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Dependencies: ELEC350-Practicals-FZ429
Fork of Task633-mbedos-FZ429 by
main.cpp
- Committer:
- noutram
- Date:
- 2017-11-14
- Revision:
- 12:4605f1c51824
- Parent:
- 11:ae623ddb2eff
- Child:
- 13:f05daa68720c
File content as of revision 12:4605f1c51824:
#include "mbed.h" #include "sample_hardware.hpp" #include "string.h" #include <stdio.h> #include <ctype.h> #define SWITCH1_RELEASE 1 void thread1(); void thread2(); void switchISR(); //Threads Thread t1; //Class type class message_t { public: float adcValue; int sw1State; int sw2State; //Constructor message_t(float f, int s1, int s2) { adcValue = f; sw1State = s1; sw2State = s2; } }; //Memory Pool - with capacity for 16 message_t types //MemoryPool<message_t, 16> mpool; //Message queue - matched to the memory pool //Queue<message_t, 16> queue; //Mail queue Mail<message_t, 16> mail_box; // Call this on precise intervals void adcISR() { //Read sample - make a copy float sample = adcIn; //Grab switch state uint32_t switch1State = SW1; uint32_t switch2State = SW2; //Allocate a block from the memory pool message_t *message = mail_box.alloc(); if (message == NULL) { //Out of memory printf("Out of memory\n\r"); redLED = 1; return; } //Fill in the data message->adcValue = sample; message->sw1State = switch1State; message->sw2State = switch2State; //Write to queue osStatus stat = mail_box.put(message); //Note we are sending the "pointer" //Check if succesful if (stat == osErrorResource) { redLED = 1; printf("queue->put() Error code: %4Xh, Resource not available\r\n", stat); mail_box.free(message); return; } } //Normal priority thread (consumer) void thread1() { while (true) { //Block on the queue osEvent evt = mail_box.get(); //Check status if (evt.status == osEventMail) { message_t *pMessage = (message_t*)evt.value.p; //This is the pointer (address) //Make a copy message_t msg(pMessage->adcValue, pMessage->sw1State, pMessage->sw2State); //We are done with this, so give back the memory to the pool mail_box.free(pMessage); //Echo to the terminal printf("ADC Value: %.2f\t", msg.adcValue); printf("SW1: %u\t", msg.sw1State); printf("SW2: %u\n\r", msg.sw2State); } else { printf("ERROR: %x\n\r", evt.status); } } //end while } // Main thread int main() { //Power on self-test post(); //Start message printf("Welcome\n"); //Hook up timer interrupt Ticker timer; timer.attach(&adcISR, 0.1); //Threads t1.start(thread1); printf("Main Thread\n"); while (true) { Thread::wait(5000); puts("Main Thread Alive"); } }