waterish_os_rev3_public/libraries/Adafruit-MCP23017-Arduino-L.../examples/interrupt/interrupt.ino

// Install the LowPower library for optional sleeping support.
// See loop() function comments for details on usage.
//#include <LowPower.h>

#include <Wire.h>
#include <Adafruit_MCP23017.h>

Adafruit_MCP23017 mcp;

byte ledPin=13;

// Interrupts from the MCP will be handled by this PIN
byte arduinoIntPin=3;

// ... and this interrupt vector
byte arduinoInterrupt=1;

volatile boolean awakenByInterrupt = false;

// Two pins at the MCP (Ports A/B where some buttons have been setup.)
// Buttons connect the pin to grond, and pins are pulled up.
byte mcpPinA=7;
byte mcpPinB=15;

void setup(){

  Serial.begin(9600);
  Serial.println("MCP23007 Interrupt Test");

  pinMode(arduinoIntPin,INPUT);

  mcp.begin();      // use default address 0
  
  // We mirror INTA and INTB, so that only one line is required between MCP and Arduino for int reporting
  // The INTA/B will not be Floating 
  // INTs will be signaled with a LOW
  mcp.setupInterrupts(true,false,LOW);

  // configuration for a button on port A
  // interrupt will triger when the pin is taken to ground by a pushbutton
  mcp.pinMode(mcpPinA, INPUT);
  mcp.pullUp(mcpPinA, HIGH);  // turn on a 100K pullup internally
  mcp.setupInterruptPin(mcpPinA,FALLING); 

  // similar, but on port B.
  mcp.pinMode(mcpPinB, INPUT);
  mcp.pullUp(mcpPinB, HIGH);  // turn on a 100K pullup internall
  mcp.setupInterruptPin(mcpPinB,FALLING);

  // We will setup a pin for flashing from the int routine
  pinMode(ledPin, OUTPUT);  // use the p13 LED as debugging
  
}

// The int handler will just signal that the int has happen
// we will do the work from the main loop.
void intCallBack(){
  awakenByInterrupt=true;
}

void handleInterrupt(){
  
  // Get more information from the MCP from the INT
  uint8_t pin=mcp.getLastInterruptPin();
  uint8_t val=mcp.getLastInterruptPinValue();
  
  // We will flash the led 1 or 2 times depending on the PIN that triggered the Interrupt
  // 3 and 4 flases are supposed to be impossible conditions... just for debugging.
  uint8_t flashes=4; 
  if(pin==mcpPinA) flashes=1;
  if(pin==mcpPinB) flashes=2;
  if(val!=LOW) flashes=3;

  // simulate some output associated to this
  for(int i=0;i<flashes;i++){  
    delay(100);
    digitalWrite(ledPin,HIGH);
    delay(100);
    digitalWrite(ledPin,LOW);
  }

  // we have to wait for the interrupt condition to finish
  // otherwise we might go to sleep with an ongoing condition and never wake up again.
  // as, an action is required to clear the INT flag, and allow it to trigger again.
  // see datasheet for datails.
  while( ! (mcp.digitalRead(mcpPinB) && mcp.digitalRead(mcpPinA) ));
  // and clean queued INT signal
  cleanInterrupts();
}

// handy for interrupts triggered by buttons
// normally signal a few due to bouncing issues
void cleanInterrupts(){
  EIFR=0x01;
  awakenByInterrupt=false;
}  

/**
 * main routine: sleep the arduino, and wake up on Interrups.
 * the LowPower library, or similar is required for sleeping, but sleep is simulated here.
 * It is actually posible to get the MCP to draw only 1uA while in standby as the datasheet claims,
 * however there is no stadndby mode. Its all down to seting up each pin in a way that current does not flow.
 * and you can wait for interrupts while waiting.
 */
void loop(){
  
  // enable interrupts before going to sleep/wait
  // And we setup a callback for the arduino INT handler.
  attachInterrupt(arduinoInterrupt,intCallBack,FALLING);
  
  // Simulate a deep sleep
  while(!awakenByInterrupt);
  // Or sleep the arduino, this lib is great, if you have it.
  //LowPower.powerDown(SLEEP_1S, ADC_OFF, BOD_OFF);
  
  // disable interrupts while handling them.
  detachInterrupt(arduinoInterrupt);
  
  if(awakenByInterrupt) handleInterrupt();
}
Add Library 2019-08-09 02:01:56 +00:00			`// Install the LowPower library for optional sleeping support.`
			`// See loop() function comments for details on usage.`
			`//#include <LowPower.h>`

			`#include <Wire.h>`
			`#include <Adafruit_MCP23017.h>`

			`Adafruit_MCP23017 mcp;`

			`byte ledPin=13;`

			`// Interrupts from the MCP will be handled by this PIN`
			`byte arduinoIntPin=3;`

			`// ... and this interrupt vector`
			`byte arduinoInterrupt=1;`

			`volatile boolean awakenByInterrupt = false;`

			`// Two pins at the MCP (Ports A/B where some buttons have been setup.)`
			`// Buttons connect the pin to grond, and pins are pulled up.`
			`byte mcpPinA=7;`
			`byte mcpPinB=15;`

			`void setup(){`

			`Serial.begin(9600);`
			`Serial.println("MCP23007 Interrupt Test");`

			`pinMode(arduinoIntPin,INPUT);`

			`mcp.begin(); // use default address 0`

			`// We mirror INTA and INTB, so that only one line is required between MCP and Arduino for int reporting`
			`// The INTA/B will not be Floating`
			`// INTs will be signaled with a LOW`
			`mcp.setupInterrupts(true,false,LOW);`

			`// configuration for a button on port A`
			`// interrupt will triger when the pin is taken to ground by a pushbutton`
			`mcp.pinMode(mcpPinA, INPUT);`
			`mcp.pullUp(mcpPinA, HIGH); // turn on a 100K pullup internally`
			`mcp.setupInterruptPin(mcpPinA,FALLING);`

			`// similar, but on port B.`
			`mcp.pinMode(mcpPinB, INPUT);`
			`mcp.pullUp(mcpPinB, HIGH); // turn on a 100K pullup internall`
			`mcp.setupInterruptPin(mcpPinB,FALLING);`

			`// We will setup a pin for flashing from the int routine`
			`pinMode(ledPin, OUTPUT); // use the p13 LED as debugging`

			`}`

			`// The int handler will just signal that the int has happen`
			`// we will do the work from the main loop.`
			`void intCallBack(){`
			`awakenByInterrupt=true;`
			`}`

			`void handleInterrupt(){`

			`// Get more information from the MCP from the INT`
			`uint8_t pin=mcp.getLastInterruptPin();`
			`uint8_t val=mcp.getLastInterruptPinValue();`

			`// We will flash the led 1 or 2 times depending on the PIN that triggered the Interrupt`
			`// 3 and 4 flases are supposed to be impossible conditions... just for debugging.`
			`uint8_t flashes=4;`
			`if(pin==mcpPinA) flashes=1;`
			`if(pin==mcpPinB) flashes=2;`
			`if(val!=LOW) flashes=3;`

			`// simulate some output associated to this`
			`for(int i=0;i<flashes;i++){`
			`delay(100);`
			`digitalWrite(ledPin,HIGH);`
			`delay(100);`
			`digitalWrite(ledPin,LOW);`
			`}`

			`// we have to wait for the interrupt condition to finish`
			`// otherwise we might go to sleep with an ongoing condition and never wake up again.`
			`// as, an action is required to clear the INT flag, and allow it to trigger again.`
			`// see datasheet for datails.`
			`while( ! (mcp.digitalRead(mcpPinB) && mcp.digitalRead(mcpPinA) ));`
			`// and clean queued INT signal`
			`cleanInterrupts();`
			`}`

			`// handy for interrupts triggered by buttons`
			`// normally signal a few due to bouncing issues`
			`void cleanInterrupts(){`
			`EIFR=0x01;`
			`awakenByInterrupt=false;`
			`}`

			`/**`
			`* main routine: sleep the arduino, and wake up on Interrups.`
			`* the LowPower library, or similar is required for sleeping, but sleep is simulated here.`
			`* It is actually posible to get the MCP to draw only 1uA while in standby as the datasheet claims,`
			`* however there is no stadndby mode. Its all down to seting up each pin in a way that current does not flow.`
			`* and you can wait for interrupts while waiting.`
			`*/`
			`void loop(){`

			`// enable interrupts before going to sleep/wait`
			`// And we setup a callback for the arduino INT handler.`
			`attachInterrupt(arduinoInterrupt,intCallBack,FALLING);`

			`// Simulate a deep sleep`
			`while(!awakenByInterrupt);`
			`// Or sleep the arduino, this lib is great, if you have it.`
			`//LowPower.powerDown(SLEEP_1S, ADC_OFF, BOD_OFF);`

			`// disable interrupts while handling them.`
			`detachInterrupt(arduinoInterrupt);`

			`if(awakenByInterrupt) handleInterrupt();`
			`}`