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how to pass "led" through function

 
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nfs



Joined: 28 Apr 2004
Posts: 18

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how to pass "led" through function
PostPosted: Tue May 11, 2004 9:44 am     Reply with quote

#define led1 PIN_A1
#define led1 PIN_A2
#define led1 PIN_A3
#define tension_maxi_touche_0 34

void calcul (ledx,int16 tension_maxi_touche_x,int16 tension_mini_touche_x,int1 ledy,int1 ledz)
{.....................



}

void main void
{
calcul(led1,tension_maxi_touche_0,tension_mini_touche_0,led2,led3);





}







so how can i set led in the function
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nfs
Neutone



Joined: 08 Sep 2003
Posts: 839
Location: Houston

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PostPosted: Tue May 11, 2004 10:07 am     Reply with quote

Change
ledx
to this
Int1 ledx

Also you can not define a constant (led1) to have several values
nfs



Joined: 28 Apr 2004
Posts: 18

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re
PostPosted: Tue May 11, 2004 10:12 am     Reply with quote

i've changed this but no result
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nfs
rnielsen



Joined: 23 Sep 2003
Posts: 852
Location: Utah

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PostPosted: Tue May 11, 2004 11:28 am     Reply with quote

Try this:

Code:


void calcul(int8 ledx)
{
  switch(ledx)
  {
    CASE 0:
      output_high(PIN_A1);
      break;
    CASE 1:
      output_high(PIN_A2);
      break;
    CASE 2:
      output_high(PIN_A3);
      break;
    default:
      break;
  }
}

void main void
{
int8 led;

  calcul(led);

  while(1)
  {
    ;
  }

}



Just pass the correct number for the LED you want turned on.
nfs



Joined: 28 Apr 2004
Posts: 18

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re
PostPosted: Wed May 12, 2004 2:04 am     Reply with quote

i've to pass more than one led into function like this code:
Code:

#include <16F876.h>
/* Set configuration bits in the PIC processor */
#fuses XT, NOPROTECT, NOPUT, NOWDT, NOBROWNOUT, NOLVP, NOCPD, NOWRT
//crystal, no watchdog timer, no low programming, no powerup timer, noprotect=memory protection off
#device adc=10
#device *=16
#use delay (clock=4000000)      /* sets appropriate compiler constants 1µsecond instruction cycle */
#use standard_io ( a )
#use standard_io ( b )
#use standard_io ( c )
#define led1 PIN_A1   //led jaune commutateur '0'
#define led2 PIN_A2   //led verte commutateur '0'
#define led3 PIN_A3   //led rouge commutateur '0'
#define led4 PIN_A5   //led jaune commutateur 'R'
#define led5 PIN_B0   //led verte commutateur 'R'
#define led6 PIN_B1   //led rouge commutateur 'R'
#define led7 PIN_B2   //led jaune commutateur '+'
#define led8 PIN_B3   //led verte commutateur '+'
#define led9 PIN_B4   //led rouge commutateur '+'
#define led10 PIN_B5   //led jaune commutateur '-'
#define led11 PIN_B6   //led verte commutateur '-'
#define led12 PIN_B7   //led rouge commutateur '-'
#define Vpp     1024     //seuil maxi de tension
#define Vppfluct 1003   //seuil autorisé de fluctuation de la tension
#define Vppmin   973    //seuil pour lequel la tension est passée du niveau haut à un niveau plus bas*****
#define Vss    0       //seuil minimal de tension
#define Vctq   921     //seuil de chute de la tension
#define tension_maxi_touche_0    34
#define tension_mini_touche_0    0
#define tension_maxi_touche_R    790
#define tension_mini_touche_R    750
#define tension_maxi_touche_plus    523
#define tension_mini_touche_plus    463
#define tension_maxi_touche_moins    287
#define tension_mini_touche_moins    245
#define txPC   PIN_C6
#define rxPC   PIN_C7
#use RS232(BAUD=9600,BITS=8,XMIT=PIN_C6,RCV=PIN_C7)
#bit ADFM_BIT=0x9F.7
#bit PCFG3_BIT=0X9F.3
#bit PCFG2_BIT=0X9F.2
#bit PCFG1_BIT=0X9F.1
#bit PCFG0_BIT=0X9F.0
#byte INTCON = 0x0b //registre des interruptions
#byte PIE1 = 0x8c   //registre contenant les autorisations d'interruptions
#byte PIR1 = 0x0c
#byte ADCON0 = 0x1f  //registre du convertisseur
#byte ADCON1 = 0x9f  //rôle des pins+justification du resultat de la conversion
#byte ADRESH = 0x1e
#byte ADRESL = 0x9e
#byte port_b = 0x06
#byte port_c = 0x07
#bit GO_DONE = ADCON0.2
#bit ADON = ADCON0.0
#bit ADIE = PIE1.6
#bit ADIF = PIR1.6
#define SET_TRIS_A = 0b00001; // PORTA  AN0 entrée et les autres en sortie
#define SET_TRIS_B = 0x00; // PORTB en sortie
#define TMR1IE = PIE1.0
#define TMR1IF = PIR1.0


int16 us;
int16 ADCvaleur;
long ADCvtot;
int1 wait=true;
long Counter1;
int8 Counter2=99;
int8 counter3 =499;
int8 cnt;

#int_TIMER2
TIMER2_isr()
{
Counter1++;
ADIF=0;
}

void InitialiseADC ()
{
setup_port_a( RA0_ANALOG );
setup_adc( ADC_CLOCK_DIV_8 );
set_adc_channel( 0 );
delay_us(10);
}

#int_rtcc
isr()
{
cnt++;
}

void calcul (int1 ledx,int16 tension_maxi_touche_x,int16 tension_mini_touche_x,int1 ledy,int1 ledz)
         {
            setup_timer_2(T2_DIV_BY_4,5,5);
            enable_interrupts(INT_TIMER2);
            enable_interrupts(GLOBAL);
            ADCvaleur=read_ADC();
            Counter1=0;
            while (Counter1<19999)
               {
                        ADCvaleur=read_ADC();
                        if (ADCvaleur>Vppfluct)
                        {
                        output_high (ledx);
                        }
                        else

                           if (ADCvaleur=Vppfluct)
                           {
                             disable_interrupts ( INT_TIMER2 );
                             delay_ms(10);
                             ADCvaleur=read_ADC();
                               if ((ADCvaleur<=tension_maxi_touche_x) && (ADCvaleur>=tension_mini_touche_x))
                                 {
                                 setup_counters(RTCC_INTERNAL, RTCC_DIV_2);
                                 enable_interrupts (INT_RTCC);
                                 enable_interrupts ( GLOBAL );
                                 set_rtcc (216);
                                 do
                                 {
                                 ADCvaleur = Read_ADC();           /* read the ADC */
                                 ADCvtot += ADCvaleur;           /* add it to total, for later averaging */
                                 }
                                 while ((cnt  <= counter3) && (ADCvaleur<=tension_maxi_touche_x) && (ADCvaleur>=tension_mini_touche_x));              /* increment count, is it ten counts yet? */
                                 disable_interrupts ( INT_RTCC );    /* don't allow interrupts during display */
                                 ADCvtot /= 500;    /* division par 500 échantillons pour calculer la moyenne des tensions relevée */
                                 setup_timer_2(T2_DIV_BY_4,10,5);
                                 enable_interrupts(INT_TIMER2);
                                 enable_interrupts(GLOBAL);
                                 ADCvaleur=read_ADC();
                                    if (ADCvaleur == ADCvtot+ADCvtot*0.1)
                                    {
                                    disable_interrupts(INT_timer2);
                                    delay_ms(20);
                                    counter1=0;
                                    setup_timer_2(T2_DIV_BY_4,15,5);
                                    enable_interrupts(INT_TIMER2);
                                    enable_interrupts(GLOBAL);
                                    ADCvaleur=read_ADC();
                                    do
                                    output_high(ledy);
                                    while ((ADCvaleur>=Vppfluct) && (counter1=199));
                                    disable_interrupts(INT_timer2);
                                    }
                                 }
                                else
                                    output_high(ledz);
                                 }
                               else
                              output_high(ledz);
                            }

          if (counter1=19999)
          {
          output_high(ledz);
          output_low(ledx);
          }
         }
    }

 void main( void )
    {
    long ADCvaleur;
    long ADCvtot;


      OUTPUT_B(0x00);// clear all pins on port b
      ADCON0=0x81; // fosc/32, RA0, a/d off, a/d operating
      ADCON1=0x8E; // an0 is a/d input, rest port a digital, internal ref, right justified
      INTCON=0xc0; // enable global interrupts and peripherals

      InitialiseADC();
      if (ADIF ==1)
      ADIF = 0;
      ADCvaleur = 0;
      ADCvtot = 0;
      calcul(led1,tension_maxi_touche_0,tension_mini_touche_0,led2,led3);
      delay_ms(1000);
      calcul(led4,tension_maxi_touche_R,tension_mini_touche_R,led5,led6);
      delay_ms(1000);
      calcul(led7,tension_maxi_touche_plus,tension_mini_touche_plus,led8,led9);
      delay_ms(1000);
      calcul(led10,tension_maxi_touche_moins,tension_mini_touche_moins,led11,led12);
      delay_ms(1000);
    }
 

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