My fork
Dependencies: BLE_API nRF51822-bluetooth-mdw
Fork of microbit-dal by
source/drivers/MicroBitPin.cpp
- Committer:
- LancasterUniversity
- Date:
- 2016-07-13
- Revision:
- 45:23b71960fe6c
- Parent:
- 37:b624ae5e94a5
- Child:
- 49:88f03f3feff1
File content as of revision 45:23b71960fe6c:
/* The MIT License (MIT) Copyright (c) 2016 British Broadcasting Corporation. This software is provided by Lancaster University by arrangement with the BBC. Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ /** * Class definition for MicroBitPin. * * Commonly represents an I/O pin on the edge connector. */ #include "MicroBitConfig.h" #include "MicroBitPin.h" #include "MicroBitButton.h" #include "DynamicPwm.h" #include "ErrorNo.h" /** * Constructor. * Create a MicroBitPin instance, generally used to represent a pin on the edge connector. * * @param id the unique EventModel id of this component. * * @param name the mbed PinName for this MicroBitPin instance. * * @param capability the capabilities this MicroBitPin instance should have. * (PIN_CAPABILITY_DIGITAL, PIN_CAPABILITY_ANALOG, PIN_CAPABILITY_AD, PIN_CAPABILITY_ALL) * * @code * MicroBitPin P0(MICROBIT_ID_IO_P0, MICROBIT_PIN_P0, PIN_CAPABILITY_ALL); * @endcode */ MicroBitPin::MicroBitPin(int id, PinName name, PinCapability capability) { //set mandatory attributes this->id = id; this->name = name; this->capability = capability; // Power up in a disconnected, low power state. // If we're unused, this is how it will stay... this->status = 0x00; this->pin = NULL; } /** * Disconnect any attached mBed IO from this pin. * * Used only when pin changes mode (i.e. Input/Output/Analog/Digital) */ void MicroBitPin::disconnect() { // This is a bit ugly, but rarely used code. // It would be much better to use some polymorphism here, but the mBed I/O classes aren't arranged in an inheritance hierarchy... yet. :-) if (status & IO_STATUS_DIGITAL_IN) delete ((DigitalIn *)pin); if (status & IO_STATUS_DIGITAL_OUT) delete ((DigitalOut *)pin); if (status & IO_STATUS_ANALOG_IN){ NRF_ADC->ENABLE = ADC_ENABLE_ENABLE_Disabled; // forcibly disable the ADC - BUG in mbed.... delete ((AnalogIn *)pin); } if (status & IO_STATUS_ANALOG_OUT) { if(((DynamicPwm *)pin)->getPinName() == name) ((DynamicPwm *)pin)->release(); } if (status & IO_STATUS_TOUCH_IN) delete ((MicroBitButton *)pin); this->pin = NULL; this->status = status & IO_STATUS_EVENTBUS_ENABLED; //retain event bus status } /** * Configures this IO pin as a digital output (if necessary) and sets the pin to 'value'. * * @param value 0 (LO) or 1 (HI) * * @return MICROBIT_OK on success, MICROBIT_INVALID_PARAMETER if value is out of range, or MICROBIT_NOT_SUPPORTED * if the given pin does not have digital capability. * * @code * MicroBitPin P0(MICROBIT_ID_IO_P0, MICROBIT_PIN_P0, PIN_CAPABILITY_BOTH); * P0.setDigitalValue(1); // P0 is now HI * @endcode */ int MicroBitPin::setDigitalValue(int value) { // Check if this pin has a digital mode... if(!(PIN_CAPABILITY_DIGITAL & capability)) return MICROBIT_NOT_SUPPORTED; // Ensure we have a valid value. if (value < 0 || value > 1) return MICROBIT_INVALID_PARAMETER; // Move into a Digital input state if necessary. if (!(status & IO_STATUS_DIGITAL_OUT)){ disconnect(); pin = new DigitalOut(name); status |= IO_STATUS_DIGITAL_OUT; } // Write the value. ((DigitalOut *)pin)->write(value); return MICROBIT_OK; } /** * Configures this IO pin as a digital input (if necessary) and tests its current value. * * @return 1 if this input is high, 0 if input is LO, or MICROBIT_NOT_SUPPORTED * if the given pin does not have analog capability. * * @code * MicroBitPin P0(MICROBIT_ID_IO_P0, MICROBIT_PIN_P0, PIN_CAPABILITY_BOTH); * P0.getDigitalValue(); // P0 is either 0 or 1; * @endcode */ int MicroBitPin::getDigitalValue() { //check if this pin has a digital mode... if(!(PIN_CAPABILITY_DIGITAL & capability)) return MICROBIT_NOT_SUPPORTED; // Move into a Digital input state if necessary. if (!(status & IO_STATUS_DIGITAL_IN)){ disconnect(); pin = new DigitalIn(name,PullDown); status |= IO_STATUS_DIGITAL_IN; } return ((DigitalIn *)pin)->read(); } int MicroBitPin::obtainAnalogChannel() { // Move into an analogue input state if necessary, if we are no longer the focus of a DynamicPWM instance, allocate ourselves again! if (!(status & IO_STATUS_ANALOG_OUT) || !(((DynamicPwm *)pin)->getPinName() == name)){ disconnect(); pin = (void *)DynamicPwm::allocate(name); status |= IO_STATUS_ANALOG_OUT; } return MICROBIT_OK; } /** * Configures this IO pin as an analog/pwm output, and change the output value to the given level. * * @param value the level to set on the output pin, in the range 0 - 1024 * * @return MICROBIT_OK on success, MICROBIT_INVALID_PARAMETER if value is out of range, or MICROBIT_NOT_SUPPORTED * if the given pin does not have analog capability. */ int MicroBitPin::setAnalogValue(int value) { //check if this pin has an analogue mode... if(!(PIN_CAPABILITY_ANALOG & capability)) return MICROBIT_NOT_SUPPORTED; //sanitise the level value if(value < 0 || value > MICROBIT_PIN_MAX_OUTPUT) return MICROBIT_INVALID_PARAMETER; float level = (float)value / float(MICROBIT_PIN_MAX_OUTPUT); //obtain use of the DynamicPwm instance, if it has changed / configure if we do not have one if(obtainAnalogChannel() == MICROBIT_OK) return ((DynamicPwm *)pin)->write(level); return MICROBIT_OK; } /** * Configures this IO pin as an analog/pwm output (if necessary) and configures the period to be 20ms, * with a duty cycle between 500 us and 2500 us. * * A value of 180 sets the duty cycle to be 2500us, and a value of 0 sets the duty cycle to be 500us by default. * * This range can be modified to fine tune, and also tolerate different servos. * * @param value the level to set on the output pin, in the range 0 - 180. * * @param range which gives the span of possible values the i.e. the lower and upper bounds (center +/- range/2). Defaults to MICROBIT_PIN_DEFAULT_SERVO_RANGE. * * @param center the center point from which to calculate the lower and upper bounds. Defaults to MICROBIT_PIN_DEFAULT_SERVO_CENTER * * @return MICROBIT_OK on success, MICROBIT_INVALID_PARAMETER if value is out of range, or MICROBIT_NOT_SUPPORTED * if the given pin does not have analog capability. */ int MicroBitPin::setServoValue(int value, int range, int center) { //check if this pin has an analogue mode... if(!(PIN_CAPABILITY_ANALOG & capability)) return MICROBIT_NOT_SUPPORTED; //sanitise the servo level if(value < 0 || range < 1 || center < 1) return MICROBIT_INVALID_PARAMETER; //clip - just in case if(value > MICROBIT_PIN_MAX_SERVO_RANGE) value = MICROBIT_PIN_MAX_SERVO_RANGE; //calculate the lower bound based on the midpoint int lower = (center - (range / 2)) * 1000; value = value * 1000; //add the percentage of the range based on the value between 0 and 180 int scaled = lower + (range * (value / MICROBIT_PIN_MAX_SERVO_RANGE)); return setServoPulseUs(scaled / 1000); } /** * Configures this IO pin as an analogue input (if necessary), and samples the Pin for its analog value. * * @return the current analogue level on the pin, in the range 0 - 1024, or * MICROBIT_NOT_SUPPORTED if the given pin does not have analog capability. * * @code * MicroBitPin P0(MICROBIT_ID_IO_P0, MICROBIT_PIN_P0, PIN_CAPABILITY_BOTH); * P0.getAnalogValue(); // P0 is a value in the range of 0 - 1024 * @endcode */ int MicroBitPin::getAnalogValue() { //check if this pin has an analogue mode... if(!(PIN_CAPABILITY_ANALOG & capability)) return MICROBIT_NOT_SUPPORTED; // Move into an analogue input state if necessary. if (!(status & IO_STATUS_ANALOG_IN)){ disconnect(); pin = new AnalogIn(name); status |= IO_STATUS_ANALOG_IN; } //perform a read! return ((AnalogIn *)pin)->read_u16(); } /** * Determines if this IO pin is currently configured as an input. * * @return 1 if pin is an analog or digital input, 0 otherwise. */ int MicroBitPin::isInput() { return (status & (IO_STATUS_DIGITAL_IN | IO_STATUS_ANALOG_IN)) == 0 ? 0 : 1; } /** * Determines if this IO pin is currently configured as an output. * * @return 1 if pin is an analog or digital output, 0 otherwise. */ int MicroBitPin::isOutput() { return (status & (IO_STATUS_DIGITAL_OUT | IO_STATUS_ANALOG_OUT)) == 0 ? 0 : 1; } /** * Determines if this IO pin is currently configured for digital use. * * @return 1 if pin is digital, 0 otherwise. */ int MicroBitPin::isDigital() { return (status & (IO_STATUS_DIGITAL_IN | IO_STATUS_DIGITAL_OUT)) == 0 ? 0 : 1; } /** * Determines if this IO pin is currently configured for analog use. * * @return 1 if pin is analog, 0 otherwise. */ int MicroBitPin::isAnalog() { return (status & (IO_STATUS_ANALOG_IN | IO_STATUS_ANALOG_OUT)) == 0 ? 0 : 1; } /** * Configures this IO pin as a "makey makey" style touch sensor (if necessary) * and tests its current debounced state. * * Users can also subscribe to MicroBitButton events generated from this pin. * * @return 1 if pin is touched, 0 if not, or MICROBIT_NOT_SUPPORTED if this pin does not support touch capability. * * @code * MicroBitMessageBus bus; * * MicroBitPin P0(MICROBIT_ID_IO_P0, MICROBIT_PIN_P0, PIN_CAPABILITY_ALL); * if(P0.isTouched()) * { * //do something! * } * * // subscribe to events generated by this pin! * bus.listen(MICROBIT_ID_IO_P0, MICROBIT_BUTTON_EVT_CLICK, someFunction); * @endcode */ int MicroBitPin::isTouched() { //check if this pin has a touch mode... if(!(PIN_CAPABILITY_DIGITAL & capability)) return MICROBIT_NOT_SUPPORTED; // Move into a touch input state if necessary. if (!(status & IO_STATUS_TOUCH_IN)){ disconnect(); pin = new MicroBitButton(name, id); status |= IO_STATUS_TOUCH_IN; } return ((MicroBitButton *)pin)->isPressed(); } /** * Configures this IO pin as an analog/pwm output if it isn't already, configures the period to be 20ms, * and sets the pulse width, based on the value it is given. * * @param pulseWidth the desired pulse width in microseconds. * * @return MICROBIT_OK on success, MICROBIT_INVALID_PARAMETER if value is out of range, or MICROBIT_NOT_SUPPORTED * if the given pin does not have analog capability. */ int MicroBitPin::setServoPulseUs(int pulseWidth) { //check if this pin has an analogue mode... if(!(PIN_CAPABILITY_ANALOG & capability)) return MICROBIT_NOT_SUPPORTED; //sanitise the pulse width if(pulseWidth < 0) return MICROBIT_INVALID_PARAMETER; //Check we still have the control over the DynamicPwm instance if(obtainAnalogChannel() == MICROBIT_OK) { //check if the period is set to 20ms if(((DynamicPwm *)pin)->getPeriodUs() != MICROBIT_DEFAULT_PWM_PERIOD) ((DynamicPwm *)pin)->setPeriodUs(MICROBIT_DEFAULT_PWM_PERIOD); ((DynamicPwm *)pin)->pulsewidth_us(pulseWidth); } return MICROBIT_OK; } /** * Configures the PWM period of the analog output to the given value. * * @param period The new period for the analog output in microseconds. * * @return MICROBIT_OK on success, or MICROBIT_NOT_SUPPORTED if the * given pin is not configured as an analog output. */ int MicroBitPin::setAnalogPeriodUs(int period) { if (!(status & IO_STATUS_ANALOG_OUT)) return MICROBIT_NOT_SUPPORTED; return ((DynamicPwm *)pin)->setPeriodUs(period); } /** * Configures the PWM period of the analog output to the given value. * * @param period The new period for the analog output in milliseconds. * * @return MICROBIT_OK on success, or MICROBIT_NOT_SUPPORTED if the * given pin is not configured as an analog output. */ int MicroBitPin::setAnalogPeriod(int period) { return setAnalogPeriodUs(period*1000); } /** * Obtains the PWM period of the analog output in microseconds. * * @return the period on success, or MICROBIT_NOT_SUPPORTED if the * given pin is not configured as an analog output. */ int MicroBitPin::getAnalogPeriodUs() { if (!(status & IO_STATUS_ANALOG_OUT)) return MICROBIT_NOT_SUPPORTED; return ((DynamicPwm *)pin)->getPeriodUs(); } /** * Obtains the PWM period of the analog output in milliseconds. * * @return the period on success, or MICROBIT_NOT_SUPPORTED if the * given pin is not configured as an analog output. */ int MicroBitPin::getAnalogPeriod() { return getAnalogPeriodUs()/1000; }