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CommandStation-EX/IODevice.h

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/*
* © 2021, Neil McKechnie. All rights reserved.
*
* This file is part of DCC++EX API
*
* This is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* It is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with CommandStation. If not, see <https://www.gnu.org/licenses/>.
*/
#ifndef iodevice_h
#define iodevice_h
// Define symbol DIAG_IO to enable diagnostic output
//#define DIAG_IO Y
// Define symbol DIAG_LOOPTIMES to enable CS loop execution time to be reported
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//#define DIAG_LOOPTIMES
// Define symbol IO_NO_HAL to reduce FLASH footprint when HAL features not required
// The HAL is disabled by default on Nano and Uno platforms, because of limited flash space.
#if defined(ARDUINO_AVR_NANO) || defined(ARDUINO_AVR_UNO)
#define IO_NO_HAL
#endif
// Define symbol IO_SWITCH_OFF_SERVO to set the PCA9685 output to 0 when an
// animation has completed. This switches off the servo motor, preventing
// the continuous buzz sometimes found on servos, and reducing the
// power consumption of the servo when inactive.
// It is recommended to enable this, unless it causes you problems.
#define IO_SWITCH_OFF_SERVO
#include "DIAG.h"
#include "FSH.h"
#include "I2CManager.h"
#include "inttypes.h"
typedef uint16_t VPIN;
// Limit VPIN number to max 32767. Above this number, printing often gives negative values.
// This should be enough for 99% of users.
#define VPIN_MAX 32767
#define VPIN_NONE 65535
/*
* Callback support for state change notification from an IODevice subclass to a
* handler, e.g. Sensor object handling.
*/
class IONotifyCallback {
public:
typedef void IONotifyCallbackFunction(VPIN vpin, int value);
static void add(IONotifyCallbackFunction *function) {
IONotifyCallback *blk = new IONotifyCallback(function);
if (first) blk->next = first;
first = blk;
}
static void invokeAll(VPIN vpin, int value) {
for (IONotifyCallback *blk = first; blk != NULL; blk = blk->next)
blk->invoke(vpin, value);
}
static bool hasCallback() {
return first != NULL;
}
private:
IONotifyCallback(IONotifyCallbackFunction *function) { invoke = function; };
IONotifyCallback *next = 0;
IONotifyCallbackFunction *invoke = 0;
static IONotifyCallback *first;
};
/*
* IODevice class
*
* This class is the basis of the Hardware Abstraction Layer (HAL) for
* the DCC++EX Command Station. All device classes derive from this.
*
*/
class IODevice {
public:
// Parameter values to identify type of call to IODevice::configure.
typedef enum : uint8_t {
CONFIGURE_INPUT = 1,
CONFIGURE_SERVO = 2,
CONFIGURE_OUTPUT = 3,
} ConfigTypeEnum;
typedef enum : uint8_t {
DEVSTATE_DORMANT = 0,
DEVSTATE_PROBING = 1,
DEVSTATE_INITIALISING = 2,
DEVSTATE_NORMAL = 3,
DEVSTATE_SCANNING = 4,
DEVSTATE_FAILED = 5,
} DeviceStateEnum;
// Static functions to find the device and invoke its member functions
// begin is invoked to create any standard IODevice subclass instances.
// Also, the _begin method of any existing instances is called from here.
static void begin();
// configure is used invoke an IODevice instance's _configure method
static bool configure(VPIN vpin, ConfigTypeEnum configType, int paramCount, int params[]);
// User-friendly function for configuring an input pin.
inline static bool configureInput(VPIN vpin, bool pullupEnable) {
int params[] = {pullupEnable};
return IODevice::configure(vpin, CONFIGURE_INPUT, 1, params);
}
// User-friendly function for configuring a servo pin.
inline static bool configureServo(VPIN vpin, uint16_t activePosition, uint16_t inactivePosition, uint8_t profile=0, uint16_t duration=0, uint8_t initialState=0) {
int params[] = {(int)activePosition, (int)inactivePosition, profile, (int)duration, initialState};
return IODevice::configure(vpin, CONFIGURE_SERVO, 5, params);
}
// write invokes the IODevice instance's _write method.
static void write(VPIN vpin, int value);
// write invokes the IODevice instance's _writeAnalogue method (not applicable for digital outputs)
static void writeAnalogue(VPIN vpin, int value, uint8_t profile=0, uint16_t duration=0);
// isBusy returns true if the device is currently in an animation of some sort, e.g. is changing
// the output over a period of time.
static bool isBusy(VPIN vpin);
// check whether the pin supports notification. If so, then regular _read calls are not required.
static bool hasCallback(VPIN vpin);
// read invokes the IODevice instance's _read method.
static int read(VPIN vpin);
// read invokes the IODevice instance's _readAnalogue method.
static int readAnalogue(VPIN vpin);
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static int configureAnalogIn(VPIN vpin);
// loop invokes the IODevice instance's _loop method.
static void loop();
static void DumpAll();
// exists checks whether there is a device owning the specified vpin
static bool exists(VPIN vpin);
// Enable shared interrupt on specified pin for GPIO extender modules. The extender module
// should pull down this pin when requesting a scan. The pin may be shared by multiple modules.
// Without the shared interrupt, input states are scanned periodically to detect changes on
// GPIO extender pins. If a shared interrupt pin is configured, then input states are scanned
// only when the shared interrupt pin is pulled low. The external GPIO module releases the pin
// once the GPIO port concerned has been read.
void setGPIOInterruptPin(int16_t pinNumber);
protected:
// Constructor
IODevice(VPIN firstVpin=0, int nPins=0) {
_firstVpin = firstVpin;
_nPins = nPins;
_nextEntryTime = 0;
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_I2CAddress=0;
}
// Method to perform initialisation of the device (optionally implemented within device class)
virtual void _begin() {}
// Method to configure device (optionally implemented within device class)
virtual bool _configure(VPIN vpin, ConfigTypeEnum configType, int paramCount, int params[]) {
(void)vpin; (void)configType; (void)paramCount; (void)params; // Suppress compiler warning.
return false;
};
// Method to write new state (optionally implemented within device class)
virtual void _write(VPIN vpin, int value) {
(void)vpin; (void)value;
};
// Method to write an 'analogue' value (optionally implemented within device class)
virtual void _writeAnalogue(VPIN vpin, int value, uint8_t param1, uint16_t param2) {
(void)vpin; (void)value; (void) param1; (void)param2;
};
// Method to read digital pin state (optionally implemented within device class)
virtual int _read(VPIN vpin) {
(void)vpin;
return 0;
};
// Method to read analogue pin state (optionally implemented within device class)
virtual int _readAnalogue(VPIN vpin) {
(void)vpin;
return 0;
};
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virtual int _configureAnalogIn(VPIN vpin) {
(void)vpin;
return 0;
};
// Method to perform updates on an ongoing basis (optionally implemented within device class)
virtual void _loop(unsigned long currentMicros) {
delayUntil(currentMicros + 0x7fffffff); // Largest time in the future! Effectively disable _loop calls.
};
// Method for displaying info on DIAG output (optionally implemented within device class)
virtual void _display();
// Destructor
virtual ~IODevice() {};
// Non-virtual function
void delayUntil(unsigned long futureMicrosCount) {
_nextEntryTime = futureMicrosCount;
}
// Common object fields.
VPIN _firstVpin;
int _nPins;
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uint8_t _I2CAddress;
// Flag whether the device supports callbacks.
bool _hasCallback = false;
// Pin number of interrupt pin for GPIO extender devices. The extender module will pull this
// pin low if an input changes state.
int16_t _gpioInterruptPin = -1;
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// Method to check if pins will overlap before creating new device.
static bool checkNoOverlap(VPIN firstPin, uint8_t nPins=1, uint8_t i2cAddress=0);
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// Static support function for subclass creation
static void addDevice(IODevice *newDevice);
// Current state of device
DeviceStateEnum _deviceState = DEVSTATE_DORMANT;
private:
// Method to check whether the vpin corresponds to this device
bool owns(VPIN vpin);
// Method to find device handling Vpin
static IODevice *findDevice(VPIN vpin);
IODevice *_nextDevice = 0;
unsigned long _nextEntryTime;
static IODevice *_firstDevice;
static IODevice *_nextLoopDevice;
static bool _initPhase;
};
/////////////////////////////////////////////////////////////////////////////////////////////////////
/*
* IODevice subclass for PCA9685 16-channel PWM module.
*/
class PCA9685 : public IODevice {
public:
static void create(VPIN vpin, int nPins, uint8_t I2CAddress);
enum ProfileType : uint8_t {
Instant = 0, // Moves immediately between positions (if duration not specified)
UseDuration = 0, // Use specified duration
Fast = 1, // Takes around 500ms end-to-end
Medium = 2, // 1 second end-to-end
Slow = 3, // 2 seconds end-to-end
Bounce = 4, // For semaphores/turnouts with a bit of bounce!!
NoPowerOff = 0x80, // Flag to be ORed in to suppress power off after move.
};
private:
// Constructor
PCA9685(VPIN vpin, int nPins, uint8_t I2CAddress);
// Device-specific initialisation
void _begin() override;
bool _configure(VPIN vpin, ConfigTypeEnum configType, int paramCount, int params[]) override;
// Device-specific write functions.
void _write(VPIN vpin, int value) override;
void _writeAnalogue(VPIN vpin, int value, uint8_t profile, uint16_t duration) override;
int _read(VPIN vpin) override; // returns the digital state or busy status of the device
void _loop(unsigned long currentMicros) override;
void updatePosition(uint8_t pin);
void writeDevice(uint8_t pin, int value);
void _display() override;
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struct ServoData {
uint16_t activePosition : 12; // Config parameter
uint16_t inactivePosition : 12; // Config parameter
uint16_t currentPosition : 12;
uint16_t fromPosition : 12;
uint16_t toPosition : 12;
uint8_t profile; // Config parameter
uint16_t stepNumber; // Index of current step (starting from 0)
uint16_t numSteps; // Number of steps in animation, or 0 if none in progress.
uint8_t currentProfile; // profile being used for current animation.
uint16_t duration; // time (tenths of a second) for animation to complete.
}; // 14 bytes per element, i.e. per pin in use
struct ServoData *_servoData [16];
static const uint8_t _catchupSteps = 5; // number of steps to wait before switching servo off
static const byte FLASH _bounceProfile[30];
const unsigned int refreshInterval = 50; // refresh every 50ms
// structures for setting up non-blocking writes to servo controller
I2CRB requestBlock;
uint8_t outputBuffer[5];
};
/////////////////////////////////////////////////////////////////////////////////////////////////////
/*
* IODevice subclass for DCC accessory decoder.
*/
class DCCAccessoryDecoder: public IODevice {
public:
static void create(VPIN firstVpin, int nPins, int DCCAddress, int DCCSubaddress);
private:
// Constructor
DCCAccessoryDecoder(VPIN firstVpin, int nPins, int DCCAddress, int DCCSubaddress);
// Device-specific write function.
void _begin() override;
void _write(VPIN vpin, int value) override;
void _display() override;
int _packedAddress;
};
/////////////////////////////////////////////////////////////////////////////////////////////////////
/*
* IODevice subclass for arduino input/output pins.
*/
class ArduinoPins: public IODevice {
public:
static void create(VPIN firstVpin, int nPins) {
addDevice(new ArduinoPins(firstVpin, nPins));
}
static void fastWriteDigital(uint8_t pin, uint8_t value);
static bool fastReadDigital(uint8_t pin);
private:
// Constructor
ArduinoPins(VPIN firstVpin, int nPins);
// Device-specific pin configuration
bool _configure(VPIN vpin, ConfigTypeEnum configType, int paramCount, int params[]) override;
// Device-specific write function.
void _write(VPIN vpin, int value) override;
// Device-specific read functions.
int _read(VPIN vpin) override;
int _readAnalogue(VPIN vpin) override;
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int _configureAnalogIn(VPIN vpin) override;
void _display() override;
uint8_t *_pinPullups;
uint8_t *_pinModes; // each bit is 1 for output, 0 for input
uint8_t *_pinInUse;
};
/////////////////////////////////////////////////////////////////////////////////////////////////////
/*
* IODevice subclass for EX-Turntable.
*/
class EXTurntable : public IODevice {
public:
static void create(VPIN firstVpin, int nPins, uint8_t I2CAddress);
// Constructor
EXTurntable(VPIN firstVpin, int nPins, uint8_t I2CAddress);
enum ActivityNumber : uint8_t {
Turn = 0, // Rotate turntable, maintain phase
Turn_PInvert = 1, // Rotate turntable, invert phase
Home = 2, // Initiate homing
Calibrate = 3, // Initiate calibration sequence
LED_On = 4, // Turn LED on
LED_Slow = 5, // Set LED to a slow blink
LED_Fast = 6, // Set LED to a fast blink
LED_Off = 7, // Turn LED off
Acc_On = 8, // Turn accessory pin on
Acc_Off = 9, // Turn accessory pin off
};
private:
// Device-specific write function.
void _begin() override;
void _loop(unsigned long currentMicros) override;
int _read(VPIN vpin) override;
void _writeAnalogue(VPIN vpin, int value, uint8_t activity, uint16_t duration) override;
void _display() override;
uint8_t _stepperStatus;
};
/////////////////////////////////////////////////////////////////////////////////////////////////////
#include "IO_MCP23008.h"
#include "IO_MCP23017.h"
#include "IO_PCF8574.h"
#include "IO_LEWDUINO.h"
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#endif // iodevice_h