Éric Bisson / Mbed 2 deprecated S5info_APP4

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Dependencies:   mbed-rtos mbed CRC16

Fork of S5info_APP2 by Éric Bisson

Diff: main.cpp.orig

Revision:
16:f2661759714c
Parent:
15:7c2e70c36b98
Child:
17:2b4b3f3a0489
--- a/main.cpp.orig	Tue Mar 07 04:54:45 2017 +0000
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,169 +0,0 @@
-#include "mbed.h"
-#include "rtos.h"
-#include "bit.h"
-#include "uart.h"
-
-const float HALF_PERIOD = 0.05; // secondes
-
-Serial pc(USBTX, USBRX, 9600);
-DigitalIn in(p14);
-DigitalOut out(p13);
-Thread ThreadLecture;
-
-bool transmit = false;      //faux pour le debut de demi-periode d'envoie d'un bit, vrai pour la 2ème demi-periode
-char trame_sent[80];        //tableau de la trame à envoyer
-uint8_t byte_sent_pos,      //position de l'octet dans le tableau d'envoi
-        bit_sent,           //position du bit de l'octet en cours d'envoi (du MSB au LSB) 7..0
-        trame_length;       //longueur de la trame complete
-//test
-
-bool clockTick = false;
-  
-extern "C" void RIT_IRQHandler(void) {
-    //clear flag
-    LPC_RIT->RICTRL |= bit0; //write 1 to clear bit
-    
-    //bIsHalfPeriod = !bIsHalfPeriod;
-}
-
-void p14_interrupt()
-{    
-    // On turn off les interrupts de lecture une fois qu'on a détecter un message
-    //uart.attach(NULL, uart.RxIrq);
-
-    // On envoie le signal au thread de lecture
-    ThreadLecture.signal_set(1);
-};
-
-void read()
-{
-    while(true) 
-    {
-        // Attente passive d'un message entrant
-        //uart.attach(&p14_interrupt, uart.RxIrq);
-        ThreadLecture.signal_wait(1);
-        
-        // Lis le message. Retourne une exception si il y a une erreur
-        //vector<char> message = uart_read(uart);
-        
-        //if (!message.empty())
-        //{
-            // Affiche le message à l'écran
-            //pc.printf(&message[0], message.size());
-        //}
-    }
-};
-
-void rit_init()
-{
-    //Timer 1 (match)
-    LPC_SC->PCLKSEL0 |= (1 << 4);           // pclk = cclk timer1
-    LPC_SC->PCONP |= (1 << 2);              // timer1 power on
-    LPC_TIM1->MR0 = CLOCKS_TO_SECOND / 100; // 10 ms
-    LPC_TIM1->MCR = 3;                      // interrupt and reset control
-                                            // Interrupt & reset timer on match
-    LPC_TIM1->EMR = (3 << 4);
-    NVIC_EnableIRQ(TIMER1_IRQn);            // enable timer interrupt
-    LPC_TIM1->TCR = 1;                      // enable Timer
- 
-    //Timer 2 (cap)
-    LPC_SC->PCLKSEL1 |= (1 << 12);          // pclk = cclk timer2
-    LPC_SC->PCONP |= (1 << 22);             // timer2 power on
-    LPC_TIM2->TC = 0;                       // clear timer counter
-    LPC_TIM2->PC = 0;                       // clear prescale counter
-    LPC_TIM2->PR = 0;                       // clear prescale register
-    LPC_TIM2->TCR |= (1 << 1);              // reset timer
-    LPC_TIM2->TCR &= ~(1 << 1);             // release reset
-    LPC_TIM2->IR = 0xFFFFFFFF;              // clear interrupt register
-    LPC_TIM2->CCR |= 0x0000007;             // enable rising-edge and falling-edge capture on 2.0
-    NVIC_EnableIRQ(TIMER2_IRQn);            // enable timer interrupt
-    LPC_TIM2->TCR = 1;                      // start Timer
-};
-
-bool codeManchester(bool bit, bool clock)
-{
-    return (bit == clock);
-}
-
-void send_data()
-{
-    out = codeManchester(((trame_sent[byte_sent_pos] >> bit_sent) & 0x01), clockTick);  // Encodage Manchester
-    if(clockTick)
-    {
-        bit_sent--;
-    }
-    clockTick = !clockTick;       //varier entre la 1ere et 2eme partie de demi-periode
-    if (bit_sent < 0) {     //Si l'octet a ete envoye
-        bit_sent = 7;       //remettre la position initiale pour le prochain octet
-        byte_sent_pos++;    //incrementer l'octet
-        if (byte_sent_pos >= trame_length) {  //Si la trame a ete envoyee
-            byte_sent_pos = 0;
-            clockTick = false;
-        }
-    }
-}
-
-//création de la trame
-void create_trame(char message[],int taille)
-{
-    CRC16 *myCRC = new CRC16();
-    unsigned short resultCRC = myCRC->calculateCRC16(message,taille); 
-    
-    trame_sent[0] = 0x55;    //Preambule
-    trame_sent[1] = 0x7E;    //Start
-    trame_sent[2] = 0x00;    //Type + Flag mis a 0x00
-    trame_sent[3] = (char)taille;     //Longueur du message (Max 33 caractères)
-    
-    //message
-    for (int i=0;i<taille;i++)
-    {
-        trame_sent[taille + 4] = message[i];
-    }
-        
-    //CRC16
-    trame_sent[taille + 4] = (resultCRC >> 8) & 0xFF;
-    trame_sent[taille + 5] = resultCRC & 0xFF;
-    
-    trame_sent[taille + 6] = 0x7E;    //End
-    trame_length = taille + 7;        //Longueur de la trame
-}
-
-//obtention du texte
-void get_text()
-{
-    pc.printf("\n\rYour text : ");
-    int count = 0;
-    char c = 0x00;
-    char text[73];
-    while(c != 0x0D && count < 73) { //Tant que c'est different de '\r' et pour un maximum de 73 caractères 
-        c = pc.getc();
-        text[count] = c;
-        pc.putc(c);
-        count++;
-    }
-    
-    create_trame(text,count);
-}
-
-void write()
-{
-    byte_sent_pos = 0;
-    bit_sent = 7;
-    clockTick = false;
-    //TODO start interrupt timer 1 
-    //LPC_RIT->MCR = 1;                      //Permettre les interruption du MAT
-    //LPC_RIT->MR0 = LPC_RIT->TC + HALF_PERIOD;  //Faire une interruption a la prochaine demi-periode
-}
-
-int main() {
-    rit_init();
-    
-    ThreadLecture.start(read);
-    
-    while(true) {
-        get_text();
-        write();
-        //uart.printf("12345");
-        wait_ms(100);
-    }
-};
\ No newline at end of file