initilize(condition, time);
            if (Ocean.DISABLE_FOURIER_MULTITHREADING)
            {
                this.m_initTask.Start();
                this.m_initTask.Run();
                this.m_initTask.End();
            }
            int num = this.m_buffers.Length;

            for (int i = 0; i < num; i++)
            {
                if (!this.m_buffers[i].disabled)
                {
                    if (this.m_fourierTasks[i] == null)
                    {
                        this.m_fourierTasks[i] = new FourierTask(this, this.m_fourier, i, this.m_initTask.NumGrids);
                    }
                    else
                    {
                        this.m_fourierTasks[i].Reset(i, this.m_initTask.NumGrids);
                    }
                    FourierTask fourierTask = this.m_fourierTasks[i];
                    if (fourierTask.Done)
                    {
                        throw new InvalidOperationException("Fourier task should not be done before running");
                    }
                    if (Ocean.DISABLE_FOURIER_MULTITHREADING)
                    {
                        fourierTask.Start();
                        fourierTask.Run();
                        fourierTask.End();
                    }
                    else
                    {
                        fourierTask.RunOnStopWaiting = true;
                        fourierTask.WaitOn(this.m_initTask);
                        this.m_scheduler.AddWaiting(fourierTask);
                    }
                }
            }
            if (!Ocean.DISABLE_FOURIER_MULTITHREADING)
            {
                this.m_initTask.NoFinish = true;
                this.m_scheduler.Run(this.m_initTask);
            }
        }
Esempio n. 6
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        protected override void Initilize(WaveSpectrumCondition condition, float time)
        {
            if (base.InitMaterial == null)
            {
                throw new InvalidOperationException("GPU buffer has not had its Init material set");
            }
            if (base.InitPass == -1)
            {
                throw new InvalidOperationException("GPU buffer has not had its Init material pass set");
            }
            base.InitMaterial.SetTexture("Ceto_Spectrum01", (!(condition.Spectrum01 != null)) ? Texture2D.blackTexture : condition.Spectrum01);
            base.InitMaterial.SetTexture("Ceto_Spectrum23", (!(condition.Spectrum23 != null)) ? Texture2D.blackTexture : condition.Spectrum23);
            base.InitMaterial.SetTexture("Ceto_WTable", condition.WTable);
            base.InitMaterial.SetVector("Ceto_InverseGridSizes", condition.InverseGridSizes());
            base.InitMaterial.SetVector("Ceto_GridSizes", condition.GridSizes);
            base.InitMaterial.SetVector("Ceto_Offset", this.m_offset);
            base.InitMaterial.SetFloat("Ceto_Time", time);
            this.m_tmpList.Clear();
            int num = this.m_buffers.Length;

            for (int i = 0; i < num; i++)
            {
                if (!this.m_buffers[i].disabled)
                {
                    this.m_tmpList.Add(this.m_buffers[i].data[1]);
                }
            }
            num = this.m_tmpList.Count;
            if (num == 0)
            {
                return;
            }
            if (num == 1)
            {
                Graphics.Blit(null, this.m_tmpList[0], base.InitMaterial, base.InitPass);
            }
            else if (num == 2)
            {
                this.m_tmpBuffer2[0] = this.m_tmpList[0].colorBuffer;
                this.m_tmpBuffer2[1] = this.m_tmpList[1].colorBuffer;
                RTUtility.MultiTargetBlit(this.m_tmpBuffer2, this.m_tmpList[0].depthBuffer, base.InitMaterial, base.InitPass);
            }
            else if (num == 3)
            {
                this.m_tmpBuffer3[0] = this.m_tmpList[0].colorBuffer;
                this.m_tmpBuffer3[1] = this.m_tmpList[1].colorBuffer;
                this.m_tmpBuffer3[2] = this.m_tmpList[2].colorBuffer;
                RTUtility.MultiTargetBlit(this.m_tmpBuffer3, this.m_tmpList[0].depthBuffer, base.InitMaterial, base.InitPass);
            }
            else if (num == 4)
            {
                this.m_tmpBuffer4[0] = this.m_tmpList[0].colorBuffer;
                this.m_tmpBuffer4[1] = this.m_tmpList[1].colorBuffer;
                this.m_tmpBuffer4[2] = this.m_tmpList[2].colorBuffer;
                this.m_tmpBuffer4[3] = this.m_tmpList[3].colorBuffer;
                RTUtility.MultiTargetBlit(this.m_tmpBuffer4, this.m_tmpList[0].depthBuffer, base.InitMaterial, base.InitPass);
            }
        }
Esempio n. 7
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 public InitSpectrumDisplacementsTask(DisplacementBufferCPU buffer, WaveSpectrumCondition condition, float time) : base(true)
 {
     this.Buffer       = buffer;
     this.NumGrids     = condition.Key.NumGrids;
     this.Size         = condition.Key.Size;
     this.SpectrumType = condition.Key.SpectrumType;
     this.TimeValue    = time;
     this.Reset(condition, time);
     this.CreateKTables(condition.InverseGridSizes());
 }
        public InitSpectrumDisplacementsTask(DisplacementBufferCPU buffer, WaveSpectrumCondition condition, float time)
            : base(true)
        {
            Buffer = buffer;
            NumGrids = condition.Key.NumGrids;
            Size = condition.Key.Size;
            SpectrumType = condition.Key.SpectrumType;
            TimeValue = time;

            Reset(condition, time);

            CreateKTables(condition.InverseGridSizes());
        }
        /// <summary>
        /// Initialize the enabled buffers with the current conditions spectrum for this time.
        /// </summary>
        protected override void Initilize(WaveSpectrumCondition condition, float time)
        {
            if (InitMaterial == null)
            {
                throw new InvalidOperationException("GPU buffer has not had its Init material set");
            }

            if (InitPass == -1)
            {
                throw new InvalidOperationException("GPU buffer has not had its Init material pass set");
            }

            InitMaterial.SetTexture("Ceto_Spectrum01", (condition.Spectrum01 != null) ? condition.Spectrum01 : Texture2D.blackTexture);
            InitMaterial.SetTexture("Ceto_Spectrum23", (condition.Spectrum23 != null) ? condition.Spectrum23 : Texture2D.blackTexture);
            InitMaterial.SetTexture("Ceto_WTable", condition.WTable);
            InitMaterial.SetVector("Ceto_InverseGridSizes", condition.InverseGridSizes());
            InitMaterial.SetVector("Ceto_GridSizes", condition.GridSizes);
            InitMaterial.SetVector("Ceto_Offset", m_offset);
            InitMaterial.SetFloat("Ceto_Time", time);

            m_tmpList.Clear();

            int count = m_buffers.Length;

            for (int i = 0; i < count; i++)
            {
                if (!m_buffers[i].disabled)
                {
                    m_tmpList.Add(m_buffers[i].data[1]);
                }
            }

            count = m_tmpList.Count;

            if (count == 0)
            {
                return;
            }
            else if (count == 1)
            {
                Graphics.Blit(null, m_tmpList[0], InitMaterial, InitPass);
            }
            else
            {
                RTUtility.MultiTargetBlit(m_tmpList, InitMaterial, InitPass);
            }
        }
Esempio n. 10
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 private void CacheCondition(WaveSpectrumCondition condition)
 {
     if (condition == null || this.m_conditionCache == null)
     {
         return;
     }
     if (this.m_conditionCache.ContainsKey(condition.Key))
     {
         return;
     }
     this.m_conditionCache.AddFirst(condition.Key, condition);
     while (this.m_conditionCache.Count != 0 && this.m_conditionCache.Count > this.m_maxConditionCacheSize)
     {
         WaveSpectrumCondition waveSpectrumCondition = this.m_conditionCache.RemoveLast();
         waveSpectrumCondition.Release();
     }
 }
Esempio n. 11
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        /// <summary>
        /// Creates the data for this conditions spectrum for this time value.
        /// </summary>
        public override void Run(WaveSpectrumCondition condition, float time)
        {
            TimeValue   = time;
            HasRun      = true;
            BeenSampled = false;

            if (m_samplingEnabled)
            {
                throw new InvalidOperationException("Can not run if sampling enabled");
            }

            UpdateEnabledData();
            CreateTextures();

            //There are no buffers enabled return.
            int count = m_enabledData.Count;

            if (count == 0)
            {
                return;
            }

            //Initialize buffers.
            Initilize(condition, time);

            //Perform the FFT. Supports running the FFT on 1-4 buffers at one.
            if (count == 1)
            {
                m_index = m_fourier.PeformFFT(m_enabledData[0]);
            }
            else if (count == 2)
            {
                m_index = m_fourier.PeformFFT(m_enabledData[0], m_enabledData[1]);
            }
            else if (count == 3)
            {
                m_index = m_fourier.PeformFFT(m_enabledData[0], m_enabledData[1], m_enabledData[2]);
            }
            else if (count == 4)
            {
                m_index = m_fourier.PeformFFT(m_enabledData[0], m_enabledData[1], m_enabledData[2], m_enabledData[3]);
            }
        }
Esempio n. 12
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 protected override void Initilize(WaveSpectrumCondition condition, float time)
 {
     InterpolatedArray2f[] writeDisplacements = this.GetWriteDisplacements();
     writeDisplacements[0].Clear();
     writeDisplacements[1].Clear();
     writeDisplacements[2].Clear();
     writeDisplacements[3].Clear();
     if (this.m_initTask == null)
     {
         this.m_initTask = condition.GetInitSpectrumDisplacementsTask(this, time);
     }
     else if (this.m_initTask.SpectrumType != condition.Key.SpectrumType || this.m_initTask.NumGrids != condition.Key.NumGrids)
     {
         this.m_initTask = condition.GetInitSpectrumDisplacementsTask(this, time);
     }
     else
     {
         this.m_initTask.Reset(condition, time);
     }
 }
Esempio n. 13
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 public SpectrumTask(WaveSpectrumCondition condition, bool multiThreadTask, ISpectrum[] spectrums)
     : base(multiThreadTask)
 {
     if (spectrums == null || spectrums.Length != 4)
     {
         throw new ArgumentException("Spectrums array must have a length of 4");
     }
     this.m_spectrums = spectrums;
     this.Condition = condition;
     this.Size = condition.Key.Size;
     this.GridSizes = condition.GridSizes;
     this.WaveAmps = condition.WaveAmps;
     this.NumGrids = condition.Key.NumGrids;
     this.m_rnd = new System.Random(0);
     this.m_distibution = SPECTRUM_DISTRIBUTION.LINEAR;
     float num = 6.28318548f * (float)this.Size;
     this.InverseGridSizes = new Vector4(num / this.GridSizes.x, num / this.GridSizes.y, num / this.GridSizes.z, num / this.GridSizes.w);
     this.m_spectrum01 = new Color[this.Size * this.Size];
     if (this.NumGrids > 2)
     {
         this.m_spectrum23 = new Color[this.Size * this.Size];
     }
     this.m_wtable = new Color[this.Size * this.Size];
 }
Esempio n. 14
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        public SpectrumTask(WaveSpectrumCondition condition, bool multiThreadTask, ISpectrum[] spectrums) : base(multiThreadTask)
        {
            if (spectrums == null || spectrums.Length != 4)
            {
                throw new ArgumentException("Spectrums array must have a length of 4");
            }
            this.m_spectrums   = spectrums;
            this.Condition     = condition;
            this.Size          = condition.Key.Size;
            this.GridSizes     = condition.GridSizes;
            this.WaveAmps      = condition.WaveAmps;
            this.NumGrids      = condition.Key.NumGrids;
            this.m_rnd         = new System.Random(0);
            this.m_distibution = SPECTRUM_DISTRIBUTION.LINEAR;
            float num = 6.28318548f * (float)this.Size;

            this.InverseGridSizes = new Vector4(num / this.GridSizes.x, num / this.GridSizes.y, num / this.GridSizes.z, num / this.GridSizes.w);
            this.m_spectrum01     = new Color[this.Size * this.Size];
            if (this.NumGrids > 2)
            {
                this.m_spectrum23 = new Color[this.Size * this.Size];
            }
            this.m_wtable = new Color[this.Size * this.Size];
        }
Esempio n. 15
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 /// <summary>
 /// Run the buffer with the spectrum for these conditions at this time.
 /// </summary>
 public abstract void Run(WaveSpectrumCondition condition, float time);
Esempio n. 16
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		/// <summary>
		/// Caches the condition and trims cache to max size.
		/// </summary>
		void CacheCondition(WaveSpectrumCondition condition)
		{
			if(condition == null || m_conditionCache == null) return;

			if(m_conditionCache.ContainsKey(condition.Key)) return;

			m_conditionCache.AddFirst(condition.Key, condition);

			//Trim cache to the max size.
			while (m_conditionCache.Count != 0 && m_conditionCache.Count > m_maxConditionCacheSize)
			{
				var tmp = m_conditionCache.RemoveLast();
				tmp.Release();
			}

		}
Esempio n. 17
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        /// <summary>
        /// Creates the data for this conditions spectrum for this time value.
        /// </summary>
        public override void Run(WaveSpectrumCondition condition, float time)
        {
            //Can only run if all tasks have finished.
            if (!IsDone())
            {
                throw new InvalidOperationException("Can not run when there are tasks that have not finished");
            }

            TimeValue   = time;
            HasRun      = true;
            BeenSampled = false;

            //If no buffers are enabled nothing to do.
            if (EnabledBuffers() == 0)
            {
                return;
            }

            //Create the Initialization task.
            //This is created by the superclass
            //to the m_initTask object.
            Initilize(condition, time);

            //Must run init task first if mutithreading disabled
            if (Ocean.DISABLE_FOURIER_MULTITHREADING)
            {
                //Multithreading disabled, run now on this thread.
                m_initTask.Start();
                m_initTask.Run();
                m_initTask.End();
            }

            int numBuffers = m_buffers.Length;

            //float t = Time.realtimeSinceStartup;

            //for each buffer run a fourier task.
            for (int i = 0; i < numBuffers; i++)
            {
                if (m_buffers[i].disabled)
                {
                    continue;
                }

                if (m_fourierTasks[i] == null)
                {
                    m_fourierTasks[i] = new FourierTask(this, m_fourier, i, m_initTask.NumGrids);
                }
                else
                {
                    m_fourierTasks[i].Reset(i, m_initTask.NumGrids);
                }

                FourierTask task = m_fourierTasks[i];

                if (task.Done)
                {
                    throw new InvalidOperationException("Fourier task should not be done before running");
                }

                if (Ocean.DISABLE_FOURIER_MULTITHREADING)
                {
                    //Multithreading disabled, run now on this thread.
                    task.Start();
                    task.Run();
                    task.End();
                }
                else
                {
                    //Multithreading enabled, run now on another thread.

                    //If init task has not finished yet the
                    //fourier task must wait on it to finish.
                    task.RunOnStopWaiting = true;
                    task.WaitOn(m_initTask);
                    m_scheduler.AddWaiting(task);
                }
            }

            //Debug.Log("Run Fourier time = " + (Time.realtimeSinceStartup - t) * 1000.0f + " tasks = " + m_fourierTasks.Count);

            //Must run init task last if mutithreading not disabled
            if (!Ocean.DISABLE_FOURIER_MULTITHREADING)
            {
                //Must run init task after tasks the are waiting
                //have been added. Otherwise init task may finish
                //before there other tasks have been added and a
                //exception will be thrown.
                m_initTask.NoFinish = true;
                m_scheduler.Run(m_initTask);
            }
        }
Esempio n. 18
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 public override void Run(WaveSpectrumCondition condition, float time)
 {
     base.TimeValue = time;
     base.HasRun = true;
     base.BeenSampled = false;
     if (this.m_samplingEnabled)
     {
         throw new InvalidOperationException("Can not run if sampling enabled");
     }
     this.UpdateEnabledData();
     this.CreateTextures();
     int count = this.m_enabledData.Count;
     if (count == 0)
     {
         return;
     }
     this.Initilize(condition, time);
     if (count == 1)
     {
         this.m_index = this.m_fourier.PeformFFT(this.m_enabledData[0]);
     }
     else if (count == 2)
     {
         this.m_index = this.m_fourier.PeformFFT(this.m_enabledData[0], this.m_enabledData[1]);
     }
     else if (count == 3)
     {
         this.m_index = this.m_fourier.PeformFFT(this.m_enabledData[0], this.m_enabledData[1], this.m_enabledData[2]);
     }
     else if (count == 4)
     {
         this.m_index = this.m_fourier.PeformFFT(this.m_enabledData[0], this.m_enabledData[1], this.m_enabledData[2], this.m_enabledData[3]);
     }
 }
Esempio n. 19
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 /// <summary>
 /// Initialized the buffer with the spectrum for these conditions at this time.
 /// </summary>
 protected abstract void Initilize(WaveSpectrumCondition condition, float time);
Esempio n. 20
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 protected abstract void Initilize(WaveSpectrumCondition condition, float time);
        public void Reset(WaveSpectrumCondition condition, float time)
        {
            if (condition.Key.SpectrumType != SpectrumType)
                throw new InvalidOperationException("Trying to reset a Unified InitSpectrum task with wrong condition type = " + condition.Key.SpectrumType);

            if (condition.Key.Size != Size)
                throw new InvalidOperationException("Trying to reset a Unified InitSpectrum task with wrong condition size = " + condition.Key.Size);

            base.Reset();

            int S2 = Size * Size;

            if (m_spectrum01 == null)
                m_spectrum01 = new Color[S2];

            if (m_spectrum23 == null && NumGrids > 2)
                m_spectrum23 = new Color[S2];

            if (m_wtable == null)
                m_wtable = new Color[S2];

            TimeValue = time;

            Data0 = Buffer.GetReadBuffer(0);
            Data1 = Buffer.GetReadBuffer(1);
            Data2 = Buffer.GetReadBuffer(2);

            var buffer0 = Buffer.GetBuffer(0);
            var buffer1 = Buffer.GetBuffer(1);
            var buffer2 = Buffer.GetBuffer(2);

            if (buffer0 != null)
            {
                if(NumGrids > 2)
                    buffer0.doublePacked = true;
                else
                    buffer0.doublePacked = false;
            }

            if (buffer1 != null)
            {
                if (NumGrids > 1)
                    buffer1.doublePacked = true;
                else
                    buffer1.doublePacked = false;
            }

            if (buffer2 != null)
            {
                if(NumGrids > 3)
                    buffer2.doublePacked = true;
                else
                    buffer2.doublePacked = false;
            }

            if (LastUpdated != condition.LastUpdated)
            {
                LastUpdated = condition.LastUpdated;

                if(m_spectrum01 != null && condition.SpectrumData01 != null)
                    System.Array.Copy(condition.SpectrumData01, m_spectrum01, S2);

                if (m_spectrum23 != null && condition.SpectrumData23 != null)
                    System.Array.Copy(condition.SpectrumData23, m_spectrum23, S2);

                if (m_wtable != null && condition.WTableData != null)
                    System.Array.Copy(condition.WTableData, m_wtable, S2);
            }
        }
        /// <summary>
        /// Initialize the enabled buffers with the current conditions spectrum for this time.
        /// </summary>
        protected override void Initilize(WaveSpectrumCondition condition, float time)
        {
            if (InitMaterial == null)
                throw new InvalidOperationException("GPU buffer has not had its Init material set");

            if (InitPass == -1)
                throw new InvalidOperationException("GPU buffer has not had its Init material pass set");

            InitMaterial.SetTexture("Ceto_Spectrum01", (condition.Spectrum01 != null) ? condition.Spectrum01 : Texture2D.blackTexture );
            InitMaterial.SetTexture("Ceto_Spectrum23", (condition.Spectrum23 != null) ? condition.Spectrum23 : Texture2D.blackTexture );
            InitMaterial.SetTexture("Ceto_WTable", condition.WTable);
            InitMaterial.SetVector("Ceto_InverseGridSizes", condition.InverseGridSizes());
            InitMaterial.SetVector("Ceto_GridSizes", condition.GridSizes);
            InitMaterial.SetVector("Ceto_Offset", m_offset);
            InitMaterial.SetFloat("Ceto_Time", time);

            m_tmpList.Clear();

            int count = m_buffers.Length;
            for (int i = 0; i < count; i++)
            {
                if(!m_buffers[i].disabled)
                    m_tmpList.Add(m_buffers[i].data[1]);
            }

            count = m_tmpList.Count;

            if (count == 0)
            {
                return;
            }
            else if(count == 1)
            {
                Graphics.Blit(null, m_tmpList[0], InitMaterial, InitPass);
            }
            else
            {
                RTUtility.MultiTargetBlit(m_tmpList, InitMaterial, InitPass);
            }
        }
        /// <summary>
        /// Creates the data for this conditions spectrum for this time value.
        /// </summary>
        public override void Run(WaveSpectrumCondition condition, float time)
        {
            TimeValue = time;
            HasRun = true;
            BeenSampled = false;

            if(m_samplingEnabled)
                throw new InvalidOperationException("Can not run if sampling enabled");

            UpdateEnabledData();
            CreateTextures();

            //There are no buffers enabled return.
            int count = m_enabledData.Count;
            if(count == 0) return;

            //Initialize buffers.
            Initilize(condition, time);

            //Perform the FFT. Supports running the FFT on 1-4 buffers at one.
            if(count == 1)
            {
                m_index = m_fourier.PeformFFT(m_enabledData[0]);
            }
            else if(count == 2)
            {
                m_index = m_fourier.PeformFFT(m_enabledData[0], m_enabledData[1]);
            }
            else if(count == 3)
            {
                m_index = m_fourier.PeformFFT(m_enabledData[0], m_enabledData[1], m_enabledData[2]);
            }
            else if(count == 4)
            {
                m_index = m_fourier.PeformFFT(m_enabledData[0], m_enabledData[1], m_enabledData[2], m_enabledData[3]);
            }
        }
Esempio n. 24
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 private void CacheCondition(WaveSpectrumCondition condition)
 {
     if (condition == null || this.m_conditionCache == null)
     {
         return;
     }
     if (this.m_conditionCache.ContainsKey(condition.Key))
     {
         return;
     }
     this.m_conditionCache.AddFirst(condition.Key, condition);
     while (this.m_conditionCache.Count != 0 && this.m_conditionCache.Count > this.m_maxConditionCacheSize)
     {
         WaveSpectrumCondition waveSpectrumCondition = this.m_conditionCache.RemoveLast();
         waveSpectrumCondition.Release();
     }
 }
Esempio n. 25
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        public void Reset(WaveSpectrumCondition condition, float time)
        {
            if (condition.Key.SpectrumType != this.SpectrumType)
            {
                throw new InvalidOperationException("Trying to reset a Unified InitSpectrum task with wrong condition type = " + condition.Key.SpectrumType);
            }
            if (condition.Key.Size != this.Size)
            {
                throw new InvalidOperationException("Trying to reset a Unified InitSpectrum task with wrong condition size = " + condition.Key.Size);
            }
            base.Reset();
            int num = this.Size * this.Size;

            if (this.m_spectrum01 == null)
            {
                this.m_spectrum01 = new Color[num];
            }
            if (this.m_spectrum23 == null && this.NumGrids > 2)
            {
                this.m_spectrum23 = new Color[num];
            }
            if (this.m_wtable == null)
            {
                this.m_wtable = new Color[num];
            }
            this.TimeValue = time;
            this.Data0     = this.Buffer.GetReadBuffer(0);
            this.Data1     = this.Buffer.GetReadBuffer(1);
            this.Data2     = this.Buffer.GetReadBuffer(2);
            WaveSpectrumBufferCPU.Buffer buffer  = this.Buffer.GetBuffer(0);
            WaveSpectrumBufferCPU.Buffer buffer2 = this.Buffer.GetBuffer(1);
            WaveSpectrumBufferCPU.Buffer buffer3 = this.Buffer.GetBuffer(2);
            if (buffer != null)
            {
                if (this.NumGrids > 2)
                {
                    buffer.doublePacked = true;
                }
                else
                {
                    buffer.doublePacked = false;
                }
            }
            if (buffer2 != null)
            {
                if (this.NumGrids > 1)
                {
                    buffer2.doublePacked = true;
                }
                else
                {
                    buffer2.doublePacked = false;
                }
            }
            if (buffer3 != null)
            {
                if (this.NumGrids > 3)
                {
                    buffer3.doublePacked = true;
                }
                else
                {
                    buffer3.doublePacked = false;
                }
            }
            if (this.LastUpdated != condition.LastUpdated)
            {
                this.LastUpdated = condition.LastUpdated;
                if (this.m_spectrum01 != null && condition.SpectrumData01 != null)
                {
                    Array.Copy(condition.SpectrumData01, this.m_spectrum01, num);
                }
                if (this.m_spectrum23 != null && condition.SpectrumData23 != null)
                {
                    Array.Copy(condition.SpectrumData23, this.m_spectrum23, num);
                }
                if (this.m_wtable != null && condition.WTableData != null)
                {
                    Array.Copy(condition.WTableData, this.m_wtable, num);
                }
            }
        }
        public void Reset(WaveSpectrumCondition condition, float time)
        {
            if (condition.Key.SpectrumType != SpectrumType)
            {
                throw new InvalidOperationException("Trying to reset a Unified InitSpectrum task with wrong condition type = " + condition.Key.SpectrumType);
            }

            if (condition.Key.Size != Size)
            {
                throw new InvalidOperationException("Trying to reset a Unified InitSpectrum task with wrong condition size = " + condition.Key.Size);
            }

            base.Reset();

            int S2 = Size * Size;

            if (m_spectrum01 == null)
            {
                m_spectrum01 = new Color[S2];
            }

            if (m_spectrum23 == null && NumGrids > 2)
            {
                m_spectrum23 = new Color[S2];
            }

            if (m_wtable == null)
            {
                m_wtable = new Color[S2];
            }

            TimeValue = time;

            Data0 = Buffer.GetReadBuffer(0);
            Data1 = Buffer.GetReadBuffer(1);
            Data2 = Buffer.GetReadBuffer(2);

            var buffer0 = Buffer.GetBuffer(0);
            var buffer1 = Buffer.GetBuffer(1);
            var buffer2 = Buffer.GetBuffer(2);

            if (buffer0 != null)
            {
                if (NumGrids > 2)
                {
                    buffer0.doublePacked = true;
                }
                else
                {
                    buffer0.doublePacked = false;
                }
            }

            if (buffer1 != null)
            {
                if (NumGrids > 1)
                {
                    buffer1.doublePacked = true;
                }
                else
                {
                    buffer1.doublePacked = false;
                }
            }

            if (buffer2 != null)
            {
                if (NumGrids > 3)
                {
                    buffer2.doublePacked = true;
                }
                else
                {
                    buffer2.doublePacked = false;
                }
            }

            if (LastUpdated != condition.LastUpdated)
            {
                LastUpdated = condition.LastUpdated;

                if (m_spectrum01 != null && condition.SpectrumData01 != null)
                {
                    System.Array.Copy(condition.SpectrumData01, m_spectrum01, S2);
                }

                if (m_spectrum23 != null && condition.SpectrumData23 != null)
                {
                    System.Array.Copy(condition.SpectrumData23, m_spectrum23, S2);
                }

                if (m_wtable != null && condition.WTableData != null)
                {
                    System.Array.Copy(condition.WTableData, m_wtable, S2);
                }
            }
        }
Esempio n. 27
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 public override void Run(WaveSpectrumCondition condition, float time)
 {
     if (!this.IsDone())
     {
         throw new InvalidOperationException("Can not run when there are tasks that have not finished");
     }
     base.TimeValue = time;
     base.HasRun = true;
     base.BeenSampled = false;
     if (this.EnabledBuffers() == 0)
     {
         return;
     }
     this.Initilize(condition, time);
     if (Ocean.DISABLE_FOURIER_MULTITHREADING)
     {
         this.m_initTask.Start();
         this.m_initTask.Run();
         this.m_initTask.End();
     }
     int num = this.m_buffers.Length;
     for (int i = 0; i < num; i++)
     {
         if (!this.m_buffers[i].disabled)
         {
             if (this.m_fourierTasks[i] == null)
             {
                 this.m_fourierTasks[i] = new FourierTask(this, this.m_fourier, i, this.m_initTask.NumGrids);
             }
             else
             {
                 this.m_fourierTasks[i].Reset(i, this.m_initTask.NumGrids);
             }
             FourierTask fourierTask = this.m_fourierTasks[i];
             if (fourierTask.Done)
             {
                 throw new InvalidOperationException("Fourier task should not be done before running");
             }
             if (Ocean.DISABLE_FOURIER_MULTITHREADING)
             {
                 fourierTask.Start();
                 fourierTask.Run();
                 fourierTask.End();
             }
             else
             {
                 fourierTask.RunOnStopWaiting = true;
                 fourierTask.WaitOn(this.m_initTask);
                 this.m_scheduler.AddWaiting(fourierTask);
             }
         }
     }
     if (!Ocean.DISABLE_FOURIER_MULTITHREADING)
     {
         this.m_initTask.NoFinish = true;
         this.m_scheduler.Run(this.m_initTask);
     }
 }
        protected override void Initilize(WaveSpectrumCondition condition, float time)
        {
            InterpolatedArray2f[] displacements = GetWriteDisplacements();

            displacements[0].Clear();
            displacements[1].Clear();
            displacements[2].Clear();
            displacements[3].Clear();

            if (m_initTask == null)
            {
                m_initTask = condition.GetInitSpectrumDisplacementsTask(this, time);
            }
            else if(m_initTask.SpectrumType != condition.Key.SpectrumType || m_initTask.NumGrids != condition.Key.NumGrids)
            {
                m_initTask = condition.GetInitSpectrumDisplacementsTask(this, time);
            }
            else
            {
                m_initTask.Reset(condition, time);
            }
        }
Esempio n. 29
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 public override void Run(WaveSpectrumCondition condition, float time)
 {
     SwapDisplacements();
     base.Run(condition, time);
 }
Esempio n. 30
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 protected override void Initilize(WaveSpectrumCondition condition, float time)
 {
     if (base.InitMaterial == null)
     {
         throw new InvalidOperationException("GPU buffer has not had its Init material set");
     }
     if (base.InitPass == -1)
     {
         throw new InvalidOperationException("GPU buffer has not had its Init material pass set");
     }
     base.InitMaterial.SetTexture("Ceto_Spectrum01", (!(condition.Spectrum01 != null)) ? Texture2D.blackTexture : condition.Spectrum01);
     base.InitMaterial.SetTexture("Ceto_Spectrum23", (!(condition.Spectrum23 != null)) ? Texture2D.blackTexture : condition.Spectrum23);
     base.InitMaterial.SetTexture("Ceto_WTable", condition.WTable);
     base.InitMaterial.SetVector("Ceto_InverseGridSizes", condition.InverseGridSizes());
     base.InitMaterial.SetVector("Ceto_GridSizes", condition.GridSizes);
     base.InitMaterial.SetVector("Ceto_Offset", this.m_offset);
     base.InitMaterial.SetFloat("Ceto_Time", time);
     this.m_tmpList.Clear();
     int num = this.m_buffers.Length;
     for (int i = 0; i < num; i++)
     {
         if (!this.m_buffers[i].disabled)
         {
             this.m_tmpList.Add(this.m_buffers[i].data[1]);
         }
     }
     num = this.m_tmpList.Count;
     if (num == 0)
     {
         return;
     }
     if (num == 1)
     {
         Graphics.Blit(null, this.m_tmpList[0], base.InitMaterial, base.InitPass);
     }
     else if (num == 2)
     {
         this.m_tmpBuffer2[0] = this.m_tmpList[0].colorBuffer;
         this.m_tmpBuffer2[1] = this.m_tmpList[1].colorBuffer;
         RTUtility.MultiTargetBlit(this.m_tmpBuffer2, this.m_tmpList[0].depthBuffer, base.InitMaterial, base.InitPass);
     }
     else if (num == 3)
     {
         this.m_tmpBuffer3[0] = this.m_tmpList[0].colorBuffer;
         this.m_tmpBuffer3[1] = this.m_tmpList[1].colorBuffer;
         this.m_tmpBuffer3[2] = this.m_tmpList[2].colorBuffer;
         RTUtility.MultiTargetBlit(this.m_tmpBuffer3, this.m_tmpList[0].depthBuffer, base.InitMaterial, base.InitPass);
     }
     else if (num == 4)
     {
         this.m_tmpBuffer4[0] = this.m_tmpList[0].colorBuffer;
         this.m_tmpBuffer4[1] = this.m_tmpList[1].colorBuffer;
         this.m_tmpBuffer4[2] = this.m_tmpList[2].colorBuffer;
         this.m_tmpBuffer4[3] = this.m_tmpList[3].colorBuffer;
         RTUtility.MultiTargetBlit(this.m_tmpBuffer4, this.m_tmpList[0].depthBuffer, base.InitMaterial, base.InitPass);
     }
 }
 public override void Run(WaveSpectrumCondition condition, float time)
 {
     SwapDisplacements();
     base.Run(condition, time);
 }
Esempio n. 32
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 public abstract void Run(WaveSpectrumCondition condition, float time);