first compiled version

Dependencies:   mbed-rtos mbed C12832_lcd LM75B

Revision:
5:d40a563e2c3b
Parent:
4:6c17983d6192
Child:
6:45c3ad45a252
Child:
7:4992146d9872
--- a/main.cpp	Tue Mar 04 08:56:46 2014 +0000
+++ b/main.cpp	Tue Mar 04 09:04:44 2014 +0000
@@ -7,6 +7,8 @@
 //the pot values in the queue is asynchronous you need a buffer to keep the values
 //and this is provided by the MemoryPool.
 
+//I also merged your changes with mine.....temproarily commented out the pc.printf meessage for pot read.
+
 
 #include "mbed.h"
 #include "rtos.h"
@@ -17,22 +19,16 @@
 #define COOKIEQUEUE 30
 
 C12832_LCD lcd;
-Serial pc(USBTX, USBRX); // tx, rx
-
-Serial      pc(USBTX, USBRX);   //To differentiate from LCD functions
+Serial pc(USBTX, USBRX);   //To differentiate from LCD functions
 
 AnalogIn pot1(p19);
 MemoryPool<float, 10> potReadingBuffer;
 Queue<float,10> potReadingQueue;
 
-<<<<<<< local
+
 MemoryPool<char[BUFFER], COOKIEQUEUE> cookieReadingBuffer;
 Queue<char[BUFFER],COOKIEQUEUE> cookieReadingQueue;
-=======
->>>>>>> other
 
-<<<<<<< local
-=======
 /******************************************************************
 *
 *An LCD thread that updates the LCD based on information 
@@ -43,25 +39,14 @@
 *timeout) methods to get data from each of the previous threads
 *
 *******************************************************************/
->>>>>>> other
 void lcdUpdate(void const*){
 while(1){
-<<<<<<< local
        osEvent evtPot = potReadingQueue.get(1200);
         if (evtPot.status == osEventMessage) {
             float *queuePot = (float*)evtPot.value.p;
             lcd.locate(0,3);
             lcd.printf("Voltage: %.2f V", *queuePot);
             potReadingBuffer.free(queuePot);      
-=======
-       osEvent evt = potReadingQueue.get();
-        if (evt.status == osEventMail) {
-            float *queue = (float*)evt.value.p;
-            pc.printf("\nVoltage: %.2f V\n\r"   , *queue);
-            
-            pc.printf("LCD updated");
-            Thread::wait(1000);
->>>>>>> other
         }
        osEvent evtCookie = cookieReadingQueue.get(1200);
         if (evtCookie.status == osEventMessage) {
@@ -85,56 +70,41 @@
 while(1){
         float *queue = potReadingBuffer.alloc();
         *queue = pot1; 
-<<<<<<< local
         potReadingQueue.put(queue,1200);
-     
-    Thread::wait(10000);
-=======
-        potReadingQueue.put(queue);
         pc.printf("POT read");
         Thread::wait(10000);
->>>>>>> other
     }
     
 }
 
-<<<<<<< local
-
-
-=======
 /******************************************************************
 *
 *A TEMP thread that read the temperature every 60 seconds 
 *and sends the value to the LCD task via IPC Queue
 *
 *******************************************************************/
->>>>>>> other
+
 void readTemp(void const*){
     while(1){
-        pc.printf("TEMP read");
+        //pc.printf("TEMP read");
         Thread::wait(60000);
     }
     
 }
 
-<<<<<<< local
-void readCookie(void const*){
-    pc.printf(">Enter your fortune cookie\n>");
-    char (*ptrBuffer)[BUFFER] = cookieReadingBuffer.alloc();
-    char *ptrChar;
-    ptrChar=*ptrBuffer;
-=======
 /******************************************************************
 *
 *A SCANF thread that reads in a fortune cookie from user 
 *and sends it to the LCD task via IPC Memory Pool
 *
 *******************************************************************/
-void threadCookie(void const*){
-    //Checks often but low priority?
->>>>>>> other
+void readCookie(void const*){
+    pc.printf(">Enter your fortune cookie\n>");
+    char (*ptrBuffer)[BUFFER] = cookieReadingBuffer.alloc();
+    char *ptrChar;
+    ptrChar=*ptrBuffer;
     while(1){
-<<<<<<< local
+
         if(pc.readable()){
             *ptrChar=pc.getc();
             pc.putc(*ptrChar);
@@ -152,9 +122,6 @@
             }
         }
     Thread::wait(10);
-    }
-=======
-        Thread::wait(1000);
     }  
 }
 
@@ -171,7 +138,6 @@
             pc.printf("TOD updated");
             Thread::wait(60000);
     } 
->>>>>>> other
 }
 
 DigitalOut myled(LED1);