示例#1
0
        public static async Task Aggregator(
            // blinker
            FPGA.OutputSignal <bool> LED1,

            // banks
            FPGA.OutputSignal <bool> Bank1,
            FPGA.OutputSignal <bool> Bank2,
            FPGA.OutputSignal <bool> Bank3,

            // WS2812
            FPGA.OutputSignal <bool> DOUT,

            // UART
            FPGA.InputSignal <bool> RXD,
            FPGA.OutputSignal <bool> TXD

            // SERVO IO is generated inside handlers
            )
        {
            QuokkaBoard.OutputBank(Bank1);
            QuokkaBoard.InputBank(Bank2);
            QuokkaBoard.OutputBank(Bank3);

            IsAlive.Blink(LED1);

            DeviceControl(DOUT, RXD, TXD);
        }
示例#2
0
        public static async Task Aggregator(
            // blinker
            FPGA.OutputSignal <bool> LED1,

            // UART
            FPGA.InputSignal <bool> RXD,
            FPGA.OutputSignal <bool> TXD

            )
        {
            bool internalTXD = true;

            FPGA.Config.Link(internalTXD, TXD);

            IsAlive.Blink(LED1);

            Sequential handler = () =>
            {
                for (byte b = 0; b < 10; b++)
                {
                    UART.RegisteredWrite(115200, b, out internalTXD);
                }

                UART.RegisteredWrite(115200, 255, out internalTXD);
            };

            FPGA.Config.OnTimer(TimeSpan.FromSeconds(1), handler);
        }
示例#3
0
        public static async Task Aggregator(
            // blinker
            FPGA.OutputSignal <bool> LED1,

            // UART
            FPGA.InputSignal <bool> RXD,
            FPGA.OutputSignal <bool> TXD

            )
        {
            IsAlive.Blink(LED1);

            Sequential handler = () =>
            {
                byte[] buff = new byte[11];
                for (byte b = 0; b < 10; b++)
                {
                    buff[b] = b;
                }
                buff[10] = 255;

                for (byte i = 0; i < buff.Length; i++)
                {
                    byte data = 0; // TODO: initializer from memory not supported yet
                    data = buff[i];
                    UART.Write(115200, data, TXD);
                }
            };

            FPGA.Config.OnTimer(TimeSpan.FromSeconds(1), handler);
        }
示例#4
0
        public static async Task Aggregator(
            // banks
            FPGA.OutputSignal <bool> Bank1,
            FPGA.OutputSignal <bool> Bank2,

            // blinker
            FPGA.OutputSignal <bool> LED1,

            // WS2812
            FPGA.OutputSignal <bool> DOUT
            )
        {
            QuokkaBoard.OutputBank(Bank1);
            QuokkaBoard.InputBank(Bank2);

            IsAlive.Blink(LED1);

            bool internalDOUT = false;

            FPGA.Config.Link(internalDOUT, DOUT);

            byte state = 0;

            eCellType[] fieldMatrix = new eCellType[64];

            Sequential handler = () =>
            {
                state++;
                FieldMatrix.Reset(fieldMatrix);

                switch (state)
                {
                case 1:
                    fieldMatrix[0]  = eCellType.RedCross;
                    fieldMatrix[63] = eCellType.GreenCross;
                    break;

                case 2:
                    FieldMatrix.DrawCross(fieldMatrix, eCellType.GreenCross);
                    break;

                case 3:
                    FieldMatrix.DrawCross(fieldMatrix, eCellType.RedCross);
                    break;

                case 4:
                    Position head = new Position(), tail = new Position();
                    FieldMatrix.Seed(fieldMatrix, head, tail);
                    break;

                default:
                    state = 0;
                    break;
                }

                Graphics.DrawFieldMatrix(1, fieldMatrix, out internalDOUT);
            };

            FPGA.Config.OnTimer(TimeSpan.FromSeconds(1), handler);
        }
示例#5
0
 public static async Task Aggregator(
     // blinker
     FPGA.OutputSignal <bool> LED1,
     FPGA.OutputSignal <bool> LED2,
     FPGA.OutputSignal <bool> LED3,
     FPGA.OutputSignal <bool> LED4
     )
 {
     IsAlive.Blink(LED1);
     IsAlive.Blink(LED2);
     IsAlive.Blink(LED3);
     IsAlive.Blink(LED4);
 }
        public static async Task Aggregator(
            // blinker
            FPGA.OutputSignal <bool> LED1,

            // keypad
            FPGA.OutputSignal <bool> K7,
            FPGA.OutputSignal <bool> K6,
            FPGA.OutputSignal <bool> K5,
            FPGA.OutputSignal <bool> K4,
            FPGA.InputSignal <bool> K3,
            FPGA.InputSignal <bool> K2,
            FPGA.InputSignal <bool> K1,
            FPGA.InputSignal <bool> K0,

            // banks
            FPGA.OutputSignal <bool> Bank1,
            FPGA.OutputSignal <bool> Bank2,

            // WS2812
            FPGA.OutputSignal <bool> DOUT,

            // ADC
            FPGA.OutputSignal <bool> ADC1NCS,
            FPGA.OutputSignal <bool> ADC1SLCK,
            FPGA.OutputSignal <bool> ADC1DIN,
            FPGA.InputSignal <bool> ADC1DOUT,

            // UART
            FPGA.InputSignal <bool> RXD,
            FPGA.OutputSignal <bool> TXD
            )
        {
            QuokkaBoard.OutputBank(Bank1);
            QuokkaBoard.InputBank(Bank2);

            GameControlsState controlsState = new GameControlsState();

            IsAlive.Blink(LED1);

            Peripherals.GameControls(
                ADC1NCS, ADC1SLCK, ADC1DIN, ADC1DOUT,
                K7, K6, K5, K4, K3, K2, K1, K0,
                controlsState);

            SnakeControl(
                controlsState,
                DOUT, TXD);
        }
        public static async Task Aggregator(
            // blinker
            FPGA.OutputSignal <bool> LED1,
            FPGA.OutputSignal <bool> LED2,

            // keypad
            FPGA.OutputSignal <bool> K7,
            FPGA.OutputSignal <bool> K6,
            FPGA.OutputSignal <bool> K5,
            FPGA.OutputSignal <bool> K4,
            FPGA.InputSignal <bool> K3,
            FPGA.InputSignal <bool> K2,
            FPGA.InputSignal <bool> K1,
            FPGA.InputSignal <bool> K0,

            // banks
            FPGA.OutputSignal <bool> Bank1,
            FPGA.OutputSignal <bool> Bank2,

            // ADC
            FPGA.OutputSignal <bool> ADC1NCS,
            FPGA.OutputSignal <bool> ADC1SLCK,
            FPGA.OutputSignal <bool> ADC1DIN,
            FPGA.InputSignal <bool> ADC1DOUT,

            // UART
            FPGA.InputSignal <bool> RXD,
            FPGA.OutputSignal <bool> TXD
            )
        {
            IsAlive.Blink(LED1);

            QuokkaBoard.OutputBank(Bank1);
            QuokkaBoard.InputBank(Bank2);

            KeysDTO controlsState = new KeysDTO();

            Peripherals.Controls(
                ADC1NCS, ADC1SLCK, ADC1DIN, ADC1DOUT,
                K7, K6, K5, K4, K3, K2, K1, K0,
                ref controlsState);

            ConfigureReporting(controlsState, TXD, LED2);
        }
示例#8
0
        public static async Task Aggregator(
            // blinker
            FPGA.OutputSignal <bool> LED1,

            // UART
            FPGA.InputSignal <bool> RXD,
            FPGA.OutputSignal <bool> TXD

            )
        {
            IsAlive.Blink(LED1);

            SnakeDBG   dbg     = new SnakeDBG();
            Sequential handler = () =>
            {
                dbg.C1++;
                JSON.SerializeToUART(ref dbg, TXD);
            };

            FPGA.Config.OnStartup(handler);
        }
        public static async Task Aggregator(
            // blinker
            FPGA.OutputSignal <bool> LED1,

            // keypad
            FPGA.OutputSignal <bool> K7,
            FPGA.OutputSignal <bool> K6,
            FPGA.OutputSignal <bool> K5,
            FPGA.OutputSignal <bool> K4,
            FPGA.InputSignal <bool> K3,
            FPGA.InputSignal <bool> K2,
            FPGA.InputSignal <bool> K1,
            FPGA.InputSignal <bool> K0,

            // banks
            FPGA.OutputSignal <bool> Bank1,
            FPGA.OutputSignal <bool> Bank2,

            // WS2812
            FPGA.OutputSignal <bool> DOUT
            )
        {
            QuokkaBoard.OutputBank(Bank1);
            QuokkaBoard.InputBank(Bank2);

            IndicatorsControlsState controlsState = new IndicatorsControlsState();

            IsAlive.Blink(LED1);

            Peripherals.IndicatorsControls(
                K7, K6, K5, K4, K3, K2, K1, K0,
                controlsState);

            LEDControl(controlsState);

            IndicatorsControl(
                controlsState,
                DOUT);
        }
示例#10
0
        public static async Task Aggregator(
            // blinker
            FPGA.OutputSignal <bool> LED1,

            // banks
            FPGA.OutputSignal <bool> Bank1,
            FPGA.OutputSignal <bool> Bank2,
            FPGA.OutputSignal <bool> Bank5,

            // UART
            FPGA.InputSignal <bool> RXD,
            FPGA.OutputSignal <bool> TXD
            )
        {
            QuokkaBoard.OutputBank(Bank1);
            QuokkaBoard.InputBank(Bank2);
            QuokkaBoard.OutputBank(Bank5);
            IsAlive.Blink(LED1);

            bool internalTXD = true;

            FPGA.Config.Link(internalTXD, TXD);

            const int servosCount = 3;

            byte[] servosData = new byte[servosCount];

            Sequential servoHandler = () =>
            {
                uint instanceId     = FPGA.Config.InstanceId();
                var  servoOutputPin = new FPGA.OutputSignal <bool>();
                byte value          = 0;
                bool servoOutput    = false;
                byte requestValue   = 0;

                FPGA.Config.Link(servoOutput, servoOutputPin);

                while (true)
                {
                    requestValue = servosData[instanceId];

                    if (requestValue != value)
                    {
                        if (requestValue < value)
                        {
                            value--;
                        }
                        else
                        {
                            value++;
                        }
                    }

                    MG996R.Write(value, out servoOutput);
                }
            };

            FPGA.Config.OnStartup(servoHandler, servosCount);

            Sequential readHandler = () =>
            {
                byte data    = 0;
                byte counter = 0;
                while (true)
                {
                    data = UART.Read(115200, RXD);
                    if (data == 255 || counter == 255)
                    {
                        // begin of packet or overflow
                        counter = 0;
                    }
                    else
                    {
                        if (counter < servosCount)
                        {
                            servosData[counter] = data;
                        }

                        counter++;
                    }
                }
            };

            FPGA.Config.OnStartup(readHandler);
        }
示例#11
0
        public static async Task Aggregator(
            // banks
            FPGA.OutputSignal <bool> Bank1,
            FPGA.OutputSignal <bool> Bank2,

            // blinker
            FPGA.OutputSignal <bool> LED1,
            FPGA.OutputSignal <bool> LED2,
            FPGA.OutputSignal <bool> LED3,
            FPGA.OutputSignal <bool> LED4,

            // WS2812
            FPGA.OutputSignal <bool> DOUT,

            // keypad
            FPGA.OutputSignal <bool> K7,
            FPGA.OutputSignal <bool> K6,
            FPGA.OutputSignal <bool> K5,
            FPGA.OutputSignal <bool> K4,
            FPGA.InputSignal <bool> K3,
            FPGA.InputSignal <bool> K2,
            FPGA.InputSignal <bool> K1,
            FPGA.InputSignal <bool> K0,

            // ADC
            FPGA.OutputSignal <bool> ADC1NCS,
            FPGA.OutputSignal <bool> ADC1SLCK,
            FPGA.OutputSignal <bool> ADC1DIN,
            FPGA.InputSignal <bool> ADC1DOUT,

            // UART
            FPGA.InputSignal <bool> RXD,
            FPGA.OutputSignal <bool> TXD

            )
        {
            QuokkaBoard.OutputBank(Bank1);
            QuokkaBoard.InputBank(Bank2);

            GameControlsState controlsState = new GameControlsState();

            IsAlive.Blink(LED1);

            IsAlive.Blink(LED2);
            IsAlive.Blink(LED3);
            IsAlive.Blink(LED4);

            Peripherals.GameControls(
                ADC1NCS, ADC1SLCK, ADC1DIN, ADC1DOUT,
                K7, K6, K5, K4, K3, K2, K1, K0,
                controlsState);

            LEDControl(controlsState.keyCode, DOUT);

            byte       data    = 0;
            Sequential handler = () =>
            {
                UART.Write(115200, data, TXD);
                data++;
            };

            FPGA.Config.OnTimer(TimeSpan.FromSeconds(1), handler);
        }
示例#12
0
        public static async Task Aggregator(
            // blinker
            FPGA.OutputSignal <bool> LED1,

            // IO banks for Quokka board, not needed for another boards
            FPGA.OutputSignal <bool> Bank1,
            FPGA.OutputSignal <bool> Bank2,
            FPGA.OutputSignal <bool> Bank5,

            // UART
            FPGA.InputSignal <bool> RXD,
            FPGA.OutputSignal <bool> TXD
            )
        {
            QuokkaBoard.OutputBank(Bank1);
            QuokkaBoard.InputBank(Bank2);
            QuokkaBoard.OutputBank(Bank5);
            IsAlive.Blink(LED1);

            bool internalTXD = true;

            FPGA.Config.Link(internalTXD, TXD);

            const int servosCount = 3;

            byte[] servosData = new byte[servosCount];

            Sequential servoHandler = () =>
            {
                uint instanceId     = FPGA.Config.InstanceId();
                var  servoOutputPin = new FPGA.OutputSignal <bool>();
                byte value          = 0;
                bool servoOutput    = false;
                byte requestValue   = 0;

                FPGA.Config.Link(servoOutput, servoOutputPin);

                while (true)
                {
                    requestValue = servosData[instanceId];

                    if (requestValue != value)
                    {
                        if (requestValue < value)
                        {
                            value--;
                        }
                        else
                        {
                            value++;
                        }
                    }

                    MG996R.Write(value, out servoOutput);
                }
            };

            FPGA.Config.OnStartup(servoHandler, servosCount);

            Sequential readHandler = () =>
            {
                byte counter = 0;
                byte step    = 5;
                while (true)
                {
                    while (counter < 180)
                    {
                        servosData[0] = counter;
                        servosData[1] = counter;
                        servosData[2] = counter;
                        counter      += step;
                        FPGA.Runtime.Delay(TimeSpan.FromMilliseconds(100));
                    }

                    while (counter > 0)
                    {
                        servosData[0] = counter;
                        servosData[1] = counter;
                        servosData[2] = counter;
                        counter      -= step;
                        FPGA.Runtime.Delay(TimeSpan.FromMilliseconds(100));
                    }
                }
            };

            FPGA.Config.OnStartup(readHandler);
        }
        public static async Task Aggregator(
            // blinker
            FPGA.OutputSignal <bool> LED1,

            // IO banks for Quokka board, not needed for another boards
            FPGA.OutputSignal <bool> Bank1,
            FPGA.OutputSignal <bool> Bank2,
            FPGA.OutputSignal <bool> Bank5,

            // ADC
            FPGA.OutputSignal <bool> ADC1NCS,
            FPGA.OutputSignal <bool> ADC1SLCK,
            FPGA.OutputSignal <bool> ADC1DIN,
            FPGA.InputSignal <bool> ADC1DOUT,

            // UART
            FPGA.InputSignal <bool> RXD,
            FPGA.OutputSignal <bool> TXD
            )
        {
            QuokkaBoard.OutputBank(Bank1);
            QuokkaBoard.InputBank(Bank2);
            QuokkaBoard.OutputBank(Bank5);
            IsAlive.Blink(LED1);

            bool internalTXD = true;

            FPGA.Config.Link(internalTXD, TXD);

            const int servosCount = 4;

            byte[] servosData = new byte[servosCount]
            {
                90, // main panel starts lookup up
                90, // main panel starts lookup up
                50, // sensor panel starts at beginning of measurement cycle
                50, // sensor panel starts at beginning of measurement cycle
            };
            object servosLock = new object();
            bool   autoScan   = true;

            Sequential servoHandler = () =>
            {
                uint instanceId     = FPGA.Config.InstanceId();
                var  servoOutputPin = new FPGA.OutputSignal <bool>();
                byte value          = 0;
                bool servoOutput    = false;
                byte requestValue   = 0;

                FPGA.Config.Link(servoOutput, servoOutputPin);

                while (true)
                {
                    requestValue = servosData[instanceId];

                    if (FPGA.Config.InstanceId() <= 1)
                    {
                        // large panel moves with smoothing
                        if (requestValue != value)
                        {
                            if (requestValue < value)
                            {
                                value--;
                            }
                            else
                            {
                                value++;
                            }
                        }
                    }
                    else
                    {
                        value = requestValue;
                    }

                    MG996R.Write(value, out servoOutput);
                }
            };

            FPGA.Config.OnStartup(servoHandler, servosCount);

            Sequential autoScanHandler = () =>
            {
                while (true)
                {
                    if (!autoScan)
                    {
                        continue;
                    }

                    byte   s2Delta = 5;
                    sbyte  s3Delta = 5;
                    ushort maxChannel1Value = 0;
                    byte   s2Max = 0, s3Max = 0;

                    // reset sensor panel to center
                    for (byte i = 2; i < servosCount; i++)
                    {
                        servosData[i] = 90;
                    }
                    FPGA.Runtime.Delay(TimeSpan.FromMilliseconds(50));

                    byte s3 = 50;

                    for (byte s2 = 50; s2 <= 130; s2 += s2Delta)
                    {
                        servosData[2] = s2;
                        while (s3 >= 50 && s3 <= 130)
                        {
                            servosData[3] = s3;

                            // TODO: barrier sync all servo handlers
                            FPGA.Runtime.Delay(TimeSpan.FromMilliseconds(50));

                            ushort adcChannel1Value = 0, adcChannel2Value = 0;
                            ADC102S021.Read(out adcChannel1Value, out adcChannel2Value, ADC1NCS, ADC1SLCK, ADC1DIN, ADC1DOUT);

                            if (adcChannel1Value > maxChannel1Value)
                            {
                                s2Max            = s2;
                                s3Max            = s3;
                                maxChannel1Value = adcChannel1Value;

                                byte[] buff = new byte[3];
                                byte   tmp;
                                buff[0] = 255;
                                buff[1] = s2Max;
                                buff[2] = s3Max;

                                for (byte i = 0; i < buff.Length; i++)
                                {
                                    tmp = buff[i];
                                    UART.Write(115200, tmp, internalTXD);
                                }
                            }

                            s3 = (byte)(s3 + s3Delta);
                        }
                        s3Delta = (sbyte)(-s3Delta);
                        s3      = (byte)(s3 + s3Delta); // compensate for overshoot
                    }

                    servosData[1] = (byte)(180 - s2Max); // should be mirrored around 90 as servo is backwards
                    servosData[0] = s3Max;               // same value

                    FPGA.Runtime.Delay(TimeSpan.FromMilliseconds(1000));
                }
            };

            FPGA.Config.OnStartup(autoScanHandler);

            SetServos request = new SetServos();

            FPGA.Signal <bool> requestDeserialized = new FPGA.Signal <bool>();
            JSON.DeserializeFromUART <SetServos>(ref request, RXD, requestDeserialized);

            Sequential onRequest = () =>
            {
                autoScan      = request.autoRun == 0 ? false : true;
                servosData[0] = request.s0;
                servosData[1] = request.s1;
                servosData[2] = request.s2;
                servosData[3] = request.s3;
            };

            FPGA.Config.OnSignal(requestDeserialized, onRequest);
        }