예제 #1
0
/*		private void MotionPlus() {
 *                      FPinMotionPlusOutputAccelleration.SliceCount = 1;
 *
 *                      double[] normalizedA = new double[3];
 *                      normalizedA[0] = (double)(FRemote.WiimoteState.MotionPlusState.RawValues.X);
 *                      normalizedA[1] = (double)(FRemote.WiimoteState.MotionPlusState.RawValues.Y);
 *                      normalizedA[2] = (double)(FRemote.WiimoteState.MotionPlusState.RawValues.Z);
 *
 *                      FPinMotionPlusOutputAccelleration.SetValue3D(0, normalizedA[0], normalizedA[1], normalizedA[2]);
 *              }
 */
        private void Classic()
        {
            FPinOutputExtCursor.SliceCount = 1;
            FPinOutputExtCursor.SetValue(0, FRemote.WiimoteState.ClassicControllerState.ButtonState.Up?1d:0d);
            FPinOutputExtCursor.SetValue(1, FRemote.WiimoteState.ClassicControllerState.ButtonState.Down?1d:0d);
            FPinOutputExtCursor.SetValue(2, FRemote.WiimoteState.ClassicControllerState.ButtonState.Left?1d:0d);
            FPinOutputExtCursor.SetValue(3, FRemote.WiimoteState.ClassicControllerState.ButtonState.Right?1d:0d);

            FPinOutputExtControls.SliceCount = 1;
            FPinOutputExtControls.SetValue(0, FRemote.WiimoteState.ClassicControllerState.ButtonState.Plus?1d:0d);
            FPinOutputExtControls.SetValue(1, FRemote.WiimoteState.ClassicControllerState.ButtonState.Minus?1d:0d);
            FPinOutputExtControls.SetValue(2, FRemote.WiimoteState.ClassicControllerState.ButtonState.Home?1d:0d);

            FPinOutputExtControls.SliceCount = 1;
            FPinOutputExtControls2.SetValue(0, FRemote.WiimoteState.ClassicControllerState.ButtonState.ZL?1d:0d);
            FPinOutputExtControls2.SetValue(1, FRemote.WiimoteState.ClassicControllerState.ButtonState.ZR?1d:0d);
            FPinOutputExtControls2.SetValue(3, FRemote.WiimoteState.ClassicControllerState.ButtonState.TriggerL?1d:0d);
            FPinOutputExtControls2.SetValue(4, FRemote.WiimoteState.ClassicControllerState.ButtonState.TriggerR?1d:0d);

            FPinOutputExtButtons.SliceCount = 1;
            FPinOutputExtButtons.SetValue(0, FRemote.WiimoteState.ClassicControllerState.ButtonState.A?1d:0d);
            FPinOutputExtButtons.SetValue(1, FRemote.WiimoteState.ClassicControllerState.ButtonState.B?1d:0d);
            FPinOutputExtButtons.SetValue(2, FRemote.WiimoteState.ClassicControllerState.ButtonState.X?1d:0d);
            FPinOutputExtButtons.SetValue(3, FRemote.WiimoteState.ClassicControllerState.ButtonState.Y?1d:0d);

            FPinOutputExtJoystickLeft.SliceCount = 1;
            FPinOutputExtJoystickLeft.SetValue(0, FRemote.WiimoteState.ClassicControllerState.RawJoystickL.X * 2);
            FPinOutputExtJoystickLeft.SetValue(1, FRemote.WiimoteState.ClassicControllerState.RawJoystickL.Y * 2);

            FPinOutputExtJoystickRight.SliceCount = 1;
            FPinOutputExtJoystickRight.SetValue(0, FRemote.WiimoteState.ClassicControllerState.RawJoystickR.X * 2);
            FPinOutputExtJoystickRight.SetValue(1, FRemote.WiimoteState.ClassicControllerState.RawJoystickR.Y * 2);
        }
예제 #2
0
        public override void Evaluate(double CurrentTime)
        {
            base.Evaluate(CurrentTime);

            if (FMidiScore == null)
            {
                return;
            }

            List <TLBaseKeyFrame> activeNotes = new List <TLBaseKeyFrame>();

            foreach (TLMidiSlice ms in FOutputSlices)
            {
                activeNotes.AddRange(ms.KeyFrames.FindAll(delegate(TLBaseKeyFrame mk) { return(mk.Time <= CurrentTime && CurrentTime < (mk as TLMidiKeyFrame).End); }));
            }

            for (int i = 0; i < 128; i++)
            {
                TLMidiKeyFrame m = activeNotes.Find(delegate(TLBaseKeyFrame mk) { return((mk as TLMidiKeyFrame).Note == i); }) as TLMidiKeyFrame;
                if (m == null)
                {
                    FChannelOut.SetValue(i, 0);
                    FVelocityOut.SetValue(i, 0);
                }
                else
                {
                    FChannelOut.SetValue(i, m.Channel);
                    FVelocityOut.SetValue(i, m.Velocity);
                }
            }
        }
예제 #3
0
파일: GetJoint.cs 프로젝트: vnmone/vvvv-sdk
        //here we go, thats the method called by vvvv each frame
        //all data handling should be in here
        public void Evaluate(int SpreadMax)
        {
            //if any of the inputs has changed
            //recompute the outputs

            if (FSkeletonInput.PinIsChanged)
            {
                if (FSkeletonInput.IsConnected)
                {
                    object currInterface;
                    FSkeletonInput.GetUpstreamInterface(out currInterface);
                    inputSkeleton = (Skeleton)currInterface;
                }
                else
                {
                    inputSkeleton = null;
                }
            }

            if (FSkeletonInput.PinIsChanged || FJointNameInput.PinIsChanged)
            {
                if (inputSkeleton != null)
                {
                    string jointName;
                    IJoint currJoint;
                    FParentNameOutput.SliceCount         = FJointNameInput.SliceCount;
                    FBaseTransformOutput.SliceCount      = FJointNameInput.SliceCount;
                    FAnimationTransformOutput.SliceCount = FJointNameInput.SliceCount;
                    for (int i = 0; i < FJointNameInput.SliceCount; i++)
                    {
                        FJointNameInput.GetString(i, out jointName);
                        if (inputSkeleton.JointTable.ContainsKey(jointName))
                        {
                            currJoint = (IJoint)inputSkeleton.JointTable[jointName];
                            if (currJoint.Parent != null)
                            {
                                FParentNameOutput.SetString(i, currJoint.Parent.Name);
                            }
                            else
                            {
                                FParentNameOutput.SetString(i, "");
                            }

                            FJointIdOutput.SetValue(i, currJoint.Id);
                            FBaseTransformOutput.SetMatrix(i, VMath.Rotate(currJoint.Rotation) * currJoint.BaseTransform);
                            FAnimationTransformOutput.SetMatrix(i, currJoint.AnimationTransform);
                        }
                        else
                        {
                            FJointIdOutput.SetValue(i, -1);
                            FBaseTransformOutput.SetMatrix(i, VMath.IdentityMatrix);
                            FAnimationTransformOutput.SetMatrix(i, VMath.IdentityMatrix);
                        }
                    }
                }
            }
        }
예제 #4
0
        //here we go, thats the method called by vvvv each frame
        //all data handling should be in here
        public void Evaluate(int SpreadMax)
        {
            //compute only on refresh
            if (FRefresh.PinIsChanged)
            {
                System.Windows.Forms.Screen [] screens = System.Windows.Forms.Screen.AllScreens;

                //set slicecount
                FResolutionOutput.SliceCount       = screens.Length;
                FResolutionOffsetOutput.SliceCount = screens.Length;
                FWorkAreaOutput.SliceCount         = screens.Length;
                FWorkAreaOffsetOutput.SliceCount   = screens.Length;
                FBitsPerPixel.SliceCount           = screens.Length;
                FDeviceName.SliceCount             = screens.Length;
                FIsPrimary.SliceCount = screens.Length;

                //loop for all slices
                for (int i = 0; i <= screens.GetUpperBound(0); i++)
                {
                    //write data to outputs
                    FResolutionOutput.SetValue2D(i, screens[i].Bounds.Width, screens[i].Bounds.Height);
                    FResolutionOffsetOutput.SetValue2D(i, screens[i].Bounds.Left, screens[i].Bounds.Top);
                    FWorkAreaOutput.SetValue2D(i, screens[i].WorkingArea.Width, screens[i].WorkingArea.Height);
                    FWorkAreaOffsetOutput.SetValue2D(i, screens[i].WorkingArea.Left, screens[i].WorkingArea.Top);
                    FBitsPerPixel.SetValue(i, (double)screens[i].BitsPerPixel);
                    FDeviceName.SetString(i, screens[i].DeviceName);
                    FIsPrimary.SetValue(i, (double)screens[i].Primary.GetHashCode());
                }
            }
        }
예제 #5
0
        //here we go, thats the method called by vvvv each frame
        //all data handling should be in here
        public void Evaluate(int SpreadMax)
        {
            //if any of the inputs has changed
            //recompute the outputs
            if (FMyValueInput.PinIsChanged)
            {
                //first set slicecounts for all outputs
                //the incoming int SpreadMax is the maximum slicecount of all input pins, which is a good default
                FMyValueOutput.SliceCount = SpreadMax;

                //the variables to fill with the input data
                double currentValueSlice;

                //loop for all slices
                for (int i = 0; i < SpreadMax; i++)
                {
                    //read data from inputs
                    FMyValueInput.GetValue(i, out currentValueSlice);

                    //your function per slice

                    //write data to outputs
                    FMyValueOutput.SetValue(i, currentValueSlice);
                }
            }
        }
예제 #6
0
        //here we go, thats the method called by vvvv each frame
        //all data handling should be in here
        public void Evaluate(int SpreadMax)
        {
            //if any of the inputs has changed
            //recompute the outputs
            if (FValueInput.PinIsChanged || FDigitInput.PinIsChanged)
            {
                //first set slicecounts for all outputs
                //the incoming int SpreadMax is the maximum slicecount of all input pins, which is a good default
                FValueOutput.SliceCount = SpreadMax;


                //the variables to fill with the input data
                double currentValueSlice;
                double currentDigitSlice;

                //loop for all slices
                for (int i = 0; i < SpreadMax; i++)
                {
                    //read data from inputs
                    FValueInput.GetValue(i, out currentValueSlice);
                    FDigitInput.GetValue(i, out currentDigitSlice);

                    FValueOutput.SetValue(i, Math.Round(currentValueSlice, (int)Math.Round(currentDigitSlice)));
                }
            }
        }
예제 #7
0
        //here we go, thats the method called by vvvv each frame
        //all data handling should be in here
        public void Evaluate(int SpreadMax)
        {
            //if any of the inputs has changed
            //recompute the outputs
            if (FMyValueInputX.PinIsChanged | FMyValueInputY.PinIsChanged)
            {
                //first set slicecounts for all outputs
                //the incoming int SpreadMax is the maximum slicecount of all input pins, which is a good default
                FMyValueOutputX.SliceCount = SpreadMax;
                FMyValueOutputY.SliceCount = SpreadMax;
                FMyValueOutputZ.SliceCount = SpreadMax;

                //the variables to fill with the input data
                double currentValueSliceX;
                double currentValueSliceY;

                //loop for all slices
                for (int i = 0; i < SpreadMax; i++)
                {
                    //read data from inputs
                    FMyValueInputX.GetValue(i, out currentValueSliceX);
                    FMyValueInputY.GetValue(i, out currentValueSliceY);

                    //write data to outputs
                    FMyValueOutputX.SetValue(i, 2 * currentValueSliceX / (1 + currentValueSliceX * currentValueSliceX + currentValueSliceY * currentValueSliceY));
                    FMyValueOutputY.SetValue(i, 2 * currentValueSliceY / (1 + currentValueSliceX * currentValueSliceX + currentValueSliceY * currentValueSliceY));
                    FMyValueOutputZ.SetValue(i, (-1 + currentValueSliceX * currentValueSliceX + currentValueSliceY * currentValueSliceY) / (1 + currentValueSliceX * currentValueSliceX + currentValueSliceY * currentValueSliceY));
                }
            }
        }
예제 #8
0
        //here we go, thats the method called by vvvv each frame
        //all data handling should be in here
        public void Evaluate(int SpreadMax)
        {
            //the variables to fill with the input data

            // speed vector
            double currentValueSliceV1;
            double currentValueSliceV2;

            if (FValueInputDeltaT.PinIsChanged)
            {
                FValueInputDeltaT.GetValue(0, out deltaT);
            }

            if (FValueInputU.PinIsChanged)
            {
                FValueInputU.GetValue(0, out U);
            }

            //if any of the inputs has changed
            //recompute the outputs
            if (FValueInputX.PinIsChanged || FValueInputY.PinIsChanged)
            {
                //first set slicecounts for all outputs
                //the incoming int SpreadMax is the maximum slicecount of all input pins, which is a good default
                FValueOutputX.SliceCount = SpreadMax;
                FValueOutputY.SliceCount = SpreadMax;

                previousValueSliceX = new double[SpreadMax];
                previousValueSliceY = new double[SpreadMax];

                for (int i = 0; i < SpreadMax; i++)
                {
                    //read data from inputs
                    FValueInputX.GetValue(i, out previousValueSliceX[i]);
                    FValueInputY.GetValue(i, out previousValueSliceY[i]);
                }
            }

            //loop for all slices
            for (int i = 0; i < SpreadMax; i++)
            {
                //compute Ikeda map

                double t = 0.4 - 6 / (previousValueSliceX[i] * previousValueSliceX[i] + previousValueSliceX[i] * previousValueSliceY[i] + 1);

                currentValueSliceV1 = 1 + U * (previousValueSliceX[i] * Math.Cos(t) - previousValueSliceY[i] * Math.Sin(t));
                currentValueSliceV2 = U * (previousValueSliceX[i] * Math.Cos(t) + previousValueSliceY[i] * Math.Sin(t));

                currentValueSliceV1 *= deltaT;
                currentValueSliceV2 *= deltaT;

                //update values
                previousValueSliceX[i] = previousValueSliceX[i] + currentValueSliceV1;
                previousValueSliceY[i] = previousValueSliceY[i] + currentValueSliceV2;

                //write data to outputs
                FValueOutputX.SetValue(i, previousValueSliceX[i]);
                FValueOutputY.SetValue(i, previousValueSliceY[i]);
            }
        }
예제 #9
0
파일: Disperse.cs 프로젝트: vnmone/vvvv-sdk
        //here we go, thats the method called by vvvv each frame
        //all data handling should be in here
        public void Evaluate(int SpreadMax)
        {
            if (FInput.PinIsChanged ||
                FGamma.PinIsChanged ||
                FBinSize.PinIsChanged)
            {
                double    curIn, curGamma, tmpBin;
                int       curBin;
                ArrayList outList = new ArrayList();
                ArrayList curList;
                for (int i = 0; i < SpreadMax; i++)
                {
                    FInput.GetValue(i, out curIn);
                    FGamma.GetValue(i, out curGamma);
                    FBinSize.GetValue(i, out tmpBin);
                    curBin  = (int)Math.Round(tmpBin);
                    curList = new ArrayList(curBin);
                    for (int j = 0; j < curBin; j++)
                    {
                        double start = j / (double)curBin / curGamma;
                        double end   = (curBin - 1.0) / (double)curBin / curGamma;
                        end = start + 1.0 - end;
                        curList.Add(VMath.Map(curIn, start, end, 0.0, 1.0, TMapMode.Clamp));
                    }
                    outList.AddRange(curList);
                }

                FOut.SliceCount = outList.Count;
                for (int i = 0; i < outList.Count; i++)
                {
                    FOut.SetValue(i, (double)outList[i]);
                }
            }
        }
예제 #10
0
        public override void Evaluate(double CurrentTime)
        {
            base.Evaluate(CurrentTime);

            if (CurrentState == null)
            {
                return;
            }

            FCurrentStateOut.SetString(0, CurrentState.Name);

            var stateCount = (FOutputSlices[0] as TLAutomataSlice).KeyFrames.Count - 1;

            FStateTimes.SliceCount = stateCount;
            for (int i = 0; i < (FOutputSlices[0] as TLAutomataSlice).KeyFrames.Count - 1; i++)
            {
                FStateTimes.SetValue(i, (FOutputSlices[0] as TLAutomataSlice).KeyFrames[i].Time);
            }

            FStates.SliceCount = stateCount;
            for (int i = 0; i < (FOutputSlices[0] as TLAutomataSlice).KeyFrames.Count - 1; i++)
            {
                FStates.SetString(i, ((FOutputSlices[0] as TLAutomataSlice).KeyFrames[i] as TLStateKeyFrame).Name);
            }
        }
예제 #11
0
        public override void Evaluate(double CurrentTime)
        {
            base.Evaluate(CurrentTime);

            for (int i = 0; i < FOutputSlices.Count; i++)
            {
                FValueOut.SetValue(i, (FOutputSlices[i] as TLValueSlice).Output);
            }
        }
예제 #12
0
        private void BalanceBoard()
        {
            FPinOutputExtButtons.SetValue(0, FRemote.WiimoteState.BalanceBoardState.WeightKg);

            FPinOutputExtAccelleration.SliceCount = 4;
            FPinOutputExtAccelleration.SetValue(0, FRemote.WiimoteState.BalanceBoardState.SensorValuesKg.TopLeft);
            FPinOutputExtAccelleration.SetValue(1, FRemote.WiimoteState.BalanceBoardState.SensorValuesKg.TopRight);
            FPinOutputExtAccelleration.SetValue(2, FRemote.WiimoteState.BalanceBoardState.SensorValuesKg.BottomLeft);
            FPinOutputExtAccelleration.SetValue(3, FRemote.WiimoteState.BalanceBoardState.SensorValuesKg.BottomRight);

            //FPinOutputExtAccelleration.SliceCount = 1;
            //FPinOutputExtAccelleration.SetValue4D(0, FRemote.WiimoteState.BalanceBoardState.SensorValuesKg.TopLeft, FRemote.WiimoteState.BalanceBoardState.SensorValuesKg.TopRight, FRemote.WiimoteState.BalanceBoardState.SensorValuesKg.BottomLeft, FRemote.WiimoteState.BalanceBoardState.SensorValuesKg.BottomRight);

            FPinOutputExtJoystickLeft.SliceCount = 1;
            FPinOutputExtJoystickLeft.SetValue2D(0, FRemote.WiimoteState.BalanceBoardState.CenterOfGravity.X * 2, FRemote.WiimoteState.BalanceBoardState.CenterOfGravity.Y * 2);
        }
예제 #13
0
파일: Trilerp.cs 프로젝트: vnmone/vvvv-sdk
        //here we go, thats the method called by vvvv each frame
        //all data handling should be in here
        public void Evaluate(int SpreadMax)
        {
            //if any of the inputs has changed
            //recompute the outputs
            if (FPositionInput.PinIsChanged || FVectorSizeInput.PinIsChanged ||
                FV010Input.PinIsChanged || FV110Input.PinIsChanged || FV100Input.PinIsChanged || FV000Input.PinIsChanged ||
                FV011Input.PinIsChanged || FV111Input.PinIsChanged || FV101Input.PinIsChanged || FV001Input.PinIsChanged)
            {
                //get vector size
                double vs;
                FVectorSizeInput.GetValue(0, out vs);
                int vectorSize = (int)vs;

                SpreadMax = Math.Max(SpreadMax, FPositionInput.SliceCount * vectorSize);

                //first set slicecounts for all outputs
                //the incoming int SpreadMax is the maximum slicecount of all input pins, which is a good default
                FPositionOutput.SliceCount = SpreadMax;


                //the variables to fill with the input data
                Vector3D vectorSlice;
                double   V010Slice;
                double   V110Slice;
                double   V100Slice;
                double   V000Slice;
                double   V011Slice;
                double   V111Slice;
                double   V101Slice;
                double   V001Slice;

                //loop for all slices
                for (int i = 0; i < SpreadMax; i++)
                {
                    //read data from inputs
                    FPositionInput.GetValue3D(i / vectorSize, out vectorSlice.x, out vectorSlice.y, out vectorSlice.z);
                    FV010Input.GetValue(i, out V010Slice);
                    FV110Input.GetValue(i, out V110Slice);
                    FV100Input.GetValue(i, out V100Slice);
                    FV000Input.GetValue(i, out V000Slice);
                    FV011Input.GetValue(i, out V011Slice);
                    FV111Input.GetValue(i, out V111Slice);
                    FV101Input.GetValue(i, out V101Slice);
                    FV001Input.GetValue(i, out V001Slice);

                    //function per slice
                    V000Slice = VMath.Trilerp(vectorSlice, V010Slice, V110Slice, V100Slice, V000Slice,
                                              V011Slice, V111Slice, V101Slice, V001Slice);

                    //write data to outputs
                    FPositionOutput.SetValue(i, V000Slice);
                }
            }
        }
예제 #14
0
        //here we go, thats the method called by vvvv each frame
        //all data handling should be in here
        public void Evaluate(int SpreadMax)
        {
            FPositionPin.SetValue3D(0, FSensor.Translation.X, FSensor.Translation.Y, FSensor.Translation.Z);
            FRotationPin.SetValue3D(0, FSensor.Rotation.X, FSensor.Rotation.Y, FSensor.Rotation.Z);
            FAnglePin.SetValue(0, FSensor.Rotation.Angle);

            for (int i = 0; i < FKeyboard.Keys; i++)
            {
                if (FKeyboard.IsKeyDown(i + 1))
                {
                    FKeyboardPin.SetValue(i, 1);
                }
                else
                {
                    FKeyboardPin.SetValue(i, 0);
                }
            }

            FDeviceTypePin.SetValue(0, FDeviceType);
        }
예제 #15
0
        //here we go, thats the method called by vvvv each frame
        //all data handling should be in here
        public void Evaluate(int SpreadMax)
        {
            double Enable;

            FEnable.GetValue(0, out Enable);
            //if any of the inputs has changed
            //recompute the outputs
            if (FEnable.PinIsChanged)
            {
                if (Enable == 1)
                {
                    m_PhidgetManager.Enable();
                }
                else
                {
                    m_PhidgetManager.Disable();
                }
            }

            if (Enable == 1 || FEnable.PinIsChanged)
            {
                int SliceCount = m_PhidgetManager.Devices.Count;
                FLibraryVersion.SliceCount = 1;
                FLibraryVersion.SetString(0, m_PhidgetManager.LibaryVersion);

                FDevice.SliceCount  = SliceCount;
                FSerial.SliceCount  = SliceCount;
                FVersion.SliceCount = SliceCount;

                for (int i = 0; i <= SliceCount; i++)
                {
                    FDevice.SetString(i, m_PhidgetManager.Devices.ToArray()[i].Name);
                    FSerial.SetValue(i, m_PhidgetManager.Devices.ToArray()[i].SerialNumber);
                    FVersion.SetValue(i, m_PhidgetManager.Devices.ToArray()[i].Version);
                }
            }
            else if (Enable == 0 || FEnable.PinIsChanged)
            {
                //int SliceCount = 1;
                //FDevice.SliceCount = SliceCount;
                //FSerial.SliceCount = SliceCount;
                //FVersion.SliceCount = SliceCount;

                //FDevice.SetString(0, "");
                //FSerial.SetValue(0, -1);
                //FVersion.SetValue(0, -1);
            }
            else
            {
            }
        }
예제 #16
0
        //here we go, thats the method called by vvvv each frame
        //all data handling should be in here
        public void Evaluate(int SpreadMax)
        {
            //if any of the inputs has changed
            //recompute the outputs
            if (FirstValue.PinIsChanged || SecondValue.PinIsChanged || SpreadCount.PinIsChanged)
            {
                double currentSpreadCount;
                double outSpreadCount = 0;
                double firstValue, secondValue;

                //for (int k = 0; k < SpreadCount.SliceCount; k++)
                for (int k = 0; k < SpreadMax; k++)
                {
                    FirstValue.GetValue(k, out firstValue);
                    SecondValue.GetValue(k, out secondValue);

                    SpreadCount.GetValue(k, out currentSpreadCount);
                    currentSpreadCount = Math.Max(1, currentSpreadCount);

                    outSpreadCount           += currentSpreadCount;
                    FMyValueOutput.SliceCount = (int)outSpreadCount;

                    double[] f = new double[(int)currentSpreadCount];

                    f[0] = firstValue;
                    FMyValueOutput.SetValue(0, f[0]);
                    f[1] = secondValue;
                    FMyValueOutput.SetValue(1, f[1]);

                    for (int i = 2; i < currentSpreadCount; i++)
                    {
                        f[i] = f[i - 1] + f[i - 2];
                        FMyValueOutput.SetValue(i, f[i]);
                    }
                }
            }
        }
예제 #17
0
 //here we go, thats the method called by vvvv each frame
 //all data handling should be in here
 public void Evaluate(int SpreadMax)
 {
     if (FSpeedInput.PinIsChanged || FNarratorInput.PinIsChanged || FStringInput.PinIsChanged)
     {
         //loop for all slices
         for (int i = 0; i < SpreadMax; i++)
         {
             //read data from inputs
             double rate = 5.0;
             FSpeedInput.GetValue(i, out rate);
             vox.Rate = (int)rate;
             int voiceindex = 0;
             FNarratorInput.GetOrd(i, out voiceindex);
             vox.Voice = vox.GetVoices(string.Empty, string.Empty).Item(voiceindex);
             FStringInput.GetString(i, out input_string);
         }
     }
     if (FSpeakInput.PinIsChanged)
     {
         double speak = 0.0;
         FSpeakInput.GetValue(0, out speak);
         if (speak > 0.5)
         {
             vox.Speak(input_string, SpeechVoiceSpeakFlags.SVSFlagsAsync | SpeechVoiceSpeakFlags.SVSFPurgeBeforeSpeak);
         }
     }
     //remember that we are running with autoevaluate == true
     if (done == true)   //endstream was fired
     {
         done = false;
         FDoneOutput.SetValue(0, 1.0);
     }
     else
     {
         FDoneOutput.SetValue(0, 0.0);
     }
 }
예제 #18
0
        //here we go, thats the method called by vvvv each frame
        //all data handling should be in here
        public void Evaluate(int SpreadMax)
        {
            int diff = FStart.Count - SpreadMax;

            if (diff > 0)
            {
                FStart.RemoveRange(SpreadMax, diff);
            }

            for (int i = 0; i > diff; i--)
            {
                FStart.Add(DateTime.Now);
            }

            FOutput.SliceCount  = SpreadMax;
            FRunning.SliceCount = SpreadMax;
            FActive.SliceCount  = SpreadMax;

            double curSet, curReset, curTime, curActive, curRunning, curOut;

            for (int i = 0; i < SpreadMax; i++)
            {
                curActive  = 0;
                curRunning = 0;
                curOut     = 0;

                FReset.GetValue(i, out curReset);
                FSet.GetValue(i, out curSet);
                if (curSet < 0.5 || curReset > 0.5)
                {
                    FStart[i] = DateTime.Now;
                }
                else
                {
                    curActive = 1;
                    FTime.GetValue(i, out curTime);
                    TimeSpan span    = DateTime.Now - FStart[i];
                    double   elapsed = ((double)span.TotalMilliseconds / 1000.0);
                    curRunning = Math.Min(elapsed / curTime, 1.0);
                    if (elapsed >= curTime)
                    {
                        curOut = 1;
                    }
                }
                FOutput.SetValue(i, curOut);
                FRunning.SetValue(i, curRunning);
                FActive.SetValue(i, curActive);
            }
        }
예제 #19
0
        //here we go, thats the method called by vvvv each frame
        //all data handling should be in here
        public void Evaluate(int SpreadMax)
        {
            double Enable = 0;

            FSerial.GetValue(0, out m_Serial);
            FEnable.GetValue(0, out Enable);


            if (FEnable.PinIsChanged || FSerial.PinIsChanged)
            {
                if (Enable == 1)
                {
                    m_CTouchData.Enable(m_Serial);
                }
                else
                {
                    m_CTouchData.Close();
                }
            }

            if (true)
            {
                FPress.SliceCount    = 1;
                FPosition.SliceCount = 1;

                FPosition.SetValue(0, m_CTouchData.Position);


                if (FSensitivity.PinIsChanged)
                {
                    double Sense;
                    FSensitivity.GetValue(0, out Sense);
                    m_CTouchData.SetSense(Sense);
                }

                for (int i = 0; i < m_CTouchData.Press.Length; i++)
                {
                    FPress.SliceCount = m_CTouchData.Press.Length;
                    FPress.SetValue(i, m_CTouchData.Press[i]);
                }

                FInfo.SliceCount = m_CTouchData.Info.Length;
                for (int i = 0; i < m_CTouchData.Info.Length; i++)
                {
                    FInfo.SetString(i, m_CTouchData.Info[i]);
                }
            }
        }
예제 #20
0
        //here we go, thats the method called by vvvv each frame
        //all data handling should be in here
        public void Evaluate(int SpreadMax)
        {
            //if any of the inputs has changed
            //recompute the outputs
            if (FInput.PinIsChanged || FVecSize.PinIsChanged || FBinSize.PinIsChanged)
            {
                double tmpVec;
                FVecSize.GetValue(0, out tmpVec);
                int vecSize = (int)Math.Round(tmpVec);

                VecBin        spread    = new VecBin(FInput, FBinSize, vecSize);
                List <double> outSpread = new List <double>();
//	            List<double> binId = new List<double>();


                for (int i = 0; i < spread.BinCount; i++)
                {
                    List <double> curBin   = new List <double>(spread.GetBin(i));
                    int           binCount = (int)(curBin.Count / (double)vecSize);
                    for (int b = 0; b < Math.Pow(binCount, (double)vecSize); b++)
                    {
                        for (int v = 0; v < vecSize; v++)
                        {
                            int id = (int)Math.Floor(b / Math.Pow(binCount, v));
                            id  = id % binCount;
                            id *= vecSize;
                            id += v;
                            outSpread.Add(curBin[id]);
                        }
                    }
                }

                FOut.SliceCount = outSpread.Count;
                for (int i = 0; i < outSpread.Count; i++)
                {
                    FOut.SetValue(i, outSpread[i]);
                }

//	            FBinId.SliceCount=binId.Count;
//	            for (int i=0; i<binId.Count; i++)
//	            {
//	                FBinId.SetValue(i, binId[i]);
//	            }
            }
        }
예제 #21
0
        //here we go, thats the method called by vvvv each frame
        //all data handling should be in here
        public void Evaluate(int SpreadMax)
        {
            //if any of the inputs has changed
            //recompute the outputs
            if (FPositionInput.PinIsChanged || FVectorSizeInput.PinIsChanged || FP1Input.PinIsChanged ||
                FP2Input.PinIsChanged || FP3Input.PinIsChanged || FP4Input.PinIsChanged)
            {
                //get vector size
                double vs;
                FVectorSizeInput.GetValue(0, out vs);
                int vectorSize = (int)vs;

                SpreadMax = Math.Max(SpreadMax, FPositionInput.SliceCount * vectorSize);

                //first set slicecounts for all outputs
                //the incoming int SpreadMax is the maximum slicecount of all input pins, which is a good default
                FValueOutput.SliceCount = SpreadMax;

                //the variables to fill with the input data
                Vector2D vectorSlice;
                double   p1Slice;
                double   p2Slice;
                double   p3Slice;
                double   p4Slice;

                //loop for all slices
                for (int i = 0; i < SpreadMax; i++)
                {
                    //read data from inputs
                    FPositionInput.GetValue2D(i / vectorSize, out vectorSlice.x, out vectorSlice.y);
                    FP1Input.GetValue(i, out p1Slice);
                    FP2Input.GetValue(i, out p2Slice);
                    FP3Input.GetValue(i, out p3Slice);
                    FP4Input.GetValue(i, out p4Slice);

                    //function per slice
                    p1Slice = VMath.Bilerp(vectorSlice, p1Slice, p2Slice, p3Slice, p4Slice);

                    //write data to outputs
                    FValueOutput.SetValue(i, p1Slice);
                }
            }
        }
예제 #22
0
        //here we go, thats the method called by vvvv each frame
        //all data handling should be in here
        public void Evaluate(int SpreadMax)
        {
            //if any of the inputs has changed
            //recompute the outputs
            if (FDistortion.PinIsChanged ||
                FFocalLength.PinIsChanged ||
                FPrincipalPoint.PinIsChanged ||
                FResolution.PinIsChanged)
            {
                //get the distortion values
                FDistortion.GetValue4D(0, out FDist.x, out FDist.y, out FDist.z, out FDist.w);
                FFocalLength.GetValue2D(0, out FFocal.x, out FFocal.y);
                FPrincipalPoint.GetValue2D(0, out FPrincipal.x, out FPrincipal.y);
                FResolution.GetValue2D(0, out FReso.x, out FReso.y);
            }

            //set slicecounts for output
            //here its the same as the input
            SpreadMax          = FInput.SliceCount;
            FOutput.SliceCount = SpreadMax;
            FTries.SliceCount  = SpreadMax;

            //the variable to fill with the input data
            Vector2D currentPosition;

            //loop for all slices
            for (int i = 0; i < SpreadMax; i++)
            {
                //read data from inputs
                FInput.GetValue2D(i, out currentPosition.x, out currentPosition.y);

                int tries;

                //function per slice
                currentPosition = Undistort(currentPosition, FFocal, FPrincipal, FDist, FReso, out tries);

                //write data to outputs
                FOutput.SetValue2D(i, currentPosition.x, currentPosition.y);
                FTries.SetValue(i, tries);
            }
        }
예제 #23
0
        //here we go, thats the method called by vvvv each frame
        //all data handling should be in here
        public void Evaluate(int SpreadMax)
        {
            //if any of the inputs has changed
            //recompute the outputs
            if (FSource.PinIsChanged ||
                FDestination.PinIsChanged ||
                FDo.PinIsChanged)
            {
                //first set slicecounts for all outputs
                //the incoming int SpreadMax is the maximum slicecount of all input pins, which is a good default
                FDone.SliceCount = SpreadMax;

                //the variables to fill with the input data
                double curDo;
                string curSource, curDest;


                //loop for all slices
                for (int i = 0; i < SpreadMax; i++)
                {
                    //read data from inputs
                    FSource.GetString(i, out curSource);
                    FDestination.GetString(i, out curDest);
                    FDo.GetValue(i, out curDo);

                    double curDone = 0;
                    if (curDo == 1)
                    {
                        IWshShell    wsh         = new WshShellClass();
                        IWshShortcut curShortcut = (IWshShortcut)wsh.CreateShortcut(curDest + ".lnk");
                        curShortcut.WindowStyle = 1;                 //for default window, 3 for maximize, 7 for minimize
                        curShortcut.TargetPath  = curSource;         //for me, or any valid Path string
                        curShortcut.Save();
                        curDone = 1;
                    }

                    //write data to outputs
                    FDone.SetValue(i, curDone);
                }
            }
        }
예제 #24
0
        //here we go, thats the method called by vvvv each frame
        //all data handling should be in here
        public void Evaluate(int SpreadMax)
        {
            if (FMyValueInputX.PinIsChanged || FMyValueInputY.PinIsChanged || FMyValueInputZ.PinIsChanged)
            {
                //the variables to fill with the input data
                double x, y, z, w;

                FMyValueOutputX.SliceCount = SpreadMax;
                FMyValueOutputY.SliceCount = SpreadMax;
                FMyValueOutputZ.SliceCount = SpreadMax;
                FMyValueOutputW.SliceCount = SpreadMax;

                //loop for all slices
                for (int i = 0; i < SpreadMax; i++)
                {
                    //read data from inputs
                    FMyValueInputX.GetValue(i, out x);
                    FMyValueInputY.GetValue(i, out y);
                    FMyValueInputZ.GetValue(i, out z);

                    // If q = A*(x*i+y*j+z*k) where (x,y,z) is unit length, then
                    // exp(q) = cos(A)+sin(A)*(x*i+y*j+z*k).  If sin(A) is near zero,
                    // use exp(q) = cos(A)+A*(x*i+y*j+z*k) since A/sin(A) has limit 1.

                    w = Math.Sqrt(x * x + y * y + z * z);

                    if (Math.Sin(w) < epsilon || Math.Sin(w) > epsilon)
                    {
                        x *= Math.Sin(w) / w;
                        y *= Math.Sin(w) / w;
                        z *= Math.Sin(w) / w;
                    }

                    //write data to outputs
                    FMyValueOutputX.SetValue(i, x);
                    FMyValueOutputY.SetValue(i, y);
                    FMyValueOutputZ.SetValue(i, z);
                    FMyValueOutputW.SetValue(i, Math.Cos(w));
                }
            }
        }
예제 #25
0
        //here we go, thats the method called by vvvv each frame
        //all data handling should be in here
        public void Evaluate(int SpreadMax)
        {
            //if any of the inputs has changed
            //recompute the outputs
            if (FPositionInput.PinIsChanged || FOctavesInput.PinIsChanged ||
                FFrequencyInput.PinIsChanged || FPersistanceInput.PinIsChanged)
            {
                //first set slicecounts for all outputs
                //the incoming int SpreadMax is the maximum slicecount of all input pins, which is a good default
                FOutput.SliceCount = SpreadMax;

                double octaves, freq, pers;
                FOctavesInput.GetValue(0, out octaves);
                FFrequencyInput.GetValue(0, out freq);
                FPersistanceInput.GetValue(0, out pers);

                //the variable to fill with the input position
                Vector4D pos;

                //loop for all slices
                for (int i = 0; i < SpreadMax; i++)
                {
                    //read position from inputs
                    FPositionInput.GetValue4D(i, out pos.x, out pos.y, out pos.z, out pos.w);

                    //noise function per slice
                    double noiseVal = 0;

                    for (int o = 0; o <= (int)octaves; o++)
                    {
                        double comul = Math.Pow(freq, o);
                        noiseVal += SimplexNoise.noise(pos.x * comul, pos.y * comul, pos.z * comul, pos.w * comul) * Math.Pow(pers, o);
                    }

                    //write data to outputs
                    FOutput.SetValue(i, noiseVal);
                }
            }
        }
예제 #26
0
        //here we go, thats the method called by vvvv each frame
        //all data handling should be in here
        public void Evaluate(int SpreadMax)
        {
            //first set slicecounts for all outputs
            //the incoming int SpreadMax is the maximum slicecount of all input pins, which is a good default
            FBatteryStateOut.SliceCount = 1;
            FPowerStateOut.SliceCount   = 1;
            FPowerMessage.SliceCount    = 1;

            int    currentValueSlice  = 0;
            string currentStringSlice = "hallo";
            string batteryStatus      = "nix los hier";

            //function
            PowerStatus power = SystemInformation.PowerStatus;

            currentValueSlice = (int)(power.BatteryLifePercent * 100);
            batteryStatus     = power.BatteryChargeStatus.ToString();

            switch (power.PowerLineStatus)
            {
            case PowerLineStatus.Online:
                currentStringSlice = "Main";
                break;

            case PowerLineStatus.Offline:
                currentStringSlice = "Battery";
                break;

            case PowerLineStatus.Unknown:
                Console.WriteLine("Unknown");
                break;
            }

            //write data to outputs
            FBatteryStateOut.SetValue(0, currentValueSlice);
            FPowerStateOut.SetString(0, currentStringSlice);
            FPowerMessage.SetString(0, batteryStatus);
        }
예제 #27
0
        //here we go, thats the method called by vvvv each frame
        //all data handling should be in here
        public void Evaluate(int SpreadMax)
        {
            //if any of the inputs has changed
            //recompute the outputs
            if (FMyValueInputM.PinIsChanged || FMyValueInputN.PinIsChanged || FMyValuePhaseM.PinIsChanged || FMyValuePhaseN.PinIsChanged)
            {
                double m, n;
                FMyValueInputM.GetValue(0, out m);
                FMyValueInputN.GetValue(0, out n);

                double phaseM, phaseN;
                FMyValuePhaseM.GetValue(0, out phaseM);
                FMyValuePhaseN.GetValue(0, out phaseN);

                int index;
                int sliceCount = (int)(m * n);

                FMyValueOutputX.SliceCount       = sliceCount;
                FMyValueOutputY.SliceCount       = sliceCount;
                FMyValueOutputIsPrime.SliceCount = sliceCount;

                for (int j = 0; j < n; j++)
                {
                    for (int i = 0; i < m; i++)
                    {
                        index = (int)(m * j + i);
                        //write data to outputs
                        double x = Convert.ToDouble(i) - Convert.ToDouble(j) / 2;
                        double y = Convert.ToDouble(j) * Math.Sqrt(3) / 2;
                        FMyValueOutputX.SetValue(index, x);
                        FMyValueOutputY.SetValue(index, y);
                        FMyValueOutputIsPrime.SetValue(index, isprime(i + Convert.ToInt32(phaseM), j + Convert.ToInt32(phaseN)));
                    }
                }
            }
        }
예제 #28
0
        //here we go, thats the method called by vvvv each frame
        //all data handling should be in here
        public void Evaluate(int SpreadMax)
        {
            double Enable;
            double Serial;

            //FConnected.SliceCount = 1;

            FSerial.GetValue(0, out Serial);
            FEnable.GetValue(0, out Enable);

            try
            {
                if (FSerial.PinIsChanged || FEnable.PinIsChanged)
                {
                    if (FSerial.PinIsChanged)
                    {
                        if (m_IKitData != null)
                        {
                            m_IKitData.Close();
                            m_IKitData = null;
                        }
                    }

                    if (Enable > 0.5)
                    {
                        if (m_IKitData == null)
                        {
                            m_IKitData = new GetEncoderHSData();
                            m_IKitData.Open(Serial);
                        }
                    }
                    else
                    {
                        if (m_IKitData != null)
                        {
                            FInfo.SliceCount = 1;
                            FInfo.SetString(0, "Disabled");
                            m_IKitData.Close();
                            m_IKitData = null;
                        }
                    }
                }
            }
            catch (Exception ex)
            {
                FHost.Log(TLogType.Error, "Error by initialising Phidget");
                FHost.Log(TLogType.Error, ex.Message.ToString());
            }



            if (Enable == 1 && m_IKitData.Attached)
            {
                //

                int SliceCountAnalogIn = m_IKitData.InfoDevice.ToArray()[0].EncoderInputs;
                try
                {
                    try
                    {
                        //getting Encoder Position
                        if (m_IKitData.InfoDevice.ToArray()[0].EncoderInputs != 0)
                        {
                            FPositionOut.SliceCount = SliceCountAnalogIn;
                            for (int i = 0; i < SliceCountAnalogIn; i++)
                            {
                                FPositionOut.SetValue(i, m_IKitData.EncoderInputs[i]);
                            }
                        }
                    }
                    catch (Exception ex)
                    {
                        FHost.Log(TLogType.Error, "Error in " + m_IKitData.InfoDevice.ToArray()[0].Name + " getting encoder Position");
                        FHost.Log(TLogType.Error, ex.Message.ToString());
                    }


                    try
                    {
                        // set Position
                        if (FSetPosition.PinIsChanged)
                        {
                            double setPosition;
                            FSetPosition.GetValue(0, out setPosition);

                            if (setPosition > 0.5)
                            {
                                double   SliceCountSense = FPositionIn.SliceCount;
                                double[] tPosition       = new double[SliceCountAnalogIn];
                                for (int i = 0; i < SliceCountAnalogIn; i++)
                                {
                                    double sense;
                                    FPositionIn.GetValue(i, out sense);
                                    tPosition[i] = sense;
                                }
                                m_IKitData.SetPosition(tPosition);
                            }
                        }
                    }
                    catch (Exception ex)
                    {
                        FHost.Log(TLogType.Error, "Error in " + m_IKitData.InfoDevice.ToArray()[0].Name + " setting encoder Position");
                        FHost.Log(TLogType.Error, ex.Message.ToString());
                    }


                    //setting Phidget Infos
                    try
                    {
                        int SpreadSizeInfo = 3;
                        for (int i = 0; i < SpreadSizeInfo; i++)
                        {
                            FInfo.SliceCount = 3;
                            switch (i)
                            {
                            case 0:
                                FInfo.SetString(i, "Name: " + m_IKitData.InfoDevice.ToArray()[0].Name);
                                break;

                            case 1:
                                FInfo.SetString(i, "Serial: " + m_IKitData.InfoDevice.ToArray()[0].SerialNumber.ToString());
                                break;

                            case 2:
                                FInfo.SetString(i, "Version: " + m_IKitData.InfoDevice.ToArray()[0].Version.ToString());
                                break;
                            }
                        }
                    }
                    catch (Exception ex)
                    {
                        FHost.Log(TLogType.Error, "Error in Phidget " + m_IKitData.InfoDevice.ToArray()[0].Name + " setting Phidget Infos");
                        FHost.Log(TLogType.Error, ex.Message.ToString());
                    }
                }
                catch (Exception ex)
                {
                    FHost.Log(TLogType.Error, "Error in Phidget " + m_IKitData.InfoDevice.ToArray()[0].Name);
                    FHost.Log(TLogType.Error, ex.Message.ToString());
                }
            }
        }
예제 #29
0
        public void Evaluate(int SpreadMax)
        {
            //calc input spreadcount
            int inputSpreadCount = SpreadMax;

            //create or delete systems
            int diff = inputSpreadCount - FParticleSystemsList.Count;

            if (diff > 0)
            {
                for (int i = 0; i < diff; i++)
                {
                    FParticleSystemsList.Add(new ParticleSystem());
                }
            }
            else if (diff < 0)
            {
                for (int i = 0; i < -diff; i++)
                {
                    FParticleSystemsList.RemoveAt(FParticleSystemsList.Count - 1 - i);
                }
            }

            //update 3D parameters
            int slice;

            if (FInitPositionsIn.PinIsChanged ||
                FVelDirectionIn.PinIsChanged ||
                FVelDeviationIn.PinIsChanged ||
                FAccDirectionIn.PinIsChanged ||
                FAccDeviationIn.PinIsChanged)
            {
                for (slice = 0; slice < inputSpreadCount; slice++)
                {
                    ParticleSystem ps = (ParticleSystem)FParticleSystemsList[slice];

                    double x, y, z;

                    //update origins
                    FInitPositionsIn.GetValue3D(slice, out x, out y, out z);
                    ps.origin = new Vector3D(x, y, z);

                    //update directions
                    FVelDirectionIn.GetValue3D(slice, out x, out y, out z);
                    ps.direction = new Vector3D(x, y, z);

                    //update deviation
                    FVelDeviationIn.GetValue3D(slice, out x, out y, out z);
                    ps.deviation = new Vector3D(x, y, z);

                    //update acceleration deviation
                    FAccDirectionIn.GetValue3D(slice, out x, out y, out z);
                    ps.accDirection = new Vector3D(x, y, z);

                    //update acceleration deviation
                    FAccDeviationIn.GetValue3D(slice, out x, out y, out z);
                    ps.accDeviation = new Vector3D(x, y, z);
                }
            }

            //update single parameters
            if (FMassIn.PinIsChanged ||
                FMassDeviationIn.PinIsChanged ||
                FLifetimeIn.PinIsChanged ||
                FLifetimeDeviationIn.PinIsChanged ||
                FIsInfluencedIn.PinIsChanged ||
                FInfluenceIn.PinIsChanged ||
                FInfluenceAmountIn.PinIsChanged ||
                FdtIn.PinIsChanged)
            {
                for (slice = 0; slice < inputSpreadCount; slice++)
                {
                    ParticleSystem ps = (ParticleSystem)FParticleSystemsList[slice];

                    double mass, massDeviation;
                    double lifetimeIn, lifetimeDeviation;
                    double isInfluenced, influenceAmount, influences;
                    double dt;

                    FMassIn.GetValue(slice, out mass);
                    FMassDeviationIn.GetValue(slice, out massDeviation);
                    FLifetimeIn.GetValue(slice, out lifetimeIn);
                    FLifetimeDeviationIn.GetValue(slice, out lifetimeDeviation);
                    FIsInfluencedIn.GetValue(slice, out isInfluenced);
                    FInfluenceAmountIn.GetValue(slice, out influenceAmount);
                    FInfluenceIn.GetValue(slice, out influences);
                    FdtIn.GetValue(slice, out dt);

                    ps.mass              = mass;
                    ps.massDeviation     = massDeviation;
                    ps.lifetime          = lifetimeIn;
                    ps.lifetimeDeviation = lifetimeDeviation;
                    ps.influences        = (influences >= 0.5);
                    ps.isInfluenced      = (isInfluenced >= 0.5);
                    ps.influenceAmount   = influenceAmount;
                    ps.dt = dt;
                }
            }

            //force calculation
            UpdateForce();


            // Cycle through all particle systems, run them and get particle counts
            FSpreadCountsOut.SliceCount = FParticleSystemsList.Count;
            int outcount = 0;

            slice = 0;
            for (slice = 0; slice < inputSpreadCount; slice++)
            {
                ParticleSystem ps = (ParticleSystem)FParticleSystemsList[slice];

                //add new particle ?
                double emit;
                FEmitIn.GetValue(slice, out emit);

                if (emit >= 0.5)
                {
                    ps.addParticle();
                }

                //update system
                double time;
                FHost.GetCurrentTime(out time);
                ps.run(0.1);
                FLastTime = time;

                //check particle count
                outcount += ps.particles.Count;
                FSpreadCountsOut.SetValue(slice, ps.particles.Count);
            }


            //write output to pins
            FPosOut.SliceCount     = outcount;
            FAgeOut.SliceCount     = outcount;
            FHeadingOut.SliceCount = outcount;

            slice = 0;
            for (int i = 0; i < inputSpreadCount; i++)
            {
                ParticleSystem ps     = (ParticleSystem)FParticleSystemsList[i];
                int            pcount = ps.particles.Count;

                for (int j = 0; j < pcount; j++)
                {
                    Particle p = (Particle)ps.particles[j];

                    FPosOut.SetValue3D(slice, p.loc.x, p.loc.y, p.loc.z);
                    FHeadingOut.SetValue3D(slice, p.vel.x, p.vel.y, p.vel.z);
                    FAgeOut.SetValue(slice, 1 - p.age());
                    slice++;
                }
            }
        }
예제 #30
0
        //here we go, thats the method called by vvvv each frame
        //all data handling should be in here
        public void Evaluate(int SpreadMax)
        {
            double pinInputEnable, pinInputDigitizing;

            FPinInputEnable.GetValue(0, out pinInputEnable);
            FPinInputDigitizing.GetValue(0, out pinInputDigitizing);
            if (FPinInputEnable.PinIsChanged)
            {
                if (pinInputEnable == 1d)
                {
                    Enable();
                }
                else
                {
                    Disable();
                }
            }
            if (Tablet == null)
            {
                return;
            }
            if (FPinInputDigitizing.PinIsChanged)
            {
                digitizing = (pinInputDigitizing == 1d);
                if (pinInputEnable == 1d)
                {
                    Disable();
                }
                Disconnect();
                Connect();
                if (pinInputEnable == 1d)
                {
                    Enable();
                }
            }
            if ((pinInputEnable == 1d))
            {
                FPinOutputProximity.SetValue(0, InContext ? 1 : 0);
                FPinOutputX.SetValue(0, X);
                FPinOutputY.SetValue(0, Y);
                FPinOutputPressure.SetValue(0, NormalPressure);
                FPinOutputCursor.SetValue(0, CursorNum);
                FPinOutputSerialNo.SetValue(0, SerialNo);
                FPinOutputCursorType.SetValue(0, CursorType);
                FPinOutputCursorSubtype.SetValue(0, CursorSubtype);
                FPinOutputButtons.SliceCount = NumButtons;
                for (int i = 0; i < NumButtons; i++)
                {
                    FPinOutputButtons.SetValue(i, ((Buttons & (1 << i)) != 0) ? 1 : 0);
                }
                FPinOutputAzimuth.SetValue(0, Azimuth);
                FPinOutputTilt.SetValue(0, Tilt);
                if (FPinDebugButtons != null)
                {
                    FPinDebugButtons.SetValue(0, NumButtons);
                }
                FPinOutputDimensions.SliceCount = 2;
                FPinOutputDimensions.SetValue(0, Tablet.Context.InputExtentX);
                FPinOutputDimensions.SetValue(1, Tablet.Context.InputExtentY);
                FPinOutputCursorName.SetString(0, CursorName);
            }
        }