/* * wfi.c: * Wait for Interrupt test program * * This program demonstrates the use of the waitForInterrupt() * function in wiringPi. It listens to a button input on * BCM_GPIO pin 17 (wiringPi pin 0) * * The biggest issue with this method is that it really only works * well in Sys mode. * * Jan 2013: This way of doing things is sort of deprecated now, see * the wiringPiISR() function instead and the isr.c test program here. * * Copyright (c) 2012-2013 Gordon Henderson. *********************************************************************** * This file is part of wiringPi: * https://github.com/WiringPi/WiringPi/ * * wiringPi is free software: you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * wiringPi 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 Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public License * along with wiringPi. If not, see . *********************************************************************** */ #include #include #include // A 'key' which we can lock and unlock - values are 0 through 3 // This is interpreted internally as a pthread_mutex by wiringPi // which is hiding some of that to make life simple. #define COUNT_KEY 0 // What BCM_GPIO input are we using? #define BUTTON_PIN 17 // Debounce time in mS #define DEBOUNCE_TIME 100 // globalCounter: // Global variable to count interrupts // Should be declared volatile to make sure the compiler doesn't cache it. static volatile int globalCounter = 0 ; /* * waitForIt: * This is a thread created using the wiringPi simplified threading * mechanism. It will wait on an interrupt on the button and increment * a counter. ********************************************************************************* */ PI_THREAD (waitForIt) { int state = 0 ; int debounceTime = 0 ; (void)piHiPri (10) ; // Set this thread to be high priority for (;;) { if (waitForInterrupt (BUTTON_PIN, -1) > 0) // Got it { // Bouncing? if (millis () < debounceTime) { debounceTime = millis () + DEBOUNCE_TIME ; continue ; } // We have a valid one state ^= 1 ; piLock (COUNT_KEY) ; ++globalCounter ; piUnlock (COUNT_KEY) ; // Wait for key to be released while (digitalRead (BUTTON_PIN) == LOW) delay (1) ; debounceTime = millis () + DEBOUNCE_TIME ; } } } /* * setup: * Demo a crude but effective way to initialise the hardware ********************************************************************************* */ void setup (void) { // Use the gpio program to initialise the hardware // (This is the crude, but effective) system ("gpio edge 17 falling") ; // Setup wiringPi wiringPiSetupSys () ; // Fire off our interrupt handler piThreadCreate (waitForIt) ; } /* * main ********************************************************************************* */ int main (void) { int lastCounter = 0 ; int myCounter = 0 ; setup () ; for (;;) { printf ("Waiting ... ") ; fflush (stdout) ; while (myCounter == lastCounter) { piLock (COUNT_KEY) ; myCounter = globalCounter ; piUnlock (COUNT_KEY) ; delay (500) ; } printf (" Done. myCounter: %5d\n", myCounter) ; lastCounter = myCounter ; } return 0 ; }