* AM2321的取温度间隔得大于2s,否则,i2c会不工作了 * SimpleTimer有个bug,会导致两次快速的读温度,现在读温度函数里加了保护 * Blynk有个bug,会导致无法把数据传到服务器 * 现在可以正常工作了
Blynk_v0_3_7/SimpleTimer/SimpleTimer.cpp
- Committer:
- lixianyu
- Date:
- 2016-06-23
- Revision:
- 0:740c1eb2df13
File content as of revision 0:740c1eb2df13:
/* * SimpleTimer.cpp * * SimpleTimer - A timer library for Arduino. * Author: mromani@ottotecnica.com * Copyright (c) 2010 OTTOTECNICA Italy * * This library 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 2.1 of the License, or (at * your option) any later version. * * This library 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 this library; if not, * write to the Free Software Foundation, Inc., * 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA */ #include "SimpleTimer.h" Timer g_SimpleTimer; // Select time function: //static inline unsigned long elapsed() { return micros(); } //static inline uint32_t elapsed() { return g_SimpleTimer.read_ms(); } SimpleTimer::SimpleTimer() { g_SimpleTimer.start(); uint32_t current_millis = g_SimpleTimer.read_ms(); for (int i = 0; i < MAX_TIMERS; i++) { enabled[i] = false; callbacks[i] = 0; // if the callback pointer is zero, the slot is free, i.e. doesn't "contain" any timer prev_millis[i] = current_millis; numRuns[i] = 0; } numTimers = 0; } void SimpleTimer::run() { int i; uint32_t current_millis; // get current time current_millis = g_SimpleTimer.read_ms(); for (i = 0; i < MAX_TIMERS; i++) { toBeCalled[i] = DEFCALL_DONTRUN; // no callback == no timer, i.e. jump over empty slots if (callbacks[i]) { current_millis = g_SimpleTimer.read_ms(); //LiXianyu added. // is it time to process this timer ? // see http://arduino.cc/forum/index.php/topic,124048.msg932592.html#msg932592 if (current_millis - prev_millis[i] >= delays[i]) { // update time //prev_millis[i] = current_millis; //prev_millis[i] += delays[i]; prev_millis[i] = g_SimpleTimer.read_ms(); // LiXianyu added. // check if the timer callback has to be executed if (enabled[i]) { // "run forever" timers must always be executed if (maxNumRuns[i] == RUN_FOREVER) { toBeCalled[i] = DEFCALL_RUNONLY; //(*callbacks[i])(); } // other timers get executed the specified number of times else if (numRuns[i] < maxNumRuns[i]) { toBeCalled[i] = DEFCALL_RUNONLY; numRuns[i]++; // after the last run, delete the timer if (numRuns[i] >= maxNumRuns[i]) { toBeCalled[i] = DEFCALL_RUNANDDEL; //(*callbacks[i])(); } } } } } } for (i = 0; i < MAX_TIMERS; i++) { switch(toBeCalled[i]) { case DEFCALL_DONTRUN: break; case DEFCALL_RUNONLY: (*callbacks[i])(); break; case DEFCALL_RUNANDDEL: (*callbacks[i])(); deleteTimer(i); break; } //prev_millis[i] = g_SimpleTimer.read_ms(); // LiXianyu added. } } // find the first available slot // return -1 if none found int SimpleTimer::findFirstFreeSlot() { int i; // all slots are used if (numTimers >= MAX_TIMERS) { return -1; } // return the first slot with no callback (i.e. free) for (i = 0; i < MAX_TIMERS; i++) { if (callbacks[i] == 0) { return i; } } // no free slots found return -1; } int SimpleTimer::setTimer(uint32_t d, timer_callback f, int n) { int freeTimer; freeTimer = findFirstFreeSlot(); if (freeTimer < 0) { return -1; } if (f == NULL) { return -1; } delays[freeTimer] = d; callbacks[freeTimer] = f; maxNumRuns[freeTimer] = n; enabled[freeTimer] = true; prev_millis[freeTimer] = g_SimpleTimer.read_ms(); numTimers++; return freeTimer; } int SimpleTimer::setInterval(uint32_t d, timer_callback f) { return setTimer(d, f, RUN_FOREVER); } int SimpleTimer::setTimeout(uint32_t d, timer_callback f) { return setTimer(d, f, RUN_ONCE); } void SimpleTimer::deleteTimer(int timerId) { if (timerId >= MAX_TIMERS) { return; } // nothing to delete if no timers are in use if (numTimers == 0) { return; } // don't decrease the number of timers if the // specified slot is already empty if (callbacks[timerId] != NULL) { callbacks[timerId] = 0; enabled[timerId] = false; toBeCalled[timerId] = DEFCALL_DONTRUN; delays[timerId] = 0; numRuns[timerId] = 0; // update number of timers numTimers--; } } // function contributed by code@rowansimms.com void SimpleTimer::restartTimer(int numTimer) { if (numTimer >= MAX_TIMERS) { return; } prev_millis[numTimer] = g_SimpleTimer.read_ms(); } bool SimpleTimer::isEnabled(int numTimer) { if (numTimer >= MAX_TIMERS) { return false; } return enabled[numTimer]; } void SimpleTimer::enable(int numTimer) { if (numTimer >= MAX_TIMERS) { return; } enabled[numTimer] = true; } void SimpleTimer::disable(int numTimer) { if (numTimer >= MAX_TIMERS) { return; } enabled[numTimer] = false; } void SimpleTimer::toggle(int numTimer) { if (numTimer >= MAX_TIMERS) { return; } enabled[numTimer] = !enabled[numTimer]; } int SimpleTimer::getNumTimers() { return numTimers; }