mirror of
https://github.com/DCC-EX/CommandStation-EX.git
synced 2024-12-24 13:21:23 +01:00
Servo animation moved to EX-IO
This commit is contained in:
parent
47cda83210
commit
9c95eb6905
@ -70,12 +70,6 @@ private:
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_firstVpin = firstVpin;
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_firstVpin = firstVpin;
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_nPins = nPins;
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_nPins = nPins;
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_i2cAddress = i2cAddress;
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_i2cAddress = i2cAddress;
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// To save RAM, space for servo configuration is not allocated unless a pin is used.
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// Initialise the pointers to NULL.
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// _servoData = (ServoData**) calloc(_nPins, sizeof(ServoData*));
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// for (int i=0; i<_nPins; i++) {
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// _servoData[i] = NULL;
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// }
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addDevice(this);
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addDevice(this);
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}
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}
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@ -166,14 +160,6 @@ private:
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I2CManager.read(_i2cAddress, _digitalInputStates, _digitalPinBytes, _command1Buffer, 1);
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I2CManager.read(_i2cAddress, _digitalInputStates, _digitalPinBytes, _command1Buffer, 1);
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_command1Buffer[0] = EXIORDAN;
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_command1Buffer[0] = EXIORDAN;
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I2CManager.read(_i2cAddress, _analogueInputStates, _analoguePinBytes, _command1Buffer, 1);
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I2CManager.read(_i2cAddress, _analogueInputStates, _analoguePinBytes, _command1Buffer, 1);
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// if ((currentMicros - _lastRefresh) / 1000UL > refreshInterval) {
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// _lastRefresh = currentMicros;
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// for (int pin=0; pin<_nPins; pin++) {
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// if (_servoData[pin] != NULL) {
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// updatePosition(pin);
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// }
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// }
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// }
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}
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}
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// Obtain the correct analogue input value
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// Obtain the correct analogue input value
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@ -194,42 +180,21 @@ private:
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int _read(VPIN vpin) override {
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int _read(VPIN vpin) override {
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if (_deviceState == DEVSTATE_FAILED) return 0;
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if (_deviceState == DEVSTATE_FAILED) return 0;
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int pin = vpin - _firstVpin;
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int pin = vpin - _firstVpin;
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// if (_servoData[pin] == NULL) {
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uint8_t pinByte = pin / 8;
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uint8_t pinByte = pin / 8;
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bool value = bitRead(_digitalInputStates[pinByte], pin - pinByte * 8);
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bool value = bitRead(_digitalInputStates[pinByte], pin - pinByte * 8);
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return value;
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return value;
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// } else {
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// struct ServoData *s = _servoData[pin];
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// if (s == NULL) {
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// return false; // No structure means no animation!
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// } else {
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// return (s->stepNumber < s->numSteps);
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// }
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// }
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}
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}
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void _write(VPIN vpin, int value) override {
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void _write(VPIN vpin, int value) override {
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if (_deviceState == DEVSTATE_FAILED) return;
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if (_deviceState == DEVSTATE_FAILED) return;
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int pin = vpin - _firstVpin;
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int pin = vpin - _firstVpin;
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// if (_servoData[pin] == NULL) {
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_digitalOutBuffer[0] = EXIOWRD;
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_digitalOutBuffer[0] = EXIOWRD;
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_digitalOutBuffer[1] = pin;
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_digitalOutBuffer[1] = pin;
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_digitalOutBuffer[2] = value;
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_digitalOutBuffer[2] = value;
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I2CManager.read(_i2cAddress, _command1Buffer, 1, _digitalOutBuffer, 3);
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I2CManager.read(_i2cAddress, _command1Buffer, 1, _digitalOutBuffer, 3);
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if (_command1Buffer[0] != EXIORDY) {
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if (_command1Buffer[0] != EXIORDY) {
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DIAG(F("Vpin %d cannot be used as a digital output pin"), (int)vpin);
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DIAG(F("Vpin %d cannot be used as a digital output pin"), (int)vpin);
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}
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}
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// } else {
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// if (value) value = 1;
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// struct ServoData *s = _servoData[pin];
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// if (s != NULL) {
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// // Use configured parameters
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// this->_writeAnalogue(vpin, value ? s->activePosition : s->inactivePosition, s->profile, s->duration);
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// } else {
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// /* simulate digital pin on PWM */
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// this->_writeAnalogue(vpin, value ? 4095 : 0, Instant | NoPowerOff, 0);
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// }
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// }
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}
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}
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void _writeAnalogue(VPIN vpin, int value, uint8_t profile, uint16_t duration) override {
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void _writeAnalogue(VPIN vpin, int value, uint8_t profile, uint16_t duration) override {
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@ -252,88 +217,6 @@ private:
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}
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}
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}
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}
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/*
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void _writeAnalogue(VPIN vpin, int value, uint8_t profile, uint16_t duration) override {
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if (_deviceState == DEVSTATE_FAILED) return;
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int pin = vpin - _firstVpin;
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#ifdef DIAG_IO
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DIAG(F("Servo: WriteAnalogue Vpin:%d Value:%d Profile:%d Duration:%d %S"),
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vpin, value, profile, duration, _deviceState == DEVSTATE_FAILED?F("DEVSTATE_FAILED"):F(""));
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#endif
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if (_deviceState == DEVSTATE_FAILED) return;
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if (value > 4095) value = 4095;
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else if (value < 0) value = 0;
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struct ServoData *s = _servoData[pin];
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if (s == NULL) {
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// Servo pin not configured, so configure now using defaults
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s = _servoData[pin] = (struct ServoData *) calloc(sizeof(struct ServoData), 1);
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if (s == NULL) return; // Check for memory allocation failure
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s->activePosition = 4095;
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s->inactivePosition = 0;
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s->currentPosition = value;
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s->profile = Instant | NoPowerOff; // Use instant profile (but not this time)
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}
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// Animated profile. Initiate the appropriate action.
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s->currentProfile = profile;
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uint8_t profileValue = profile & ~NoPowerOff; // Mask off 'don't-power-off' bit.
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s->numSteps = profileValue==Fast ? 10 : // 0.5 seconds
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profileValue==Medium ? 20 : // 1.0 seconds
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profileValue==Slow ? 40 : // 2.0 seconds
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profileValue==Bounce ? sizeof(_bounceProfile)-1 : // ~ 1.5 seconds
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duration * 2 + 1; // Convert from deciseconds (100ms) to refresh cycles (50ms)
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s->stepNumber = 0;
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s->toPosition = value;
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s->fromPosition = s->currentPosition;
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}
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*/
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/*
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void updatePosition(uint8_t pin) {
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struct ServoData *s = _servoData[pin];
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if (s == NULL) return; // No pin configuration/state data
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if (s->numSteps == 0) return; // No animation in progress
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if (s->stepNumber == 0 && s->fromPosition == s->toPosition) {
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// Go straight to end of sequence, output final position.
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s->stepNumber = s->numSteps-1;
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}
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if (s->stepNumber < s->numSteps) {
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// Animation in progress, reposition servo
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s->stepNumber++;
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if ((s->currentProfile & ~NoPowerOff) == Bounce) {
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// Retrieve step positions from array in flash
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uint8_t profileValue = GETFLASH(&_bounceProfile[s->stepNumber]);
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s->currentPosition = map(profileValue, 0, 100, s->fromPosition, s->toPosition);
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} else {
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// All other profiles - calculate step by linear interpolation between from and to positions.
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s->currentPosition = map(s->stepNumber, 0, s->numSteps, s->fromPosition, s->toPosition);
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}
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// Send servo command
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this->writePWM(pin, s->currentPosition);
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} else if (s->stepNumber < s->numSteps + _catchupSteps) {
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// We've finished animation, wait a little to allow servo to catch up
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s->stepNumber++;
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} else if (s->stepNumber == s->numSteps + _catchupSteps
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&& s->currentPosition != 0) {
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s->numSteps = 0; // Done now.
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}
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}
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*/
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/*
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void writePWM(int pin, uint16_t value) {
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_command4Buffer[0] = EXIOWRAN;
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_command4Buffer[1] = pin;
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_command4Buffer[2] = value & 0xFF;
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_command4Buffer[3] = value >> 8;
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I2CManager.write(_i2cAddress, _command4Buffer, 4);
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}
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*/
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void _display() override {
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void _display() override {
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DIAG(F("EX-IOExpander I2C:x%x v%d.%d.%d Vpins %d-%d %S"),
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DIAG(F("EX-IOExpander I2C:x%x v%d.%d.%d Vpins %d-%d %S"),
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_i2cAddress, _majorVer, _minorVer, _patchVer,
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_i2cAddress, _majorVer, _minorVer, _patchVer,
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@ -360,36 +243,6 @@ private:
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byte _servoBuffer[7];
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byte _servoBuffer[7];
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uint8_t* _analoguePinMap;
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uint8_t* _analoguePinMap;
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/*
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// Servo specific
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struct ServoData {
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uint16_t activePosition : 12; // Config parameter
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uint16_t inactivePosition : 12; // Config parameter
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uint16_t currentPosition : 12;
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uint16_t fromPosition : 12;
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uint16_t toPosition : 12;
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uint8_t profile; // Config parameter
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uint16_t stepNumber; // Index of current step (starting from 0)
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uint16_t numSteps; // Number of steps in animation, or 0 if none in progress.
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uint8_t currentProfile; // profile being used for current animation.
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uint16_t duration; // time (tenths of a second) for animation to complete.
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}; // 14 bytes per element, i.e. per pin in use
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ServoData** _servoData;
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static const uint8_t _catchupSteps = 5; // number of steps to wait before switching servo off
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const unsigned int refreshInterval = 50; // refresh every 50ms
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unsigned long _lastRefresh = 0;
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// Profile for a bouncing signal or turnout
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// The profile below is in the range 0-100% and should be combined with the desired limits
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// of the servo set by _activePosition and _inactivePosition. The profile is symmetrical here,
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// i.e. the bounce is the same on the down action as on the up action. First entry isn't used.
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const byte FLASH _bounceProfile[30] =
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{0,2,3,7,13,33,50,83,100,83,75,70,65,60,60,65,74,84,100,83,75,70,70,72,75,80,87,92,97,100};
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*/
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// EX-IOExpander protocol flags
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// EX-IOExpander protocol flags
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enum {
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enum {
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EXIOINIT = 0xE0, // Flag to initialise setup procedure
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EXIOINIT = 0xE0, // Flag to initialise setup procedure
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